auto-zone control systems cv-ex system overvie · and a 20 key membrane keypad for data selection...
TRANSCRIPT
Auto-Zone Control Systems
Form: WM-CVX-SUB-01C-0612 Page 1 of 1
Description The Auto-Zone CV-EX control system is designed to control up to 120 single zone, constant volume HVAC units. The standard CV-EX system will allow control of up to 60 single zone units on the system, and 30 more with each CV-EX loop Expansion Kit. Up to two CV-EX Loop Expansion Kits can be add-ed for a total system maximum of 120 single zone constant volume units being controlled on the sys-tem. Each CV controller on the CV-EX systems op-erates stand alone and shares common data, such as outside air temperature, over a communications network.
The System Manager is a central operators inter-face to all controllers on the network. All system var-iables, setpoints, and values can be viewed and modified from one convenient location. Menu driven programming using English language descriptors, make the Auto-Zone CV-EX easy to set up and op-erate.
The System Manager is password protected to pre-vent unauthorized access to the control system.
The CommLink interface provides an intelligent, high speed computer/modem interface to the CV-EX system. A computer and/or modem can be connect-ed for on site or remote monitoring (not required for the system to operate). Prism, a Windows™ based software program, provides a user friendly, full func-tion program for system set up, status, call out alarm capability, and trend logging.
Wiring Requirements • All control devices are 24 VAC and can be pow-
ered from common or individual transformers. • CommLink - 24 VAC (Plug-in transformer in-
cluded) • Communications - RS-485/9600 Baud - Daisy
Chain Configuration - Twisted Pair/Shielded
CV-EX System Overview
��������������� ������
Form: WM-CBS-SUB-01B-0201 Page 1 of 1
����������� ��������������
&9�(; 6\VWHP
Part No Description Quantity
OE720 CV System PackageFor Systems with up to 30 Single Zone Units.Includes: System Manager, Single Loop CommLink II, Outside Air Temperature Sensor,Installation Manual, Wiring Diagram.
OE721 CV-EX System PackageFor Systems with up to 60 Single Zone Units.Includes: System Manager, Multiple Loop CommLink II, (2) MiniLinks with Backplates,Outside Air Temperature Sensor, Installation Manual, Wiring Diagram.
&9�(; &RQWUROOHUV
OE746 CV Controller PackageOne Required per Single Zone Constant Volume Unit on Plus Systems.Includes: CV Controller with Backplate, Supply Air Temperature Sensor.
OE747 CV-C Controller PackageCV-C is a Configurable Controller that Allows for User Configurable Inputs and Outputs. AlsoAllows for the Addition of a Relay Expansion Board for Additional Heating and/or CoolingStaging Capabilities.Includes: CV-C Controller with Backplate, Supply Air Temperature Sensor.
Note: Set-up, Programming and Monitoring of CV-C Requires the Use of a Computer andZoneView AZ Software.
OE351 CV-C Relay Expansion BoardProvides 8 Additional Relays for Heating and/or Cooling Staging Capabilities. Connects withModular Cable to CV-C Controller. Used with CV-C Controller Only.Includes: Relay Expansion Board with Snaptrack, 1 Ft. Long Modular Cable.
5RRP 6HQVRUV
OE210OE211OE212OE213
Room Sensor - PlainRoom Sensor with OverrideRoom Sensor with Setpoint AdjustRoom Sensor with Override and Setpoint Adjust
$$$
Project: ____________________________________________________________________
Note: Set-up, Programming and Monitoring of All Add-On Devices and CV-C Requires the Use of a Computer andZoneView AZ Software.
Auto-Zone Control Systems
Form: WM-SMG-SUB-01C-0305 Page 1 of 1
DescriptionThe OE392 System Manager SystemOperator Interface provides a direct linkto enable the system operator to view thestatus and to adjust the setpoints of anycontroller on the Auto-Zone Plus, CV orCV-EX system communications loop. TheSystem Manager is housed in an attrac-tive beige colored plastic enclosure withwhite and green accents. The SystemManager is equipped with a four line by20 character backlighted display paneland a 20 key membrane keypad for dataselection and entry. All keypad opera-tions are simple and straight forward,utilizing non-cryptic plain English lan-guage messages. Menu driven pro-gramming allows for easy setup and op-eration without the need for specializedtraining. The System Manager also hasthree integral LED’s for user notificationof system communication, alarm condi-tion and override initiations. Protectionfrom unauthorized users is provided bythe System Manager’s integral multi-levelpasscode authorization programming.
MountingThe System Manager is designed for wallmounting. It is recommended that theSystem Manager be mounted at ap-proximately eye level to allow for ease ofprogramming and reading of the display.The System Manager is typicallymounted in the building manager or su-perintendent’s office or in an equipmentroom. The attractive enclosure is quitesuitable for mounting in any location orwith most decor.
OE392 - System ManagerOperator Interface
Technical Data OE392 System ManagerOperator Interface
Power 24 Volt AC Display 4 Line by 20 Character Backlighted LCDPower Consumption 25 VA Maximum Network Connection RS-485Operating Temp 10°F to 149°F Protocol HSI Open Protocol Token PassingOperating Humidity 90% RH Non-Condensing Color Beige w/ Green and White AccentsKeypad 20 Key Membrane Type Communications RS-485 - 9600 BaudWattMaster reserves the right to change specifications without notice
Three Year Warranty
1.90
9.00
6.25MembraneKeypad
Four Line by 20 CharacterBacklighted Display
Auto-Zone Control Systems
Form: WM-CVM-SUB-01B-0201 Page 1 of 1
DescriptionThe OE330 CV Controller is used for con-trolling a constant volume HVAC unit. TheCV Controller operates stand-alone andshares common data, such as outside airtemperature, over a network. A SystemManager is connected to the CV Controllerto provide a central operators interface toall CV Controllers on the network. An Auto-Zone CV system provides an excellent al-ternative to installing multiple programma-ble thermostats to control constant volumeHVAC units. CV Controllers are designedwith room temperature, room setpoint ad-just, outside air temperature, discharge airtemperature and auxiliary alarm inputs.Relay outputs provided are; fan (continuousor cycling), four stages of heating/cooling(user configurable) and economizer con-trol (0-10VDC output, full modulating). Aninternal seven day schedule function is alsobuilt in to each CV Controller.
MountingThe CV Controller is provided with an inte-gral backplate for mounting inside of acontrol enclosure. It is recommended thatthe CV Controller is mounted in the HVACunit control enclosure, or in a control enclo-sure in the building equipment room. Anoptional factory control enclosure for theCV Controller is available.
