instructions model avr-3-pw-c-p-tek2 +250 volt, +5 …avtech electrosystems ltd. warrants products...
TRANSCRIPT
INSTRUCTIONS
MODEL AVR-3-PW-C-P-TEK2
+250 VOLT, +5 AMP
PULSE GENERATOR FOR
CURRENT PROBE TESTING
SERIAL NUMBER: ____________
A V T E C H E L E C T R O S Y S T E M S L T D .N A N O S E C O N D W A V E F O R M E L E C T R O N I C S
S I N C E 1 9 7 5
P.O. BOX 265OGDENSBURG, NYU.S.A. 13669-0265
TEL: 888-670-8729 (USA & Canada) or +1-613-686-6675 (Intl)FAX: 800-561-1970 (USA & Canada) or +1-613-686-6679 (Intl)
[email protected] - http://www.avtechpulse.com/
X BOX 5120, LCD MERIVALEOTTAWA, ONTARIOCANADA K2C 3H5
WARRANTY
Avtech Electrosystems Ltd. warrants products of its manufacture to be free fromdefects in material and workmanship under conditions of normal use. If, withinone year after delivery to the original owner, and after prepaid return by theoriginal owner, this Avtech product is found to be defective, Avtech shall at itsoption repair or replace said defective item. This warranty does not apply tounits which have been dissembled, modified or subjected to conditionsexceeding the applicable specifications or ratings. This warranty is the extent ofthe obligation assumed by Avtech with respect to this product and no otherwarranty or guarantee is either expressed or implied.
TECHNICAL SUPPORT
Phone: 888-670-8729 (USA & Canada) or +1-613-686-6675 (International)Fax: 800-561-1970 (USA & Canada) or +1-613-686-6679 (International)
E-mail: [email protected] Wide Web: http://www.avtechpulse.com
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TABLE OF CONTENTS
WARRANTY......................................................................................................................2
TECHNICAL SUPPORT....................................................................................................2
TABLE OF CONTENTS....................................................................................................3
INTRODUCTION & SPECIFICATIONS.............................................................................5
REGULATORY NOTES.....................................................................................................6
FCC PART 18..........................................................................................................................6
EC DECLARATION OF CONFORMITY...................................................................................6
DIRECTIVE 2011/65/EU (RoHS).............................................................................................7
DIRECTIVE 2002/96/EC (WEEE)............................................................................................7
AC POWER SUPPLY REGULATORY NOTES........................................................................8
INSTALLATION.................................................................................................................9
VISUAL CHECK......................................................................................................................9
POWER RATINGS...................................................................................................................9
CONNECTION TO THE POWER SUPPLY..............................................................................9
PROTECTION FROM ELECTRIC SHOCK...........................................................................10
ENVIRONMENTAL CONDITIONS..........................................................................................11
FUSES.............................................................................................................................12
AC FUSE REPLACEMENT...................................................................................................12
DC FUSE REPLACEMENT...................................................................................................13
FUSE RATINGS.....................................................................................................................13
FRONT PANEL CONTROLS..........................................................................................14
REAR PANEL CONTROLS............................................................................................17
GENERAL INFORMATION.............................................................................................18
TEST ARRANGEMENT.........................................................................................................18
SHORTING BAR...................................................................................................................18
MECHANICAL INFORMATION......................................................................................20
TOP COVER REMOVAL.......................................................................................................20
ELECTROMAGNETIC INTERFERENCE..............................................................................20
MAINTENANCE..............................................................................................................21
REGULAR MAINTENANCE...................................................................................................21
CLEANING............................................................................................................................21
WIRING DIAGRAMS.......................................................................................................22
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WIRING OF AC POWER.......................................................................................................22
PCB 158Q - LOW VOLTAGE POWER SUPPLY, 1/3............................................................23
PCB 158Q - LOW VOLTAGE POWER SUPPLY, 2/3............................................................24
PCB 158Q - LOW VOLTAGE POWER SUPPLY, 3/3............................................................25
PCB 157C - HIGH VOLTAGE DC POWER SUPPLY.............................................................26
PCB 152B - OSCILLATOR AND TRIGGER CIRCUIT, 1/2....................................................27
PCB 152B - OSCILLATOR AND TRIGGER CIRCUIT, 2/2....................................................28
MAIN WIRING........................................................................................................................29
PERFORMANCE CHECK SHEET.................................................................................30
Manual Reference: /fileserver2/officefiles/instructword/avr-3/AVR-3-PW-C-P-TEK2edj.odt.Last modified August 23, 2016.Copyright © 2016 Avtech Electrosystems Ltd, All Rights Reserved.
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INTRODUCTION & SPECIFICATIONS
Model AVR-3-PW-C-P-TEK2 is a special order item which was custom designed for Tektronix, for the testing of current probes (such as the A6303 probe). Specifications are as follows:
Model designation: AVR-3-PW-C-P-TEK2
Description: The AVR-3-PW-C-TEK2 generates a 10 ns rise time voltage pulse (up to +250 Volts, 0.25 to 250 µs), which is accessible at the front panel OUT terminal. A shorting bar is connected between the OUT and IN terminals and the current probe is placed over the shorting bar. The IN terminal connects to ground via a 50 Ohm termination. A variable current of up to 5.0 Amperes is defined by the 250 Volt pulse and the 50-Ohmtermination.
For other applications, the OUT terminal may be used to pulse a user-supplied 50 Ohm load, if desired. In this case, the shorting bar and the “IN” terminal are not used.
Output Amplitude: up to +250 Volts to RL ≥ 50 Ohms(ie 5 amperes peak current). Ten-turn locking dial control.
Output pulse width: 250 ns to 250 us.3-position range switch and ten-turn fine control.
Output connectors: Two SMA connectors. Output Shorting bar connects between two connectors. Tektronix probe clips over this shorting bar.
Rise, fall time (20%-80%): ≤ 10 ns
Max duty cycle: 0.25 % (eg PRF max 25 Hz for PW=250 us).
Overshoot at max output: ≤ 5%
Droop (at max pulse width): ≤ 2%
Chassis: 3.9” x 17” x 14.8”
Other: See standard AVR-3-C, pages 43 and 44 Cat. No. 11
Model AVR-3-PW-C-TEK2 is modelled on our standard AVR-3 series (see http://www.avtechpulse.com/speed/avr-3).
This instrument is intended for use in research and development laboratories.
