dtv.mcot.netdtv.mcot.net/data/manual/book1190966038.pdf · attention rd / may 2000 read me!...
TRANSCRIPT
RD Digital AudioConsole
TECHNICAL MANUAL
March 2000
R-16 / Dec 1997
RD Digital Audio Console Technical Manual - 2nd EditionRD Digital Audio Console Technical Manual - 2nd EditionRD Digital Audio Console Technical Manual - 2nd EditionRD Digital Audio Console Technical Manual - 2nd EditionRD Digital Audio Console Technical Manual - 2nd Edition
©2000 Audioarts® Engineering*
AUDIOARTS ENGINEERING
600 Industrial Drive
New Bern, North Carolina 28562
252-638-7000
*a division of Wheatstone Corporation
RD / May 2000
AAAAATTENTIONTTENTIONTTENTIONTTENTIONTTENTION
RRRRREADEADEADEADEAD M M M M MEEEEE!!!!!RD / May 2000
Attention!
This console contains static sensitive devices:Normal precautions against static discharge should be observed when
handling individual modules. In particular, modules being packed for shippingfor return or repair must be packed in special static protection bags beforepackaging. Damage caused by static discharge may not be covered underwarranty.
Replacing Modules in a Powered-up Console:While in an emergency situation it is possible to remove and insert modules
on a powered-up console, Wheatstone does not recommend this procedure.Whenever possible it is best to power down the console first before removingor replacing modules.
However, if you find you must proceed with this operation, then be sure totake the following precaution:
When re-inserting a module, take care to replug it squarely into itsmainframe connector socket, so all edgecard fingers make contactsimultaneously. In other words, the gold-plated bus connector fingers on thebottom edge of the module's printed circuit board must be inserted squarely(i.e., perpendicular) to the mating socket on the bottom pan of the consolemainframe. The intent is to prevent a situation where one of the module'spower pins makes significant contact before the others. (Naturally, thissame precaution must be taken when using extenders.)
If the above instructions are followed the procedure should be routine; if theyare not, you could run the risk of damaging the console's logic chips.
Again, to avoid ANY possibility of this damage, whenever possible westrongly recommend powering down the console before replacing any modules.
!
RRRRR E A DE A DE A DE A DE A D M M M M MEEEEE!!!!!May 2000
Console Clock Battery Backup
Attention!
Console Clock Display Card
To activate battery backup of the console’s clock simply pull out the yellowstrip from the clock display card, that is mounted on the inside of consolemeterbridge, as shown on the picture below.
Your Audioarts RD audio console is equipped with two"module extractor tools" which are mounted underneath theconsole armrest, to the far right (just above and to the left ofthe righthand mainframe headphone jack).
Main module faceplates are held into the console mainframe by twomounting screws (top and bottom). When removed the screws leavespecially threaded holes that accept the two extractor tools.
To remove a module faceplate from the mainframe:
Remove the front top and bottom mounting screws. Remove the extractortools from underneath the armrest, and screw each tool into a modulefaceplate mounting hole. Use only four or five turns (do not over-insert; youmay damage the threaded mainframe hole underneath). Using the extractortools as handles, pull the module straight up out of the mainframe.
Module Removal Tools
E X T R A C T O R T O O L S
page Contents – 1RD / May 2000
C O N T E N T S
RD Technical Manual
Table of Contents
Chapter 1 – Installation and Power
Countertop Mounting................................................................. 1-2Clearances .............................................................................................................. 1-2
System Ground .......................................................................... 1-2
Power Supplies .......................................................................... 1-4The PSC-D340 Power Supply ................................................................................ 1-5
Power Connector Pinout ......................................................................................... 1-5
PSC-D340 Power Supply Schematic ................................................................... 1-5A
The VU/Timer Cable ............................................................................................... 1-6
Energizing ............................................................................................................... 1-6
Audio and Control Wiring .......................................................... 1-7Connection Procedures .......................................................................................... 1-7
Digital Audio Connections ...................................................................................... 1-7
Analog Insert Points................................................................................................ 1-7
Unbalanced Connections (analog audio) ............................................................... 1-8
Hand Crimp Tool Wiring Instructions ...................................................................... 1-9
Chapter 2 - Mono Mic Inputs
Module Overview........................................................................ 2-2
Internal Programming Options ................................................. 2-3Insert Bypass .......................................................................................................... 2-3
Phantom Power ...................................................................................................... 2-3
Mutes ...................................................................................................................... 2-3
Timer Restart .......................................................................................................... 2-3
Tallies ...................................................................................................................... 2-4
Utility Bus Pre-Fader .............................................................................................. 2-4
Talkback .................................................................................................................. 2-4
Superphone Output Assign .................................................................................... 2-5
Hook-ups..................................................................................... 2-5AUDIO CONNECTIONS ......................................................................................... 2-5
CONTROL CONNECTIONS................................................................................... 2-6
Remote ON & OFF ................................................................................................. 2-6
Cough ..................................................................................................................... 2-6
Talkback to Control Room ...................................................................................... 2-6
On Tally ................................................................................................................... 2-7
Off Tally ................................................................................................................... 2-7
DB Connector Pinout Drawing.................................................. 2-8
Mono Mic Input Module Signal Flow Diagram ......................... 2-9
RD / Oct 2001
page Contents – 2RD / May 2000
C O N T E N T S
Chapter 3 - Stereo Line Inputs
Module Overview...........................................................................3-2
Internal Programming Options ....................................................3-3Mutes ........................................................................................................................ 3-3
Timer Restart ............................................................................................................ 3-3
Cue Dropout .............................................................................................................. 3-3
Local/Ready .............................................................................................................. 3-3
Utility Bus Pre-Fader ................................................................................................ 3-4
Tallies ........................................................................................................................ 3-4
Superphone Output Assign ...................................................................................... 3-4
Remote On/OFF — Constant vs. Pulse ................................................................... 3-4
Remote START/STOP - Normal vs. EFS ................................................................. 3-5
Hook-ups........................................................................................3-5ANALOG AUDIO CONNECTIONS ........................................................................... 3-5
DIGITAL AUDIO CONNECTIONS ............................................................................ 3-6
CONTROL CONNECTIONS..................................................................................... 3-6
Remote ON & OFF ................................................................................................... 3-7
On Tally ..................................................................................................................... 3-7
External START & STOP ......................................................................................... 3-7
Ready ........................................................................................................................ 3-7
Typical Hook-Up Diagram ........................................................................................ 3-8
DB Connector Pinout DrawingsADC Analog Version ................................................................................................. 3-9
SRC Digital Version ................................................................................................. 3-10
Stereo Line Input Signal Flow Diagram .....................................3-11
Chapter 4 - Output Modules
Module Overview...........................................................................4-2
Internal Programming Options ....................................................4-3Insert Bypass ............................................................................................................ 4-3
Hook-ups........................................................................................4-3Master Output Module 1 (PGM)
Upper DB-25 Connector — Analog Audio ......................................................... 4-3
Lower DB-25 Connector — Digital Outputs ....................................................... 4-4
Master Output Module 2 (AUD and UTIL)
Upper DB-25 Connector — Analog Audio ........................................................ 4-4
Lower DB-25 Connector — Digital Outputs ....................................................... 4-4
DB Connector Pinout DrawingsMaster Output 1 ........................................................................................................ 4-5
Master Output 2 ........................................................................................................ 4-6
Master Output Modules Signal Flow Diagram ............................4-7
page Contents – 3RD / May 2000
C O N T E N T S
Chapter 5 - Control Room Module
Module Overview...........................................................................5-2
Internal Programming Options ....................................................5-3Cue Interrupt ............................................................................................................. 5-3
Cue Mute .................................................................................................................. 5-3
Mono Cue ................................................................................................................. 5-3
Hook-ups........................................................................................5-4Upper DB-25 Connector — AUDIO .......................................................................... 5-4
Upper DB-25 Connector — CONTROL .................................................................... 5-4
On-Air Tally ......................................................................................................... 5-4
Lower DB-25 Connector — AUDIO .......................................................................... 5-5
DB Connector Pinout Drawings...................................................5-6
Control Room Module Signal Flow Diagram ..............................5-7
Chapter 6 - Studio Control Module
Module Overview...........................................................................6-2
Internal Programming Options ....................................................6-3External Talkback Mute/Dim..................................................................................... 6-3
Studio Dim ................................................................................................................ 6-3
Hook-ups........................................................................................6-4Upper DB-25 Connector — AUDIO .......................................................................... 6-4
Upper DB-25 Connector — CONTROL .................................................................... 6-4
Tally 2 and Tally 3 ............................................................................................... 6-4
Lower DB-25 Connector — AUDIO .......................................................................... 6-5
DB Connector Pinout Drawings...................................................6-6
Studio Control Module Signal Flow Diagram .............................6-7
Chapter 7 - Meter Output Module
Module Overview...........................................................................7-2
Internal Programming Options ....................................................7-2
Hook-ups........................................................................................7-2
Meter Output Module Signal Flow Diagram ................................7-3
Chapter 8 - CPU and DSP Modules
Module Overview...........................................................................8-2AES Clock Sync ........................................................................................................ 8-2
CPU-5 Display .......................................................................................................... 8-2
page Contents – 4RD / May 2000
C O N T E N T S
Chapter 9 - Superphone Input Module; optional
Module Overview...........................................................................9-2Caller Set-Ups .......................................................................................................... 9-2
Automatic Features ................................................................................................... 9-3
Inputs and Outputs ................................................................................................... 9-3
Internal Programming Options - Main PCB ................................9-4Output Assign Switch Enable ................................................................................... 9-4
Mutes ........................................................................................................................ 9-4
Timer Restart ............................................................................................................ 9-4
Tallies ........................................................................................................................ 9-4
Cue Dropout .............................................................................................................. 9-5
Gain Trimpots ........................................................................................................... 9-5
Internal Programming Options - Piggyback PCB ......................9-5External In ................................................................................................................. 9-5
Cue Pre/Post ............................................................................................................ 9-5
Gain Trimpots ........................................................................................................... 9-5
Hook-ups........................................................................................9-6AUDIO CONNECTIONS (Upper DB-25) .................................................................. 9-6
AUDIO and CONTROL CONNECTIONS (Lower DB-25) ........................................ 9-6
DB Connector Pinout Drawing.....................................................9-8
Superphone Module Signal Flow Diagram .................................9-9
Chapter 10 - Line Preselector (Analog); optional
Overview .......................................................................................10-2
Internal Programming Options ...................................................10-2
Hook-ups.......................................................................................10-3Audio Inputs ............................................................................................................. 10-3
Outputs .................................................................................................................... 10-4
DB Connector Pinout Drawing....................................................10-5
Line Preselector (Analog) Signal Flow Diagram .......................10-6
Chapter 11 - Line Preselector (Digital/Analog); optional
Overview .......................................................................................11-2
Internal Programming Options ...................................................11-3
LSR-500 (drawing) ........................................................................11-3
Hook-ups – LSD-5 ........................................................................11-3
Hook-ups – LSR-500 ....................................................................11-3Analog Audio Inputs................................................................................................. 11-3
Digital Audio Inputs .................................................................................................. 11-4
Analog Outputs ........................................................................................................ 11-5
Digital Outputs ......................................................................................................... 11-5
page Contents – 5RD / May 2000
C O N T E N T S
DB Connector Pinout Drawing (LSD-5) .................................. 11-6
DB Connector Pinout Drawing (LSR-500) .............................. 11-7
Line Preselector (Digital) Signal Flow Diagram .................... 11-9
Chapter 12 - Intercom Module; optional
Module Overview...................................................................... 12-2
Internal Programming Options ............................................... 12-3Cue Enable ........................................................................................................... 12-3
Input Signal ........................................................................................................... 12-3
Power for various ICMs ........................................................................................ 12-3
Station Select ........................................................................................................ 12-3
Hook-ups................................................................................... 12-4Upper DB-25 Connector - AUDIO ........................................................................ 12-4
Upper DB-25 Connector - CONTROL .................................................................. 12-4
Lower DB-25 Connector - AUDIO ........................................................................ 12-4
Lower DB-25 Connector - CONTROL .................................................................. 12-5
DB Connector Pinout Drawing................................................ 12-6
Intercom Module Signal Flow Diagram .................................. 12-7
Chapter 13 - Tape Remote Module; optional
Module Overview...................................................................... 13-2
DB Connector Pinout Drawing START/STOP Function Control ........................................................................ 13-3
Full-Function Control ......................................................................................... 13-4
Chapter 14 - Meterbridge and Clock
Overview ................................................................................... 14-2
Replacement Parts ................................................................... 14-2
Clock ......................................................................................... 14-2Controls ................................................................................................................. 14-2
Setting the Time .................................................................................................... 14-3
Battery Backup ..................................................................................................... 14-3
Operational Modes ............................................................................................... 14-3
Schematic ............................................................................................................. 14-4
Load Sheet ............................................................................................................ 14-5
Chapter 15 - I/O Schematic Drawings
Mono Mic Input Module Schematic (MMD-500) .................................................. 15-2
Stereo Line Input Module Schematic (SLD-500) ................................................. 15-4
Digital Stereo Line Input Card Schematic (SRC-500) ......................................... 15-5
Analog Stereo Line Input Card Schematic (SLADC-600) ................................... 15-6
Output Module Schematic (OMD-500) ................................................................ 15-7
RD / Jul 2002
page Contents – 6RD / May 2000
C O N T E N T S
Control Room Module Schematic (CRD-500) ..................................................... 15-8
Studio Control Module Schematic (SCD-500)................................................... 15-11
Digital Superphone I/O Card Schematic (SPND-500) ....................................... 15-13
Analog Superphone I/O Card Schematic (SPNA-600).......................................15-14
Digital/Audio Line Select Rackmount Schematic (LSR-500) ............................ 15-15
Tape Remote Module Schematic (TRD-500)..................................................... 15-17
Intercom Module Schematic (ICMD-500) ........................................................... 15-18
Analog Line Select Module Schematic (LSA-5) ................................................. 15-19
Appendix - Replacement Parts List
Replacement Parts List .............................................................A-2
RD / Sep 2000
I N S T A L L A T I O N a n d P O W E R
page 1 – 1RD / May 2000
Installation and PowerChapter Contents
Countertop Mounting................................................................. 1-2Clearances .......................................................................................................... 1-2
System Ground .......................................................................... 1-2
Power Supplies .......................................................................... 1-4The PSC-D340 Power Supply ............................................................................ 1-5
Power Connector Pinout ..................................................................................... 1-5
PSC-D340 Power Supply Schematic ............................................................... 1-5A
The VU/Timer Cable ........................................................................................... 1-6
Energizing ........................................................................................................... 1-6
Audio and Control Wiring .......................................................... 1-7Connection Procedures ...................................................................................... 1-7
Digital Audio Connections .................................................................................. 1-7
Analog Insert Points ........................................................................................... 1-7
Unbalanced Connections (analog audio) ........................................................... 1-8
Hand Crimp Tool Wiring Instructions.................................................................. 1-9
RD / Oct 2001
I N S T A L L A T I O N a n d P O W E R
page 1 – 2RD / May 2000
Installation and Power
Countertop MountingThe RD digital audio console is designed for countertop drop-in
mounting. Console placement should avoid proximity to any electro-magnetic fields, such as large power transformers, motors, and fluores-cent lighting fixtures. The required cut-out width is 31 5/8” for RD-12or 43 5/8” for RD-20, and cut-out front-to-back dimension is 18 3/8”.The front of the console will extend approximately one inch forward ofthe cut-out. The console’s wooden sidepieces will extend about 7/8” oneither side of the cut-out width.
Clearances
Note the two module extractor tools (black thumbwheel screws)mounted in the front surface of console’s lower mainframe pan (justabove and to the left of the righthand headphone jack). These must beremoved before lowering the console into its cutout!
Once in place the console mainframe pan will extend approxi-mately 5 1/2 inches below the countertop surface. Note the hingedmeterbridge will require 10 1/2” above the countertop surface to openfreely. When fully open the meterbridge will extend 5 1/2” behind therear line of the cut-out. When closed, the meterbridge will extend2 1/2” behind this rear cut-out line and 6 1/4” above the countertopsurface.
Do not connect the RD console to its power supply (and do notconnect the power supply to the AC power line) until instructed todo so.
System GroundThe first step is to ground the console.Note that as supplied from the factory, console rackmount power
supply common, audio ground, and the RD mainframe are connectedtogether at the console, but are NOT connected to electrical ground andthe chassis of the power supply. Safety requirements dictate that apositive connection from the console mainframe to electrical ground be
!
RD / Oct 2000
I N S T A L L A T I O N a n d P O W E R
page 1 – 3RD / May 2000
CONSOLE
2-TRACK
MULTI-TRACK
AC BREAKER BOX
DEVICE 1
DEVICE 2
DEVICE N
CONSOLE POWER SUPPLY
CONTROL ROOM POWER AMP
STUDIO POWER AMP
OTHER
POWER COMPANY EARTH GROUND
HEAVY (#4 or #6) COPPER
WIRE
HIGH POWER EQUIPMENT RACK
COPPER ROD
SOIL3-wire ground or separate wire run from chassis
EFFECTS RACK
MIC PANEL
GND
TYPICAL SYSTEM GROUNDING SCHEME
etc.
3–5 ft.
Tie the console ground lugterminal strip to the systemearth ground. Tie every pieceof equipment in the entireaudio system to the consoleground lug terminal strip.
made in the completed installation. Use one of the grounding lugs onthe bottom of the mainframe to establish your system ground. Thegrounding lug terminal strip may be found at the rear of the console,along the bottom edge of the mainframe pan directly under therightmost mainframe slots (to the lower left if you are looking at the rearof the console).
The system ground serves two important purposes:(1) It provides a zero signal reference point for the entire audio system;
(2) It assures safety from electrical shock.
There exist two terms that one encounters in a discussion of ground:(A) EARTH GROUND, which is usually a heavy copper rod driven into the
soil adjacent to the building (around 6 feet down) or a connection to the copperwater pipes leading into the building. Either is acceptable (unless, of course,the water pipe is made of plastic).
(B) THE POWER COMPANY EARTH CONDUCTOR that enters thebuilding at the power line breaker box; this conductor should be (and is oftenby code) tied to the above-mentioned earth ground at one point. This point isthe SYSTEM EARTH GROUND.
I N S T A L L A T I O N a n d P O W E R
page 1 – 4RD / May 2000
TIE THE CONSOLE GROUND LUG TERMINAL STRIP TO THESYSTEM EARTH GROUND. TIE EVERY PIECE OF EQUIPMENT INTHE ENTIRE AUDIO SYSTEM TO THE CONSOLE GROUND LUGTERMINAL STRIP. If the system earth ground point is inaccessible, tiethe console ground terminal strip to the power company earth conductorat the main breaker box (see drawing "Typical Grounding Scheme" onprevious page).
Each piece of equipment should be connected by its own ground wire(usually the round third pin on the AC cord). This means that every ACoutlet must have a separate conductor run to the console ground lugterminal strip; the outlets cannot be daisy-chained as is normally encoun-tered in commercial and residential AC systems. Any equipment notsupplied with 3-wire AC cables must have individual ground wires (16gauge or larger) connected to their chassis grounds and then run to theconsole ground lug terminal strip.
Further Grounding Details
Check all equipment to be absolutely certain that each unit is powertransformer isolated from the AC mains to prevent safety hazards.
It is assumed that in each piece of audio equipment the audio groundand the chassis are tied together at some point. Any piece of equipmentlacking a grounded chassis is likely to be prone to interference problems.
Locate all unbalanced audio equipment in the same rack if possible, tominimize chassis ground potential differences. It may also be helpful toinsulate each piece of unbalanced equipment from its mounting rails in therack by means of nylon 10-32 screws and insulating washers between railsand faceplates.
Once the system is properly grounded, proceed with the consolepower supply installation and connection (next section).
Power SuppliesThe RD console is powered by a Wheatstone Model PSC-D340
rackmount power supply. This heavy duty unit occupies three 19” widerack spaces (total height 5-1/4”). Convection cooled, it requires ampleventilation space above and below it. The PSC-D340 generates a lot ofheat in the course of normal operation — do not mount heat sensitivedevices in the same rack cabinet.
Note the power supply (supplies) should be mounted in an equipmentrack within fifteen feet of the console (but no closer than 3 feet). Avoidlocating any high gain equipment (such as phono preamps, tape recorders,etc.) too near the rackmount supplies, to avoid magnetic interference intothat equipment.
RD / June 2001
I N S T A L L A T I O N a n d P O W E R
page 1 – 5RD / May 2000
Once the supply is rackmounted, it should be connected to the consoleusing the factory supplied cable. The console’s power supply connector islocated at the rear of the console, at the right end of the meterbridge bottompan. Note that the power supply cable’s 10-pin female connector has to berotated until its locating pins match the male connectors on the console. Donot force a connector on; it attaches easily when properly aligned. Connectthe cable first to the console, then to the rear of the rackmount powersupply.
Note each power supply is fitted with a 3-wire grounded AC cord thatshould be plugged into a "clean" AC power source. That is, an AC sourcethat feeds only the control room audio gear. This source should be aseparate feed from those powering lighting, air-conditioning, or any othernon-audio machinery. The third pin ground wire of the AC source shouldbe tied to the central system ground point. Note that while the AC powercord ground wire terminates at the power supply chassis, it does NOTconnect to the RD console common; the console itself must be groundedseparately. (See previous section, "System Ground".)
The power feed recom-mended in the text is of-ten installed and referredto in studios as an “iso-lated AC ground” outlet.It is usually orange incolor.
The PSC-D340 Power Supply
H A
E D
I
J
B
C
G
F
TYPICAL POWER CONNECTOR
(10-pin)
A :B :C :D :E :F :G :H :I :J :
audio/phantom common+V audio-V audiodigital common phantom powerdigital common +digital+digital n/cn/c
ON
OFF
+VD1PHANT
Model PSC -D340 Power Supply
D2 –V
RD / June 2001
R1
330
.05
R2
.05
R7
Q1
1
23
LM1085
VIN
ADJOUT
32
1Q3
LM1085
VIN
ADJOUT
1uF
C1
6A4
D1
C7
1uF
1uF
C2
C6
1uF
620
R6
R5
100
1N4002
D3
6A4
D2
R20
1.0K
R14
.05
R19
.05
LM1085
32
1Q5
VIN
ADJOUT
1uF
C12
6A4
D14
1uF
C18
1uF
C13
1uF
C17
R15
620
R16
470
1N4002
D12
D13
6A4
R4
47 47
R17
1uF
C4
1uF
C15
WP1
=14
VDC
+WP17
+7.5
VOU
TPU
T
TP4
-WP18
TP2
WP15
WP12
TP4
+ 7.5
VTEST
POIN
T-
TP3
WP5
=23V
DC
+WP24
-16
VOU
TPU
T
WP8
-WP25
TP8
+ 16V
TEST
POIN
T-
TP7
NOT
INSTALLED
DS5
+16
VLED
DS6
+7.5
VLED
DS3
NOT
INSTALLED
-16
VLED
DS4
+7.5
VLED
2200uF
C26
2200uF
C28
WP19
WP9
WP22
WP20
WP21
WP16
WP26
WP3
WP2
WP7
WP6
R1
1.0K
R2
.05
R7
.05
LM1085
32
1Q1
VIN
ADJOUT
LM1085
Q3
1
23
VIN
ADJOUT
C1
1uF
D1
6A4
1uF
C7
50V
10000uF
C19
C2
1uF
1uF
C6
R6
620
R5
470
D3
1N4002
6A4
D2
R20
330
.05
R14
.05
R19
Q5
1
23
LM1085
VIN
ADJOUT
C12
1uF
D14
6A4
C18
1uF
C13
1uF
C17
1uF
R15
330
R16
100
D13
6A4
47
R4
C4
1uF
C15
1uF
CR3
1
2
3500
+7.5
VTR
IM
WP1
=23V
DC
WP17
+
+16V
OU
TPU
T
TP4
WP18
-
TP1
TP2
WP15
WP12
TP4
+ 16V
TEST
POIN
T-
TP3
WP5
=14
VDC
WP24
+
+7.5
VOU
TPU
T
WP8
WP25
-
TP8
+ 7.5
VTEST
POIN
T-
TP7
DS5
+16
VLED
DS3
-16
VLED
DS4
+7.5
VLED
2200uF
C26
2200uF
C28
WP19
WP9
WP22
WP20
WP21
WP16
WP26
WP3
WP2
WP7
WP10
WP1182V
82ZA2
V1
100V
470uF
C21
D4
1N4002
D7
1N4002
D5
1N4002
D6
1N4002
D10
1N4002
10K
CR2
3
2
1+4
0V
TR
IM63V
10uF
C22
C11
10uF
63V
0.0047uF
C8
0.0047uF
C10
D8
1N4002
LM317
Q4
1
23
VIN
ADJOUT
220
R10
R9
470
R8
100K
D9
1N4002
SW1
PH
AN
TOM
POW
ER
ON
DIP
SW
ITCH
1 2 3 4
D11
1N4002
WP23
+
+40V
OU
TPU
T
WP14
-
WP13
R11
10K
R12
10K
R13
10K
TP6
+ 4OV
TEST
POIN
T-
TP5
DS1
+40V
LED
DS2
NOT
INSTALLED
+40V
LED
TP1
F1
.4A
POLYSW
10uF
63V
C9
WP6
50V
10000uF
C23
Q7
32
1LM1085
VIN
ADJOUT
R17
47D12
1N4002
NOT
INSTALLED
DS6
+7.5
VLED
500
CR1
3
2
1+1
6V
TR
IM
LM1085
1
23
Q7
VIN
ADJOUT
C19
10000uF
50V
C23
10000uF
50V
500
3
2
1CR3
CR1
1
2
3500
600 I
ndu
stria
l Driv
eN
ew
Bern
, N
C 2
8562
C27
0.47uF
GRAY
BLACK
WHT/BLK
WHT/BLK
BR
NF
DIG
ITA
LCOM
MON
-2
OR
GG
+DIG
-2
PH
AN
TOM
EV
IO
-V
AU
DIO
BLU
C
+V
AU
DIO
RED
B
Z15L390
GRN
N/C
J IN
/C
BLACK
Z15L390
RED
BLUE
RED
ORANGE
VIOLET
ORANGE
WHITE
BROWN
BROWN
Z15L390 Z15L390 Z15L390 Z15L390 Z15L390
MB3510+
-
~ ~
MB3510+
-
~ ~
MB3510+
-
~ ~
DG
RN
DIG
ITA
LCOM
MON
-1
YLW
H+DIG
-1
AGND
AGND
AGND
GND
GND
LM
1085/LM
317
IC P
INOU
T
VIE
WED F
ROM
BOTTOM
(SOLDER
SID
E)
12
3
INADJ
OUT
CASE
Z15L390
MB3510+
-
~ ~
AU
DIO
COM
MON
BLK
A
H) +D
IGIT
AL-1
G) +D
IGIT
AL-2
F) DIG
ITA
L C
OM
MON
-2
D) DIG
ITA
L C
OM
MON
-1
J) N
/C
C) -V
AU
DIO
B) +V
AU
DIO
E) +P
HA
NTOM
I) N
/C
POW
ER
SU
PPLY
CON
NECTOR
A) A
UDIO
/PH
AN
TOM
COM
MON
JI
H
G F
ED
CB
A
.0047uF
115 OR 230 VAC50-60Hz INPUT
A.C.SUPPLYCABLE
.0047uF
GRN
ORAGE BLACK
8-31-
01
RD-12/Aug 2001
PS-410
E P
CB00S0023E
Page 85
Power Supply Schematic - Sheet 1 of 1
W# 7
00259S
A
PSC-D340
7 O
F 7
ISSUE
D
CH
ECKE
D
DRAW
NAPPROVALS
DATE
CONTRACT N
O.
SCALE
FSCM
NO.
DW
G. NO.
SH
EE
T
SIZ
ERE
V
D
2
123456788 7 6 5 4 3 1
AB
CDD
CB
A WHITE YELLOW
NOT
INSTALLED
NOT
INSTALLED
+48V
~~ + -+ -+ --+
~19
V
~19
V
~19
V
~19
V
~11
V
~11
V
~22VAC CT
~11
V
~11
V
~42VAC
~115VAC
~36VAC CT ~36VAC CT
STA
TIC
SH
IELD
10 P
INOU
TPU
TCON
NECTOR
~22VAC CT
5A
1 2 3 4
For 220-240 V operatin:Disconnect 1 & 3, 2 & 4; Connect 2 & 3.
-16
VTR
IM
PS-410
PCB
(LEFT)
PS-410
PCB
(RIG
HT)
I N S T A L L A T I O N a n d P O W E R
page 1 – 6RD / May 2000
The VU/Timer Cable
Connections from the MOD-5 Meter Output Module to the Meterbridgefor VU meter and timer signals are made through a special cable that shipswith the console. This cable has a DB-25 at the both ends. Connect the oneDB-25 connector to the matching DB-25 connector on the underside ofthe Meterbridge at the back of the console. Connect the second DB-25 tothe upper DB-25 connector on the bottom of the frame at the slot thatcontains the MOD-5 module.
Energizing
Assuming the RD console mainframe is properly placed and grounded,and its PSC-D340 power supply correctly rackmounted and connected tothe console, you may now energize the PSC-D340 rackmount powersupply by plugging it into the AC mains and turning it on, using its frontpanel circuit breaker/switch. The five LEDs on the power supply frontpanel should light up to indicate the presence of their respective voltages.The console's individual module switches will assume factory defaultsettings.
Once you have verified proper power-up, turn off the rackmount powerOnce you have verified proper power-up, turn off the rackmount powerOnce you have verified proper power-up, turn off the rackmount powerOnce you have verified proper power-up, turn off the rackmount powerOnce you have verified proper power-up, turn off the rackmount powersupplies to de-energize the console. You may now proceed to wire upsupplies to de-energize the console. You may now proceed to wire upsupplies to de-energize the console. You may now proceed to wire upsupplies to de-energize the console. You may now proceed to wire upsupplies to de-energize the console. You may now proceed to wire upaudio and control connections.audio and control connections.audio and control connections.audio and control connections.audio and control connections.
RD / March 2001RD / June 2001
I N S T A L L A T I O N a n d P O W E R
page 1 – 7RD / May 2000
Audio and Control WiringAll audio and control I/O connections to the RD console are made through
multipin DB-25 connectors located on the bottom of the console.
Connection Procedures
As supplied from the factory, the console requires no logic connections tofunction. Therefore an orderly installation begins with the audio wiring. Notethat this manual is organized by module type (inputs, outputs, monitormodules, etc.); each chapter contains detailed wiring instructions for itsmodule type. Proceed through the manual, chapter by chapter, until all moduleshave been wired to suit your particular installation requirements. Once properaudio operation is verified, go back to each individual chapter and proceed withcontrol wiring.
Digital Audio Connections
CABLE - All AES/EBU input and output digital audio connections arebalanced and should be made using a high quality digital audio cable. Be sureto select a digital audio cable with an integral drain wire of the same wire gauge(AWG) as the twisted pair. Typical AES/EBU digital audio cable has a verylow characteristic capacitance per ft (pF/ft), and a nominal impedance of 110Ω.High quality digital audio cable offers better signal transmission performanceversus typical analog audio cable, especially over long cable runs. Check thecable manufactures data sheet to be sure the cable you plan to use will work inyour application.
CONNECTORS - All AES/EBU connections are made with the suppliedDB-25 male mating connectors. These crimp style connectors are the insula-tion displacement type and will accept wire gauge 24 - 22AWG.
SPDIF INPUTS - The SPDIF (Sony/Philips Digital Interface) or “con-sumer” digital audio interface is a two wire unbalanced signal typically on asingle RCA style connector. To connect SPDIF devices to the RD consolesimply wire the SPDIF center conductor (HOT) to the SLD-5 “HI” input pinand SPDIF shell (ground) to the SLD-5 “LO” input. Connect the SLD-5“SHIELD” to the DB connector SHELL at the console end only.
Analog Insert Points
Certain module signals have insert patch points in their signal chains toallow outboard audio processing. These include MONO MIC INPUTS (MMD-5) and OUTPUT MODULES (OMD-5).
Normally these points are internally bridged at the factory (via PCB-mounted programming switches) prior to shipment. If you intend to useoutboard signal loops at these points, you must reprogram these switches. Seepages 2-3 (mic inputs) and 4-3 (output modules) for details.
RD / March 2001
I N S T A L L A T I O N a n d P O W E R
page 1 – 8RD / May 2000
Unbalanced Connections (analog audio)
INPUTS — Wire to the console with typical shielded two conductor cable(like Belden 9451), just as if you were connecting a balanced source. At theunbalanced source machine’s output, connect the black wire (LOW) to theshield. If the machine has a -10 dBu output, don’t hesitate to turn module inputgain as high as is needed.
OUTPUTS — RD consoles use a balanced output circuit which behavesexactly like the secondary of a high-quality transformer, with no center tap—this output is both balanced and floating. Either the HIGH or LOW side of theoutput should be strapped to ground, with the output taken from the other side.(Normally you’d strap LOW to ground, and take HIGH to feed your unbal-anced equipment.)
RD / March 2001
I N S T A L L A T I O N a n d P O W E R
page 1 – 9RD / May 2000
HAND CRIMP TOOL WIRING INSTRUCTIONSThe supplied hand crimping tool (W/S#850067) is used for all I/O wiring con-
nections to and from the console. It is to be used with the supplied pin (figure 1)intended for 22"-28" gauge wire.
1) Strip wire approximately 3/16" (insert inproper wire stripper, rotate one half turn, andpull insulation off wire).
2) Leaving wire aside for the moment, withcrimping tool fully open (engraved side towardyou) bring a terminal into position from theunmarked side of the tool. Place the conductortabs (inner set as shown in figure 1) on the"18-22" or "24-30" (depending on the wire) an-vil (slightly curved surface) so that the circularportion of the tabs rests in the curved surfaceof the anvil and the two tabs face up into thewalls of the female jaw. The insulation tabs willbe flush with the top of the tool (figure 2).
3) Close tool very slightly, only to the pointof holding the terminal in position (figure 2).
4) Insert wire into terminal until wire insu-lation is stopped by conductor tabs (figure 3).CRIMP by squeezing handles until jaws are fullyclosed (figure 4).
5) If there is an insertion error or if a circuitchange is needed, you'll need to use an extrac-tor tool to remove terminals (see next page).
Note that metallized plastic hoods for eachconnector are also supplied with the console.
(1) Pin crimp terminal
CONDUCTOR
TABS
INSULATION
TABS
INSULATION
STOPS HERE
(2) The terminal conductor tabs (pointing UP) areplaced in anvil 18-22; the terminal's insulation tabs
extend in front towards the camera.
(3) The stripped wire is placed into the terminal andcrimped. Note the wire's insulation must stop just
short of the conductor tabs (detail)
(4) Final step: jaws fully closed; the insulation tabshave been crimped.
RD / Jun 2004
I N S T A L L A T I O N a n d P O W E R
page 1 – 10RD / May 2000
(5) Place extractor tip over pin terminal to beremoved.
If you accidentally insert a crimp terminalpin into the wrong socket, you'll need to usethe supplied pin extractor tool (W/S#850069)to remove terminal pin, and correct your mis-take without having to sacrifice a connector.Place extractor tip (red side) over terminal pinto be removed (figure 5), and press it down-wards motion until tip rests upon Housing.Then pull out the terminal pin from Housing.It should never be necessary to discard a con-nector due to a wiring error.
EXTRACTOR PIN INSTRUCTIONS
RD / Jun 2004
M O N O M I C I N P U T
page 2 – 1RD / May 2000
Mono Mic Input (MMD-5)
Chapter Contents
Module Overview........................................................................ 2-2
Internal Programming Options ................................................. 2-3Insert Bypass .......................................................................................................... 2-3
Phantom Power ...................................................................................................... 2-3
Mutes ...................................................................................................................... 2-3
Timer Restart .......................................................................................................... 2-3
Tallies ...................................................................................................................... 2-4
Utility Bus Pre-Fader .............................................................................................. 2-4
Talkback .................................................................................................................. 2-4
Superphone Output Assign .................................................................................... 2-5
Hook-ups..................................................................................... 2-5AUDIO CONNECTIONS ......................................................................................... 2-5
CONTROL CONNECTIONS................................................................................... 2-6
Remote ON & OFF ................................................................................................. 2-6
Cough ..................................................................................................................... 2-6
Talkback to Control Room ...................................................................................... 2-6
On Tally ................................................................................................................... 2-7
Off Tally ................................................................................................................... 2-7
DB Connector Pinout Drawing.................................................. 2-8
Mono Mic Input Module Signal Flow Diagram ......................... 2-9
M O N O M I C I N P U T
page 2 – 2RD / May 2000
Mono Mic Input (MMD-5)
MMD-5 modules are for microphone input signals (-50dBu nomi-nal). Each module accepts two mono sources: A and B, switched at thetop of the module. Phantom power is available at both input ports; itmay be selectively activated by an internal dipswitch (the factorydefault is OFF). Recessed front panel multi-turn trimpots (range 38dB)adjust input levels.
Example: with a microphone input of –60dBm @150Ω at the port, gaintrim can set levels from -22dBu to +16dBu (note maximum preamp gain is+76dB).
An analog insert point (+4dBu balanced) is provided: it is post-trimand may be internally bypassed, which is the factory default setting.
Output switches assign the selected source signal to any combina-tion of the console’s three stereo outputs: PGM (program), AUD(audition), and/or UTL (utility).
The channel ON and OFF switches are at the bottom of the module.In addition to being controlled remotely, these can also be programmed(via internal PCB-mounted dipswitches) to perform a variety of con-sole control functions, including control room and studio mutes,talkbacks, tallies, and timer restart.
All audio and control input and output signals are made via twomulti-pin DB-25 connectors mounted in the bottom of the console’smainframe, directly underneath each individual module.
AAAA
BBBB
MMMMIIIICCCC TTTTRRRRIIIIMMMMAAAA
BBBB
MMD
OOOOFFFFFFFF
OOOONNNN
PPPPGGGGMMMM
AAAAUUUUDDDD
UUUUTTTTLLLL
AAAA
SSSS
SSSS
IIII
GGGG
NNNN
0
5
15
20
30
40
50
6070
10
00
M O N O M I C I N P U T
page 2 – 3RD / May 2000
Internal Programming OptionsAll internal programming is made via printed circuit board (PCB)
mounted switches on the module’s main card. With the exception of insertbypass, which is a single-throw slide switch, all programming is via 4-position dipswitches (total six).
For the purposes of this manual, we will assume you are holding theremoved module upright, component side towards you, with gold-platedcard fingers to the left and the module faceplate to the right. This willenable you to read the control legends silkscreened next to each program-ming switch. Note when a dipswitch position is thrown to the right(towards the module’s faceplate) it is ON.
Insert Bypass
SW7 (a single throw slide switch right next to the card’s short upperrow of gold fingers) will click the module’s insert point in and out of theaudio signal chain. Note again that the factory default is “insert bypassed”.In other words, when shipped from the factory SW7 is thrown in thedirection of the silkscreened arrow on the PCB (to the left). To use theinsert point (see “Audio Connections” page 2-5), throw the switch to theright, towards the module faceplate.
Phantom Power
Four-position dipswitch SW1 (upper right corner of card) turns phan-tom power on and off for the module’s two microphone input ports.
Dipswitch position 1 activates phantom power for microphone ADipswitch position 2 activates phantom power for microphone B
Mutes
When a microphone is live in a room, that room’s monitor speakersmust be muted to prevent feedback. The RD console has three mute controllines: control room, studio one and studio two. Each of these may beactivated by either an A or B microphone input. The first three positionsof dipswitches SW3 and SW4 (to the left of the fader) program thesemuting functions:
SW3 position 1 mutes the control room when mic A is live*SW3 position 2 mutes studio one when mic A is liveSW3 position 3 mutes studio two when mic A is liveSW4 position 1 mutes the control room when mic B is liveSW4 position 2 mutes studio one when mic B is liveSW4 position 3 mutes studio two when mic B is live
Timer Restart
The console’s digital timer can be programmed to automatically resetto zero and begin counting up when the module’s ON button is pressed.
SW3 position 4 activates timer restart for mic ASW4 position 4 activates timer restart for mic B
?
Note the factory defaultsetting for phantom poweris OFF.
*factory default setting
M O N O M I C I N P U T
page 2 – 4RD / May 2000
Tallies
Turning the module ON can activate a remote tally indicator. There arethree tally control lines: on-air, tally 2 and tally 3. The first three positionsof dipswitch SW6 (to the left of the fader) program these functions:
SW6 position 1 activates the on-air tally control line*SW6 position 2 activates tally 2SW6 position 3 activates tally 3
Utility Bus Pre-Fader
Dipswitch SW6 position 4, when activated, will cause the modulesignal assigned to the console’s UTL output to be tapped before the faderand the channel ON/OFF switches.
Talkback
Typically, one of the console’s RD input modules will be used for thecontrol room (CR) console operator’s microphone. The fourth position ofdipswitch SW1 allows that microphone to also function as a talkback mic.It places the signal (post-insert, pre-fader, pre-on/off) onto the console’stalkback bus. When the console operator presses a TB switch on theconsole’s SCD-5 Studio Control module, the talkback bus (which iscarrying his microphone signal) will interrupt the regular monitor signalbeing fed to the studio and talent will hear his voice through the studiomonitor speakers.
In order for the studio to reply to the console operator, the MMD-5module controlling the studio’s microphone signal must be routed to theconsole’s cue bus, where it can interrupt the regular control room monitorfeed and be heard by the operator. This is accomplished by a user-suppliedTB switch in the studio. The switch provides a momentary closurebetween the module’s lower DB-25 connector “TB to CR A” or “TB to CRB” control pins and Digital Ground (see page 2-6 for wiring details). Aslong as this closure is maintained (i.e., as long as talent holds down thestudio TB button) the module’s (post-insert, pre-fader, pre-on/off) signalwill be placed on the console’s Cue bus. Simultaneously, the module’sregular output will be muted (i.e., Cough will be activated) so the talkbacksignal doesn’t go out over the air.
It is also desirable to mute the studio monitor speakers during talkbackoperations, not only to reduce ambient noise (i.e., the regular studiomonitor signal) but also to prevent potential feedback if both the operatorand the studio talent press their respective TB buttons at the same time.Dipswitch SW 5 programs the appropriate muting:
Dipswitch position 1 mutes studio one when microphone A is liveDipswitch position 2 mutes studio two when microphone A is liveDipswitch position 3 mutes studio one when microphone B is liveDipswitch position 4 mutes studio two when microphone B is live
Remote tall ies arehooked-up to the consoleat the Control Room mod-ule (CRD-500)
*factory default setting
M O N O M I C I N P U T
page 2 – 5RD / May 2000
Superphone Output Assign
MMD-5 output assign switches can slave off the console’s SPD-5superphone telephone input module output assign switches.
Example: you are running a call-in show with three studio guests, each withhis own microphone and MMD-5 input module. You set up the caller and areready to go live. By pre-programming your studio guests’ mic inputs to followthe superphone module’s output assign switch (or switches), all you need do ispress the PGM assign button on the phone module; PGM assign switches onguest inputs will simultaneously be activated. Thus, the entire segment can golive with the press of one button.
Dipswitch SW2 on the MMD-5 module (to the left of the fader) willslave selected output assign switches to follow superphone output assigncontrol pulses:
Dipswitch position 1 links the PGM switchDipswitch position 2 links the AUD switchDipswitch position 4 links the UTL switch
In order for this feature to work, an associated dipswitch on thesuperphone module PCB (SW1) must be programmed as well (see page9-4).
Hook-UpsAs stated before, all user wiring to and from MMD-5 modules takes
place at DB-25 multi-pin connectors mounted directly beneath eachmodule on the console mainframe’s bottom pan. There are two connectorsper module: the upper one (towards the console meterbridge) handlesaudio signals; the lower (near the console armrest) control signals. Apinout drawing on page 2-8 shows all wiring connections at a glance.
Audio Connections (upper DB-25)These include A and B mic inputs, and insert in and out. The mic input
level is nominally -50dBu. Insert points are +4dBu balanced in and out.All signals are analog mono.
Pin 25 – Mic A In SHPin 24 – Mic A In HIPin 12 – Mic A In LOPin 11 – Mic B In SHPin 10 – Mic B In HIPin 23 – Mic B In LOPin 16 – Insert Out SHPin 15 – Insert Out HIPin 3 – Insert Out LOPin 2 – Insert In SHPin 1 – Insert In HIPin 14 – Insert In LO
Note the insert points are normally bypassed by PCB-mounted slideswitch SW7 (see page 2-3). Regardless of this switch setting, the InsertOut pins may be used as a channel direct output if desired.
Note this feature onlyworks for turning assignswitches ON; they will notturn OFF from thesuperphone module—thismust be done manually.
Typical DB-25connector
RD / March 2001
M O N O M I C I N P U T
page 2 – 6RD / May 2000
Control Connections (lower DB-25)These include remote on and off, cough, talkback and tally functions.
Note each function is available twice, for both A and B source ports,allowing it to follow the module's A/B mic selector switch.