OE330 – CV Controller
Technical Data OE330 CV Controller
Power 24 Volt AC Weight 1.5 lb.Power Consumption 20 VA Maximum Network Connection RS-485Operating Temp 10°F to 149°F Protocol HSI Open Protocol Token PassingOperating Humidity 90% RH Non-Condensing Communications RS-485 - 9600 Baud
Inputs: Outputs:Room Temperature Type III-10kohm sensor Fan Relay - (2 Amp @ 24 VAC)Room Setpoint Adjust Slide potentiometer Heating/Cooling Stage 1 Relay - (2 Amp @ 24 VAC)Outside Air Temperature Type III-10kohm sensor Heating/Cooling Stage 2 Relay - (2 Amp @ 24 VAC)(1 required per system) Heating/Cooling Stage 3 Relay - (2 Amp @ 24 VAC)Discharge Temperature Type III-10kohm sensor Heating/Cooling Stage 4 Relay - (2 Amp @ 24 VAC)Generic Alarm Binary Contact Economizer Analog Output 0-10 VDCWattMaster reserves the right to change specifications without notice
Three Year Warranty
6.2“
6.6“7.3“
6.7“ 1.1“
Auto-Zone Control Systems
Form: WM-AZ-CLKIV-SUB-01A-0907 Page 1 of 1
Description The OE361-12 CommLink IV Communi-cations Interface allows computer access into the Auto-Zone controls system and also provides communications across multiple local communications loops on the control system.
The CommLink IV comes packaged in an attractive beige colored plastic enclo-sure. The CommLink IV is powered by a small plug-in transformer that is included. Locally, an optional on-site personal computer with Prism software installed may be connected to the CommLink IV to provide direct access to system con-trol parameters. A USB cable (6 ft. long) is provided with the CommLink IV for connection to your computer.
Remote telephone access to the control system can be obtained by purchasing the optional OE419-06 Remote Link II modem. With the optional Remote Link II modem installed, the control system can be accessed remotely by using another Remote Link II modem (purchased sepa-rately) connected to a personal computer with Prism software installed at the re-mote location. With the Remote Link in-stalled at the job site, the CommLink IV can be configured to call a pager or cell phone number if an alarm condition oc-curs.
An optional OE415-02 IP Module Kit is also available that provides an Ethernet connection to the controls system from any computer connected to your build-ing’s LAN. It can also be configured to allow access to the control system from the Internet if your Ethernet firewall is configured for this option.
Mounting If an on-site computer is to be used for direct connection and monitoring of the system, the CommLink IV should be lo-cated near the computer terminal to monitor the system. If no on-site computer is to be used and/or you are in-stalling the Remote Link II option, locate the CommLink IV near the phone line jack for ease of connection.
OE361-12 CommLink IV
Communication Interface
1.50
7.005.25
REAR VIEW
FRONT VIEW
Technical Data OE361-12 CommLink IV Communication Interface Power 24 Volt AC *Remote Link II Conn. RS-232 Serial Port (9 pin) Plug-in Transformer 120V to 24VAC (Included) **Ethernet Conn. RJ-45 Ethernet Port Power Consumption 14 VA Maximum Network Loop RS-485 – 19,200 Baud Operating Temperature 10°F to 140°F Protocol HSI Open Protocol Token Passing Operating Humidity 90% RH Non-Condensing Cabling Included (1) 6 Ft. Long USB Cable Computer Conn. USB Version 1.1 or 2.0 Local Loop RS-485 - 9600 Baud Three Year Warranty WattMaster reserves the right to change specifications without notice * This Port Is Only Used With The Optional OE419-06 Remote Link II. ** This Port Is Only Used With The Optional OE415-02 IP Module Kit.
Auto-Zone Control Systems
Form: WM-AZ-OE415-02-IPModuleKit-01A.doc Page 1 of 1
Description The OE415-02 IP Module Kit (when installed and configured in the CommLink IV communication inter-face) provides TCP/IP Internet and/or intranet con-nection for Ethernet networked computer systems allowing them to communicate with your control sys-tem. The OE415-02 IP Module Kit consists of the IP Module and a 10 ft. long CAT5 Ethernet crossover cable. The IP Module plugs into a mating 40 pin (2 x 20) connector located on the CommLink IV circuit board. Installation is easily accomplished by removing the CommLink IV case cover screws, removing the case cover to access the circuit board, and then plugging the IP Module into its mating socket connector. Cor-rect alignment is made easy because of the (4) slot alignment tabs located around the perimeter of the processor base. It is not possible to incorrectly align the IP Module to the socket connector because of this feature. The TCP/IP connection provided by the IP Module installed in the CommLink IV is a TCP connection on a single port number and is static in nature. Firewall and proxy servers can easily be configured to allow traffic to and from the CommLink IV when the IP module is installed. The nature of the data is raw in form and comprised of packets native to Prism soft-ware. The IP Module will respond to ICMP traffic (PING) for verification of proper configuration. Prism software is required in order to read and send data to the IP module and through the CommLink IV to the control system. The IP Module connects to the host Ethernet system by means of the supplied 10 ft. long CAT 5 Ethernet crossover cable which plugs into the 10/100 Base-T, RJ-45 jack on the back of the CommLink IV and into a Ethernet router or Ethernet modem on your building’s LAN. Setup of the CommLink IV with the IP Module requires a knowledgeable IT person familiar with configuring network adapters and TCP/IP systems. Prism software must be installed on the local LAN computer(s) and/or remote Internet computers that will be used to program and monitor the control system.
OE415-02 IP Module Kit
Technical Data OE415-02 IP Module Kit
Operating Temperature 10°F to 140°F Media Access Control CSMA/CD with ACK
Operating Humidity 90% RH Non-Condensing Network Connection 10/100 Base-T Ethernet RJ-45 MDI Socket
Protocols Supported ARP, UDP, TCP, Telnet, ICMP, SNMP, DHCP, BOOTP,
Auto IP, HTTP, SMTP, TFTP
Flow Control XON/XOFF (Software), CTS/RTS (Hardware), None
Network Interface IEEE 802.3 RJ45 Ethernet
10BASE-T Or 100BASE-TX (Auto-sensing)
Management Internal Web Server, SNMP (Read Only), Serial Login, Telnet Login,
Device Installer Software 3 Year Warranty WattMaster reserves the right to change specifications without notice
1.28”
1.34
”
CAT5 Ethernet Cable
IP Module
Auto-Zone Control Systems
Form: WM-AZ-OE419-06-RemoteLnkII-01A.doc Page 1 of 1
Description The OE419-06 Remote Link II is essentially a 14,400 baud modem that connects to the CommLink IV via a serial cable. When it is used as a modem (at the remote computer lo-cation) it connects to the remote computer via a USB cable. The Remote Link II is used to provide for remote dial-up communications with the CommLink II or CommLink IV com-munication interfaces. The Remote Link II connects to the CommLink II or IV communications interface at the control system location. A telephone line connects the Remote Link II to the local phone service. By dialing the telephone number at the job site that the Remote Link II is connected to (using another Remote Link II modem from a remote location), the control system can be monitored and controlled using the Prism computer front end software package.
Mounting The Remote Link II should be mounted close to a serviceable telephone outlet. The CommLink II or CommLink IV communications interface connects to the Remote Link II with the supplied 6 ft. long serial cable. It is recommended that a second Remote Link II be used as the dial out modem at the remote computer location. WattMaster will not support any other internal or external modems by other manufacturers. A 6 ft. long USB cable is sup-plied with the Remote Link II to connect to the remote computer USB port when the Remote Link II is used at the remote computer location. If an on-site computer at the job location is re-quired, it should be connected to the CommLink II or IV at or near the location where the Remote Link II is located, for ease of connection. If you need to use a longer serial or USB cable, you will need to purchase these from an electronics supply store. Do not use any USB or serial cables longer than 25 ft.