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REGULATORY NOTES
FCC PART 18
This device complies with part 18 of the FCC rules for non-consumer industrial, scientific and medical (ISM) equipment.
This instrument is enclosed in a rugged metal chassis and uses a filtered power entry module (where applicable). The main output signal is provided on a shielded connector that is intended to be used with shielded coaxial cabling and a shielded load. Under these conditions, the interference potential of this instrument is low.
If interference is observed, check that appropriate well-shielded cabling is used on the output connectors. Contact Avtech ([email protected]) for advice if you are unsureof the most appropriate cabling. Also, check that your load is adequately shielded. It may be necessary to enclose the load in a metal enclosure.
If any of the connectors on the instrument are unused, they should be covered with shielded metal “dust caps” to reduce the interference potential.
This instrument does not normally require regular maintenance to minimize interferencepotential. However, if loose hardware or connectors are noted, they should be tightened. Contact Avtech ([email protected]) if you require assistance.
EC DECLARATION OF CONFORMITY
We Avtech Electrosystems Ltd.P.O. Box 5120, LCD MerivaleOttawa, OntarioCanada K2C 3H5
declare that this pulse generator meets the intent of Directive 2004/108/EG for Electromagnetic Compatibility. Compliance pertains to the following specifications as listed in the official Journal of the European Communities:
EN 50081-1 Emission
EN 50082-1 Immunity
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and that this pulse generator meets the intent of the Low Voltage Directive 2006/95/EC.Compliance pertains to the following specifications as listed in the official Journal of theEuropean Communities:
EN 61010-1:2001 Safety requirements for electrical equipment for measurement, control, and laboratory use
DIRECTIVE 2011/65/EU (RoHS)
We Avtech Electrosystems Ltd.P.O. Box 5120, LCD MerivaleOttawa, OntarioCanada K2C 3H5
declare that, to the best of our knowledge, all electrical and electronic equipment (EEE)sold by the company are in compliance with Directive 2011/65/EU of the European Parliament and of the Council of 8 June 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (also known as “RoHS Recast”). In addition, this declaration of conformity is issued under the sole responsibility of Avtech Electrosystems Ltd. Specifically, products manufactured do not contain the substances listed in the table below in concentrations greater than the listed maximum value.
Material/Substance Threshold level
Lead (Pb) < 1000 ppm (0.1% by mass)
Mercury (Hg) < 1000 ppm (0.1% by mass)
Hexavalent Chromium (Cr6+) < 1000 ppm (0.1% by mass)
Polybrominated Biphenyls (PBB) < 1000 ppm (0.1% by mass)
Polybrominated Diphenyl ethers (PBDE) < 1000 ppm (0.1% by mass)
Cadmium (Cd) < 100 ppm (0.01% by mass)
DIRECTIVE 2002/96/EC (WEEE)
European customers who have purchased this equipment directly from Avtech will havecompleted a “WEEE Responsibility Agreement” form, accepting responsibility for WEEE compliance (as mandated in Directive 2002/96/EC of the European Union and local laws) on behalf of the customer, as provided for under Article 9 of Directive 2002/96/EC.
Customers who have purchased Avtech equipment through local representatives should consult with the representative to determine who has responsibility for WEEE
7
compliance. Normally, such responsibilities with lie with the representative, unless other arrangements (under Article 9) have been made.
Requirements for WEEE compliance may include registration of products with local governments, reporting of recycling activities to local governments, and financing of recycling activities.
AC POWER SUPPLY REGULATORY NOTES
This instrument converts the AC input power to the +24V DC voltage that powers the internal circuitry of this instrument using a Tamura AAD130SD-60-A switching power supply. According to the manufacturer, the Tamura AAD130SD-60-A has the following certifications:
UL60950-1IEC60950 -1CSA C22.2 No. 60950- 1EN60950 -1
and is compliant with:
EN61000-3-2 EN61000-4-2 Level 2 EN61000-4-2 Level 3 (Air Only) EN61000-4-4 Level 3 EN61000-4-5 Level 3 EN61000-4-11 CISPR 11 and 22 FCC Part 15 Class B (conducted)
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INSTALLATION
VISUAL CHECK
After unpacking the instrument mainframe and the transformer module, examine toensure that they have not been damaged in shipment. Visually inspect all connectors,knobs, and handles. Confirm that a power cord and an instrumentation manual (thismanual), are with the instrument. If the instrument has been damaged, file a claimimmediately with the company that transported the instrument.
POWER RATINGS
This instrument is intended to operate from 100 - 240 V, 50 - 60 Hz.
The maximum power consumption is 57 Watts. Please see the “FUSES” section forinformation about the appropriate AC and DC fuses.
This instrument is an “Installation Category II” instrument, intended for operation from anormal single-phase supply.
CONNECTION TO THE POWER SUPPLY
An IEC-320 three-pronged recessed male socket is provided on the back panel for ACpower connection to the instrument. One end of the detachable power cord that issupplied with the instrument plugs into this socket. The other end of the detachablepower cord plugs into the local mains supply. Use only the cable supplied with theinstrument. The mains supply must be earthed, and the cord used to connect theinstrument to the mains supply must provide an earth connection. (The supplied corddoes this.)
Warning: Failure to use a grounded outlet may result in injury or death due to electric shock. This product uses a power cord with a ground connection. It must be connected to a properly grounded outlet. The instrument chassis is connected to the ground wire in the power cord.
The table below describes the power cord that is normally supplied with this instrument,depending on the destination region:
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Destination Region Description Option Manufacturer Part Number
United Kingdom, Hong Kong,Singapore, Malaysia
BS 1363, 230V, 50 Hz
-AC00 Qualtek 370001-E01
Australia, New ZealandAS 3112:2000,
230-240V, 50 Hz-AC01 Qualtek 374003-A01
Continental Europe, Korea,Indonesia, Russia
European CEE 7/7 “Schuko” 230V, 50 Hz
-AC02 Qualtek 364002-D01
North America, TaiwanNEMA 5-15, 120V, 60 Hz
-AC03 Qualtek 312007-01
SwitzerlandSEV 1011,
230V, 50 Hz-AC06 Qualtek 378001-E01
South Africa, IndiaSABS 164-1,
220-250V, 50 Hz-AC17 Volex 2131H 10 C3
JapanJIS 8303,
100V, 50-60 Hz-AC18 Qualtek 397002-01
IsraelSI 32,
220V, 50 Hz-AC19 Qualtek 398001-01
ChinaGB 1002-1,220V, 50 Hz
-AC22 Volex 2137H 10 C3
PROTECTION FROM ELECTRIC SHOCK
Operators of this instrument must be protected from electric shock at all times. The owner must ensure that operators are prevented access and/or are insulated from every connection point. In some cases, connections must be exposed to potential human contact. Operators must be trained to protect themselves from the risk of electric shock. This instrument is intended for use by qualified personnel who recognizeshock hazards and are familiar with safety precautions required to avoid possibly injury.In particular, operators should:
1. Keep exposed high-voltage wiring to an absolute minimum.
2. Wherever possible, use shielded connectors and cabling.
3. Connect and disconnect loads and cables only when the instrument is turned off.
4. Keep in mind that all cables, connectors, oscilloscope probes, and loads must have an appropriate voltage rating.
5. Do not attempt any repairs on the instrument, beyond the fuse replacement procedures described in this manual. Contact Avtech technical support (see page 2 for contact information) if the instrument requires servicing. Service is to be performed solely by qualified service personnel.
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ENVIRONMENTAL CONDITIONS
This instrument is intended for use under the following conditions:
1. indoor use;2. altitude up to 2 000 m;3. temperature 5 °C to 40 °C;4. maximum relative humidity 80 % for temperatures up to 31 °C decreasing
linearly to 50 % relative humidity at 40 °C;5. Mains supply voltage fluctuations up to ±10 % of the nominal voltage;6. no pollution or only dry, non-conductive pollution.
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FUSES
This instrument contains four fuses. All are accessible from the rear-panel. Two protectthe AC prime power input, and two protect the internal DC power supplies. Thelocations of the fuses on the rear panel are shown in the figure below:
AC FUSE REPLACEMENT
To physically access the AC fuses, the power cord must be detached from the rearpanel of the instrument. The fuse drawer may then be extracted using a small flat-headscrewdriver, as shown below:
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Fuse Drawer
Pry out the fuse drawer using a screwdriver.
Fuses #1 and #2(AC fuses)
Fuse #4(DC fuse)
Fuse #3(DC fuse)
DC FUSE REPLACEMENTThe DC fuses may be replaced by inserting the tip of a flat-head screwdriver into the fuse holder slot, and rotating the slot counter-clockwise. The fuse and its carrier will then pop out.
FUSE RATINGS
The following table lists the required fuses:
FusesNominalMains
VoltageRating Case Size
Recommended Replacement PartLittelfuse Part
NumberDigi-Key Stock
Number
#1, #2 (AC) 100-240V0.5A, 250V,Time-Delay
5×20 mm 0218.500HXP F2416-ND
#3 (DC) N/A1.6A, 250V,Time-Delay
5×20 mm 021801.6HXP F2424-ND
#4 (DC) N/A1A, 250V,
Time-Delay5×20 mm 0218001.HXP F2419-ND
The recommended fuse manufacturer is Littelfuse (http://www.littelfuse.com).
Replacement fuses may be easily obtained from Digi-Key (http://www.digikey.com) andother distributors.
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FRONT PANEL CONTROLS
1. POWER Switch. This is the main power switch. When turning the instrument on, there may be a delay of several seconds before the instrument appears to respond.
2. REPETITION RATE Controls. When triggering internally, the range switch sets the pulse repetition frequency of the internal oscillator to one of four range:
RANGE 1 1 Hz - 10 HzRANGE 2 10 Hz - 100 HzRANGE 3 100 Hz - 1 kHzRANGE 4 1 kHz - 10 kHz
The “FINE” knob varies the frequency within each range.
3. DELAY Control. Controls the relative delay between the reference output pulse provided at the TRIG output (4) and the main output (5). This delay is variable over the range of 0.25 to 250 us. The TRIG output precedes the main output when the ADVANCE-DELAY switch is in the ADVANCE position and lags when the switch is in the DELAY position.
4. TRIG Connector. When the MODE switch (item 9) is set to the “EXT” position, a TTL-level pulse applied to this connector will trigger the instrument. The instrument triggers on the rising edge of this input. The input impedance of this input is 1 kΩ. (Depending on the length of cable attached to this input, and the source driving it, it may be desirable to add a coaxial 50 Ohm terminator to this input to provide a proper transmission line termination. The Pasternack (www.pasternack.com) PE6008-50 BNC feed-thru 50 Ohm terminator is suggested for this purpose.)
When the MODE switch (item 8) is set to the “INT” position, this connector is
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1 10 7 5
4 3
6892
used as an output that generates a 200 ns wide TTL-level pulse for each trigger event. This output can be used to trigger an oscilloscope, or other test equipment. The separation between the main output pulse and the TRIG output pulse is controlled by the DELAY controls and the ADVANCE/DELAY switch. For this output to operate correctly, the delay setting must be less than the period.
5. OUT Connector. SMA connector provides 0 to +250 Volt output to a 50-Ohm load. (5) and (6) are normally connected together via the shorting bar, as discussed in later sections of this manual.
Caution: Voltages as high as +250V may be present on the center conductorof this connector. Avoid touching this conductor. The center conductor is not user-accessible when the supplied shorting bar is installed.
6. IN Connector. This SMA input connects to the internal 50-Ohm load. (5) and (6) are normally connected together via the shorting bar, as discussed in later sections of this manual.
Caution: Voltages as high as +250V may be present on the center conductorof this connector. Avoid touching this conductor. The center conductor is not user-accessible when the supplied shorting bar is installed.
7. PW Control. A one-turn knob and three-position range switch vary the output pulse width from 0.25 us to 250 us. The minimum and maximum pulse width (PW) for each range and the corresponding maximum pulse repetition frequency(PRF) are as follows. Note that the unit may fail if operated at duty cycles exceeding 0.25%.
PW min PW max
Range 1 0.25 us 2.5 us(PRF max) (10 kHz)(2.5 kHz)
Range 2 2.5 us 25 us(PRF max) (2.5 kHz) (250 Hz)
Range 3 25 us 250 us(PRF max) (250 Hz)(25 Hz)
8. AMP Control. This ten-turn locking dial varies the output pulse amplitude from 0 to +250 Volts (to 50 Ohms).
9. INT/MAN/EXT A/EXT B Mode Switch. With this switch in the INT position, the repetition rate of the unit is controlled by an internal oscillator, which in turn is controlled by the REPETITION RATE controls.
