Xantrex Technology Power Supply XFR 2800 User Manual

XFR 7.5-300  
XFR 12-220  
XFR 20-130  
XFR 33-85  
XFR 40-70  
XFR 60-46  
XFR 100-28  
XFR 150-18  
XFR 300-9  
XFR 600-4  
Operating Manual  
XFR 2800 Watt Series  
Programmable DC  
Power Supply  
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Operating Manual for  
XFR 2800 Watt Series  
Programmable DC  
Power Supply  
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Limited What does this warranty cover and how long does it last?  
Warranty  
This Limited Warranty is provided by Xantrex Technology, Inc. (“Xantrex”) and  
covers defects in workmanship and materials in your XFR 2800 Watt Series DC  
Power Supply. This warranty lasts for a Warranty Period of 5 years from the date of  
purchase at point of sale to you, the original end user customer.  
What will Xantrex do?  
Xantrex will, at its option, repair or replace the defective product free of charge,  
provided that you notify Xantrex of the product defect within the Warranty Period,  
and provided that Xantrex through inspection establishes the existence of such a  
defect and that it is covered by this Limited Warranty.  
Xantrex will, at its option, use new and/or reconditioned parts in performing  
warranty repair and building replacement products. Xantrex reserves the right to use  
parts or products of original or improved design in the repair or replacement. If  
Xantrex repairs or replaces a product, its warranty continues for the remaining  
portion of the original Warranty Period or 90 days from the date of the return  
shipment to the customer, whichever is greater. All replaced products and all parts  
removed from repaired products become the property of Xantrex.  
Xantrex covers both parts and labor necessary to repair the product, and return  
shipment to the customer via a Xantrex-selected non-expedited surface freight  
within the contiguous United States and Canada. Alaska and Hawaii are excluded.  
Contact Xantrex Customer Service for details on freight policy for return shipments  
outside of the contiguous United States and Canada.  
How do you get service?  
If your product requires troubleshooting or warranty service, contact your merchant.  
If you are unable to contact your merchant, or the merchant is unable to provide  
service, contact Xantrex directly at:  
Phone:  
604 422 8595  
Toll Free North America:  
1 800 667 8422  
604 421 3056  
Fax:  
Email:  
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Direct returns may be performed according to the Xantrex Return Material  
Authorization Policy described in your product manual. For some products, Xantrex  
maintains a network of regional Authorized Service Centers. Call Xantrex or check  
our website to see if your product can be repaired at one of these facilities.  
In any warranty claim, dated proof of purchase must accompany the product and the  
product must not have been disassembled or modified without prior written  
authorization by Xantrex.  
Proof of purchase may be in any one of the following forms:  
The dated purchase receipt from the original purchase of the product at point of  
sale to the end user, or  
The dated dealer invoice or purchase receipt showing original equipment  
manufacturer (OEM) status, or  
The dated invoice or purchase receipt showing the product exchanged under  
warranty  
What does this warranty not cover?  
This Limited Warranty does not cover normal wear and tear of the product or costs  
related to the removal, installation, or troubleshooting of the customer’s electrical  
systems. This warranty does not apply to and Xantrex will not be responsible for any  
defect in or damage to:  
a. the product if it has been misused, neglected, improperly installed, physically  
damaged or altered, either internally or externally, or damaged from improper  
use or use in an unsuitable environment;  
b. the product if it has been subjected to fire, water, generalized corrosion,  
biological infestations, and high input voltage from lightning strikes;  
c. the product if repairs have been done to it other than by Xantrex or its authorized  
service centers (hereafter “ASCs”);  
d. the product if it is used as a component part of a product expressly warranted by  
another manufacturer;  
e. the product if its original identification (trade-mark, serial number) markings  
have been defaced, altered, or removed.  
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Disclaimer Product  
THIS LIMITED WARRANTY IS THE SOLE AND EXCLUSIVE WARRANTY PROVIDED  
BY XANTREX IN CONNECTION WITH YOUR XANTREX PRODUCT AND IS, WHERE  
PERMITTED BY LAW, IN LIEU OF ALL OTHER WARRANTIES, CONDITIONS,  
GUARANTEES, REPRESENTATIONS, OBLIGATIONS AND LIABILITIES, EXPRESS  
OR IMPLIED, STATUTORY OR OTHERWISE IN CONNECTION WITH THE PRODUCT,  
HOWEVER ARISING (WHETHER BY CONTRACT, TORT, NEGLIGENCE, PRINCIPLES  
OF MANUFACTURER’S LIABILITY, OPERATION OF LAW, CONDUCT, STATEMENT  
OR OTHERWISE), INCLUDING WITHOUT RESTRICTION ANY IMPLIED WARRANTY  
OR CONDITION OF QUALITY, MERCHANTABILITY OR FITNESS FOR A  
PARTICULAR PURPOSE. ANY IMPLIED WARRANTY OF MERCHANTABILITY OR  
FITNESS FOR A PARTICULAR PURPOSE TO THE EXTENT REQUIRED UNDER  
APPLICABLE LAW TO APPLY TO THE PRODUCT SHALL BE LIMITED IN DURATION  
TO THE PERIOD STIPULATED UNDER THIS LIMITED WARRANTY.  
IN NO EVENT WILL XANTREX BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT,  
INCIDENTAL OR CONSEQUENTIAL DAMAGES, LOSSES, COSTS OR EXPENSES  
HOWEVER ARISING WHETHER IN CONTRACT OR TORT INCLUDING WITHOUT  
RESTRICTION ANY ECONOMIC LOSSES OF ANY KIND, ANY LOSS OR DAMAGE TO  
PROPERTY, ANY PERSONAL INJURY, ANY DAMAGE OR INJURY ARISING FROM OR  
AS A RESULT OF MISUSE OR ABUSE, OR THE INCORRECT INSTALLATION,  
INTEGRATION OR OPERATION OF THE PRODUCT.  
Exclusions If this product is a consumer product, federal law does not allow an exclusion of  
implied warranties. To the extent you are entitled to implied warranties under federal  
law, to the extent permitted by applicable law they are limited to the duration of this  
Limited Warranty. Some states and provinces do not allow limitations or exclusions  
on implied warranties or on the duration of an implied warranty or on the limitation  
or exclusion of incidental or consequential damages, so the above limitation(s) or  
exclusion(s) may not apply to you. This Limited Warranty gives you specific legal  
rights. You may have other rights which may vary from state to state or province to  
province.  
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Information WITHOUT LIMITING THE GENERALITY OF THE FOREGOING, UNLESS  
SPECIFICALLY AGREED TO BY IT IN WRITING, XANTREX  
a. MAKES NO WARRANTY AS TO THE ACCURACY, SUFFICIENCY OR SUITABILITY  
OF ANY TECHNICAL OR OTHER INFORMATION PROVIDED IN MANUALS OR  
OTHER DOCUMENTATION PROVIDED BY IT IN CONNECTION WITH THE  
PRODUCT; AND  
b. ASSUMES NO RESPONSIBILITY OR LIABILITY FOR LOSSES, DAMAGES,  
COSTS OR EXPENSES, WHETHER SPECIAL, DIRECT, INDIRECT,  
CONSEQUENTIAL OR INCIDENTAL, WHICH MIGHT ARISE OUT OF THE USE OF  
SUCH INFORMATION.  
THE USE OF ANY SUCH INFORMATION WILL BE ENTIRELY AT THE USER’S RISK.  
WARNING: Please refer to your product user manual for limitations on uses of the product.  
Specifically, please note that this power supply is not intended for use in connection  
with life support systems and Xantrex makes no warranty or representation in  
connection with any use of the product for such purposes.  
Limitations  
on Use  
Xantrex Technology, Inc.  
8999 Nelson Way  
Burnaby, British Columbia  
Canada V5A 4B5  
Information Please record the following information when you first open your Power Supply  
package:  
About Your  
Power  
Model Number  
Serial Number  
Purchased From  
Purchase Date  
______________________________________________  
______________________________________________  
______________________________________________  
______________________________________________  
Supply  
Release Release 2.1 (2002-06)  
Copyright  
2002 Xantrex Technology Inc. All rights reserved.  
©
Printed in Canada  
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Warnings Warnings and cautions are defined and formatted in this manual as shown below.  
and  
Cautions  
WARNING  
Describes a potential hazard which could result in injury or death, or, a procedure  
which, if not performed correctly, could result in injury or death.  
CAUTION  
!
Describes a procedure which, if not performed correctly, could result in damage  
to data, equipment, or systems.  
Power  
Supply  
Safety  
WARNING—High Energy and High Voltage  
Exercise caution when using and calibrating a power supply. High energy levels  
can be stored at the output voltage terminals on a power supply in normal  
operation. In addition, potentially lethal voltages exist in the power circuit and on  
the output and sense connectors of a power supply with a rated output greater  
than 40 V. Filter capacitors store potentially dangerous energy for some time after  
power is removed.  
CAUTION  
!
Operate the power supply in an environment free of flammable gases or fumes. To  
ensure that the power supply’s safety features are not compromised, use the  
power supply as specified in this manual and do not substitute parts or make any  
unauthorized modifications. Contact the service technician for service and repair  
help. Repairs must be made by experienced service technicians only.  
CAUTION  
For Use as a Battery Charger  
!
When you are using any of these power supplies for battery charging applications,  
it is essential to provide an appropriately sized fuse or circuit breaker in series  
between the power supply output and the battery.  
Installation of a protector (fuse or DC circuit breaker) rated for about 115% of the  
maximum current rating of the power supply and designed specifically to interrupt  
the DC voltage of the battery, will provide adequate reverse polarity current  
protection. Where several power supplies are in parallel, it is best to fuse each one,  
rather than one large fuse for all.  
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About This Manual  
This Operating Manual contains user information for the XFR Series of variable DC  
output power supplies, available in several voltage models at 2800 Watts. It provides  
information about features and specifications, installation procedures, and basic  
functions testing, as well as operating procedures for using both front panel control  
and remote analog programming functions.  
Who Should Use This Manual  
This manual is designed for the user who is familiar with basic electrical laws  
especially as they apply to the operation of power supplies. This implies a  
recognition of Constant Voltage and Constant Current operating modes and the  
control of input and output power, as well as the observance of safe techniques while  
Main Sections  
Section 1 Features and Specifications Describes the power supply and lists  
its features and specifications.  
Section 2 Installation Goes through basic setup procedures. Describes  
inspection, cleaning, shipping, and storage procedures. Includes AC input  
connection, basic functions testing, and load and sense lines connections.  
operation. Includes procedures for using over voltage protection, shutdown function,  
multiple supplies, and over temperature protection.  
Section 4 Remote Operation Covers remote analog programming operation  
and remote monitoring of output voltage and current.  
Section 5 Calibration Includes calibration for programming and readback  
accuracy.  
Manual Revisions  
The current release of this manual is listed below. Updates may be issued as an  
addendum.  
Release 2.1 (2002-06)  
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About This Manual  
Power Supply Safety Markings  
Alternating Current  
Off (Supply)  
Earth (Ground) Terminal  
Protective Conductor Terminal  
On (Supply)  
Caution (Hot Surface)  
Caution  
(Check  
manual  
for  
additional information.)  