Pin 1 – Cough APin 2 – Off Tally APin 3 - Remote Off APin 4 – Digital GroundPin 5 – +5V DigitalPin 7 – Cough BPin 8 – Off Tally BPin 9 – Remote Off BPin 10 – Digital GroundPin 11 – +5V DigitalPin 13 – Audio GroundPin 14 – TB to CR APin 15 – On Tally APin 16 – Remote On APin 17 – Digital GroundPin 20 – TB to CR BPin 21 – On Tally BPin 22 – Remote On BPin 23 – Digital Ground
To Turn the Module ON & OFF from a Remote Location
REMOTE ON — Activates the module’s channel ON switch. Providea momentary closure between Pin 16 (Remote On A) or Pin 22 (RemoteOn B) and Digital Ground (Pins 4, 10, 17 or 23). This will latch the moduleON. (User-supplied momentary contact switch required.)
REMOTE OFF — Activates the module’s channel OFF switch.Provide a momentary closure between Pin 3 (Remote Off A) or Pin 9(Remote Off B) and Digital Ground (Pins 4, 10, 17 or 23). This will latchthe module OFF. (User-supplied momentary contact switch required.)
COUGH — Temporarily Mutes the module. Provide a closure be-tween Pin 1 (Cough A) or Pin 7 (Cough B) and Digital Ground (Pins 4, 10,17 or 23). This will turn the module OFF. Note this is a non-latching mode;the module will turn ON again as soon as the closure stops. (User-suppliedmomentary contact switch required.)
Talkback to Control Room
If an MMD-5 module is being used for a studio microphone, these portsallow talkback from that studio to the console operator. Provide a closurebetween Pin 14 (TB to CR A) or Pin 20 (TB to CR B) and Digital Ground(Pins 4, 10, 17 or 23). This will cause two things to happen: (1) themodule’s pre fader signal is sent to the console’s Cue bus, where it may beheard by the console operator, and (2) the module’s Cough function isactivated, muting the module’s post fader signal and preventing the TB
Typical DB-25connector
M O N O M I C I N P U T
page 2 – 7RD / May 2000
signal from going out over other assigned busses (i.e., “live”). Thisnon-latching condition continues until the closure is released. (Re-quires user-supplied momentary action TALKBACK switch at thestudio microphone location.)
On Tally
Lets the module’s channel ON switch control an on-air light or other“microphone on” indicator at a remote location. This control functionprovides a continuous closure (open collector) between Pin 15 (OnTally A) or Pin 21 (On Tally B) and Digital Ground (Pins 4, 10, 17 or23) whenever the module is ON.
This closure can be used to control an externally powered tally lightthat requires a continuous closure to function. Or an external tally light(i.e., LED) can be powered from the input module by connecting theexternal LED to +5V Digital (Pins 5 or 11) and the A or B On Tallyports. In either case, current should not exceed 30 milliamps.
Off Tally
Identical to “On Tally” (preceding), only this tally is active whenthe module is OFF. Off Tally A is Pin 2; Off Tally B is Pin 8.
We recommend a seriesresistor between the LEDand +5V digital when youare powering the externaltally from the console; avalue of 220Ω (1/4W 5%)is suggested.
See also “Talkback” sec-tion earlier in this chapter,(page 2-4).
M O N O M I C I N P U T
page 2 – 8RD / May 2000RD / March 2001
MMD-5 Mono Mic InputDB Connector Pinouts
ANALOGI/O PORTS
(Upper DB-25)
LOGICI/O PORTS
(Lower DB-25)
MIC A IN SH
MIC A IN HI
MIC B IN LO
AUDIO GROUND
N/C
N/C
AUDIO GROUND
N/C
N/C
INSERT OUT SH
INSERT OUT HI
INSERT IN LO
AUDIO GROUND
MIC B IN HI
N/C
AUDIO GROUND
N/C
N/C
AUDIO GROUND
N/C
INSERT OUT LO
INSERT IN SH
INSERT IN HI
N/C
N/C
DIGITAL GROUND
REMOTE ON B
ON TALLY B
TB TO CR B
N/C
N/C
DIGITAL GROUND
REMOTE ON A
ON TALLY A
TB TO CR A
AUDIO GROUND
N/C
+5V DIGITAL
DIGITAL GROUND
REMOTE OFF B
OFF TALLY B
COUGH B
N/C
+5V DIGITAL
DIGITAL GROUND
REMOTE OFF A
OFF TALLY A
COUGH A
54
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
1918
10
9
23
22
21
13
12
11
25
24
MIC A IN LO
MIC B IN SH
TRIM
TRIM
ONOFFON TALLYOFF TALLYCOUGHTB
MONO MIC INPUT
+40V
MIC
ONOFFON TALLYOFF TALLYCOUGHTB
A
B
A / BLOGIC
A
B
AB
INSERTBYPASSPRESET
INSERTIN/OUT
+40V
LOGIC
ON OFFA B
PGM AUD UTL
CHANNEL ON/OFFINPUT SELECT
BUS ASSIGN SWITCHES
FRONT PANEL SWITCHES
LOGIC
LH
LH
LH
LH
A Logic Follow
B Logic Follow
A LOGIC DIPSWITCH(1 of 2; B not shown)
LOGICPORTS
CR MUTESTUDIO 1 MUTE
TALLY 2
STUDIO 2 MUTE
TB TO ST2 MUTE
ON AIR TALLYTALLY 3
TO
CO
NS
OL
E C
ON
TR
OL
BU
SS
ES
TIMER RESTARTTB TO ST1 MUTE
UTIL BUS PRE-FADER
RD/May 2000MMD-5 Mono Mic Input Module - Signal Flow Diagram
SELECT
FET
SW
SLIDE SW
ANALOG TO
DIGITAL
CONVERTER
(ADC)
FADER
DIGITAL AUDIODATA
Analog
Analog
DIPSW
DIPSW
CUE LOGIC
DIP SW
TB MONITOR TO CONSOLE AUDIO BUSSES
SUPERPHONE AUD LINKSUPERPHONE PGM LINK
SUPERPHONE UTL LINK
SuperphoneLink F
RO
MC
ON
SO
LE
CO
NT
RO
LB
US
SE
S
page 2 - 9
DIPSWITCH
page 3 – 1RD / May 2000
S T E R E O L I N E I N P U T
Stereo Line Input (SLD-5)
Chapter Contents
Module Overview........................................................................ 3-2
Internal Programming Options ................................................. 3-3Mutes ...................................................................................................................... 3-3
Timer Restart .......................................................................................................... 3-3
Cue Dropout............................................................................................................ 3-3
Local/Ready ............................................................................................................ 3-3
Utility Bus Pre-Fader .............................................................................................. 3-4
Tallies ...................................................................................................................... 3-4
Superphone Output Assign .................................................................................... 3-4
Remote On/OFF - Constant vs. Pulse .................................................................... 3-4
Remote START/STOP - Normal vs. EFS ............................................................... 3-5
Hook-ups..................................................................................... 3-5ANALOG AUDIO CONNECTIONS......................................................................... 3-5
DIGITAL AUDIO CONNECTIONS.......................................................................... 3-6
CONTROL CONNECTIONS................................................................................... 3-6
Remote ON & OFF ................................................................................................. 3-7
On Tally ................................................................................................................... 3-7
External START & STOP ....................................................................................... 3-7
Ready ...................................................................................................................... 3-7
Typical Hook-Up Diagram ...................................................................................... 3-8
DB Connector Pinout DrawingsADC Analog Version ............................................................................................... 3-9
SRC Digital Version .............................................................................................. 3-10
Stereo Line Input Signal Flow Diagram ................................. 3-11
page 3 – 2RD / May 2000
S T E R E O L I N E I N P U T
Stereo Line Input (SLD-5)Module Overview
SLD-5 modules are for stereo line input signals. They are available intwo different versions:
The ADC (analog-to-digital converter) version accepts +4dBu balancedanalog input signals. It has L/R front panel input gain trimpots and uses anSLADC-500 piggyback card at the input stage of the module.
The SRC (sample rate converter) version accepts digital (AES) inputs. Ituses an SRC-500 piggyback input card and has no front panel gain trims. Thefactory default digital format is AES.
Each module accepts two stereo sources: A and B, switched at the topof the module. Output switches assign the selected source signal to anycombination of the console’s three stereo outputs: PGM (program), AUD(audition), and/or UTL (utility).
A CUE switch places the module’s signal on the console’s stereo cuebus, where it may be heard on the meterbridge mounted cue speakers and/or as an interrupt to the console operator’s headphones and control roommonitor speakers. The various cue interrupt modes are programmed at theconsole’s CRD-5 (Control Room) module via internal PCB-mounteddipswitches. See page 5-3.
Channel ON (START) and OFF (STOP) switches are at the bottom ofthe module. In addition to being controlled remotely, these can also beprogrammed (via internal PCB-mounted dipswitches) to perform avariety of functions, including starting and stopping external sourcemachines, activating control room and studio mutes, external tallies, andtimer restart. The STOP switch’s LED can be controlled by an externalsource machine to act as a “ready” indicator.
All audio and control input and output signals are made via two multi-pin DB-25 connectors mounted in the bottom of the console’s mainframe,directly underneath each individual module.
AAAA
BBBB
AAAANNNNAAAALLLLOOOOGGGG LLLLIIIINNNNEEEELLLL
RRRR
CCCCUUUUEEEE
0
5
15
20
30
40
50
6070
10
00
SLD
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
PPPPGGGGMMMM
AAAAUUUUDDDD
UUUUTTTTLLLL
AAAA
SSSS
SSSS
IIII
GGGG
NNNN
page 3 – 3RD / May 2000
S T E R E O L I N E I N P U T
Internal Programming OptionsAll internal programming is made via PCB mounted switches on the
module’s two printed circuit boards.For the purposes of this manual, we will assume you are holding the re-
moved module upright, component side towards you, with gold-plated cardfingers to the left and the module faceplate to the right. This will enable you toread the control legends silkscreened next to each programming switch. Notewhen a dipswitch position is thrown to the right (towards the module’s face-plate) it is ON.
Mutes
Like MMD-5 inputs, an SLD-5 module can be programmed to mutestudio speakers when the channel is ON. The RD console has three mutecontrol lines: control room, studio one and studio two. Each of these maybe activated by either an A or B input source. The first three positions ofdipswitches SW3 and SW4 (to the left of the fader) program these mutingfunctions:
SW3 position 1 mutes the control room when source A is ONSW3 position 2 mutes studio one when source A is ONSW3 position 3 mutes studio two when source A is ONSW4 position 1 mutes the control room when source B is ONSW4 position 2 mutes studio one when source B is ONSW4 position 3 mutes studio two when source B is ON
Timer Restart
The console’s digital timer can be programmed to automatically resetto zero and begin counting up when the module’s ON button is pressed.
SW3 position 4 activates timer restart when source A is turned ON*SW4 position 4 activates timer restart when source B is turned ON
Cue Dropout
Dipswitch SW5 position 1, when activated, will cause the module’sCUE function to be de-activated whenever the channel ON switch ispressed. This is the factory default setting.
Local/Ready
The module’s channel OFF switch normally has its LED indicatorcontrolled by the switch itself (“local”). This is the factory default setting.However, should you wish to have the LED function as a “ready” light foran external source machine, dipswitch SW5 position 2, when thrown to theleft (away from the faceplate) passes control to opto-isolated A and B“ready” ports on the module’s lower DB-25 connector where a 5 voltsignal applied with correct polarity will activate the OFF switch LED. Aslong as the voltage is maintained, the LED will be lit.
?
*factory default setting
page 3 – 4RD / May 2000
S T E R E O L I N E I N P U T
Utility Bus Pre-Fader
Dipswitch SW5 position 4, when activated, will cause the modulesignal assigned to the console’s UTL output to be tapped before the faderand the channel ON/OFF switches.
Tallies
Turning the module ON can activate a remote tally indicator. There arethree tally control lines: on-air, tally 2 and tally 3. The first three positionsof dipswitch SW6 (to the left of the fader) program these functions:
SW6 position 1 activates the on-air tally control lineSW6 position 2 activates tally 2SW6 position 3 activates tally 3
Superphone Output Assign
Like MMD-5 modules, SLD-5 output assign switches can be con-trolled by the console’s SPD-5 superphone module.
Dipswitch SW2 (to the left of the fader on the module’s main PCB) willslave selected output assign switches to follow superphone output assignswitch control pulses:
Dipswitch position 1 links the PGM switchDipswitch position 2 links the AUD switchDipswitch position 4 links the UTL switch
In order for this feature to work, an associated dipswitch on the super-phone module PCB (SW1) must be programmed as well (see page 9-4).
Remote ON/OFF — Constant vs. Pulse
Slide switch SW7, located just to the right of the main PCB’s uppercard fingers, allows you to correct for differing source machine ON/OFFcontrol signals to the SLD-5 module. When set to CONST (“up”), themodule will work with most standard source machines. Occasionally,however, the source machine, because of the way it is designed, will sendoverly long control closures to the module’s remote ON and OFF ports—closures so long that they will hang up the module’s ON/OFF logic. Whenthis kind of problem manifests itself, setting SW7 to PULSE (“down”) willconvert the closures to pulses before they get to the channel ON/OFFswitch logic.
Example: SW7 is set to default CONST (constant). The external sourcemachine reaches end-of-play and sends a five second (or longer) OFF signal tothe module, effectively holding it in an Off state. You press the module ONswitch but nothing happens—because the OFF switch is locked up. With SW7set to PULSE this type of problem is eliminated; the module is turned off andleft immediately ready for further control input.
Note this feature onlyworks for turning assignswitches ON; they will notturn OFF from thesuperphone module—thismust be done manually.
Remote tall ies arehooked-up to the consoleat the Control Room andStudio modules (seepages 5-4 and 6-4).
The factory default set-ting for SW7 is CON-STANT (“up”)
RD / Aug 2001
page 3 – 5RD / May 2000
S T E R E O L I N E I N P U T
Remote START/STOP – Normal vs. EFS
Slide switch SW1 (mounted on the main PCB just to the left of the topof the module’s fader) affects the way channel ON/OFF switches sendcontrol signals to START and STOP remote source machines.
When SW1 is set to NORMAL (“up”) whenever the channel ONswitch is pressed a single pulse closure takes place at the A and B STARTports. When the OFF switch is subsequently pressed, a single pulse closuretakes place at the A and B STOP ports.
When set to EFS ON (“down”) a “European fader start” type ofconstant closure is activated: whenever the channel ON switch is pressedmomentarily a constant closure is initiated at the module’s A and BSTART control ports. When the channel OFF switch is subsequentlypressed, that closure is broken.
If an SLD-5 module has been equipped with an optional EFS-typefader with a bottom-of-travel switch, it is best to set SW1 to EFS ON.
While no harm will result to any circuitry or hardware if an EFS fader isused with SW1 set to NORMAL, the end result will be an extremely shortcontrol pulse at the module’s START/STOP control ports—a pulse so short thatit may not be detected by all source machines.
Hook-UpsAs stated before, all user wiring to and from SLD-5 modules takes
place at DB-25 multi-pin connectors mounted directly beneath eachmodule on the console mainframe’s bottom pan. There are two connectorsper module: the upper one (towards the console meterbridge) handlesaudio inputs; the lower (near the console armrest) control signals. Pinoutdrawings on pages 3-9 and 3-10 show all wiring connections at a glance.
ADC Module Version (Analog)Audio Connections (upper DB-25)
These include A and B source inputs; level is +4dBu balanced.Pin 25 – Line A In Lt SHPin 24 – Line A In Lt HIPin 12 – Line A In Lt LOPin 11 – Line A In Rt SHPin 10 – Line A In Rt HIPin 23 – Line A In Rt LOPin 22 – Line B In Lt SHPin 21 – Line B In Lt HIPin 9 – Line B In Lt LOPin 8 – Line B In Rt SHPin 7 – Line B In Rt HIPin 20 – Line B In Rt LO
The factory default set-ting is NORMAL.
Typical DB-25connector
RD / March 2001
page 3 – 6RD / May 2000
S T E R E O L I N E I N P U T
SRC Module Version (Digital)Audio Connections (upper DB-25)
These include A and B source inputs (AES).Pin 25 – Line A In SHPin 24 – Line A In HIPin 12 – Line A In LOPin 11 – Line B In SHPin 10 – Line B In HIPin 23 – Line B In LO
Control Connections (lower DB-25)These are identical for both analog and digital versions of the SLD-5
module. All control ports (except On Tally) are opto-isolated. Functionsinclude remote on and off, on tally, ready, and start/stop for remote sourcemachines. With the exception of On Tally, each function is available twice,for both A and B source ports, allowing it to follow the module's A/Bsource selector switch.
Pin 1 – Ready A-Pin 2 – Ready A+Pin 3 – Start A+Pin 4 – Stop A+Pin 5 – Start/Stop Com APin 6 – Start/Stop Com BPin 7 – Stop B+Pin 8 – Start B+Pin 9 – Ready B+Pin 10 – Ready B-Pin 11 – Digital GroundPin 12 – On TallyPin 13 – +5V DigitalPin 14 – Remote On A-Pin 15 – Remote On A+Pin 16 – Remote Off A-Pin 17 – Remote Off A+Pin 18 – Remote Off B+Pin 19 – Remote Off B-Pin 20 – Remote On B+Pin 21 – Remote On B-
Typical DB-25connector
RD / March 2001
page 3 – 7RD / May 2000
S T E R E O L I N E I N P U T
To Turn the Module ON & OFF from a Remote Location
In the case of stereo line input modules, “remote location” can alsorefer to a remote source machine that is feeding its audio to the module inquestion. A 5 volt signal (which may be sourced by the external machine),when hooked up to the control pins with the correct polarity, will activatethe module’s channel ON and OFF switches.
REMOTE ON — Activates the module’s channel ON switch. Momen-tary connect the plus side of a 5 volt signal to Pin 15 and the minus side ofthe same 5 volt signal to Pin 14 to latch the module ON when input A isselected. Use pins 20 (+) and 21 (-) to latch the module ON when input Bis selected.
REMOTE OFF — Activates the module’s channel OFF switch.Momentary connect the plus side of a 5 volt signal to Pin 17 and the minusside of the same 5 volt signal to Pin 16 to latch the module OFF when inputA is selected. Use pins 18 (+) and 19 (-) to latch the module OFF when inputB is selected.
See also “Remote ON/OFF – Constant vs. Pulse” on page 3-4.
On Tally
Lets the module’s channel ON switch control an on-air light or otherindicator at a remote location. This control function provides a continuous+5 volts at Pin 12 (On Tally) relative to Pin 13 (+5V Digital) whenever themodule’s channel ON switch is activated.
To START and STOP Remote Source Machines Using Module ON/OFF Switches
EXTERNAL START — Hook up the remote machine’s “start” controlpins to the SLD-5 module’s lower DB-25 connector control pins: for ASTART wire to Pins 3 and 5; for B START wire to Pins 8 and 6.
EXTERNAL STOP — Hook up the remote machine’s “stop” controlpins to the SLD-5 module’s lower DB-25 connector control pins: for ASTOP wire to Pins 4 and 5; for B STOP wire Pins 7 and 6.
Note that these are opto isolated outputs. START/STOP COM A (Pin5) and START/STOP COM B (Pin 6) are opto emitters, while theremaining connections (START A, pin 3; START B, Pin 8; STOP A, Pin4; STOP B, Pin 7 are opto collectors. Correct polarity must be observed inwiring to these connections.
See also “Remote START/STOP – Normal vs. EFS” on page 3-5.
To Control the Module’s OFF Switch LED with an External SourceMachine
READY — Hook up the remote machine’s “ready” control pins to theSLD-5 module’s lower DB-25 connector control pins: for A READYprovide a 5 volt signal to Pin 2, positive relative to Pin 1; for B READYprovide a 5 volt signal to Pin 9, positive relative to Pin 10. As long as thevoltage is maintained, the module’s OFF LED will be illuminated.
A diagram showing typical connections is shown on the next page.
Typical DB-25connector
RD / June 2007
page 3 – 8RD / May 2000
S T E R E O L I N E I N P U T
Pin numbers in ( ) are for source "B"
*
*Perhaps the easiest way to accomplish these jumps isat the ITC end of the cable. Refer to drawing on page 1-10("Wiring Procedure – Double Connection to One Pin") forthe recommended procedure.
Connection InstructionsITC Delta III Cart Player
(Use DB-25 male connectors on each end of cable)
ref: RD Stereo Line Input Module (SLD-5)
SLD-5 Module Lower DB-25 ITC Delta III Cart Machine
ITC Delta III DB-25
3
5
4
2
1
17
16
7
2
6
11
13
A STOP +
A READY -
A READY +
A START +
A COMMON
A OFF+
A OFF-
REMOTE START
REMOTE COMMON
REMOTE STOP
+5
REMOTE READY LAMP
(8)
(6)
(7)
(9)
(10)
(18)
(19)
page 3 – 9RD / May 2000
S T E R E O L I N E I N P U T
RD / March 2001
SLD-5 Stereo Line InputAnalog Version DB Connector Pinouts
I/O PORTS(Upper DB-25)
ANALOG
I/O PORTS(Lower DB-25)
LOGIC
LINE A IN LT HI
LINE A IN RT LO
LINE B IN LT HI
LINE B IN RT LO
AUDIO GROUND
N/C
N/C
N/C
N/C
N/C
AUDIO GROUND
LINE A IN LT LO
LINE A IN RT SH
LINE A IN RT HI
LINE B IN LT LO
LINE B IN RT SH
LINE B IN RT HI
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
REMOTE ON B –
REMOTE ON B +
REMOTE OFF B –
REMOTE OFF B +
REMOTE OFF A +
REMOTE OFFA –
REMOTE ON A +
REMOTE ON A –
+5V DIGITAL
ON TALLY +
DIGITAL GROUND
READY B –
READY B +
START B +
STOP B +
START/STOP COM. B
START/STOP COM. A
STOP A +
START A +
READY A +
READY A –
54
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
1918
10
9
23
22
21
13
12
11
25
24
LINE A IN LT SH
LINE B IN LT SH
page 3 – 10RD / May 2000
S T E R E O L I N E I N P U T
RD / March 2001
SLD-5 Stereo Line InputDigital Version (SRC) DB Connector Pinouts
I/O PORTS(Upper DB-25)
DIGITAL
I/O PORTS(Lower DB-25)
LOGIC
LINE A AES HI
LINE B AES LO
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
LINE A AES LO
LINE B AES SH
LINE B AES HI
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
54
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
1918
10
9
23
22
21
13
12
11
25
24
N/C
N/C
N/C
N/C
REMOTE ON B –
REMOTE ON B +
REMOTE OFF B –
REMOTE OFF B +
REMOTE OFF A+
REMOTE OFF A –
REMOTE ON A +
REMOTE ON A –
+5V DIGITAL
ON TALLY +
DIGITAL GROUND
READY B –
READY B +
START B +
STOP B +
START/STOP COM. B
START/STOP COM. A
STOP A +
START A +
READY A +
READY A –
LINE A AES SH
RD/May 2000
SLD-5 Stereo Line Input Module - Signal Flow Diagram
STEREO LINE INPUT
ANALOG OR DIGITAL
A / BLOGIC
LH
LH
LH
LH
A
B R
L
R
L
R
L
SELECT
TRIM
TRIM
INPUT
A Control
ONOFFSTARTSTOPREADY
ONOFF
B Control
START
LOGIC
STOPA B
PGM AUD UTL
CHANNEL ON/OFFINPUT SELECT
BUS ASSIGN SWITCHES
FRONT PANEL SWITCHES
LOGIC
STARTSTOPREADY
CUECUE ASSIGN
FETSW
AB
ANALOG TO
DIGITAL
CONVERTER
(ADC)
A Logic Follow
B Logic Follow
A LOGIC DIPSWITCH(1 of 2; B not shown)
CR MUTESTUDIO 1 MUTE
TALLY 2
STUDIO 2 MUTE
TB TO ST2 MUTE
ON AIR TALLYTALLY 3
TO
CO
NS
OL
E C
ON
TR
OL
BU
SS
ES
TIMER RESTARTTB TO ST1 MUTE
UTIL BUS PRE-FADER
DIGITAL AUDIODATA
CUE LOGIC
Analog
Analog
Analog
Analog
FADER
A
BINPUT
Digital
DigitalAES
RECEIVER
SAMPLE
RATE
CONVERTER
(SRC)
OR
SELECT
AB
SUPERPHONE AUD LINKSUPERPHONE PGM LINK
SUPERPHONE UTL LINK
SuperphoneLink
DIPSWITCH
FR
OM
CO
NS
OL
EC
ON
TR
OL
BU
SS
ES
ON TALLY
page 3 - 11
page 4 – 1RD / May 2000
O U T P U T M O D U L E S
Output Modules
(OMD-5)
Chapter Contents
Module Overview........................................................................ 4-2
Internal Programming Options ................................................. 4-3Insert Bypass .......................................................................................................... 4-3
Hook-ups..................................................................................... 4-3Master Output Module 1 (PGM)
Upper DB-25 Connector — Analog Audio ....................................................... 4-3
Lower DB-25 Connector — Digital Outputs ..................................................... 4-4
Master Output Module 2 (AUD and UTIL)
Upper DB-25 Connector — Analog Audio ....................................................... 4-4
Lower DB-25 Connector — Digital Outputs ..................................................... 4-4
DB Connector Pinout DrawingsMaster Output 1 ...................................................................................................... 4-5
Master Output 2 ...................................................................................................... 4-6
Master Output Modules signal Flow Diagram ......................... 4-7
page 4 – 2RD / May 2000
O U T P U T M O D U L E S
Output Modules
(OMD-5)
Module OverviewEach RD console has two master output modules: the first
handles the console’s Program outputs (OM1), the secondAudition and Utility (OM2).
OM1 output module has installed jumpers J3, J4 forProgram output; and J11, J12 for CUE monitor signal.
OM2 output module has installed jumpers J5, J6 forAudition output; J9, J10 for Utility output; and J13, J14 forTEL monitor signal.
Either module can be changed to the other by making theappropriate jumper changes.
Both modules output analog and digital signals. Analogoutputs may be adjusted using recessed front panel multi-turntrimpots.
OMD-5 modules also generate the console’s monitorsignals, which feed the Control Room, Studio and MeterOutput modules. There are analog stereo insert points forPGM and AUD analog outputs (these may be internallybypassed, which is the factory default setting). Processingdone at the insert points will not affect the digital outputsignals. Regardless of the bypass switch setting, INSERTOUT may be used as an additional direct PGM (or AUD)analog output from a module.
All user wiring to and from OMD-5 modules takes placeat DB-25 multi-pin connectors mounted directly beneath themodule on the console mainframe’s bottom pan. There aretwo connectors: the upper one (towards the consolemeterbridge) handles analog outputs and insert points; thelower connector (near the console armrest) digital outputs(AES format). All analog audio is +4dBu balanced. Pinoutdrawings on pages 4-5 and 4-6 show all wiring connections ata glance.
OM1
PROGRAML
R
AAAANNNNAAAALLLLOOOOGGGG TTTTRRRRIIIIMMMM
OM2
AAAANNNNAAAALLLLOOOOGGGG TTTTRRRRIIIIMMMM
AUDITIONL
R
UTILITYL
R
page 4 – 3RD / May 2000
O U T P U T M O D U L E S
Internal Programming Options
Insert Bypass
Virtually all internal programming switches on OMD-5 modules are forfactory use only. There is one exception, however, and that is the INSERTBYPASS slide switch SW2, located near the top of the PCB just above the fourfront panel analog trimpots. The factory default for this switch is “down”; i.e.,the module’s PGM (or AUD) insert points are bridged. To use the PGM (orAUD) insert points (located on the upper DB-25 connector) throw the switch“up”.
For the purposes of this manual, we will assume you are holding the removedmodule upright, component side towards you, with gold-plated card fingers to theleft and the module faceplate to the right.
Hook-UpsAs stated before, all user wiring to and from OMD-5 modules takes place
at two DB-25 multi-pin connectors mounted directly beneath the module onthe console mainframe’s bottom pan.
Master Output Module 1:
Upper DB-25 Connector – Analog Audio
Includes Program outputs and Program insert points. All signals are+4dBu balanced.
Pin 25 – PGM Lt Out SHPin 24 – PGM Lt Out HIPin 12 – PGM Lt Out LO
Pin 11 – PGM Rt Out SHPin 10 – PGM Rt Out HIPin 23 – PGM Rt Out LOPin 19 – PGM Lt Insert Out SHPin 18 – PGM Lt Insert Out HIPin 6 – PGM Lt Insert Out LOPin 5 – PGM Rt Insert Out SHPin 4 – PGM Rt Insert Out HIPin 17 – PGM Rt Insert Out LOPin 16 – PGM Lt Insert In SHPin 15 – PGM Lt Insert In HIPin 3 – PGM Lt Insert In LOPin 2 – PGM Rt Insert In SHPin 1 – PGM Rt Insert In HIPin 14 – PGM Rt Insert In LO
Typical DB-25connector
Insert points are normally by-passed at the factory. See “In-sert Bypass” (preceding section)if you intend to use these points.
RD / March 2001
page 4 – 4RD / May 2000
O U T P U T M O D U L E S
Lower DB-25 Connector – Digital Outputs
Handles digital Program outputs (AES format)Pin 2 – PGM AES Out SHPin 1 – PGM AES Out HIPin 14 – PGM AES Out LO
Master Output Module 2:
Upper DB-25 Connector – Analog Audio
Includes Audition, Utility outputs and Audition insert points. All signalsare +4dBu balanced.
Pin 25 – AUD Lt Out SHPin 24 – AUD Lt Out HIPin 12 – AUD Lt Out LO
Pin 11 – AUD Rt Out SHPin 10 – AUD Rt Out HIPin 23 – AUD Rt Out LOPin 22 – UTIL Lt Out SHPin 21 – UTIL Lt Out HIPin 9 – UTIL Lt Out LO
Pin 8 – UTIL Rt Out SHPin 7 – UTIL Rt Out HIPin 20 – UTIL Rt Out LOPin 19 – AUD Lt Insert Out SHPin 18 – AUD Lt Insert Out HIPin 6 – AUD Lt Insert Out LOPin 5 – AUD Rt Insert Out SHPin 4 – AUD Rt Insert Out HIPin 17 – AUD Rt Insert Out LOPin 16 – AUD Lt Insert In SHPin 15 – AUD Lt Insert In HIPin 3 – AUD Lt Insert In LOPin 2 – AUD Rt Insert In SHPin 1 – AUD Rt Insert In HIPin 14 – AUD Rt Insert In LO
Lower DB-25 Connector – Digital Outputs
Handles digital Audition and Utility outputs (AES format)Pin 16 – UTIL AES Out SHPin 15 – UTIL AES Out HIPin 3 – UTIL AES Out LOPin 2 – AUD AES Out SHPin 1 – AUD AES Out HIPin 14 – AUD AES Out LO
Insert points are normally by-passed at the factory. See “In-sert Bypass” (preceding page) ifyou intend to use these points.
Typical DB-25connector
RD / March 2001
page 4 – 5RD / May 2000
O U T P U T M O D U L E S
RD / March 2001
OMD-5 (1): PGM OutputDB Connector Pinouts
I/O PORTS(Upper DB-25)
ANALOG
I/O PORTS(Lower DB-25)
DIGITAL
PGM LT OUT SHPGM LT OUT HI
PGM RT OUT LO
N/C
N/C
N/C
PGM LT INS OUT SH
PGM LT INS OUT HI
PGM RT INS OUT LO
PGM LT INS IN SHPGM LT INS IN HI
PGM RT INS IN LO
AUDIO GROUND
PGM LT OUT LO
PGM RT OUT SH
PGM RT OUT HI
N/C
N/C
N/C
PGM LT INS OUT LO
PGM RT INS OUT SH
PGM RT INS OUT HI
PGM LT INS IN LO
PGM RT INS IN SH
PGM RT INS IN HI
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/CN/C
N/C
PGM AES OUT LO
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
PGM AES OUT SH
PGM AES OUT HI
54
32
1
1716
15
14
8
7
6
20
19
18
10
9
23
22
21
1312
11
25
24
54
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
page 4 – 6RD / May 2000
O U T P U T M O D U L E S
RD / March 2001
OMD-5 (2): AUD-UTIL OutputDB Connector Pinouts
I/O PORTS(Upper DB-25)
ANALOG
I/O PORTS(Lower DB-25)
DIGITAL
AUD LT OUT SH
AUD LT OUT HI
AUD RT OUT LO
UTIL LT OUT SH
UTIL LT OUT HI
UTIL RT OUT LO
AUD LT INS OUT SH
AUD LT INS OUT HI
AUD RT INS OUT LO
AUD LT INS IN SHAUD LT INS IN HI
AUD RT INS IN LO
AUDIO GROUND
AUD LT OUT LO
AUD RT OUT SH
AUD RT OUT HI
UTIL LT OUT LO
UTIL RT OUT SH
UTIL RT OUT HI
AUD LT INS OUT LO
AUD RT INS OUT SH
AUD RT INS OUT HI
AUD LT INS IN LO
AUD RT INS IN SH
AUD RT INS IN HI
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
UTIL AES OUT SH
UTIL AES OUT HI
AUD AES OUT LO
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
UTIL AES OUT LO
AUD AES OUT SH
AUD AES OUT HI
5
4
32
1
17
16
15
14
8
76
20
19
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
1716
15
14
8
76
20
19
18
10
9
23
22
21
13
12
11
25
24
GAIN
OUTPUT MODULE(OMD-5/1)
R
L L
GAIN
R
LHOUT
LH
IN
INSERT
MONITORFEED
PGM LTOUTL
H
PGM RTOUTL
H
FR
OM
DS
P M
OD
UL
E
CUE
PROGRAM
GAIN
R
GAIN
L CUE LTOUTL
H
CUE RTOUTL
HT
O C
ON
SO
LE
MO
NIT
OR
BU
SS
ES
OUTPUT MODULE(OMD-5/2)
L
R
MONITORFEED
AUD LTOUTL
H
AUD RTOUTL
H
L
R
TEL MONITOR
UTILITY
AUDITION
R
GAIN
GAIN
GAIN
GAIN
GAIN
GAIN
L
UTL LTOUTL
H
UTL RTOUTL
H
TEL 1, 2OUTL
H
TEL 3, 4OUTL
H
TO
CO
NS
OL
E M
ON
ITO
R B
US
SE
S
RD/May 2000
OMD-5 Master Output Module - Signal Flow Diagram
SLIDE SW
SLIDE SW
SLIDE SW
SLIDE SW
INSERTBYPASSPRESET
INSERTBYPASSPRESET
DAC
DAC
LHOUT
LH
IN
INSERT
R
LLHOUT
LH
IN
INSERT
FR
OM
DS
P M
OD
UL
E
DAC
DAC
DAC
LHOUT
LH
IN
INSERT
LH
DIG OUT
LH
DIG OUT
LH
DIG OUT
page 4 - 7
page 5 – 1RD / May 2000
C O N T R O L R O O M M O D U L E
Control Room Module
(CRD-5)
Chapter Contents
Module Overview........................................................................ 5-2
Internal Programming Options ................................................. 5-3Cue Interrupt ........................................................................................................... 5-3
Cue Mute ................................................................................................................ 5-3
Mono Cue ............................................................................................................... 5-3
Hook-ups..................................................................................... 5-4Upper DB-25 Connector — AUDIO ........................................................................ 5-4
Upper DB-25 Connector — CONTROL .................................................................. 5-4
On-Air Tally ....................................................................................................... 5-4
Lower DB-25 Connector — AUDIO ........................................................................ 5-5
DB Connector Pinout Drawing.................................................. 5-6
Control Room Module Signal Flow Diagram ........................... 5-7
page 5 – 2RD / May 2000
C O N T R O L R O O M M O D U L E
Control Room Module
(CRD-5)
Module OverviewThe CRD-5 module is the RD console operator’s monitor module.
It allows him to listen to the console’s three stereo outputs (PGM, AUD& UTL) as well as two external stereo line level inputs brought directlyinto the module. Source SELECT switching for these signals is at thetop of the module.
The CRD-5 also houses console HEADPHONE and CONTROLROOM circuits, which follow the source selection switches.
There are two types of headphone output: the +4dBu balanced output atthe module’s DB-25 connector (pre-level control), and two headphone jacksmounted left and right on the front of the lower mainframe pan, which areactually outputs from a built-in headphone amplifier. It is this built-in ampthat is controlled by the module’s front panel HEADPHONE level control.
The CUE master level control is right in the center of the module;this sets the level of the console’s cue signal.
Whenever CUE is activated elsewhere on the console (stereo lineinputs, the superphone module or for studio talkback) its signal will appearat the console’s built-in cue speaker mounted in the meter-bridge. Depend-ing on how the CRD-5 module has been programmed, cue can also interruptthe control room monitor speakers and/or the console operator’s headphone.The way Cue interrupts the module’s headphone and CR outputs is deter-mined by an internal PCB-mounted dipswitch. See “Cue Interrupt” on nextpage.
All user wiring to and from the CRD-5 module takes place atDB-25 multi-pin connectors mounted directly beneath the module onthe console mainframe’s bottom pan. There are two connectors: theupper one (towards the console meterbridge) handles audio outputs andthe console on-air tally control signals; the lower (near the consolearmrest) accepts the two external source inputs. All audio connectionsare stereo line level analog signals (+4dBu balanced). A pinoutdrawing on page 5-6 shows all wiring connections at a glance.
111100009999
8888
777766664444
3333
2222
11110000
5555
HHHHEEEEAAAADDDDPPPPHHHHOOOONNNNEEEE
111100009999
8888
777766664444
3333
2222
1111
0000
5555
CCCCUUUUEEEE
CRD
111100009999
8888
777766664444
3333
2222
11110000
5555
CCCCOOOONNNNTTTTRRRROOOOLLLL
OOOONNNN
EEEEXXXXTTTTEEEERRRRNNNNAAAALLLLSSSSTTTTEEEERRRREEEEOOOO
1111
2222
PPPPGGGGMMMM
AAAAUUUUDDDD
UUUUTTTTLLLL
SSSS
EEEE
LLLL
EEEE
CCCC
TTTT
page 5 – 3RD / May 2000
C O N T R O L R O O M M O D U L E
Internal Programming OptionsThere are two user-programmable switches on the CRD-5. One is a 7-
position dipswitch, SW1, located on the module’s main PCB slightlyabove and to the left of the cue master level control. This sets various cueinterrupt modes (see below).
There is also a single slide switch, located on the back edge of themodule’s piggyback PCB, which selects stereo or mono cue (see below).
For the purposes of this manual, we will assume you are holding the re-moved module upright, component side towards you, with gold-plated cardfingers to the left and the module faceplate to the right. This will enable you toread the control legends silkscreened next to each programming switch. Notewhen a dipswitch position is thrown to the right (towards the module’s face-plate) it is ON.
Cue Interrupt
Seven-position dipswitch SW1 determines how the console’s Cuefunction will interrupt regular monitor signals:
Dipswitch position 1 sends cue to CR leftDipswitch position 2 sends cue to CR rightDipswitch position 3 sends cue to HDPN left*Dipswitch position 4 sends cue to HDPN right*
Cue Mute
As Cue is also fed to the console’s built-in meterbridge speaker, whereit can easily be picked up by the console operator’s microphone, there isprovision to mute Cue whenever that mic is live (i.e., whenever the controlroom mute function is activated).
Dipswitch SW1 position 7 will mute cue whenever CR is muted(this is the factory default setting)
Mono Cue
Cue is normally a stereo signal; however, mono cue is possible. Simplythrow slide switch SW1 on the piggyback “cue” card in the direction of thesilkscreened arrow (down). This will send a summed L+R cue signal toboth cue left and right signal paths. Note the factory default setting for thisswitch is stereo cue.
*factory default settings
page 5 – 4RD / May 2000
C O N T R O L R O O M M O D U L E
Hook-UpsAs stated before, all user wiring to and from the CRD-5 module takes
place at two DB-25 multi-pin connectors mounted directly beneath themodule on the console mainframe’s bottom pan.
Upper DB-25 Connector — Audio
Includes cue, headphone and control room outputs. All audio signalsare +4dBu balanced, analog stereo.
Pin 25 – Cue Lt Out SHPin 24 – Cue Lt Out HIPin 12 – Cue Lt Out LOPin 11 – Cue Rt Out SHPin 10 – Cue Rt Out HIPin 23 – Cue Rt Out LO
Pin 22 – Hdpn Lt Out SHPin 21 – Hdpn Lt Out HIPin 9 – Hdpn Lt Out LOPin 8 – Hdpn Rt Out SHPin 7 – Hdpn Rt Out HIPin 20 – Hdpn Rt Out LO
Pin 19 – CR Lt Out SHPin 18 – CR Lt Out HIPin 6 – CR Lt Out LOPin 5 – CR Rt Out SHPin 4 – CR Rt Out HIPin 17 – CR Rt Out LO
Upper DB-25 Connector — Control
The console’s on-air tally port is on the CRD-5 upper DB-25 connec-tor. This is a simple relay closure that activates whenever programmedinput modules are turned ON (see page 2-4). The port can be used to controlan externally powered tally light that requires a continuous closure tofunction.
Pin 14 – On-Air Tally Relay COMPin 1 – On-Air Tally Relay N.O.
Maximum current throughthe on-air tally relay clo-sure is 2 amps @30VDC.
!
Typical DB-25connector
RD / March 2001
page 5 – 5RD / May 2000
C O N T R O L R O O M M O D U L E
Lower DB-25 Connector — Audio
This connector handles the module’s source select External Stereo andExternal CUE inputs.
Pin 25 – Ext Cue In SHPin 24 – Ext Cue In HI
Pin 19 – Ext 1 Lt In SHPin 18 – Ext 1 Lt In HIPin 6 – Ext 1 Lt In LOPin 5 – Ext 1 Rt In SHPin 4 – Ext 1 Rt In HIPin 17 – Ext 1 Rt In LO
Pin 16 – Ext 2 Lt In SHPin 15 – Ext 2 Lt In HIPin 3 – Ext 2 Lt In LOPin 2 – Ext 2 Rt In SHPin 1 – Ext 2 Rt In HIPin 14 – Ext 2 Rt In LO
AMP #1 connector
Typical DB-25connector
RD / July 2003
page 5 – 6RD / May 2000
C O N T R O L R O O M M O D U L E
RD / July 2003
CRD-5 Control Room DB Connector Pinouts
I/O PORTS(Upper DB-25)
I/O PORTS(Lower DB-25)
CUE LT OUT SH
CUE LT OUT HI
CUE RT OUT LO
HDPN LT OUT SH
HDPN LT OUT HI
HDPN RT OUT LO
CR LT OUT SH
CR LT OUT HI
CR RT OUT LO
N/C
N/C
ON-AIR RELAY COM
AUDIO GROUND
CUE LT OUT LO
CUE RT OUT SH
CUE RT OUT HI
HDPN LT OUT LO
HDPN RT OUT SH
HDPN RT OUT HI
CR LT OUT LO
CR RT OUT SH
CR RT OUT HI
N/C
N/C
ON-AIR RELAY N.O.
EXTERNAL CUE IN SH
EXTERNAL CUE IN HI
N/C
N/C
N/C
N/C
EXT1 LT IN SH
EXT 1 LT IN HI
EXT 1 RT IN LO
EXT 2 LT IN SH
EXT 2 LT IN HI
EXT 2 RT IN LO
N/C
N/C
N/C
N/C
N/C
N/C
N/C
EXT 1 LT IN LO
EXT 1 RT IN SH
EXT 1 RT IN HI
EXT 2 LT IN LO
EXT 2 RT IN SH
EXT 2 RT IN HI
54
3
2
1
1716
15
14
8
76
20
19
18
10
9
23
22
21
13
1211
25
24
5
4
3
2
1
1716
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
CR
CONTROLROOM
MONITOR
R R
L
HDPN JACK
CUE OUT
R
L
R
L
HDPN OUT
LH
LH
L
R
R
L
CR OUT
LH
LH
L
R
LH
LH
L
RR
L
CUE SPKR
R
L L
R
R
LLH
LH
LH
LH
EXT 1
EXT 2
R
L
R
L SOURCE
SELECT
FET
SW
UTL
AUD
PGM
FR
OM
CO
NS
OL
EM
ON
ITO
R B
US
SE
S
R
L
R
L
TO CUE MONITOR BUS
FROM CUE BUS
R
L
R
L
LEVEL
LEVEL
CUE
CUE MONO
HDPNINTERRUPT
FET SWMONO
MONO
CUEMUTE
FET SW
SLIDE SWMONO/STEREO
MONO
HDPN
LEVEL
L
INTERRUPT/MUTE
RD/May 2000
CRD-5 Control Room Monitor - Signal Flow Diagram
CRINTERRUPT
FET SW
DIP SW
DIP SW
CUE MUTEENABLE
DIP SW
CUE TO LTHDPN
CUE TO RTHDPN
DIP SW
DIP SW
CUE TOLT CR
CUE TO RT CR
RELAYLOW
VOLTAGECONTACTS
FR
OM
CO
NS
OL
EC
ON
TR
OL
BU
SS
ES
FROM ON AIR TALLY BUS
FROM CUE LOGIC BUS
FROM CR MUTE BUS
FRONT PANEL SWITCHES
EXT 1 EXT 2 PGM
LOGIC
LOGIC
AUD UTL
ON
page 5 - 7
page 6 – 1RD / May 2000
S T U D I O C O N T R O L M O D U L E
Studio Control Module
(SCD-5)
Chapter Contents
Module Overview........................................................................ 6-2
Internal Programming Options ................................................. 6-3External Talkback Mute/Dim ................................................................................... 6-3
Studio Dim .............................................................................................................. 6-3
Hook-ups..................................................................................... 6-4Upper DB-25 Connector — AUDIO ........................................................................ 6-4
Upper DB-25 Connector — CONTROL .................................................................. 6-4
Tally 2 and Tally 3 ............................................................................................. 6-4
Lower DB-25 Connector — AUDIO ........................................................................ 6-5
DB Connector Pinout Drawing.................................................. 6-6
Studio Room Module Signal Flow Diagram ............................. 6-7
page 6 – 2RD / May 2000
S T U D I O C O N T R O L M O D U L E
Studio Control Module
(SCD-5)
Module OverviewThe SCD-5 module is similar to the CRD-5 control room module,
only it controls monitor audio and talkback to two additional (“non-control room”) studios. The monitor signal being sent to these twostudios follows the source select switching at the top of the module; thisswitching is identical to the control room module’s, and includes theconsole’s three stereo outputs (PGM, AUD, & UTL), as well as twoexternal stereo line level inputs brought directly into the module.