1.50
7.005.25
REAR VIEW
FRONT VIEW
OE419-06 Remote Link II
Technical Data OE419-06 Remote Link II
Power 9 VDC Plug-in Transformer 120 VAC to 9 VDC
(Included)
Computer Connection For Remote Modem Use
6 ft. USB Cable For Use With USB Version 1.1 or 2.0 Ports
Power Consumption 500mA Maximum Phone Connection RJ-11 Female Operating Temperature 10°F to 140°F Line Speed 14,400 bps Operating Humidity 90% RH Non-
Condensing Data Compression V.42bis/MNP 5
CommLink Connection 6 ft. - Serial Cable Error Correction V.42/MNP 2-4 3 Year Warranty WattMaster reserves the right to change specifications without notice
Form: WM-AZ-OE366-USB-Link-01A.doc Page 1 of 1
Auto-Zone Control Systems
Description The OE366 USB-Link allows computer access into the Auto-Zone controls system and also provides commu-nications across multiple local communications loops on the control system when a CommLink Communica-tions Interface is installed on the system. The USB-Link provides a direct link to enable the sys-tem operator to view the status and to configure and adjust the setpoints of any controller on the control system communications loop using the Prism II com-puter front end software. The USB-Link is small in size and is powered by the USB port of the computer it is plugged into, making it completely portable and allowing connection to the system from any controller. The USB-Link is supplied with a USB cable, a mini-DIN male communication cable, and two mini-DIN to terminal adapters. The communication cable allows the user to walk up to any controller that has a com-munication socket and plug in the USB-Link to gain access to the system. The adapters are used for boards that do not have a female mini-DIN plug con-nection.
To use the USB-Link, you will need a computer with an available USB 1.1 or 2.0 port with the included USB drivers installed. You will also need the Prism II com-puter front end software installed on the computer.
CAUTION: The USB-Link does not work with Prism I software. It only works with Prism II.
OE366 USB-Link
Technical Data OE366 USB-Link Operating Temperature 10°F to 140°F Cabling Included (1) 6 Ft. Long USB Cable and
(1) 7 Ft. Long Communications Cable Operating Humidity 90% RH Non-Condensing Communications RS-485 - 9600 Baud Computer Connection USB Version 1.1 or 2.0 Adapters Included PL1019054 and PL101905 Mini DIN
Plug Adapters Three Year Warranty WattMaster reserves the right to change specifications without notice
��������������� ������
Form: AZ-CVC-SUB-01B-0201 Page 1 of 1
Technical Data OE331 CV-C ControllerPower 24 Volt AC Weight 1.5 lb.Power Consumption 12 VA Maximum Network Connection RS-485
Operating Temp 10°F to 149°F Protocol HSI Open Protocol Token PassingOperating Humidity 90% RH Non-Condensing Communications RS-485 - 9600 Baud
Inputs: Outputs:Quantity Available Types Quantity Available Types
Type III-10kohm Sensor Binary
0-10 VDC Sensor0-5 VDC Sensor
5 Onboard Relays (2 Amp @ 24 VAC)N.O. Contacts with Suppressors
4-20mA Sensor Analog
6
Binary Contact Closure1 Modular Phone Jack For
Optional Airflow or SP Sensor
2 0-10 Volt DC Out
WattMaster reserves the right to change specifications without notice Three Year Warranty
5HOD\ 2XWSXWVOnly Relay Output #1 (Fan On/Off Only) has a specific functionthat cannot be changed. All other outputs are user configurablein one of the following modes:
• 0 - Not Used (Nothing connected to this output )• 1 - Heating Stage• 2 - Cooling Stage• 3 - Humidifier Enable• 4 - De-Humidifier Enable• 5 - Scheduled Relay from Internal Schedule• 6 - Scheduled Relay from External Schedule (Only 1
Available!)
There are a total of 12 relays that can be configured. Four arefound on the Controller itself (R2 - R5) and the remaining eight(R6 - R13) are found on the Optional Relay Expansion Board thatcan be connected to the PJ2 expansion input.
0RXQWLQJThe CV-C Controller is provided with an integral backplate formounting inside of a control enclosure. An optional factory controlenclosure for the CV-C Controller is available.
$QDORJ 2XWSXWVThere are two Analog Outputs available on thiscontroller. They are both user configurable as follows:
• 0 - Not Used (Nothing connected to thisoutput)
• 1 - Economizer (Requires either Supply Air orMixed Air Sensor)
• 2 - Relief Fan VFD Signal (Requires ReliefPressure Sensor)
• 3 - Chilled Water Valve (Requires SupplySensor)
• 4 - Hot Water Valve (Requires Supply Sensor)• 5 - Humidification/De-Humidification
(Requires Humidity Sensor)
'HVFULSWLRQThe OE331 - CV-C Controller is a configurable controllerthat allows for user configurable inputs and outputs. CV-C Controllers also have provisions for mounting a RelayExpansion Board to provide additional heating or coolingstaging capability.
$QDORJ ,QSXWVOnly Analog Input #1 (Space Temp Sensor Only) andAnalog Input #6 (Airflow Sensor Only) have a specificfunction that cannot be changed. All other inputs are userconfigurable in one of the following modes:
• 0 - Not Used ( Nothing connected to this input )• 1 - Slide Offset (Requires Flush Mount Wall
Sensor with this Option)• 2 - Supply Air Temperature• 3 - Return Air Temperature• 4 - Mixed Air Temperature• 5 - Outdoor Air Temperature (Will broadcast to
ALL other controllers)• 6 - Humidity Sensor (4-20 ma scaling)• 7 - Humidity Sensor (0-5 VDC scaling)• 8 - CO² Sensor (4-20 ma scaling)• 9 - CO² Sensor (0-5 VDC scaling)• 10 - Relief Pressure Sensor (Requires 0-5 VDC
±0.3" WG Sensor)• 11 - Dirty Filter Contact (Normally Open)• 12 - Alarm Contact (Normally Open)• 13 - Alarm Contact (Normally Closed)•
���������������� ��
EXPANSION
SENSOR
PRESSURE
GND
7AIN
AOUT2
AOUT1
AIN
GND
GND
5
AIN
AIN
AIN
4
3
2
T'STAT
24VAC
NETWORK
16
TOKEN
32
8
4
GND
AIN1
12V
INPUTS
R
SHLD
T
COMM
1
2
YS101718
TUC5R PLUS
CO
M1
-3
R4
CO
M4
-5
R4
R3
R2
R1
6.2“
6.6“7.3“
6.7“ 1.1“
��������������� ������
Form: WM-351-SUB-01B-0201 Page 1 of 1
���������The OE351 - 8 Relay Output Modular Ex-pansion Board is used in conjunction withthe OE331 – CV-C Controller Board toallow for additional stages of heating andcooling. The OE351 Relay ExpansionBoard provides 8 relay outputs for pilotduty switching control.
The OE351 Relay Expansion Board con-nects to the OE331 CV-C Controller bymeans of a modular cable provided withthe OE351 Relay Output ExpansionBoard. Quick Connect Terminals for con-nection of 24VAC power are provided onthe Relay Output Expansion Board forfield wiring to a 24VAC power source.Quick connect terminals are also pro-vided for connection of field wiring to therelay outputs.
