XPR XPR XPR XPR XPR XPR XPR XPR XPR XPR 10-600 20-300 30-200 40-150 60-100 80-75 100-60 150-40 300-20 600-10 Operating Manual XPR 6000 Watt Series Programmable DC Power Supply
Operating Manual for XPR 6000 Watt Series Programmable DC Power Supply
Limited Warranty What does this warranty cover and how long does it last? This Limited Warranty is provided by Xantrex Technology, Inc. (“Xantrex”) and covers defects in workmanship and materials in your XPR 6000 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.
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.
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
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.
Warnings, Warnings, cautions, and notes are defined and formatted in this manual as shown Cautions, below. and Notes 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. Note Describes additional operating information which may affect the performance of the equipment.
About This Manual Who Should Use This Manual This manual is designed for users who understand basic electrical theory, especially as applied 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 making connections to the supply and any changes in settings.
About This Manual viii Operating Manual for XPR Series Power Supply
Contents About This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .ix List of Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii List of Figures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Isolation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Single Load . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Multiple Loads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output Strain Relief/Cover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 42 43 44 Remote Sensing . . . . . . . .
Contents Appendix A. Specifications and Characteristics Electrical Specifications—Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 AC Line Input Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 AC Line Input Voltage Operating Ranges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Output Performance Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents xii Operating Manual for XPR Series Power Supply
List of Tables Release 1.1 Table 1.1 Rear Panel S1 Switch Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Table 1.2 Rear Panel J1 Connector Terminals and Functions . . . . . . . . . . . . . . 23 Table 2.1 Basic Setup Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Table 2.2 AC Wire Specification for 6000 Watt units. . . . . . . . . . . . . . . . . . . . . . 33 Table 2.3 Current Carrying Capacity for Load Wiring . . . . . . . . . . . . . . .
List of Tables xiv Operating Manual for XPR Series Power Supply
List of Figures Release 1.1 Figure 1.1 Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Figure 1.2 Front Panel Display, Status Annunciators . . . . . . . . . . . . . . . . . . . . . . 19 Figure 1.3 Rear panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Figure 1.4 Programming and Monitoring S1 Switch . . . . . . . . . . . . . . . . . . . . . . . 21 Figure 1.
List of Figures xvi Operating Manual for XPR Series Power Supply
Section 1. About The XPR Power Supply Overview The XPR Series of programmable DC power supplies is designed for use in OEM, ATE, burn-in, magnet charging, and other high power systems for a broad range of applications. The XPR uses “Soft Switching” technology which provides superior performance combined with a high level of user control through both front panel and remote interfaces. Features and • Options • • • • • • • • • • • • • Release 1.
About The XPR Power Supply Front Panel Front Panel 1 3 4 5 6 7 8 9 10 11 12 2 1 2 Figure 1.1 Front Panel 1. Rack mount brackets 2. Handles 3. On/Off switch 4. Air intake vents 5. Front panel display. See Figure 1.2, on page 19 for details. 6. Voltage knob: Turn knob to increase or decrease output voltage. 7. Current knob: Turn knob to increase or decrease output current limit. 8. OUT ON/OFF button: Toggle between Output ON and Output OFF. 9.
About The XPR Power Supply Status Annunciators Status Annunciators 11 10 1 2 3 4 5 6 7 8 9 Figure 1.2 Front Panel Display, Status Annunciators 1. AC: The AC input is out of range and has caused the output of the supply to be shut down (red) 2. OTP: The internal Over Temperature Protection threshold has been exceeded, disabling the supply output until the sensors cool to within the normal operating temperature range (red) 3.
About The XPR Power Supply Rear Panel Connectors and Switch Rear Panel Connectors and Switch 2 1 5 3 1 1 4 8 6 7 Figure 1.3 Rear panel 1. Fan Exhaust Vents: Do Not Obstruct. 2. Remote Sensing Ports: From the rear panel point of view, left is negative; right is positive. 3. DC Output: Bus bars are shown. Terminal blocks are used for higher voltages (150 Vdc and higher). 4. Programming, Monitoring and User Line Connector (J1). 5. Programming, Monitoring and Shutdown Select Switch (S1). 6.
About The XPR Power Supply Rear Panel Connectors and Switch 1 Resistive Programming of Output Voltage 2 Resistive Programming of Output Current Limit 3 Selects Output Voltage Programming and Monitor Range select 4 Selects Output Current Limit Programming and Monitor Range select 5 Selects Output Voltage Control: Local or Remote 6 Selects Output Current Control: Local or Remote 7 Selects Remote Interlock Logic 8 Selects Over Temperature Shutdown Reset Mode Figure 1.