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Contents  
About This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii  
List of Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .xiii  
Features and  
Specifications  
Input Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30  
Installation  
Initial Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36  
Return Material Authorization Policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37  
Rack Mounting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39  
Ventilation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39  
Front Panel Function Checks. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44  
Load Connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45  
Load Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45  
Making Load Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46  
Inductive Loads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50  
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Connecting Multiple Loads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51  
Section 3. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57  
Local  
Operation  
Shipped Configuration (Local Control Mode) . . . . . . . . . . . . . . . . . . . . . . . . . . 59  
Front Panel OVP Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61  
Controlling the Shutdown Function via the J2 Connector . . . . . . . . . . . . . . . . . 63  
Using Multiple Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65  
Over Temperature Protection (OTP) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70  
Remote  
Operation  
Remote Analog Programming of Output Voltage and Current Limit . . . . . . . . . . . . . 74  
Section 5. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79  
Calibration  
Equipment Required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79  
Voltage Programming Circuit Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82  
Current Limit Programming Circuit Calibration . . . . . . . . . . . . . . . . . . . . . . . . . 83  
Calibrating for Readback Accuracy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84  
Output Voltage Monitor Circuit Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84  
Output Current Monitor Circuit Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85  
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Power Supply Rear Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19  
Programming and Monitoring SW1 Switch . . . . . . . . . . . . . . . . . . . . . 20  
Programming and Monitoring J2 Connector . . . . . . . . . . . . . . . . . . . . 22  
Shipping or Storage Carton Label . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38  
AC Input Cover and Strain Relief. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
Maximum Load Wire Length for 1 V Line Drop . . . . . . . . . . . . . . . . . . 46  
Output Strain Relief and Cover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47  
Typical Load Connection Hardware. . . . . . . . . . . . . . . . . . . . . . . . . . . 48  
Output Voltage Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49  
Single Load with Local Sensing (Default) . . . . . . . . . . . . . . . . . . . . . . 50  
Single Load with Remote Sensing. . . . . . . . . . . . . . . . . . . . . . . . . . . . 50  
Figure 3.4  
Figure 3.5  
Figure 4.1  
Figure 5.1  
Series Operation of Multiple Supplies . . . . . . . . . . . . . . . . . . . . . . . . . 66  
Split Supply Operation of Multiple Supplies. . . . . . . . . . . . . . . . . . . . . 68  
Split Supply Operation of Multiple Supplies. . . . . . . . . . . . . . . . . . . . . 69  
Connecting Programming Sources to J2 Connector . . . . . . . . . . . . . . 77  
Programming and Monitoring Calibration Locations . . . . . . . . . . . . . . 81  
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List of Figures  
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Table 3.4  
Table 4.1  
Table 4.2  
Table 4.3  
Available Voltage and Current Ranges . . . . . . . . . . . . . . . . . . . . . . . . 15  
Rear Panel SW1 Switch Assignments. . . . . . . . . . . . . . . . . . . . . . . . . 21  
Rear Panel J2 Connector Terminals and Functions . . . . . . . . . . . . . . 23  
Specifications for 7.5 V to 40 V Models. . . . . . . . . . . . . . . . . . . . . . . . 26  
Basic Setup Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35  
Shipped Configuration (Local Control Mode). . . . . . . . . . . . . . . . . . . . 59  
Switch Settings for Shutdown Circuit Logic . . . . . . . . . . . . . . . . . . . . . 64  
Switch Settings for Over Temperature Recovery Options. . . . . . . . . . 70  
User Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72  
Remote Programming Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74  
Power Supply Settings for Different Programming Sources . . . . . . . . 76  
Power Supply Settings for Remote Monitoring of Readback Signals . 78  
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List of Tables  
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Section 1. Features and Specifications  
Description  
This series of power supplies provides low noise, precisely regulated, variable DC  
output at 2800 watts of output power. Over voltage protection (OVP) and thermal  
shutdown are standard. Front panel controls and indicators are extensive. Select from  
several remote control choices: standard analog programming, optional isolated  
programming or readback, and optional GPIB programming or RS-232 control.  
Remote monitoring of output voltage and current is a standard feature. Use this  
power supply either on your bench or in a standard 19 in. (483 mm) rack: the unit  
occupies only 3.5 in. (2 U) of vertical rack space. Designed for continuous use in  
standalone or systems applications, this power supply is typically used to power DC  
equipment, control magnets, or burn in components. See Table 1.1 for the list of  
available models.  
Table 1.1 Available Voltage and Current Ranges  
Model  
7.5-300  
12-220  
20-130  
33-85  
Voltage Range  
0-7.5 V  
0-12 V  
Current Range  
0-300 A  
0-220 A  
0-130 A  
0-85 A  
0-20 V  
0-33 V  
40-70  
0-40 V  
0-70 A  
60-46  
0-60 V  
0-46 A  
100-28  
150-18  
300-9  
0-100 V  
0-150 V  
0-300 V  
0-600 V  
0-28 A  
0-18 A  
0-9 A  
600-4  
0-4 A  
Features and Options  
Simultaneous digital display of both voltage and current.  
Ten-turn front panel voltage and current controls for high resolution setting of  
the output voltage and current from zero to the rated output.  
Automatic mode crossover into current or voltage mode.  
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Features and Specifications  
Features and Options  
Front panel push-button control of output standby mode and preview of voltage,  
current, or over voltage protection setpoints. Front panel light emitting diode  
(LED) indicators for voltage and current mode operation, OVP, remote  
programming mode, and shutdown. Front panel control of OVP.  
Multiple units can be connected in parallel or in series to provide increased  
current or voltage.  
Over temperature protection (OTP) shutdown; latches or automatically resets.  
Remote analog voltage and current limit programming with selectable  
programming ranges.  
External monitor signals for output voltage and current.  
Isolated analog remote programming control of the output voltage or current and  
isolated readback of output voltage and current with the optional ISOL Interface.  
Optional internal GPIB or RS-232 control for remote digital programming and  
readback from a computer.  
Rack mount brackets at the front panel are standard.  
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Features and Specifications  
Front Panel Controls  
Front Panel Controls  
supply’s front panel. Check the following sections for additional descriptions of  
“Mechanical Specifications” on page 33  
“Functional Tests” on page 43  
Section 3. Local Operation  
)
Shutdown LED (S/D)  
Standby Switch (STANDBY)  
(See page 63 for more information.)  
OVP Shutdown LED (OVP)  
Remote Programming LED (REM)  
Local Voltage & Current Limit Setting  
Preview Switch (V/I CHECK)  
Return to Local Programming  
(LOCAL) for units with digital  
programming interface installed.  
(See page 43 for more information.)  
OVP Adjust Potentiometer (OVP SET)  
(See page 61 for more information.)  
Over Temperature Shutdown LED  
(OTP)  
OVP Setting Preview Switch (OVP CHECK)  
(See page 61 for more information.)  
AC Fail LED (ACF)  
Voltage Mode LED  
ACPower  
Switch  
Output Voltage Control Knob  
Current Mode LED  
Output Current Control Knob  
Remote Programming LEDs  
(For units with digital programming  
interface installed.)  
Figure 1.1 Power Supply Front Panel  
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Features and Specifications  
Rear Panel Connectors and Switch  
Rear Panel Connectors and Switch  
Use the rear panel SW1 Programming, Monitoring, and Shutdown Select switch and  
the rear panel J2 Programming and Monitoring connector to choose among several  
remote programming and monitoring options. See Figure for switches and  
connectors available at the rear panel. See “Rear Panel SW1 Switch” on page 20 and  
“Rear Panel J2 Connector” on page 22 for a list of switches and connector functions,  
and procedures for using them.  
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Features and Specifications  
Rear Panel Connectors and Switch  
SW1 Switch (See page 20 for more information.)  
1 Resistive Programming of Output Voltage  
2 Resistive Programming of Output Current Limit  
3 Output Voltage Programming Source Range  
4 Output Current Limit Programming Source Range  
5 Output Voltage Monitor Range  
6 Output Current Monitor Range  
7 Remote Shutdown Logic  
8 Over Temperature Reset Mode  
AC Input Connector  
(See page 40  
Blank Subplate  
(Replaced if digital  
programming interface  
installed.)  
for more information.)  
DC Output  
(See inset and page 45  
for more information.)  
Fan Exhaust Vents  
(Do not block.)  
Chassis Ground Screw  
(3/8 in (9 mm) maximum  
penetration into unit.)  
J10 Sense Connector  
(See page 53 for more information.)  
1 Return Sense  
2 Negative Output (Return)  
3 No connection (N/C)  
4 Positive Output  
J2 Programming and Monitoring Connector  
(See page 22 for more information.)  
1 Remote Output Voltage Programming Select  
2 Remote Output Current Limit Programming  
Select  
5 Positive Sense  
3 Control Ground  
4 N/C  
5 Voltage Program Signal Return  
6 Output Voltage Program Input  
7 Current Program Signal Return  
8 Output Current Limit Programming Input  
9 Voltage Monitor Signal Return  
10 Output Voltage Monitor  
11 Current Monitor Signal Return  
12 Output Current Monitor  
13 N/C  
14 Shutdown (S/D) Signal Return (–)  
15 S/D Input (+)  
Output Voltage Connector  
For high voltage (150 V to 600 V) models.  
Figure 1.2 Power Supply Rear Panel  
(Low voltage (7.5 V to 100 V) model shown.)  
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Features and Specifications  
Rear Panel Connectors and Switch  
Rear Panel The SW1 Programming, Monitoring, and Shutdown Select switch is an 8-position  
piano DIP switch located on the power supply’s rear panel. See Figure . The SW1  
switch enables you to choose:  
SW1 Switch  
Resistive programming of output voltage or current limit  
Output voltage and current limit programming scales  
Output voltage and current monitor scales  
Remote shutdown circuit logic  
Over temperature shutdown mode  
1
Resistive Programming of Output Voltage  
Resistive Programming of Output Current  
Selects Output Voltage Programming Source Range  
Selects Output Current Limit Programming Source Range  
Selects Output Voltage Monitor Range  
2
3
4
5
6
7
8
Selects Output Current Monitor Range  
Selects Remote Shutdown Logic  
Selects Over Temperature Shutdown Reset Mode  
Figure 1.3 Programming and Monitoring SW1 Switch  
(Switch is shown in factory default configuration.)  
Table 1.2 shows the functions assigned to each SW1 switch.  
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Features and Specifications  
Rear Panel Connectors and Switch  
Table 1.2 Rear Panel SW1 Switch Assignments  
Switch Function  
Open1  
Closed  
SW1-1  
1 mA current source for resistive Voltage source Resistive programming  
programming of output voltage programming (0-5 k, 0-10 k)  
SW1-2  
1 mA current source for resistive Voltage source Resistive programming  
programming of output current  
limit  
programming  
0-5 V (0-5 k)  
(0-5 k, 0-10 k)  
0-10 V (0-10 k)  
0-10 V (0-10 k)  
0-10 V  
SW1-3  
SW1-4  
SW1-5  
SW1-6  
Output voltage programming  
source range select  
Output current limit programming 0-5 V (0-5 k)  
source range select  
Output voltage monitor range  
select  
0-5 V  
Output current monitor range  
select  
0-5 V  
0-10 V  
SW1-7  
SW1-8  
Remote shutdown logic select  
HIGH=OFF  
HIGH=ON  
Latch OFF  
Over temperature shutdown reset Auto reset  
mode select  
1. Factory defaults underlined.  
Resetting the Switches Before making any changes to the switch settings,  
disable the power supply output by pushing the front panel STANDBY switch to its  
IN position. This temporarily shuts down the power supply. The front panel S/D  
LED turns on. Then, use any small, flat-bladed screwdriver to change the switch  
settings.  
Any of the eight switches on SW1 is OFF when it has been flipped up to break  
contact, ON when flipped down to close contact.  
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Features and Specifications  
Rear Panel Connectors and Switch  
Rear Panel J2 The J2 Programming and Monitoring connector is a 15-terminal wire clamp  
connector located on the power supply’s rear panel. See Figure 1.4. The J2 connector  
provides access to the following functions:  
Connector  
Remote programming of output voltage AND/OR current limit  
Remote monitoring of calibrated readback signals for output voltage and output  
current  
Remote control of the shutdown function using a 2.5 V to 15 V signal  
1
Remote Output Voltage Programming Select  
Remote Output Current Limit Programming Select  
Control Ground  
2
3
4
5
6
7
8
9
No connection  
Voltage Program Signal Return  
Output Voltage Programming Input  
Current Program Signal Return  
Output Current Limit Programming Inpu
Voltage Monitor Signal Return  
10 Output Voltage Monitor  
11 Current Monitor Signal Return  
12 Output Current Monitor  
13 No connection  
14 Shutdown (S/D) Signal Return (–)  
15 S/D Input (+)  
Figure 1.4 Programming and Monitoring J2 Connector  
See Table 1.3 for the list of the J2 connector terminal numbers, their references, and  
corresponding functions.  
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Features and Specifications  
Rear Panel Connectors and Switch  
Table 1.3 Rear Panel J2 Connector Terminals and Functions  
Connector Reference  
Name  
Function  
J2-1  
VRMT  
Remote Output Voltage  
Programming Select  
Selects remote output voltage  
programming when jumpered to pin 3.  
J2-2  
IRMT  
Remote Output Current Limit  
Programming Select  
Selects remote output current limit  
programming when jumpered to pin 3.  
J2-3  
J2-4  
J2-5  
J2-6  
CNTL GND  
N/C  
Control Ground  
No connection  
Control ground.  
None.  
VPGM–  
VPGM  
Voltage Program Signal Return Return for voltage program signal.  
Output Voltage Programming  
Input  
Input for voltage programming signals  
from an analog device.  
J2-7  
J2-8  
IPGM–  
IPGM  
Current Program Signal Return Return for current program signal.  
Output Current Limit  
Programming Input  
Input for current limit programming  
signals from an analog device.  
J2-9  
VMON–  
VMON  
IMON–  
IMON  
N/C  
Voltage Monitor Signal Return  
Output Voltage Monitor  
Current Monitor Signal Return  
Output Current Monitor  
No connection  
Return for voltage monitor signal.  
Output for output voltage monitor signal.  
Return for current monitor signal.  
Output for output current monitor signal.  
None.  
J2-10  
J2-11  
J2-12  
J2-13  
J2-14  
J2-15  
S/D–  
Shutdown Signal Return (–)  
S/D Input (+)  
Return for shutdown signal.  
Input for shutdown signal.  
S/D  
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Features and Specifications  
Rear Panel Connectors and Switch  
Making J2 Connections  
CAUTION  
!
Do not attempt to bias program/monitor signal return (J2 terminals 5, 7, 9, and  
11) relative to the supply output because control ground (J2-3) and the  
program/monitor signal returns are at the same potential as the power supply  
return in a standard unit. Use the Isolated Programming (ISOL) Interface option  
to allow control from a programming source at a different potential relative to the  
supply’s output.  