The relay outputs are N.O. contacts withtwo common terminals. All outputs andthe relay common are electrically isolatedfrom all other circuitry on the board. Allrelay outputs are supplied with transientsuppression devices across each set ofcontacts to reduce EMI and arcing. Therelay output contacts are rated for pilotduty control of a maximum of 2 Amps @24 VAC or 24 VDC.
���� The OE351 Relay Output ExpansionBoard is supplied mounted on a plasticSnap Track channel. The Snap Trackchannel has two mounting holes whichare used to field mount the board with theprovided screws. The board should bemounted in close proximity to the OE331CVC Controller board to allow for con-nection of the modular cable,
����������������������
������������
Technical Data OE351 – 8 Relay OutputExpansion Board
Operating Power 24VAC Power Consumption 20 VA MaximumOperating Temp 10°F to 149°F Operating Humidity 90% RH Non-CondensingCommunications Integral I2 C Chip Weight 0.25 lb.
Outputs:Relay Qty. 8 – Electrically Isolated Relay Contact Rating 2 Amp @ 24 VACWattMaster reserves the right to change specifications without notice
3 Year Warranty
EXPANSION PORT
24VAC
IN OUT
COM
PO
WE
R
U4
U5
U3
U1
RELAY 1
RELAY 2
RELAY 3
ADDRESS
RELAY 4
RELAY 5
RELAY 6
RELAY 7
RELAY 8
N.O
.C
ON
TA
CT
SR
EL
AY
CO
MM
ON
S9
,10
7.0
0"
4.00"
Snap Track
Relay Board
��������������� ������
Form: WM-MLK-SUB-01B-0201 Page 1 of 1
���������The OE362 MiniLink Communication In-terface is a proprietary network controllerthat is used to integrate multiple localcommunication loops into a networkcommunications system. Network loopterminals of the Minilink are designed tobe connected to the CommLink II and toother MiniLinks on the network system.Local loop terminals of the MiniLink aredesigned to be connected to controllerson the local loop system. The MiniLinkutilizes token passing communicationarchitecture A MiniLink is designed toserve as the local communications loopmaster. This means that it is responsiblefor sending the token to all the controllerson the local communications loop. Net-work communications are of the RS-485type operating at 19,200 baud. Localcommunications are also of the RS-485type and operate at 9600 baud.
���� The MiniLink is provided with an integralbackplate for mounting inside of a controlenclosure. It is recommended that theMiniLink is mounted in the HVAC unitcontrol enclosure, or in a control enclo-sure in the building equipment room. Anoptional factory control enclosure for theMiniLink is available.
��������������
�������������������
Technical Data OE362 - MiniLinkCommunication Interface
Power 24 Volt AC Weight 0.5 lb.Power Consumption 10 VA Maximum Network Loop RS-485, 19200 BaudOperating Temp 10°F to 149°F Local Loop RS-485, 9600 BaudOperating Humidity 90% RH Non-Condensing Protocol HSI Open Protocol Token PassingWattMaster reserves the right to change specifications without notice
Three Year Warranty
RN2
HIG
HS
PE
ED
LO
OP
R
INT
ER
FA
CE
YS
10
16
97
T
U1
0
CX
4U
4 RA
M
CX
3
U2
CX
2U
3 EP
RO
M
R6
R5
WD
OG
U9
U8
R1
4R
15
R1
3R
12
TB
1
R
R1
0
LO
OP
R11
T
JO2
32
JP
1
U5
216 8 4
U1
CX
11
R1
ADDR
JO1
J1
R3
R2
NE
TW
OR
K
TB
2
R T
7.0
0"
7.5
0"
4.00"
4.50"
0.20 Dia. - 4 PL.
��������������� ������
Form: WM-RMS-SUB-01B-0201 Page 1 of 1
���������The WattMaster, patented design, RoomSensor provides accurate sensing of theroom temperature. Its design allows forflush wall mounting yet rejects the influenceof surface and internal wall temperatures.The Room Sensor’s attractive styling andoff white casing color make it suitable formost building decors. If interior decorationrequires, the Zone Sensor casing can alsobe painted or wall papered without affectingthe sensor's performance. Room Sensorsare available in 4 different configurations:
• OE210 - Sensor Plain• OE211 - Sensor with Setpoint Ad-
justment• OE212 - Sensor with Override• OE213 - Sensor with Setpoint Ad-
justment and Override
The Room Sensor Plain and Room Sensorwith Override, require (2) wires to be con-nected from the controller to the sensor.The Room Sensor with setpoint adjustmentand Zone Sensor with Setpoint and Over-ride options, require 3 wires be connectedto the sensor. Twisted cable is recom-mended for wiring of all Room Sensors.Wiring should not be run in conduit withother AC line voltage wiring, or with anyconductors carrying highly inductive loads.Most applications do not require shielding.
���� The Room Sensors are designed to be mounted on a vertical, 2” x 4” electrical box recessed in the wall. If the wallcannot be penetrated, a plastic surface mount box such as those made by Wiremold�, may be used to mount thesensor to the wall surface.
���������������������
��������
TechnicalData
OE210, OE211, OE212& OE213 Room Sensors
Sensor Element Type III Thermistor 10k ohm @ 77º F
Mounting Designed to be Flush Mounted to Wallusing Vertical 2” x 4” Handy Box (by others)
Accuracy ±0.4º F between 30º F to 150º F Line Loss 0.25º F max. error, using 22 AWG wire at 1000 ft.Range -30º F to 150º F Weight 4 oz.WattMaster reserves the right to change specifications without notice
Three Year Warranty
OE210 OE211 OE212 OE213
Room Sensor - Plain Room SensorWith Override
Room SensorWith Setpoint Adjust
Room SensorWith Setpoint Adjust
& Overide
O O
A A
O O
R R
L L
M M
E E
E E
C C
W W
R R
R R
OVR OVR
0.25“
TMP
GND
AUXOUT
2.7
5“
2.00“
Wall Cut-Out DimensionsWhen Sensor Is To BeMounted WithoutHandy Box (By Others)
2.75“
3.2
5“
4.5
0“
2.5
0"
0.88“
O
A
O
R
L
M
E
E
C
W
R
R
C O N T R O L S
FILENAME
DATE: B. CREWS
DESCRIPTION:PAGE
DRAWN BY:
Duct Temperature Sensor1
JOB NAME
11/24/98
DUCSENS1.CDR
OE230 & OE231
Duct Temperature SensorsOE230 (6" Probe) & OE231 (12" Probe)
Mounting Plate
Gasket
Adhesive Backed Drill GuideMounting Template
11-1/2" (OE231)
5-1/2" (OE230) Mounting Plate
4.0"
3/4"
1/4" Hex Head Sheet Metal Screws
ThreadTogether
Duct Work
Drill 5/16" Hole In Ductwork For Probe
Leads Are Non-polarized.Butt Splice Leads To 24 GaugeWire Minimum. Connect LeadsTo "Analog In" And "Ground"At Controller.
Notes:
1.)All Wiring To Be In Accordance WithLocal And National Electrical CodesAnd Specifications.