With the switch in the EXT A position, the unit requires a 50 ns (or wider) TTL
15
level pulse applied at the TRIG input in order to trigger the output stages. The output pulse width is set by the front-panel controls in this mode.
With the switch in the EXT B position, the unit requires a 0.25-250 us wide TTL level pulse applied at the TRIG input in order to trigger the output stages. The output pulse width is equal to the input pulse width in this mode.
For a single pulse output, the switch should be in the “MAN” position and then push the SINGLE PULSE pushbutton (10).
10.SINGLE PULSE Pushbutton. When the INT/MAN/EXT A/EXT B switch is in the “MAN” position, the instrument can be triggered by pressing this pushbutton. A single pulse is generated for each button press.
11. OVERLOAD Indicator. When the instrument is powered, this indicator is normally green, indicating normal operation. If this indicator is yellow, an internalautomatic overload protection circuit has been tripped. If the unit is overloaded (by operating at an exceedingly high duty cycle or by operating into a very low impedance), the protective circuit will disable the output of the instrument and turn the indicator light yellow. The light will stay yellow (i.e. output disabled) for about 5 seconds after which the instrument will attempt to re-enable the output (i.e. light green) for about 1 second. If the overload condition persists, the outputwill be disabled again (i.e. light yellow) for another 5 seconds. If the overload condition has been removed, the instrument will resume normal operation.
This overload indicator may flash yellow briefly at start-up. This is not a cause for concern.
Overload conditions may be removed by:
Reducing repetition rate Reducing pulse width Increasing the load impedance Reducing the output amplitude
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REAR PANEL CONTROLS
1. AC POWER INPUT. An IEC-320 C14 three-pronged recessed male socket is provided on the back panel for AC power connection to the instrument. One end of the detachable power cord that is supplied with the instrument plugs into this socket.
2. AC FUSE DRAWER. The two fuses that protect the AC input are located in this drawer. Please see the “FUSES” section of this manual for more information.
3. DC FUSES. These two fuses protect the internal DC power supplies. Please see the“FUSES” sections of this manual for more information.
4. EA SWITCH AND INPUT. When this switch is set to the “INT” position, the output amplitude is controlled by the front-panel amplitude dial. When this switch is set to the “EXT” position, the output amplitude is controlled by the voltage applied to the “A” BNC connector. 0V in corresponds to zero amplitude, and +10V DC in corresponds to maximum amplitude (+250V). The input impedance of the “A” connector is > 10 kΩ.
17
2
314
INT EXT A
AMP
GENERAL INFORMATION
TEST ARRANGEMENT
The AVR-3-PW-C-TEK2 generates a 10 ns rise time voltage pulse (0 to +250 Volts, 0.25 to 250 µs), which is accessible at the front panel OUT terminal. A shorting bar is connected between the OUT and IN terminals and the current probe is placed over the shorting bar. The IN terminal connects to ground via a 50 Ohm termination. A variable current of up to 5.0 Amperes is defined by the 250 Volt pulse and the 50-Ohm termination. The basic test arrangement is illustrated below:
For other applications, the OUT terminal may be used to pulse a user-supplied 50 Ohmload, if desired. In this case, the shorting bar and the “IN” terminal are not used.
SHORTING BAR
The shorting bar allows a Tektronix current probe to be clamped around it. The current bar is reversible; it may be installed in either orientation. A photo of the shorting bar is shown below:
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AVTECHAVR-3-PW-C-P-TEK2
INCONNECTOR
SYNCOUTPUT
ACPOWER
ALL CABLES: 50 OHM COAXIAL
REAL-TIMEOSCILLOSCOPE
CHANNEL A
TRIGINPUT
OUTCONNECTOR
PROBE
DIRECTION OFCURRENT FLOW
CLAMP THE USER-SUPPLIEDPROBE AROUND THE SHORTING BAR
The next photo shows the shorting bar installed, with a Tektronix A6303 current probe clamped to it. Note that the probe is upside-down, in order for the probe to sense a positive current.
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MECHANICAL INFORMATION
TOP COVER REMOVAL
If necessary, the interior of the instrument may be accessed by removing the four Phillips screws on the top panel. With the four screws removed, the top cover may be slid back (and off).
Always disconnect the power cord and allow the instrument to sit unpowered for 10 minutes before opening the instrument. This will allow any internal stored charge to discharge.
There are no user-adjustable internal circuits. For repairs other than fuse replacement, please contact Avtech ([email protected]) to arrange for the instrument to be returned to the factory for repair. Service is to be performed solely by qualified service personnel.
Caution: High voltages are present inside the instrument during normal operation. Do not operate the instrument with the cover removed.
ELECTROMAGNETIC INTERFERENCE
To prevent electromagnetic interference with other equipment, all used outputs should be connected to shielded loads using shielded coaxial cables. Unused outputs should be terminated with shielded coaxial terminators or with shielded coaxial dust caps, to prevent unintentional electromagnetic radiation. All cords and cables should be less than 3m in length.
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MAINTENANCE
REGULAR MAINTENANCE
This instrument does not require any regular maintenance.
On occasion, one or more of the four rear-panel fuses may require replacement. All fuses can be accessed from the rear panel. See the “FUSES” section for details.
CLEANING
If desired, the interior of the instrument may be cleaned using compressed air to dislodge any accumulated dust. (See the “TOP COVER REMOVAL” section for instructions on accessing the interior.) No other cleaning is recommended.
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WIRING DIAGRAMSWIRING OF AC POWER
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Primary earth ground /Safety earth ground /
Secondary earth ground.
Install green/yellow wires at bottom of stack, closest to wall.
Mains circuits - hazardous live.
W ARNIN G
Do not attempt a ny repairs on this instrume ntbeyond the fuse repla cement procedures de scribedin the manual. C ontact A v tech if the instrumentrequires serv icing. S erv ice is to be performe dsolely by qualified serv ice personnel .