About The XPR Power Supply Rear Panel Connectors and Switch Rear Panel J1 The J1 Programming and Monitoring connector is a 15-terminal wire clamp Connector connector located on the power supply’s rear panel. See Figure 1.5.
About The XPR Power Supply Rear Panel Connectors and Switch Table 1.2 Rear Panel J1 Connector Terminals and Functions Pin Reference Name Function In/Output J1-1 VPGM Output Voltage Programming Input Input for voltage programming signals from a voltage source (select S1-5 = ON and: S1-3 = OFF for 0-5 V range S1-3 = ON for 0-10 V range (see Table 4.
About The XPR Power Supply Rear Panel Connectors and Switch 24 Operating Manual for XPR Series Power Supply
Section 2. Installation Overview Section 2 provides recommendations and procedures for inspecting, installing, and testing the power supply. For more information about controls and connectors, refer to the front panel diagram (Figure 1.1) as well as the rear panel diagram (Figure 1.3) in Section 1. Basic Setup Procedure Table 2.1 provides a summary of the setup procedure and an overview of the subsections in this chapter.
Installation Inspection, Cleaning, and Packaging Inspection, Cleaning, and Packaging Initial When you receive your power supply, do a quick visual check. Inspection 1. Ensure that the box contains the power supply, the operating manual, the AC input cover and strain relief, and the output cover. 2. Inspect the unit for scratches and cracks as well as broken switches, connectors, or displays. If the unit is damaged, save all packaging materials and notify the carrier immediately.
Installation Returning Power Supplies to the Manufacturer Returning Power Supplies to the Manufacturer Return Material Authorization Policy 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.
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.
Installation Location, Mounting, and Ventilation Location, Mounting, and Ventilation Use the power supply in rack-mounted applications only. The power supply is designed to fit in a standard 19 in. (483mm) equipment rack. Rack Mounting WARNING- High Energy and High Voltage Ensure that the 8-32 rack mounting screws do not extend more than 1/8 in. (3.0mm) into the sides of the power supply. To install the power supply in an equipment rack: 1. Open the box containing the unit. See Figure 2.2. 2.
Installation Location, Mounting, and Ventilation Figure 2.
Installation Location, Mounting, and Ventilation Figure 2.3 Mounting the Power Supply in the Rack With Support Rails1 Ventilation Allow cooling air to reach the ventilation inlets on the front of the unit and allow 4 in. (10 cm) of unrestricted air space at the rear of the unit for the fan exhaust. Ventilation inlets are located on the top and sides; they are not required, however, and may be blocked, if required.
Installation AC Input Power AC Input Power WARNING Disconnect AC power from the unit before removing the connector cover. Live line voltages may be exposed when the cover is removed. WARNING A safety ground wire must be connected to the unit as shown in Figure 2.4 to ensure operator safety. ! CAUTION When the power switch is turned on, output voltage or current previously set may be applied to loads, depending on the supply configuration.
Installation AC Input Power AC Input Wire The manufacturer recommends the AC input wire specified in Table 2.2. This must be permanently connected to an approved AC distribution box with suitably rated over-current protection. If you require a special cord, contact the manufacturer. Table 2.2 AC Wire Specification for 6000 Watt units AC Input Voltage Range Wire 190–242Vac, 47–63Hz, 3-phase, 4 wire (standard) 4 x 10 AWG (3 wire plus safety ground), stranded copper, 60°C minimum, 300V, 0.800 in.
Installation AC Input Power It is now safe to turn the power supply on. Figure 2.
Installation Basic Tests Basic Tests WARNING The factory setting for Power ON is 0V and 0A. These settings can be changed by end users. If you suspect that the power supply has been used by someone else since it was received from the factory, be prepared for the unit to power ON with a live DC output. The functional test procedures described in this section include power-on and front panel function checks as well as voltage and current mode operation checks. Equipment • Required • Release 1.
Installation Basic Tests Power ON To complete the power on check: Check 1. Ensure that the AC power switch is OFF. 2. Connect the unit to an AC outlet. 3. Turn the front panel AC power switch to ON. After a short power-on delay, the front panel meters and the CV annunciator illuminate. Both voltmeter and ammeter displays should read zero. Check the front panel annunciators. If the ON LED is illuminated, press OUT ON/OFF button to disable the output. The OFF LED should now be illuminated.
Installation Basic Tests Voltage Mode 1. Ensure the voltage and current controls on the front panel are turned fully Operation counter-clockwise. Check 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.