Temperature Sensor Resistance/Voltage Chart
Temp Resistance* Voltage
F Ohms @ Input*-10.............93333........4.620-5...............80531........4.5500...............69822........4.4745...............60552........4.39010..............52500........4.29715..............45902........4.20020..............40147........4.09525..............35165........3.98230..............30805........3.86235..............27140........3.73740..............23874........3.605
�
Temp Resistance* Voltage
F Ohms @ Input*�
45..............21094........3.47050..............18655........3.33052..............17799........3.27554..............16956........3.21756..............16164........3.16058..............15385........3.10060..............14681........3.04262..............14014........2.98564..............13382........2.92766..............12758........2.86768..............12191........2.810
Temp Resistance* Voltage
F Ohms @ Input*�
69..............11906 ........2.78070..............11652 ........2.75271..............11379 ........2.72272..............11136 ........2.69573..............10878........2.66574..............10625........2.63575..............10398........2.60776..............10158........2.57078..............9711 ..........2.52080..............9302..........2.46582..............8893..........2.407
Temp Resistance* Voltage
F Ohms @ Input*84..............8514..........2.35286..............8153..........2.29788..............7805..........2.24290..............7472..........2.18795..............6716..........2.055100............6047..........1.927105............5453..........1.805110 ............4923..........1.687115 ............4449..........1.575120............4030..........1.469
�
125............3656..........1.369
*Chart Notes:1. Use the resistance column to check the thermistor sensor while disconnected from the controllers (not powered).
2. Use the voltage column to check sensors while connected to powered controllers. Read voltage with meter set on DC volts.Place the "-"(minus) lead on GND terminal and the "+"(plus) lead on the sensor input terminal being investigated. If the voltageis above 5.08 VDC, the sensor or wiring is "open." If the voltage is less than 0.05 VDC, the sensor or wiring is shorted.
The Duct Sensor Is Used For Sensing SupplyOr Return Air Temperatures. Location Of TheSensors Is Very Important In Order To ObtainAccurate Temperature Readings. TheFollowing Recommendations Should BeFollowed:
When Used As A Supply Air Sensor TheSensor Should Be Mounted In The Supply AirDuct As Close To The HVAC Unit As PossibleAnd Upstream Of The Bypass Damper (IfUsed) For Best Results. For Best Accuracy,Apply Insulation On The Outside Of TheDuctwork Over The Sensor. This Will HelpThermal Gradients From Affecting The Sensor.
Supply Air
Return AirWhen Used As A Return Air Sensor TheSensor Should Be Mounted In The Return AirDuct As Close To The HVAC Unit As PossibleAnd Upstream Of The Bypass Damper (IfUsed) For Best Results. For Best Accuracy,Apply Insulation On The Outside Of TheDuctwork Over The Sensor. This Will HelpThermal Gradients From Affecting The Sensor.
See The Systems Installation And OperationManual For Other Design Considerations AndRecommendations Regarding DuctTemperature Sensor Location.
Caution!
4.)All Wiring To Be In Accordance WithLocal And National Electrical CodesAnd Specifications.
3.)Gasket Must Be Installed Under CoverPlate To Provide Raintight Seal.Rainwater Can Damage Sensor!
Temperature Sensor Resistance/Voltage ChartTemp Resistance* Voltage
F Ohms @ Input*-10.............93333 ........4.620-5...............80531 ........4.5500...............69822 ........4.4745...............60552 ........4.39010 ..............52500 ........4.29715 ..............45902 ........4.20020 ..............40147 ........4.09525 ..............35165 ........3.98230 ..............30805 ........3.86235 ..............27140 ........3.73740 ..............23874 ........3.605
°Temp Resistance* Voltage
F Ohms @ Input*°45 ..............21094 ........3.47050 ..............18655 ........3.33052 ..............17799 ........3.27554 ..............16956 ........3.21756 ..............16164 ........3.16058 ..............15385 ........3.10060 ..............14681 ........3.04262 ..............14014 ........2.98564 ..............13382 ........2.92766 ..............12758 ........2.86768 ..............12191 ........2.810
Temp Resistance* VoltageF Ohms @ Input*°
69 ..............11906 ........2.78070 ..............11652 ........2.75271 ..............11379 ........2.72272 ..............11136 ........2.69573 ..............10878 ........2.66574 ..............10625 ........2.63575 ..............10398 ........2.60776 ..............10158 ........2.57078 ..............9711 ..........2.52080 ..............9302..........2.46582 ..............8893..........2.407
Temp Resistance* VoltageF Ohms @ Input*
84 ..............8514..........2.35286 ..............8153..........2.29788 ..............7805..........2.24290 ..............7472..........2.18795 ..............6716..........2.055100............6047..........1.927105............5453..........1.805110 ............4923..........1.687115 ............4449..........1.575120............4030..........1.469
°
2.)Unused Conduit Opening(s) MustHave Closure Plugs Installed And MustBe Coated with Sealing Compound ToProvide Raintight Seal. Water CanDamage Sensor!
1.)The Outside Air Sensor Must BeMounted In A Vertical Position AsShown (Sensor Tube PointingDown).
Sensor Must Be LocatedWhere It Will Not Be Affected ByDirect Sunlight Or Heat ProducingEquipment. If Possible Mount UnderRoof Eave Or Similar ProtectedLocation. If Sensor Is Not LocatedAs Specified, Erroneous Outside AirTemperature Readings Will Result.
Water Must Not BeAllowed To Stand In SensorTube. Rainwater Will DamageSensor.
*Chart Notes:1. Use the resistance column to check the thermistor sensor while disconnected from the controllers (not powered).
2. Use the voltage column to check sensors while connected to powered controllers. Read voltage with meter set on DCvolts. Place the "-"(minus) lead on GND terminal and the "+"(plus) lead on the sensor input terminal being investigated. Ifthe voltage is above 5.08 VDC, then the sensor or wiring is "open." If the voltage is less than 0.05 VDC, the sensor orwiring is shorted.
Outside Air Sensor OE250
Notes:
Closure PlugCAUTION!See Note 2
Gasketed CoverCAUTION!See Note3
CoverMountingScrew - Typ.
Mounting Tab& Screw - Typ.
0.21" Dia. x 0.73Lg. Slot - Typ.
3.00”
FILENAME
DATE: B. CREWS
DESCRIPTION:PAGE
DRAWN BY:
Outside Air Temperature Sensor1
JOB NAME
04/25/02
G-OE250-OAS-PDWG.CDR
OE250
Front View Side View Back View
Closure PlugCAUTION!See Note 2
Sensor TubeCAUTION!See Note 1
Mounting Tab& Screws - Typ.