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6-32 1 /4 " SS SC REW , 0604MPP 188
X9
6-32 1 /4 " SS SC REW , 0604MPP 188
X1 3
6-32 SS EXT TO OTH W ASHER, 06W E18 8
X1 4
6-32 SS EXT TO OTH W ASHER, 06W E18 8
X1 2
4-40 1 /4 " SS SC REW , 0404MPP 188
X1 6
4-40 SS EXT TO OTH W ASHER, 04W E18 8
X1 7
2-56 1 /4 " SS SC REW , 0204MPP 188
X1 9
2-56 SS EXT TO OTH W ASHER, 02W E18 8
X1 8
2-56 1 /4 " SS SC REW , 0204MPP 188
X2 0
2-56 SS EXT TO OTH W ASHER, 02W E18 8
X4
2-56 1 /4 " SS SC REW , 0204MPP 188
X2 3
2-56 SS EXT TO OTH W ASHER, 02W E18 8
X5
2-56 1 /4 " SS SC REW , 0204MPP 188
X2 4
2-56 SS EXT TO OTH W ASHER, 02W E18 8
X2 5
#2 SS FLA T W ASH ER, 0 2W M188
X2 6
#2 SS FLA T W ASH ER, 0 2W M188
X2 7
#2 SS FLA T W ASH ER, 0 2W M188
X2 8
#2 SS FLA T W ASH ER, 0 2W M188
PCB 158Q - LOW VOLTAGE POWER SUPPLY, 2/3
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
T i tle
Re vis i onDa te28-Apr-2016
Z:\mjcfiles\pcb\158\switching60hz.ddb - 158Q\pcb158Q_ovp.sch
DC/DC, AND OVER-VOLTAGE PROTECTION
D71. 5KE 39A
TP3TES T-LOOP
TP6TES T-LO OP
A1
A2
B3
X4
F3FU SEHOLD ER
C2 12. 2uF
C2 047u F/50 V
L5
77A-1 00M-0 1BU +
C1 947u F/50 V
123456
J6640 4 45-6
S1AS1B , OR DCS2A, OR DCS2B
Vin1
GN
D2
Vo u t3
U5NOT USE D (78 24)
C1 347u F/50 V
C747u F/50 V
R50 OH M
P-OU T # 1
Vin1
GN
D2
Vo u t3
U2781 0
1 2 3 4 5 6 7 8 9
J 2640 445-9
+10 V
-15V
-5V
+5V
+3
+1
-2
-5
C4
U1
PYB15-Q24-D15
+3
+1
-2
-5
C4
U4
PYB15-Q24-D5
+15 V
C1 12.2uF
L3
77A -1 01M-0 1C947u F/35 V
C62.2uF
L2
77A -1 01M-0 1C347u F/35 V
C147u F/35 V
C82.2uF
L1
77A -1 01M-0 1C447u F/35 V
C1 22.2uF
L4
77A -1 01M-0 1C547u F/35 V
1 2 3 4 5 6 7 8 9 10
J 11 -64045 6-0
+1
0V
+1
5V
RE
G+
15
V N
SY
-15
V-5
V+
5V
RE
G+
5V
NS
YG
ND
+2
4V
+2
4V
+15 V
GND
+15 V
-15V -15V
C2 2100 0uF/35V
C1 6100 0uF/35V
1 2
J9640 4 45-2
123
J10
640 4 56-3
R2 010K
X6TIE-DOW N-350
-IN
2
-IN
3
N/C
9
N/C
10
N/C
11
+O
UT
14
N/C
15
-OU
T1
6
+IN
22
+IN
23
U9NOT USE D (SB 03/SB0 5)
+IN
1
-OU
T1
0
+O
UT
11
-IN
12
-IN
13
+O
UT
14
-OU
T1
5
+IN
24
N/C
2N
/C2
3
N/C
3N
/C2
2
U8NOT USE D (MKC 03)
12345
J11
NO T USE D (64 0445-5)
C2 7NO T USE D (47 uF/50V)
C2 8NO T USE D (47 uF/50V)
IN+IN-
OU T+OU T-
GN D+
3+
1
-2
-5
C4
U1 0
NOT USE D
C3 1NOT USE D (2 .2uF )
L6
NOT USE D (77 A-101M-01)
C3 0NO T USE D (47 uF/35V)
1234
J12
NO T USE D (64 0456-4)
C2 9NO T USE D (47 uF/35V)
NORMA LLY U NUSED
X2 2
BA RE 15 8P PCB
X2 1
PC B158 AL, V3 B RA CKET
Vin1
GN
D2
Vo u t3
U1 1781 5
Vin1
GN
D2
Vo u t3
U1 2780 5
FOR NOIS Y SUBC IR CU IT S
C3 247u F/35 V
C3 347u F/35 V
Vin1
GN
D2
Vo u t3
U1 3NO T USE D
C3 447u F/50 V
C3 547u F/35 V
PCB 158Q - LOW VOLTAGE POWER SUPPLY, 3/3
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
T i tle
Re vis i onDa te28-Apr-2016
Z:\mjcfiles\pcb\158\switching60hz.ddb - 158Q\pcb158Q_switching.sch
OVER-CURRENT PROTECTION
-3
+2
-1
+4
K3
AQ Z102
D4
E-272 (OR 1 N5305)
R1 4
5 .1K
D2
1N4733A
R1 0
120 OY
EX TA
1
A2
B3
X4
F2FUSEHO LDER
-3
+2
-1
+4
K1AQ Z102
-3
+2
-1
+4
K2
NO T USE D (AQZ1 02)
D11N 4736A
V+8
RESET4
TR IG2
THR6
CONT5
DIS7
GND1
OU T3
U7
SE5 55P
R775K
R1 14. 7K
R93K
+15 V
R1 21K
P-OU T # 2
81
0
Q1 DMPQ2 222
13
Q1 AMPQ2 222
N-OUTNE G IN
R1
NOT USE D (0)
-15V
CAPB ANK
AMB ERR1 9
680
75
Q1 BMPQ2 222
R1 61.2K
+15 V
R1 81.2K
GR EEN
C1 047u F/50 V
TP5
TES T-LO OP
TP4
TES T-LOOP
1 234
K4PS7 2 06-1A-F3-A
+15 V
TP2TES T-LOOP
TP1
TES T-LOOP
C1 70.1uFC1 4
47u F/35 V
C1 5
0. 1uF
-15V
X36-32 MO UN T
X1 06-32 MO UN T
14
12
Q1 CMPQ2 222
DIS ABLE OLO W HEN CH ARGING.
SHOR TS OU T B AS E W HE N CH AR GING.