CAUTION  
!
To maintain the isolation of the power supply output and prevent ground loops,  
use an isolated (ungrounded) programming source when operating the power  
supply via remote analog control at the J2 connector.  
Make connections to the J2 connector using its screw-type wire clamps. Before  
making any connections, turn the power supply OFF and wait until the front panel  
displays have gone out. You can unplug the connector from the back of the unit in  
order to make it easier to install the required wiring.  
Wiring  
WARNING  
There is a potential shock hazard when using a power supply with a rated output  
greater than 40 V. Use wiring with a minimum insulation rating equivalent to the  
maximum output voltage of the power supply. For example, select TEW-105,  
105 °C, 600 V wiring for use with a 600 V, 4 A model power supply.  
For most connectors and jumpers, use any suitable wire such as 16 to 24 AWG  
stranded wire. For lowest noise performance, use shielded pair wiring. Strip wires  
0.26 in. (6.5 mm), insert, and tighten the wire clamp.  
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Features and Specifications  
Specifications  
Specifications  
Electrical These specifications are warranted over a temperature range of 0 °C to 50 °C.  
Specifications  
Nominal ambient temperature assumed is 25 °C.  
Nominal line voltage is 208 Vac, 60 Hz.  
See Table 1.4 and Table 1.5 for maximum values for model-dependent  
specifications.  
Specifications are subject to change without notice.  
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Features and Specifications  
Specifications  
Table 1.4 Specifications for 7.5 V to 40 V Models  
Models  
7.5-300  
12-220  
20-130  
33-85  
40-70  
Output Ratings:  
Output Voltage 1  
Output Current 2  
Output Power  
0-7.5 V  
0-300 A  
2250 W  
0-12 V  
0-220 A  
2640 W  
0-20 V  
0-130 A  
2600 W  
0-33 V  
0-85 A  
2805 W  
0-40 V  
0-70 A  
2800 W  
Line Regulation: 3  
Voltage (0.01% of Vmax + 2 mV)  
Current (0.01% of Imax + 2 mA)  
2.75 mV  
32 mA  
3.2 mV  
24 mA  
4 mV  
15 mA  
5.3 mV  
10.5 mA  
6 mV  
9 mA  
Load Regulation: 4  
Voltage (0.02% of Vmax + 5 mV)  
Current (0.02% of Imax + 5 mA)  
6.5 mV  
65 mA  
7.4 mV  
49 mA  
9 mV  
31 mA  
11.6 mV  
22 mA  
13 mV  
19 mA  
Meter Accuracy:  
Voltage (1% of Vmax + 1 count)  
Current (1% of Imax + 1 count)  
0.09 V  
4 A  
0.13 V  
2.3 A  
0.3 V  
1.4 A  
0.43 V  
0.95 A  
0.5 V  
0.8 A  
Output Noise (0-20 MHz):Voltage (p-p) 100 mV  
100 mV  
100 mV  
100 mV  
150 mV  
Output Ripple (rms):  
Voltage  
10 mV  
1600 mA  
10 mV  
1200 mA  
10 mV  
400 mA  
15 mV  
300 mA  
15 mV  
200 mA  
Current 5  
Drift (30 minutes): 6  
Voltage (0.07% of Vmax)  
Current (0.7% of Imax)  
For Resistive Programming:  
Voltage (0.6% of Vmax)  
Current (0.6% of Imax)  
3.75 mV  
2100 mA  
6 mV  
1540 mA  
10 mV  
910 mA  
16.5 mV  
595 mA  
20 mV  
490 mA  
45 mV  
1800 mA  
72 mV  
1320 mA  
120 mV  
780 mA  
198 mV  
510 mA  
240 mV  
420 mA  
Drift (8 hours): 7  
Voltage (0.05% of Vmax)  
Current (0.05% of Imax)  
For Resistive Programming:  
Voltage (0.3% of Vmax)  
Current (0.3% of Imax)  
3.75 mV  
150 mA  
6 mV  
110 mA  
10 mV  
65 mA  
16.5 mV  
42.5 mA  
20 mV  
35 mA  
22.5 mV  
900 mA  
36 mV  
660 mA  
60 mV  
390 mA  
99 mV  
255 mA  
120 mV  
210 mA  
Temperature Coefficient: 8  
Voltage (0.02% of Vmax/°C)  
Current (0.03% of Imax/°C)  
For Resistive Programming:  
Voltage (0.06% of Vmax/°C)  
Current (0.06% of Imax/°C)  
1.5 mV  
90 mA  
2.4 mV  
66 mA  
4 mV  
39 mA  
6.6 mV  
25.5 mA  
8 mV  
21 mA  
4.5 mV  
180 mA  
7.2 mV  
132 mA  
12 mV  
78 mA  
19.8 mV  
51 mA  
24 mV  
42 mA  
OVP Adjustment Range:  
(5% to 110% of Vmax)  
Efficiency: 9  
0.375-8.25 V 0.6-13.2 V 1-22 V  
0.80 0.82 0.85  
1.65-36.3 V 2-44 V  
0.85 0.87  
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Features and Specifications  
Specifications  
1. Minimum output voltage is <0.15% of rated voltage at zero output setting.  
2. Minimum output current is <0.5% of rated current at zero output setting when measured at minimum 10% of full power  
load.  
3. For input voltage variation over the AC input voltage range, with constant rated load.  
4. For 0-100% load variation, with constant nominal line voltage.  
5. Current mode noise is measured from 10% to 100% of rated output voltage, full current.  
6. Maximum drift over 30 minutes with constant line, load, and temperature, after power on.  
7. Maximum drift over 8 hours with constant line, load, and temperature, after 30-minute warm-up.  
8. Change in output per °C change in ambient temperature, with constant line and load.  
9. Typical efficiency at nominal input voltage and full output power.  
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Features and Specifications  
Specifications  
Table 1.5 Specifications for 60 V to 600 V Models  
Models  
60-46  
100-28  
150-18  
300-9  
600-4  
Output Ratings:  
Output Voltage 1  
Output Current 2  
Output Power  
0-60 V  
0-46 A  
2760 W  
0-100 V  
0-28 A  
2800 W  
0-150 V  
0-18 A  
2700 W  
0-300 V  
0-9 A  
2700 W  
0-600 V  
0-4 A  
2400 W  
Line Regulation: 3  
Voltage (0.01% of Vmax + 2 mV)  
Current (0.01% of Imax + 2 mA)  
8 mV  
6.6 mA  
12 mV  
4.8 mA  
1 7mV  
3.8 mA  
32 mV  
2.9 mA  
62 mV  
2.4 mA  
Load Regulation: 4  
Voltage (0.02% of Vmax + 5 mV)  
Current (0.02% of Imax + 5 mA)  
17 mV  
14.2 mA  
27 mV  
10.6 mA  
35 mV  
8.6 mA  
65 mV  
6.8 mA  
125 mV  
5.8 mA  
Meter Accuracy:  
Voltage (1% of Vmax + 1 count)  
Current (1% of Imax + 1 count)  
0.7 V  
0.56 A  
1.1 V  
0.38 A  
1.6 V  
0.19 A  
4 V  
0.1 A  
7 V  
0.05 A  
Output Noise (0-20 MHz):Voltage (p-p)  
150 mV  
175 mV  
200 mV  
400 mV  
500 mV  
Output Ripple (rms):  
Voltage  
15 mV  
100 mA  
25 mV  
80 mA  
25 mV  
40 mA  
40 mV  
20 mA  
100 mV  
10 mA  
Current 5  
Drift (30 minutes): 6  
Voltage (0.05% of Vmax)  
Current (0.7% of Imax)  
For Resistive Programming:  
Voltage (0.6% of Vmax)  
Current (0.6% of Imax)  
30 mV  
322 mA  
50m V  
196m A  
75 mV  
126 mA  
150 mV  
63 mA  
300 mV  
28 mA  
360 mV  
276 mA  
600 mV  
168 mA  
900 mV  
108 mA  
1800 mV  
54 mA  
3600 mV  
24 mA  
Drift (8 hours): 7  
Voltage (0.05% of Vmax)  
Current (0.05% of Imax)  
For Resistive Programming:  
Voltage (0.3% of Vmax)  
Current (0.3% of Imax)  
30 mV  
23 mA  
50 mV  
14 mA  
75 mV  
9 mA  
150 mV  
4.5 mA  
300 mV  
2 mA  
180 mV  
138 mA  
300 mV  
84 mA  
450 mV  
54 mA  
900 mV  
27 mA  
1800 mV  
12 mA  
Temperature Coefficient: 8  
Voltage (0.02% of Vmax/°C)  
Current (0.03% of Imax/°C)  
For Resistive Programming:  
Voltage (0.06% of Vmax/°C)  
Current (0.06% of Imax/°C)  
12 mV  
13.8 mA  
20 mV  
8.4 mA  
30 mV  
5.4 mA  
60 mV  
2.7 mA  
120 mV  
1.2 mA  
36 mV  
28 mA  
60 mV  
16.8 mA  
90 mV  
10.8 mA  
180 mV  
5.4 mA  
360 mV  
2.4 mA  
OVP Adjustment Range:  
(5% to 110% of Vmax)  
Efficiency: 9  
3-66 V  
0.90  
5-110 V  
0.90  
7.5-165 V 15-330 V  
0.90 0.91  
30-660 V  
0.91  
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Features and Specifications  
Specifications  
1. Minimum output voltage is <0.15% of rated voltage at zero output setting.  
2. Minimum output current is <0.5% of rated current at zero output setting when measured at minimum 10% of full  
power load.  
3. For input voltage variation over the AC input voltage range, with constant rated load.  
4. For 0-100% load variation, with constant nominal line voltage.  
5. Current mode noise is measured from 10% to 100% of rated output voltage, full current.  
6. Maximum drift over 30 minutes with constant line, load, and temperature, after power on.  
7. Maximum drift over 8 hours with constant line, load, and temperature, after 30-minute warm-up.  
8. Change in output per °C change in ambient temperature, with constant line and load.  
9. Typical efficiency at nominal input voltage and full output power.  
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Features and Specifications  
Specifications  
Additional  
Specifications  
Rise Time (No Load, Full Load): 1 7.5 V to 60 V models: 100 ms;  
100 V to 600 V models: 170 ms  
Fall Time (No Load): 1  
4 s  
1
Fall Time (Full Load):  
7.5 V to 60 V models: 100 ms;  
100 V to 600 V models: 170 ms  
Voltage Mode Transient Response:2 <3 ms  
Time Delay from power on until  
output stable  
7 s maximum  
1. Measured with stepped 0-10 V analog programming source and a resistive load.  
2. Time for the output voltage to recover within 0.5% of its rated value after a step change  
in load current of 10% to 90% of rated output with an output setpoint between 50-100%  
of rated value. Load slew rate <6 A/ms.  
Input  
Conditions  
Rated AC Input Voltage  
200/208/220/230/240 Vac (nominal)  
5000 VA  
Maximum AC Input Power  
Operational AC Input Voltage  
190-264 Vac, 1φ (24.3 A maximum at 208 Vac;  
22.4 A maximum at 230 Vac.)  
Auto range select function.  
Input Frequency Range  
Power Factor  
47-63 Hz  
0.65 typical  
I
30  
25  
20  
O
U
T
P
U
T
N
P
U
T
100% at 190 Vac  
100% at 264 Vac  
C
U
R
R
E
C
U
R
R
E
N
T
50% at 190 Vac  
50% at 264 Vac  
15  
10  
5
N
T
(A)  
0
50%  
OUTPUT VOLTAGE  
100%  
Figure 1.5 Typical Input Current Characteristics  
(Based on 100 V, 28 A model.)  
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Features and Specifications  
Specifications  
Additional  
Features  
Switching Frequency  
Output Hold-up Time  
nominal 31 kHz (62 kHz output ripple).  
Greater than 10 ms with interruption of AC line,  
for nominal AC input and full load.  
Maximum Voltage Differential from  
either output to safety ground  
±600 Vdc  
Insulation Resistance  
Input to chassis: >30 M, with 500 Vdc;  
Output to chassis: >20 M, with 1000 Vdc.  
Isolation Voltage  
Input to output: 1350 Vac  
Remote  
Programming  
and  
Monitoring  
Remote Start/Stop and Interlock  
2.5-15 V signal or TTL-compatible input,  
selectable logic. TTL input impedance: 2 k (in  
series with one diode drop).  
Remote Analog Programming (Full  
Scale Input)  
Voltage and current programming inputs  
(source must be isolated): 0-5 k, 0-10 k  
resistances; 0-5 V, 0-10 V (default) voltage  
sources. Input impedance (V and I):  
approximately 100 k.  
Remote Monitoring  
Output voltage and current: 0-5 V, 0-10 V  
(default);  
Output impedance (V and I): approximately  
221 .  