Correct
Incorrect
Incorrect
See Note #1
Sensor MountingPostion
2.70”2.30”
��������������� ������
Form: WM-CEW-SUB-01B-0201 Page 1 of 1
Project: ___________________________ Location _____________________________
Stages of Cooling: ____ Stages of Heat ___ Gas Electric Economizer Yes No
Loop: 1 2 3 4 Modem Installed: Yes No Phone No. ________________
���������� �
UnitAddress
Unit Description or Location Sensor Type Notes
1 S SO SA SOA
2 S SO SA SOA
3 S SO SA SOA
4 S SO SA SOA
5 S SO SA SOA
6 S SO SA SOA
7 S SO SA SOA
8 S SO SA SOA
9 S SO SA SOA
10 S SO SA SOA
11 S SO SA SOA
12 S SO SA SOA
13 S SO SA SOA
14 S SO SA SOA
15 S SO SA SOA
16 S SO SA SOA
17 S SO SA SOA
18 S SO SA SOA
19 S SO SA SOA
20 S SO SA SOA
21 S SO SA SOA
22 S SO SA SOA
23 S SO SA SOA
24 S SO SA SOA
25 S SO SA SOA
26 S SO SA SOA
27 S SO SA SOA
28 S SO SA SOA
29 S SO SA SOA
30 S SO SA SOA
[S=Sensor] [SO=Sensor w/ Override] [SA=Sensor w/ Setpoint adjust] [SOA=Sensor w/ Override & Setpoint adjust]
Form
: WM
-CVL
-SU
B-0
1B-0
201
Pag
e 1
of 4
Aut
o-Zo
ne C
V-E
X S
et-u
p In
form
atio
n S
heet
Job
Nam
e: _
____
____
____
___
Loc
atio
n:__
____
____
____
____
____
____
___
Sche
dulin
gSe
tpoi
nts
Con
trol
ler
Add
ress
Con
trol
ler
Des
crip
tion
Are
a Se
rved
By
CV
Con
trol
ler
Star
t Tim
eSt
op T
ime
Coo
ling
Hea
ting
1C
V C
ontr
olle
r2
CV
Con
trol
ler
3C
V C
ontr
olle
r4
CV
Con
trol
ler
5C
V C
ontr
olle
r6
CV
Con
trol
ler
7C
V C
ontr
olle
r8
CV
Con
trol
ler
9C
V C
ontr
olle
r10
CV
Con
trol
ler
11C
V C
ontr
olle
r12
CV
Con
trol
ler
13C
V C
ontr
olle
r14
CV
Con
trol
ler
15C
V C
ontr
olle
r16
CV
Con
trol
ler
17C
V C
ontr
olle
r18
CV
Con
trol
ler
19C
V C
ontr
olle
r20
CV
Con
trol
ler
21C
V C
ontr
olle
r22
CV
Con
trol
ler
23C
V C
ontr
olle
r24
CV
Con
trol
ler
25C
V C
ontr
olle
r26
CV
Con
trol
ler
27C
V C
ontr
olle
r28
CV
Con
trol
ler
29C
V C
ontr
olle
r30
CV
Con
trol
ler
Form
: WM
-CVL
-SU
B-0
1B-0
201
Pag
e 2
of 4
Aut
o-Zo
ne C
V-E
X S
et-u
p In
form
atio
n S
heet
Job
Nam
e: _
____
____
____
___
Loc
atio
n:__
____
____
____
____
____
____
___
Sche
dulin
gSe
tpoi
nts
Con
trol
ler
Add
ress
Con
trol
ler
Des
crip
tion
Are
a Se
rved
By
CV
Con
trol
ler
Star
t Tim
eSt
op T
ime
Coo
ling
Hea
ting
31C
V C
ontr
olle
r32
CV
Con
trol
ler
33C
V C
ontr
olle
r34
CV
Con
trol
ler
35C
V C
ontr
olle
r36
CV
Con
trol
ler
37C
V C
ontr
olle
r38
CV
Con
trol
ler
39C
V C
ontr
olle
r40
CV
Con
trol
ler
41C
V C
ontr
olle
r42
CV
Con
trol
ler
43C
V C
ontr
olle
r44
CV
Con
trol
ler
45C
V C
ontr
olle
r46
CV
Con
trol
ler
47C
V C
ontr
olle
r48
CV
Con
trol
ler
49C
V C
ontr
olle
r50
CV
Con
trol
ler
51C
V C
ontr
olle
r52
CV
Con
trol
ler
53C
V C
ontr
olle
r54
CV
Con
trol
ler
55C
V C
ontr
olle
r56
CV
Con
trol
ler
57C
V C
ontr
olle
r58
CV
Con
trol
ler
59C
V C
ontr
olle
r60
CV
Con
trol
ler
Form
: WM
-CVL
-SU
B-0
1B-0
201
Pag
e 3
of 4
Aut
o-Zo
ne C
V-E
X S
et-u
p In
form
atio
n S
heet
Job
Nam
e: _
____
____
____
___
Loc
atio
n:__
____
____
____
____
____
____
___
Sche
dulin
gSe
tpoi
nts
Con
trol
ler
Add
ress
Con
trol
ler
Des
crip
tion
Are
a Se
rved
By
CV
Con
trol
ler
Star
t Tim
eSt
op T
ime
Coo
ling
Hea
ting
61C
V C
ontr
olle
r62
CV
Con
trol
ler
63C
V C
ontr
olle
r64
CV
Con
trol
ler
65C
V C
ontr
olle
r66
CV
Con
trol
ler
67C
V C
ontr
olle
r68
CV
Con
trol
ler
69C
V C
ontr
olle
r70
CV
Con
trol
ler
71C
V C
ontr
olle
r72
CV
Con
trol
ler
73C
V C
ontr
olle
r74
CV
Con
trol
ler
75C
V C
ontr
olle
r76
CV
Con
trol
ler
77C
V C
ontr
olle
r78
CV
Con
trol
ler
79C
V C
ontr
olle
r80
CV
Con
trol
ler
81C
V C
ontr
olle
r82
CV
Con
trol
ler
83C
V C
ontr
olle
r84
CV
Con
trol
ler
85C
V C
ontr
olle
r86
CV
Con
trol
ler
87C
V C
ontr
olle
r88
CV
Con
trol
ler
89C
V C
ontr
olle
r90
CV
Con
trol
ler
Form
: WM
-CVL
-SU
B-0
1B-0
201
Pag
e 4
of 4
Aut
o-Zo
ne C
V-E
X S
et-u
p In
form
atio
n S
heet
Job
Nam
e: _
____
____
____
___
Loc
atio
n:__
____
____
____
____
____
____
___
Sche
dulin
gSe
tpoi
nts
Con
trol
ler
Add
ress
Con
trol
ler
Des
crip
tion
Are
a Se
rved
By
CV
Con
trol
ler
Star
t Tim
eSt
op T
ime
Coo
ling
Hea
ting
91C
V C
ontr
olle
r92
CV
Con
trol
ler
93C
V C
ontr
olle
r94
CV
Con
trol
ler
95C
V C
ontr
olle
r96
CV
Con
trol
ler
97C
V C
ontr
olle
r98
CV
Con
trol
ler
99C
V C
ontr
olle
r10
0C
V C
ontr
olle
r10
1C
V C
ontr
olle
r10
2C
V C
ontr
olle
r10
3C
V C
ontr
olle
r10
4C
V C
ontr
olle
r10
5C
V C
ontr
olle
r10
6C
V C
ontr
olle
r10
7C
V C
ontr
olle
r10
8C
V C
ontr
olle
r10
9C
V C
ontr
olle
r11
0C
V C
ontr
olle
r11
1C
V C
ontr
olle
r11
2C
V C
ontr
olle
r11
3C
V C
ontr
olle
r11
4C
V C
ontr
olle
r11
5C
V C
ontr
olle
r11
6C
V C
ontr
olle
r11
7C
V C
ontr
olle
r11
8C
V C
ontr
olle
r11
9C
V C
ontr
olle
r12
0C
V C
ontr
olle
r
#30
#30
#30
#30
#1
#1
#1
#1
RS-48519200 Baud
RS-48519200 Baud
RS-4859600 Baud
RS-4859600 Baud
RS-4859600 Baud
RS-4859600 Baud
SupplyAir
Sensor
RS-485Local Loop RS-485
Local LoopEconomizer
(Actuator By Others)
Generic AlarmDirty Filter Alarm Shown
Room Sensorwith Optional
Override & Adj.