Each studio has its own level control and talkback switch. While atalkback switch is pressed and held (the switches are momentaryaction) the console operator’s microphone signal will interrupt theregular monitor signals being sent to the studio in question. TheTALKBACK master level control in the center of the module sets thelevel of this talkback interrupt signal.
All user wiring to and from the SCD-5 module takes place atDB-25 multi-pin connectors mounted directly beneath the module onthe console mainframe’s bottom pan. There are two connectors: theupper one (towards the console meterbridge) handles external talkbackout and regular studio monitor outputs, plus the console’s Tally 2 andTally 3 control signals; the lower connector (near the console armrest)accepts the module’s two external source inputs. It also outputs twoadditional pre-level control studio outputs.All audio connections are(+4dBu balanced) analog signals. A pinout drawing on page 6-6 showsall wiring connections at a glance.
111100009999
8888
777766664444
3333
2222
11110000
5555
111100009999
8888
777766664444
3333
2222
1111
0000
5555
TTTTAAAALLLLKKKKBBBBAAAACCCCKKKK
SSSSTTTTUUUUDDDDIIIIOOOO 2222
TTTTBBBB
SCD
SSSSTTTTUUUUDDDDIIIIOOOO 1111 11110000
9999
8888
777766664444
3333
2222
11110000
5555
TTTTBBBB
EEEEXXXXTTTTEEEERRRRNNNNAAAALLLLSSSSTTTTEEEERRRREEEEOOOO
1111
2222
PPPPGGGGMMMM
AAAAUUUUDDDD
UUUUTTTTLLLL
SSSS
EEEE
LLLL
EEEE
CCCC
TTTT
page 6 – 3RD / May 2000
S T U D I O C O N T R O L M O D U L E
Internal Programming OptionsThere is one user-programmable dipswitch on the SCD-5. It is a 7-
position dipswitch, SW1, located on the module’s main PCB slightly aboveand to the left of the talkback master level control.
For the purposes of this manual, we will assume you are holding the removedmodule upright, component side towards you, with gold-plated card fingers to theleft and the module faceplate to the right. This will enable you to read the controllegends silkscreened next to the programming switch. Note when a dipswitchposition is thrown to the right (towards the module’s faceplate) it is ON.
External Talkback Mute/Dim
There is an independent talkback output from the SCD-5 module. Byprogramming the first two positions of dipswitch SW1, you can make thisexternal talkback output MUTE whenever a studio is muted. You also havethe option of making the output DIM (drop -20dB in level) instead of MUTE.
Dipswitch position 1 mutes external TB whenever Studio 1 is muted*Dipswitch position 2 mutes external TB whenever Studio 2 is muted*Dipswitch position 7 makes external TB DIM instead of MUTE
Studio Dim
Input modules controlling studio microphones can be programmed toMUTE a studio whenever the module is turned on (i.e., it’s microphone islive). If you wish, you can have a studio DIM (drop -20dB in level) insteadof MUTE:
Dipswitch position 5 causes Studio 1 to DIM instead of MUTEDipswitch position 6 causes Studio 2 to DIM instead of MUTE
Note the DIM functions do not affect talkback interrupts, which alwayscompletely replace the studio’s regular monitor feed with the console operator’sTB signal. Note also if a studio is muted, talkback cannot be heard. However, if astudio is programmed to DIM instead of MUTE, talkback audio could presumablymake it from the studio monitor speakers to the open studio mic.
*factory default settings
page 6 – 4RD / May 2000
S T U D I O C O N T R O L M O D U L E
Hook-UpsAs stated before, all user wiring to and from the SCD-5 module takes
place at two DB-25 multi-pin connectors mounted directly beneath themodule on the console mainframe’s bottom pan.
Upper DB-25 Connector — Audio
Includes studio 1, studio 2 and (mono) talkback outputs. All audiosignals are analog, +4dBu balanced.
Pin 25 – TB Out SHPin 24 – TB Out HIPin 12 – TB Out LO
Pin 22 – Studio 2 Lt Out SHPin 21 – Studio 2 Lt Out HIPin 9 – Studio 2 Lt Out LOPin 8 – Studio 2 Rt Out SHPin 7 – Studio 2 Rt Out HIPin 20 – Studio 2 Rt Out LO
Pin 19 – Studio 1 Lt Out SHPin 18 – Studio 1 Lt Out HIPin 6 – Studio 1 Lt Out LOPin 5 – Studio 1 Rt Out SHPin 4 – Studio 1 Rt Out HIPin 17 – Studio 1 Rt Out LO
Upper DB-25 Connector — Control
The console’s Tally 2 and Tally 3 control ports are on the SCD-5 upperDB-25 connector. These are simple relay closures that activate wheneverprogrammed input modules are turned ON (see page 2-4). The ports canbe used to control externally powered tally lights that requires a continuousclosure to function.
Pin 14 – Tally 2 Relay COMPin 1 – Tally 2 Relay N.O.Pin 3 – Tally 3 Relay COMPin 15 – Tally 3 Relay N.O.
Maximum current throughthe tally relay closures is2 amps @30VDC.
!
Typical DB-25connector
RD / March 2001
page 6 – 5RD / May 2000
S T U D I O C O N T R O L M O D U L E
Lower DB-25 Connector — Audio
This connector handles the module’s source select External Stereoinputs. It also has a second set of studio outputs which are pre-levelcontrol. All signals are +4dBu balanced analog stereo.
Pin 25 – Studio 2 Pre Lt Out SHPin 24 – Studio 2 Pre Lt Out HIPin 12 – Studio 2 Pre Lt Out LOPin 11 – Studio 2 Pre Rt Out SHPin 10 – Studio 2 Pre Rt Out HIPin 23 – Studio 2 Pre Rt Out LO
Pin 22 – Studio 1 Pre Lt Out SHPin 21 – Studio 1 Pre Lt Out HIPin 9 – Studio 1 Pre Lt Out LOPin 8 – Studio 1 Pre Rt Out SHPin 7 – Studio 1 Pre Rt Out HIPin 20 – Studio 1 Pre Rt Out LO
Pin 19 – Ext 1 Lt In SHPin 18 – Ext 1 Lt In HIPin 6 – Ext 1 Lt In LOPin 5 – Ext 1 Rt In SHPin 4 – Ext 1 Rt In HIPin 17 – Ext 1 Rt In LO
Pin 16 – Ext 2 Lt In SHPin 15 – Ext 2 Lt In HIPin 3 – Ext 2 Lt In LOPin 2 – Ext 2 Rt In SHPin 1 – Ext 2 Rt In HIPin 14 – Ext 2 Rt In LO
Typical DB-25connector
RD / March 2001
page 6 – 6RD / May 2000
S T U D I O C O N T R O L M O D U L E
RD / March 2001
SCD-5 Studio ControlDB Connector Pinouts
I/O PORTS(Upper DB-25)
I/O PORTS(Lower DB-25)
TB OUT SH
TB OUT HI
N/C
STU 2 LT OUT SH
STU 2 LT OUT HI
STU 2 RT OUT LO
STU 1 LT OUT SH
STU 1 LT OUT HI
STU 1 RT OUT LO
N/C
TALLY 3 RELAY N.O.
TALLY 2 RELAY COM
AUDIO GROUND
TB OUT LO
N/C
N/C
STU 2 LT OUT LO
STU 2 RT OUT SH
STU 2 RT OUT HI
STU 1 LT OUT LO
STU 1 RT OUT SH
STU 1 RT OUT HI
TALLY 3 RELAY COM
N/C
TALLY 2 RELAY N.O.
STU 2 PRE LT OUT SH
STU 2 PRE LT OUT HI
STU 2 PRE RT OUT LO
STU 1 PRE LT OUT SH
STU 1 PRE LT OUT HI
STU 1 PRE RT OUT LO
EXT 1 LT IN SH
EXT 1 LT IN HI
EXT 1 RT IN LO
EXT 2 LT IN SH
EXT 2 LT IN HI
EXT 2 RT IN LO
N/C
STU 2 PRE LT OUT LO
STU 2 PRE RT OUT SH
STU 2 PRE RT OUT HI
STU 1 PRE LT OUT LO
STU 1 PRE RT OUT SH
STU 1 PRE RT OUT HI
EXT 1 LT IN LO
EXT 1 RT IN SH
EXT 1 RT IN HI
EXT 2 LT IN LO
EXT 2 RT IN SH
EXT 2 RT IN HI
54
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
1918
10
9
23
22
21
13
12
11
25
24
STUDIO MONITOR
LH
LH
L
RR
L
R
L LH
LH
L
R
R
L
ST 2 OUT
LH
LH
L
R
R
L
ST 2PRE OUT
LH
LH
L
R
ST 1 OUT
ST 1PRE OUT
ST1
TB OUTLH
R
LLH
LH
LH
LH
EXT 1
EXT 2
R
L
R
L
SOURCE
SELECT
FET
SW
UTL
AUD
PGM
UTL
PGM
AUD
EXT2
EXT1FRONT
PANEL
SWITCHES
LOGIC
FR
OM
CO
NS
OL
EM
ON
ITO
R B
US
SE
S
TB
TB MONITOR
R
L
L
R
ST2
TBMUTE/DIM
FET SW
TB 1SW
TB 2SW
MUTEFETSW
MUTEFETSW
INTRPTFETSW
INTRPTFETSW
DIP SW
RD/May 2000
SCD-5 Studio Monitor - Signal Flow Diagram
ST1 MUTE
ST2 DIM
ST1 DIM
FR
OM
CO
NS
OL
E B
US
SE
S
RELAY LOW VOLTAGECONTACTS
RELAY LOW VOLTAGECONTACTS
TALLY 2
TALLY 3FR
OM
CO
NS
OL
ET
AL
LY
BU
SS
ES
TB DIM
LEVEL
FR
OM
CO
NS
OL
E
MO
NIT
OR
BU
S(M
MD
-50
0)
ST2 MUTE
LEVEL
LEVEL
page 6 - 7
page 7 – 1RD / May 2000
M E T E R O U T P U T M O D U L E
Meter Output Module
(MOD-5)
Chapter Contents
Module Overview........................................................................ 7-2
Internal Programming Options ................................................. 7-2
Hook-ups..................................................................................... 7-2
Meter Output Module Signal Flow Diagram ............................. 7-3
page 7 – 2RD / May 2000
M E T E R O U T P U T M O D U L E
Meter Output Module
(MOD-5)
Module OverviewEach RD console has one meter output module, which drives the
console’s three pairs of left-right VU meters: PGM, AUD and UTL.Recessed front panel trim pots calibrate the three meter pairs. A VU
TRIM cover strip (not shown) can be used to prevent trimpot access oncecalibration is set.
At the bottom of module are the timer control buttons (the timerdisplay is mounted in the righthand end of the console meterbridge):
AUTO – enables timer restart functions from programmed input modules
S/S – Start/Stop
RESET - return to zero (if the timer is stopped it will hold at zero; if it isrunning it will reset to zero and immediately begin counting up).
HOLD – when held down freezes the timer display (the counter keeps ongoing); when released the display catches up to the current count.
There is a DB-25 connector for factory use only. It sends the module’s VUand timer control signals to the meterbridge (a factory-provided cable runs fromthose connectors to the back of the meterbridge).
Internal Programming OptionsThere are no internal programming options on the MOD-5 module.
Hook-upsAll I/O connections from the MOD-5 meter output module are “inter-
nal” to the console (i.e., used to route VU and timer signals to themeterbridge) and not normally applicable to end customer use.
MOD
TTTTIIIIMMMMEEEERRRR
PROGRAML
R
AUDITIONL
R
UTILITYL
R
SSSS////SSSS
LLLL
HHHHOOOO
DDDD
RRRREEEESSSSEEEETTTT
TTTT
AAAAUUUU
OOOO
VVVVUUUU
TTTTRRRRIIII
MMMM
TRIM
METERMODULE
PROGRAM
AUDITION
FR
OM
CO
NS
OL
E M
ON
ITO
R B
US
SE
S
TRIM
TRIM
TRIM
RD/May 2000
MOD-5 Meter Output Module - Signal Flow Diagram
L
L
R
R
TO
CO
NS
OL
E M
ET
ER
BU
SS
ES
L
R
L
R
UTILITY
TRIM
TRIM
L
R
L
R
page 7 - 3
page 8 – 1RD / May 2000
C P U & D S P M O D U L E S
CPU Central Processor(CPU-5 Module)
DSP Digital Processor(DSP-5 Module)
Chapter Contents
Module Overview...........................................................................8-2AES Clock Sync ........................................................................................................ 8-2
CPU-5 Display .......................................................................................................... 8-2
page 8 – 2RD / May 2000
C P U & D S P M O D U L E S
CPU Central Processor(CPU-5 Module)
DSP Digital Processor(DSP-5 Module)
Module OverviewEvery RD has these two modules; together they perform
all central signal and control processing for the console. TheCPU-5 is the console’s central controller module; the DSP-5is the console’s digital signal processor. With one exception,AES SYNC (below), both modules are user-transparent—that is, they have no external controls, all their internalprogramming options are for factory use only, their DB-25 I/O connector ports have no user-applicable pins, there are nouser replaceable parts inside (though complete modules maybe ordered; see Appendix).
AES Clock Sync
If you wish to sync your RD console off an external clocksource (or use the console master clock signal to control anexternal device) the AES Sync port is available on theDSP-5 module upper DB-25 connector:
Pin 25 – AES Sync In SHPin 24 – AES Sync In HIPin 12 – AES Sync In LOPin 11 – AES Sync Out SHPin 10 – AES Sync Out HIPin 23 – AES Sync Out LO
CPU-5 Display
The alpha-numeric display on the CPU-5 module is usedat the factory for programming purposes. In the field thedefault display is always “RD-5”, with the dash characterflashing. This might occasionally change to show an errormessage for a second or two (for example, if you have hot-plugged a module into the mainframe), but this should clearquickly.
DSP
MMMMEEEESSSSSSSSAAAAGGGGEEEE
CPU
rd - 5
RD / March 2001
page 9 – 1RD / May 2000
S U P E R P H O N E I N P U T
Superphone Input
(SPD-5)
Chapter Contents
Module Overview........................................................................ 9-2Caller Set-Ups ........................................................................................................ 9-2
Automatic Features ................................................................................................. 9-3
Inputs and Outputs ................................................................................................. 9-3
Internal Programming Options - Main PCB ............................. 9-4Output Assign Switch Enable ................................................................................. 9-4
Mutes ...................................................................................................................... 9-4
Timer Restart .......................................................................................................... 9-4
Tallies ...................................................................................................................... 9-4
Cue Dropout ............................................................................................................ 9-5
Gain Trimpots ......................................................................................................... 9-5
Internal Programming Options - Piggyback PCB ................... 9-5External In ............................................................................................................... 9-5
Cue Pre/Post .......................................................................................................... 9-5
Gain Trimpots ......................................................................................................... 9-5
Hook-ups..................................................................................... 9-6AUDIO CONNECTIONS (Upper DB-25) ................................................................ 9-6
AUDIO and CONTROL CONNECTIONS (Lower DB-25) ...................................... 9-6
DB Connector Pinout Drawing.................................................. 9-8
Superphone Module Signal Flow Diagram .............................. 9-9
page 9 – 2RD / May 2000
S U P E R P H O N E I N P U T
Superphone Input (SPD-5)
Module OverviewSPD-5 input modules are used for telephone call-ins. Each module can
handle two callers; there can be two modules per console for a total of fourcallers. Caller signals enter the module from the station hybrid, and eachcaller has his own fader. Caller input gain trims are provided at the top ofthe module.
Output switches assign callers to any combination of the console’sthree stereo outputs: PGM (program), AUD (audition), and/or UTL(utility).
Caller Set-Ups
Pre-air segment communication between the console operator (DJ)and callers is via CALLER (CUE) buttons (2) which place the caller’svoice on the console’s cue speakers (or control room speakers/operator’sheadphone if the CRD-5 module’s cue interrupt function has been soprogrammed). These cue signals can be internally programmed pre or postfader.
The caller hears the DJ in one of two ways:1) The DJ can assign his microphone input module to an unused output
bus—say UTL—and the DJ then selects the UTL input with the EXTswitch at the top of the phone module. This sends a dedicated (digitallygenerated) version of the UTL bus signal to the SPD-5 module’s hybridoutput, where it is ultimately heard by the caller through his telephone.This mix minus source select method can also be used to preplay a musicalsegment (or any other program content) for the caller off-air. Take theSLD-5 input module handling the desired music cut and assign it to anunused output bus; select the same bus as the caller’s mix minus sourceinput and he will hear it off-air.
Remember MMD-5 microphone input modules can be internally pro-grammed to have their Utility bus feed tapped pre-fader, pre-ON/OFF, makingthis a logical set-up for the DJ’s mic input if you do a lot of call-in work, sincethe DJ’s voice will always be present on the console’s Utility output busregardless of fader or ON/OFF settings on his mic module (which must still beassigned to UTL, however).
2) The DJ’s voice signal can be inputted through a special EXT IN portat the SPD-5 module’s upper DB-25 connector. This second methodeliminates the need to select a mix minus input source everytime you wantto talk off-air to the caller. An easy source choice here would be DJ micmodule’s INSERT OUT port.
CCCCAAAALLLLLLLLEEEERRRR TTTTRRRRIIIIMMMM1111
2222
AAAAUUUUDDDD
UUUUTTTTLLLL
PPPPGGGGMMMM
CCCCAAAALLLLLLLLEEEERRRR FFFFEEEEEEEEDDDD
FFFFEEEEEEEEDDDD
1111 2222CCCCUUUUEEEE
CCCCAAAALLLLLLLLEEEERRRRSSSS
0
5
15
20
30
40
50
6070
00
10
1111 2222
SPD
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
PPPPGGGGMMMM
AAAAUUUUDDDD
UUUUTTTTLLLL
AAAA
SSSS
SSSS
IIII
GGGG
NNNN
page 9 – 3RD / May 2000
S U P E R P H O N E I N P U T
Automatic Features
Regular mic and stereo line input modules can have their outputassign buttons slave off of the SPD-5 telephone module output buttons.If this feature has been programmed on desired source modules, whenit’s time to go on-air with a phone segment all you need do is hit PGMon the phone module, and the PGM button on, say, your CD inputmodule (and the DJ’s mic module) will follow suit.
Note while this feature will turn slaved assign buttons ON, it will notturn them OFF; you must do this manually.
Faders can be optionally equipped with end-of-travel CUE switches,which will allow you to talk off-air with a caller with a simple faderoverpress. One of the faders can also have an optional EFS type switchto automatically turn the module on when it is run up.
The channel ON (“START”) and OFF (“STOP”) switches are at thebottom of the module. These can be programmed (via internal PCB-mounted dipswitches) to activate control room and studio mutes,tallies, timer restart and automatic cue drop-out. The ON switch canalso automatically trigger an external tape machine for recordingpurposes (see page 9-7).
Cue Dropout can also be programmed internally, making it unnec-essary to de-activate caller setup buttons before going live; simplypressing the module’s ON switch will automatically do this for you.
Inputs and Outputs
All audio and control signals hook-ups are made via two multi-pinDB-25 connectors mounted in the bottom of the console’s mainframe,directly underneath each module. The upper connector handles hybridinput signals (i.e., caller input) and the external input mentioned onpage 9-2. The lower connector handles outputs, including the module1and 2 feeds to your station hybrid (the phone signals going to yourcallers).
The module also has three addition output feeds on the lower DB-25 connector. These are generally used for recording purposes:
Composite Out – This includes everything: DJ, callers, music beds,etc. Generally used to to record phone segments in advance ofactual airplay.
Composite Minus Callers – This includes everything but the callers.
Callers Only – No talent, no DJs, no music; just caller voices.
CCCCAAAALLLLLLLLEEEERRRR TTTTRRRRIIIIMMMM1111
2222
AAAAUUUUDDDD
UUUUTTTTLLLL
PPPPGGGGMMMM
CCCCAAAALLLLLLLLEEEERRRR FFFFEEEEEEEEDDDD
FFFFEEEEEEEEDDDD
1111 2222CCCCUUUUEEEE
CCCCAAAALLLLLLLLEEEERRRRSSSS
0
5
15
20
30
40
50
6070
00
10
1111 2222
SPD
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
PPPPGGGGMMMM
AAAAUUUUDDDD
UUUUTTTTLLLL
AAAA
SSSS
SSSS
IIII
GGGG
NNNN
page 9 – 4RD / May 2000
S U P E R P H O N E I N P U T
Internal Programming OptionsMain Printed Circuit Board
Main card internal programming is accomplished via three 4-positionprinted circuit board (PCB) mounted dipswitches mounted just to the leftof the module’s faders.
For main PCB programming, we will assume you are holding the removedmodule upright, component side towards you, with gold-plated card fingers tothe left and the module faceplate to the right. This will enable you to read thecontrol legends silkscreened next to each dipswitch. Note when a dipswitchposition is thrown to the right (towards the module’s faceplate) it is ON.
Output Assign Switch Enable
As previously stated (page 2-5 and 3-4), microphone (MMD) andstereo line (SLD) input modules can have their output assign switchesslave off of the SPD-5 phone module output assign switches. Four-position dipswitch SW1 (top dipswitch just to the left of the module faders)enables this feature at the phone module end:
Dipswitch position 1 activates PGM switch controlDipswitch position 2 activates AUD switch controlDipswitch position 4 activates UTL switch control
Mutes
When the SPD-5 phone channel ON switch is pressed, it can activateconsole mute functions. The first three positions of dipswitch SW2 (justbelow dipswitch SW1) determines which of the console’s three mute lineswill be activated:
SW2 position 1 mutes the control room when the phone module isON*SW2 position 2 mutes studio one when the phone module is ONSW2 position 3 mutes studio two when the phone module is ON
Timer Restart
The console’s digital timer can be programmed to automatically resetto zero and begin counting up when the module’s ON button is pressed.
SW2 position 4 activates timer restart when the phone module’s ONswitch is pressed*
Tallies
Turning the module ON can activate a remote tally indicator. There arethree tally control lines: on-air, tally 2 and tally 3. The first three positionsof dipswitch SW3 (to the left of the fader) program these functions:
SW3 position 1 activates the on-air tally control lineSW3 position 2 activates tally 2SW3 position 3 activates tally 3
Remote tall ies arehooked-up to the consoleat the Control Room mod-ule (CRD-5)
Note this feature onlyworks for turning slavedassign switches ON; theywill not turn OFF from thesuperphone module—thismust be done manually.
*factory default setting
*factory default setting
page 9 – 5RD / May 2000
S U P E R P H O N E I N P U T
Cue Dropout
Dipswitch SW3 position 4, when activated, will cause CUE (i.e., callerset-up buttons 1 & 2) to turn off when the module’s ON switch is pressed.This is the factory default setting.
Gain Trimpots
There are two PCB-mounted trimpots. They are used as follows:CR1 - sets Callers 1 In port input gainCR2 - sets Callers 2 In port input gain
Internal Programming OptionsPiggyback Card
Piggyback card internal programming is accomplished via two PCB-mounted slide switches on the module’s piggyback card. This same cardalso contains PCB-mounted trimpots which may be used to set themodule’s various output feed levels.
For piggyback card programming, hold the removed module horizontally,component side towards you, with gold-plated card fingers aimed down and themodule faceplate on top. This will enable you to read the control legendssilkscreened on the PCB.
External In
In addition to feeding the DJ’s voice signal to the callers via themodule’s mix minus source select switching, it may also be broughtdirectly in through an EXT IN port on the module’s upper DB-25connector. PCB-mounted slide switch SW1 (piggyback card left center),activates this external port when thrown to the left (this is the factorydefault setting).
Cue Pre/Post
The module’s CUE signals (caller setup buttons 1 & 2) can tap pre orpost fader. When slide switch SW2 (piggyback card lower right) is UP theyare PRE, when DOWN they are POST. (Factory default setting is PRE.)
Gain Trimpots
There are six PCB-mounted trimpots to the right of slide switch SW1.They are used as follows:
CR4 – sets the External In port input gainCR6 – sets the module’s output level to Hybrid 1CR3 – sets the module’s output level to Hybrid 2CR7 – sets the module’s “composite” output levelCR8 – sets the module’s “composite minus callers” (“talent”)
output levelCR5 – sets the module’s “callers only” output level
Factory default settings forthese trimpots is UNITYGAIN.
page 9 – 6RD / May 2000
S U P E R P H O N E I N P U T
Hook-UpsAs stated before, all user wiring to and from SPD-5 modules takes place
at DB-25 multi-pin connectors mounted directly beneath each module onthe console mainframe’s bottom pan. There are two connectors per module:the upper one (towards the console meterbridge) handles audio inputsignals; the lower (near the console armrest) audio outputs and controlsignals. A pinout drawing on page 9-8 shows all wiring connections at aglance.
Audio Connections (upper DB-25)
These include External In and station Hybrid 1 & 2 inputs. All are +4dBubalanced analog mono.
Pin 25 – Ext In SHPin 24 – Ext In HIPin 12 – Ext In LOPin 22 – Hybrid 1 In SHPin 21 – Hybrid 1 In HIPin 9 – Hybrid 1 In LOPin 8 – Hybrid 2 In SHPin 7 – Hybrid 2 In HIPin 20 – Hybrid 2 In LOPins 2,5,11,13,16 and 19 – Audio Ground
Audio and Control Connections (lower DB-25)
These include outputs to the station hybrid, module output compositefeeds (for recording) and remote tape machine START/STOP ports.
Pin 25 – Composite Out SHPin 24 – Composite Out HIPin 12 – Composite Out LOPin 11 – Composite Minus Callers Out SHPin 10 – Composite Minus Callers Out HIPin 23 – Composite Minus Callers Out LOPin 22 – Callers Only Out SHPin 21 – Callers Only Out HIPin 9 – Callers Only Out LOPin 8 – To Hybrid 1 Out SHPin 7 – To Hybrid 1 Out HIPin 20 – To Hybrid 1 Out LOPin 19 – To Hybrid 2 Out SHPin 18 – To Hybrid 2 Out HIPin 6 – To Hybrid 2 Out LO
Typical DB-25connector
RD / March 2001
page 9 – 7RD / May 2000
S U P E R P H O N E I N P U T
Pin 17 – Start/Stop CommonPin 16 – StopPin 15 – StartPin 4 – Start/Stop CommonPin 3 – StopPin 2 – Start
The last six callouts are simply two parallel-connected sets of pinsfor the same control port. When the module’s ON switch is pressed, aclosure takes place between start/stop common and START; when themodule’s STOP switch is pressed, a closure takes place between start/stop common and STOP. These may be used to control a remote tapemachine for recording phone segments. Note that these are opto-isolated outputs; the START/STOP COMMON connections are theemitters, while the START and STOP connections are the collectors,of the opto’s NPN transistors. Correct polarity must be observed whenusing these outputs.
page 9 – 8RD / May 2000
S U P E R P H O N E I N P U T
RD / March 2001
SPD-5 Superphone DB Connector Pinouts
I/O PORTS(Upper DB-25)
ANALOG
I/O PORTS(Lower DB-25)
ANALOG/LOGIC
EXT 1 IN SH
EXT 1 IN HI
N/C
HYBRID 1 IN SH
HYBRID 1 IN HI
HYBRID 2 IN LO
AUDIO GROUND
N/C
N/C
AUDIO GROUND
N/C
N/C
AUDIO GROUND
EXT 1 IN LO
AUDIO GROUND
N/C
HYBRID 1 IN LO
HYBRID 2 IN SH
HYBRID 2 IN HI
N/C
AUDIO GROUND
N/C
N/C
AUDIO GROUND
N/C
COMPOSITE OUT SH
COMPOSITE OUT HI
COMPOSITE MINUS CALLERS OUT LO
CALLERS ONLY OUT SH
CALLERS ONLY OUT HI
TO HYBRID 1 OUT LO
TO HYBRID 2 OUT SH
TO HYBRID 2 OUT HI
START/STOP COM
STOP
START
N/C
AUDIO GROUND
COMPOSITE OUT LO
COMP MINUS CLRS OUT SH
COMPOSITE MINUS CALLERS OUT HI
CALLERS ONLY OUT LO
TO HYBRID 1 OUT SH
TO HYBRID 1 OUT HI
TO HYBRID 2 OUT LO
N/C
START/STOP COM
STOP
START
N/C
5
4
3
2
1
17
16
15
14
8
76
20
19
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
DIPSWITCHES
ON AIR TALLY
ST 2 MUTE
CR MUTE
SUPERPHONE INPUT
LH
LH
HYBRID 2 IN
EXT IN LH
STOPSTART
TALLY 2FRONT PANEL SWITCHES
PGM AUD UTL CUE1 CUE2
FROMCALLERS
HYBRID 1 IN
TO HYBRID 1
TO HYBRID 2
LH
LH
COMPOSITEOUT
LH
LH
LH
LOGIC
TALLY 3
TO
CO
NS
OL
E C
ON
TR
OL
BU
SS
ES
TRIM
TRIM
CUE DROPOUT
ON OFFFEED
FEEDOUT
SUM OFCALLERS
OUT
TB MONITOR
TB TOCALLERFET SW
COMMON
SPD-5 Superphone Module - Signal Flow DiagramRD/May 2000
LOGIC
TIMER RESTART
ST 1 MUTE
EXTIN
SLIDESW
CUEPRE/POST
SLIDESW
CUEASSIGNFET SW
FADER1
FADER2
ANALOG TO
DIGITAL
CONVERTER
(ADC)
MIX-MINUS CONTROL SIGNALTO CPU MODULE
DATATO DSP MODULE
DATA
PHONEENERGIZE
DIPSWITCH
TO CONSOLEBUSSES
PHONEMODULESELECT
TO
CO
NS
OL
E B
US
SE
S
CUE LOGIC
TRIM
LT
RT
TRIM
TRIM
TRIM
TRIM
TRIM
TRIM
SW
PHONE
SELECTSW
MODULE
PHONEJUMPER
page 9 - 9
page 10 – 1RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Line Preselector Module-Analog
(LSA-5; optional)
Chapter Contents
Overview ............................................................................................ 10-2
Internal Programming Options ........................................................ 10-2
Hook-ups............................................................................................ 10-3Audio Inputs ......................................................................................................................10-3
Outputs .............................................................................................................................10-4
DB Connector Pinout Drawing......................................................... 10-5
Line Preselector (Analog) Signal Flow Diagram ............................ 10-6
page 10 – 2RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Line Preselector Module-Analog
(LSA-5; optional)
OverviewThis optional module electronically selects one of seven stereo line
sources and routes it to one stereo output, allowing you to expand thesource capability of an input channel or monitor module.
All audio input and output signals are made via two multipin DB-25connectors mounted in the bottom of the console’s mainframe, directlyunderneath this module.
Internal Programming OptionsThere are no internal programming options on the LSA-5 module.
LSA
1111
2222
3333
4444
5555
6666
7777
SSSS
OOOO
UUUU
RRRR
CCCC
EEEE
OOOOFFFFFFFF
page 10 – 3RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Hook-UpsAs stated before, all user wiring to and from LSA-5 modules takes
place at DB-25 multi-pin connectors mounted directly beneath eachmodule on the console mainframe’s bottom pan. There are two connec-tors per module: the upper one (towards the console meterbridge)handles audio input signals; the lower (near the console armrest) audioinput and output signals. A pinout drawing on page 10-5 shows allwiring connections at a glance.
LSA-5 Audio Inputs 1-4 (upper DB-25)
Pin 25 – Line 1 Lt In SHPin 24 – Line 1 Lt In HIPin 12 – Line 1 Lt In LOPin 11 – Line 1 Rt In SHPin 10 – Line 1 Rt In HIPin 23 – Line 1 Rt In LOPin 22 – Line 2 Lt In SHPin 21 – Line 2 Lt In HIPin 9 – Line 2 Lt In LOPin 8 – Line 2 Rt In SHPin 7 – Line 2 Rt In HIPin 20 – Line 2 Rt In LO
Pin 19 – Line 3 Lt In SHPin 18 – Line 3 Lt In HIPin 6 – Line 3 Lt In LOPin 5 – Line 3 Rt In SHPin 4 – Line 3 Rt In HIPin 17 – Line 3 Rt In LOPin 16 – Line 4 Lt In SHPin 15 – Line 4 Lt In HIPin 3 – Line 4 Lt In LOPin 2 – Line 4 Rt In SHPin 1 – Line 4 Rt In HIPin 14 – Line 4 Rt In LO
LSA-5 Audio Inputs 5-7 (lower DB-25)
Pin 25 – Line 5 Lt In SHPin 24 – Line 5 Lt In HIPin 12 – Line 5 Lt In LOPin 11 – Line 5 Rt In SHPin 10 – Line 5 Rt In HIPin 23 – Line 5 Rt In LOPin 22 – Line 6 Lt In SHPin 21 – Line 6 Lt In HIPin 9 – Line 6 Lt In LO
Typical DB-25connector
RD / March 2001
page 10 – 4RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Pin 8 – Line 6 Rt In SHPin 7 – Line 6 Rt In HIPin 20 – Line 6 Rt In LO
Pin 19 – Line 7 Lt In SHPin 18 – Line 7 Lt In HIPin 6 – Line 7 Lt In LOPin 5 – Line 7 Rt In SHPin 4 – Line 7 Rt In HIPin 17 – Line 7 Rt In LO
LSA-5 Audio Outputs
Pin 16 – Line Lt Out SHPin 15 – Line Lt Out HIPin 3 – Line Lt Out LOPin 2 – Line Rt Out SHPin 1 – Line Rt Out HIPin 14 – Line Rt Out LO Typical DB-25
connector
RD / March 2001
page 10 – 5RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
LSA-5 Line Selector Module DB Connector Pinouts
INPUT PORTS(Upper DB-25)
I/O PORTS(Lower DB-25)
LINE 1 LT IN SH
LINE 1 LT IN HI
LINE 1 RT IN LO
LINE 2 LT IN SH
LINE 2 LT IN HI
LINE 2 RT IN LO
LINE 3 LT IN SH
LINE 3 LT IN HI
LINE 3 RT IN LO
LINE 4 LT IN SH
LINE 4 LT IN HI
LINE 4 RT IN LO
N/C
LINE 1 LT IN LO
LINE 1 RT IN SH
LINE 1 RT IN HI
LINE 2 LT IN LO
LINE 2 RT IN SH
LINE 2 RT IN HI
LINE 3 LT IN LO
LINE 3 RT IN SH
LINE 3 RT IN HI
LINE 4 LT IN LO
LINE 4 RT IN SH
LINE 4 RT IN HI
LINE 5 LT IN SH
LINE 5 LT IN HI
LINE 5 RT IN LO
LINE 6 LT IN SH
LINE 6 LT IN HI
LINE 6 RT IN LO
LINE 7 LT IN SH
LINE 7 LT IN HI
LINE 7 RT IN LO
LINE LT OUT SH
LINE LT OUT HI
LINE RT OUT LO
N/C
LINE 5 LT IN LO
LINE 5 RT IN SH
LINE 5 RT IN HI
LINE 6 LT IN LO
LINE 6 RT IN SH
LINE 6 RT IN HI
LINE 7 LT IN LO
LINE 7 RT IN SH
LINE 7 RT IN HI
LINE LT OUT LO
LINE RT OUT SH
LINE RT OUT HI
5
4
3
2
1
17
16
15
14
8
7
6
2019
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
RD / March 2001
PRESELECTORLS-5
LH
LH
LH
LH
EXT1
EXT2
R
L
R
L
LH
LH
LH
LH
EXT3
EXT4
L
R
L
SOURCESELECTLOGIC
R
L
OUT
LH
LH
L
R
LH
LH
LH
LH
EXT5
EXT6
R
L
R
L
LH
LH
EXT7
R
L
SOURCE
SELECT
FET
SW
2
1
4
3
6
5
OFF
7
FRONT PANELSWITCHES
LOGICR
RD/May 2000
LS-5 Line Preselector (analog) - Signal Flow Diagrampage 10 - 6
page 11 – 1RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Line Preselector Module-Digital/Analog
(LSD-5 Control Module andLSR-500 Rackmount Switcher;
optional)
Chapter Contents
Overview ............................................................................................ 11-2
Internal Programming Options ........................................................ 11-3
LSR-500 (drawing) ............................................................................. 11-3
Hook-ups – LSD-5 ............................................................................. 11-3
Hook-ups – LSR-500 ......................................................................... 11-3Analog Audio Inputs.......................................................................................................... 11-3
Digital Audio Inputs ...........................................................................................................11-4
Analog Outputs ................................................................................................................. 11-5
Digital Outputs ..................................................................................................................11-5
DB Connector Pinout Drawing (LSD-5) ........................................... 11-6
DB Connector Pinout Drawing (LSR-500) ....................................... 11-7
Line Preselector (Digital) Signal Flow Diagram ............................. 11-9
page 11 – 2RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Line Preselector Module(Digital/Analog)
(LSD-5 Controller Panel)(LSR-500 Rackmount Unit;
optional)
OverviewThis optional module consists of an 8-switch control module (LSD-5)
mounted in the RD console and an associated 19-inch rackmount switcher(LSR-500) that mounts in a remote location. All audio input and outputwiring goes to the rackmount unit, which takes its control from the consolemodule.
The rack unit accepts eight stereo analog and digital audio inputs (eachinput is dipswitch-selectable for either analog or digital) and outputs bothan analog and digital stereo signal, which may be wired back to RD consoleinput ports. Wiring between the console’s LSD-5 preselector module andthe rackmount switcher is via two factory supplied pin-for-pin DB-25connector cables: the module’s upper DB is used for control; the lower forpower.
The LSR-500 rackmount unit faceplate has eight indicator LEDswhich show which input has been selected at the console and alsoANALOG and DIGITAL LEDs which light to show what kind of signalhas been selected. A POWER LED is also included. (See drawing nextpage)
The rear of the LSR-500 has seven I/O connectors: two DB-9s (analogand digital output) and five DB-25s (control and power to the LSD-5module, analog audio in (2) and digital audio in (1). In the center of thechassis rear is a cutout that allows access to eight dipswitch settings thatdetermine what type of audio (analog or digital) each input accepts. Thedefault setting (“off”) is DIGITAL.
LSD
1111
2222
3333
4444
5555
6666
7777
SSSS
OOOO
UUUU
RRRR
CCCC
EEEE
8888
page 11 – 3RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Internal Programming OptionsThere are no internal programming options on the LSD-5 module. The
LSR-500 rackmount unit has the previously mentioned input selectdipswitches (analog/digital).
Hook-Ups
LSD-5 Line Preselector Module
Two DB-25 connectors that wire pin-for-pin to matching DB-25s onthe LSR-500 chassis rear. The upper connector is for control; the lower forpower. See pinout drawing on page 11-6 for signals.