BU +
+15 V
GND
-15V
X1KE YSTONE 62 1
R1 5
0 OH M
R1 7
NO T USE D (0)
C2 3100 0 uF/35V
C1 8220 u F,1 6V
C2
NO T USE D (10 00uF/35V )
R2
NO T USE D (22 A Y)
D6
LED
X2
HV W AR NING
D9
1N4148
D1 0
1N4148
+15 V
DIS ABLE AT POW ER -OFF
DIS ABLE AT POW ER -ON
C2 447u F/35 V
R4150
(+15V LA GS H V BY 5 00 ms )
Vin1
GN
D2
Vo u t3
U3781 2
C2 547u F/50 V
R2 1
1.5K OY
C2 6
0.1uF
P-OU T # 3
P-OU T # 1
R3
300
R2 2
300
R8
W LA R10 0FE (0 . 1 OHMS)
43
2
15
K5
NO T USE D (G2RL -14-DC24)
1 2
3D5
25C TQ0 40PB F, IN 59120 2B04 000G HEAT SINK
R6
470
R1 3470
-3
+2
-1
+4
K6
NOT USE D (A QZ1 02)
R2 4
470
R2 3
470
R2 5
W LA R10 0FE (0 . 1 OHMS)
-IN
3
GN
D2
+IN
4
V+
5O
UT
1
U6LT6 1 06C S5
R2 6
15K
R2 7100
X7
591 202B 04000G HEATSINK , INSTA LLED A S LOW AS POSSIBLE
-3
+2
-1
+4
K7
NO T USE D (AQZ1 02)
R2 8
0 OH M
PCB 157C - HIGH VOLTAGE DC POWER SUPPLY
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
T i t l e
R e v i s i o nD a t e2 4 - J u n - 2 0 0 9
Z : \ m j c f i l e s \ p c b \ 1 5 7 \ h v _ d i s c h a rg e \ h v _ d i s c h a r g e . d d b - 1 5 7 C \ p c b 1 5 7 C . s c h
P O S / N E G C A P D I S C H A R G E R C I R C U I T
1 B
- 1 5 V
1
23
Q 3I X T P 3 N 1 2 0 ( - P ) , I X T H 1 1 P 5 0 ( - N )
R 1 84 . 7 K ( - P )
1
23
Q 2I X T P 3 N 1 2 0 ( - P ) , I X T H 1 1 P 5 0 ( - N )
R 1 62 2 0 O Y
R 82 2 0 O Y
K E E P P I N S 1 - 3 W E L LS E P A R A T E D F R O MP I N S 4 - 6 .
R 1 5
4 . 7 K
T h e d i s c h a r g e c i r c u i t r y i s d i s a b l e d b y t h e ' 1 2 3 i f t h e U V s t a t u s p i n i n d i c a t e s t h a t t h e U V i s c u r r e n t - l i m i t i n g . T h i s i s i g n o r e d i f t h e s t a t u s p i n i s l o w b e c a u s e t h e P O L R P C B h a s d i s a b l e d t h e U V .
T h e m a i n s o l i d - s t a t e r e l a y t u r n s o n i f t h e v o l t a g e a t t h e U V o u t p u t i s m o r e t h a n 5 V l o w e r t h a n t h e v o l t a g e o n t h e c a p a c i t o r b a n k s . T h i s t u r n s o n a M O S F E T t h a t d i s c h a r g e s t h e c a p a c i t o r s t h r o u g h t h e h i g h - i m p u l s e - r a t e d r e s i s t o r s .
T h e s e c o n d M O S F E T s u p p l i e s a c o n s t a n t 2 m A b i a s t o t h a t i s s w i t c h e d b e t w e e n t h e 1 N 4 9 3 7 o r t h e S S R + 1 N 4 9 3 7 + 1 0 0 O H M , d e p e n d i n g o n t h e v o l t a g e l e v e l s .
R 1 9
3 3 K
V C C
C 34 8 F 4 9 0 1 , M f g 1 0 2 R 2 9 W 1 0 3 K V 4 E , 0 . 0 1 u F , 1 k V , 1 8 0 8 p k g
A1
B2
C L R3
C e x t1 4
R e x t / C e x t1 5
Q1 3
Q4
V C C1 6
G N D8
U 1 AC D 7 4 H C T 1 2 3 E
+ 1 5 V
R 1 31 0 K
C 22 . 2 u F
C 1
0 . 1 u F
V C C
810
Q 1 DM P Q 2 2 2 2
13
Q 1 AM P Q 2 2 2 2
75
Q 1 BM P Q 2 2 2 2
V C C
+ 1 5 V
R 1 74 . 7 K ( - N )
34R N 1 B
2 . 2 K
56R N 1 C
2 . 2 K
78
R N 1 D2 . 2 K
12R N 1 A
2 . 2 K
D 2
1 N 4 9 3 7 ( R E V E R S E F O R - N )
D 5
1 N 4 9 3 7 ( R E V E R S E F O R - N )
D 4D 3
1 N 4 9 3 7 ( R E V E R S E F O R - N )
123
+4
-5
+6
K 2
A Q V 2 1 0 S ( - N O N L Y )
R 1 4
3 0 0
- 1 5 V
V C C
- 1 5 V
+ 1 5 V
R 9
1 0 0 O Y
123
+4
-5
+6
K 4
A Q V 2 1 2 S ( - N O N L Y )
123
+4
-5
+6
K 3
A Q V 2 1 2 S ( - P O N L Y )
123
+4
-5
+6
K 1
A Q V 2 1 0 S ( - P O N L Y )
O K T O + 6 0 0 V , - 5 0 0 V
X 1
6 - 3 2 1 / 2 " N Y L O N N U T A N D B O L T
X 2
6 - 3 2 1 / 2 " N Y L O N N U T A N D B O L T
12
J 66 4 0 4 4 5 - 2
12
J 76 4 0 4 4 5 - 2
H V 1
HV
2
R 1 01 . 5 K