Output short circuit current: approximately  
50 mA.  
Remote Programming and  
Monitoring Accuracy  
1% zero to full scale output for the default  
range.  
Maximum Remote Sense Line Drop 5 V/line (Line drop is subtracted from total voltage  
Compensation  
available at supply output.)  
Optional Isolated Program and  
Readback (V&I)  
0-5 V (ISOL interface); input impedance: 200 k;  
output impedance: 221 .  
Optional Digital Control  
RS-232, GPIB interfaces  
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Features and Specifications  
Specifications  
Environmental  
Specifications  
Operating Temperature Range  
0 °C to 50 °C.  
Storage Temperature Range  
Humidity Range  
-20 °C to +70 °C  
up to 90% RH non-condensing  
Operating Altitude  
Storage Altitude  
Up to 6,500 feet (2000 m)  
Up to 50,000 feet (15 000 m)  
Installation Category  
Pollution Degree  
II  
2
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Features and Specifications  
Specifications  
Mechanical  
Specifications  
Front Panel V and I Control  
0.02% of maximum voltage  
Front Panel Voltage Control  
Resolution  
Front Panel Voltage and Current  
Meters  
3.5-digit green numeric LED displays. For accuracy  
specifications, see Table 1.4 and Table 1.5.  
AC Input Connector Type  
3-terminal 34 A, 250 V, right angle, PC mount, wire  
clamp connector with removable strain relief cover  
Input Fuses 1  
1 A, 250 V, 5 x 20 mm slow fuse (T), location: F34;  
1.5 A, 250 V, 5 x 20 mm time delay (T), location: F33;  
20 A, 250 Vac, 5 x 20 mm fast high interrupt (F),  
location: F36;  
30 A, 300 Vac, 10.3 x 41.3 mm medium time lag (T),  
locations: F2, F3.  
Output Connector  
7.5 V to 100 V models: nickel-plated copper bus bars  
with removable bus bar shield; bus bar holes: 0.343 in.  
(8.7 mm) diameter (D) (1), 0.197 in. (5.0 mm) D (2);  
150 V to 600 V models: 4-terminal, right angle, PC  
mount, wire clamp connector with removable strain  
relief cover.  
Sense Connector  
5-terminal wire clamp connector (2 piece)  
15-terminal wire clamp connector (2 piece)  
Analog Programming Connector  
Chassis Ground  
One chassis ground screw located on rear panel for  
bonding connections or for wire shield grounding.  
Maximum penetration into unit is 0.375 in. (9 mm).  
Cooling  
Fan cooled. Air exhausts to rear. Over temperature  
shutdown: automatic restart or latch off  
(switch-selectable).  
Mounting  
Weight  
Rack mount brackets. Mount at front panel.  
Approximately 33lb. (15 kg)  
Approvals  
CE-marked units are approved to IEC 1010-1 safety  
standard and EN50081-2 and EN500082-2 EMC  
standards, and are CSA certified to C22.2 No. 1010.1.  
CE-marked units are also approved to U.S.  
requirements of NRTL/C and are UL listed to  
UL3111-1, 1st edition, (up to 40 °C). Additional  
standards met: FCC, part 15, class A EMI standard.  
1. Fuses are located on the A4 PCB (printed circuit board). The fuses are  
NOT operator-replaceable.  
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Features and Specifications  
Specifications  
19in. (483 mm)  
3.45"  
(87.63 mm)  
16.9in. (429 mm)  
20.975in. (533 mm)  
17.475in. (444 mm)  
Figure 1.6 Dimensional Drawings  
(Dimensions given are nominal.)  
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Section 2. Installation  
Introduction  
This section provides recommendations and procedures for inspecting, installing,  
Basic Setup Procedure  
See Table 2.1 for a summary of the basic setup procedure and an overall view of the  
subsections in Section 2. Use the procedure as a quick reference if you are familiar  
with the installation requirements for the power supply. If you want more  
information, each step in the procedure refers to subsequent sections which contain  
more details. Execute each step in the sequence given.  
Table 2.1 Basic Setup Procedure  
Step # Description Action  
1
Inspection  
Perform an initial physical  
inspection of the supply.  
“Inspection, Cleaning, and  
2
Installation  
Install the supply (bench or rack  
mount), ensuring adequate  
ventilation.  
“Location, Mounting, and  
3
4
Input Power Connect AC input power.  
“AC Input Power” on  
page 40  
Test  
Perform functional tests for  
voltage mode operation, current  
mode operation, and front panel  
controls.  
page 43  
5
6
Load  
Connect the load.  
“Load Connection” on  
page 45  
Sensing  
Connect sensing lines.  
“Local and Remote  
Sensing” on page 53  
See Section 3. Local Operation for instructions about front panel operation, OVP,  
OTP, shutdown, and using multiple supplies. You will find remote programming and  
monitoring described in Section 4. Remote Operation.  
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Installation  
Inspection, Cleaning, and Packaging  
Inspection, Cleaning, and Packaging  
Initial When you first receive your unit:  
Inspection  
1. Inspect the unit for scratches and cracks, and for broken switches, connectors,  
and displays.  
2. Ensure that the packing box contains the AC input cover and strain relief kit (see  
Figure 2.2).  
3. Have the service technician check the printed circuit board and its components  
if you suspect internal damage.  
If the unit is damaged, save all packing materials and notify the carrier immediately.  
See packing instructions on page 38.  
Periodic No routine servicing of the power supply is required except for periodic cleaning.  
Whenever a unit is removed from operation, clean metal surfaces with naphtha or an  
equivalent solvent and the front panel with a weak solution of soap and water. Use  
low-pressure compressed air to blow dust from in and around components on the  
printed circuit boards.  
Cleaning  
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Installation  
Returning Power Supplies to the Manufacturer  
Returning Power Supplies to the Manufacturer  
Return Before returning a product directly to Xantrex you must obtain a Return Material  
Authorization (RMA) number and the correct factory “Ship To” address. Products  
must also be shipped prepaid. Product shipments will be refused and returned at your  
expense if they are unauthorized, returned without an RMA number clearly marked  
on the outside of the shipping box, if they are shipped collect, or if they are shipped  
to the wrong location.  
Material  
Authorization  
Policy  
When you contact Xantrex to obtain service, please have your operating manual  
ready for reference and be prepared to supply:  
The serial number of your product  
Information about the installation and use of the unit  
Information about the failure and/or reason for the return  
A copy of your dated proof of purchase  
When you ship:  
1. Package the unit safely following the procedures on page 38, preferably using  
the original box and packing materials. Please ensure that your product is  
shipped fully insured in the original packaging or equivalent. This warranty will  
not apply where the product is damaged due to improper packaging.  
2. Include the following:  
The RMA number supplied by Xantrex Technology Inc clearly marked on  
the outside of the box.  
A return address where the unit can be shipped. Post office boxes are not  
acceptable.  
A contact telephone number where you can be reached during work hours  
A brief description of the problem  
Ship the unit prepaid to the address provided by your Xantrex customer service  
representative.  
If you are returning a product from outside of the USA or Canada:  
In addition to the above, you MUST include return freight funds and are fully  
responsible for all documents, duties, tariffs, and deposits.  
If you are returning a product to a Xantrex Authorized Service Center (ASC):  
A Xantrex return material authorization (RMA) number is not required. However,  
you must contact the ASC prior to returning the product or presenting the unit to  
verify any return procedures that may apply to that particular facility.  
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Installation  
Returning Power Supplies to the Manufacturer  
Packaging for Follow these instructions to prepare the unit for shipping or storage.  
Shipping or  
1. When returning the unit or sending it to the service center, attach a tag to the unit  
Storage  
stating its model number (available from the front panel label) and its serial  
number (available from the rear panel label). Give the date of purchase and an  
invoice number, if you have it, as well as a brief description of the problem.  
2. For storage or shipping, repack the power supply in its original container. If the  
original container is not available, seal the unit in a plastic bag and then pack it  
in a 200 lb. (90 kg) test, corrugated cardboard carton large enough to allow 2  
inches (5 cm) of cushioning material to surround the unit. Use a material such as  
foam slabs or chips.  
3. Label the carton as shown in Figure 2.1.  
4. If shipping, mark the address of the service center and your return address on the  
carton.  
5. If storing, stack no more than eight cartons high. Check the storage temperature  
range and storage altitude specification in “Environmental Specifications” on  
page 32.  
POWER SUPPLY  
Model Number:_______________________  
Serial Number: _______________________  
FRAGILE — ELECTRONIC EQUIPMENT  
Figure 2.1 Shipping or Storage Carton Label  
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Installation  
Location, Mounting, and Ventilation  
Location, Mounting, and Ventilation  
Use the power supply in rack-mounted or benchtop applications.  
Rack  
Mounting  
WARNING  
Ensure that any mounting screws do not penetrate more than 1/8 in. (3.0 mm)  
into the sides of the unit.  
The power supply is designed to fit in a standard 19 in. (483 mm) equipment rack.  
To install:  
1. Use the rack mount brackets at either side of the front panel to install the power  
supply in a rack.  
2. Provide adequate support for the rear of the unit without obstructing the  
ventilation inlets on the sides of the unit. Use a support bar at the rear of the unit.  
Follow the manufacturer's instructions to install the support bar.  
To install the power supply with rack mount slides, use a commercially–available  
slide kit. Follow the manufacturer’s instructions to install the slides. Add a 1/8 in.  
(3.0 mm) spacer between the chassis and the slides.  
Ventilation Whether you place the power supply in a rack or on a bench, allow cooling air to  
reach the ventilation inlets on the sides of the unit and allow 4 in. (10 cm) of  
unrestricted air space at the rear of the unit for the fan exhaust. Any ventilation space  
at the top and bottom of the supply will further lower internal operating  
temperatures.  
Check page 32 for the operating ambient temperature range and the operating  
altitude specification.  
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Installation  
AC Input Power  
AC Input Power  
WARNING  
There is a potential shock hazard if the power supply chassis and cover are not  
connected to an electrical ground via the safety ground in the AC input  
connector. Ensure that the power supply is connected to a grounded AC outlet  
with the recommended AC input connector configured for the available line  
voltage as described in this section.  
WARNING  
Disconnect AC power from the unit before removing the cover. Even with the  
front panel power switch in the OFF position, live line voltages are exposed  
when the cover is removed. Repairs must be made by experienced service  
technicians only.  
CAUTION  
!
When power switch is turned on, output voltage or current previously set will be  
applied to loads.  
AC Input  
Connector  
and Voltage  
Selection  
The AC input connector is a 3-terminal wire clamp located on the power supply’s  
rear panel. See Figure 2.2 AC Input Cover and Strain Relief. See Table 2.2 for the  
input voltage ranges and frequency required to operate the power supply.  
Table 2.2 Operation AC Input Voltage Range and Frequency  
AC Voltage Range  
Frequency  
190-264 Vac 1φ  
47-63 Hz  
(24.3 A maximum at 208 Vac; 22.4 A maximum at  
230 Vac)  
AC Fail LED The AC Fail (ACF) LED turns on when the input voltage is outside  
of the range specified for the power supply. The LED turns off when the input  
voltage is within the range.  
AC Input  
WARNING  
The AC input cord is the disconnect device for the power supply. The plug must  
be readily identifiable by and accessible to the operator. The input cord must be  
no longer than 9.84 feet (3 m).  
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Installation  
AC Input Power  
Cord The AC input cord we recommend is specified in Table 2.3, “AC Wire  
Specification”. Add a non-locking plug suitable for use in the country in which you  
are operating. If you require a special cord, call us.  
Table 2.3 AC Wire Specification  
Wire Size  
Ratings  
Cable Outside Diameter  
3 x 12 AWG stranded copper 60 °C minimum, 300 V 0.545-0.708 in.  
(13.63-17.7 mm)  
AC Input Wire  
Connection  
WARNING  
Ensure that the chassis ground screw does not penetrate more than 3/8 in.  
(9 mm) into the rear panel of the unit.  
1. Strip the outside insulation on the AC cable approximately 4 in. (10 cm). Trim  
the wires so that the ground wire is 0.5 in. (12 mm) longer than the other wires.  
Strip 0.55 in. (14 mm) at the end of each of the wires. See Figure 2.2 detail (top).  
2. Unscrew the base of the strain relief from the helix-shaped body. Insert the base  
through the outside opening in the AC input cover and, from the inside, screw  
the locknut securely onto the base.  
3. Slide the helix-shaped body onto the AC cable. Insert the stripped wires through  
the strain relief base until the outer cable jacket is flush with the edge of the base.  
Tighten the body to the base while holding the cable in place. The cable is now  
securely fastened inside the strain relief.  
4. Route the AC wires to the input connector terminals as required. For input  
connector terminal locations, see lower inset in Figure 2.2. To connect the  
wiring, loosen the terminal screw, insert the stripped wire into the terminal, and  
tighten the screw securely.  
5. Route the wires inside the cover to prevent pinching. Fasten the AC input cover  
to the unit using the (6-32 x 1 1/4 in. (2)) screws, flat washers, and lock washers  
provided. See Figure 2.2.  