Installation Basic Tests Front Panel 1. Turn the front panel power switch to ON. Function 2. Set voltage and current controls fully clockwise. Push the OUT ON/OFF switch Checks to its IN position and check that the voltmeter reading falls to zero and the OFF (OUTPUT OFF) LED turns on. Push the OUT ON/OFF switch once again to reset it to its OUT position. The OFF LED turns off and the voltmeter reading returns to its previous value. 3. Press the OUT ON/OFF switch to its IN position. 4.
Installation Load Wiring Load Wiring When connecting load wiring to the power supply, consider the following factors: • • • Current carrying capacity of the wire Maximum load wiring length for operation with sense lines Noise and impedance effects of the load lines Current As a minimum, load wiring must have a constant capacity greater than the output Carrying current rating of the power supply. This ensures that the wiring will not be damaged Capacity even if the load is shorted. Table 2.3.
Installation Load Wiring Load Wiring Length for Operation with Sense Lines For applications using remote sensing, or for improved voltage regulation at the load, you must limit the voltage drop across each load line. We recommend that you use larger load wiring to ensure a smaller voltage drop (1V maximum under full load conditions), although units will compensate for up to 5V drop in each line with the remote sense lines connected.
Installation Load Connections Load Connections WARNING Exercise caution when operating the power supply. High energy levels can be stored at the output 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 40V. Filter capacitors store potentially dangerous energy for some time after power is removed.
Installation Load Connections Single Load To connect a single load to the DC output bus bars (5–80V outputs): 1. Ensure that the power supply is powered OFF. 2. Place a 5/16 in. (M8) bolt in the connecting hole of the negative bus bar, and fasten the negative wire or bus bar, a flatwasher, lockwasher, and a nut to the bolt. 3. Using a wrench, turn the bolt until it is secure at approximately 25 foot-pounds (34Nm). 4.
Installation Load Connections Multiple To connect multiple loads in parallel: Loads • Follow the “Single Load” procedure with the following exception: • To minimize interaction between loads, bring the wiring for each load directly back to the supply output. When each load to the power supply is wired separately, the loads will see only the precisely regulated output from the supply. If 2 loads share a single cable, the fluctuation in current to one load will cause the voltage to vary on the others.
Installation Load Connections Output Strain See Figure 2.7 for installation of the output cover. Use this cover to protect users Relief/Cover from accidental contact with the bus bars and to clamp output cables in place. Figure 2.7 Output Bus Bar Cover (Low and Medium Voltage) Figure 2.
Installation Remote Sensing Remote Sensing The power supply regulates the output voltage at the output connectors in its normal configuration without remote sense lines connected. Remote sensing lets the power supply track and regulate the output voltage at the load, and thereby compensate for the voltage drop in the load lines. The power supply will only compensate within the limitations of its voltage rating, to a maximum of 5V per load line.
Installation Remote Sensing 46 Operating Manual for XPR Series Power Supply
Section 3. Operation Overview Once you have installed the power supply and connected both the AC input power and the load as explained in Section 2, the power supply is in its default configuration and is ready to operate in local control mode. Section 3 begins by explaining how to power on and power off the power supply. It then provides information about configuring the power supply, and also gives procedures for operating the supply via the front panel controls.
Operation Power Supply Operating States Power Supply Operating States The power supply has 4 operating states: • • • • Power-On Output Shutdown Soft Start Normal Operation Power-On This is the period between the time that AC power is applied to the supply (AC breaker turned on) and the time that the power supply is ready for operation. During this period, the internal circuits are powering up. Output In this state, the output is disabled and there is no output regardless of power settings.
Operation Power Supply Regulation Modes Power Supply Regulation Modes The power supply has 2 regulation modes while in the Normal Operation State: • • Constant Voltage (CV) Constant Current (CC) The CV and CC annunciators indicate the regulation mode. Constant In this mode, the supply’s output voltage is constant while the current and power Voltage (CV) vary with the load.
Operation Front Panel Controls Front Panel Controls The power supply is shipped ready to operate in local mode using the front panel knobs and function buttons. This section describes the function buttons and control knobs that you use to operate the power supply. (Additional details about the front panel keys, control knobs, and display annunciators are provided in Section 1, “About The XPR Power Supply”.) The next section provides details about configuring and operating the power supply.
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.
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 OUT ON/OFF switch IN. The OFF LED on the front panel turns on. The OVP LED turns off. 3. Press the OUT ON/OFF 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.
Operation Using the Shutdown Function (Output ON/OFF) Using the Shutdown Function (Output ON/OFF) 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 OUT ON/OFF switch.
Operation Over Temperature Protection (OTP) Note If switch S1-7 is ON but there is no signal applied, the INT LED turns on and the power supply will not provide an output until the HIGH signal level is applied. Any of the eight switches on S1 is OFF when it has been flipped up to break contact, ON when flipped down to close contact. 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 S1-8.