X 4
H V W A R N I N G
X 5
H V W A R N I N G
G N D1
+ 2 4 V I N2
M O N3
E N4
G N D5
A D J U S T6
R E F O U T7
G N D8
G N D9
O U T1 0
O U T1 1
CA
SE
12C
AS
E13
U V 13 0 W U V
D 1
1 N 4 7 5 0
12
J 1
6 4 0 4 4 5 - 2
C C W C W
W
T O P V I E WR 7X
R 5
X
R 4X
R 2X
R 1X
R 6X
C 4
2 . 2 u F
123
J 2
6 4 0 4 5 6 - 3
E N A B L EA M P I N
+ 2 4 V O L O
R 3X
1234
J 3
6 4 0 4 5 6 - 4
D 6
1 N 4 1 4 8
X 3
A 2 6 4 5 1 - N D , 2 P I N S O C K E T , O N B O T T O M
X 6
A 2 6 4 5 1 - N D , 2 P I N S O C K E T , O N B O T T O M
X 7
A 2 6 4 2 3 - N D , 1 3 P I N S O C K E T , O N B O T T O M
PCB 152B - OSCILLATOR AND TRIGGER CIRCUIT, 1/2
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
B
T i t l e
S i z e N u m b e r R e v i s i o n
D a t eF i l e
O t h e r2 4 - J u n - 2 0 0 9Z : \ m j c f i l e s \ p c b \ 1 5 2 \ t e k - p c b m . d d b - D o c u m e n t s \ 1 5 2 - O S C - D L Y . s c h
A V R - 3 - P W - C - P - T E K 2 P C B M
E N5
R N G2
F C1 3
C X 13
C X 24
O S C V C C1 4
O S C G N D1
Y6
Z8
U 1
S N 7 4 L S 6 2 4
V C C
A 1 0A 9A 8A 7A 6A 5A 4A 3A 2A 1
W A
B 1 0B 9B 8B 7B 6B 5B 4B 3B 2B 1
W B
S W 17 1 A D F 3 6 - 0 2 - 1
C C W
W
C W
1
2
3
R 1 15 K , P R F
V C C
1214
1 3
Q 1 CM P Q 6 0 0 2
2
13
Q 1 AM P Q 6 0 0 2
V C C
R 1 81 K
R 1 73 3 0
C 3 6
0 . 1 u F
A D V
D L Y
A1 4
B2
1 G1
1 C O6
1 C 15
1 C 24
1 C 33
1 Y7
2 G1 5
2 C O1 0
2 C 11 1
2 C 21 2
2 C 31 3
2 Y9
U 6
7 4 A L S 1 5 3
B5
B4
B3
B2
B1
WB
C5
C4
C3
C2
C1
WC
D5
D4
D3
D2
D1
WD
A5
A4
A3
A2
A1
WA
S W 47 1 A D F 3 6 - 0 2 - 2
R 1
N O T U S E D
R 2
N O T U S E D
R 3
N O T U S E DV C C
C C W
W
C W1
2
3R 1 62 5 K , D E L A Y
C 3 0
U N U S E DR 1 44 . 7 K
V C C
A1
B2
C L R3
C e x t1 4
R e x t / C e x t1 5
Q1 3
Q4
U 5 A
7 4 L S 2 2 1
A9
B1 0
C L R1 1
C e x t6
R e x t / C e x t7
Q5
Q1 2
U 5 B
7 4 L S 2 2 1
S W 2
9
1 08
U 2 C
7 4 A L S 0 0
1 2
1 31 1
U 2 D
7 4 A L S 0 0
C 4 01 2 0 p F
R 2 12 . 2 K
V C C
A1
B2
C L R3
C e x t1 4
R e x t / C e x t1 5
Q1 3
Q4
U 8 A
7 4 L S 2 2 1
R 1 52 . 4 K
C 1
C 2
C 3
C 4
C 6 C 7 C 8
I N T T R I G G E R
T O S Y N C S W
S W I T C H I N G
I N T M O D E
2
31
U 4 A
7 4 A L S 0 2
P 5A D V
P 2D L Y
P 3
G N D
C 2 2
0 . 1 u F
1 1
1 21 3
U 4 D
7 4 A L S 0 2
S I M P L I F I E D , C O M P A C T E D V E R S I O N O F P C B 8 0 B
R 2 7
1 KV C C
PCB 152B - OSCILLATOR AND TRIGGER CIRCUIT, 2/2
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
B
T i t l e
S i z e N u m b e r R e v i s i o n
D a t eF i l e
O t h e r2 4 - J u n - 2 0 0 9Z : \ m j c f i l e s \ p c b \ 1 5 2 \ t e k - p c b m . d d b - D o c u m e n t s \ 1 5 2 - P W . s c h
A V R - 3 - P W - C - P - T E K 2 P C B M
A 1 0A 9A 8A 7A 6A 5A 4A 3A 2A 1
W A
B 1 0B 9B 8B 7B 6B 5B 4B 3B 2B 1
W B
S W 57 1 A D F 3 6 - 0 2 - 1
P 7
O U T
P 4
T R I G
C C W
C W
W
R 1 3P W , 2 0 K , 1 0 T
V C C
6
75
Q 1 BM P Q 6 0 0 2
108
9
Q 1 DM P Q 6 0 0 2
V C C
1
23
U 2 A
7 4 A L S 0 0
4
56
U 2 B
7 4 A L S 0 0
A1 4
B2
1 G1
1 C O6
1 C 15
1 C 24
1 C 33
1 Y7
2 G1 5
2 C O1 0
2 C 11 1
2 C 21 2
2 C 31 3
2 Y9
U 7
7 4 A L S 1 5 3
F 1
T R 2 5 0 - 0 8 0 U
D 31 N 6 2 6 3
D 11 N 6 2 6 3
D 21 N 4 7 3 2 A
C 3 50 . 1 u F
R 1 9
1 K
R 2 01 K
V C C
A9
B1 0
C L R1 1
C e x t6
R e x t / C e x t7
Q5
Q1 2
U 8 B
7 4 L S 2 2 1
01 0
11 1
21 2
31 3
41
52
63
74
E I5
E O1 5
A9
B7
C6
G S1 4
U 9
7 4 L S 1 4 8
I N TM A NE X T AE X T B
I N T T R I G G E R
T O S Y N C S W
S W I T C H I N G
I N T M O D E
B5
B4
B3
B2
B1
WB
C5
C4
C3
C2
C1