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Installation  
AC Input Power  
Chassis  
Ground Screw  
Screw-on  
Locknut  
Stripped Wire Installed in Strain Relief  
Cover  
Flat Washer (2 places)  
Lock Washer (2 places)  
Assembled Strain  
Relief  
Connector Terminal Locations  
Screw (2 places)  
Figure 2.2 AC Input Cover and Strain Relief  
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Installation  
Functional Tests  
Functional Tests  
These functional test procedures include power-on and front panel function checks  
as well as voltage and current mode operation checks. Refer to front and rear panel  
diagrams in “Front Panel Controls” on page 17 and “Rear Panel Connectors and  
Switch” on page 18.  
Equipment Digital voltmeter (DVM) rated better than 0.5% accuracy.  
Required  
DC shunt 1 mV/A (±0.25%) with connecting wire. The recommended current  
ratings for the DC shunt and the wire must be at least 10% more than the output  
current of the power supply.  
Power-on 1. Ensure that the AC power switch is in the OFF position.  
Check  
2. Ensure that the output sense lines are connected in the default configuration.  
(The local sense lines are connected between terminals 1 and 2 and between  
terminals 4 and 5 on the J10 sense connector as shown on the rear panel diagram  
in Figure .)  
3. Turn the voltage and current controls fully counter-clockwise.  
4. Connect the unit to an AC outlet.  
5. Turn the front panel AC power switch to ON.  
After a short, power-on delay, the front panel digital meters light up and the green  
voltage mode LED turns on. Both voltmeter and ammeter displays read zero.  
Voltage Mode 1. Ensure the voltage and current controls on the front panel are turned fully  
Operation  
Check  
counter-clockwise.  
2. Connect a DVM to the output terminals on the rear panel, observing correct  
polarity.  
3. Turn the current control a 1/2-turn clockwise. Slowly turn the voltage control  
clockwise and observe both the front panel voltmeter and the DVM.  
4. Compare the DVM reading with the front panel voltmeter reading to verify the  
accuracy of the internal voltmeter. Both readings should be the same. The  
minimum control range is from zero to the maximum rated output for the power  
supply model. The voltage mode LED turns on.  
5. Turn the front panel AC power switch to OFF.  
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Installation  
Functional Tests  
Current Mode 1. Ensure the front panel AC power switch is set to OFF.  
Operation  
2. Turn the voltage and current controls on the front panel fully counter-clockwise.  
Check  
3. Connect the DC shunt across the output terminals on the rear panel.  
4. Connect the DVM across the DC shunt.  
5. Turn the AC power switch to ON.  
6. Turn the voltage control 1 or 2 turns clockwise.  
7. Turn the current control slowly clockwise.  
8. Compare the DVM reading with the front panel ammeter reading using I=V/R  
where I is the current, V is the DVM reading, and R is the DC shunt resistance.  
The minimum control range is from zero to the maximum rated output for the  
power supply model. The current mode LED turns on.  
9. Turn the AC power switch to OFF.  
10. Disconnect the DVM and the shunt.  
Front Panel 1. Turn the front panel AC switch to ON.  
Function  
Checks  
2. Set voltage and current controls fully clockwise. Push the STANDBY switch to  
its IN position and check that the voltmeter reading falls to zero and the red S/D  
(Shutdown) LED turns on. Push the STANDBY switch once again to reset it to  
its OUT position. The S/D LED turns off and the voltmeter reading returns to its  
previous value.  
3. Press the STANDBY switch to its IN position.  
4. Press the OVP CHECK switch and check that the voltmeter displays  
approximately the model-rated output voltage plus 10%.  
5. Turn the OVP SET potentiometer counter-clockwise and check that the  
voltmeter reading decreases. Continued turning (up to 20 turns) will see the  
reading decrease to approximately 5% of the model-rated voltage output. Turn  
the OVP SET potentiometer clockwise until the voltmeter once again displays  
approximately the model-rated output voltage plus 10%.  
6. Press the STANDBY switch to its OUT position.  
7. Press the V/I CHECK switch and check that the voltmeter and ammeter display  
the power supply output ratings.  
8. Turn the front panel AC power switch to OFF.  
Note:You can use the front panel LOCAL button only when a digital programming  
interface has been installed in your power supply  
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Installation  
Load Connection  
Load Connection  
This section provides recommendations for load wires and how to connect them for  
both single and multiple load configurations.  
Load Wiring  
WARNING  
Ensure that the chassis ground screw does not penetrate more than 3/8 in.  
(9 mm) into the rear panel of the unit.  
When connecting load wiring to the power supply, consider the following factors:  
insulation rating of the wire  
current carrying capacity of the wire  
maximum load wiring length for operation with sense lines  
noise and impedance effects of the load lines  
Insulation Rating Use load wiring with a minimum insulation rating equivalent  
to the maximum output voltage of the power supply. For example, select TEW-105,  
105 °C, 600 V wiring for use with a 600 V, 4 A model power supply  
Current Carrying Capacity As a minimum, load wiring must have a current  
capacity greater than the output current rating of the power supply. This ensures that  
the wiring will not be damaged even if the load is shorted. Table 2.4 shows the  
maximum current rating, based on 450 A/cm2, for various gauges of wire rated for  
105 °C operation. Operating at the maximum current rating results in an  
approximately 30 °C temperature rise for a wire operating in free air. Where load  
wiring must operate in areas with elevated ambient temperatures or bundled with  
other wiring, use larger gauges or wiring rated for higher temperatures.  
Table 2.4 Current Carrying Capacity for Load Wiring  
Wire Size  
(AWG)  
Wire Size  
(AWG)  
Maximum Current (A)  
Maximum Current (A)  
20  
18  
2.5  
4
6
4
61  
97  
16  
14  
12  
10  
6
2
1
1/0  
2/0  
155  
192  
247  
303  
10  
16  
21  
36  
8
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Installation  
Load Connection  
Load Wiring Length for Operation with Sense Lines For applications using  
shows some maximum allowable wire lengths for a given load current and wire size.  
We recommend that you use the larger load wiring to ensure a smaller voltage drop  
(1 V typical maximum), although units will compensate for up to 5 V drop in each  
line. See also “Local and Remote Sensing” on page 53.  
)
WIRE GAUGE (AWG)  
16  
12  
8
4
1
2/0  
14  
10  
6
2
1/0  
100  
90  
80  
70  
60  
50  
40  
30  
20  
10  
LOAD CURRENT (AMPS)  
Figure 2.3 Maximum Load Wire Length for 1 V Line Drop  
Noise and Impedance Effects To minimize noise pickup or radiation, use  
shielded pair wiring of the shortest possible length for load wires. Connect the shield  
to the chassis via a rear panel mounting screw. Where shielding is impossible or  
impractical, simply twisting the wires together will offer some noise immunity.  
When using local sense connections, use the largest practical wire size to minimize  
the effects of load line impedance on the regulation of the supply.  
Making Load  
Connections  
CAUTION  
!
When making connections to the bus bars, ensure that each terminal's mounting  
hardware and wiring assembly are placed to avoid touching the other terminal  
and shorting the power supply output. Heavy connecting cables must have some  
form of strain relief to avoid loosening the connections or bending the bus bars.  
Make load connections at the rear of the power supply at the positive and negative  
output bus bars or to the 4-terminal wire clamp connector, depending on the model.  
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Installation  
Load Connection  
Output Cover The power supply comes with a bus bar cover and strain relief. See  
Figure 2.4. This cover is also installed on models fitted with the high voltage output  
connector.  
To detach the 2-part cover:  
1. Undo 6-32 x 5/16 in. Phillips pan head screws, 6 x 0.288 in. lock washers, and 6  
x 5/16 in. flat washers (3 places) from the top cover.  
2. Pull up on the top cover to remove it.  
3. Undo 6-32 x 1/4 in. Keps nuts and 6 x 5/16 in. flat washers from the  
chassis-mounted PEM studs (3 places) to remove the chassis cover.  
Screw, Lock  
Washer, and Flat  
Washer  
(3 places)  
KepsNutand  
Flat Washer  
(3 places)  
Wire Clamp  
and Screw  
Strain Relief  
Chassis Cover  
Top Cover  
Figure 2.4 Output Strain Relief and Cover  
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Installation  
Load Connection  
7.5 V to 100 V Models The 7.5 V to 100 V models are equipped with output bus  
bars. To make a typical load connection to a 7.5 V, 300 A power supply:  
1. Strip the ends of the wires.  
2. Remove the top part of the output cover. Do not remove the chassis-mounted part  
of the cover.  
3. Loosen wire clamp screws (part of strain relief). Do not disassemble the strain  
relief.  
4. Insert load wire in strain relief.  
5. Install connectors to load wiring.  
6. Fasten connectors to bus bars with 5/16 in. x 5/8 in. (M8 x 16 mm) screws,  
5/16 in. (M8) flat washers, lock washers, and hex nuts as shown in Figure 2.5.  
7. Tighten the strain relief clamp.  
8. Replace the top cover.  
Note: Bus bar hole sizes are one of 0.343 in. (8.7 mm) D; two of 0.197 in. (5.0 mm) D.  
Hex Nut (2 places)  
Lock Washer (2 places)  
Flat Washer (2 places)  
Screw (2 places)  
Wire connector (2 places)  
Assembled View  
Figure 2.5 Typical Load Connection Hardware  
(For 7.5 V to 100 V models.)  
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Installation  
Load Connection  
150 V to 600 V Models  
WARNING  
To protect personnel against accidental contact with hazardous voltages, ensure  
that the load, including connections, has no live parts which are accessible. Also  
ensure that the insulation rating of the load wiring and circuitry is greater than or  
equal to the maximum output voltage of the power supply.  
The 150 V to 600 V models have a 4-terminal, wire clamp output connector. See  
Figure 2.6 for a labelled drawing of the wire clamp connector. To prepare and  
connect the load wiring:  
1. Strip 0.4 in. (10 mm) at the ends of the wires.  
2. Remove the top part of the output cover. Do not remove the chassis-mounted  
part of the cover.  
3. Loosen wire clamp screws (part of strain relief). Do not disassemble the strain  
relief.  
4. Insert load wire in strain relief.  
5. To connect the wiring, loosen each terminal screw, insert a stripped wire into the  
terminal, and tighten the screw securely.  
6. Tighten the strain relief clamp.  
7. Replace the top cover.  
Negative Output/Return (–)  
Positive Output (+)  
Figure 2.6 Output Voltage Connector  
(For 150 V to 600 V models.)  
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Installation  
Load Connection  
Inductive To prevent damage to the power supply from inductive kickback, connect a diode  
across the output. The diode must be rated at greater than or equal to the supply’s  
output voltage and have a current surge rating greater than or equal to the supply’s  
output rating. Connect the cathode to the positive output and the anode to the  
negative output/return.  
Loads  
Where positive load transients such as back EMF from a motor may occur, connect  
a transorb or a varistor across the output to protect the power supply. The breakdown  
voltage rating for the transorb or varistor must be approximately 10% higher than the  
rated supply output.  
Connecting Figure 2.7 and Figure 2.8 show recommended load and sensing connections for  
single loads. Local sense lines shown are default connections at the rear panel J10  
sense connector as identified on Figure 1.2, on page 19.  
Single Loads  
You do not need remote sensing for basic operation of your supply. However, if you  
wish to correct any small drops in your load lines, then use the remote sensing  
feature. See “Local and Remote Sensing” on page 53 for more information.  
Figure 2.7 Single Load with Local Sensing (Default)  
Figure 2.8 Single Load with Remote Sensing  
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Installation  
Load Connection  
Connecting Proper connection of distributed loads is an important aspect of power supply use.  
Two common methods of connection are the parallel power distribution method and  
the radial power distribution method.  
Multiple  
Loads  
Parallel Power Distribution This distribution method involves connecting leads  
from the power supply to one load, from that load to the next load, and so on for each  
load in the system. This method results in the voltage at each load depending on the  
current drawn by the other loads and allows DC ground loops to develop. Except for  
low current applications, we do not recommend using this method.  
Radial Power Distribution Method To connect distributed loads, we  
recommend that you use radial power distribution. With this method, you connect  
power to each load individually from a single pair of terminals designated as the  
positive and negative distribution terminals. These terminals may be the power  
supply output terminals, the terminals of one of the loads, or a distinct set of  
terminals especially established for distribution use. Connect the sense leads to these  
another.  
Figure 2.9 and Figure 2.10 show recommended load and sensing connections for  
multiple loads. Local sense lines shown are default J10 sense connections. See  
“Local and Remote Sensing” on page 53 for more information about using remote  
sensing and grounding the sense line shield.  
Figure 2.9 Multiple Loads with Local Sensing  
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Load Connection  
Figure 2.10Multiple Loads with Remote Sensing  
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Installation  
Local and Remote Sensing  
Local and Remote Sensing  
Use connections at the rear panel J10 sense connector to configure the power supply  
for local or remote sensing of output voltage. See Figure 2.11 for a drawing of the  
sense connector.  