LSR-500 Audio Inputs
These are for analog stereo (+4dBu balanced) and digital (AES)signals; there are three DB-25 input connectors on the chassis rear (pinoutdrawing on the pages 11-7, 11-8):
ANALOG AUDIO INPUTS 1-4:Pin 25 – Line 1 Lt In SHPin 24 – Line 1 Lt In HIPin 12 – Line 1 Lt In LOPin 11 – Line 1 Rt In SHPin 10 – Line 1 Rt In HIPin 23 – Line 1 Rt In LOPin 22 – Line 2 Lt In SHPin 21 – Line 2 Lt In HIPin 9 – Line 2 Lt In LOPin 8 – Line 2 Rt In SHPin 7 – Line 2 Rt In HIPin 20 – Line 2 Rt In LO
Pin 19 – Line 3 Lt In SHPin 18 – Line 3 Lt In HIPin 6 – Line 3 Lt In LO
POWER ANALOG 1DIG
Model LSR-500 Line Selector 8-Line Analog/Digital Rackmount Switcher
2 3 4 5 6 7 8
LINE
ANALOG/DIG SELECT
CONTROL LOGICDC POWERDIGITAL OUTDIGITAL INPUTSAUDIO OUTAUDIO INPUTS 5-8AUDIO INPUTS 1-4
CAUTION - TO AVOID ELECTRIC SHOCK REFER SERVICE TO QUALIFIED TECHNICIAN5 84321 6 7
The LSR-500 Rackmount Switcher Unit (front & rear)
Typical DB-25connector
RD / March 2001
page 11 – 4RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Pin 5 – Line 3 Rt In SHPin 4 – Line 3 Rt In HIPin 17 – Line 3 Rt In LOPin 16 – Line 4 Lt In SHPin 15 – Line 4 Lt In HIPin 3 – Line 4 Lt In LOPin 2 – Line 4 Rt In SHPin 1 – Line 4 Rt In HIPin 14 – Line 4 Rt In LO
ANALOG AUDIO INPUTS 5-8:Pin 25 – Line 5 Lt In SHPin 24 – Line 5 Lt In HIPin 12 – Line 5 Lt In LOPin 11 – Line 5 Rt In SHPin 10 – Line 5 Rt In HIPin 23 – Line 5 Rt In LOPin 22 – Line 6 Lt In SHPin 21 – Line 6 Lt In HIPin 9 – Line 6 Lt In LOPin 8 – Line 6 Rt In SHPin 7 – Line 6 Rt In HIPin 20 – Line 6 Rt In LO
Pin 19 – Line 7 Lt In SHPin 18 – Line 7 Lt In HIPin 6 – Line 7 Lt In LOPin 5 – Line 7 Rt In SHPin 4 – Line 7 Rt In HIPin 17 – Line 7 Rt In LOPin 16 – Line 8 Lt In SHPin 15 – Line 8 Lt In HIPin 3 – Line 8 Lt In LOPin 2 – Line 8 Rt In SHPin 1 – Line 8 Rt In HIPin 14 – Line 8 Rt In LO
DIGITAL AUDIO INPUTS 1-8:Pin 25 – AES 1 In SHPin 24 – AES 1 In HIPin 12 – AES 1 In LOPin 11 – AES 2 In SHPin 10 – AES 2 In HIPin 23 – AES 2 In LOPin 22 – AES 3 In SHPin 21 – AES 3 In HIPin 9 – AES 3 In LOPin 8 – AES 4 In SHPin 7 – AES 4 In HIPin 20 – AES 4 In LO
Typical DB-25connector
RD / March 2001
page 11 – 5RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
Pin 19 – AES 5 In SHPin 18 – AES 5 In HIPin 6 – AES 5 In LOPin 5 – AES 6 In SHPin 4 – AES 6 In HIPin 17 – AES 6 In LOPin 16 – AES 7 In SHPin 15 – AES 7 In HIPin 3 – AES 7 In LOPin 2 – AES 8 In SHPin 1 – AES 8 In HIPin 14 – AES 8 In LO
LSR-500 Audio Outputs
These are for analog stereo (+4dBu balanced) and digital (AES);there are two DB-9 output connectors on the chassis rear (pinoutdrawing on the page 11-8):
ANALOG OUTPUTS (DB-9):Pin 8 – Line Lt Out SHPin 7 – Line Lt Out HIPin 3 – Line Lt Out LOPin 2 –Line Rt Out SHPin 1 – Line Rt Out HIPin 6 – Line Rt Out LO
DIGITAL OUTPUTS (DB-9):Pin 2 – AES Out SHPin 1 – AES Out HIPin 6 – AES Out LO
Typical DB-25connector
Typical DB-9connector
RD / March 2001
page 11 – 6RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
LSD-5 Line Preselector Module DB Connector Pinouts
I/O CONTROL PORTS(Upper DB-25)
I/O POWER PORTS(Lower DB-25)
DIGITAL GROUND
N/C
N/C
DIGITAL GROUND
CONSOLE CLOCK
CONSOLE RESET
DIGITAL GROUND
LINE 7
LINE 6
DIGITAL GROUND
LINE 3
LINE 2
AUDIO GROUND
N/C
DIGITAL GROUND
N/C
CONSOLE CLOCK
DIGITAL GROUND
CONSOLE RESET
LINE 8
DIGITAL GROUND
LINE 5
LINE 4
DIGITAL GROUND
LINE 1
-V
-V
+V
+V
AUDIO GROUND
AUDIO GROUND
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
+5V DIGITAL
+5V DIGITAL
+5V DIGITAL
AUDIO GROUND
-V
-V
+V
+V
AUDIO GROUND
AUDIO GROUND
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
+5V DIGITAL
+5V DIGITAL
+5V DIGITAL
54
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
page 11 – 7RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
RD / March 2001
LSR-500 Rackmount Switcher DB Connector Pinouts
ANALOGINPUTS 1-4
(DB-25)
ANALOGINPUTS 5-8
(DB-25)
LINE 1 LT IN SH
LINE 1 LT IN HI
LINE 1 RT IN LO
LINE 2 LT IN SH
LINE 2 LT IN HI
LINE 2 RT IN LO
LINE 3 LT IN SH
LINE 3 LT IN HI
LINE 3 RT IN LO
LINE 4 LT IN SH
LINE 4 LT IN HI
LINE 4 RT IN LO
AUDIO GROUND
LINE 1 LT IN LO
LINE 1 RT IN SH
LINE 1 RT IN HI
LINE 2 LT IN LO
LINE 2 RT IN SH
LINE 2 RT IN HI
LINE 3 LT IN LO
LINE 3 RT IN SH
LINE 3 RT IN HI
LINE 4 LT IN LO
LINE 4 RT IN SH
LINE 4 RT IN HI
LINE 5 LT IN SH
LINE 5 LT IN HI
LINE 5 RT IN LO
LINE 6 LT IN SH
LINE 6 LT IN HI
LINE 6 RT IN LO
LINE 7 LT IN SH
LINE 7 LT IN HI
LINE 7 RT IN LO
LINE 8 LT IN SH
LINE 8 LT IN HI
LINE 8 RT IN LO
AUDIO GROUND
LINE 5 LT IN LO
LINE 5 RT IN SH
LINE 5 RT IN HI
LINE 6 LT IN LO
LINE 6 RT IN SH
LINE 6 RT IN HI
LINE 7 LT IN LO
LINE 7 RT IN SH
LINE 7 RT IN HI
LINE 8 LT IN LO
LINE 8 RT IN SH
LINE 8 RT IN HI
5
4
3
2
1
17
16
15
14
8
7
6
2019
18
10
9
23
22
21
1312
11
25
24
5
4
3
2
1
17
16
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
page 11 – 8RD / May 2000
L I N E P R E S E L E C T O R M O D U L E
RD / March 2001
LINE RT OUT SH
LINE LT OUT SH
AES1 IN SH
AES1 IN HI
AES 2 IN LO
AES 3 IN SH
AES 3 IN HI
AES 4 IN LO
AES 5 IN SH
AES 5 IN HI
AES 6 IN LO
AES 7 IN SH
AES 7 IN HI
AES 8 IN LO
AUDIO GROUND
AES 1 IN LO
AES 2 IN SH
AES 2 IN HI
AES 3 IN LO
AES 4 IN SH
AES 4 IN HI
AES 5 IN LO
AES 6 IN SH
AES 6 IN HI
AES 7 IN LO
AES 8 IN SH
AES 8 IN HI
5
4
3
2
1
17
16
15
14
8
7
6
20
1918
10
9
23
22
21
13
12
11
25
24
DIGITAL INPUTS(DB-25)
DIGITALAUDIO OUTPUT (DB-9)
AES OUT LOAES OUT HIAES OUT SH
N/C
N/CAUDIO GROUND
N/CN/CN/C
LSR-500 Rackmount Switcher DB Connector Pinouts
LINE RT OUT LOLINE RT OUT HI
LINE LT OUT LON/C
AUDIO GROUNDN/C
LINE LT OUT HIANALOG
AUDIO OUTPUT (DB-9)
LH
LH
LH
LH
ANALOGLINE 1
R
L
R
L
LH
LH
LH
LH R
L
R
L
LH
LH
LH
LH R
L
R
L
LH
LH
LH
LH R
L
R
L
SOURCE
SELECT
FET
SW
ANALOGLINE 2
ANALOGLINE 3
ANALOGLINE 4
ANALOGLINE 5
ANALOGLINE 6
ANALOGLINE 7
ANALOGLINE 8
R
L
ANALOGLINE OUT
LH
LH
L
R
R
L ANALOG/DIGITAL
CONVERTER
SOURCE
SELECT
FET
SW
DIGLINE 1
DIGLINE 2
DIGLINE 3
DIGLINE 4
DIGLINE 5
DIGLINE 6
DIGLINE 7
DIGLINE 8
HL
HL
HL
HL
HL
HL
HL
HL
DIGITAL/ANALOG
CONVERTERR
LOGIC CONTROLS
RD/May 2000LSD-5 Line Preselector (digital) - Signal Flow Diagram
DIGITALOUT
HL
DIGITALLINE OUT
L
LINE 8
LINE 5
LINE 1
LINE 4
LINE 7 LINE 6
LINE 2 LINE 3
SW
FET
SELECT
SOURCE
2
1
4
3
6
5
8
7
FRONT PANELSWITCHES
LOGIC
MODULE LOCATEDIN CONSOLE
PRESELECTOR LSD-5
page 11 - 9
page 12 – 1RD / May 2000
I N T E R C O M M O D U L E
Intercom Module
(ICMD-5; optional)
Chapter Contents
Module Overview...................................................................... 12-2
Internal Programming Options ............................................... 12-3Cue Enable ........................................................................................................... 12-3
Input Signal ........................................................................................................... 12-3
Power for various ICMs ........................................................................................ 12-3
Station Select ........................................................................................................ 12-3
Hook-ups................................................................................... 12-4Upper DB-25 Connector — AUDIO ...................................................................... 12-4
Upper DB-25 Connector — CONTROL ................................................................ 12-4
Lower DB-25 Connector — AUDIO ...................................................................... 12-4
Lower DB-25 Connector — CONTROL ................................................................ 12-5
DB Connector Pinout Drawing................................................ 12-6
Intercom Module Signal Flow Diagram .................................. 12-7
page 12 – 2RD / May 2000
I N T E R C O M M O D U L E
Intercom Module
(ICMD-5; optional)
Module OverviewThe ICMD-5 Intercom Module is used to communicate with other
studios and locations within a broadcast facility. It is designed tointerface with other Wheatstone consoles and rackmount intercomunits. Up to eight different stations may be connected via a simpledaisy-chain hookup. The system is a party line; power for various unitscan come from their own locations or from other units. A red BUSYLED lights up whenever the system is in use.
The eight station call buttons on the lower half of the module areused to initiate a call; when you press a call button, the buttoncorresponding to your location will illuminate at the other end to let thereceiver know who’s calling. He can then reply immediately, hands-free, and you will hear him through your console’s cue speakers.
Normally you hear callers over your console’s cue speakers. Howeveryou can also program the ICMD-5 module (via an internal dipswitch) toperform a cue interrupt function. The caller’s voice will then appear at thecontrol room speakers and/or operator headphones, depending on how youhave programmed your CRD-5 module to handle CUE.
As the default mode for the system is hands-free reply, a redPRIVACY button is provided to prevent potential eavesdropping.When activated you can hear incoming calls but your own microphoneremains off until you disengage the button.
Your microphone signal can tap from the console’s talkback bus,where it picks up the regular console operator’s microphone, or it canbe a separate line level input coming into the ICMD-5 module (inter-nally programmable). In either case, a recessed MIC trimpot at the topof the module sets the level of your voice.
Right next to the MIC trim is a NULL trimpot. This is used to null outyour own microphone signal at your location. It is initially set at the factoryfor a two-station system. However, system loading will vary depending onconfiguration, and some adjustment may be necessary during initial set-upat your location. Once set however (assuming you don’t change the numberof stations installed) this control can be left alone.
All wiring to and from the ICMD-5 module takes place at DB-25multi-pin connectors mounted directly beneath the module on theconsole mainframe’s bottom pan. There are two connectors: the upperone (towards the console meterbridge) handles inputs; the lowerconnector (near the console armrest) outputs.
MMMMIIIICCCC
PPPPRRRRIIIIVVVVAAAACCCCYYYY
NNNNUUUULLLLLLLL
BUSY
ICD
1111
2222
3333
4444
5555
6666
7777
8888
SSSS
TTTT
AAAA
TTTT
IIII
OOOO
NNNN
page 12 – 3RD / May 2000
I N T E R C O M M O D U L E
Internal Programming OptionsAll internal programming, except for address selections (see below), is
made via printed circuit board (PCB) mounted 4-position dipswitches (totaltwo) on the module’s main card.
For the purposes of this manual, we will assume you are holding the removedmodule upright, component side towards you, with gold-plated card fingers to theleft and the module faceplate to the right. This will enable you to read the controllegends silkscreened next to the programming switch. Note when a dipswitchposition is thrown to the right (towards the module’s faceplate) it is ON.
CUE Enable
You can program the ICMD-5 module (via dipswitch SW10) to performa cue interrupt function. The caller’s voice will appear at the control roomspeakers and/or operator headphones, depending on how you have pro-grammed your CRD-5 module to handle CUE.
Dipswitch SW10 position 1 assign CUE Logic Enable
Input Signal
Your microphone signal can tap from the console’s talkback bus, whereit picks up the regular console operator’s microphone, or it can be a separateline level input coming into the ICMD-5 module.
Dipswitch SW1 position 1 assign line level input into ICMD moduleDipswitch SW1 position 4 allows microphone signal tap from theconsole’s talkback bus
Power for Various ICMs
Your can provide power for other Wheatstone rackmount ICMs (viadipswitch SW10)
position 2 - Ext +Vposition 3 - Ext -Vposition 4 - Ext +D
Station Select
Each ICM in daisy-chain hookup has own address, which is programedwith “stations” slide switches SW2-SW9. Each ICM has only one slideswitch “ON”.
page 12 – 4RD / May 2000
I N T E R C O M M O D U L E
Hook-UpsAll user wiring to and from the ICMD-5 module takes place at two DB-25
multi-pin connectors mounted directly beneath the module on the consolemainframe’s bottom pan.
Upper DB-25 Connector — Input Audio
This connector handles the module’s source select External Stereo inputs.All audio signals are analog, +4dBu balanced.
Pin 15 - 2-way audio in HIPin 3 - 2-way audio in LOPin 16 - 2-way audio in SHPin 1 - External Line in HIPin 14 - External Line in LOPin 2 - External Line in SH
Upper DB-25 Connector — ControlPin 10 - External digital + power feedPin 23 - External digital commonPin 4 - Station call line 1Pin 17 - Station call line 2Pin 18 - Station call line 3Pin 6 - Station call line 4Pin 7 - Station call line 5Pin 20 - Station call line 6Pin 21 - Station call line 7Pin 9 - Station call line 8Pin 24 - +16VPin 12 - -16VPins 5,8,11,19,22,25 - Audio CommonPin 13 - N/C
Lower DB-25 Connector — Output Audio
All signals are +4dBu balanced analog stereo.Pin 15 - 2-way audio out HIPin 3 - 2-way audio out LOPin 16 - 2-way audio out SHPins 2 - Audio Common
Typical DB-25connector
RD / March 2001
page 12 – 5RD / May 2000
I N T E R C O M M O D U L E
Lower DB-25 Connector — ControlPin 10 - External digital + power feedPin 23 - External digital commonPin 4 - Station call line 1Pin 17 - Station call line 2Pin 18 - Station call line 3Pin 6 - Station call line 4Pin 7 - Station call line 5Pin 20 - Station call line 6Pin 21 - Station call line 7Pin 9 - Station call line 8Pin 24 - +16VPin 12 - -16VPins 5,8,11,19,22,25 - Audio CommonPin 13 - N/C Typical DB-25
connector
page 12 – 6RD / May 2000
I N T E R C O M M O D U L E
RD / March 2001
ICMD-5 Intercom ModuleDB Connector Pinouts
I/O PORTS
2-WAY AUDIO OUT SH
2-WAY AUDIO OUT HI
N/C
2-WAY AUDIO OUT LO
AUDIO GROUND
N/C
AUDIO GROUND
+16V
DIGITAL GROUND
AUDIO GROUND
STATION CALL LINE 7
STATION CALL LINE 6
AUDIO GROUND
STATION CALL LINE 3
STATION CALL LINE 2
N/C
–16V
AUDIO GROUND
+V DIGITAL
STATION CALL LINE 8
AUDIO GROUND
STATION CALL LINE 5
STATION CALL LINE 4
AUDIO GROUND
STATION CALL LINE 1
5
4
3
2
1
17
16
15
14
8
7
6
20
1918
10
9
23
22
21
13
12
11
25
24
AUDIO GROUND
+16V
DIGITAL GROUND
AUDIO GROUND
STATION CALL LINE 7
STATION CALL LINE 6
AUDIO GROUND
STATION CALL LINE 3
STATION CALL LINE 2
2-WAY AUDIO IN SH
2-WAY AUDIO IN HI
EXT LINE IN LO
N/C
–16V
AUDIO GROUND
+V DIGITAL
STATION CALL LINE 8
AUDIO GROUND
STATION CALL LINE 5
STATION CALL LINE 4
AUDIO GROUND
STATION CALL LINE 1
2-WAY AUDIO IN LO
EXT LINE IN SH
EXT LINE IN HI
5
4
3
2
1
17
16
15
14
8
7
6
20
1918
10
9
23
22
21
13
12
11
25
24
I/O PORTS
INTERCOM
FM
AM
NEWS
PROD
BOOTH
ENG
CALL LINES TO OTHERSTATIONS
Y
X
TRIM
I/O PORT2-WAY AUDIO
HL
HLLINE IN
DIP SW
LOGICCUE LOGIC ENABLE
DIP SW
TB MONITOR
PRIVACYSW
PRIVACYFET SW
RD/May 2000
ICMD-5 Intercom Module - Signal Flow Diagram
NULLTRIM
CUEFET SW
CUE ACN
PRIVACYBUTTON
page 12 - 7
page 13 – 1RD / May 2000
T A P E R E M O T E M O D U L E
Tape Remote Module
(TRD-5; optional)
Chapter Contents
Module Overview............................................................................... 13-2
DB Connector Pinout Drawing STOP/START Function Control .................................................................................... 13-3
Full-Function Control ..................................................................................................... 13-4
page 13 – 2RD / May 2000
T A P E R E M O T E M O D U L E
Tape Remote Module
(TRD-5; optional)
Module OverviewThis optional module has two versions:- start-stop control of six reel-to-reel tape machines using
six pair of START/STOP buttons;- full-function control of two tape machines with buttons
marked as RTZ, FF, REW, PLAY, REC and STOP.LED indicators in each switch function as tallyback indica-
tors and are powered by the source machines. There are nointernal connections between the tape remote panel and theconsole’s power rails.
TRD
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
TRD
SSSSTTTTOOOOPPPP
RRRREEEECCCC
PPPPLLLLAAAAYYYY
RRRREEEEWWWW
FFFFFFFF
RRRRTTTTZZZZ
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
SSSSTTTTOOOOPPPP
RRRREEEECCCC
PPPPLLLLAAAAYYYY
RRRREEEEWWWW
FFFFFFFF
RRRRTTTTZZZZ
page 13 – 3RD / May 2000
T A P E R E M O T E M O D U L E
TRD
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SSSSTTTTAAAARRRRTTTT
SSSSTTTTOOOOPPPP
SW1
SW2
SW3
SW4
SW5
SW6
SW1
SW2
SW3
SW4
SW5
SW6
TRD-5/SS Tape Remote Module DB Connector Pinouts
I/O CONTROLPORTS
(Upper DB-25)
I/O CONTROLPORTS
(Lower DB-25)
SW6 (STOP) COMMON
SW6 (STOP) LED-
SW5 (START) COMMON
SW5 (START)LED-
SW4 (STOP) COMMON
SW4 (STOP) LED-
SW3 (START) COMMON
SW3 (START) LED-
SW2 (STOP) COMMON
SW2 (STOP) LED-
SW1 (START) COMMON
SW1 (START) LED-
N/C
SW6 (STOP) N.O.
SW6 (STOP)LED+
SW5 (START) N.O.
SW5 (START) LED+
SW4 (STOP) N.O.
SW4 (STOP) LED+
SW3 (START) N.O.
SW3 (START) LED+
SW2 (STOP) N.O.
SW2 (STOP) LED+
SW1 (START) N.O.
SW1 (START) LED+
5
4
3
2
1
1716
15
14
8
76
20
19
18
10
9
23
22
21
13
12
11
25
24
54
3
2
1
1716
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
SW6 (STOP) COMMON
SW6 (STOP) LED-
SW5 (START) COMMON
SW5 (START)LED-
SW4 (STOP) COMMON
SW4 (STOP) LED-
SW3 (START) COMMON
SW3 (START) LED-
SW2 (STOP) COMMON
SW2 (STOP) LED-
SW1 (START) COMMON
SW1 (START) LED-
N/C
SW6 (STOP) N.O.
SW6 (STOP)LED+
SW5 (START) N.O.
SW5 (START) LED+
SW4 (STOP) N.O.
SW4 (STOP) LED+
SW3 (START) N.O.
SW3 (START) LED+
SW2 (STOP) N.O.
SW2 (STOP) LED+
SW1 (START) N.O.
SW1 (START) LED+
RD / March 2001
page 13 – 4RD / May 2000
T A P E R E M O T E M O D U L E
SW1
SW2
SW3
SW4
SW5
SW6
SW1
SW2
SW3
SW4
SW5
SW6
TRD
SSSSTTTTOOOOPPPP
RRRREEEECCCC
PPPPLLLLAAAAYYYY
RRRREEEEWWWW
FFFFFFFF
RRRRTTTTZZZZ
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
RRRR
EEEE
MMMM
OOOO
TTTT
EEEE
SSSSTTTTOOOOPPPP
RRRREEEECCCC
PPPPLLLLAAAAYYYY
RRRREEEEWWWW
FFFFFFFF
RRRRTTTTZZZZ
TRD-5/FF Tape Remote Module DB Connector Pinouts
I/O CONTROLPORTS
(Upper DB-25)
I/O CONTROLPORTS
(Lower DB-25)
SW6 (STOP) COMMON
SW6 (STOP) LED-
SW5 (REC) COMMON
SW5 (REC) LED-
SW4 (PLAY) COMMON
SW4 (PLAY) LED-
SW3 (REW) COMMON
SW3 (REW)LED-
SW2 (FF) COMMON
SW2 (FF) LED-
SW1 (RTZ)COMMON
SW1 (RTZ) LED-
N/C
SW6 (STOP) N.O.
SW6 (STOP) LED+
SW5 (REC) N.O.
SW5 (REC) LED+
SW4 (PLAY) N.O.
SW4 (PLAY) LED+
SW3 (REW) N.O.
SW3 (REW) LED+
SW2 (FF) N.O.
SW2 (FF) LED+
SW1 (RTZ) N.O.
SW1 (RTZ) LED+
5
4
3
2
1
1716
15
14
8
76
20
19
18
10
9
23
22
21
13
12
11
25
24
54
3
2
1
1716
15
14
8
7
6
20
19
18
10
9
23
22
21
13
12
11
25
24
SW6 (STOP) COMMON
SW6 (STOP) LED-
SW5 (REC) COMMON
SW5 (REC) LED-
SW4 (PLAY) COMMON
SW4 (PLAY) LED-
SW3 (REW) COMMON
SW3 (REW)LED-
SW2 (FF) COMMON
SW2 (FF) LED-
SW1 (RTZ)COMMON
SW1 (RTZ) LED-
N/C
SW6 (STOP) N.O.
SW6 (STOP) LED+
SW5 (REC) N.O.
SW5 (REC) LED+
SW4 (PLAY) N.O.
SW4 (PLAY) LED+
SW3 (REW) N.O.
SW3 (REW) LED+
SW2 (FF) N.O.
SW2 (FF) LED+
SW1 (RTZ) N.O.
SW1 (RTZ) LED+
RD / March 2001
page 14 – 1RD / May 2000
M E T E R B R I D G E a n d C L O C K
Meterbridge and Clock
Chapter Contents
Overview ...................................................................................... 14-2
Replacement Parts ...................................................................... 14-2
Clock ............................................................................................ 14-2Controls .................................................................................................................... 14-2
Setting the Time ....................................................................................................... 14-3
Battery Backup ........................................................................................................ 14-3
Operational Modes .................................................................................................. 14-3
Schematic ................................................................................................................ 14-4
Load Sheet ............................................................................................................... 14-5
RD / Jul 2002
page 14 – 2RD / May 2000
M E T E R B R I D G E a n d C L O C K
Meterbridge and ClockOverview
The console’s meterbridge houses three pairs of left-right LED meters(Program, Audition, and Utility; see “Meter Output Module” Chapter 7), thedigital timer display (timer control buttons are on the MOD-5 Meter OutputModule; see page 7-2), left and right cue speakers (controlled by the CRD-5Control Room Module; see page 5-2), and the console clock (next section).Each LED meter pair is switchable to either VU or PPM (peak Program Meter)modes. The slide switch for each pair is located on the rear of face of the LEDmeter PC board.
The meterbridge assembly hinges open for easy access setting the clock.Simply remove the three black #4 flathead screws along the bottom lip of themeterbridge, just above the tops of the console modules and swing the bridgeup and back until it rests in a fully opened position.
Replacement PartsClock, timer and VU meters cards and replacement cue speakers are
available. See Appendix for specific ordering information.
Console ClockThe Wheatstone digital clock is a six-digit time-of-day clock with LED
display. The clock is designed with CMOS circuits and an on-board crystal-controlled time base oscillator. There are two basic parts to the clock: a mainPCB containing the clock displays and circuits (including battery backup),and a remote switch card containing controls for setting the clock. The remoteswitch card is mounted in the bottom of the console meterbridge; it may beaccessed by opening the hinged meterbridge (see above).
Controls
The clock is controlled by a trimmer and two switches; the trimmer ismounted on the main clock PCB assembly and the switches are mounted onthe control card.
The trimmer alters the frequency of the quartz-controlled oscillator,which in turn causes the clock to run slightly slower or faster. In order to keepaccurate time, the oscillator must run at 32.768 KHz, which is divided downinternally to yield 1.000000 Hz at the input of the counter. The oscillator is setto this frequency at the factory. However, due to the nature of quartz/crystal-controlled oscillators, there may be a slight change in the frequency of theoscillator during the first few months of operation due to the aging effect ofquartz crystals. A minor readjustment of the trimmer will compensate for thiseffect.
page 14 – 3RD / May 2000
M E T E R B R I D G E a n d C L O C K
A buffered output of the oscillator is available at pin #9 of IC #U22 to assist inadjusting the oscillator. This testpoint “TP1” is right between the 14-pin ribboncable header and IC “U22” in the upper right corner of the main display PCB (asyou are looking at the card with the meterbridge hinged fully open).
Setting the Time
The setting controls consists of two switches: MODE and SET. To set theclock, open the meterbridge and stand behind the console (this will enable youto see the display):
1) The control switches (mounted inside the meterbridge bottom) are la-belled "M" and "S". "M" (Mode) is used to scroll from seconds to min-utes to hours; "S" is used to Set the time. The procedure is to set the clockslightly ahead of the current time, hold the second count at "00" until thecurrent time catches up, and then release the count.
2) Press the MODE button until the hour digits blink. Depress the SETbutton until the desired hour is displayed.
3) Press the MODE button until the minute digits blink. Depress the SETbutton until the desired minute count is displayed.
4) Press the MODE button until the second digits blink. Depress and holdthe SET button; the seconds display will hold at "00" (blinking once persecond). When the current time catches up to the display, release the SETbutton. The clock will start counting. Hit the MODE button one moretime to place the clock into working mode.
Battery Backup
With the meterbridge open, note the nickel-sized round Duracell DL2032/3V long-life lithium battery (it goes into the socket negative side in). Note thebattery does NOT light up the clock display; it powers the clock crystal to keepit from losing count (it will do this for 3 to 4 weeks).
Operational Modes
The standard factory default clock configuration is crystal-controlled, 12hour mode, stand-alone operation. However, the clock will operate eitherfrom the internal crystal controlled time base or from a 60 Hz power linesignal. It can also be programmed to count in either 12 hour or 24 hour modes,and the internal counters can be slaved from another clock or other sources of1 Hz timing signals (TTL levels). Contact factory technical support for furtherinformation.
AGND
AGND
AGND
CT2/4 EXTERNALRESET
CT2/3 1HZ OUTPUT
CT2/6 DIG.COM
CT2/2 1HZ INPUT
CT2/8 +DIG IN
CT2/1 60 HZ INPUT
CT2/5 DIG.COM
GND
0.1uF
C5
VCC
0.1uF
C6
CT2/7+DIG IN
CT2/6DIG.COM
CT2/5DIG.COM
1N4002WD2
0-5
1
2
3
4
5
6
7
9
10
11
12
13
14
15
U5
LE QG
BI QF
LT QE
D3 QD
D2 QC
D1 QB
D0 QA
74HC4511
0-9
15
14
13
12
11
10
9
7
6
5
4
3
2
1
U4
LE QG
BI QF
LT QE
D3 QD
D2 QC
D1 QB
D0 QA
74HC4511
U3
0-5
15
14
13
12
11
10
9
7
6
5
4
3
2
1
LE QG
BI QF
LT QE
D3 QD
D2 QC
D1 QB
D0 QA
74HC4511
U2
0-9
15
14
13
12
11
10
9
7
6
5
4
3
2
1
LE QG
BI QF
LT QE
D3 QD
D2 QC
D1 QB
D0 QA
74HC4511
475
R14
475
R13
475
R40
475
R41
475
R42
475
R15
475
R39
475
R10
475
R9
475
R36
475
R37
475
R38
475
R11
475
R12
475
R5
475
R4
475
R32
475
R33
475
R34
475
R7
475
R6
475
R2
475
R1
475
R28
475
R30
475
R31
475
R3
475
R29
475
R43
GND
GND
GND
GND
VCC VCC
GND
GND
10.0K
R62
VCC
100
R63
100
R60
GND
0.001uF
C41
GND
100
R61
0.001uF
C44
GND
VCC VCC3.32K
R52
EXTERNALRESET CT2/4
VCC
GND
CT1/14
10.0K
R66
0.1uF
C9
GND
VCC
0.1uF
C10
GND
VCC
0.1uF
C11
GND
VCC
0.1uF
C12
GND
VCC
0.1uF
C13
GND
VCC
0.1uF
C15
GND
VCC
0.1uF
C16
GND
VCC
0.1uF
C17
GND
VCC
0.1uF
C18
GND
VCC
0.1uF
C19
GND
VCC
0.1uF
C20
GND
VCC
VCC VCC VCC VCC
GND GND
GNDGND
10pF
C3
10M
R25
330K
R24
GND GND
32.678kHz
TP1
0.1uF
C24
GND
VCC
6
5
J3
1 HZ INPUT CT2/2
GND GND
10M
R26
10pF
C2
GND
10M
R27
475
R35
475
R16
475
R18
475
R17
475
R44
475
R46
475
R47
475
R19
475
R45
GND
VCC VCC475
R21
475
R20
475
R48
475
R49
475
R50
475
R23
475
R22
GND
GND
VCC
475
R8
5 6
U17
74AC14
43
U17
74AC14
9 8
U17
74AC14
1 2
U17
74AC14
1213
U17
74AC14
2
13
U18
74ACT08
32
1
U19
74ACT00
56
4
U18
74ACT08
65
4
U19
74ACT00
74ACT08
89
10 U20
1112
13 U19
74ACT00
10
98
U19
74ACT00
0.1uF
C27
GND
VCC
0.1uF
C26
GND
VCC
0.1uF
C25
GND
VCC
CKC-5PCB
SET (H,M,S)CT1/1
+5VCT1/11
1 HZ OUTPUTCT1/12
1 HZ OUTPUT(FROM 60 HZ)
CT1/13
CT1/10 DIG.COM
CT1/14 MODESELECT
VCC
1 HZ (CT2)OUTPUT
CT2/3
GNDGNDGNDGND
GND
VCC
GND
10.0K
R55
U12
15
14
13
12
11
10
9 7
6
5
4
3
21
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
U11
1 2
3
4
5
6
79
10
11
12
13
14
15
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
U10
1 2
3
4
5
6
79
10
11
12
13
14
15
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
U9
1 2
3
4
5
6
79
10
11
12
13
14
15
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
CT2/160 HZ INPUT
GND
VCC
GND
VCC
0.001uF
C36
100
R58
2 1
U15
74AC14
GND
5 6
U15
74AC14
1011
U15
74AC14
3 4
U15
74AC14
89
U15
74AC14
J2
J1
VARISTOR
33V
V1
GND
0.001uF
C47
GND
3.32K
R68
GND
1.00K
R69
3.32K
R54
GND
46
5 U28
74ACT08
10
98
74ACT08
U28
SS14 D3
1.00K
R65
GND
1112
13 U24
74ACT00
810
9
U24
74ACT00
13
1211
U26
74ACT00
89
10 U26
74ACT00
100
R53
0.1uF
C31
GND
74ACT08
89
10U18
1311
12
U18
74ACT08
31
2U21
74ACT08
1
23
U26
74ACT00
13
1211
U23
74ACT00
13
1211
U25
74ACT00
1
23
U25
74ACT00
64
5 U23
74ACT0040.2K
R57
VCC
VCC
GND
NOT INSTALLED
10.0K
R51
1.00K
R64
0.1uF
C29
GND
VCC
0.1uF
C28
GND
VCC
0.1uF
C23
GND
VCC
56
4
U20
74ACT08
31
2U20
74ACT08
0.1uF
C33
GND
1
23
U24
74ACT00
64
5 U26
74ACT00
10
98
U25
74ACT00
65
4
U25
74ACT00
VCC
100
R67
0.001uF
C40
GND
10.0K
R59
1011
U17
74AC14
CT2/8+DIG IN
0.1uF
C14
GND
VCC
0.1uF
C32
GND
VCC
0.1uF
C35
GND
VCC
0.1uF
C37
GND
VCC
0.1uF
C7
GND
VCC
GND74ACT74
6
54
3
2
1
U16
DQ
Q
CLR
CLK
SET
74ACT74
1
2
3
45
6
U27
DQ
Q
CLR
CLK
SET
1 HZOUTPUT(FROM60 HZ)
CT1/13
0.1uF
C46
GND
VCC
0.1uF
C43
GND
VCC
0.1uF
C45
GND
VCC
0.1uF
C39
GND
VCC
+5VREG
+5VREG +5VREG +5VREG
MODE
REMOTE
VCC
1 HZ (CT1)OUTPUT
CT1/12
AGND
VCC
REMOTE
SETHOURS,MINUTES,SECONDS
VCC
0.1uF
C8
GND
CT1/1
3.32K
R56
50pF
C4
89
10 U23
74ACT00
LOCAL
1 2
34
SW1
1311
12
U20
74ACT08
U14
1 2
3
4
5
6
79
10
11
12
13
14
15
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
U7
0-2
1
2
3
4
5
6
7
9
10
11
12
13
14
15
LE QG
BI QF
LT QE
D3 QD
D2 QC
D1 QB
D0 QA
74HC4511
+5VREG
4
56
U24
74ACT00
TO CLOCKCONTROL
CT1
1
14
13
12
11
10
9
8
7
6
5
4
3
2
J4
CT2/7 +DIG IN
SS14 D1
DS4
SECONDS
1
2
3
4
5
6
7
8
9
10
11
13
12
14
15
16
17
18c
g
dp
f
e
d
b
a
a1
b1
f1
g1
dp1
c1
e1
d1d2
e2
c2
a2
b2
f2
g2
dp2
COM1COM2
a
b
d
e
f
dp
g
c
LOCAL
4 3
21
SW2
1213
U15
74AC14
31
2 U23
74ACT00
1211
13 U28
74ACT08
32.768kHz
Y1
U13
15
14
13
12
11
10
9 7
6
5
4
3
21
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
U6
1
2
3
4
5
6
7
9
10
11
12
13
14
15
0-9
LE QG
BI QF
LT QE
D3 QD
D2 QC
D1 QB
D0 QA
74HC4511
HOURS
5
6
7
8
9
10
11
13
1218
17
16
15
14
4
3
2
1
DS1
c
g
dp
f
e
d
b
aa1
b1
f1
g1
dp1
c1
e1
d1 d2
e2
c2
a2
b2
f2
g2
dp2
COM1 COM2
a
b
d
e
f
dp
g
c
MINUTES
1
2
3
4
5
6
7
8
9
10
DS3
a
b
f
g
dp
c
e
d
COM2
COM1
g
dp
f
e
d
c
b
a
DS2
1
2
3
4
5
6
7
8
9
10
a
b
f
g
dp
c
e
d
COM2
COM1
g
dp
f
e
d
c
b
a
POLYSW
POWER INTERFACE
.3A
F1
15
14
13
12
11
10
9 7
6
5
4
3
21
U8
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
1 2
3
4
5
6
79
10
11
12
13
14
15
U1
D
LD
BO
CO
CL
DN
UP
QD
C QC
B QB
A QA
74HC192
74HC4060
1
2
3
4
5
6
7
11
12
13
14
15
9
10
U22
Q14
Q13
Q12
Q10
Q9
CTC Q8
Q7
Q6
CLK Q5
RST Q4
RTC
74ACT74
13
12
11
109
8
U16
DQ
Q
CLR
CLK
SET
TO TIMER
CT2
1
8
7
6
5
4
3
2
BACK-UPBATTERY
3V
E1
74ACT74
8
910
11
12
13
U27
DQ
Q
CLR
CLK
SET
1N4002WD4
330uF
C21
22uF
C30
1uF
C42
1uF
C34
22uF
C14148D5
22uF
C38
4148D6
Z1
1.0V
22uF
C22
600 Industrial DriveNew Bern, NC 28562
FOR SLAVEOPERATION REMOVEJ3 AND INSTALL J1
FOR 60HZ POWERLINEOPERATION REMOVEJ3 AND INSTALL J2
FOR 24 HOURSOPERATIONREMOVE R67
1 OF 1
SA
CLK-5
W# 700258
Clock Schematic - Sheet 1 of 1Page 6-10Wheatstone/May 2001
5-3-01
CLK-5SE PCB
00S0013EISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
D
2
12345678
8 7 6 5 4 3 1
A
B
C
DD
C
B
A
1
2
3
LM2940
Q1
GND
VIN OUT
REMOVE FOR24 HOURSOPERATION
1HZOUT
1HZIN
GND
+DIGin +DIG
RESET
SET
+DIGin
GND
+DIGin
GND
60HZIN
RESET
SET
VCC
1HZOUT
1HZOUT60
GND
MODE
MODE
1HZIN
60HZIN
1HZ
1HZOUT60
+5VREG
HOURS
MINUTES