F
Typical CV Controller Wiring
* Only One Outside Air Sensor
Loop # 1MiniLink
Loop # 2MiniLink
Loop # 3MiniLink
Loop # 4MiniLink
Network Loop
Network Loop
Local Loop
Local Loop
Typical Network & Local Loop Wiring2 Conductor Twisted Pair With Shield(Belden #82760 Or Equivalent)
Local Loop
Local Loop
*Outside AirSensor
Loop #1
Loop #2
Loop #3
Loop #4
24VAC(20 VA)
24VAC(20 VA)
24VAC(20 VA)
24VAC(20 VA)
24VAC(14 VA)
24VAC(14 VA)
24VAC(14 VA)
24VAC(14 VA)
24VAC(20 VA)
24VAC(20 VA)
24VAC
24VAC(20 VA)
24VAC(20 VA)
24VAC(20 VA)
CVControllers
CVControllers
CVControllers
CVControllers
See
For Commlink WiringDetails
Drawing Filename:AZCVEX-WIRE-P5.CDR
See
For MiniLink WiringDetails.
Drawing Filename:AZCVEX-WIRE-P4.CDR
SeeFor System Manager Wiring Details
Drawing Filename: AZCVEX-WIRE-P2.CDR
See For CV Controller Wiring DetailsDrawing Filename: AZCVEX-WIRE-P3.CDR
Notes:
1.)24 VAC Must Be Connected SoThat All Ground Wires RemainCommon.
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
RELAY
OUTPUT
COM
1-3
OUT
OUT1
2
COM4-5
OUT
OUT
OUT
3
4
5
24VAC
GNDPWR
COMM
T
SHLD
LD4
REC.
12V
AIN1
2
3
4
5
GND
GND
AOUT
AIN
AIN
AIN
AIN
4-5
OUT
COMM
TEST
32K
8K
RAM EPROM
ADDRESS ADD
PRESSURE
SENSOR
485
COMM
R
YS101564
EW
DO
G
0-5
VD
C
0-1
VD
C
CPU
LO
OP
LO
OP
32
16
8
4
1
2
MINILINKMINILINK
NE
TW
OR
KN
ET
WO
RK
T
SH
R
24VAC
GND
T
SH
R
LO
OP
LO
OP
3232
16
8
4
1
2
MINILINKMINILINK
NE
TW
OR
KN
ET
WO
RK
T
SH
R
24VAC
GND
T
SH
R
LO
OP
LO
OP
32
16
8
4
1
2
MINILINKMINILINK
NE
TW
OR
KN
ET
WO
RK
T
SH
R
24VAC
GND
T
SH
R
LO
OP
LO
OP
32
16
8
4
1
2
MINILINKMINILINK
NE
TW
OR
KN
ET
WO
RK
T
SH
R
24VAC
GND
T
SH
R
3.)Each Local Loop May Have Up To 30CV Controllers Connected To It. EachLocal Loop Requires A Minlink.
4.)All Communication Wiring To Be 18Ga. Minimum, 2 Conductor TwistedPair With Shield. Belden #82760 OrEquivalent.
5.)Systems May Consist Of Up To 4Local Loops (120 CV Controllers).Consult Factory For Systems ThatExceed These Quantities.
6.)For Individual Component Wiring SeeSpecific Component Wiring Diagram.
7.)It Is Recommended That All CVControllers Address Switches AreSet Before Installation To TheirRespective Constant Volume Units.
2.)All Wiring To Be In Accordance WithLocal And National Electrical Codesand Specifications.
C O N T R O L S
FILENAME
JOB NAME
DATE: 08/10/09 B. CREWS
DESCRIPTION:PAGE
DRAWN BY:
AZCVEX-WIRE-P1.CDR
Auto-Zone CV-EX
System Wiring Diagram1
Remote Link II(Optional)
CommLink IVCommunications
Interface
110/24 VAC
110/9 VAC
Power Pak(14 VA@24VAC)
Power Pak
STATUS
www.wattmaster.com RX
-US
B
TX
-US
B
CO
MM
TX
-CP
U
RX
-CP
U
AC
T-L
AN
LN
K-L
AN
C
O
N
T
R
O
L
S
CommLink IV
www.wattmaster.com
www.wattmaster.com
C
O
N
T
R
O
L
S
C
O
N
T
R
O
L
S
Remote Link II
Remote Link II
System Manager
24VAC(25 VA)
03/31/04
03:38PMWED
OCCUPIED
NOALARMS
Computer(Optional)
C O N T R O L S
FILENAME
DATE: B. CREWS
DESCRIPTION:PAGE
DRAWN BY:
System Manager Wiring2
JOB NAME
Auto-Zone CV-EX
Notes:
1.)24 VAC Must Be Connected SoThat All Ground Wires RemainCommon.
2.)All Wiring To Be In AccordanceWith Local And National ElectricalCodes And Specifications.
3.) All Communication Wiring To Be2 Conductor Twisted Pair WithShield. Use Belden #82760 OrEquivalent.
08/10/09
AZCVEX-WIRE-P2.CDR
The Ideal Recommended Location For The System Manager Is As TheFirst Device On The Local Loop, (Connect To MiniLink Local Loop Terminals)Although The System Manager May Be Connected To Any Local Loop AtAny Point On The Local Loop.The System Manager Will Not Operate Correctly If Attached To The Network Loop.
DO NOT CONNECT TO THE NETWORK LOOP.
To MiniLink, Or Next DeviceOn Local Loop
Required VA For TransformerSystem Manager = 25VA Max.
System ManagerTop
System ManagerBase
MADE IN
THE USA
EP
RO
M
1000uF10v
YS101806 REV. 1
DSPY1
UNIVERSAL SMART DISP. UNIT
SYSTEM MANAGER
SERIAL # :
U13 SERIAL #1000uF10v
C9
470uF50v
D2
PC
B80C
552-5
-16W
P
442860=
2/5
DfD
9722V
7Y
PH
ILIP
S
CX
13
LD8
CX
9
Az_Sysm
vx.xx 1234
V62C518256L-70P
U9
U8
LD7
RN
1
LD6
U7
CX7
74H
C573
LD5
LD4
74HC573
CX
8
RN2
X2
CX
4
470uF50v
TB
2
GN
D
24
VA
CR
10 75176
RS-485
COMM
U12
CX
12
RA
M
SC1
T
TB
1
SH
LD
C7
C11
L1
C4
R
D6
8583
U6
CX6C3
D3
24C
128
U5
R7
VAR1
D4
PJ1
R3
U1
74HC259
LD3
LD2
LD1
R2
R1
EW
DO
G
PH
ILIP
S
U3
U2
CX
1
82B715CX5
CX
3
U3
DSPY1
R5
D1
R6
MC
34
06
4A
C6
R11
99
36 C
8
R9
U10
U11
R8
R12
C5
74H
C923
CX10
P1
R4
RV1
C2
C1
X1
07/16/08 06:38PM WED
OCCUPIED
NO ALARMS
Notes:
C O N T R O L S
FILENAME
DATE: B. CREWS
DESCRIPTION:PAGE
DRAWN BY:
MiniLink Wiring4
R
SH
T
R
SH
T
R
SH
T
R
SH
T
All Communication LoopWiring Is Straight Through
1632
8421
Caution!The MiniLinks Must Have Address Switches Set Between 1And 4 (Up To 4 MiniLinks Are Allowed Per CV-EX System).The MiniLinks Should Be Addressed In Consecutive OrderStarting With Address #1. Address #1 Must Be Present OnThe Loop For The System To Function.