Sense Wiring  
WARNING  
There is a potential shock hazard at the sense connector when using a power  
supply with a rated output greater than 40 V. Select wiring with a minimum  
insulation rating equivalent to the maximum output voltage of the power supply  
for use as local sense jumpers or for remote sense wires. For example, select  
TEW-105, 105 °C, 600 V wiring for use with a model 600 V, 4 A power supply.  
Ensure that connections at the load end are shielded to prevent contact with  
hazardous voltages.  
For lowest noise performance, use shielded pair wiring of 16 to 24 AWG for remote  
sense lines. Strip wires 0.26 in. (6.5 mm) and insert securely as with any wire clamp  
connector.  
Local We ship the power supply with the rear panel J10 sense connector jumpered for local  
sensing of the output voltage. See Table 2.5 for the list of connector functions and a  
description of local sense connections. With local sensing, the output voltage is  
regulated at the output terminals (or bus bars). This method does not compensate for  
voltage losses in the load lines, so it is recommended only for low current  
applications or applications for which precise load regulation is not essential.  
Sensing  
Note:When using local sense connections, use the largest practical load wire size to  
minimize the effects of line impedance on the regulation of the supply.  
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Installation  
Local and Remote Sensing  
.
Figure 2.11J10 Sense Connector  
(Shown with local sense jumpers connected.)  
Table 2.5 Rear Panel J10 Sense Connector Terminals and Functions  
Terminal Name  
Function  
J10-1  
Return Sense (–SNS)  
Remote negative sense connection.  
Default connection to terminal 2.  
J10-2  
Negative Output (Return or RTN) Connected internally to negative bus  
bar.  
J10-3  
J10-4  
N/C  
No connection.  
Positive Output (+OUT)  
Connected internally to positive bus  
bar.  
J10-5  
Positive Sense (+SNS)  
Remote positive sense connection.  
Default connection to terminal 4.  
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Installation  
Local and Remote Sensing  
Using  
Remote  
Sensing  
WARNING  
There is a potential shock hazard at the sense points when using a power supply  
with a rated output greater than 40 V. Ensure that connections at the load end  
are shielded to prevent contact with hazardous voltages.  
WARNING  
Ensure that the chassis ground screw does not penetrate more than 3/8 in.  
(9 mm) into the rear panel of the unit.  
CAUTION  
!
!
Ground the sense line shield in one place only. Locations include: the power  
supply’s return output connection at the load, the power supply’s return output at  
its negative output terminal, or the power supply's chassis.  
CAUTION  
Do not use remote sensing with multiple supplies connected in series.  
Use remote sensing during voltage mode operation to shift the power supply’s  
regulation point from its default position at the rear panel output terminals to the load  
or distribution terminals by using a separate pair of wires to allow the control  
circuitry to monitor the load voltage. This allows the power supply to compensate  
for voltage losses in the load lines which will otherwise degrade the regulation of the  
supply. Line drop is subtracted from the voltage available at the power supply's  
output.  
To connect remote sense lines:  
1. Turn OFF the power supply.  
2. Remove the local sense jumpers connecting J10 mating connector terminal 5  
(positive sense) to terminal 4 (positive output) and terminal 1 (return sense) to  
terminal 2 (power supply return).  
3. Connect the positive remote sense lead to J10 mating connector terminal 5  
(positive sense) and the negative lead to terminal 1 (return sense). Ensure that  
the mating connector is plugged securely into the rear panel sense connector.  
Connect the other ends of the sense wires to the corresponding sense points at  
the load.  
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Installation  
Local and Remote Sensing  
4. To prevent ground loops, ground the sense line shield, at one point only, to the  
power supply’s return output connection at the load, to the power supply’s return  
output at its negative output terminal, or to the power supply’s chassis.  
5. Turn the power supply ON.  
Notes:  
1. If you operate the power supply with remote sense lines connected to the load  
and with either of the positive or negative load lines not connected, the power  
supply shutdown circuit will activate, causing the output voltage and current to  
fall to zero.  
2. If you operate the power supply without remote sense lines or local sense  
jumpers in place, the supply will continue to work, but supply regulation will be  
degraded and/or erratic, or, the OVP circuit may activate.  
Figure 2.12 shows a sample setup for using remote sensing.  
Figure 2.12Connecting Remote Sense Lines  
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Section 3. Local Operation  
Introduction  
Once you have installed the power supply and have connected both the AC input  
power and the load as covered in Section 2. Installation, the power supply is ready  
to operate in local control mode (that is, operation at the unit’s front panel).  
See “Standard Operation” on page 57 for a brief explanation of Constant Voltage  
and Constant Current Mode operation and see page 61 to page 70 for more about  
power supply functions such as over voltage protection, shutdown function, over  
temperature protection, and using multiple supplies.  
See “User Diagnostics” on page 71 for troubleshooting information for the  
operator.  
Turn to Section 4. Remote Operation for descriptions of remote programming  
options and remote monitoring of the power supply.  
Standard Operation  
This power supply has two basic operating modes: Constant Voltage Mode and  
Constant Current Mode, and two control modes: Local Control Mode (default  
setting) and Remote Programming Mode. Both operating modes are available  
regardless of which control mode is used.  
Operating Whether controlled by local or remote programming, the power supply has two basic  
operating modes: Constant Voltage Mode and Constant Current Mode. The mode in  
which the power supply operates at any given time depends on the combination of:  
Modes and  
Automatic  
Crossover  
output current limit setting ISET  
resistance of the attached load RL  
See Figure 3.1 for a graphical representation of the relationships between these  
variables.  
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Local Operation  
Standard Operation  
Output  
Voltage  
VSET  
ISET  
Constant Voltage  
Mode Region  
RL  
VSET  
ISET  
RL  
Crossover Point  
Where  
RL  
VSET  
Load Resistance  
VSET  
ISET  
VSET  
Output Voltage Setting  
Constant Current RL  
Mode Region  
ISET  
Output Current Limit Setting  
Output  
Current  
0
0
ISET  
Figure 3.1 Operating Modes  
Constant Voltage Mode Operation The power supply will operate in constant  
voltage mode whenever the load current IL is less than the current limit setting ISET  
,
or: IL < ISET (Note: IL = VSET / RL)  
In constant voltage mode, the power supply maintains the output voltage at the  
selected value (VSET) while the load current IL varies with the load requirements.  
Constant Current Mode Operation The power supply will operate in constant  
current mode whenever the load resistance is low enough that the load current IL is  
equal to the current limit setting ISET (Note: VL=ISETRL)  
In constant current mode, the power supply maintains the output current at the  
selected value (ISET) while the load voltage varies with the load requirements.  
Automatic Mode Crossover This feature allows the power supply to  
automatically switch operating modes in response to changing load requirements. If,  
for instance, the power supply was operating in Constant Voltage Mode (IL < ISET),  
and the load changed so that the load current (IL) became equal to the current limit  
setting (ISET), the power supply would automatically switch into Constant Current  
Mode and the output voltage would vary in response to changes in load current. If  
the additional load was subsequently removed so that the load current was again less  
than the current limit setting, the supply would automatically return to Constant  
Voltage Mode.  
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Standard Operation  
Shipped The factory ships units already configured for local control (front panel) operation.  
Configuration See Table 3.1 for a summary of this configuration. See Figure 1.1 and Figure for  
front and rear panel diagrams.  
(Local Control  
Mode)  
Table 3.1 Shipped Configuration (Local Control Mode)  
Local Control Configuration  
Additional References  
Use the front panel controls to adjust the  
output voltage and current limit settings.  
See Section 4 for remote analog  
(Note: Use the LOCAL button only when you programming procedure(s).  
have a digital programming interface  
installed.)  
The supply's sense point is at the rear panel See “Local and Remote Sensing” on  
J10 sense connector terminals.  
page 53 for how to change from local to  
The OVP set point is adjusted at the front  
panel to approximately 110% of rated output (OVP)” on page 61 for the adjustment  
voltage.  
procedure.  
The over temperature shutdown function  
automatically resets when activated as  
determined by the position of rear panel  
switch SW1-8. A latch off setting is also  
available.  
See “Over Temperature Protection  
(OTP)” on page 70 for more  
information about switch SW1-8  
settings.  
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Local Operation  
Standard Operation  
Setting Install the power supply and connect the load as described in Section 2. Installation.  
Ensure that the power supply is set up for local control as described in “Shipped  
Configuration (Local Control Mode)” on page 59. Then, set the output voltage and  
current limit at the front panel with the following procedure.  
Output  
Voltage and  
Current Limit  
1. Turn both the voltage and current controls fully counter-clockwise.  
2. Turn the AC power ON.  
3. Press the STANDBY switch to its IN position to disable the power supply  
output. The red Shutdown (S/D) LED turns on.  
4. Press and hold the V/I CHECK button to display the voltage and current control  
settings on the voltmeter and ammeter displays.  
5. Adjust the voltage control to the desired voltage (the compliance voltage for  
applications using current mode operation).  
6. Adjust the current control to the desired current limit setting.  
7. Release the V/I CHECK button.  
8. Press the STANDBY switch to its OUT position to apply power to the load. The  
S/D LED turns off.  
Note:The control circuits have been designed to allow you to set output voltage and  
current up to 5% over the model-rated maximum values. The power supply will  
operate within these extended ranges, but we cannot guarantee full performance to  
specification.  
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Local Operation  
Using Over Voltage Protection (OVP)  
Using Over Voltage Protection (OVP)  
The OVP circuit protects the load in the event of a remote programming error, an  
incorrect voltage control adjustment, or a power supply failure. The protection  
circuit monitors the output voltage at the output of the power supply and will shut  
down the main power converter whenever a preset voltage limit is exceeded. Set the  
preset voltage limit (also called the set point or trip level) using the  
screwdriver-adjustable, front panel OVP potentiometer, or via one of the optional  
GPIB or RS-232 programming interfaces.  
Notes:  
1. The default preset limit is approximately 110% of the rated output voltage.  
2. When using OVP with remote sensing lines connected, compensate for the  
voltage line drop across the output return line by measuring or calculating the  
line drop, then adding this value to the desired OVP setpoint.  
Front Panel In local control mode, check the OVP set point at any time by pressing the OVP  
CHECK switch. The OVP set point is the value displayed on the digital voltmeter.  
OVP  
Operation  
To set the trip level from the front panel:  
1. Disconnect any loads. Turn the power supply ON.  
2. Adjust the power supply output voltage to any voltage lower than the desired trip  
level.  
3. Press the front panel STANDBY (output shutdown) switch to its IN position.  
The red S/D LED  
turns on.  
4. Press the OVP CHECK switch to see the OVP set point on the voltmeter display.  
5. Holding down the OVP CHECK switch, turn the OVP SET potentiometer until  
the desired set point is reached. Release the OVP CHECK switch.  
6. Press the STANDBY switch to its OUT position. The S/D LED turns off.  
7. To check that the power supply shuts off at the desired set point, slowly increase  
the output voltage while monitoring the front panel voltmeter. The OVP LED on  
the front panel turns on when the OVP circuit activates.  
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Local Operation  
Using Over Voltage Protection (OVP)  
Resetting the To reset the OVP circuit after it activates:  
OVP Circuit  
1. Reduce the power supply’s output voltage setting to below the OVP set point.  
2. Press the STANDBY switch IN. The red S/D LED on the front panel turns on.  
The OVP LED turns off.  
3. Press the STANDBY switch again to return power to the load and resume normal  
operation.  
OR  
1. Reduce the power supply’s output voltage setting to below the OVP set point.  
2. Turn the power supply OFF using the AC power switch, wait until the front panel  
displays go out, then turn the power supply back ON again.  
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Local Operation  
Using the Shutdown Function  
Using the Shutdown Function  
Use the Shutdown function to disable or enable the supply’s output so that you can  
make adjustments to either the load or the power supply without shutting off the  
power supply. Activate this function from the front panel at any time by using the  
STANDBY switch. You can also activate it via remote control through the rear panel  
J2 Programming and Monitoring connector, using a 2.5 V to 15 V signal or a  
transistor-transistor logic (TTL) compatible signal. The input lines for the Shutdown  
circuit are optically isolated.  
STANDBY The STANDBY switch is a press ON/press OFF switch located on the power  
supply’s front panel. See the front panel diagram in “Front Panel Controls” on page  
17. Push the switch to its IN position to activate the Shutdown circuit. The output  
voltage and current fall to zero and the red S/D (Shutdown) LED turns on. Push the  
switch once more to reset it to its OUT position and resume normal power supply  
operation.  
Switch  
Controlling The shutdown circuit accepts a 2.5 V to 15 V signal to disable or enable the power  
supply output. Make connections for signals at connector J2, located on the unit’s  
rear panel. Set rear panel switch SW1-7 to select signal logic. See “Front Panel  
Controls” on page 17 for more information about making J2 connector and SW1  
switch changes.  
the Shutdown  
Function via  
the J2  
Connector  
To activate the shutdown function:  
1. Turn OFF the power supply.  
2. Connect the signal source to J2 connector terminal 15 (Shutdown Input/positive)  
and terminal 14 (Shutdown Return).  