SECONDS+3V
1HZCLK
1HZOUT
page 15 – 1RD / Aug 2000
S C H E M A T I C D R A W I N G S
I/O Schematic Drawings
Chapter Contents
Mono Mic Input Module Schematic (MMD-500)..................................................... 15-2
Stereo Line Input Module Schematic (SLD-500).................................................... 15-4
Digital Stereo Line Input Card Schematic (SRC-500)............................................ 15-5
Analog Stereo Line Input Card Schematic (SLADC-600) ...................................... 15-6
Output Module Schematic (OMD-500) ................................................................... 15-7
Control Room Module Schematic (CRD-500) ........................................................ 15-8
Studio Control Module Schematic (SCD-500)....................................................... 15-11
Digital Superphone I/O Card Schematic (SPND-500) ........................................... 15-13
Analog Superphone I/O Card Schematic (SPNA-600)........................................... 15-14
Digital/Audio Line Select Rackmount Schematic (LSR-500) ................................ 15-15
Tape Remote Module Schematic (TRD-500)......................................................... 15-17
Intercom Module Schematic (ICMD-500) ............................................................... 15-18
Analog Line Select Module Schematic (LSA-5) ..................................................... 15-19
BD[7]
R121
4.99K
R124
4.99K
VCC
R120
4.99K
GND
R125
4.99K
VCC
0.01uF
C43
VCC
GND
C13
0.01uF
VCC
GND
C11
0.01uF
VCC
GND
C7
0.01uF
VCC
GND
0.01uF
C41
VCC
GND
C8
0.01uF
VCC
GND
C21
0.01uF
VCC
GND
0.01uF
C86
VCC
GND
C1
0.01uF
VCC
GND
C22
0.01uF
VCC
GND
C6
0.01uF
VCC
GND
0.01uF
C110
VCC
GND
R44
4.99K
VCC
GND
0.01uF
C108
VCC
GND
R126
4.99K
GND
U196
5
4
74ALS09
U193
1
2
74ALS09
R122
4.99K
GND
R16
10.0K
GND
R15
10.0K
R179
475
R178
475
R159
475
R160
475
R156
475
R155
1.00K
BD[0]
BD[1]
BD[2]
BD[3]
BD[4]
BD[5]
BD[6]
BD[7]
BD[0]
BD[1]
BD[2]
BD[3]
BD[4]
BD[5]
BD[6]
BD[7]
BD[0]
BD[1]
BD[2]
BD[3]
BD[4]
BD[5]
BD[6]
120/110
120/111
120/112
120/108
120/109
VCC
R127
4.99K
VCC
R128
4.99K
VCCVCC
R123
4.99K
GND
U34
74ALS09
12
1311
C10
0.01uF
GND
GND
BD[0]
BD[1]
BD[2]
BD[3]
BD[4]
BD[5]
BD[6]
BD[7]
GND
BD[0]
BD[1]
BD[2]
BD[3]
BD[4]
BD[5]
BD[6]
BD[7]
R181
10
VCC
U19
74ALS09
12
1311
R158
1.00K
U19
74ALS09
9
108
R157
1.00K
R13
1.00K
VCC
R14
1.00K
VCC
GND
R183
220
R184
332
GND
VCC
R162
68
R182
68
U16
21
74AC14
U16
89
74AC14
LDB/2
R143
2.43K
Q6
MMBTA05
GND
GND
R168
10
R144
10.0K
LDB/15
R145
2.43K
Q7
MMBTA05
GND
GND
R169
10
R146
10.0K
LDB/8
R141
2.43K
Q5
MMBTA05
GND
GND
R167
10
R142
10.0K
LDB/21
R140
2.43K
GND
GND
R166
10
R139
10.0K
U1856
4
74ACT08
U183
2
1
74ACT08
VCC
GND
0.01uF
C37
R45
4.99K
GND
VCC
GND
0.01uF
C40
GND
R47
10.0K
GND
R46
10.0K
GND
R34
10.0K
VCCVCC
VIEWED FROM ABOVE(COMPONENT SIDE)
4 POSITIONDIPSWITCHPINOUT
1
2
3
4 5
6
7
8
ON
ON
ON
ON1
2
3
4
74AC157IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VSS
1
2
3
4
5
6
7
9
10
11
12
13
14
VCC
8
15
16A/B
1A
1B
1Y
2A
2B
2Y
4Y
4B
4A
3Y
3B
3A
G
74AC14IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
If
Of
Id
Ib
Ia
Ic
Ie
Oe
O2c
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14
Oa
Ob
Od
VCC
74AC32IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14I1a
I2a
Oa
I1b
I2b
Ob
Oc
I1c
I2c
Od
I1d
I2d
VCC
74AC08/09IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14I1a
I2a
Oa
I1b
I2b
Ob
Oc
I1c
I2c
Od
I1d
I2d
VCC
49FCT805IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
1
2
3
4
5
6
7
11
12
13
14
VSS8
VCC
15
16
9
10
17
18
19
20VCC
VSS VSS
OA1
OA2
OA3
OA4
OA5
OEA
INA INB
OEB
MON
OB5
OB4
OB3
OB2
OB1
74HC373IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
1
2
3
4
5
6
7
11
12
13
14
VSS
8
VCC
15
16
9
10
17
18
19
20OC
1Q
1D
2D
2Q
3Q
3D
4D
4Q
C
5Q
5D
6D
6Q
7Q
7D
8D
8Q
74ABT245IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
1
2
3
4
5
6
7
11
12
13
14
VSS
8
VCC
15
16
9
10
17
18
19
20DIR
A1
A2
A3
A4
A5
A6
A7
A8
B8
B7
B6
B5
B4
B3
B2
B1
G
VIEWED FROM ABOVE(COMPONENT SIDE)
74ABT244IC PINOUT
1
2
3
4
5
6
7
11
12
13
14
VSS
8
VCC
15
16
9
10
17
18
19
201G
1A1
2Y4
1A2
2Y3
1A3
2Y2
1A4
2Y1
2A1
1Y4
2A2
1Y3
2A3
1Y2
2A4
1Y1
2G
GND
0.01uF
C36
VCC
R129
4.99K
120/107
R161
68
U16
3 4
74AC14
U34
74ALS09
9
108
U1813
1211
74ACT08
Q4
MMBTA05
CT2
2
3
4
5
6
7
8
9
10
1
U30
1
23
4 5
67
8 9
11
1213
14 15
1617
18 19
74HC373
LE
8D 8Q
7D 7Q
6D 6Q
5D 5Q
4D 4Q
3D 3Q
2D 2Q
1D 1Q
OE
U23
1
23
4 5
67
8 9
11
1213
14 15
1617
18 19
74HC373
LE
8D 8Q
7D 7Q
6D 6Q
5D 5Q
4D 4Q
3D 3Q
2D 2Q
1D 1Q
OE
U24
1918
17 16
1514
13 12
11
98
7 6
54
3 2
1
74HC373
LE
8D 8Q
7D 7Q
6D 6Q
5D 5Q
4D 4Q
3D 3Q
2D 2Q
1D 1Q
OE
U38
2
3
4
6
79
10
11
12
13
14
15
17
18
19
49FCT805
OEB
INB
INA
OEA
OA1
OA2
OA3
OA4
OA5
OB1
OB2
OB3
OB4
OB5
MON
U17
15
14
13 12
11
10
9
7
6
5
4
3
2
1
74ACT157
G
A/B
1A
1B
2A
1Y2B
2Y3A
3Y3B
4Y4A
4B
U16
65
74AC14
U20
74ACT157
1
2
3
4
5
6
7
9
10
11
1213
14
15G
A/B
1A
1B
2A
1Y2B
2Y3A
3Y3B
4Y4A
4B
U34
74ALS09
4
56
U34
74ALS09
2
13
U188
9
10
74ACT08
U28
74HC373
1
23
4 5
67
8 9
11
1213
14 15
1617
18 19
LE
8D 8Q
7D 7Q
6D 6Q
5D 5Q
4D 4Q
3D 3Q
2D 2Q
1D 1Q
OE
U29
74HC373
1918
17 16
1514
13 12
11
98
7 6
54
3 2
1
LE
8D 8Q
7D 7Q
6D 6Q
5D 5Q
4D 4Q
3D 3Q
2D 2Q
1D 1Q
OE
U13
3
4
6
5
7
2 1
39
19
42
38
11
9
8
20
40
30
15
17
16
24
22
13
14
18
12
26
43
44
25
27
28
29
37
34
35
33
36
XC9536
TMS
TDO
TDI
TCK
I/O22/GTS2
I/O23/GSR
I/O7/GCK3
I/O5/GCK2
I/O34
I/O33
I/O32
I/O31
I/O30
I/O29
I/O28
I/O27
I/O26
I/O25
I/O24
I/O21
I/O19
I/O18
I/O17
I/O16
I/O15
I/O14
I/O13
I/O12
I/O11
I/O10
I/O9
I/O8
I/O6
I/O4
I/O3/GCK1
I/O2
I/O1
I/O20/GTS1
U12
36
33
35
34
37
29
28
27
25
44
43
26
12
18
14
13
22
24
16
17
15
30
40
20
8
9
11
38
42
19
39
12
7
5
6
4
3
XC9536
TMS
TDO
TDI
TCK
I/O22/GTS2
I/O23/GSR
I/O7/GCK3
I/O5/GCK2
I/O34
I/O33
I/O32
I/O31
I/O30
I/O29
I/O28
I/O27
I/O26
I/O25
I/O24
I/O21
I/O19
I/O18
I/O17
I/O16
I/O15
I/O14
I/O13
I/O12
I/O11
I/O10
I/O9
I/O8
I/O6
I/O4
I/O3/GCK1
I/O2
I/O1
I/O20/GTS1
CT1
2
3
4
5
6
7
8
9
10
1
MMD-500 Mono Mic Input Module Schematic - Sheet 1 of 4Page 5-5
MMD-500
W# 700251
SA
SA
SA
14S0049
1 OF 4
D-500/Oct 2001
10-15-01
FMMD-500F PCB
A
B
C
D D
C
B
1345678
8 7 6 5 4 3
2
12
A
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
D
U37
18
16
14
128
6
4
2
1
74ABT244
G
A1 Y1
A2 Y2
A3 Y3
A4 Y4
U37
317
515
713
911
19
74ABT244
G
A1 Y1
A2 Y2
A3 Y3
A4 Y4
U35
74ABT245
19
18
17
16
15
14
13
12
119
8
7
6
5
4
3
2
1
G
B1A1
B2A2
B3A3
B4A4
B5A5
B6A6
B7A7
B8A8
DIR
U36
74ABT244
19
18
17
16
15
14
13
12
11 9
8
7
6
5
4
3
2
1
2G
1G
1Y11A1
1Y21A2
1Y31A3
1Y41A4
2Y12A1
2Y22A2
2Y32A3
2Y42A4
600 Industrial DriveNew Bern, NC 28562
D13SS14
0.1uF
C107
GND
.17A
POLYSW
F1
4148D14
R180
10.0K
VCC
DBTYPE1
DBTYPE0
PGMON
AUDON
AUXON
UTLON
CUEON
ON
AD[7]
AD[6]
AD[5]
AD[4]
AD[3]
AD[2]
AD[1]
AD[0]
XON
XOFF
XONA
XONB
XOFFA
XOFFB
XCOUGHA
XCOUGHB
AON
BD[0:7]
UTLPF
XDONAIRTALLY
XDCUELOGICCUEON
ONAIRTALLY
CRMUTEA
CRMUTEB
ONST1MUTE
TBTOST1MUTE
ONST2MUTE
TBTOST2MUTE
TIMERRESTARTA
TIMERRESTARTBXDTIMERRESTART
XDST2MUTE
XDST1MUTE
XDCRMUTE
REGPRE
REGSTAT1
FADERG
REGFADER
DBSCLK
CLKXB
FADERINTRDBSCLK
TOEPLD0DBTYPE1
FADERG
BXDRESETBSIGX
DBTYPE0DBSDATA
FADERRDMDLPWRUPRESET
SWRESETFRMXA
FADLOCKBOARDRESET
FADERWRDBSTAT0
DBSTAT1
DBERROR
MCLKOE
FADERCLK
XDCSA4
XDCSA5
XDCSA6
XDCSA7
XDCSA8
XDCSA9
FRMXA
SIGX
XDFRMX
BSIGX
XDRESET BXDRESET
XDDS
XDAS
BXDDS
BXDAS
BXDA11
BXDA10
XDA11
BXDA9
XDA10
BXDA8
XDA9
BXDWR
XDA8
XDWR
BXDA11
BXDA10
BXDA9
BXDA8
BXDWR
LA8
LA9
LA10
LA11
LWR
AG
XDAD7
XDAD6
XDAD5
XDAD4
XDAD3
XDAD2
XDAD1
XDAD0
AG
LA0
LA1
LA2
LA3
LA4
LA5
LA6
LA7
XDDIR
XDOE
TDO95_2
TCK95_2
TDI95_2
TMS95_2
TCK95_2
TDI95_2
TMS95_2
TDO95_2
GND
VCC
GND
VCC
DBLR
TCK95_1
TDI95_1
TMS95_1
TDO95_1
GND
VCC
GND
VCC
XDTALLY2TALLY2
XDTALLY3TALLY3
XDDIR
BD[1]
XDCSA4
LA8
BXDDS
BXDASLA2
LA7
TOEPLD0
LA1
LA0
TOEPLD1
BD[3]
REGPRE
REGFADER2
REGSTAT1
XDCSA8XDCSA9
XDCSA7
REGFADER
LWR
TDO95_1
TCK95_1
TDI95_1
TMS95_1
CLKXA
SWRESET
XDOE
LA4
AG
LA6
XDCSA5
REGSTAT2
ACCESFORME
MBOARD
XDCSA6
BD[0]
LA3
BD[2]
FADLOCK
LA5
LA9 MBOARD
TOEPLD1
COUGH
XDCLKX
CLKXA
XMCLKOE
CLKXB
DBMCLK
XTBTOCRA
XTBTOCRB
XTBTOCR
XCOUGH
XTBTOCR
XON XON
XOFF XOFF
XCOUGH
LDBOFFTALLYA
LDBONTALLYA
LDBOFFTALLYB
LDBONTALLYB
OFFCOUGH
OFFCOUGH
AON
ON
AON
BON
ON
BON
AON
ONST1MUTE
ONST2MUTE
TBTOST1MUTE
TBTOST2MUTE
ONST1MUTEA
ONST2MUTEA
ONST1MUTEB
ONST2MUTEB
TBTOST1MUTEA
TBTOST2MUTEA
TBTOST1MUTEB
TBTOST2MUTEB
DBERROR
DBSTAT1
DBSTAT0
CUEON
COUGH
DB_VCCVCC
0.1uF
C125
0.1uF
C109
0.1uF
C88
0.1uF
C60
AGND
GND
VCC
0.1uF
C126
AGND
AGND
AGND
SH UDB/25
SH UDB/11
MIC"A"
HI UDB/24
LO UDB/12
LO UDB/23
AGND
0.001uF
C117
AGND
0.001uF
C98
AGND
0.001uF
C99
AGND
R130
10.0K
R131
10.0K
R164
4.99K
10uFC115
10uFC97
AGNDR163
4.99K
330pF
C91
AGND
AGNDAGND
R133
10.0K
R132
10.0K
R108
4.99K
10uFC96
10uFC68
R109
4.99K
10uFC71
330pF
C94
AGND
AGNDAGND
R3
10
R2
10
C29100uF
100uF C66
R111
1.30K
SW12
-10dBu
-10dBu
L6-50dBu
0.001uF
C116
SW11 R
1
1.30K
C4 10uF
AGND
MIC"B"
HI UDB/10
R102
3.92K
R103
3.92K
U214053
5
9
4 3
6X_Y
INH
S
Y
X
U214053
13
11
14
126X_Y
INH
S
Y
X
AGND
GND
AGND
33pF
C67
AGND
C30 100uF
R105
40.2K
AGND
-2dBu
R107
10.0K
R100
40.2K
AGND
R104
40.2K
AGND
33pF
C70
0.1uF
C90
0.1uF
C92
0.1uF
C93
0.1uF
C95
AGND
R101
1.30K
R106
1.30K
AGND
68pF
C118
AGND
68pF
C100
AGND
HI UDB1
LO UDB14
HIUDB15
LOUDB3
AGND
SH UDB2
AGND
R110
4.99K
R49
4.99K
R48
4.99K33pF
C47
AGND
-2dBu
0.001uF
C120
AGNDAGND
0.001uF
C119 R136
10.0K
U22
4
8
7
6
5
5532
V-
+
-
V+
+40V
+40V
+40V
R165
4.99K
AGND
C31100uF
GND
120/43
0.1uF
C46
0.1uF
C69
VA+
AGND
120/59
6 PIN JSTCONNECTORPINOUTVIEWED FROMABOVE(COMPONENTSIDE)
6
5
4
3
2
1
-2dBu
74AC32IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14I1a
I2a
Oa
I1b
I2b
Ob
Oc
I1c
I2c
Od
I1d
I2d
VCC
74VHC4053NIC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
INH
VEE
VSS C
B
A
VDD1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
Xa
X_Ya
Ya
Xb
Yb X_Yb
Yc
Xc
X_Yc VIEWED FROM ABOVE(COMPONENT SIDE)
NE5532/TL072/OP-275 IC PINOUT
V-
IN-
IN+
OUT V+
IN-
IN+
OUT
8
7
6
5
1
2
3
4
SSM2017IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
RG2
GND
V+
OUT
RG1
V-
IN-
IN+
4
3
2
1
5
6
7
8
SSM2142 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
4
3
2
1
5
6
7
8OUT-
SNC- SNC+
OUT+
GND
IN V-
V+
VIEWED FROM ABOVE(COMPONENT SIDE)
4 POSITIONDIPSWITCHPINOUT
1
2
3
4 5
6
7
8
ON
ON
ON
ON1
2
3
4
AGND
SHUDB16
R138
100
120/43
U32
8
7
65
4
3
2
1
SSM2017
V-
+
V+
-L3-50dBu
SW7
SLIDESW
12
3
45
6
INSERTBYPASS
SW14
U31
1
2
3
4
5 6
7
8
SSM2017
V-
+
V+
-
U214053
2
10
15 1
6X_Y
INH
S
Y
X
U22
4
8
2
1
3
5532
V-
+
-
V+
U33
8
7
6
5
4
3
2
1
V-
+
V+
gnd
+
-
SSM2142
POLYSW1.1A
F5
.3APOLYSW
F2
.3APOLYSW
F3
POLYSW1.1A
F6
POLYSW.3A
F4
U76
5
4
74ACT32
CR2
MIC"B"GAINTRIM1
23
1K
CR1
MIC"A"GAINTRIM3
2
1
1K
3 OF 4
14S0052
W# 700251
SA
SA
SA
Page 5-5b
MMD-500 Mono Mic Input Module Schematic - Sheet 3 of 4
MMD-500
D-500/Oct 2001
10-15-01
FMMD-500F PCB
A
B
C
D D
C
B
1345678
8 7 6 5 4 3
2
12
A
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
D
V+
V-
Vdd
Vee
V+
V+
V-
V+
V-
1uF
C45
1uF
C44
100uF
C102
22uF
C114
100uF
C89
1uF
C128
1uF
C127
V+
V-
V+
V-
V+
V-
V+
V-
600 Industrial DriveNew Bern, NC 28562
5.1V
Z1C5V1
5.1V
Z2C5V1
AK5392IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
AINR+
AINR-
SDATASCLK
28
27
26
25
24
23
22
21
16
1514
13
12
11
1
2
3
4
5
6
7
8
9
10
17
18
19
20
AINL+
AINL-
CAL
VD
LRCK
VA
AGND
VREFL
GNDL
VCOML
ZCAL
AGND
RST
SMODE2
SMODE1
FSYNC
MCLK
CMODE
HPFE
TEST
BGND
VCOMR
GNDR
VREFR
R57
2.43K
R59
2.43K
AGND
J3
R63
2.43K
330pF
C57
R116
2.43K
330pF
C81
R66
2.43K
330pF
C59
R119
2.43K
330pF
C82
R135
10
R51
10
R134
10
R50
10
3900pF
C76
AGNDAGND
AGND GND
VCCVCCadc
VCCadc
J5
.1uF
C49
.1uF
C75
R55
4.99K
R54
4.99K
VCCadc
U26
8
4
5532 1
2
3
V-
+
-
V+
U265532
4
8
7
6
5
V-
+
-
V+
U275532
4
8
3
2
1
V-
+
-
V+
R114
2.21K
-2dBu
-2dBu
-2dBu
-2dBu
R60
10.0K
R64
10.0K
68
R33
68
R32
22uF C56
0.1uF
C83
0.1uF
C55
0.1uF
C51
0.1uF
C77
VCCadc VCCadc VCCadc
3900pF
C50
R117
2.21K
22uF C58
J2
U275
6
7
8
4
5532
V-
+
-
V+
2
3
1CT7
10K
6
54
CT7
10K100uF
C101
100uF
C54
1uF
C52
V+
V-
V+
V-
V+
V-
V+
V-
1uF
C53
22uF
C78
AGNDAGND
AGND AGND AGND
10uF
C72
AGND AGND
10uF
C73
2.5V
2.5V
2.5V
2.5V
2.5VR58
475
R113
475
AGND
0.1uF
C84
AGND
100uF
C80
AGND
VA+
R56
10.0K
R61
10.0K
AGND
R62
39
R65
39
R118
39
R115
39
D10SS14
D8SS14
D6SS14
D9SS14
AGND
VA+
D4SS14
D3SS14
D5SS14
D2SS14
AGND
VA+
6.2V
Z51N4735
VA+ VCCadc
AGNDAGNDAGND AGND
U25
28
27 26
25
24
23
22 21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
AK5392
VA
CAL
BGND
AGND
TEST
HPFE
CMODE
SMODE2
SMODE1
RST
ZCAL
VCOMR
VCOML
FSYNC
MCLK
GNDR
GNDL
VREFR
VREFLAINL+
AINL-
SCLK
SDATA
AINR+
AINR-
DGND
LRCK
VD
R52
4.99K
VCCadc
0.22uF
C48
AGND
AGND
0.22uF
C74
J4VCCadc
R112
4.99K
AGND
PQ05
1 2
3
Q3
OUTVIN
GND
U39
LM2940
3
2
1OUTVIN
GND
GND
Q8
3
21
PQ05
OUTVIN
GND
C5V15.1V
Z9
5.1VC5V1
Z8
5.1VC5V1Z7
C5V15.1V
Z6
5.1VC5V1Z11
C5V15.1V
Z10
C5V15.1V
Z4
5.1VC5V1Z3
L7L5
L4L2
R41
619
R42
1.00K
VCC
GND
L1
R53 68
R43 68
100uF
C32
GND
INSTA
LL
ON
E
NOTINSTALLED
PAN
NOTINSTALLEDWITHPAN POT
NOTINSTALLEDWITHPAN POT
+2.5V DC
+2.5V DC
+2.5V DC
+2.5V DC
NOTE 1: PHASE SYMBOLS DENOTE SIGNAL POLARITY
IN PHASE OUT OF PHASE
INSTALLONE
+4dBu BAL+4dBu BAL
INSERT
OUT IN
V-
V+
GND
+DIG +REGin
V+in
V-in
+40Vin+40V
MICBINLO
MICBINHI
+40A
+40B
MICAINHI
MICAINLO
AON
INSERTINHI
INSERTINLO
INSERTOUTHI
INSERTOUTLO
TBMONITORDBSDATA
DBSCLK
DBLR
RST
DBMCLK
VCOMR
VCOML
VREFR
VREFL
AGND
AGND
AGND
36/1 36/2
36/3
36/5 36/6
36/7 36/8
36/9 36/10
36/11 36/12
36/13 36/14
36/15 36/16
36/17 36/18
36/19 36/20
36/23
36/25 36/26
36/27
36/30
36/33
36/36
36/4
36/24
12 24
25
23
10
11
9 21
22
20
7
8
6 18
19
17
4
5
3 15
16
142
13
12
24
25
23 10
11
9
21
22
8
13
20 7
6
18
19
17 4
5
3
15
16
14 1
2
120/67
120/71
120/73
120/75
120/77
120/79
120/87
120/89
120/91
120/93
120/95
120/97
120/99
120/101
120/103
120/105
120/111
120/113
120/119
120/85
120/83
120/81
120/117
120/107
120/109
120/69
120/4
120/6
120/8
120/10
120/12
120/14
120/16
120/18
120/20
120/22
120/24
120/26
120/28
120/34
120/36
120/38
120/46
120/48
120/50
120/52
120/54
120/56
120/58
120/60
120/62
120/64
120/66
120/68
120/72
120/74
120/76
120/78
120/86
120/88
120/90
120/92
120/94
120/96
120/98
120/100
120/102
120/104
120/106
120/110
120/112
120/114
120/118
120/44
120/84
120/42
120/82
120/40
120/80
120/120
120/108
120/70
120/32
120/30
120/2
120/3
120/5
120/7
120/9
120/11
120/13
120/15
120/17
120/19
120/21
120/23
120/25
120/27
120/29
120/31
120/35
120/51
120/53
120/55
120/57
120/59
120/63
120/65
120/33
120/61
120/1
120/37
120/39
120/47
120/49
120/45
120/43
120/41
36/22
36/28
36/32
36/34
36/21
36/29
36/31
36/35
1
120/116120/115
CT11
1 2
3 4
5 6
7 8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
81 82
83 84
85 86
87 88
89 90
91 92
93 94
95 96
97 98
99 100
101 102
103 104
105 106
107 108
109 110
111 112
113 114
115 116
117 118
119 120
CT10
3635
3433
3231
3029
2827
2625
2423
2221
2019
1817
1615
1413
1211
109
87
65
43
21
AGND
600 Industrial DriveNew Bern, NC 28562
600 Industrial DriveNew Bern, NC 28562
1 OF 1
_14S0059
W# 700251
SA
SA
SA
MMD-500 PCB
MMD-500
MMD-500 Mono Mic Input Module PinoutPage 1-1D-500/Oct 2001
10-15-01
1
2
3
4 4
3
2
1
A C D
DCBA
B
C
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
4 OF 4
14S0051
W# 700251
SA
SA
SA
MMD-500
MMD-500 Mono Mic Input Module Schematic - Sheet 4 of 4 Page 1-1D-500/Oct 2001
10-15-01
FMMD-500F PCB
1
2
3
4 4
3
2
1
A C D
DCBA
B
C
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
24
25
23
22
21
20
19
18
17
16
15
14
13
12
11
10
6
9
8
7
1
2
3
4
5
24
25
23
22
21
20
19
18
17
16
15
14
13
12
11
10
6
9
8
7
1
2
3
4
5
LOWERDB-25
LOWERDB-25
LOWERDB-25
UPPERDB-25
UPPERDB-25
LOWERDB-25
CONNECTORS BUSS CHART
36 PIN EDGE CONNECTOR
120 PIN EDGE CONNECTOR
DB Connector PinoutsDB Connector Pinouts
MMD-500 ANALOG INPUTS
(Upper DB-25)(Upper DB-25)
AUDIO COMMON
AUDIO COMMON
(Lower DB-25)(Lower DB-25)
I/O PORTSI/O PORTSI/O PORTSI/O PORTSI/O PORTSI/O PORTS
LOGICLOGICLOGICLOGICLOGICLOGIC
I/O PORTSI/O PORTSI/O PORTSI/O PORTSI/O PORTSI/O PORTS
ANALOGANALOGANALOGANALOGANALOGANALOG
MIC 2 IN SH
MIC 2 IN HI
MIC 1 IN HI
MIC 2 IN LO
MIC 1 IN LOMIC 1 IN SH
AGNDN/C
N/CAGND
N/CN/C
N/CAGND
N/C
N/C
N/C
AGND
INSERT OUT SHINSERT OUT LO
INSERT OUT HI
INSERT IN HI
INSERT IN SHINSERT IN LO
N/C
N/C
N/C
N/C
REMOTE ON "B"
ON TALLY "B"
TB TO CR "B"
DIGITAL GND
REMOTE ON "A"REMOTE OFF "A"
ON TALLY "A"
DIGITAL GND
+5V DIGITAL
REMOTE OFF "B"
OFF TALLY "B"
COUGH "B"
+5V DIGITAL
OFF TALLY "A"TB TO CR "A"
COUGH "A"
DIGITAL GNDDIGITAL GND
N/C
N/C
AGND
MICAINLO MICAINHI
AGND MICBINLO
MICBINHI AGND
36BUSPIN9 36BUSPIN10
AGND 36BUSPIN12
36BUSPIN13 AGND
AGND
AGND
AGND
36BUSPIN15 36BUSPIN16
36BUSPIN18
36BUSPIN19
AGND
36BUSPIN27
DB_VCC
LDBONB
LDBOFFTALLYB
AGND
INSERTINLO
INSERTINHI
120BUSPIN3 120BUSPIN4
LDBSTTOSTTBA DB_VCC
GND
LDBONA
GND
LDBOFFA
LDBONTALLYA LDBOFFTALLYA
LDBTBTOCRA LDBCOUGHA
XDSPPGM XDSPAUD
XDSPAUX XDSPUTL
PGMLTMONITOR AGND
PGMRTMONITOR AGND
AUDLTMONITOR AGND
AUDRTMONITOR AGND
AUXLTMONITOR AGND
AUXRTMONITOR
UTLLTMONITOR AGND
UTLRTMONITOR AGND
CUELTMONITOR AGND
CUERTMONITOR AGND
TEL12MONITOR AGND
TEL34MONITOR AGND
TBMONITOR AGND
ICMCUE AGND
XDCUELOGIC XDCRMUTE
XDST1MUTE XDST2MUTE
XDTIMERRESTART XDONAIRTALLY
XDTALLY2 XDTALLY3
V+in V+in
+40Vin
V-in V-in
GND
GND
TEL12_34
XDRESET TEL34_12
XDBUSIN GND
XDFRMOUT GND
XDTDMOUT1 GND
XDTDMOUT2 GND
XDSEROUT GND
XDSERCLK GND
XDSERFRM GND
XDSERIN GND
XDDINT GND
SIGX GND
GND
GND
GND
XDCSA7
GND
XDFRMX
XDCLKX
XDCSA8 XDCSA9
GND GND
+DIG+DIG
+DIG+DIG
XDCSA4 XDCSA5
XDCSA6
XDA9
XDAD3
XDAD0
XDAD1 XDAD2
XDAD4
XDAD5 XDAD6
XDAD7 XDA8
XDWR
GND XDDS
XDAS
GND
GND
AGND
LDBTBTOCRB LDBCOUGHB
INSERTOUTHIINSERTOUTLO
GNDGND
LDBSTTOSTTBB
LDBONTALLYB
LDBOFFB
36BUSPIN28
120BUSPIN115 120BUSPIN116
C73
0.1uF
C67
0.1uF
C57
0.1uF 0.1uF
C44
116
125 U29
OPTO1 152
161 U29
OPTO1
9
10 7
8
U30
OPTO1
116
125 U30
OPTO1
134
143 U30
OPTO1
15
16 1
2
U30
OPTO1 220
R125
9
10 7
8
U31
OPTO1
116
125 U31
OPTO1
134
143 U31
OPTO1
VCC
220
R131
GND
475
R127
GND
475
R133
VCC
GND
475
R128
GND
475
R134
220
R136
VCC
220
R130
VCC
GND
475
R122
GND
475
R118
GND
220
R120
VCC
4.99K
R124
C60
0.1uF 4.99K
R121
C65
0.1uF 4.99K
R135
C64
0.1uF 4.99K
R132 C62
0.1uF 4.99K
R126
4.99K
R129
C59
0.1uF 4.99K
R119
40.2K
R59
VCC
40.2K
R56
VCC
40.2K
R57
VCC
40.2K
R58
VCC
U13
89
74AC14
U13
1011
74AC14
U13
3 4
74AC14
U13
1213
74AC14
U13
65
74AC14
U14
74AC14
1 2
U14
43
74AC14
U14
11 10
74AC14
R8
220
R9
220
R10
220
R11
220
C21
0.1uF
GND
C19
0.1uF
GND
C18
0.1uF
GND
C16
0.1uF
GND
GND
VCC
R6
10.0K
VCC
U14
74AC14
5 6
U14
9 8
74AC14
R7
4.99K
VCC
GND
VCC
GND
C20
0.1uF
C17
0.1uF
20.0K
R97
VCC
20.0K
R98
VCC
98
107 U29
OPTO1
C61
0.1uF
475
R123
GND
SS14 D3
10.0K
R93
VCC
GND
220
R150
332
R151
GND
VCC
39
R144
39
R149
39
R143
GNDGND
1.0M
R79
SS14 D5
GND
VCC
SS14 D4
10.0K
R92
VCC
15
16 1
2
U31
OPTO1
C63
0.1uF
SW2
Phone Energize DIPSW:DIPSW POS 1- PGMDIPSW POS 2- AUDDIPSW POS 3- AUXDIPSW POS 4- UTL
1
2
3
4
U13
21
74AC14
2
3
4
6
79
10
11
12
13
14
15
17
18
19
U36
49FCT805
OEB
INB
INA
OEA
OA1
OA2
OA3
OA4
OA5
OB1
OB2
OB3
OB4
OB5
MON
F4
1.1A
POLYSW
F2
.3A
POLYSW
F3
.3A
POLYSW
F5
POLYSW
1.1A
U14
13 12
74AC14
14
13
3
4
U29
OPTO1
SW7
AGND
C72
22uF
C58
100uF
C75
1uF
C74
1uF
D1
4148
C26
100uF
C47
22uF
600 Industrial DriveNew Bern, NC 28562
14S0024H
W# 700219 SLD-500H PCB
8-6-01
D-500/Aug 2001
SLD-500
SA
Page 5-5bSLD-500 Stereo Line Input Module Schematic - Sheet 3 of 4
3 OF 4
D
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
SS14 D2
C51
0.1uF
GND
.17A
POLYSW
F1
U37
LM2940
3
2
1OUTVIN
GND
GND
Q3
3
21
PQ05
OUTVIN
GND
C5022uF
C52 0.1uF
C53 0.22uF
100R94
100R95
INSTALLONE
INSTA
LL
ON
E
OPTIONALEXTERNALON/OFFPULSE-CONSTANTSWITCH
V+in
V-in V-
V+
GND
+DIG
LDBREADYA
LDBSTOPA
LDBOFFA
LDBONA
LDBSTARTA
LDBREADYB
LDBSTOPB
LDBOFFB
LDBONB
LDBSTARTB
XSTARTBLDBS/SBXSTARTA
XEXONBLDBONBXEXONALDBONA
LDBS/SA
XEXOFFBLDBOFFBXEXOFFALDBOFFA
XSTOPALDBS/SA XSTOPBLDBS/SB
XEXREADYALDBREADYA XEXREADYBLDBREADYB
XSEQIN
LDBSEQIN
LDBSEQIN
XSEQOUT
LDBSEQOUT
LDBSEQOUT
XDSPPGM
XDSPAUD
XDSPAUX
XDSPUTL
PHONEPGM
PHONEAUD
PHONEAUX
PHONEUTL
MDLPWRUPRESET
XON
XOFFXPOFF
XDCLKX
CLKXA
XMCLKOE
CLKXB
DBMCLK
XDBUSIN
XPON
DB_VCCVCC
+REGin
36/2
36/4
36/5
36/6
36/7
36/9
36/10
36/11
36/12
36/13
36/14
36/3
CT11
2
3
4
5
6
7
8
9
10
11
12
13
14
1
36/8
36/1
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
12
24
25
23
10
11
9
21
22
20
7
8
19
13
36/1 36/2
36/3
36/5 36/6
36/7 36/8
36/9 36/10
36/11 36/12
36/13 36/14
36/15 36/16
36/17 36/18
36/19 36/20
36/23
36/25 36/26
36/27
36/30
36/33
36/36
36/4
36/24
12 24
25
23
10
11
9 21
22
20
7
8
6 18
19
17
4
5
3 15
16
142
13
12
24
25
23 10
11
9
21
22
8
13
20 7
6
18
19
17 4
5
3
15
16
14 1
2
120/67
120/71
120/73
120/75
120/77
120/79
120/87
120/89
120/91
120/93
120/95
120/97
120/99
120/101
120/103
120/105
120/111
120/113
120/119
120/85
120/83
120/81
120/117
120/107
120/109
120/69
120/4
120/6
120/8
120/10
120/12
120/14
120/16
120/18
120/20
120/22
120/24
120/26
120/28
120/34
120/36
120/38
120/46
120/48
120/50
120/52
120/54
120/56
120/58
120/60
120/62
120/64
120/66
120/68
120/72
120/74
120/76
120/78
120/86
120/88
120/90
120/92
120/94
120/96
120/98
120/100
120/102
120/104
120/106
120/110
120/112
120/114
120/118
120/44
120/84
120/42
120/82
120/40
120/80
120/120
120/108
120/70
120/32
120/30
120/2
120/3
120/5
120/7
120/9
120/11
120/13
120/15
120/17
120/19
120/21
120/23
120/25
120/27
120/29
120/31
120/35
120/51
120/53
120/55
120/57
120/59
120/63
120/65
120/33
120/61
120/1
120/37
120/39
120/47
120/49
120/45
120/43
120/41
36/22
36/28
36/32
36/34
36/21
36/29
36/31
36/35
1
120/116120/115
1 2
3 4
5 6
7 8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
81 82
83 84
85 86
87 88
89 90
91 92
93 94
95 96
97 98
99 100
101 102
103 104
105 106
107 108
109 110
111 112
113 114
115 116
117 118
119 120
CT13
3635
3433
3231
3029
2827
2625
2423
2221
2019
1817
1615
1413
1211
109
87
65
43
21
CT12
600 Industrial DriveNew Bern, NC 28562
4 OF 4
SLD-500 Stereo Line Input Module Schematic - Sheet 4 of 4
SA
_
Page 5-5b
SLD-500
D-500/Aug 2001
8-6-01
SLD-500H PCBW# 700219
14S0023HREVSIZE
SCALE
FSCM NO. DWG. NO.
SHEET
CONTRACT NO.
APPROVALS DATE
DRAWN
CHECKED
ISSUED C
1234
4 3 2 1
A
C
DD
C
B
A
B
UPPERDB-25
LOWERDB-25
LOWERDB-25
LOWERDB-25
120 PIN EDGE CONNECTOR36 PIN EDGE CONNECTORUPPERDB-25
UPPERDB-25
LOWERDB-25
CONNECTORS BUSS CHART
AGND
XSHALT
XLOALT
XHIALT
XSHART
XLOART
XHIART
AGND
XLOBLT
XHIBLT
AGND
XLOBRT
XHIBRT
AGND
XSHALT
XLOALT XHIALT
XSHART XLOART
XHIART AGND
XLOBLT XHIBLT
AGND XLOBRT
XHIBRT AGND
GND
GND
AGND
36BUSPIN15 36BUSPIN16
36BUSPIN18
36BUSPIN19
AGND
LDBSEQOUT
GND
LDBSEQIN
LDBSTARTB
DB_VCC
36BUSPIN24
UDBTRANSMITB
LDBOFFB LDBS/SB
LDBOFFB LDBS/SA
LDBSTOPA
LDBOFFA
LDBOFFA
LDBSTARTA
LDBONA LDBREADYA
LDBONA LDBREADYA
XDSPPGM XDSPAUD
XDSPAUX XDSPUTL
PGMLTMONITOR AGND
PGMRTMONITOR AGND
AUDLTMONITOR AGND
AUDRTMONITOR AGND
AUXLTMONITOR AGND
AUXRTMONITOR
UTLLTMONITOR AGND
UTLRTMONITOR AGND
CUELTMONITOR AGND
CUERTMONITOR AGND
TEL12MONITOR AGND
TEL34MONITOR AGND
TBMONITOR AGND
ICMCUE AGND
XDCUELOGIC XDCRMUTE
XDST1MUTE XDST2MUTE
XDTIMERRESTART XDONAIRTALLY
XDTALLY2 XDTALLY3
V+in V+in
+40Vin
V-in V-in
GND
GND
TEL12_34
XDRESET TEL34_12
XDBUSIN GND
XDFRMOUT GND
XDTDMOUT1 GND
XDTDMOUT2 GND
XDSEROUT GND
XDSERCLK GND
XDSERFRM GND
XDSERIN GND
XDDINT GND
SIGX GND
GND
GND
GND
XDCSA7
GND
XDFRMX
XDCLKX
XDCSA8 XDCSA9
GND GND
+DIG+DIG
+DIG+DIG
XDCSA4 XDCSA5
XDCSA6
XDA9
XDAD3
XDAD0
XDAD1 XDAD2
XDAD4
XDAD5 XDAD6
XDAD7 XDA8
XDWR
GND XDDS
XDAS
GND
GND
AGND
LDBONB LDBSTOPB
UDBTRANSMITA36BUSPIN21
LDBREADYBLDBSEQIN
LDBSEQOUT
LDBONB
LDBREADYB
LDBONTALLY
120BUSPIN115 120BUSPIN116
220
R14
220
R15
220
R4
220
R3
4.99K
R7
GND
4.99K
R8
GND
0.01uF
C11
GND
4.99K
R26
VCC
GND
4.99K
R25
VCC
J8
GND
1K
R9
0.1uF
C7
0.1uF
C5
GND
4.99K
R10
VCC
4.99K
R11
VCC
4.99K
R12
VCC
4.99K
R13
VCC
220
R1
VCC
VCC
GND
0.1uF
C2
GND
VCC
0.1uF
C4
GND
VCC
0.1uF
C3
GND
VCC
VCC
GND
AGND
AGND
AGND
AGND
GND
VCC
VCC
J9
GND
4.99K
R21
VCC
4.99K
R22
VCC
4.99K
R23
VCC
4.99K
R24
VCC
4.99K
R17
VCC
4.99K
R18
VCC
4.99K
R19
VCC
4
3
2
1
SW3
4
3
2
1
SW2
4.99K
R20
VCC
0.1uF
C9
GND
VCC
GND
J10
VCC
GND
J11
VCC
4.99K
R6
VCC
U113
12
11
74ACT02
J3
GND
J1
J2
GND
AGND
CT1
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
CT2
1
14
13
12
11
10
9
8
7
6
5
4
3
2
0.1uF
C8
GND
VCC
220
R2
J7
16.384MHz
OSCILLATOR
31
Y1
OUTE/D
U16
54
74ACT02
J5AM26C32A
1
2
3
4
5
6
7
9
10
11
12
1314
15
U2
EN
A+
A-
B+
OUTAB-
OUTBC+
OUTCC-
OUTDD+
D-
EN
74ACT157
1
2
3
4
5
6
7
9
10
11
1213
14
15
U3
4B
4A 4Y
3B 3Y
3A 2Y
2B 1Y
2A
1B
1A
A/B
G
U13
21
74ACT02
4
3
2
1
SW1
26
25
24
23
19
18
17
1615
13
12
11
10
6
5
4
3
2
1
28
U5
SETLSLW
MUTE_I
RESET
MCLK
GPDLYS
MUTE_O
TRGLR_O
MSBDLY_O
BKPOL_O
MSBDLY_I
TRGLR_I
BKPOL_I
LR_O
WCLK_O
BCLK_O DATA_O
LR_I
WCLK_I
BCLK_I
DATA_I
AD1890
U110
9
8
74ACT02
12
24
25
23
10
11
9
21
22
20
7
8
19
13
CS8412
1
2
3
4
5
6
7
8
9
10 11
12
13
14
15
16
17
18
20
21
22
23
24
25
26
27
28
19
U4
C
U
VERF
Ca/E1
Cb/E2
Cc/F0
Cd/F1
C0/E0
CBL
ERF
FSYNC
SCK
SDATA
FILT
VD+
DGND
Ce/F2
MCK
SEL
RXP
RXN
FCK
M0
M1
M2
M3
AGND
VA+
1 OF 1
14S0027
W# 700252
SA
SA
SA
SRC-500
SLD-500 Input Module Schematic - Sheet 7 of 7Page 7-7D-500/Jan 2002
1-24-02
SRC-500C PCB
C
A
B
C
D D
C
B
1345678
8 7 6 5 4 3
2
12
A
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
D
600 Industrial DriveNew Bern, NC 28562
J6
220
R16
J4
220
R5
1
3 4
T2
6
3
1
T1
4
6
0.1uFC10
0.1uFC1
0.01uFC6
V+
V-
+40Vin
INSTALLFOR 75 OHM
INSTALLFOR 75 OHMUPPER
DB-25
DBAESPA
DBAESNA
DBAESNB
DBAESPB
AON
DBSTAT1
DBSTAT0
DBERROR
RESET
DBTYPE0
V+
V-
DBTYPE1
DBSDATA
DBSCLK
DBL/R
DBMCLK
C3
0.1uF
4.99K
R26
J3
220
R27
GND
220
R31
VCC
GND
0.1uF
C23
0.1uF
C8
0.1uF
C11
AGND
AGND
AGND
AGND
AGND
+40Vin
AGND
AGND
AGND
AGND
AGND
AGND
0.001uF
C47
AGND
0.001uF
C48
AGND
0.001uF
C40
AGND
0.001uF
C41
AGND
0.001uF
C35
AGND
0.001uF
C36
AGND
0.001uF
C26
AGND
0.001uF
C27
AGND
SSM2143
1
2
3
4
5
6
7
U10
V+
-
+
V-
U5SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
U6VHC4053
13
11
14
126X
Y
S
INH
X_Y
AGND
4.99K
R35
4.99K
R32
22uF C49
4.99K
R30
4.99K
R21
22uF C32
22uF C17
U1
8
4
5532 1
2
3
V+
-
+
V-
2.43K
R5
C2
330pF
2.43K
R10
C6
330pF
220
R3
2.43K
R8
C4
330pF
2.43K
R12
C9
330pF
220
R6
10R23
10R14
10R22
10R13
3900pF
C30
3900pF
C14
.1uF
C28
AGND
AGND
VA+
VA+
AGND
4.99K
R28
4.99K
R33
4.99K
R34
U6VHC4053
6
34
9
5X
Y
S
INH
X_Y
0.1uF
C46
0.1uF
C31
0.1uF
C37
0.1uF
C15
1.30K
R1
1.30K
R9
AGND GND
U71011
74AC14
U73 4
74AC14
4.99K
R29
0.1uF
C38
L1
FERR
VCC
VCC
2
3
AGND
AGND
AGND
AGND
VCCadc
VCCadc
VCCadc VCCadc
VCCadc
7
4.99K
R25
.1uF
C16
VCCadc
U15532
4
8
7
6
5
V+
-
+
V-
CR1
10K
LINELT TRIM
1
2
3
CR2
10K
LINERT TRIM
3
2
1
VHC4053
5
9
4 3
6
U8
X
Y
S
INH
X_Y
CT1
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
CT2
1
14
13
12
11
10
9
8
7
6
5
4
3
2
SSM2143 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
N/C
SENCE
REF 8
7
6
5
1
2
3
4
IN+
IN-
V-
OUT
V+
NE5532IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
4
3
2
1
5
6
7
8
OUT
IN+
IN-
V+OUT
IN+
IN-
V-
74VHC4053IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
X_Yc
Xc
Yc
X_YbYb
Xb
Ya
X_Ya
Xa
16
15
14
13
12
11
10
98
7
6
5
4
3
2
1 VDD
A
B
CVSS
VEE
INH
74AC14IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VCC
Od
Ob
Oa
14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
O2c
Oe
Ie
Ic
Ia
Ib
Id
Of
If
74AC08IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VCC
I2d
I1d
Od
I2c
I1c
Oc
Ob
I2b
I1b
Oa
I2a
I1a 14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
0.1uF
C33
VCCadc
AGND
U71213
74AC14
U11SSM2143
1
2
3
4
5
6
7
V+
-
+
V-
VHC4053
6 12
14
11
13
U8
X
Y
S
INH
X_Y
22uF C39
J2
1211
13 U9
74ACT08
J4
8
U721
74AC14
U25532
4
8
3
2
1
V+
-
+
V-
U3SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
46
5 U9
74ACT08
U765
74AC14
10uF
C21
D74148
100uF
C42
1uF
C24
22uF
C25
Z2C5V1
Z1C5V1
100uF
C43
100uF
C44
100uF
C45
1uF
C12 C1
1uF
1uF
C5
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
Vdd
Vee
V+
V-
V+
V-
12
24
25
23
10
11
9
21
22
20
7
8
19
13
-14dBu
-2dBu
-2dBu
-2dBu
-2dBu
-14dBu
-14dBu
-14dBu
AGNDAGND
100uF
C34
D104148
D114148
AGND
10uF
C22
AGND
2.5V
U25
6
7
8
4
5532
V+
-
+
V-
2.5V
2.5V
2.5V
2.5V
475
R20
475
R19
AGND
0.1uF
C10
AGND
100uF
C20
AGND
0.1uF
C7
AGND
100uF C18
100uF C19
40.2K
R18
AGND
40.2K
R17
AGND
AGND
8
VHC4053
LINE1/LINE2SELECT
2
10
15 1
6
U8 GND
X
Y
S
INH
X_Y
AGND
U6
VHC4053
6
115
10
2
8GND
X
Y
S
INH
X_Y
U77
14
89
74AC14
AGND
AGND
AGND
AGND AGND
AGND AGND AGND AGND AGND
VCCadc VCCadc
VCCadc
VCCadc
VCCadcVCCadc
VCCadc VCCadc
VCCadc
12-1-99
D-600/Dec 1999
14S10XX
W# 700560
SLADC-600
SLD-600 Input Module Schematic - Sheet 6 of 6
SA
Page 5-5
1 OF 1SLADC-600 PCB
D
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
600 Industrial DriveNew Bern, NC 28562
40.2K
R15
AGND
AK5392
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2122
23
24
25
2627
28
U4
VD
LRCK
DGND
AINR-
AINR+
SDATA
SCLK
AINL-
AINL+ VREFL
VREFR
GNDL
GNDR
MCLK
FSYNC
VCOML
VCOMR
ZCAL
RST
SMODE1
SMODE2
CMODE
HPFE
TEST
AGND
BGND
CAL
VA
4.99K
R16
VCCadc
0.22uF
C13
AGND
AGND
0.22uF
C29
4.99K
R24
AGND
J1VCCadc
D8SS14
D6SS14
D9SS14
D5SS14
AGND
VA+
D2SS14
D3SS14
D1SS14
D4SS14
AGND
VA+
Z31N4735
39
R4
39
R7
39
R11
39
R2
U93
2
1
7
14
74ACT08
AGND
VCCadc
U98
10
9
74ACT08
VIEWED FROM ABOVE(COMPONENT SIDE)
AK5392IC PINOUT
VREFR
GNDR
VCOMR
BGND
TEST
HPFE
CMODE
MCLK
FSYNC
SMODE1
SMODE2
RST
AGND
ZCAL
VCOML
GNDL
VREFL
AGND
VA
LRCK
VD
CAL
AINL-
AINL+
20
19
18
17
10
9
8
7
6
5
4
3
2
1
11
12
13
14 15
16
21
22
23
24
25
26
27
28
SCLK SDATA
AINR-
AINR+
Q1
3
21
PQ05
GND
VIN OUT
+2.5
V D
C
0V
DC
0V DC
+2.5
V D
C
+2.5V DC
+2.5V DC
+2.5V DC
+2.5V DC
LINE 1 LT LO
LINE 1 RT SH
LINE 1 RT HI
LINE 2 LT LO
LINE 2 RT SH
LINE 2 RT HI
LINE 2 RT LO
LINE 2 LT HI
LINE 2 LT SH
LINE 1 RT LO
LINE 1 LT HI
LINE 1 LT SH
+4dBu BAL
+4dBu BAL
+4dBu BAL
+4dBu BAL
OUT OF PHASEIN PHASE
NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY
UPPERDB-25
NOTINSTALLED
LINE1LTHI
LINE1RTLO
V+
V-
LINE1LTLO
LINE2LTHI
LINE2LTLO
LINE2RTHI
LINE2RTLO
LINE1RTHI
DBTYPE0
DBTYPE1
DBSDATA
AON
RESET
DBL/R
DBSCLK
DBMCLK
VREFR
VREFL
VCOMR
VCOML
600 Industrial DriveNew Bern, NC 28562
OMD-5006-19-00
SA
SA
SA
14S00292 OF 4OMD-500H PCBW# 700226
OMD-500 Output Module Schematic - Sheet 2 of 4Page 5-5D-500/Jun 2000
H
CHECKED
ISSUED
DRAWN
CONTRACT NO.
APPROVALS DATE
SCALE SHEETD
REVDWG. NO.FSCM NO.SIZE
8 7 6 5 4 3 2 1
12345678
A
B
C
D D
C
B
A
600 Industrial DriveNew Bern, NC 28562
OMD-5006-19-00
SA
SA
SA
14S00562 OF 2OMD-500 PCBW# 700226
OMD-500 Output Module #3 PinoutD-500/Jun 2000
-
Page
REV
SHEET
DWG. NO.FSCM NO.
SCALEC
SIZE
DATE
ISSUED
CHECKED
DRAWNAPPROVALS
CONTRACT NO.
A B C D
11
2 2
33
4
A B C
4
D
600 Industrial DriveNew Bern, NC 28562
H
OMD-5006-19-00
SA
SA
SA
14S00304 OF 4OMD-500H PCBW# 700226
OMD-500 Output Module Schematic - Sheet 4 of 4D-500/Jun 2000 Page
REV
SHEET
DWG. NO.FSCM NO.
SCALEC
SIZE
DATE
ISSUED
CHECKED
DRAWNAPPROVALS
CONTRACT NO.