Address Switch Shown IsSet For Address 1
Address Switch Shown IsSet For Address 4
MiniLinkAddress Switch
These Switches Must BeIn The OFF PositionAs Shown
Required VA For TransformerMiniLink = 10VA Max.
See Note 1.
Note:The Power To The MiniLink Must Be Removed AndReconnected After Changing The Address Switch
Caution:Disconnect All Communication Loop WiringFrom The MiniLink Before Removing PowerFrom The MiniLink. Reconnect Power And ThenReconnect Communication Loop Wiring.
ADD
ADD ADD
The Address For Each MiniLinkMust Be Unique To The Other MiniLinksOn The Network Loop. Loop #1 MiniLink
Should Be Addressed As #1Loop #2 MiniLink Should Be Addressed
As #2 Etc..
LO
OP
MINILINK
24VAC
GND
T
SH
R
32
16
8
4
1
2
OFF >
Rocker
Dow
n
Local LoopRS-485
9600 Baud
Connect To NextController or
System Manager
Connect To NextMiniLink And/OrCommLink On
Network LoopRS-485
19200 Baud
Minilink Communications Interface
JOB NAME1.)24 VAC Must Be Connected So
That All Ground Wires RemainCommon.
2.)All Wiring To Be In AccordanceWith Local And National ElectricalCodes And Specifications.
3.) All Communication Wiring To Be2 Conductor Twisted Pair WithShield. Use Belden #82760 OrEquivalent.
08/10/09
AZCVEX-WIRE-P4.CDR
Auto-Zone CV-EX
ADD
NETWORK
SH
T
R
JOB NAME
C O N T R O L S
FILENAME
DATE: B. CREWS
DESCRIPTION:PAGE
DRAWN BY:
CommLink IV Wiring5
08/10/09
AZCVEXWIRE-P5.CDR
Auto-Zone CV-EX
Caution:Disconnect All Communication Loop WiringFrom The CommLink Before RemovingPower
Notes:
1.)24 VAC Must Be Connected SoThat All Ground Wires RemainCommon.
2.)All Wiring To Be In AccordanceWith Local And National ElectricalCodes And Specifications.
3.)All Communication Wiring To Be2 Conductor Twisted Pair WithShield. Use Belden #82760 OrEquivalent.
24 VAC Power
If Desired A 24 VAC TransformerRated At 12 VA Minimum May
Be Used Instead Of The Supplied PowerPack. Use 18 Gauge Minimum 2Conductor Wire Between The Transformer& CommLink IV Terminals
(NotIncluded)
120 to 24 VAC Power Pack(Included) Connect To 120/1/60 DuplexReceptacle (By Others)
USB Cable (Included). ConnectThis Cable To Your ComputerUSB Port For DirectlyConnecting To CommLink IV.Also Used For AdvancedConfiguration of CommLink IV.
OE361-12 CommLink IVCommunications Interface
18 Gauge 2 ConductorWith Shield (Not Included)See Note 1
Connect To TheZone Manager MiniLinkSee Note 1
MODEMRS-232
Serial #COMPUTER
USB
10/100ETHERNET
DIAG
24V
T G R GN
D
485 LOOP POWERACT LNKUSB
Co
nfi
g
No
rmal
Optional - Prefabricated Ft. Long CAT5Ethernet Cable (Included With OptionalOE415-02 IP Module Kit).
If A Longer Ethernet Cable IsRequired, You Will Need To Obtain (FromOthers) And Install An Ethernet Cable Of TheRequired Length For Your Installation.
10
Connect To A10/100 Base-T Ethernet Router On YourLAN.
When An Optional RemoteLink Is Used, Connect ThisCable To CommLink IV AndRemote Link As Shown.Cable Is Included WithRemote Link.
Molded Modem Cable.Part #HZ000098Supplied With RemoteLink II
9P
inF
em
ale
25 PinMale
WARNING! If You Are Using The IP ModuleWith Your CommLink, Do Not Have YourEthernet Connection And USB ConnectionConnected At The Same Time. This CouldCause Unreliable Communications.
Optional Items NotRequired ForCommLink OnlyInstallations.
USB SwitchShould Be SetTo Normal
Note: For Direct Connection Via USB, Your Computer Must HaveAn Unused USB Port Available. Drivers For Your USB Port AreProvided On A CD Supplied With The CommLink IV And Will NeedTo Be Installed On Your Computer In Order For It To FunctionCorrectly. Please refer to the CommLink IV Installation TechnicalGuide Form: WM-CLIV-TGD-xxx which is supplied with theCommLink IV.
Note: See Drawing Filename: AZCVEX-WIRE-P6.CDRfor CommLink IV Dip Switch Setting Information.
JOB NAME
Notes:
C O N T R O L S
FILENAME
DATE: B. CREWS
DESCRIPTION:PAGE
DRAWN BY:
CommLink IV DIP Switch Setting6
1.)24 VAC Must Be Connected SoThat All Ground Wires RemainCommon.
2.)All Wiring To Be In AccordanceWith Local And National ElectricalCodes And Specifications.
3.)All Communication Wiring To Be2 Conductor Twisted Pair WithShield. Use Belden #82760 OrEquivalent.
08/10/09
AZCVEXWIRE-P6.CDR
Auto-Zone CV-EX
DIP Switch 1 Off & 2 Off =Multiple Loop CommunicationsRequired Setting For Auto-Zone CV-EX System
CommLink IV Communication Settings
The SW1 DIP Switch Located On The Circuit Board InsideThe CommLink IV Housing Must Be Set Correctly ForYour Specific Application In Order To Function Properly.
To Check And/Or Set The SW1 Dip Switch, First RemoveThe (2) Enclosure Screws That Hold The Top And BottomOf The CommLink IV Enclosure Together. Remove TheTop Half Of The Enclosure To Access The Circuit BoardAnd Dip Switches.
The DIP Switch Setting Should Be Set To “Multi” ForThe Auto-Zone CV-EX System.
The CommLink IV Is Factory Set For Multiple LoopApplications.The CV-EXc System Is A Multiple LoopSystem And Should Not Need To Be Changed From TheFactory Setting.
SW1
Replace The CommLink IV Cover And Secure TheEnclosure Halves Back Together With The (2) EnclosureScrews That Were Previously Removed.
ALTERA
EPM3032
WattMaster Controls Inc.
COMMLINK IV
YS102074
REV6 MADE IN USA
Caution: Comm Driver Chip Is Not Field ReplaceableOn The CommLink IV! If You Suspect The Driver IsDamaged It Must Be Returned To The Factory For
Repair Or Replacement. Do Not Try To Remove TheChip Yourself Or You Will Damage The CommLink.
OE361-12 CommLink IVCommunications Interface