3. Set switch SW1-7 to select the desired circuit logic as set out in Table 3.2.  
4. Turn on the power supply. The power supply will operate as described in the  
Supply Output column in Table 3.2, according to the logic you select and the  
level of the input signal. The S/D (Shutdown) LED on the front panel turns on  
when the Shutdown circuit is activated.  
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Local Operation  
Using the Shutdown Function  
Table 3.2 Switch Settings for Shutdown Circuit Logic  
Switch SW1-7 Setting Source Signal Signal Level Supply Output S/D LED  
OFF (OPEN)  
(Active low, default)  
2-15 V  
0-0.4 V  
2-15 V  
0-0.4 V  
HIGH  
LOW  
HIGH  
LOW  
OFF  
ON  
ON  
OFF  
OFF  
ON  
ON (CLOSED)  
(Active high)  
ON  
OFF  
Notes:  
1. If switch SW1-7 is ON but there is no signal applied, the S/D LED turns on and  
the power supply will not provide an output until the HIGH signal level is  
applied.  
2. Any of the eight switches on SW1 is OFF (OPEN) when it has been flipped up  
to break contact, ON (CLOSED) when flipped down to close contact.  
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Local Operation  
Using Multiple Supplies  
Using Multiple Supplies  
WARNING  
There is a shock hazard at the load when using a power supply with a rated or  
combined output greater than 40 V. To protect personnel against accidental  
contact with hazardous voltages created by series connection, ensure that the  
load, including connections, has no live parts which are accessible. Also ensure  
that the insulation rating of the load wiring and circuitry is greater than or equal to  
the maximum or combined output voltage of the power supply.  
CAUTION  
!
!
Do not connect power supplies from different manufacturers in parallel or in  
series.  
CAUTION  
The remote programming inputs are internally referenced to the supply’s  
negative output. Do not connect remote programming ground lines  
(J2 terminals 3, 5, and 7) to the supply’s positive output.  
You can operate power supplies of the SAME MODEL with outputs in series or in  
parallel to obtain increased load voltage or increased current. Split supply operation  
gives you two positive outputs or a positive and a negative output.  
Note:If your application requires the use of isolated programming inputs, contact the  
manufacturer about the optional ISOL Interface.  
Configuring  
Multiple  
Supplies for  
Series  
Operation  
CAUTION  
!
Do not use remote sensing during series operation.  
CAUTION  
!
The maximum allowable sum of the output voltages is 600 Vdc.  
Use series operation to obtain a single higher voltage output using two or more  
supplies. Connect the negative (–) output terminal of one supply to the positive (+)  
output terminal of the next supply. See Figure 3.2. The total voltage available is the  
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Local Operation  
Using Multiple Supplies  
sum of the maximum voltages of each supply (add voltmeter readings, to a maximum  
of 600 V). The maximum allowable current for a series string of power supplies is  
the output current of a single supply in the string.  
Configuring Use parallel operation to obtain a higher current through a single output using two or  
more supplies. Set all of the OVP setpoints to maximum. (See “Using Over Voltage  
Protection (OVP)” on page 61.) Set all of the outputs to the same voltage before  
connecting the positive (+) output terminals and negative (–) output terminals in  
parallel. See Figure 3.3. The total current available is the sum of the maximum  
currents of each supply.  
Multiple  
Supplies for  
Parallel  
Operation  
When operating multiple supplies in parallel, the operating mode of each supply  
depends on the load current being drawn. For example, with two 40 V, 70 A power  
supplies operating in parallel with a 100 A load, one supply operates in constant  
current mode supplying 70 A and the other supply operates in voltage mode  
supplying the remaining 30 A. The level of current sharing between units depends  
on how accurately the output voltages are matched.  
Note:If you do not fix the OVP setpoints at maximum, the OVP circuit may trip on  
one unit, reducing the current available to the load.  
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Local Operation  
Using Multiple Supplies  
Sensing for Parallel Operation Use default local sensing to enhance power  
sharing between units, as the impedance of the load lines will tend to correct for  
current imbalance. If you use remote sensing at the load for better voltage regulation,  
one supply always operates in current limit mode and supplies most of the power.  
Figure 3.3 Parallel Operation of Multiple Supplies  
(Local sense lines shown are default J10 connections.)  
Configuring Split supply operation uses two power supplies to obtain two positive voltages with  
a common ground, or to obtain a positive-negative supply.  
Multiple  
Supplies for  
Split Supply  
Operation  
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Local Operation  
Using Multiple Supplies  
Two Positive Voltages To obtain two positive voltages, connect the negative  
output terminals of both supplies together in a common connection. The positive  
output terminals will provide the required voltages with respect to the common  
connection. See Figure 3.4.  
Figure 3.4 Split Supply Operation of Multiple Supplies  
(Two Positive Voltages)  
(Local sense lines shown are default J10 connections.)  
Positive-negative Supply  
CAUTION  
!
To prevent possible damage to the supply, do not connect the remote program  
return line of the negative supply to the common connection.  
To obtain a positive-negative supply, connect the negative output terminal of one  
supply to the positive output terminal of the second supply. The positive output  
terminal of the first supply then provides a positive voltage relative to the common  
connection while the negative output terminal of the second supply provides a  
negative voltage. You can set the current limits independently. The maximum current  
available in split supply operation is equal to the rated output of the supplies. For  
example, 70 A for two 40 V, 70 A models. See Figure 3.5.  
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Local Operation  
Using Multiple Supplies  
Figure 3.5 Split Supply Operation of Multiple Supplies  
(Positive-negative Supply)  
(Local sense lines shown are default J10 connections.)  
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Local Operation  
Over Temperature Protection (OTP)  
Over Temperature Protection (OTP)  
The OTP function allows you to select how the power supply recovers from an over  
temperature shutdown using the rear panel switch SW1-8. See Table 3.3 for switch  
settings and selections. See “Rear Panel Connectors and Switch” on page 18 for  
more information about the switch. The OTP shutdown circuit activates before the  
internal components can exceed their safe internal operating temperatures. When an  
OTP shutdown occurs, the front panel OTP LED turns on.  
Table 3.3 Switch Settings for Over Temperature Recovery Options  
Switch SW1-8 OTP Shutdown Selection Description  
OFF (OPEN)  
Auto Reset (Default)  
The supply recovers to normal operation  
when the over temperature condition no  
longer exists.  
ON (CLOSED) Latch OFF  
After an over temperature shutdown, the  
supply stays off until you turn the AC  
power switch OFF, then you turn the  
power supply ON to continue use.  
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Local Operation  
User Diagnostics  
User Diagnostics  
If your power supply is not performing as described in this operating manual, run  
through the procedures and checks in this section before calling your service  
technician. These procedures are confined to operator-level functions only and do  
not require cover-off servicing.  
Emergency In an emergency, carry out both of these steps:  
Shutdown  
1. Shut the power supply OFF immediately.  
2. Disconnect the power supply from the load.  
Unusual or If the power supply displays any unusual or erratic operation, follow these steps:  
Erratic  
Operation  
1. Shut the power supply OFF immediately.  
2. Disconnect the power supply from the load.  
3. Test the power supply with no load, running the tests in Functional Tests.  
4. If the tests show that the power supply is functioning normally, check all load,  
programming, and monitoring connections and circuits.  
5. Check the AC input for correct voltage and frequency.  
If the problem is not solved after following this procedure, or if the unit fails to  
operate correctly upon retesting, call your service technician.  
Turn to the next page for more information about troubleshooting for operators.  
Troubleshooting Use the checks in Table 3.4 to ensure that the power supply is configured and  
for Operators  
connected for normal operation.  
Abbreviated References Used in Table  
ACF  
OTP  
OVP  
REM  
S/D  
AC fail  
over temperature protection  
over voltage protection  
remote mode  
shutdown  
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Local Operation  
User Diagnostics  
Table 3.4 User Diagnostics  
Symptom  
Check  
Further Checks and Corrections  
No output and the  
display is blank.  
Is input voltage within specified  
range?  
See page 40.  
Power switch ON?  
Turn on power.  
See your service technician.  
See page 61.  
Internal circuit?  
No output but the  
display turns on.  
OVP LED turned on?  
Front panel S/D LED turned on?  
OTP LED turned on?  
Current limit set to zero?  
Voltage control set to zero?  
REM LED turned on?  
See page 63.  
See page 70.  
See page 57.  
If using remote analog control, check  
your analog programming source  
(Section 4). If not, refer to your digital  
interface manual.  
Is front panel ACF LED turned on?  
Connect unit to AC supply in specified  
range. See page 40.  
Internal circuit.  
See your service technician.  
Output not adjustable.  
Is unit in current limit mode?  
Turn current knob clockwise to increase  
(Red Current Mode LED turned on.) current limit. Reduce load if current is at  
maximum. See page 57.  
Is unit in remote mode?  
(Green REM LED turned on.)  
If using remote analog control, check  
your analog programming source  
(Section 4). If not, refer to your digital  
interface manual.  
Is unit at maximum voltage or current Reduce load for lower voltage or current  
limit?  
requirement.  
Output voltage  
fluctuating or regulation  
poor.  
Is unit at current limit?  
Increase current limit setting or reduce  
load. See page 57.  
Is input voltage within specified  
range?  
Connect to appropriate AC voltage  
source.  
See page 40.  
Are sense lines connected?  
See page 45 and page 53.  
Is unit under remote analog control? Ensure that program source is stable.  
Internal circuit.  
Internal circuit.  
See your service technician.  
See your service technician.  
Output oscillating.  
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Section 4. Remote Operation  
Introduction  
The rear panel switches and connector on the power supply allow you to program the  
supply with an analog device or to output readback signals. This section covers the  
following topics:  
page 74 for information about remote analog programming of output voltage and  
current limit with 0-5 V and 0-10 V voltage sources and 0-5 k and 0-10 k  
resistances.  
See “Remote Monitoring of Output Voltage and Current” on page 78 for the  
connector and switch settings when using calibrated readback signals for output  
voltage and output current with selectable 0-5 V or 0-10 V scales.  
Isolated Programming The four-channel Isolated (ISOL) Programming  
Interface is an internal card which is ordered as an option. It allows remote  
programming and readback of the power supply’s output voltage and current limit  
with 0-5V analog signals at a different potential relative to the power supply’s  
output. Contact the manufacturer to order.  
Remote Digital Programming You can operate the power supply from a  
computer if you have had the GPIB or RS-232 Interface card installed as an option.  
Refer to the separate interface manual for all setup and operation instructions for  
remote digital programming.  
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Remote Operation  
Remote Analog Programming of Output Voltage and Current Limit  
Remote Analog Programming of Output Voltage and Current Limit  
Remote analog programming allows control of the power supply’s output voltage  
and/or current limit to shift from local operation at the front panel voltage and current  
controls to external analog sources. As you vary the external programming source,  
the power supply’s output varies proportionally over its output range.  
Using remote analog programming requires that you reset switch SW1 and make  
connections to the J2 connector on the power supply’s rear panel. See “Rear Panel  
Connectors and Switch” on page 18.  
Remote See Table 4.1 for a summary of the options available to you for programming output  
voltage and current limit using an analog source.  
Programming  
Options  
Table 4.1 Remote Programming Options  
Control of...  
Programming Scales1  
Output Voltage and/or  
Current Limit  
0-5 V and 0-10 V voltage sources  
0-5 k and 0-10 k resistances  
1. These scales may be used in any combination.  
Remote  
Analog  
Programming  
Procedure  
CAUTION  
!
To maintain the isolation of the power supply output and prevent ground loops,  
use an isolated (ungrounded) programming source when operating the power  
supply via remote analog control at the J2 connector.  
CAUTION  
!
The remote programming inputs are internally referenced to the supply’s  
negative output. Do not connect control ground (J2 terminals 3, 5, or 7) to the  
supply’s positive output.  
1. Turn the power supply OFF.  
2. Using Table 4.2, set switches SW1-1, SW1-2, SW1-3, and SW1-4 according to  
the selected programming sources. See the Notes at the end of this procedure for  
more information about switch settings.  
3. Install any J2 connector jumpers as indicated in Table 4.2.  
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Remote Operation  
Remote Analog Programming of Output Voltage and Current Limit  
4. Connect the programming source(s) to the mating J2 connector as shown in  
Figure 4.1, observing the correct polarity for voltage sources. Ensure that the  
mating connector is plugged securely into the rear panel connector.  
5. Set the programming sources to the desired levels and turn the power supply ON.  
The REM LED turns on.  
6. Adjust the external programming source to change the power supply’s output.  
Notes:  
1. Switches SW1 to SW4 can be set to their defaults (all open) unless otherwise  
specified in Table 4.2. Switches SW1-5, SW1-6, SW1-7, and SW1-8 are not  
selected for your application.  