A B C D
11
2 2
33
4
A B C
4
D
N/CN/C
N/C
N/CN/CN/CN/CN/C
"SEND1_1" AES/SP DIF OUT LO"SEND2_1" AES/SP DIF OUT HI"SEND2_1" AES/SP DIF OUT SH
"SEND1_3" AES/SP DIF OUT SH"SEND1_3" AES/SP DIF OUT HI
"SEND2_2" AES/SP DIF OUT LO"SEND2_2" AES/SP DIF OUT SH"SEND2_2" AES/SP DIF OUT HI"SEND1_3" AES/SP DIF OUT LO
"SEND2_1" AES/SP DIF OUT LO"SEND1_1" AES/SP DIF OUT SH"SEND1_1" AES/SP DIF OUT HI
N/CN/CN/CN/C
N/C
AUDIO COMMON
"SEND1" LT INSERT IN LO
"SEND1" RT INSERT IN HI"SEND1" RT INSERT IN SH
"SEND1" LT INSERT OUT LO
"SEND1" RT INSERT OUT HI"SEND1" RT INSERT OUT SH
"SEND1" RT OUT SH"SEND1" RT OUT HI
"SEND1" LT OUT LO
"SEND2" RT OUT SH"SEND2" RT OUT HI
"SEND2" LT OUT LO
"SEND1" LT INSERT IN HI"SEND1" LT INSERT IN SH
"SEND1" RT INSERT IN LO
"SEND1" LT INSERT OUT HI"SEND1" LT INSERT OUT SH
"SEND1" RT INSERT OUT LO
"SEND1" RT OUT LO
"SEND1" LT OUT SH"SEND1" LT OUT HI
"SEND2" RT OUT LO
"SEND2" LT OUT SH"SEND2" LT OUT HI
I/O PORTS
DIGITAL(Lower DB-25)
ANALOG
I/O PORTS(Upper DB-25)
OMD-500 #3 SEND 1-2DB Connector Pinouts
120/19
22uFC114
22uFC115
4.99K
R78
4.99K
R79
120/23
120/25
22uFC116
22uFC117
4.99K
R80
4.99K
R81
AGND
4.99K
R91
AGND
4.99K
R49
20.0K
R57
4.99K
R56
120/27
120/29
120/31
120/33
22uFC118
4.99K
R82
22uFC119
4.99K
R83
22uFC120
4.99K
R84
22uFC1214.99K
R85
AGND
0.1uF
C98
0.1uF
C104
0.1uF
C110
0.1uF
C97
0.1uF
C103
0.1uF
C109
0.1uF
C112
0.1uF
C111
AGND
120/3
120/5
120/4
AGND
AGND
120/6
120/8
120/7
AGND
AGND
120/9
120/11
120/10
AGND
AGND
120/12
120/14
120/13
AGND
22uFC126
4.99K
R86
22uFC127
4.99K
R87
22uFC128
22uFC113
4.99K
R89
0.1uF
C77
0.1uF
C66
AGND
3
1
2
4
8
-2dBu
NE5532U31
V+
-
+
V-
5
7
6
4
8
-2dBu
NE5532U31
V+
-
+
V-
3
1
2
-2dBu
-14dBu
LT10K
CRLEVEL
CT3
AGND
AGND
22uFC50
22uFC49
AGND
33pF
C75
AGND
33pF
C65
3
2
1
8
4
5532
-2dBu
U20
V+
-
+
V-
5
6
7
8
4
5532
-2dBu
U20
V+
-
+
V-
+4dBu BAL
CROUT
UDB/636/15 LO
UDB/1836/16 HI
+4dBu BAL36/18 UDB/17 LO
UDB/436/19 HI
2.00K
R55
2.00K
R103
10.0K
R16
10.0K
R15
GND
AGND
68pF
C106
AGND
68pF
C105
AGND
AGND
68pF
C108
AGND
68pF
C107
AGND
AGND
10pF
C29
40.2K
R14
AGND
10pF
C28
40.2K
R13
NE5532
-2dBu8
4
6
7
5U17
V+
-
+
V-
10.0K
R8
10.0K
R7
10pF
C21
10.0K
R10
10pF
C20
10.0K
R9
3
1
2
4
8-2dBu
NE5532U15
V+
-
+
V-
5
7
6
4
8-2dBu
NE5532U15
V+
-
+
V-
AGND
10pF
C24
40.2K
R11
AGND
10pF
C25
10.0K
R12
3
1
2
4
8-2dBu
NE5532U16
V+
-
+
V-
5
7
6
4
8-2dBu
NE5532U16
V+
-
+
V-
20.0K
R18
20.0K
R17
20.0K
R6
20.0K
R5
100uF C46
100uF C48
100uF C51
100uF C47
100uF C45
100uF C44
100uFC1
100uFC30
AGND
20.0K
R58
20.0K
R59
20.0K
R61
4.99K
R60
AGND
4.99K
R67
4.99K
R66
AGND
4.99K
R68
4.99K
R69
4.99K
R71
4.99K
R70
AGND
20.0K
R62
20.0K
R65
4.99K
R73
4.99K
R74
20.0K
R63
20.0K
R64
2
1
10
15
6
4053U21
X
Y
S
INH
X_Y
12
13
11
14
4053
6
U21
X
Y
S
INH
X_Y
9
4
5
3
4053
6
U21
X
Y
S
INH
X_Y
4053
6
15
10
1
2
U22
X
Y
S
INH
X_Y
6
4053
3
5
4
9 U22
X
Y
S
INH
X_Y
6
4053
14
11
13
12
U22
X
Y
S
INH
X_Y
2
1
10
15
6
4053
U27
X
Y
S
INH
X_Y
12
13
11
14
4053
6
U27
X
Y
S
INH
X_Y
9
4
5
3
4053
6
U27
X
Y
S
INH
X_Y
9
3
5
4
4053
6
U28
X
Y
S
INH
X_Y
12
13
11
14
6
4053
U28
X
Y
S
INH
X_Y
10
1
2
15
6
4053
U28
X
Y
S
INH
X_Y
10
1
2
15
4053
6
U29
X
Y
S
INH
X_Y
6
4053
4
9
3
5
U29
X
Y
S
INH
X_Y
6
4053
15
10
1
2
U30
X
Y
S
INH
X_Y
11
14
12
13
6
4053
U30
X
Y
S
INH
X_Y
4053
6
4
9
3
5
U30
X
Y
S
INH
X_Y
11
13
12
14
4053
6
U29
X
Y
S
INH
X_Y
2
1
10
15
6
4053U23
X
Y
S
INH
X_Y
9
4
5
3
4053
6
U23
X
Y
S
INH
X_Y
12
13
11
14
4053
6
U23
X
Y
S
INH
X_Y
4053
6
15
10
1
2
U24
X
Y
S
INH
X_Y
6
4053
14
11
13
12
U24
X
Y
S
INH
X_Y
6
4053
3
5
4
9 U24
X
Y
S
INH
X_Y
2
1
10
15
6
4053U25
X
Y
S
INH
X_Y
9
4
5
3
4053
6
U25
X
Y
S
INH
X_Y
12
13
11
14
4053
6
U25
X
Y
S
INH
X_Y
4053
6
15
10
1
2
U26
X
Y
S
INH
X_Y
6
4053
14
11
13
12
U26
X
Y
S
INH
X_Y
4.99K
R72
4.99K
R75
AGND
100uFC63
100uFC64
AGND
40.2K
R54
AGND
40.2K
R104
AGND
33pF
C73
AGND
33pF
C61
-2dBu
5532
4
8
1
2
3U19
V+
-
+
V-
-2dBu
5532
4
8
7
6
5U19
V+
-
+
V-
+4dBu BAL
HDPNOUT
LOUDB/936/9
HIUDB/2136/10
+4dBu BALLO36/12 UDB/20
HIUDB/736/13
4.99K
R53
4.99K
R101
AGND
68pF
C100
AGND
68pF
C99
AGND
AGND
68pF
C102
AGND
68pF
C101
AGND
100uFC59
100uFC60
AGND
40.2K
R52
AGND
40.2K
R102
AGND
33pF
C71
AGND
33pF
C57
3
2
1
8
4
5532
-2dBu
U18
V+
-
+
V-
LO+4dBu BAL
CUEOUT
36/3 UDB/12
HI36/4 UDB/24
LO+4dBu BAL
36/6 UDB/23
HI36/7 UDB/10
4.99K
R51
4.99K
R99
AGND
68pF
C94
AGND
68pF
C93
AGND
AGND
68pF
C95
AGND
100uFC55
100uFC56
AGND
40.2K
R50
AGND
SHUDB/1936/17
AGND
SH36/20 UDB/5
AGND
SHUDB/2236/11
AGND
SH36/14 UDB/8
AGND
UDB/19 SH36/5
AGND
AGND
4.99K
R76
4.99K
R77
0.1uF
C23
0.1uF
C22
0.1uF
C72
0.1uF
C54
0.1uF
C74
0.1uF
C58
0.1uF
C76
0.1uF
C62
0.1uF
C27
0.1uF
C26
AGND
.3APOLYSW
F30.1uF
C68
0.1uF
C52
120/21
AGND
AGND
GND
4.99K
R88
8
7
6
5
4
3
2
1U36SSM2142
-
+
gnd
V+
+
V-
8
7
6
5
4
3
2
1U39SSM2142
-
+
gnd
V+
+
V-
1
2
3
4
5
6
7
8
U38SSM2142
-
+
gnd
V+
+
V-
1
2
3
4
5
6
7
8
U41SSM2142
-
+
gnd
V+
+
V-
8
7
6
5
4
3
2
1U40SSM2142
-
+
gnd
V+
+
V-
7
6
5
4
3
2
1
SSM2143U43
V+
-
+
V-
7
6
5
4
3
2
1
SSM2143U44
V+
-
+
V-
7
6
5
4
3
2
1
SSM2143U45
V+
-
+
V-
SSM2142 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
4
3
2
1
5
6
7
8OUT-
SNC- SNC+
OUT+
GND
IN V-
V+
SSM2143 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
V+
OUT
V-
IN-
IN+
4
3
2
1
5
6
7
8REF
SENCE
N/C
74VHC4053IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
INH
VEE
VSS C
B
A
VDD1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
Xa
X_Ya
Ya
Xb
Yb X_Yb
Yc
Xc
X_Yc
VIEWED FROMABOVE(COMPONENTSIDE)
6 PIN JSTCONNECTORPINOUT
6
5
4
3
2
1
NE5532IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
V-
IN-
IN+
OUT V+
IN-
IN+
OUT
8
7
6
5
1
2
3
4
AGND
68pF
C96
1
2
3
4
5
6
7
8
U37SSM2142
-
+
gnd
V+
+
V-
5
6
7
8
4
5532
-2dBu
U18
V+
-
+
V-
SH36/8 UDB/11
40.2K
R100
6
4053
3
5
4
9 U26
X
Y
S
INH
X_Y
NE5532
-2dBu8
4
2
1
3U17
V+
-
+
V-
.3APOLYSW
F4
6
4
5
-2dBu
-14dBu
RT10KCT3
1
2
3
4
5
6
7
SSM2143U42
V+
-
+
V-
POLYSW.3A
F1
POLYSW.3A
F2
330uF
C31
330uF
C32
22uF
C41
22uF
C40
5.1VC5V1Z1
5.1VC5V1Z2
330uF
C79
330uF
C78
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
Vdd
Vee
V++
V--
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
600 Industrial DriveNew Bern, NC 28562
1 OF 3
20S0004
W# 700220
SA
SA
SA
CRD-500
CRD-500 Control Room Module Schematic - Sheet 1 of 4D-500/Feb 2002
2-7-02
CRD-500F PCB
F
A
B
C
D D
C
B
1345678
8 7 6 5 4 3
2
12
A
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
D
Page
1.30KR48
1.30KR90
C67
33pF
C53
33pF
OUT OF PHASEIN PHASE
NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITYPGMLTMONITOR
PGMRTMONITOR
AUDLTMONITOR
AUDRTMONITOR
AUXLTMONITOR
AUXRTMONITOR
UTLLTMONITOR
UTLRTMONITOR
V+in
V-in
EXT1LTHI
EXT1LTLO
EXT1RTHI
EXT1RTLO
EXT2LTHI
EXT2LTLO
EXT2RTHI
EXT2RTLO
PGM
UTL
AUX
AUD
EXT2
EXT1
CROUTLTLO
CROUTLTHI
CROUTRTLO
CROUTRTHI
CUEOUTLT
CUEOUTMONO
CRTOCR
CUETOCR
HDPNTOHDPN
CUETOHDPN
MCUETOCRRT
MCUETOCRLT
MCUETOHDPNRT
MCUETOHDPNLT
HDPNOUTLTHI
HDPNOUTLTLO
HDPNOUTRTHI
HDPNOUTRTLO
HDPNPRELT
HDPNPRERT
CUEOUTLTLO
CUEOUTLTHI
CUEOUTRTLO
CUEOUTRTHI
CUEPOSTRT
CUEPOSTLT
CRMUTE
CUEMONORT
CUEMONOLT
V+in
V++
V--
CUEOUTRT
V-in
GND
C137
0.1uF
C70
0.1uF
VCC
VCC
GND
R1
1.00K
C9
0.001uF
VCC
VCC
C2
0.1uF
VCC
GND
C3
0.1uF
VCC
GND
C4
0.1uF
VCC
GND
GND
R20
220
GND
R22
220
GND
R26
220
GND
R28
220
GND
R31
220
R19
1.00K
GND
R24
1.00K
GND
R25
1.00K
GND
R29
1.00K
GND
R21
220
R23
220
R27
220
R30
220
R33
220
R4
10.0K
VCC
GND
VCC
C5
0.1uF
VCC
GND
C6
0.1uF
VCC
GND
C7
0.1uF
VCC
GND
C10
0.1uF
VCC
GND
C12
0.1uF
VCC
GND
C13
0.1uF
VCC
GND
C8
0.1uF
VCC
GND
GND
R35
1.00K
GND
R36
220120/79
R3
10.0K
VCC
120/39
R37
4.99K
VCC
R41
4.99K
VCC
R42
4.99K
VCC
R43
4.99K
VCC
R44
4.99K
VCC
120/41
R38
4.99K
VCC
U21
2
3
74ACT02
U24
5
6
74ACT02
U2
8
910
74ACT02
U2
11
1213
74ACT02
U53
21
74ACT02
U510
9
8
74ACT02
U311 10
74AC14
U39 8
74AC14
U31 2
74AC14
U343
74AC14
U35 6
74AC14
U889
74AC14
U865
74AC14
U821
74AC14
U81011
74AC14
GND
R96
10
Q1
MMBTA05
GND
GND
VCC
R98
1.00K
R97
10.0K
U9
74LS74
8
910
11
12
13
CK
PR
CLR
Q
QD
VCC
GND
GND
R39
220
R40
1.00K
C87
33pF
R118
40.2K
AGND
AGND
R107
1.0K
C123
330pF
AGND
C88 1uF
C861uF
AGND
R119
3.3
R120
3.3
C133
0.1uF
C134
0.1uF
AGND AGND
C90
33pF
R124
40.2K
U354
5
3
2
1
LM675
V+
-
+
V-
AGND
R108
1.0K
C124
330pF
AGND
C91 1uF
C891uF
AGND
R121
3.3
R122
3.3
C135
0.1uF
C136
0.1uF
AGND AGND
CT210K
RT2
-2dBu
-14dBu
3
1
CT210KLT
HDPNLEVEL
5
-2dBu
-14dBu4
6
AGND
AGND
U1
13
12
11
109
8
74LS74
CK
PR
CLR
Q
QD
U4
74LS74
8
910
11
12
13
CK
PR
CLR
Q
QD
U4
74LS74
1
2
3
45
6
CK
PR
CLR
Q
QD
U6
74LS74
1
2
3
45
6
CK
PR
CLR
Q
QD
U11
4
56
74ACT32
U1110
98
74ACT32
U11
74ACT32
12
1311
U123
2
1
74ACT32
U126
5
4
74ACT32
U1211
13
12
74ACT32
U133
21
74ACT02
U1310
9
8
74ACT02
U513
12
11
74ACT02
U143
2
1
74ACT32
U146
5
4
74ACT32
U1411
13
12
74ACT32
R45
4.99K
VCC
C18 22uF R117
10.0K
C19 22uF R123
10.0K
C43100uF
C42100uF
C17
0.1uF
VCC
GND
C16
0.1uF
VCC
GND
C15
0.1uF
GND
VCC
C81
33pF
R110
40.2K
U32LM675 4
5
3
2
1
V+
-
+
V-
AGND
R105
1.0K
C69
330pF
AGND
C82 1uF
C801uF
AGND
R111
3.3
R113
3.3
C129
0.1uF
C130
0.1uF
AGND AGND
C84
33pF
R114
40.2K
AGND
R106
1.0K
C122
330pF
AGND
C85 1uF
AGND
R115
3.3
R116
3.3
C131
0.1uF
C132
0.1uF
AGND AGND
R112
40.2K
R109
40.2K
AGND
R93
2.43K
VCC
GND
120/45
R92
4.99K
VCC
GND
CT4
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
VCC
GND
R32
1.00K
CT6
"ON"SW
1
6
5
4
3
2
R2
4.99K
VCC
GND
C14
0.1uF
VCC
CT5
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
R34
220
Q2
MMBTA55
K1
64
23
81
7
5 "ON AIR"TALLYRELAY
SW11
2
3
4
5
6
7
CUE TO LT CR
CUE TO RT CR
CUE TO LT HDPN
CUE TO RT HDPN
CUE MUTE ENABLE
U1313
12
11
74ACT02
U83 4
74AC14
U108
9
10
74ACT00
U11
1
23
74ACT32
U10
1
23
74ACT00
U148
9
10
74ACT32
U1
6
54
3
2
1
74LS74
CK
PR
CLR
Q
QD
VIEWED FROM ABOVE(COMPONENT SIDE)
74AC02IC PINOUT
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14
I1a
I2a
Oa
I1b
I2b
Ob
Oc
I1c
I2c
Od
I1d
I2d
VCC
VIEWED FROM ABOVE(COMPONENT SIDE)
PQ05SZ1 IC PINOUT
1 2 3
2
VIEWED FROM ABOVE(COMPONENT SIDE)
74AC32IC PINOUT
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14I1a
I2a
Oa
I1b
I2b
Ob
Oc
I1c
I2c
Od
I1d
I2d
VCC
VIEWED FROM ABOVE(COMPONENT SIDE)
LM675 IC PINOUT
1 2 3 4 5
VIEWED FROM ABOVE(COMPONENT SIDE)
74HC30IC PINOUT
OUT
I8
I7
N/C
N/C
N/C
I6
I5
I4
I3
I2
I1
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14VCC
VIEWED FROM ABOVE(COMPONENT SIDE)
74AC00IC PINOUT
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14I1a
I2a
Oa
I1b
I2b
Ob
VCC
I2d
I1d
Od
I2c
I1c
Oc
VIEWED FROM ABOVE(COMPONENT SIDE)
74AC14IC PINOUT
If
Of
Id
Ib
Ia
Ic
Ie
Oe
O2c
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14
Oa
Ob
Od
VCC
6 PIN JSTCONNECTORPINOUTVIEWED FROMABOVE(COMPONENTSIDE)
6
5
4
3
2
1
VIEWED FROM ABOVE(COMPONENT SIDE)
74LS74IC PINOUT
CLRb
Db
CKb
PRb
Qb
Qb
Qa
Qa
PRa
CKa
Da
CLRa
VSS
1
2
3
4
5
6
7 8
9
10
11
12
13
14VCC
VIEWED FROM ABOVE(COMPONENT SIDE)
7 POSITIONDIPSWITCHPINOUT
1
2
3
4
5
6
7 8
9
10
11
12
13
14
ON
ON
ON
ON
ON
ON
ON1
2
3
4
5
6
7
3 PIN JSTCONNECTORPINOUTVIEWED FROMABOVE(COMPONENTSIDE)
3
2
1
U33LM675
1
2
3
5
4
V+
-
+
V-
CT1
CUESPKR
1
3
2
C831uF
CT71TOHDPNJACK
2
3
U313 12
74AC14U56
54
74ACT02
U7
1
2
3
4
5
6
8
11
12
74HC30
U8
74AC14
1213
U6
13
12
11
109
8
74LS74
CK
PR
CLR
Q
QD
U1013
1211
74ACT00
U128
9
10
74ACT32
U10
4
56
74ACT00
U136
54
74ACT02
F5
.4APOLYSW
F6
.3APOLYSW
U9
74LS74
1
2
3
45
6
CK
PR
CLR
Q
QD
D14148
C33
1uF
C11
100uF
D31N4002W
C34
1uF
C35
1uF
C36
1uF
C37
1uF
C38
1uF
C125
22uF
C92
100uF
C138
1uF
C139
1uF
C39
1uF
V++
V--
V++
V--
V++
V--
V++
V--
U341
2
3
5
4LM675
V+
-
+
V-
D2 4148R126
100
R125
100
600 Industrial DriveNew Bern, NC 28562
2 OF 3
14S0015
W# 700220
SA
SA
SA
CRD-500
CRD-500 Control Room Module Schematic - Sheet 2 of 4Page 6-2D-500/Feb 2002
FCRD-500F PCB
2-7-02
A
B
C
D D
C
B
1345678
8 7 6 5 4 3
2
12
A
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
D
U46
PQ053
21
GND
VIN OUT
POLYSW.17A
R94
.17APOLYSW
R95
R46
POLYSW.17A
R47
POLYSW.17A
IN PHASE
OUT OF PHASE
NOTE: PHASE SYMBOLSDENOTE SIGNAL POLARITY
+REGin
+DIG
EXT1SW
EXT2SW
EXT2LED
EXT1LED
EXT1
EXT2
PGM
AUD
AUX
UTL
UTLLED
UTLSW
AUXLED
AUXSW
AUDLED
AUDSW
PGMLED
PGMSW
CRTOCR
CUETOCR
EXT1
EXT2
PGM
AUD
AUX
UTL
MCUETOHDPNLT
MCUETOCRRT
HDPNTOHDPN
MCUETOHDPNRT
MCUETOCRLT
CRON
CRMUTE
CUETOHDPN
HDPNPRELT
HDPNPRERT
CRON
CUEPOSTLT
CUEPOSTRT
ONAIRRELAYNO
ONAIRRELAYCOM
XDONAIRTALLY
XDRESET
XDCRMUTE
XDCUELOGIC
AGND
AGND
AGND
36/1 36/2
36/3
36/5 36/6
36/7 36/8
36/9 36/10
36/11 36/12
36/13 36/14
36/15 36/16
36/17 36/18
36/19 36/20
36/23
36/25 36/26
36/27
36/30
36/33
36/36
36/4
AGND
AGND
AGND
AGND
AGND
AGND
36/24
AGND
20 PIN DIP CONNECTOR
CT8
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
12 24
25
23
10
11
9 21
22
20
7
8
6 18
19
17
4
5
3 15
16
142
13
12
24
25
23 10
11
9
21
22
8
13
20 7
6
18
19
17 4
5
3
15
16
14 1
2
120/67
120/71
120/73
120/77
120/79
120/87
120/89
120/91
120/93
120/95
120/97
120/99
120/101
120/103
120/105
120/111
120/113
120/119
120/85
120/83
120/81
120/117
120/107
120/109
120/69
120/4
120/6
120/8
120/10
120/12
120/14
120/16
120/18
120/20
120/22
120/24
120/26
120/28
120/34
120/36
120/38
120/46
120/48
120/50
120/52
120/54
120/56
120/58
120/60
120/62
120/64
120/66
120/68
120/72
120/74
120/76
120/78
120/86
120/88
120/90
120/92
120/94
120/96
120/98
120/100
120/102
120/104
120/106
120/110
120/112
120/114
120/118
120/44
120/84
120/42
120/82
120/40
120/80
120/120
120/108
120/70
120/32
120/30
120/2
120/3
120/5
120/7
120/9
120/11
120/13
120/15
120/17
120/19
120/21
120/23
120/25
120/27
120/29
120/31
120/35
120/51
120/53
120/55
120/57
120/59
120/63
120/65
120/33
120/61
120/1
120/37
120/39
120/47
120/49
120/45
120/43
120/41
36/22
36/28
36/32
36/34
36/21
36/29
36/31
36/35
1
120/116120/115
CT10
1 2
3 4
5 6
7 8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
81 82
83 84
85 86
87 88
89 90
91 92
93 94
95 96
97 98
99 100
101 102
103 104
105 106
107 108
109 110
111 112
113 114
115 116
117 118
119 120
CT9
3635
3433
3231
3029
2827
2625
2423
2221
2019
1817
1615
1413
1211
109
87
65
43
21
600 Industrial DriveNew Bern, NC 28562
F
CRD-500F PCB
2-7-02
D-500/Feb 2002 Page 5-5b
CRD-500 Control Room Module Schematic - Sheet 3 of 4
CRD-500
SA
SA
SA
W# 700220
14S0016
3 OF 3
B
A
B
C
D D
C
A
1234
4 3 2 1
CISSUED
CHECKED
DRAWN
DATEAPPROVALS
CONTRACT NO.
SHEET
DWG. NO.FSCM NO.
SCALE
SIZE REV
120/75
3.3 R127
LOWERDB-25
LOWERDB-25
LOWERDB-25
120 PIN EDGE CONNECTOR36 PIN EDGE CONNECTOR
UPPERDB-25
UPPERDB-25
LOWERDB-25
CONNECTORS BUSS CHART
AGND
CUEOUTLTLO CUEOUTLTHI
AGND CUEOUTRTLO
CUEOUTRTHI AGND
HDPNOUTLTLO HDPNOUTLTHI
AGND HDPNOUTRTLO
HDPNOUTRTHI AGND
AGND
AGND
AGND
CROUTLTLO CROUTLTHI
CROUTRTLO
CROUTRTHI
AGND
AGND
AGND
AGND
AGND
AGND
V+in
V+in
V-in
V-in
AGND
AGND
CUEOUTLT
CUEMONORT
CUEOUTMONO
CUEMONOLT
CUEOUTRT
ONAIRRELAYCOM
ONAIRRELAYNO
CUELTMONITOR
CUERTMONITOR
AGND
AGND
AGND
AGND
TBACN
AGND EXT1LTLO
EXT1LTHI AGND
EXT1RTHI
AGND
EXT1RTLO
EXT2LTLO
EXT2LTHI AGND
EXT2RTLO EXT2RTHI
XDSPPGM XDSPAUD
XDSPAUX XDSPUTL
PGMLTMONITOR AGND
PGMRTMONITOR AGND
AUDLTMONITOR AGND
AUDRTMONITOR AGND
AUXLTMONITOR AGND
AUXRTMONITOR
UTLLTMONITOR AGND
UTLRTMONITOR AGND
CUELTMONITOR AGND
CUERTMONITOR AGND
TEL12MONITOR AGND
TEL34MONITOR AGND
TBMONITOR AGND
TBACN AGND
XDCUELOGIC XDCRMUTE
XDST1MUTE XDST2MUTE
XDTIMERRESTART XDONAIRTALLY
XDTALLY2 XDTALLY3
V+in V+in
+40Vin
V-in V-in
GND
GND
TEL12_34
XDRESET TEL34_12
XDBUSIN GND
XDFRMOUT GND
XDTDMOUT1 GND
XDTDMOUT2 GND
XDSEROUT GND
XDSERCLK GND
XDSERFRM GND
XDSERIN GND
XDDINT GND
SIGX GND
GND
GND
GND
XDCSA7
GND
XDFRMX
XDCLKX
XDCSA8 XDCSA9
GND GND
+DIG+DIG
+DIG+DIG
XDCSA4 XDCSA5
XDCSA6
XDA9
XDAD3
XDAD0
XDAD1 XDAD2
XDAD4
XDAD5 XDAD6
XDAD7 XDA8
XDWR
GND XDDS
XDAS
GND
GND
AGND
120BUSPIN1 120BUSPIN2
36BUSPIN2236BUSPIN21
36BUSPIN3236BUSPIN31
EXTCUEIN
36BUSPIN35
36BUSPIN34
36BUSPIN28
120BUSPIN115 120BUSPIN116
TBMONITOR
EXTCUEIN
AGND
0.1uF
C7
0.1uF
C16
0.1uF
C5
0.1uF
C12
3
2
1
8
4
5532U1
V+
-
+
V-
AGND
AGND
AGND
LT
6
4-14dBu
510K
CUELEVEL
CT1
AGND
AGND
22uFC3
22uFC14 10.0K
R6
AGND
10pF
C15
40.2K
R15
10pF
C8
40.2K
R16
5
7
6
4
8
5532U2
V+
-
+
V-
AGND
10pF
C18
40.2K
R18
5
7
6
4
8
5532U3
V+
-
+
V-
20.0K
R12
20.0K
R11
100uFC10
AGND
NE5532
8
4
2
1
3U3
V+
-
+
V-
100uF C21
100uF C20
100uF C19
10.0K
R13
10.0K
R4
10pF
C11
100uFC2
10.0K
R7
AGND
AGND
10.0K
R3
10.0K
R2
10.0K
R5
22uFC1
22uFC9
33pF
C17
4.99K
R17
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
AGND
-2dBu
22uFC13 10.0K
R14
AGND
10pF
C6
RT1
3
-14dBu
210K
CT1
3
1
2
4
8
5532U2
V+
-
+
V-
20 PIN DIP CONNECTOR
CT2
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
VIEWED FROM ABOVE(COMPONENT SIDE)
NE5532IC PINOUT
V-
IN-
IN+
OUT V+
IN-
IN+
OUT
8
7
6
5
1
2
3
4
SLIDESW
12
3
45
6
SW1
F1
.3APOLYSW
F2
.3APOLYSW
5532
4
8
7
6
5U1
V+
-
+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
100uF
C23
100uF
C22
600 Industrial DriveNew Bern, NC 28562
B
CUE-500B PCB
2-7-02
D-500/Feb 2002 Page 5-5b
CRD-500 Control Room Module Schematic - Sheet 4 of 4
CUE-500
SA
SA
SA
W# 700302
14S0048
1 OF 1
B
A
B
C
D D
C
A
1234
4 3 2 1
CISSUED
CHECKED
DRAWN
DATEAPPROVALS
CONTRACT NO.
SHEET
DWG. NO.FSCM NO.
SCALE
SIZE REV
100uF C4
40.2K
R8
AGND
40.2K
R1
AGND
10R10
10R9
V+in
V-in
V+
V-
TBACN
CUEOUTLT
CUEOUTMONO
CUEOUTRT
CUEMONOLT
CUEMONORT
EXTCUEIN
V+in
V+in
V-in
V-in
AGND
AGND
CUEOUTLT
CUEMONORT
CUEOUTMONO
CUEMONOLT
CUEOUTRT
CUELTMONITOR
CUERTMONITOR
AGND
AGND
AGND
AGND
TBMONITOR
TBACN
CUERTMONITOR
CUELTMONITOR
TBMONITOR
EXTCUEIN
120/19
22uFC99
22uFC100
4.99K
R68
4.99K
R69
120/23
120/25
22uFC101
22uFC102
4.99K
R70
4.99K
R71
AGND
33pF
C51
4.99K
R81
AGND
4.99K
R41
4.99K
R49
40.2K
R48
120/27
120/29
120/31
120/33
22uFC103
4.99K
R72
22uFC104
4.99K
R73
22uFC105
4.99K
R74
22uFC1064.99K
R75
0.1uF
C83
0.1uF
C89
0.1uF
C95
0.1uF
C94
0.1uF
C97
0.1uF
C96
AGND
120/3
120/4
AGND
AGND
120/6
120/8
120/7
AGND
120/9
120/11
120/10
AGND
AGND
120/12
120/14
120/13
AGND
22uFC109
4.99K
R77
22uFC110
22uFC98
4.99K
R79
0.1uF
C74
0.1uF
C50
1.30K
R40
1.30K
R80
AGND
3
1
2
4
8
NE5532U24
V-
+
-
V+
AGND
AGND
22uFC35
22uFC34
AGND
33pF
C72
AGND
33pF
C49
ST 1OUT
UDB/636/15 LO
UDB/1836/16 HI
36/18 UDB/17 LO
UDB/436/19 HI
4.99K
R47
4.99K
R92
AGND
68pF
C91
AGND
68pF
C90
AGND
AGND
68pF
C93
AGND
68pF
C92
AGND
AGND
33pF
C23
R15
2.00K
AGND
33pF
C22
R14
2.00K
33pF
C17
R13
2.00K
33pF
C16
R12
2.00K
3
1
2
4
8
NE5532U9
V-
+
-
V+
5
7
6
4
8
NE5532U9
V-
+
-
V+
AGND
33pF
C41
40.2K
R43
100uF C24
100uF C33
100uF C36
100uF C32
100uF C31
100uFC54
100uFC53
AGND
4.99K
R50
4.99K
R51
4.99K
R53
40.2K
R52
AGND
4.99K
R58
49.9K
R63
49.9K
R59
4.99K
R60
49.9K
R61
4.99K
R66
4.99K
R54
4.99K
R57
4.99K
R64
4.99K
R55
4.99K
R56
2
1
10
15
6
4053U14
X_Y
INH
S
Y
X
12
13
11
14
4053
6
U14
X_Y
INH
S
Y
X
9
4
5
3
4053
6
U14
X_Y
INH
S
Y
X
4053
6
15
10
1
2
U15
X_Y
INH
S
Y
X
6
4053
3
5
4
9 U15
X_Y
INH
S
Y
X
6
4053
14
11
13
12
U15
X_Y
INH
S
Y
X
2
1
10
15
6
4053
U20
X_Y
INH
S
Y
X
12
13
11
14
4053
6
U20
X_Y
INH
S
Y
X
9
4
5
3
4053
6
U20
X_Y
INH
S
Y
X
9
3
5
4
4053
6
U21
X_Y
INH
S
Y
X
12
13
11
14
6
4053
U21
X_Y
INH
S
Y
X
10
1
2
15
6
4053
U21
X_Y
INH
S
Y
X
10
1
2
15
4053
6
U22
X_Y
INH
S
Y
X
6
4053
15
10
1
2
U23
X_Y
INH
S
Y
X
11
14
12
13
6
4053
U23
X_Y
INH
S
Y
X
4053
6
4
9
3
5
U23
X_Y
INH
S
Y
X
11
13
12
14
4053
6
U22
X_Y
INH
S
Y
X
2
1
10
15
6
4053U16
X_Y
INH
S
Y
X
12
13
11
14
4053
6
U16
X_Y
INH
S
Y
X
6
4053
14
11
13
12
U17
X_Y
INH
S
Y
X
6
4053
3
5
4
9 U17
X_Y
INH
S
Y
X
2
1
10
15
6
4053U18
X_Y
INH
S
Y
X
9
4
5
3
4053
6
U18
X_Y
INH
S
Y
X
12
13
11
14
4053
6
U18
X_Y
INH
S
Y
X
4.99K
R62
AGND
100uFC47
100uFC48
AGND
40.2K
R46
AGND
40.2K
R93
AGND
33pF
C70
AGND
33pF
C45
5532
4
8
1
2
3U12
V-
+
-
V+
5532
4
8
7
6
5U12
V-
+
-
V+ ST 2
OUT
LOUDB/936/9
HIUDB/2136/10
LO36/12 UDB/20
HIUDB/736/13
4.99K
R45
4.99K
R90
AGND
1
2
3
4
5
6
7
8
U30
V-
+
V+
gnd
+
-
SSM2142
68pF
C85
AGND
68pF
C84
AGND
AGND
8
7
6
5
4
3
2
1U31
V-
+
V+
gnd
+
-
SSM2142
68pF
C87
AGND
68pF
C86
AGND
100uFC43
100uFC44
AGND
40.2K
R44
AGND
40.2K
R91
AGND
33pF
C67
3
2
1
8
4
5532U11
V-
+
-
V+
LO36/3 UDB/12TBOUT
HI36/4 UDB/24
4.99K
R88
AGND
8
7
6
5
4
3
2
1U29
V-
+
V+
gnd
+
-
SSM2142
68pF
C80
AGND
68pF
C79
AGND
100uFC40
AGND
40.2K
R42
SHUDB/1936/17
AGND
SH36/20 UDB/5
AGND
SHUDB/2236/11
AGND
SH36/14 UDB/8
AGND
UDB/25 SH36/5
AGND
0.1uF
C19
0.1uF
C18
0.1uF
C68
0.1uF
C39
0.1uF
C71
0.1uF
C42
0.1uF
C73
0.1uF
C46
0.1uF
C21
0.1uF
C20
0.1uF
C52
0.1uF
C37
120/21
AGND
AGND
GND
4.99K
R78
120/5 22uFC108
4.99K
R76
AGND
NE5532
8
4
6
7
5U10
V-
+
-
V+6
4
510K
RTCT3
SC 1LEVEL
3
1
210K
LTCT3
0.1uF
C88
AGND
AGND
22uFC14
22uFC15
10K 5
4
6
RTCT2
10K 2
1
3
SC 2LEVEL
LTCT2
AGND120/43
22uFC13
22uF C12
1
2
3
4
5
6
7
SSM2143U34
V-
+
-
V+
7
6
5
4
3
2
1
SSM2143U36
V-
+
-
V+
7
6
5
4
3
2
1
SSM2143U37
V-
+
-
V+
-14dBu
-2dBu
-2dBu
-14dBu
-14dBu
-14dBu
-14dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
-2dBu
GND
AGND
4053
6
15
10
1
2
U19
X_Y
INH
S
Y
X
6
4053
14
11
13
12
U19
X_Y
INH
S
Y
X
49.9K
R67
49.9K
R65
AGND
40.2K
R10
AGND
40.2K
R11
AGND
40.2K
R16
AGND
40.2K
R17
74VHC4053IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
X_Yc
Xc
Yc
X_YbYb
Xb
Ya
X_Ya
Xa
16
15
14
13
12
11
10
98
7
6
5
4
3
2
1 VDD
A
B
CVSS
VEE
INH
-2dBu
SSM2142 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
V+
V-IN
GND
OUT+
SNC+SNC-
OUT- 8
7
6
5
1
2
3
4
VIEWED FROM ABOVE(COMPONENT SIDE)
NE5532 IC PINOUT
4
3
2
1
5
6
7
8
OUT
IN+
IN-
V+OUT
IN+
IN-
V-
SSM2143 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
N/C
SENCE
REF 8
7
6
5
1
2
3
4
IN+
IN-
V-
OUT
V+
VIEWED FROMABOVE(COMPONENTSIDE)
3 PIN JSTCONNECTORPINOUT
1
2
3
VIEWED FROMABOVE(COMPONENTSIDE)
6 PIN JSTCONNECTORPINOUT
1
2
3
4
5
6
AGND
0.1uF
C82
TBLEVEL
10K 23
1CT1
10.0K
R89
6
4053
4
9
3
5
U22
X_Y
INH
S
Y
X
5
7
6
4
8
NE5532U24
V-
+
-
V+
33pF
C38
3
2
1
8
4
5532U13
V-
+
-
V+
NE5532
8
4
2
1
3U10
V-
+
-
V+
6
4053
3
5
4
9 U19
X_Y
INH
S
Y
X
GND
7
6
5
4
3
2
1
SSM2143U35
V-
+
-
V+
4
8
NE5532 7
6
5U11
V-
+
-
V+
9
4
5
3
4053
6
U16
X_Y
INH
S
Y
X
4053
6
15
10
1
2
U17
X_Y
INH
S
Y
X
5
6
7
8
4
5532U13
V-
+
-
V+
1
2
3
4
5
6
7
8
U33
V-
+
V+
gnd
+
-
SSM2142
8
7
6
5
4
3
2
1U32
V-
+
V+
gnd
+
-
SSM2142
POLYSW.3A
F2
POLYSW.3A
F1
V+
V-
Vdd
Vee
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
330uF
C81
22uF
C76
22uF
C75
330uF
C69
5.1VC5V1Z2
5.1VC5V1Z1
600 Industrial DriveNew Bern, NC 28562
Page 14-25
SA
SCD-500 Studio Control Module Schematic - Sheet 1 of 3
SCD-500
W# 700308 1 OF 4SCD-500B PCB
14S0065B
D-500/Jul 2001
7-25-01
D
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
OUT OF PHASEIN PHASE
NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY
+4dBu BAL
+4dBu BAL
+4dBu BAL
+4dBu BAL
+4dBu BAL
PGMLTMONITOR
PGMRTMONITOR
AUDLTMONITOR
AUDRTMONITOR
AUXLTMONITOR
AUXRTMONITOR
UTLLTMONITOR
UTLRTMONITOR
V+in
V-in
V+
V-
EXT1LTHI
EXT1LTLO
EXT1RTHI
EXT1RTLO
EXT2LTHI
EXT2LTLO
EXT2RTHI
EXT2RTLO
PGM
UTL
AUX
AUD
EXT2
EXT1
TBTOSC1
TBTOSC2
TBMONITOR
SC2PRERT
SC1PRELT
SC1PRERT
SC2PRELT
TBMUTE
TBDIM
SC1DIM
SC1MUTE
SC2MUTE
SC2DIM
SC1OUTLTLO
SC1OUTLTHI
SC1OUTRTLO
SC1OUTRTHI
SC2OUTLTHI
SC2OUTLTLO
SC2OUTRTHI
SC2OUTRTLO
TBOUTLO
TBOUTHI
GND
C111
0.1uF
C78
0.1uF
VCC
VCC
R2
1.00K
C8
0.001uF
VCC
VCC
VCC
C1
0.1uF
VCC
GND
C2
0.1uF
VCC
GND
C3
0.1uF
VCC
GND
R1
4.99K
GND
R19
220
GND
R21
220
GND
R25
220
GND
R27
220
GND
R30
220
R18
1.00K
GND
GND
R24
1.00K
GND
R28
1.00K
GND
R20
220
R22
220
R26
220
R29
220
R32
220
R4
4.99K
VCC
GND
VCC
C4
0.1uF
VCC
GND
C5
0.1uF
VCC
GND
C6
0.1uF
VCC
GND
C9
0.1uF
VCC
GND
C7
0.1uF
VCC
GND
GND
R33
220
R35
220
120/79
R3
10.0K
VCC
120/50
R36
4.99K
VCC
120/49
R39
4.99K
VCC
U311 10
74AC14
U39 8
74AC14
U31 2
74AC14
U35 6
74AC14
U865
74AC14
U8
74AC14
1213
GNDR87
10
VCC
R86
100
U4
74LS74
8
910
11
12
13D
Q
Q
CLR
PR
CK
U4
74LS74
1
2
3
45
6DQ
Q
CLR
PR
CK
R95
2.43K
VCC
GND
120/53Q1MMBTA55
R94
4.99K
VCC
VCC
GND
R31
1.00K
CT7
"TB 1"SW
1
6
5
4
3
2
R23
1.00K
U343
74AC14
K1
64
23
81
7
5
"TALLY 2"RELAY
R97
2.43K
VCC
GND
120/54
R96
4.99K
VCC
GND
VCC
R84
10
R83
100
R82
4.99K
R85
4.99K
VCC
VCC
R5
4.99K
GND
R6
4.99K
GND
U6
74LS74
1
2
3
45
6DQ
Q
CLR
PR
CK
SW15
SW17
R7
4.99K
GND
R8
4.99K
GND
R9
4.99K
VCC
ST 1PREOUT
LDB/936/34 LO
+4dBu BALLDB/2136/35 HI
AGND
U27
8
7
6
5
4
3
2
1
SSM2142
V-
+
V+
gnd
+
-
C62
68pF
AGND
C61
68pF
AGND
LDB/2236/33 SH
AGND
LDB/20120/1 LO
+4dBu BALLDB/7120/2 HI
AGND
C66
68pF
AGND
C64
68pF
AGND
LDB/836/36 SH
AGND
-2dBu
-2dBu
LDB/1236/28
ST 2PREOUT
LO
+4dBu BALLDB/2436/29 HI
AGND
U251
2
3
4
5
6
7
8SSM2142
V-
+
V+
gnd
+
-
C56
68pF
AGND
C55
68pF
AGND
LDB/2536/27 SH
AGND
LDB/2336/31 LO
+4dBu BALLDB/1036/32 HI
AGND
C60
68pF
C58
68pF
AGND
LDB/1136/30 SH
AGND
-2dBu
-2dBu
UDB/1436/24 COM
UDB/136/25 NO
TALLY2 OUT
UDB/336/21 COM
UDB/1536/22 NO
TALLY3 OUT
AGND
C65
0.1uF
C57
0.1uF
C59
0.1uF
C63
0.1uF
VIEWED FROM ABOVE(COMPONENT SIDE)
PQ05SZ1 IC PINOUT
2
321
VIEWED FROM ABOVE(COMPONENT SIDE)
74AC14IC PINOUT
VCC
Od
Ob
Oa
14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
O2c
Oe
Ie
Ic
Ia
Ib
Id
Of
If
VIEWED FROM ABOVE(COMPONENT SIDE)
74LS74IC PINOUT
VCC 14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
CLRa
Da
CKa
PRa
Qa
Qa
Qb
Qb
PRb
CKb
Db
CLRb
VIEWED FROM ABOVE(COMPONENT SIDE)
74AC02IC PINOUT
VCC
I2d
I1d
Od
I2c
I1c
Oc
Ob
I2b
I1b
Oa
I2a
I1a
14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
VIEWED FROM ABOVE(COMPONENT SIDE)
74HC30IC PINOUT
VCC 14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
I1
I2
I3
I4
I5
I6
N/C
N/C
N/C
I7
I8
OUT
VIEWED FROM ABOVE(COMPONENT SIDE)
SSM2142 IC PINOUT
V+
V-IN
GND
OUT+
SNC+SNC-
OUT- 8
7
6
5
1
2
3
4
CT4
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
CT5
N/C
N/C
N/C
N/C
N/C
N/C
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
GND
C11
0.1uF
VCC
U313 12
74AC14R34
1.00K
GND
SW16
CT6
"TB 2"SW
1
6
5
4
3
2
U81011
74AC14
K2
5
7
18
32
4 6
"TALLY 3"RELAY
Q2MMBTA55
U26
8
7
6
5
4
3
2
1
SSM2142
V-
+
V+
gnd
+
-
AGND
GND
U24
5
6
74ACT02
U53
21
74ACT02
U56
54
74ACT02
U510
9
8
74ACT02
U2
11
1213
74ACT02
U2
8
910
74ACT02
U889
74AC14
SW11
U1
13
12
11
109
8
74LS74
DQ
Q
CLR
PR
CK
U281
2
3
4
5
6
7
8SSM2142
V-
+
V+
gnd
+
-
F3
.4APOLYSW
F4
.3APOLYSW
U83 4
74AC14
U821
74AC14
SW12
U513
12
11
74ACT02
U1
6
54
3
2
1
74LS74
DQ
Q
CLR
PR
CK
U21
2
3
74ACT02
U7
1
2
3
4
5
6
8
11
12
74HC30
U6
13
12
11
109
8
74LS74
DQ
Q
CLR
PR
CK
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
C25
1uF
C27
1uF
C28
1uF
C29
1uF
C10
100uF
C26
1uF
C30
1uF
C77
100uF
C112
1uF
C113
1uF
C107
22uF
D41N4002W
D31N4002W
D2 4148
R37
100
R38
100
600 Industrial DriveNew Bern, NC 28562
Page 14-26
14S0066B
SCD-500B PCB 2 OF 4W# 700308
SCD-500
SCD-500 Studio Control Module Schematic - Sheet 2 of 3
SA
D-500/Jul 2001
7-25-01
D
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
U38
PQ053
21OUTVIN
GND
D14148
ST 2 DIM
TB DIM
ST 1 DIM
ST2 TB MUTE
ST1 TB MUTE
NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY
IN PHASE OUT OF PHASE
+REGin+DIG
EXT1SW
EXT2SW
EXT2LED
EXT1LED
EXT1
EXT2
PGM
AUD
AUX
UTL
UTLLED
UTLSW
AUXLED
AUXSW
AUDLED
AUDSW
PGMLED
PGMSW
EXT1
EXT2
PGM
AUD
AUX
UTL
TBTOSC1
TALLY2RELAYCOM
XDTALLY2
TALLY3RELAYNO
TALLY3RELAYCOM
XDTALLY3
TBTOSC2
TBMUTE
SC2MUTE
SC1DIM
SC2DIM
TBDIM
SC1PRELT
SC1PRERT
SC2PRELT
SC2PRERT
TALLY2RELAYNO
SC1MUTE
XDST2MUTE
XDRESET
XDST1MUTE
SC1PREOUTLTLO
SC1PREOUTLTHI
SC1PREOUTRTLO
SC1PREOUTRTHI
SC2PREOUTLTLO
SC2PREOUTLTHI
SC2PREOUTRTLO
SC2PREOUTRTHI
AGND
AGND
AGND
HI1
AGND
LO1
36/1 36/2
36/3
36/5 36/6
36/7 36/8
36/9 36/10
36/11 36/12
36/13 36/14
36/15 36/16
36/17 36/18
36/19 36/20
36/23
36/25 36/26
36/27
36/30
36/33
36/36
36/4
36/24
12 24
25
23
10
11
9 21
22
20
7
8
6 18
19
17
4
5
3 15
16
142
13
12
24
25
23 10
11
9
21
22
8
13
20 7
6
18
19
17 4
5
3
15
16
14 1
2
120/67
120/71
120/73
120/75
120/77
120/79
120/87
120/89
120/91
120/93
120/95
120/97
120/99
120/101
120/103
120/105
120/111
120/113
120/119
120/85
120/83
120/81
120/117
120/107
120/109
120/69
120/4
120/6
120/8
120/10
120/12
120/14
120/16
120/18
120/20
120/22
120/24
120/26
120/28
120/34
120/36
120/38
120/46
120/48
120/50
120/52
120/54
120/56
120/58
120/60
120/62
120/64
120/66
120/68
120/72
120/74
120/76
120/78
120/86
120/88
120/90
120/92
120/94
120/96
120/98
120/100
120/102
120/104
120/106
120/110
120/112
120/114
120/118
120/44
120/84
120/42
120/82
120/40
120/80
120/120
120/108
120/70
120/32
120/30
120/2
120/3
120/5
120/7
120/9
120/11
120/13
120/15
120/17
120/19
120/21
120/23
120/25
120/27
120/29
120/31
120/35
120/51
120/53
120/55
120/57
120/59
120/63
120/65
120/33
120/61
120/1
120/37
120/39
120/47
120/49
120/45
120/43
120/41
36/22
36/28
36/32
36/34
36/21
36/29
36/31
36/35
1
120/116120/115
3635
3433
3231
3029
2827
2625
2423
2221
2019
1817
1615
1413
1211
109
87
65
43
21
CT8
1 2
3 4
5 6
7 8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
81 82
83 84
85 86
87 88
89 90
91 92
93 94
95 96
97 98
99 100
101 102
103 104
105 106
107 108
109 110
111 112
113 114
115 116
117 118
119 120
CT9
600 Industrial DriveNew Bern, NC 28562
Page 14-27
3 OF 4W# 700308
SCD-500
SCD-500 Studio Control Module Schematic - Sheet 3 of 3
SA
_
SCD-500B PCB
14S0067B
D-500/Jul 2001
7-25-01
REVSIZE
SCALE
FSCM NO. DWG. NO.