WC
D5
D4
D3
D2
D1
WD
A5
A4
A3
A2
A1
WA
S W 67 1 A D F 3 6 - 0 2 - 2
R 1 0
N O T U S E D
R 9
N O T U S E D
R 8
N O T U S E D
R 2 3
2 . 4 K
C 1 1 C 1 2 C 1 3
A1
B2
C L R3
C e x t1 4
R e x t / C e x t1 5
Q1 3
Q4
U 3 A
7 4 L S 1 2 3
R 1 25 1 K
V C C
C 2 72 2 u F
A9
B1 0
C L R1 1
C e x t6
R e x t / C e x t7
Q5
Q1 2
U 3 B
7 4 L S 1 2 3
P 6
+ 5 V
P 8
G N D
C 2 10 . 1 u F
C 2 30 . 1 u F
C 2 40 . 1 u F
C 2 50 . 1 u F
C 2 60 . 1 u F
C 2 90 . 1 u F
C 2 80 . 1 u F
C 3 80 . 1 u F
C 3 70 . 1 u F
C 3 30 . 1 u F
C 3 10 . 1 u F
C 3 20 . 1 u F
C 3 92 2 u F
V C C P 9P A D - B O T
P 1 0P A D - B O T
5
64
U 4 B
7 4 A L S 0 2
CN C
N O
S W 3S W P U S H B U T T O N
C 4 10 . 1 u F
C 3 40 . 1 u F
P 1T O F R O N T P A N E L G N D
8
91 0
U 4 C
7 4 A L S 0 2
R 2 5
4 7 0
V C C
R 2 61 K
T P 1T E S T - L O O P
P 1 1
T R I G
P 1 2
T O T R I G B N C G N D
S I M P L I F I E D , C O M P A C T E D V E R S I O N O F P C B 8 0 B
MAIN WIRING
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
Ti t le
Re vis i onDa te23-Aug-2016
Z:\mjcfi les\circuits\avr-N\avr-n.Ddb - AVR-3-PW-C-P-TEK2\wiring pcbm v12.sch
AVR-3-PW-C-P-TEK2
12B
N/CHV
OT
/GN
D
SS
R
GN
DG
ND
+5
V+
15
V
N/C
OU
T
TR
IG
M1AV R-3-PW -P-T EK2-PG
HVHV
GN DGN D
GN D+2 4 V
SSRENVC
US E KE YS T ONE 8 85
157 C
R1 = R2 = R3 =
R4 = R5 =
R6 = R7 =
+5
V+
15
V-1
5V
GN
D
UV 11 /4A2 4-P 20-ME, W ITH PCB 1 5 7C
+10 V+15 V REG+15 V NSY-1 5V-5 V+5V R EG+5V N SYGN D+24 V, N O OLO+24 V, N O OLO
+1
0V
+1
5V
-15
V-5
V+
5V
GN
DG
ND
+5
V+
5V
+24 , NO O LOGN D
PO S O LO
20 AW G
24 AW G
NEG OLO /+ INGN D
OLO GN D
20 OR 2 4 A W G
CA
P B
AN
KG
ND
BU
+/E
XT
PS
-IN
/+O
UT
GN
D
GN
D
GR EENGN DAMB ER
20 AW G
PCB 158Q
LV
OL
OG
ND
KA
- +
J1
J 2J3
J4
J5
J6
J7
J 8
-+
J 9 - FA N
J10
GN DGN DGN D
20 AW G
N/C
DC
IN
DC
IN
DC
GN
DC
HS
GN
D
N/C
X1PC B 15 8Q
TO P V IE W
BO TTO M V IEW
71 A DF3 6-0 2-1 -A JN
SW ITCH
71 A DF3 6-0 2-2 -A JN
SW ITCH
71 A DF3 6-0 2 -1 -A JN
SW ITCH
71 A DF3 6-0 2 -2 -A JN
SW ITCH
91 C 1 A-D 2 4-B13
5K PO T
91 C 1A-D 2 4-B1 7
25 K P OT
8 A 101 1 SW ITCH
M PA-1 03 F
PU SHB UTTON
GN
D
+5
VG
ND
OU
T
PC BM 1PC BM - PCB 1 52
CC
W
CW
W
R1AM P, 1 0T, 2 K
CO NN 2EX T T RIG
C4 = 0 . 1 5 + 0 .0 4 7 u FC3 = 1+1 uFC2 = 22 uFC1 = 22 0 uF
R1 0 = N OT US EDR9 = NO T USE DR8 = NO T USE D
R3 = NO T USE DR2 = NO T USE DR1 = NO T USE D
CO NN 3
OU T
CO NN 4
IN
M2AV -5 0-T EK2
+15 V DC
TTL-LEV EL TRIGGER (SA ME P W AS OUTPUT)
+24 V DC
SW 1AMP SW
CO NN 1A B NC
EX T
INT
+10 V DC
CC
WC
W
W
R225 K , PW
C1 3 = 6 8 00 pF + 6 8 00 pFC1 2 = 6 8 0 + 6 8 0 p FC1 1 = 1 2 0 p F
C8 = 6 8 0 0 p F + 68 0 0 p FC7 = 6 8 0 + 68 0 pFC6 = 1 2 0 p F
CH S GN D
CHS GN D
+5V D C-15V DC
0 TO +260V DC
GND
+15 V DC
+5VGN D
R1 5 ,R 23=2 .4K
EX TERNA L AVX -TE K2 -S B1SHOR TIN G BAR
NOT US ED
NOT US ED
NOT US EDNOT US ED
ZE RO
4.7K326 6W , 5K
P5
P6
N6
P4
N4
N5
G G
+ + - -
G G
R7
R8
R9
R1
0
++
+--
- ++
+--
-
BD 1PC B 18 3A -P
CH S GN D
P4 -P 6: 2 20uF, 4 00V (P68 50-N D)N4 -N 6: U NU SE DR7 ,R 8 (BOT): 100K OYR9 -R 10 (B OT): UNUSE D
US E 1/2" S TAN DOFFS
+1
5V
1-1
5V
2G
ND
3V
PR
F I
N4
A,
0 T
O +
/-1
.5V
5B
, 0
TO
+/-
1.5
V6
C,
0 T
O +
/-1
.5V
7D
, 0
TO
+/-
1.5
V8
BU
F I
N9
BU
F O
UT
10
INV
IN
11
INV
OU
T1
2N
ON
IN
13
NO
N O
UT
14
216E
B+
C-
D+
55
1 I
N1
55
51
OU
T1
6
X1
1
X2
2
Y1
3
Y2
4
OS
5
MU
LT
6
GN
D7
GN
D8
A-
+2
4V
1
G2
IN1
3
K1
4
IN2
5
K2
6
IN3
7
K3
8
BD 2PC B21 6 E - TW EA K OP AMPS
+15 V
-1 5V
PERFORMANCE CHECK SHEET
30