2. Resetting switches SW1-3 or SW1-4, the programming scale selection switches,  
may require that you recalibrate the programming circuit to maintain  
programming accuracy. See Section 5. Calibration.  
3. Any of the eight switches on SW1 is OFF (OPEN) when it has been flipped up  
to break contact, ON (CLOSED) when flipped down to close contact.  
4. The control circuits have been designed to allow you to set output voltage and  
current up to 5% over the model-rated maximum values. The power supply will  
operate within these extended ranges, but we cannot guarantee full performance  
to specification.  
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Remote Operation  
Remote Analog Programming of Output Voltage and Current Limit  
Table 4.2 Power Supply Settings for Different Programming Sources  
Output  
Output Current Limit Programming Source  
Voltage  
Programming  
Source  
None (Front  
Panel Control)  
0-5 Vdc  
0-10 Vdc  
0-5 k Resistor 0-10 k Resistor  
0-5 Vdc  
SW1:  
SW1:  
SW1:  
SW1:  
SW1:  
set 3 and 4  
open.  
set 3 open.  
J2: jumper 1 to and 4 open.  
set 2 closed, 3  
set 2 closed, 3  
open.  
set 3 open.  
J2: jumper 1 to  
J2: jumper 1 to 3 and 2 to 3.  
3 and 2 to 3.  
J2: jumper 1 to J2: jumper 1 to 3.  
3 and 2 to 3.  
3 and 2 to 3.  
0-10 Vdc  
SW1:  
SW1:  
SW1:  
SW1:  
SW1:  
set 4 open.  
default settings. set 2 closed,  
set 2 closed.  
default settings.  
J2: jumper 1 to J2: jumper 1 to 4 open.  
J2: jumper 1 to J2: jumper 1 to  
3 and 2 to 3.  
3 and 2 to 3.  
J2: jumper 1 to 3 and 2 to 3.  
3.  
3 and 2 to 3.  
0-5 k Resistor SW1:  
set 1 closed,  
3 and 4 open.  
SW1:  
set 1 closed,  
3 open.  
SW1:  
set 1 and 2  
closed,  
SW1:  
set 1 and 2  
closed, 3 open. 1 closed.  
SW1:  
set 3 open,  
J2: jumper 1 to J2: jumper 1 to 3 and 4 open.  
J2: jumper 1 to J2: jumper 1 to  
3 and 2 to 3.  
3 and 2 to 3.  
J2: jumper 1 to 3 and 2 to 3.  
3.  
3 and 2 to 3.  
0-10 k Resistor SW1:  
SW1:  
SW1:  
SW1:  
SW1:  
set 1 closed,  
4 open.  
set 1 closed.  
J2: jumper 1 to closed, 4 open. closed.  
set 1 and 2  
set 1 and 2  
set 1 closed.  
J2: jumper 1 to  
J2: jumper 1 to 3 and 2 to 3.  
3 and 2 to 3.  
J2: jumper 1 to J2: jumper 1 to 3.  
3 and 2 to 3.  
3 and 2 to 3.  
None (Front  
Panel Control) set 4 open.  
J2: jumper 2 to J2: jumper 2 to 4 open.  
3. 3. J2: jumper 2 to 3.  
3.  
SW1:  
SW1:  
SW1:  
SW1:  
set 2 closed.  
J2: jumper 2 to J2: no jumper.  
SW1:  
default settings.  
default settings. set 2 closed,  
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Remote Operation  
Remote Analog Programming of Output Voltage and Current Limit  
Figure 4.1 Connecting Programming Sources to J2 Connector  
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Remote Operation  
Remote Monitoring of Output Voltage and Current  
Remote Monitoring of Output Voltage and Current  
Readback The J2 connector on the rear panel provides access to calibrated readback signals for  
remote monitoring of the output voltage and current. Rear panel switches SW1-5 and  
SW1-6 allow you to select either a 0-5 Vdc or a 0-10 Vdc range for the output. The  
readback signal represents 0 to 100% of the power supply’s output.  
Signals  
See Table 4.3 for the required J2 connections and switch settings for remote  
monitoring of readback signals with 0-5 Vdc or 0-10 Vdc outputs. Use shielded pair  
wiring (20 to 24 AWG) and ground the shield to J10 sense connector terminal 1  
(return sense) or to the chassis.  
Table 4.3 Power Supply Settings for Remote Monitoring of Readback Signals  
J2 Connection  
Signal (+)  
J2 Connection  
Return (–)  
Readback Signal  
Switch SW1 Setting  
Output Voltage  
(0-5 Vdc)  
J2-10  
J2-10  
J2-12  
J2-12  
J2-9  
SW1-5 OFF (OPEN)  
Output Voltage  
(0-10 Vdc)  
J2-9  
SW1-5 ON (CLOSED)  
SW1-6 OFF (OPEN)  
SW1-6 ON (CLOSED)  
Output Current  
(0-5 Vdc)  
J2-11  
J2-11  
Output Current  
(0-10 Vdc)  
Note:Check the readback accuracy any time you reset switches SW1-5 and SW1-6.  
See Section 5. Calibration.  
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Section 5. Calibration  
Introduction  
WARNING  
Exercise caution when using and calibrating a power supply. High energy levels  
can be stored at the output voltage terminals on a power supply in normal  
operation. In addition, potentially lethal voltages exist in the power circuit and on  
the output and sense connectors of a power supply with a rated output greater  
than 40 V. Filter capacitors store potentially dangerous energy for some time  
after power is removed.  
Adjustments to programming and readback accuracy for the power supply are made  
using cover-off procedures which must be performed by a service technician.  
Calibration Setup  
Service Follow established antistatic procedures.  
Environment  
and  
Precautions  
Work at a bench with adequate room and support for the unit under test and for  
all equipment required.  
To reduce shock hazard, use only an insulated, straight-blade screwdriver when  
calibrating trim potentiometers.  
NEVER calibrate these units alone. Ensure that someone is present who can help  
should an accident occur.  
Equipment You will need the following equipment when calibrating your power supply.  
Required  
Current shunt 1 mV/A (±0.25%) and connecting wire. The recommended  
current ratings for the DC shunt and connecting wire must be at least 10%  
greater than the power supply's output current rating. Please see Table 2.4,  
“Current Carrying Capacity for Load Wiring,” on page 45.  
Non-conducting, straight-bladed screwdriver  
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Calibration  
Calibration Setup  
Accessing  
Calibration  
Potentiometers  
WARNING  
Disconnect AC power from the unit before removing the cover. Even when the  
front panel power switch is in the OFF position, live line voltages are exposed  
when the cover is removed. Repairs and adjustments must be made by  
experienced service technicians only.  
WARNING  
Use a non-conducting, straight-blade screwdriver to adjust the trim pots.  
CAUTION  
!
Follow established antistatic procedures. There are static-sensitive parts on the  
You will need to remove the power supply’s cover to access the programming and  
readback calibration potentiometers which are located on the A2 PCB. See  
Figure 5.1 to locate the potentiometers.  
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Calibration  
Calibration Setup  
Removing Option Card If there is a GPIB or RS-232 option card (PCB) installed  
inside the power supply, you will have to remove it to access the calibration  
potentiometers.  
Tool Required: Phillips #2 screwdriver  
1. Turn OFF the power supply. Disconnect AC Power. Remove the cover.  
2. Remove 4 screws from their standoffs inside the power supply to release the  
option card.  
3. Remove 2 screws at the rear panel to release the option card’s sub-plate.  
4. Unplug the ribbon cable connectors from the option card. Lift out card.  
Figure 5.1 Programming and Monitoring Calibration Locations  
(Top view.)  
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Calibration  
Calibrating for Programming Accuracy  
Calibrating for Programming Accuracy  
The factory calibrates the offset and range of the voltage and current programming  
circuits to within 1% for the default 0-10 Vdc programming signals. You may need  
to recalibrate when you use 0-5 Vdc programming or when you switch back to  
0-10 Vdc programming after previously calibrating for 0-5 Vdc programming.  
See “Calibration Setup” on page 79 for instructions to remove the cover and any  
option card. Follow all procedure steps in the sequence given.  
Voltage 1. Ensure that the power supply is turned OFF. Disconnect any load.  
Programming  
2. Connect the program source between J2 connector terminals 6 (output voltage  
program input) and 5 voltage program signal return).  
Circuit  
Calibration  
3. Connect the DVM across the power supply output.  
4. Turn the power supply ON.  
5. Apply 1% of program voltage.  
6. Adjust the voltage program offset potentiometer (R472) until the DVM reads 1%  
of the model-rated output voltage.  
7. Apply 100% of program voltage.  
8. Adjust the voltage program range potentiometer (R462) until the DVM reads the  
model-rated output voltage.  
Repeat this procedure until output levels are adjusted to power supply specifications  
(see Section 1) or to the accuracy that your application requires.  
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Calibration  
Calibrating for Programming Accuracy  
Current Limit 1. Ensure that the power supply is turned OFF. Disconnect any load.  
Programming  
Circuit  
2. Connect the program source between J2 connector terminals 8 (output current  
limit programming input) and 7 (current program signal return).  
Calibration  
3. Connect the shunt and DVM across the power supply output.  
4. Turn the power supply ON.  
5. Apply 1% of program voltage.  
6. Adjust the current limit program offset (R469) until the shunt/DVM indicates  
1% of the model-rated output current. See Note.  
7. Apply 100% of program voltage.  
8. Adjust the current limit program range (R459) until the shunt/DVM indicates the  
model-rated output current. See Note.  
Repeat this procedure until output levels are adjusted to power supply specifications  
(see Section 1) or to the accuracy that your application requires.  
Note:Calculate the required DVM reading using V= IR where V is the DVM  
reading, I is the current, and R is the DC shunt resistance.  
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Calibration  
Calibrating for Readback Accuracy  
Calibrating for Readback Accuracy  
The factory calibrates the offset and range of the output voltage and current monitor  
circuits to within 1% for the default 0-10 Vdc scales. You may need to recalibrate  
when you select the 0-5 Vdc scale or when you switch back to the 0-10 Vdc scale  
after previously calibrating for 0-5 Vdc operation.  
See Section for instructions to remove the cover and any option card. Follow all  
procedure steps in the sequence given.  
Output 1. Ensure that the power supply is turned OFF. Disconnect any load.  
Voltage  
Monitor  
Circuit  
Calibration  
2. Set SW1 switch 5 OPEN to select 0-5 V output voltage monitor range, CLOSED  
for 0-10 V.  
3. Connect a DVM across the power supply output to read the output voltage.  
Connect a second DVM between the rear panel J2 connector terminals 10  
(output voltage monitor) and 9 (voltage monitor signal return).  
4. Turn the power supply ON.  
5. Set the power supply output voltage to 1% of the model-rated output.  
6. Adjust the output voltage monitor offset (R397) until the monitor DVM reads  
1% of the readback scale. (50 mVdc for 0-5 V readback or 100 mVdc for  
0-10 Vdc readback.)  
7. Set the power supply output voltage to the model-rated maximum.  
8. Adjust the output voltage monitor range (R387) until the monitor DVM reads  
100% of the readback scale. (5 Vdc for 0-5 V readback or 10 Vdc for 0-10 Vdc  
readback.)  
Repeat this procedure until the monitor signal is adjusted to power supply  
specifications (see Section 1) or to the accuracy that your application requires.  
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Calibration  
Calibrating for Readback Accuracy  
Output 1. Ensure that the power supply is turned OFF. Disconnect any load.  
Current  
Monitor  
Circuit  
2. Set SW1 switch 6 OPEN to select 0-5 V output current monitor range, CLOSED  
for 0-10 V.  
3. Connect the shunt and DVM across the power supply output to read the output  
current. Connect a second DVM between the rear panel J2 connector terminals  
12 (output current monitor) and 11 (current monitor signal return).  
Calibration  
4. Turn the current control fully counter clockwise, then turn on the power supply.  
5. Set the power supply’s output current to 1% of the model-rated output. See Note.  
6. Adjust the output current monitor offset (R394) until the monitor DVM indicates  
1% of the readback scale. (50 mVdc for 0-5 V readback or 100 mVdc for  
0-10 Vdc readback.)  
7. Set the power supply output current to the model-rated output.  
8. Adjust the output current monitor range (R383) until the monitor DVM indicates  
100% of the readback scale. (5 Vdc for 0-5 V readback or 10 Vdc for 0-10 Vdc  
readback.)  
Repeat this procedure until the monitor signal is adjusted to power supply  
specifications (see Section 1) or to the accuracy that your application requires.  
Note:Calculate the required DVM reading using V= IR where V is the DVM  
reading, I is the current, and R is the DC shunt resistance.  
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Calibration  
Calibrating for Readback Accuracy  
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Xantrex Technology Inc.  
8999 Nelson Way  
Burnaby, British Columbia  
Canada V5A 4B5  
604 422 8595 Tel  
604 421 3056 Fax  
800 667 8422 Toll Free North America  
PRINTED IN CANADA  
TM-F2OP-C1XN  
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