SHEET
CONTRACT NO.
APPROVALS DATE
DRAWN
CHECKED
ISSUED C
1234
4 3 2 1
A
C
DD
C
B
A
B
LOWERDB-25
LOWERDB-25
LOWERDB-25
120 PIN EDGE CONNECTOR36 PIN EDGE CONNECTOR
UPPERDB-25
UPPERDB-25
LOWERDB-25
CONNECTORS BUSS CHART
AGND
TBOUTLO TBOUTHI
AGND
SPAREHI AGND
SC2OUTLTLO SC2OUTLTHI
AGND SC2OUTRTLO
SC2OUTRTHI AGND
AGND
AGND
AGND
SC1OUTLTLO SC1OUTLTHI
SC1OUTRTLO
SC1OUTRTHI
AGND
AGND
AGND
AGND
AGND
AGND
TALLY2RELAYCOM
TALLY2RELAYNO
AGND EXT1LTLO
EXT1LTHI AGND
EXT1RTHI
AGND
EXT1RTLO
EXT2LTLO
EXT2LTHI AGND
EXT2RTLO EXT2RTHI
XDSPPGM XDSPAUD
XDSPAUX XDSPUTL
PGMLTMONITOR AGND
PGMRTMONITOR AGND
AUDLTMONITOR AGND
AUDRTMONITOR AGND
AUXLTMONITOR AGND
AUXRTMONITOR
UTLLTMONITOR AGND
UTLRTMONITOR AGND
CUELTMONITOR AGND
CUERTMONITOR AGND
TEL12MONITOR AGND
TEL34MONITOR AGND
TBMONITOR AGND
ICMCUE AGND
XDCUELOGIC XDCRMUTE
XDST1MUTE XDST2MUTE
XDTIMERRESTART XDONAIRTALLY
XDTALLY2 XDTALLY3
V+in V+in
+40Vin
V-in V-in
GND
GND
TEL12_34
XDRESET TEL34_12
XDBUSIN GND
XDFRMOUT GND
XDTDMOUT1 GND
XDTDMOUT2 GND
XDSEROUT GND
XDSERCLK GND
XDSERFRM GND
XDSERIN GND
XDDINT GND
SIGX GND
GND
GND
GND
XDCSA7
GND
XDFRMX
XDCLKX
XDCSA8 XDCSA9
GND GND
+DIG+DIG
+DIG+DIG
XDCSA4 XDCSA5
XDCSA6
XDA9
XDAD3
XDAD0
XDAD1 XDAD2
XDAD4
XDAD5 XDAD6
XDAD7 XDA8
XDWR
GND XDDS
XDAS
GND
GND
AGND
SC1PREOUTRTLO SC1PREOUTRTHI
TALLY3RELAYNOTALLY3RELAYCOM
SC2PREOUTRTHISC2PREOUTRTLO
SC2PREOUTLTHI
SC1PREOUTLTHI
SC1PREOUTLTLO
SC2PREOUTLTLO
120BUSPIN115 120BUSPIN116
SPARELO
E
D-500/Jun 2000 Page 5-5aSPND-500 Super Phone Module Schematic - Sheet 2 of 4
6-20-00SA
SA
SA
W# 700222
SPND-500
14S0061SPND-500E PCB 2 OF 4
CHECKED
ISSUED
DRAWN
CONTRACT NO.
APPROVALS DATE
SCALE SHEETD
REVDWG. NO.FSCM NO.SIZE
8 7 6 5 4 3 2 1
12345678
A
B
C
D D
C
B
A
600 Industrial DriveNew Bern, NC 28562
E3 OF 3SPND-500E PCB
14S0062
SPND-500
W# 700222SA
SA
SA 6-20-00
SPND-500 Super Phone Module Schematic - Sheet 3 of 4Page 5-5bD-500/Jun 2000
A
C
D
B
4 3 2 1
D
C
B
A
234 1
APPROVALS DATE
ISSUED
CHECKED
DRAWN
CONTRACT NO.
CREV
SHEET
DWG. NO.SIZE
SCALE
FSCM NO.
600 Industrial DriveNew Bern, NC 28562
-2dBu
COMPOSITEOUT
HILDB24
LOLDB12
AGND
U161
2
3
4
5
6
7
8SSM2142
-
+
gnd
V+
+
V-
C68
68pF
AGND
C61
68pF
AGNDAGND
SHLDB25
CALLERSTO TRACK 1OUT
LDB10 HI
LDB23 LO
AGNDC66
68pF
AGND
C59
68pF
AGNDAGND
LDB11 SH
LDB9 LO
AGND
U14
8
7
6
5
4
3
2
1
SSM2142
-
+
gnd
V+
+
V-
C65
68pF
AGND
C58
68pF
AGNDAGND
LDB22 SH
TO HYBRID 1OUT
HILDB7
LOLDB20
AGND
U13
8
7
6
5
4
3
2
1
SSM2142
-
+
gnd
V+
+
V-
C63
68pF
AGND
C56
68pF
AGNDAGND
SHLDB8
LOLDB6
AGNDC62
68pF
AGND
C55
68pF
AGNDAGND
SHLDB19
LDB21 CALLERSTO TRACK 2&3OUT
HI
TO HYBRID2OUT
HILDB18
R54
10.0K
R53
4.99K
AGND
R65
10.0K
R44
4.99K
AGND
U105532
4
8
7
6
5
V+
-
+
V-
33pF
C45
33pF
C35
CR7
10K
13
2
CR8
2
3 1
10K
R43
10.0K
R42
10.0K
R41
10.0K
R55
10.0K
AGND
R38
10.0K
R49
4.99K
33pF
C43
CR5
10K
13
2
R50
10.0K
U95532
4
8
1
2
3
V+
-
+
V-
R51
10.0K
R39
4.99K
AGND
33pF
C44
CR6
2
3 1
10K
R52
10.0K
R40
10.0K
R36
10.0K
R48
4.99K
AGND
33pF
C42
R34
10.0K
R35
10.0K
U95
6
7
8
4
5532
V+
-
+
V-
U83
2
1
8
4
5532
V+
-
+
V-
AGND
R56
22.1K
R66
88.7K
AGND
C46
10pF
-14dBu
-2dBu
CT1
7
96
10K
C31 22uF
AGND
R67
22.1K
R57
88.7K
AGND
C39
10pF
-14dBu
-2dBu
C50 22uF
U11
4
8
1
2
5532
3
V+
-
+
V-
C51100uF
C52100uF
-2dBu
-2dBu
-2dBu
-2dBu
36/30
36/28
36/29
36/31
36/32
36/33
36/34
36/35
36/36
120/1
120/2
120/3
120/4
120/5
U4
6
34
9
5
4053
X
Y
S
INH
X_Y
U4
6 12
14
11
13
4053
X
Y
S
INH
X_Y
AGND
GND
R64
10.0K
R63
10.0K
R33
10.0K
AGND
R62
10.0K
R26
4.99K
R28
4.99K AGND
R3
220
C6
330pF
U13
2
15532
4
8
V+
-
+
V-
C19100uF
CR1
10K
13
2
R27
40.2K
AGND
R8
220
AGND
33pF
C40
CR2
2
3 1
10K
4.99K
R46
4.99K
R59
C8
330pF
U23
2
1
8
4
5532
V+
-
+V-
R17
20.0K
4.99K
R58
R16
20.0K
R29
10
R20
10
R30
10
R21
10
C29
3900pF
C14
3900pF
AGND
AGND
AGND GND
L1
FERR
VCCVCCadc
VCCadc
C16
.1uF
C26
.1uF
R23
4.99K
R22
4.99K
VCCadc
-2dBu
-2dBu
36/2
36/4
36/5
36/6
36/8
36/9
36/10
36/11
36/12
36/13
36/14
36/1
36/3
36/10
VCC
-2dBu
-18dBu
-2dBu
C2
330pF
U15
6
7
8
4
5532
V+
-
+
V-
R4
2.43K
R13
2.43K
-6dBu
-6dBu
C4
330pF
U25532
4
8
7
6
5
V+
-
+
V-
R10
2.43K
R11
2.43K
-18dBu
AGND
33pF
C33
U7
4
8
5532 7
6
5
V+
-
+
V-
4.99K
R45
4.99K
R47
AGND
AGND
AGND
AGND
AGND
3
7
8
AGND
AGND
AGND
AGND
2
VA+
AGND
C12
0.1uF
C27
0.1uF
VCCadc VCCadc VCCadc
C25
0.1uF
GND
VCC
C32
0.1uF
C41
0.1uF
C64
0.1uF
C57
0.1uF
C38
0.1uF
C47
0.1uF
C53
0.1uF
C54
0.1uF
C67
0.1uF
C9
0.1uF
C3
0.1uF
R1
2.43K
R12
2.43K
R61
2.43K
R60
10
U85
6
7
8
4
5532
V+
-
+
V-
AGND
33pF
C34
R37
2.43K
CR4
2
3 1
10K
AGND
9 PIN JSTCONNECTORPINOUTVIEWED FROMABOVE(COMPONENTSIDE)
7
8
9
1
2
3
4
5
6
-2dBu
CT5
1
14
13
12
11
10
9
8
7
6
5
4
3
2
CT3
1
14
13
12
11
10
9
8
7
6
5
4
3
2
CT4
1
14
13
12
11
10
9
8
7
6
5
4
3
2
GND
C60
0.1uF
74VHC4053NIC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
X_Yc
Xc
Yc
X_YbYb
Xb
Ya
X_Ya
Xa
16
15
14
13
12
11
10
98
7
6
5
4
3
2
1 VDD
A
B
CVSS
VEE
INH
SSM2142 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
V+
V-IN
GND
OUT+
SNC+SNC-
OUT- 8
7
6
5
1
2
3
4
VIEWED FROM ABOVE(COMPONENT SIDE)
NE5532/TL072/OP-275 IC PINOUT
4
3
2
1
5
6
7
8
OUT
IN+
IN-
V+OUT
IN+
IN-
V-
-2dBu
CT2 69
710K
U115
6
7
8
4
5532
V+
-
+
V-
U73
5532
2
1
8
4
V+
-
+
V-
U4
6
115
10
2
4053
X
Y
S
INH
X_Y
SW2
CUEPRE/POST
65
4
32
1
SLIDESW
SW1
EXT INSLIDESW
12
3
45
6
U12
8
7
6
5
4
3
2
1
SSM2142
-
+
gnd
V+
+
V-
U103
2
1
8
4
5532
V+
-
+
V-
U15
8
7
6
5
4
3
2
1
SSM2142
-
+
gnd
V+
+
V-
CR3
2
3 1
10K
J2 J1
J4
C17
1uF
C24
22uF
C22
10uF
C36
100uF
C37
1uF
C48
100uF
C1
1uF
C5
1uF
C49
100uF
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
Vdd
Vee12
24
6
23
10
11
9
21
22
20
7
8
19
18
12
24
25
23
10
11
9
21
22
20
7
8
19
13
600 Industrial DriveNew Bern, NC 28562
D-600/Jan 2000
1-26-00
14S1042
SPNA-600 PCBW# 700561
SPNA-600
SPND-600 Super Phone Module Schematic - Sheet 5 of 5 Page 5-5
SA
1 OF 1
D
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
AGNDAGNDAGND
AGND
C23
10uF
AGND
AGNDAGNDAGND
2.5V 2.5V
2.5V 2.5V
2.5V
R19
475
R18
475
AGND
C10
0.1uF
AGND
C11
100uF
AGND
C7
0.1uF
AGND
C2022uF
C2122uF
U611 10
74AC14
U643
74AC14
R32
4.99K
U613 12
74AC14
U61 2
74AC14
U65 6
74AC14D104148
D94148
U6
9 8
14
7
74AC14
AGND
AGND
VCCadc
VCCadc
C30
100uF
AGND
AGND
GND
R14
10.0K
R6
40.2K
AGND
R15
10.0K
AGND U34053
5
9
4 3
6X
Y
S
INH
X_Y
U34053
13
11
14
126X
Y
S
INH
X_Y
U34053
2
10
15 1
6X
Y
S
INH
X_YC69100uF
C15
0.1uF
C18
0.1uF
R31
40.2K
AGND
R5
39
R9
39
D7SS14
D6SS14
D8SS14
D5SS14
AGND
VA+
D3SS14
D2SS14
D4SS14
D1SS14
AGND
VA+
R7
39
R2
39
VCCadc
R25
4.99K
J3
AGND
VA+ VCCadc
AGNDAGND AGND
U5
28
27 26
25
24
23
22 21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
AK5392
VD
LRCK
DGND
AINR-
AINR+
SDATA
SCLK
AINL-
AINL+ VREFL
VREFR
GNDL
GNDR
MCLK
FSYNC
VCOML
VCOMR
ZCAL
RST
SMODE1
SMODE2
CMODE
HPFE
TEST
AGND
BGND
CAL
VA
C13
0.22uF
AGND
AGND
C28
0.22uF
AK5392IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VREFR
GNDR
VCOMR
BGND
TEST
HPFE
CMODE
MCLK
FSYNC
SMODE1
SMODE2
RST
AGND
ZCAL
VCOML
GNDL
VREFL
AGND
VA
LRCK
VD
CAL
AINL-
AINL+
20
19
18
17
10
9
8
7
6
5
4
3
2
1
11
12
13
14 15
16
21
22
23
24
25
26
27
28
SCLK SDATA
AINR-
AINR+
R24
4.99K
VCCadc
Z31N4735
Z1C5V1
Z2C5V1
Q1
1 2
3 PQ05
GND
VIN OUT
+4dBu BAL
+4dBu BAL
+4dBu BAL
+4dBu BAL
+4dBu BAL
NOTE 1: PHASE SYMBOLS DENOTE SIGNAL POLARITY
IN PHASE OUT OF PHASE
UPPERDB-25
LOWERDB-25
NOTINSTALLED
COMPOUTHI
COMPOUTLO
TRACK1OUTHI
TRACK1OUTLO
TRACK23OUTHI
TRACK23OUTLO
HYBRID1OUTHI
HYBRID1OUTLO
HYBRID2OUTHI
HYBRID2OUTLO
AGND
COMPOUTLO
COMPOUTHI
TRACK1OUTLO
TRACK1OUTHI
AGND
TRACK23OUTLO
TRACK23OUTHI
AGND
HYBRID1OUTLO
HYBRID1OUTHI
AGND
HYBRID2OUTLO
HYBRID2OUTHI
CUE2ON
CUE1ON
TELMONITOR
TEL1234IN
CALL1PRE
CALL2PRE
DBMCLK
DBSDATA
DBSCLK
AGND
AGND
EXT1PRE
AGND
AGND
AGND
AGND
AGND
AGND
CALL2PRE
AGND
V+
V-
CALL1PRE
DBMCLK
DBLR
DBSCLK
DBSDATA
PRESET
CUE1ON
CUE2ON
TEL1234IN
TEL1234OUT
TELMONITOR
TEL1234OUT
EXT1PRE
DBLR
RST
VREFR
VREFL
PRESET RST
TBMONITOR
CUE1ON
CUE2ON
TBMONITOR
VCOMR
VCOML
AGND
AGND
AGND
AGND
AGND
AGND
AGND
4.99K
R134
-2dBu
HIOADB7
AGND
68pF
C6
AGND
68pF
C7
AGND
NE5532
8
4
2
1
3U39
V+
-
+
V-
AGND
C108
33pF
4.99K
R113
-2dBu
LOOADB3
SSM2143
7
6
5
4
3
2
1
U5
V+
-
+
V-
VIEWED FROM ABOVE(COMPONENT SIDE)
SSM2143 IC PINOUT
N/C
SENCE
REF 8
7
6
5
1
2
3
4
IN+
IN-
V-
OUT
V+
VIEWED FROM ABOVE(COMPONENT SIDE)
SSM2142 IC PINOUT
V+
V-IN
GND
OUT+
SNC+SNC-
OUT- 8
7
6
5
1
2
3
4
VIEWED FROM ABOVE(COMPONENT SIDE)
NE5532IC PINOUT
4
3
2
1
5
6
7
8
OUT
IN+
IN-
V+OUT
IN+
IN-
V-
AGND
SHOADB8
AGND
IA1DB25SH
IA1DB24HI
IA1DB12LO
HIOADB1
AGND
68pF
C21
AGND
68pF
C22
AGND
4
8
NE5532 7
6
5U39
V+
-
+
V-
AGND
33pF
C125
4.99K
R151
-2dBu
LOOADB6
AGND
AGND
4.99K
R133
-2dBu
1
2
3
4
5
6
7
SSM2143U13
V+
-
+
V-
AGND
IA1DB11SH
IA1DB10HI
IA1DB23LO
AGND
4.99K
R132
-2dBu
1
2
3
4
5
6
7
SSM2143U22
V+
-
+
V-
AGND
IA1DB22SH
IA1DB21HI
IA1DB9LO
AGND
4.99K
R127
-2dBu
SSM2143
7
6
5
4
3
2
1
U31
V+
-
+
V-
AGND
IA1DB8SH
IA1DB7HI
IA1DB20LO
AGND
4.99K
R124
-2dBu
1
2
3
4
5
6
7
SSM2143U4
V+
-
+
V-
AGND
IA1DB19SH
IA1DB18HI
IA1DB6LO
AGND
4.99K
R122
-2dBu
SSM2143
7
6
5
4
3
2
1
U12
V+
-
+
V-
AGND
IA1DB5SH
IA1DB4HI
IA1DB17LO
AGND
4.99K
R120
-2dBu
AGND
IA1DB2SH
IA1DB1HI
IA1DB14LO
AGND
4.99K
R118
-2dBu
SSM2143
7
6
5
4
3
2
1
U30
V+
-
+
V-
AGND
IA1DB16SH
IA1DB15HI
IA1DB3LO 1
2
3
4
5
6
7
SSM2143U21
V+
-
+
V-
1
2
3
4
5
6
7
8
U9SSM2142
-
+
gnd
V+
+
V-
8
7
6
5
4
3
2
1U1SSM2142
-
+
gnd
V+
+
V-
SHOADB2
AGND
4.99K
R130
-2dBu
1
2
3
4
5
6
7
SSM2143U3
V+
-
+
V-
AGND
AGND
4.99K
R129
-2dBu
SSM2143
7
6
5
4
3
2
1
U11
V+
-
+
V-
AGND
AGND
4.99K
R128
-2dBu
SSM2143
7
6
5
4
3
2
1
U20
V+
-
+
V-
AGND
AGND
4.99K
R126
-2dBu
1
2
3
4
5
6
7
SSM2143U29
V+
-
+
V-
AGND
AGND
4.99K
R123
-2dBu
SSM2143
7
6
5
4
3
2
1
U2
V+
-
+
V-
AGND
AGND
4.99K
R121
-2dBu
1
2
3
4
5
6
7
SSM2143U10
V+
-
+
V-
AGND
AGND
4.99K
R119
-2dBu
AGND
AGND
4.99K
R125
-2dBu
1
2
3
4
5
6
7
SSM2143U28
V+
-
+
V-
AGND
SSM2143
7
6
5
4
3
2
1
U19
V+
-
+
V-
IA2DB25SH
IA2DB24HI
IA2DB12LO
IA2DB11SH
IA2DB10HI
IA2DB23LO
IA2DB22SH
IA2DB21HI
IA2DB9LO
IA2DB8SH
IA2DB7HI
IA2DB20LO
IA2DB19SH
IA2DB18HI
IA2DB6LO
IA2DB5SH
IA2DB4HI
IA2DB17LO
IA2DB2SH
IA2DB1HI
IA2DB14LO
IA2DB16SH
IA2DB15HI
IA2DB3LO
ALINE[1]L
ALINE[1]R
ALINE[2]L
ALINE[2]R
ALINE[3]L
ALINE[3]R
ALINE[4]L
ALINE[4]R
ALINE[5]L
ALINE[5]R
ALINE[6]L
ALINE[6]R
ALINE[7]L
ALINE[7]R
ALINE[8]L
ALINE[8]R
AGND
6
34
9
5
4053U45
X
Y
S
INH
X_Y
6 12
14
11
13
4053U45
X
Y
S
INH
X_Y
6
115
10
2
4053U45
X
Y
S
INH
X_Y
4053
5
9
4 3
6
U44
X
Y
S
INH
X_Y
4053
13
11
14
126
U44
X
Y
S
INH
X_Y
4053
2
10
15 1
6
U44
X
Y
S
INH
X_Y
4053
5
9
4 3
6
U43
X
Y
S
INH
X_Y
4053
13
11
14
126
U43
X
Y
S
INH
X_Y
4053
2
10
15 1
6
U43
X
Y
S
INH
X_Y
4053
5
9
4 3
6
U42
X
Y
S
INH
X_Y
4053
13
11
14
126
U42
X
Y
S
INH
X_Y
4053
2
10
15 1
6
U42
X
Y
S
INH
X_Y
4053
5
9
4 3
6
U41
X
Y
S
INH
X_Y
4053
13
11
14
126
U41
X
Y
S
INH
X_Y
4053
2
10
15 1
6
U41
X
Y
S
INH
X_Y
4053
5
9
4 3
6
U40
X
Y
S
INH
X_Y
4053
2
10
15 1
6
U40
X
Y
S
INH
X_Y
4053
13
11
14
126
U40
X
Y
S
INH
X_Y
ALINE[1]L
ALINE[1]R
ALINE[2]L
ALINE[2]R
ALINE[3]L
ALINE[3]R
ALINE[4]L
ALINE[4]R
ALINE[5]L
ALINE[5]R
ALINE[6]L
ALINE[6]R
ALINE[7]L
ALINE[7]R
ALINE[8]L
ALINE[8]R
ALINE[1]ON
ALINE[1]ON
ALINE[2]ON
ALINE[2]ON
ALINE[3]ON
ALINE[3]ON
ALINE[4]ON
ALINE[4]ON
ALINE[5]ON
ALINE[5]ON
ALINE[6]ON
ALINE[6]ON
ALINE[7]ON
ALINE[8]ON
ALINE[7]ON
ALINE[8]ON
40.2K
R150
AGND
40.2K
R115
AGND
220
R14
3
10K
13
2
CR5
220
R14
7
2
3 1
10K
CR6
4.99K
R14
6
10R90
10R93
10R91
10R94
VCC
-2dBu
2.43K
R104
2.43K
R14
5
-2dBu
-2dBu
2.43K
R109
2.43K
R14
9
-2dBu
CS5390IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
20
19
18
17
10
9
8
7
6
5
4
3
2
1
11
12
13
14 15
16
21
22
23
24
25
26
27
28AGND
APD
AINL+
AINL-
ACAL
LGND
VL+
TSTO1
DCAL
DPD
CMODE
SMODE
L/R
SCLK SDATA
FSYNC
VD+
DGND
ICLKD
OCLKD
TSTO2
ICLKA
VA+
VA-
AINR-
AINR+
VREF-
VREF+
4.99K
R14
2
NE5532
4
8
7
6
5U38
V+
-
+
V-
NE5532
5
6
7
8
4
U37
V+
-
+
V-
NE5532
3
2
1
8
4
U38
V+
-
+
V-
NE5532
3
2
1
4
8
U37
V+
-
+
V-
C119
330pF
C120
330pF
C104
330pF
C105
330pF
3900pF
C93
C113
0.1uF
VCCadc
VCCadc VCCadc VCCadc
AGND
VIEWED FROM ABOVE(COMPONENT SIDE)
74VHC4053IC PINOUT
X_Yc
Xc
Yc
X_YbYb
Xb
Ya
X_Ya
Xa
16
15
14
13
12
11
10
98
7
6
5
4
3
2
1 VDD
A
B
CVSS
VEE
INH
J6
VA+
AGND
1.30K
R131
1.30K
R135
0.1uF
C95
0.1uF
C26
0.1uF
C25
0.1uF
C24
0.1uF
C23
0.1uF
C75
0.1uF
C74
0.1uF
C28
0.1uF
C27
0.1uF
C77
0.1uF
C76
0.1uF
C30
0.1uF
C29
F2
POLYSW1.0A
F3
POLYSW1.0A 4
.99K
R116
4.99K
R117
1.00K
R72
AGND
2
3 1
10K
CR3
1.00K
R82
10K
13
2
CR4
AGND
4.99K
R114
-2dBu
-2dBu
4.99K
R73
5
6
7
4
8
NE5532U27
V+
-
+
V-
8
4
1
2
3
NE5532U27
V+
-
+
V-
33pF
C68
33pF
C85
40.2K
R81
AGND
40.2K
R74
AGND
1.00K
R60
AGND
10K
13
2
CR1
1.00K
R65
2
3 1
10K
CR2
AGND
4.99K
R64
-2dBu
-2dBu
4.99K
R61
5
6
7NE5532
8
4
U18
V+
-
+
V-
NE5532
3
2
1
4
8
U18
V+
-
+
V-
33pF
C48
33pF
C54
3900pF
C92
0.1uF
C11
0.1uF
C10
0.1uF
C49
0.1uF
C53
C109
0.1uF
0.1uF
C124
40.2K
R57
AGND
40.2K
R56
AGND
0.1uF
C71
0.1uF
C70
0.1uF
C73
0.1uF
C72
8
9
AGND
AGND
AGND
AGND
10
11
4
5
AGND
AGND
AGND
AGND
6
7
13
16
AGND
AGND
AGND
12
22uF C15
100uFC123
100uFC126
22uF C39
22uF C58
22uF C89
22uF C14
22uF C38
22uF C57
22uF C88
22uF C13
22uF C37
22uF C56
22uF C87
22uF C12
22uF C36
22uF C55
22uF C86
C107100uF
100uF C67
100uF C69
C110100uF
100uFC47
100uFC50
GND
GND
L1
FERR
C114
1uF22uF
C127
Z2C5V1
Z3C5V1
100uF
C121
100uF
C122
100uF
C91
1uF
C94 C112
100uF
C111
100uF
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
Vdd
Vee
600 Industrial DriveNew Bern, NC 28562
14S0073D
LSR-500D PCB
5-12-00
D-500/May 2000
LSR-500 Digital/ Audio Line Select Rackmount Schematic - Sheet 1 of 3
1 OF 3
SA
Page 5-5c
W# 700223
LSR-500
D
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
AGND AGND AGND
Z4
1N4735
4.99K
R138
J4
.1uF
C80
AGND
AGND
VA+ VCCadc
VCCadc
4.99K
R137
.1uF
C82
VCCadc
AGND
J3
10uF
C61
AGNDAGND
AGND
10uF
C81
AGND
AGNDAGND AGND
40.2K
R139
AGND
AK5392
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2122
23
24
25
2627
28
U33
VD
LRCK
DGND
AINR-
AINR+
SDATA
SCLK
AINL-
AINL+ VREFL
VREFR
GNDL
GNDR
MCLK
FSYNC
VCOML
VCOMR
ZCAL
RST
SMODE1
SMODE2
CMODE
HPFE
TEST
AGND
BGND
CAL
VA
4.99K
R140
VCCadc
0.22uF
C83
AGND
AGND
0.22uF
C79
AGND
J2
VCCadc
39
R14
4
39
R14
8
39
R103
39
R106
2.5V 2.5V
2.5V2.5V
2.5V
475
R154
475
R155
AGND
C106
0.1uF
AGND
100uF
C138
AGND
C103
0.1uF
AGND
65
4
U32
74ACT32
GND
VA+
AGND
D31SS14
D32 SS14
D34SS14
D33 SS14
VA+
AGND
D35SS14
D36 SS14
D38SS14
D37 SS14
D16 SS14
D18SS14
D171N4002
D151N4002
3
21
PQ05
Q2
GND
VIN OUT
4.99K R92
RT
RT
RT
RT
RTRT
RT
RT
RT
ANALOGLINE5 IN
ANALOGLINE4 IN
ANALOGLINE3 IN
ANALOGLINE2 IN
ANALOGLINE1 IN
ANALOGLINE6 IN
ANALOGLINE7 IN
ANALOGLINE8 IN
+4dBu BAL
LT
+4dBu BAL
+4dBu BAL
LT
+4dBu BAL
+4dBu BAL
LT
+4dBu BAL
+4dBu BAL
LT
+4dBu BAL
NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY
IN PHASE OUT OF PHASE
+4dBu BAL
+4dBu BAL
LT
LT
+4dBu BAL
ANALOGLINEOUT
+4dBu BAL
+4dBu BAL
LT
+4dBu BAL
+4dBu BAL
LT
+4dBu BAL
+4dBu BAL
LT
+4dBu BAL
+2.5V DC
+2.5V DC
+2.5V DC
+2.5V DC
NOTINSTALLED
RT
LT
LT
RT
ALINE1LTINLO
ALINE1LTINHI
AOUTLTHI
AOUTLTLO
AOUTRTLO
AOUTRTHI
ALINE1RTINHI
ALINE1RTINLO
ALINE2LTINHI
ALINE2LTINLO
ALINE2RTINLO
ALINE2RTINHI
ALINE3LTINHI
ALINE3LTINLO
ALINE3RTINLO
ALINE3RTINHI
ALINE4LTINLO
ALINE4RTINLO
ALINE5LTINLO
ALINE5LTINHI
ALINE5RTINHI
ALINE5RTINLO
ALINE6LTINHI
ALINE6LTINLO
ALINE6RTINLO
ALINE6RTINHI
ALINE7LTINHI
ALINE7LTINLO
ALINE7RTINLO
ALINE7RTINHI
ALINE8LTINHI
ALINE8LTINLO
ALINE8RTINLO
ALINE8RTINHI
ALINE4LTINHI
ALINE4RTINHI
ALINE[1:8]L,ALINE[1:8]R
ALINE[1:8]ON
-Vrack
+Vrack
ANA
DACLT
DACRT
VREFR
VREFL
VCOMR
VCOML
ADCLR
ADCSCK
ADCMCK
RESET
ADCDATA
SH IDDB25
HI IDDB24
LO IDDB12
SH IDDB11
HI IDDB10
LO IDDB23
SH IDDB22
HI IDDB21
LO IDDB9
SH IDDB8
HI IDDB7
LO IDDB20
SH IDDB19
HI IDDB18
LO IDDB6
SH IDDB5
HI IDDB4
LO IDDB17
SH IDDB2
HI IDDB1
LO IDDB14
SH IDDB16
HI IDDB15
LO IDDB3
GND
GND
GND
GND
GND
GND
GND
GND
AES/SPDIF
SW6
AES/SPDIF
SW4
220
R18
220
R55
220
R17
220
R54
220
R53
4.99K
R49
4.99K
R48
220
R16
AM26C32A
1
2
3
4
5
6
7
9
10
11
12
1314
15
U8
EN
A+
A-
B+
OUTAB-
OUTBC+
OUTCC-
OUTDD+
D-
EN
VCC
AES/SPDIF
SW10
220
R71
220
R112
220
R70
220
R111
220
R110
220
R69
AES/SPDIF
SW5
AES/SPDIF
SW3
220
R15
220
R52
220
R14
220
R51
220
R50
220
R13
AES/SPDIF
SW9
AES/SPDIF
SW7
220
R68
220
R108
220
R67
220
R107
220
R105
220
R66
4.99K
R63
4.99K
R59
15
14 13
12
11
10
9
7
6
5
4
3
2
1
AM26C32A
U17
EN
A+
A-
B+
OUTAB-
OUTBC+
OUTCC-
OUTDD+
D-
EN
VCC
AES/SPDIF
SW8
VCC
1.0APOLYSW
F1
VCC
VCCVCC
VCCVCC
15
14
13
12
11
10
9
7
6
5
4
3
2
1
U14
74HC148
I0
I1
A0I2
A1I3
A2I4
GSI5
I6
EOI7
EI
IDDB19SH
LINE 7 LOGIC IDDB18
LINE 8 LOGIC IDDB6
IDDB5SH
LINE 5 LOGIC IDDB4
LINE 6 LOGIC IDDB17
IDDB2SH
LINE 1 LOGIC IDDB1
LINE 2 LOGIC IDDB14
IDDB16SH
LINE 3 LOGIC IDDB15
LINE 4 LOGIC IDDB3
GND
4.99K
R58
1.00K
R26
VCC
1.00K
R28
VCC
1.00K
R24
VCC
1.00K
R30
VCC
1.00K
R22
VCC
1.00K
R32
VCC
1.00K
R20
VCC
1.00K
R34
VCC
39
R19
39
R21
39
R23
39
R25
39
R27
39
R29
39
R31
39
R33
VCC VCC VCC VCC VCC VCC VCC VCC
10.0K
R8
10.0K
R7
10.0K
R6
10.0K
R5
10.0K
R4
10.0K
R3
10.0K
R2
10.0K
R1
4
3
2
1SW2
1
2
3
4
SW1
VCC
VCC VCC
1K
R47
CS8412
1
2
3
4
5
6
7
8
9
10 11
12
13
14
15
16
17
18
20
21
22
23
24
25
26
27
28
19
U16
C
U
VERF
Ca/E1
Cb/E2
Cc/F0
Cd/F1
C0/E0
CBL
ERF
FSYNC
SCK
SDATA
FILT
VD+
DGND
Ce/F2
MCK
SEL
RXP
RXN
FCK
M0
M1
M2
M3
AGND
VA+
4.99K
R62
CT8
1
10
9
8
7
6
5
4
3
2
3
4
6
5
7
2 1
39
19
42
38
11
9
8
20
40
30
15
17
16
24
22
13
14
18
12
26
43
44
25
27
28
29
37
34
35
33
36
U15
I/O20/GTS1
I/O1
I/O2
I/O3/GCK1
I/O4
I/O6
I/O8
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
I/O15
I/O16
I/O17
I/O18
I/O19
I/O21
I/O24
I/O25
I/O26
I/O27
I/O28
I/O29
I/O30
I/O31
I/O32
I/O33
I/O34
I/O5/GCK2
I/O7/GCK3
I/O23/GSR
I/O22/GTS2
TCK
TDI
TDO
TMS
XC9536
4.99K
R12
220
R9
220
R10
VCC
CS8402A
14
13
24
23
22
21
20
17
16
15
12
11
10
9
8
7
6
5
4
3
2
1
U7
EM1/C8
TRNPT/FC1
M2
M1
M0
TXP
TXN
RST
CBL/SBC
U
C/SBF
V
SDATA
FSYNC
SCK
MCK
C9/C15
C6/C2
C1/FCO
PRO
C7/C3
EM0/C9
SHODDB2
GND
ODDB6
ODDB1
4.99K
R45
4.99K
R44
4.99K
R46
VCC
SW[0]
SW[1]
SW[2]
SW[3]
SW[4]
SW[5]
SW[6]
SW[7]
SW[0]
SW[1]
SW[2]
SW[3]
SW[4]
SW[5]
SW[6]
SW[7]
1.30K
R97
1.30K
R158
1.30K
R161
1.30K
R100
5.49K
R156
5.49K
R159
5.49K
R95
5.49K
R98
16.5K
R96
16.5K
R157
16.5K
R160
16.5K
R99
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
5
6
7
8
4
NE5532U36
V+
-
+
V-
4
8
1
2
3
NE5532U36
V+
-
+
V-
-2dBu
-2dBu
VAd+VD+
VCC
1.00K
R78
4.99K
R141
1.00K
R79
108
9
U32
74ACT32
1
23
U32
74ACT32
1113
12
74ACT32
U32
10J5
VAd+ VD+
AGND AGNDAGND AGNDAGNDAGND AGNDAGND
98
10 U24
74ACT32
32
1
U24
74ACT324
56
U24
74ACT32
74ACT32
12
1311
U24
108
9
U23
74ACT32
1
23
U23
74ACT32
65
4
U23
74ACT32
1113
12
74ACT32
U23
L4
L3
L2
L1
L5
L6
L7
L8
0.1uF
C2
0.1uF
C1
0.1uF
C35
0.1uF
C32
0.1uF
C18
0.1uF
C31
0.1uF
C3
0.01uF
C63
0.01uF
C51
0.1uF
C34
0.1uF
C43
2200pF
C100
2200pF
C99
2200pF
C135
2200pF
C134
0.1uF
C131
0.1uF
C129
VCCVCC
0.1uF
C42
0.1uF
C16
VCC
0.1uF
C33
VCCVCC
VCCVCC
0.1uF
C64
0.1uF
C17
0.1uF
C52
0.1uF
C62
VCC
0.1uF
C44
VCC
0.1uF
C41
VCC
0.1uF
C40
V-
AGND
IDDB8SH
IDDB20CONSOLE RESET
IDDB9CONSOLE CLOCK
39
R37
39
R41
1.00K
R38
VCC
1.00K
R42
VCC
J1
4.99K
R43
VCC
VCC
10.0K
R101 16.5K
R102
1.0K
R80
VCC
SS14D1
SS14D2
SS14D3
SS14D4
SS14D5
SS14D6
SS14D7
SS14D8
SS14D12
SS14D10
GND
GND
GND
GND
GNDGND
GNDGND
GND GNDGND GNDGND GNDGND GND
GND
GND
GND
GND GND
GNDGND
GND
GND
GNDGND
GND
GNDGND
GNDGND
GND GNDGND
GNDGND
GND
GND
VCC
VCC
GND
4.99K
R77
DIP SOCKET FOR OSCILATOR.
14
13
12
11
10
9
87
6
5
4
3
2
1
CT9
14
13
12
11
10
9
87
6
5
4
3
2
1
VCC
0.1uF
C59
GND
VCC
0.1uF
C90
GND
CONSOLE CLOCK IDDB21
IDDB7CONSOLE RESET
SS14 D9
SS14 D11
SS14
D23
SS14
D22
SS14
D24
SS14
D21
SS14
D25
SS14
D20
SS14
D26
SS14
D19
SS14
D28
SS14
D30
SS14
D27
SS14
D29
VCCVCC
39
R36
39
R40
1.00K
R35
1.00K
R39
GND GND
IDDB22SH
330uF
C8
1uF
C132
22uF
C115
1uF
C130
22uF
C128
1uF
C1171uF
C118
MUXOE
MUXOE
S[2]
S[1]
S[0]
S[0]
S[1]
S[2]
S[0]
S[1]
S[2]
MUXOE
4.99K
R136
4.99K
R153
15
14 13
12
11
10
9
7
6
5
4
3
2
1
AM26C32A
U34
EN
A+
A-
B+
OUTAB-
OUTBC+
OUTCC-
OUTDD+
D-
EN
VCC
GND
V+
V-
V+
V-
GND
L4
L3
L2
L1
L5
L6
L7
L8
220
R88
220
R87
220
R86
220
R76
220
R75
220
R83
220
R84
220
R85
VCC VCC VCC VCC VCC VCC VCC VCC
DS4
DS5
DS6
DS7
DS8
DS9
DS10
DS11
220
R152
VCC
DS3
GND
220
R89
VCC
DS1
220
R11
VCC
DS2
1
2
3
4
5
6
7
9
10
11
12
13
14
15
U6
D7
D6
D5
D4
D3
D2 Y
D1
D0
C
B
A
74HC251
G
W
15
14
13
12
11
10
9
7
6
5
4
3
2
1
U25
D7
D6
D5
D4
D3
D2 Y
D1
D0
C
B
A
74HC251
G
W
1
2
3
4
5
6
7
8
911
12
13
14
15
16
17
18
19
74ABT244
U26
2A4 2Y4
2A3 2Y3
2A2 2Y2
2A1 2Y1
1A4 1Y4
1A3 1Y3
1A2 1Y2
1A1 1Y1
1G
2G
0.1uFC5
0.1uFC20
0.1uFC46
0.1uFC66
0.1uFC4
0.1uFC19
0.1uFC45
0.1uFC65
330uF
C9
600 Industrial DriveNew Bern, NC 28562
W# 700223
LSR-500
Page 5-5c
SA
LSR-500 Digital/ Audio Line Select Rackmount Schematic - Sheet 2 of 3
2 OF 3
D-500/May 2000
5-12-00
LSR-500D PCB
14S0074DD
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
AGNDAGND
1
2
3
45
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
U35
CS4390
SCLK
AUTO_MUTE
MUTE_R
MUTE_L
DEM1
DEM0
LRCK
DIF2
DIF1
DIF0
MCLK
SDATA
AOUTR+
AOUTR-
AOUTL-
AOUTL+
AGND
VA+
DGND
VD+
L5
L6
L7
L8
L4 L3
L2
L1
EI148
4148D39
100uF
C84
T2
T5
T7
T9
T1
T4
T6
T8
390pF
C116
390pF
C98
390pF
C137
390pF
C136
390pF
C101
390pF
C133
390pF
C97
390pF
C102
0.1uF
C96
AGND
0.1uF
C78
AGND
V+
AGND
1uF
C60
SS14D13
1N4002D14
1N4735
Z1
2
3
1
PQ05
Q3
GND
VIN OUT
LM2940
1
2
3
Q1
GND
VINOUT
T3
ANALOG/DIGITAL INPUTSOURCE SET
DIGLINEOUT
LO
HI
ANALOG 8
ANALOG 7
ANALOG 6
ANALOG 5
ANALOG 4
ANALOG 3
ANALOG 2
ANALOG 1
DIGLINE1 IN
DIGLINE2 IN
DIGLINE3 IN
DIGLINE4 IN
DIGLINE5 IN
DIGLINE6 IN
DIGLINE7 IN
DIGLINE8 IN
DLINE1INHI
DLINE1INLO
DLINE2INHI
DLINE2INLO
DLINE4INHI
DLINE3INHI
DLINE3INLO
DLINE4INLO
DLINE6INHI
DLINE5INHI
DLINE5INLO
DLINE6INLO
DLINE8INHI
DLINE7INHI
DLINE7INLO
DLINE8INLO
GND
+DIGrack+REGin
LINE1out
LINE2out
LINE3out
LINE4out
LINE5out
LINE6out
LINE7out
LINE8out
RESET
AESRXMCK
AESRXVERF
AESRXDATA
AESRXSCK
AESRXLR
ANA
ANA
AESTXMCK
ADCMCK
POWERUP
DACMUTE
OUTLR
MUXOE
AESRXLR
ADCLR
AESRXMCK
RESET
TDO95
TCK95
TDI95
TMS95
DACMCK
OUTSCK
OUTDATA
ADCDATA
AESRXDATA
AESRXSCK
ADCSCK
EXTCLK
ANA
AESRXVERF
AESTXV
D500RESET
EXTCLKSEL
TCK95
TDI95
TMS95
TDO95
GND
VCC
GND
VCC
LOCAL512FS
RESET
AESTXMCK
OUTDATA
OUTLR
OUTSCK
AESTXV
DOUTHI
DOUTLO
RESET
SW[0:7],S[0:2],MUXOE
OUTLR
DACRT
DACLT
DACMCK
OUTDATA
OUTSCK
DACMUTE
RESET
ANAALINE[1]ON
ALINE[2]ON
ALINE[3]ON
ALINE[4]ON
ALINE[5]ON
ALINE[6]ON
ALINE[7]ON
ALINE[8]ON
XCLOCK
XRESET D5XRESET
D5XCLK
EXTCLKSEL
POWERUP
LOCAL512FS
XCLOCK
XRESET
D5XCLK
D5XRESET
D5XRESET
D5XRESET
D5XCLK
D5XCLK
D500RESET
EXTCLK
ANA
ANA
+Diode
UDB1
UDB2
UDB3
UDB4
UDB5
UDB6
UDB7
UDB8
UDB11
UDB14
UDB15
UDB16
UDB17
UDB18
UDB19
UDB20
UDB22
UDB13
TO UPPER DB-25CONSOLECONNECTOR
CT1
24
21
22
23
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
25 UDB25
LDB1
LDB2
LDB3
LDB4
LDB5
LDB6
LDB7
LDB8
LDB9
LDB10
LDB11
LDB12
LDB14
LDB15
LDB16
LDB17
LDB18
LDB19
LDB20
LDB21
LDB22
LDB23
LDB24
LDB13
TO LOWER DB-25CONSOLECONNECTOR
CT2
24
21
22
23
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
25 LDB25
IDDB1
IDDB2
IDDB3
IDDB4
IDDB5
IDDB6
IDDB7
IDDB8
IDDB9
IDDB10
IDDB11
IDDB12
IDDB14
IDDB15
IDDB16
IDDB17
IDDB18
IDDB19
IDDB20
IDDB21
IDDB22
IDDB23
IDDB24
IDDB13
DIGITALINPUTS 1-8DB-25CONNECTOR
CT4
24
21
22
23
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
25 IDDB25
IA2DB1
IA2DB2
IA2DB3
IA2DB4
IA2DB5
IA2DB6
IA2DB7
IA2DB8
IA2DB9
IA2DB10
IA2DB11
IA2DB12
IA2DB14
IA2DB15
IA2DB16
IA2DB17
IA2DB18
IA2DB19
IA2DB20
IA2DB21
IA2DB22
IA2DB23
IA2DB24
IA2DB13
ANALOGINPUTS 5-8DB-25CONNECTOR
CT6
24
21
22
23
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
25 IA2DB25
IA1DB1
IA1DB2
IA1DB3
IA1DB4
IA1DB5
IA1DB6
IA1DB7
IA1DB8
IA1DB9
IA1DB10
IA1DB11
IA1DB12
IA1DB14
IA1DB15
IA1DB16
IA1DB17
IA1DB18
IA1DB19
IA1DB20
IA1DB21
IA1DB22
IA1DB23
IA1DB24
IA1DB13
ANALOGINPUTS 1-4DB-25CONNECTOR
CT7
24
21
22
23
20
19
18
17
16
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
25 IA1DB25
ODDB6
ODDB2
ODDB1
DIGITALOUTPUTDB-9CONNECTOR
CT3
1
9
8
7
6
5
4
3
2
ODDB5
ODDB8
OADB7
OADB6
OADB2
OADB1
OADB3
ANALOGOUTPUTDB-9CONNECTOR
CT5
1
9
8
7
6
5
4
3
2
OADB5
OADB8
5
4
3
2
1
7
8
9
6
10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
5
4
3
2
1
7
8
9
6
10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
5
4
3
2
1
7
8
9
6
10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
5
4
3
2
1
7
8
9
6
10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
6
5
4
3
2
1
9
8
7
6
5
4
3
2
1
9
8
7
5
4
3
2
1
7
8
9
6
10
11
12
13
14
15
16
17
18
19
20
21
22
23
25
24
UDB9
UDB21
600 Industrial DriveNew Bern, NC 28562
3 OF 3
LSR-500 Digital/ Audio Line Select Rackmount Schematic - Sheet 3 of 3
W# 700223
LSR-500
Page 5-5c
SA
D-500/May 2000
5-12-00
LSR-500D PCB
14S0075DD
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
N/C
N/CN/C
D LINE OUT HID LINE OUT LO
D LINE OUT SH
CONSOLE CLOCK
CONSOLE RESETCONSOLE RESET
CONSOLE CLOCK
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
AUDIO COMMON
N/C
DIG GND
DIG GND
AUDIO COMMONAUDIO COMMONAUDIO COMMON
LSD-500DB Connector PinoutsDB Connector Pinouts
-V
-V
+V
+V
AUDIO COMMON
AUDIO COMMON
DIGITAL GROUND
DIGITAL GROUND
DIGITAL GROUND
+ DIGITAL
+ DIGITAL
+ DIGITAL
AUDIO COMMON-V
-V
+V
+V
AUDIO COMMON
AUDIO COMMON
DIGITAL GROUND
DIGITAL GROUND
+ DIGITAL
+ DIGITAL
+ DIGITAL
N/CN/C
N/CN/C
DIGITAL OUTPUTDIGITAL OUTPUTDIGITAL OUTPUTDIGITAL OUTPUTDIGITAL OUTPUTDIGITAL OUTPUT
(DB-9)(DB-9) (DB-9)(DB-9)
ANALOG OUTPUTANALOG OUTPUTANALOG OUTPUTANALOG OUTPUTANALOG OUTPUTANALOG OUTPUT
N/CAUDIO COMMON
A LINE LT OUT HIA LINE LT OUT LO
A LINE LT OUT SH
A LINE RT OUT SHA LINE RT OUT LO
A LINE RT OUT HI
AUDIO COMMONN/C
N/C
DIGITAL INPUTSDIGITAL INPUTSDIGITAL INPUTSDIGITAL INPUTSDIGITAL INPUTSDIGITAL INPUTS ANALOG INPUTS "1-4"ANALOG INPUTS "1-4"ANALOG INPUTS "1-4"ANALOG INPUTS "1-4"ANALOG INPUTS "1-4"ANALOG INPUTS "1-4"ANALOG INPUTS "5-8"ANALOG INPUTS "5-8"ANALOG INPUTS "5-8"ANALOG INPUTS "5-8"ANALOG INPUTS "5-8"ANALOG INPUTS "5-8"
(DB-25)(DB-25) (DB-25)(DB-25) (DB-25)(DB-25)
POWER PORTSPOWER PORTSPOWER PORTSPOWER PORTSPOWER PORTSPOWER PORTSCONTROL PORTSCONTROL PORTSCONTROL PORTSCONTROL PORTSCONTROL PORTSCONTROL PORTS
(To Upper DB-25)(To Upper DB-25) (To Lower DB-25)(To Lower DB-25)
I/O CONNECTORS CHART
A LINE 6 RT IN HI
A LINE 6 RT IN SHA LINE 6 RT IN LO
A LINE 6 LT IN HIA LINE 6 LT IN LO
A LINE 6 LT IN SH
A LINE 5 RT IN LOA LINE 5 RT IN SH
A LINE 5 RT IN HI
A LINE 5 LT IN SHA LINE 5 LT IN LO
A LINE 5 LT IN HI
A LINE 7 RT IN LOA LINE 7 RT IN SH
A LINE 7 RT IN HI
A LINE 7 LT IN SHA LINE 7 LT IN LO
A LINE 7 LT IN HI
A LINE 8 RT IN HI
A LINE 8 RT IN SHA LINE 8 RT IN LO
A LINE 8 LT IN HIA LINE 8 LT IN LO
A LINE 8 LT IN SH
A LINE 2 RT IN HI
A LINE 2 RT IN SHA LINE 2 RT IN LO
A LINE 2 LT IN HIA LINE 2 LT IN LO
A LINE 2 LT IN SH
A LINE 1 RT IN LOA LINE 1 RT IN SH
A LINE 1 RT IN HI
A LINE 1 LT IN SHA LINE 1 LT IN LO
A LINE 1 LT IN HI
A LINE 3 RT IN LOA LINE 3 RT IN SH
A LINE 3 RT IN HI
A LINE 3 LT IN SHA LINE 3 LT IN LO
A LINE 3 LT IN HI
A LINE 4 RT IN HI
A LINE 4 RT IN SHA LINE 4 RT IN LO
A LINE 4 LT IN HIA LINE 4 LT IN LO
A LINE 4 LT IN SH
D LINE 8 IN HI
D LINE 8 IN SHD LINE 8 IN LO
D LINE 7 IN SHD LINE 7 IN LO
D LINE 7 IN HI
D LINE 6 IN HI
D LINE 6 IN SHD LINE 6 IN LO
D LINE 5 IN HID LINE 5 IN LO
D LINE 5 IN SH
D LINE 4 IN LOD LINE 4 IN SH
D LINE 4 IN HI
D LINE 3 IN SHD LINE 3 IN LO
D LINE 3 IN HI
D LINE 2 IN HI
D LINE 2 IN SHD LINE 2 IN LO
D LINE 1 IN HID LINE 1 IN LO
D LINE 1 IN SH
LINE 1LINE 2
LINE 3LINE 4
LINE 5LINE 6
LINE 7LINE 8
GND
DOUTHI
DOUTLO
AGND
GND
AOUTLTHI
AGND
AOUTRTHI
AOUTLTLO
AOUTRTLO
AGND
AGND
ALINE4RTINHI
AGND
ALINE4LTINLO
ALINE3RTINHI
AGND
ALINE3LTINLO
ALINE2RTINHI
AGND
ALINE2LTINLO
ALINE1RTINHI
AGND
ALINE1LTINLO
ALINE4RTINLO
ALINE4LTINHI
AGND
ALINE3RTINLO
ALINE3LTINHI
AGND
ALINE2RTINLO
ALINE2LTINHI
AGND
ALINE1RTINLO
ALINE1LTINHI
AGND
AGND
ALINE8RTINHI
AGND
ALINE8LTINLO
ALINE7RTINHI
AGND
ALINE7LTINLO
ALINE6RTINHI
AGND
ALINE6LTINLO
ALINE5RTINHI
AGND
ALINE5LTINLO
ALINE8RTINLO
ALINE8LTINHI
AGND
ALINE7RTINLO
ALINE7LTINHI
AGND
ALINE6RTINLO
ALINE6LTINHI
AGND
ALINE5RTINLO
ALINE5LTINHI
AGND
AGND
DLINE8INHI
GND
DLINE7INLO
DLINE6INHI
GND
DLINE5INLO
DLINE4INHI
GND
DLINE3INLO
DLINE2INHI
GND
DLINE1INLO
DLINE8INLO
DLINE7INHI
GND
DLINE6INLO
DLINE5INHI
GND
DLINE4INLO
DLINE3INHI
GND
DLINE2INLO
DLINE1INHI
GND
AGND
GND
GND
XRESET
XRESET
LINE5out
GND
LINE4out
LINE3out
GND
LINE2out
LINE1out
GND
GND
LINE6out
GND
LINE7out
LINE8out
GND
AGND AGND
-Vrack
-Vrack
-Vrack
-Vrack
+Vrack
+Vrack
+Vrack
+Vrack
AGND
AGND
AGND
GND
GND
GND
GND
GND
GND
+DIGrack
+DIGrack
+DIGrack
+DIGrack
+DIGrack
+DIGrack
AGND
XCLOCK
XCLOCK
UDB/1
UDB/2
UDB/3
UDB/4
UDB/5
UDB/6
UDB/7
UDB/8
UDB/9
UDB/10
UDB/11
UDB/12
UDB/14
UDB/15
UDB/16
UDB/17
UDB/18
UDB/19
UDB/20
UDB/21
UDB/22
UDB/23
UDB/24
UDB/25
LDB/1
LDB/2
LDB/3
LDB/4
LDB/5
LDB/6
LDB/7
LDB/8
LDB/9
LDB/10
LDB/12
LDB/14
LDB/15
LDB/16
LDB/17
LDB/18
LDB/19
LDB/20
LDB/21
LDB/22
LDB/24
LDB/25
R2
1.0K
R3
1.0K
1.0K
R5
1.0K
R6
1.0K
R11
R10
1.0K
1.0K
R9
1.0K
R8
1.0K
R7
CT1
SW"3a"
SW"5a"
SW"4a"
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
CT3
SW"4b"
SW"3b"
SW"5b"
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
1.0K
R12
LDB/11
R1
1.0K
LDB/23
UTS-6000PCB
CT2
SW"7a"
SW"6a"
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
1.0K
R4
UTS-6000PCB
CT4SW"6b"
SW"7b"
SW"8b"
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
AGND
AGND
AGND
AGND
36/1 36/2
36/3
36/5 36/6
36/7 36/8
36/9 36/10
36/11 36/12
36/13 36/14
36/15 36/16
36/17 36/18
36/19 36/20
36/23
36/25 36/26
36/27
36/30
36/33
36/36
36/4
36/24
12 24
25
23
10
11
9 21
22
20
7
8
6 18
19
17
4
5
3 15
16
142
13
12
24
25
23 10
11
9
21
22
8
13
20 7
6
18
19
17 4
5
3
15
16
14 1
2
120/67
120/71
120/73
120/75
120/77
120/79
120/87
120/89
120/91
120/93
120/95
120/97
120/99
120/101
120/103
120/105
120/111
120/113
120/119
120/85
120/83
120/81
120/117
120/107
120/109
120/69
120/4
120/6
120/8
120/10
120/12
120/14
120/16
120/18
120/20
120/22
120/24
120/26
120/28
120/34
120/36
120/38
120/46
120/48
120/50
120/52
120/54
120/56
120/58
120/60
120/62
120/64
120/66
120/68
120/72
120/74
120/76
120/78
120/86
120/88
120/90
120/92
120/94
120/96
120/98
120/100
120/102
120/104
120/106
120/110
120/112
120/114
120/118
120/44
120/84
120/42
120/82
120/40
120/80
120/120
120/108
120/70
120/32
120/30
120/2
120/3
120/5
120/7
120/9
120/11
120/13
120/15
120/17
120/19
120/21
120/23
120/25
120/27
120/29
120/31
120/35
120/51
120/53
120/55
120/57
120/59
120/63
120/65
120/33
120/61
120/1
120/37
120/39
120/47
120/49
120/45
120/43
120/41
36/22
36/28
36/32
36/34
36/21
36/29
36/31
36/35
1
120/116120/115
1 2
3 4
5 6
7 8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
81 82
83 84
85 86
87 88
89 90
91 92
93 94
95 96
97 98
99 100
101 102
103 104
105 106
107 108
109 110
111 112
113 114
115 116
117 118
119 120
CT6
3635
3433
3231
3029
2827
2625
2423
2221
2019
1817
1615
1413
1211
109
87
65
43
21
CT5
600 Industrial DriveNew Bern, NC 28562
W# 700225
TRD-500
TRD-500 Tape Remote Module Schematic - Sheet 1 of 1
1 OF 1
SA
Page 5-5D-500/May 2001
5-25-01
TRD-500A PCB
14S0077AD
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
LOWERDB-25
LOWERDB-25
LOWERDB-25
120 PIN EDGE CONNECTOR
36 PIN EDGE CONNECTORUPPERDB-25
UPPERDB-25
LOWERDB-25
CON
NECTOR
S B
USS C
HA
RT
SW7aLED
SW7a
SW8a
SW8aLED
SW8a
SW3a
SW3aLED
SW4a
SW4aLED
SW4a
SW5a
SW5aLED
SW5a
SW6a
SW6aLED
SW6a
SW3a
SW7a SW7b
SW7bLED
SW7b
SW8b
SW8bLED
SW8b
SW3bLED
SW4b
SW4bLED
SW4b
SW5b
SW5bLED
SW5b
SW6b
SW6bLED
SW6b
SW3b
SW3bLED
SW5bLED
SW3b
SW4bLED
SW6bLED
SW7bLED
SW8bLEDSW8aLED
SW7aLED
SW6aLED
SW5aLED
SW3aLED
SW4aLED
SW8a
SW8a SW8aLED
SW8aLED SW7a
SW7a SW7aLED
SW7aLED SW6a
SW6a SW6aLED
SW6aLED SW5a
SW4aLED
SW3a
36BUSPIN1
SW5a SW5aLED
SW4a
SW4a
SW5aLED
SW8b
SW8bLED
SW7bLED
SW6b
36BUSPIN26
SW3aLED
SW3aLED
SW5b SW5b
SW5bLED SW5bLED
SW4b
SW4bLED
SW4b
SW4bLED
SW3b SW3b
SW3bLED SW3bLED
XDSPPGM XDSPAUD
XDSPAUX XDSPUTL
PGMLTMONITOR AGND
PGMRTMONITOR AGND
AUDLTMONITOR AGND
AUDRTMONITOR AGND
AUXLTMONITOR AGND
AUXRTMONITOR
UTLLTMONITOR AGND
UTLRTMONITOR AGND
CUELTMONITOR AGND
CUERTMONITOR AGND
TEL12MONITOR AGND
TEL34MONITOR AGND
TBMONITOR AGND
ICMCUE AGND
XDCUELOGIC XDCRMUTE
XDST1MUTE XDST2MUTE
XDTIMERRESTART XDONAIRTALLY
XDTALLY2 XDTALLY3
V+in V+in
+40Vin
V-in V-in
GND
GND
TEL12_34
XDRESET TEL34_12
XDBUSIN GND
XDFRMOUT GND
XDTDMOUT1 GND
XDTDMOUT2 GND
XDSEROUT GND
XDSERCLK GND
XDSERFRM GND
XDSERIN GND
XDDINT GND
SIGX GND
GND
GND
GND
XDCSA7
GND
XDFRMX
XDCLKX
XDCSA8 XDCSA9
GND GND
+DIG+DIG
+DIG+DIG
XDCSA4 XDCSA5
XDCSA6
XDA9
XDAD3
XDAD0
XDAD1 XDAD2
XDAD4
XDAD5 XDAD6
XDAD7 XDA8
XDWR
GND XDDS
XDAS
GND
GND
AGND
SW6bLED SW6bLED
SW3aSW4aLED
SW7bSW7b
SW8bLED
SW6b
SW7bLED
SW8b
120BUSPIN115 120BUSPIN116
AGND
AGND
AGND
AGND
AGND
C28 100uF R36
10.0K
C17 100uFR25
4.99K
AGND
AGND
GND
CT5 3
CT5 2
CT5 7
CT5 6
CT5 5
CT5 10
CT5 9
CT5 8
CT5 13
CT5 12
CT5 11
CT5 16
CT5 15
CT5 14
CT5 19
CT5 18
CT5 17
CT5 22
CT5 21
CT5 20
CT5 23
CT5 29
CT5 27
CT5 31
CT5 32
CT5 30
CT5 35
CT5 34
CT5 33
CT6 2
CT5 36
CT6 5
CT6 4
CT6 3
CT6 8
CT6 7
CT6 6
CT6 11
CT6 10
CT6 9
CT613
CT612
GND
R11
220
R10
1.00K
GND
R6
4.99K
VCC
GND
VCC
C27
0.001uF
CT3
4CT3
3
CT3
6CT3
5
CT3
10CT3
8
CT4
3
CT3
14CT3
12
CT4
7CT4
5
CT4
11CT4
9
CT4
15CT4
13
CT3
2
CT3
9CT3
7
CT3
15CT4
2
CT3
11CT3
13
CT4
4CT4
6
CT4
8CT4
10
CT4
12CT4
14
VCC
GND
VCC
GND
C5
0.1uF
C6
0.1uF
C10100uF
C26100uF
AGND
R30
40.2K
-2dBu
CT1 15
CT1 13
CT5 26
AGND
CT673
CT675
CT677
CT620
CT622
CT624
CT626
CT628
CT630
CT632
CT634
CT636
CT638
CT640
CT642
CT644
CT646
CT688
CT690
CT692
CT694
CT696
CT698
CT6100
CT6101
CT6102
CT6104
CT6106
CT6113
CT6114
CT6117
CT6118
AGND
CT655
CT656
CT657
CT658
CT6119
CT6120
CT660
CT661
GND
GND
VCC
GNDGND GNDGND
C38
0.1uF
C39
0.1uF
AGND
C16
0.1uF
C25
0.1uF
C33
0.1uF
C32
0.1uF
C31
0.1uF
C13
0.1uF
C22
0.1uF
C20
0.1uF
C29
0.1uF
R27
1.30K
R26
1.30K
Vdd
AGND AGND AGND AGND
-2dBu
AGNDAGND
R38
1.00K
R32
1.00K
CT6 43
-2dBu
AGND
-2dBu
AGND
R23
4.99K
D294148
D364148
D354148
D344148
D334148
D314148
D304148
U2VHC4053
9
4
5
3
6X_Y
INH
S
Y
X
AGND
GNDSW10
4
SW101
CT2 4
CT2 5
D71N4002
D91N4002
D13
1N4002
D11
1N4002
D15
1N4002
D17
1N4002
D19
1N4002
D61N4002
D81N4002
D10
1N4002
D14
1N4002
D12
1N4002
D16
1N4002
D18
1N4002
D201N4002
D211N4002
D22
1N4002
D23
1N4002
D25
1N4002
D24
1N4002
D26
1N4002
D27
1N4002
D28
1N4002
CT3
1
CT4
1
R4
1.30K
R19
10.0K
SW102
VCC
GND
R16
10
R20
47
Q5MMBTA55
VCC
Q6MMBTA55
VCC
C9
0.1uF
VCC
R18
4.99K
VCC
R17
1.30K
R14
4.99K
VCC
R15
4.99K
Q4MMBTA55
VCC
R9
2.43K
GND
CT5 4
CT5 28
D51N4002
GND
U6
1
2
3
4
5
6
7
SSM2143
V-
+
-
V+
C30100uF
Q1
MMBTA55
Vee
LM675 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
54321
74VHC4053NIC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
X_Yc
Xc
Yc
X_YbYb
Xb
Ya
X_Ya
Xa
16
15
14
13
12
11
10
98
7
6
5
4
3
2
1 VDD
A
B
CVSS
VEE
INH
VIEWED FROM ABOVE(COMPONENT SIDE)
74LS74IC PINOUT
VCC 14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
CLRa
Da
CKa
PRa
Qa
Qa
Qb
Qb
PRb
CKb
Db
CLRb
SSM2143 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
N/C
SENCE
REF 8
7
6
5
1
2
3
4
IN+
IN-
V-
OUT
V+
VIEWED FROM ABOVE(COMPONENT SIDE)
NE5532 IC PINOUT
4
3
2
1
5
6
7
8
OUT
IN+
IN-
V+OUT
IN+
IN-
V-
DPDTSLIDE SWITCHPINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
3
2
1
6
4
5C1
NC1
NO1
NC2
C2
NO2
VIEWED FROM ABOVE(COMPONENT SIDE)
4 POSITIONDIPSWITCHPINOUT
4
3
2
1 ON
ON
ON
ON
8
7
6
54
3
2
1
U45532
5
6
7
8
4
V-
+
-
V+
U1
8
910
11
12
13
74LS74
DQ
Q
CLR
PR
CK
CT5 24
AGND
C19
0.001uF
SW1
4
3
2
1
SW103
F1
.3APOLYSW
F6
.3APOLYSW
F4
.3APOLYSW
U2VHC4053
12
13
11
14
6X_Y
INH
S
Y
X
U1
1
2
3
45
6
74LS74
DQ
Q
CLR
PR
CK
D324148
SW2
1
2
3
SW3
3
2
1
SW4
3
2
1
SW5
3
2
1
SW6
3
2
1
SW7
1
2
3
SW8
1
2
3
SW9
1
2
3
F3
POLYSW1.0A
F2
POLYSW1.0A
F5
POLYSW1.0A
CR1
MICTRIM
50K
1
2
3
CR2
3
21
10K
R1
1.00K
AGND
R37
10.0K
R2
1.69K
C1
0.001uF
AGND
C2
50pF
AGND
U5SSM2143
7
6
5
4
3
2
1
V-
+
-
V+
U2VHC4053
2
1
10
15
6X_Y
INH
S
Y
X
C8
0.1uF
VCC
AGNDGND
R22
4.99K
R21
40.2K
AGND
R8
4.99K
D24148
Vf+
Vf-
Vf+
Vf-
CT647
Df+
Df+
VCC
GND
VCC
R5
220
GND
Q2
MMBTA05
R7
2.43K
R24
40.2K
AGND
R31
40.2K
AGND
C14 100uF
R29
40.2K
AGND
C3100uF
C24
10pF
U4
4
8
1
2
3
5532
V-
+
-
V+
R35
4.99K
AGND
C18
10pF
-2dBu
AGND
AGND
C21
10pF
R33
10.0K
R34
10.0K
-2dBu
-2dBu
U35532
3
2
1
8
4
V-
+
-
V+
U35532
5
6
7
8
4
V-
+
-
V+
PQ05SZ1 IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
2
321
CT686
CT684
CT645
CT682
C23100uF R40
10.0K
GND
R28
2.43K
C15
10pF
CT5 25
CT5 1
CT6 1
GND
CT1 1
VCC
CT2 1
R3
150
R13
10
GND
R12
4.99K
Q3
MMBTA05
R39
40.2K
AGNDAGND
C37
100uF
C36
22uF
C11
22uF C12
22uFZ1C5V15.1V Z2
C5V15.1V
C34
100uF
C35
100uF
C7
1uF
C4
100uF
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
D14148
V+
V-V-V+
3
15
16
3
15
16
14
1
2
D34148
D44148
600 Industrial DriveNew Bern, NC 28562
ICMD-500 Intercom Module Schematic - Sheet 1 of 1
ICMD-500
W# 700221
SA
Page 1-1
1 OF 1
D-500/May 2001
5-25-01
ICMD-500B PCB
14S0076BD
REVSIZE
SHEET
DWG. NO.FSCM NO.
SCALE
CONTRACT NO.
DATEAPPROVALS
DRAWN
CHECKED
ISSUED
A
2 1
2
345678
8 7 6 5 4 3 1
B
C
DD
C
B
A
Q7
3
2 1
PQ05
OUT VIN
GND
120 PINEDGE CONN
36 PINEDGE CONN
36 PINEDGE CONN
UPPERDB-25
UPPERDB-25
TOUPPERDB-25
TOLOWERDB-25
PRIVACYSWITCH
CUEACN
OUT OF PHASEIN PHASE
NOTE 1: PHASE SYMBOLS DENOTE SIGNAL POLARITY
+DIG.
D.COM
8
7
6
5
4
3
2
1
LINEIN
120 PINEDGE CONN
LINEIN/OUT
LOWERDB-25
+4dBuBAL
HI
LO
SH
HI
LO
SH
SH
LO
HI
+V
-V
+D
D.COM.
BAL
BAL
UTS-6000 PCB
UTS-6000 PCB
CUELOGICENABLE
CUE LOGIC
BUSY
IN
OUT
TB MONITOR
+V
-V
+REG
+Dout
-Vout
+Vout
+DIGin
-Vin
+Vin
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
C30 100uF R25
4.99K
C32 100uF R26
4.99K
C33 100uF R27
4.99K
C35 100uF R28
4.99K
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
C36 100uF R29
4.99K
C38 100uF R30
4.99K
C39 100uF R31
4.99K
C41 100uF R32
4.99K
AGND
GND
U13VHC4053
6
15
10
1
2X
Y
S
INH
X_Y
U13VHC4053
6
14
11
13
12X
Y
S
INH
X_Y
U12VHC4053
6
3
5
4
9
X
Y
S
INH
X_Y
U12VHC4053
2
1
10
15
6X
Y
S
INH
X_Y
U12VHC4053
12
13
11
14
6X
Y
S
INH
X_Y
U11VHC4053
2
1
10
15
6X
Y
S
INH
X_Y
U11VHC4053
12
13
11
14
6X
Y
S
INH
X_Y
U23
1
2
3
4
5
6
7
SSM2143
-2dBuV+
-
+
V-
U22
-2dBu
SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
U21
-2dBu
SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
U20
-2dBu
SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
U19
-2dBu
SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
U18
-2dBu
SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
U17
-2dBu
SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
CT3 4
CT3 3
CT3 2
CT3 7
CT3 6
CT3 5
CT3 10
CT3 9
CT3 8
CT3 13
CT3 12
CT3 11
CT3 16
CT3 15
CT3 14
CT3 19
CT3 18
CT3 17
CT3 22
CT3 21
CT3 20
CT3 24
CT3 23
CT3 28
CT3 29
CT3 27
CT3 31
CT3 32
U139
4
5
3
6
VHC4053
X
Y
S
INH
X_Y
AGND
AGND
AGND
AGND
AGND
AGND
AGND
AGND
C42 100uF R33
4.99K
R34
4.99K
C45 100uF R35
4.99K
C47 100uF R36
4.99K
AGND
AGND
AGND
AGND
C48 100uF R37
4.99K
C50 100uF R38
4.99K
AGND
GND
U159
4
5
3
6
VHC4053
X
Y
S
INH
X_Y
U15
6
15
10
1
2
VHC4053
X
Y
S
INH
X_Y
U15
6
14
11
13
12
VHC4053
X
Y
S
INH
X_Y
U14
6
3
5
4
9
VHC4053
X
Y
S
INH
X_Y
U14
6
14
11
13
12
VHC4053
X
Y
S
INH
X_Y
U29
1
2
3
4
5
6
7
SSM2143
-2dBuV+
-
+
V-
U28
1
2
3
4
5
6
7
SSM2143
-2dBuV+
-
+
V-
U27
1
2
3
4
5
6
7
SSM2143
-2dBuV+
-
+
V-
U26
1
2
3
4
5
6
7
SSM2143
-2dBuV+
-
+
V-
CT3 30
CT3 35
CT3 34
CT3 33
CT4 2
CT3 36
CT4 5
CT4 4
CT4 3
CT4 8
CT4 7
CT4 6
CT411
CT410
CT49
CT413
CT412
GND
R8
220
GND
R10
220
GND
R12
220
GND
R18
220
GND
R14
220
R39
1.00K
GND
R40
1.00K
GND
R41
1.00K
GND
R43
1.00K
GND
R42
1.00K
GND
R44
1.00K
GND GND
R20
220
GND
R22
220
R45
1.00K
GND
R46
1.00K
GND GND
R24
220
R7
220
R9
220
R11
220
R17
220
R13
220
R19
220
R21
220
R23
220
R16
4.99K
VCC
GND
VCC
U4
8
910
11
12
13
74HC74
CK
PR
CLR
Q
QD
U4
1
2
3
45
6
74HC74
CK
PR
CLR
Q
QD
U6
74HC74
13
12
11
109
8
CK
PR
CLR
Q
QD
U6
74HC74
6
54
3
2
1
CK
PR
CLR
Q
QD
U8
74HC74
13
12
11
109
8
CK
PR
CLR
Q
QD
U8
74HC74
6
54
3
2
1
CK
PR
CLR
Q
QD
GND
R15
1.00K
C20
0.001uF
CT1 4
CT1 3
CT1 6
CT1 5
CT1 10
CT1 8
CT2 3
CT2 1
CT1 14
CT1 12
CT2 7
CT2 5
CT2 11
CT2 9
CT2 15
CT2 13
CT1 2
VCC
CT1 9
CT1 7
CT1 15
CT2 2
CT1 11
CT1 13
CT2 4
CT2 6
CT2 8
CT2 10
CT2 12
CT2 14
VCC
GND
VCC
GND
VCC
GND
VCC
GND
VCC
GND
VCC
GND
VCC
GND
VCC
GND
C7
0.1uF
C8
0.1uF
C9
0.1uF
C10
0.1uF
C11
0.1uF
C12
0.1uF
C13
0.1uF
C14
0.1uF
VCC
GND
C15
0.1uF
C1 100uF
R1
40.2K
AGND
C6 100uF
R4
40.2K
AGND
R2
4.99K
AGND
C3
10pF
AGND
C4
10pF
U15532
5
6
7
8
4
V+
-
+
V-
AGND
AGND
U31
8
7
6
5
4
3
2
1
SSM2142
-
+
gnd
V+
+
V-
AGND
AGND
R3
4.99K
C61
68pF
AGND
C51
68pF
AGND
C63
68pF
AGND
C53
68pF
AGND
-2dBu
15
3
16
1
14
2
AGND
CT428
CT420
CT422
CT426
CT424
CT432
CT430
CT436
CT434
CT440
CT438
CT444
CT442
CT446
CT492
CT486
CT484
CT490
CT494
CT488
CT482
CT477
AGND
CT455
CT456
CT457
CT458
CT4117
CT4118
CT475
GND
GND
GNDGND GNDGND
C68
0.1uF
C69
0.1uF
AGND
C62
0.1uF
C52
0.1uF
C46
0.1uF
C59
0.1uF
C43
0.1uF
C58
0.1uF
C49
0.1uF
C60
0.1uF
C40
0.1uF
C57
0.1uF
C37
0.1uF
C56
0.1uF
C34
0.1uF
C55
0.1uF
C31
0.1uF
C54
0.1uF
C2
0.1uF
R6
1.30K
Vdd Vee
AGND AGND AGND AGND AGND AGND
AGND
VIEWED FROM ABOVE(COMPONENT SIDE)
74HC14IC PINOUT
VCC
Od
Ob
Oa
14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
O2c
Oe
Ie
Ic
Ia
Ib
Id
Of
If
74HC02IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VCC
I2d
I1d
Od
I2c
I1c
Oc
Ob
I2b
I1b
Oa
I2a
I1a
14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
VIEWED FROM ABOVE(COMPONENT SIDE)
74HC74IC PINOUT
VCC 14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
CLRa
Da
CKa
PRa
Qa
Qa
Qb
Qb
PRb
CKb
Db
CLRb
74HC30IC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
VCC 14
13
12
11
10
9
87
6
5
4
3
2
1
VSS
I1
I2
I3
I4
I5
I6
N/C
N/C
N/C
I7
I8
OUT
VIEWED FROM ABOVE(COMPONENT SIDE)
PQ05SZ1 IC PINOUT
2
321
R5
1.30K
C5
0.1uF
VCC
CT473
VIEWED FROM ABOVE(COMPONENT SIDE)
SSM2142 IC PINOUT
V+
V-IN
GND
OUT+
SNC+SNC-
OUT- 8
7
6
5
1
2
3
4
SSM2143 IC PINOUTVIEWED FROM ABOVE(COMPONENT SIDE)
N/C
SENCE
REF 8
7
6
5
1
2
3
4
IN+
IN-
V-
OUT
V+
VIEWED FROM ABOVE(COMPONENT SIDE)
NE5532 IC PINOUT
4
3
2
1
5
6
7
8
OUT
IN+
IN-
V+OUT
IN+
IN-
V-
-2dBu
CT1 1
U16
-2dBu
SSM2143
7
6
5
4
3
2
1
V+
-
+
V-
U11VHC4053
9
4
5
3
6X
Y
S
INH
X_Y U25
1
2
3
4
5
6
7
SSM2143
-2dBuV+
-
+
V-
C44 100uF
VCC
U5
74HC30
12
11
8
6
5
4
3
2
1
U24
1
2
3
4
5
6
7
SSM2143
-2dBuV+
-
+
V-
U14
6
15
10
1
2
VHC4053
X
Y
S
INH
X_Y
U15532
3
2
1
8
4
V+
-
+
V-
U301
2
3
4
5
6
7
8SSM2142
-
+
gnd
V+
+
V-
U9
74HC74
6
54
3
2
1
CK
PR
CLR
Q
QD
U9
74HC74
13
12
11
109
8
CK
PR
CLR
Q
QD
74VHC4053NIC PINOUT
VIEWED FROM ABOVE(COMPONENT SIDE)
X_Yc
Xc
Yc
X_YbYb
Xb
Ya
X_Ya
Xa
16
15
14
13
12
11
10
98
7
6
5
4
3
2
1 VDD
A
B
CVSS
VEE
INH
F1
.3APOLYSW
F2
.3APOLYSW
F3
.3APOLYSW
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+
V-
V+ V-
U2
74HC14
1 2
U2
74HC14
89
U243
74HC14
U25 6
74HC14
U1021
74HC14
U10
74HC14
3 4
U213 12
74HC14
U2
74HC14
1011
U101213
74HC14
U1011 10
74HC14
U109 8
74HC14
U10
74HC14
65
C64
100uF
C65
100uF
Z2C5V1Z1
C5V1C18
22uF C17
1uF
C19
22uFC16
1uF
C66
22uF
C67
100uF
C22
1uF
C23
1uF
C24
1uF
C26
1uF
C25
1uF
C27
1uF
C28
1uF
C29
1uF
D14148
C21
100uF
1212
24
25
23
10
11
9
21
22
20
7
8
6
18
19
17
4
5
3
15
16
14
1
2
23
10
11
9
21
22
20
7
8
6
18
19
17
4
5
24
25
CT3 25
CT414
CT4 1
CT496
CT498
CT4100
CT4101
CT4102
CT4104
CT4106
CT4119
CT4120
U321
74HC14
U39 8
74HC14
U3
74HC14
3 4
U3
74HC14
65
U3
74HC14
1213
U311 10
74HC14
600 Industrial DriveNew Bern, NC 28562
9-19-99
A-5000/Sep 1999
LS-5000B PCB
18S0013B
W# 700350 1 OF 2
SA
Page 1-1LS-5000 Line Select Module Schematic - Sheet 1 of 1
LS-5000
ISSUED
CHECKED
DRAWN
APPROVALS DATE
CONTRACT NO.
SCALE
FSCM NO. DWG. NO.
SHEET
SIZE REV
D
12345678
A
B
C
DD
C
B
A
1345678 2
Q1
3
2 1
PQ05
GND
VINOUT
+4dBu BAL
+4dBu BAL
LOWERDB-25CONN
LT
RT
LINEOUT
LINE7 IN
LINE6 IN
LINE5 IN
UPPERDB-25CONN
HI
LO
SH
LT
SH
LO
HIRT
RT HI
LO
SH
LT
SH
LO
HI
RT HI
LO
SH
LT
SH
LO
HI
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
+4dBuBAL
LOWERDB-25CONN
HI
LO
SH
LT
SH
LO
HIRT
HI
LO
SH
LT
SH
LO
HIRT
HI
LO
SH
LT
SH
LO
HIRT
RT HI
LO
SH
LT
SH
LO
HI
LINE1 IN
LINE4 IN
LINE3 IN
LINE2 IN
+V
-V
+D
D.COM.
NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY
IN PHASE OUT OF PHASE
HI
LO
SH
SH
LO
HI
LINE3
LINE4
LINE1
LINE2
LINE6
LINE7
LINE1
LINE2
LINE3
LINE4
LINE5
LINE6
LINE7
OFF
LINE5
+Din
-Vin
+Vin
+REG
LINEOUTLTLO
LINEOUTLTHI
LINEOUTRTLO
LINEOUTRTHI
page Appendix – 1RD / May 2000
A P P E N D I X
Appendix
Contents
Replacement Parts List ............................................................... A-2
For the most part there are no user-replaceable parts in theRD console. Exceptions are those controls and components that in thecourse of normal use may need maintenance (i.e., faders, pots, ON/OFFswitches, indicator lamps, etc.). A complete list of available componentsis shown on the next page. Contact Wheatstone technical support forfurther information.
Wheatstone Corporation (600 Industrial Drive, New Bern, North Carolina,USA 28562) may be reached by phone at 252-638-7000, fax 252-637-1285,electronic mail “[email protected]”.
page Appendix – 2RD / May 2000
A P P E N D I X
RD / June 2001
REPLACEMENT PARTS — RD AUDIO CONSOLECOMPONENT DESCRIPTION WS P/N
SLD-5 ADC MODULE COMPLETE ANALOG STEREO LINE INPUT MODULE "002601"
SLD-5 SRC MODULE COMPLETE DIGITAL STEREO INPUT MODULE WITH SAMPLE RATE CONVERTER "002600"
MMD-5 MODULE COMPLETE MONO MIC INPUT MODULE "002604"
OMD-5/1 MODULE COMPLETE PROGRAM/ AUX OUTPUT MODULE "002605"
OMD-5/2 MODULE COMPLETE AUDITION/ UTILITY OUTPUT MODULE "002606"
MOD-5 MODULE COMPLETE METER OUTPUT DRIVER MODULE "002607"
CRD-5 MODULE COMPLETE CONTROL ROOM MONITOR MODULE "002608"
LSA-5 MODULE COMPLETE LINE SELECT MODULE "002610"
LSD-5 MODULE COMPLETE LINE SELECT CONTROL MODULE (CONTROLS LSR-500) "002609"
LSR-500 RACKMOUNT UNIT COMPLETE RACKMOUNT LINE SELECTOR UNIT (CONTROLLED BY LSD-5) "001510"
SCD-5 MODULE COMPLETE STUDIO MONITOR MODULE "002611"
CPU-5 MODULE COMPLETE CONSOLE CPU MODULE "002612"
SPD-5 #1,2 MODULE COMPLETE PHONE MODULE "002613"
SPD-5 #3,4 MODULE COMPLETE PHONE MODULE "002618"
DSP-5 MODULE COMPLETE CONSOLE DSP MODULE "002614"
TRD-5/FF MODULE COMPLETE FULL-FUNCTION TAPE REMOTE CONTROL MODULE "002615"
TRD-5/SS MODULE COMPLETE START/STOP TAPE REMOTE CONTROL MODULE "002617"
ICMD-5 MODULE COMPLETE INTERCOM MODULE "002616"
SLADC-600 CARD A-TO-D CONVERTER DAUGHTER BOARD FOR ANALOG STEREO LINE INPUTS "001756"
SRC-500 CARD SAMPLE RATE CONVERTER CARD FOR DIGITAL INPUTS "001543"
MCLK-600 CARD MASTER CLOCK DRIVER/BUFFER CARD "001758"
SCLK-600 CARD SLAVE CLOCK BUFFER CARD "001759"
VU-RD5 CARD LED METERS AND EVENT TIMER CARD "002645"
RD VU CABLE VU METERS CABLE "002693"
MANUAL OWNER'S MANUAL "002699"
CLOCK TIME-OF DAY-CLOCK CARD "002099"
PSC-D340 POWER SUPPLY CONSOLE POWER SUPPLY "007220"
CABLE CONSOLE POWER SUPPLY CABLE "007021"
WIRED REPLACEMENT FADER WIRED FADER FOR SLD-5 & MMD-5 MODULES "052610"
WIRED REPLACEMENT FADER WIRED FADER FOR SPD-5 MODULES "052611"
WIRED REPLACEMENT SWITCH WIRED "ON/OFF" SWITCH "052601"
WIRED REPLACEMENT POT WIRED POT FOR CONTROL ROOM AND HEADPHONE MONITOR "052602"
I/O CONNECTOR DB-25 CONNECTOR FOR MODULE I/O CONNECTIONS "200022"
HOOD HOOD FOR MODULE I/O CONNECTORS "200025"
REPLACEMENT SWITCH "ON/OFF" SWITCH "510080"
REPLACEMENT RED BUTTON MODULE "ON" BUTTON "530049"
REPLACEMENT YELLOW BUTTON MODULE "OFF" BUTTON "530048"
RED LED LAMP REPLACEMENT MODULE "ON" LED LAMP "600025"
YELLOW LED LAMP REPLACEMENT MODULE "OFF" LED LAMP "600029"
REPLACEMENT CUE SPEAKER REPLACEMENT CUE SPEAKER "960000"