Operation User Diagnostics User Diagnostics If your power supply is not performing as described in this 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.
Operation User Diagnostics Table 3.3 User Diagnostics Symptom Check Further Checks and Corrections No output and the display is blank. Is input voltage within specified range? Connect to appropriate voltage source. See page 32. Power switch ON? Turn on power. Internal circuit? See your service technician. OVP LED turned on? See page 51. Front panel INT LED turned on? See page 53. OTP LED turned on? See page 54. Current limit set to zero? See page 49.
Operation Alarms Alarms WARNING- Fire Hazard If an over-voltage, over-current, or over-power protection error persists without apparent cause, press OUT ON/OFF button to disable the output, and turn the AC switch OFF. Inspect the load and power supply for evidence of an electrical fault. The power supply should not be brought back into operation if there is any evidence of an electrical fire or other safety hazards.
Operation Alarms 58 Operating Manual for XPR Series Power Supply
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: • • See “Remote Analog Programming of Output Voltage and Current Limit” on page 61 for procedures covering 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.
Remote Operation Making Connections for Remote Control Making Connections for Remote Control See Figure 4.1 for the locations of the user and programming lines J1 and S1. Figure 4.1 Location of J1 and S1 Remote The interlock input may be configured for use with an external voltage free contact. Shutdown Connect pins as shown: Using a Contact Table 4.
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.
Remote Operation Select Remote Control Function Resistive programming is selected at rear panel switch S1: S1-1 and S1-2 are ON. ! Remote Analog Programming Procedure ! ! CAUTION Before turning on the power supply in resistive programming mode, make sure that the resistors are connected at J1-1 to J1-3 and J1-2 to J1-3.
Remote Operation Select Remote Control Function Table 4.
Remote Operation Remote Monitoring of Output Voltage and Current Remote Monitoring of Output Voltage and Current Readback The J1 connector on the rear panel provides access to calibrated readback signals for Signals remote monitoring of the output voltage and current. Rear panel switches S1-3 and S1-4 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. See Table 4.
Appendix A. Specifications and Characteristics Notes • • • • Release 1.1 These specifications are represented over the full operating temperature range. Nominal line input voltage assumed unless otherwise stated. All sense lines are configured for default local operation. All specifications are subject to change without notice.
Specifications and Characteristics Electrical Specifications—Summary Electrical Specifications—Summary Table A.1Specifications for 6000 Watt units (10V to 60V Models) Models 10-600 20-300 30-200 40-150 60-100 Output Ratings: Output Voltage 1 Output Current 2 Output Power 0–10 V 0–600 A 6000 W 0–20 V 0–300 A 6000 W 0–30 V 0–200 A 6000 W 0–40 V 0–150 A 6000 W 0–60 V 0–100 A 6000 W Line Regulation: 3 Voltage (0.01% of Vmax) Current (0.
Specifications and Characteristics Electrical Specifications—Summary Table A.2Drift Specifications for 6000 Watt units (10V to 60V Models) Models 10–600 20–300 30–200 40–150 60–100 Drift (30 minutes): 1 Voltage (0.04% of Vmax) Current (0.6% of Imax) 4 mV 3600 mA 8 mV 1800 mA 12 mV 1200 mA 16 mV 900 mA 24 mV 600 mA Drift (8 hours): 2 Voltage (0.02% of Vmax) Current (0.04% of Imax) 2 mV 240 mA 4 mV 120 mA 6 mV 80 mA 8 mV 60 mA 12 mV 40 mA Temperature Coefficient: 3 Voltage (0.
Specifications and Characteristics Electrical Specifications—Summary Table A.3Specifications for 6000 Watt units (80V to 600V Models) Models 80–75 100–60 150–40 300–20 600–10 Output Ratings: Output Voltage 1 Output Current 2 Output Power 0–80 V 0–75 A 6000 W 0–100 V 0–60 A 6000 W 0–150 V 0–40 A 6000 W 0–300 V 0–20 A 6000 W 0–600 V 0–10 A 6000 W Line Regulation: 3 Voltage (0.01% of Vmax) Current (0.05% of Imax) 8 mV 37.
Specifications and Characteristics Electrical Specifications—Summary Table A.4Drift Specifications for 6000 Watt units (80V to 600V Models) Models 80–75 100–60 150–40 300–20 600–10 Drift (30 minutes): 1 Voltage (0.04% of Vmax) Current (0.6% of Imax) 32 mV 450 mA 40 mV 360 mA 60 mV 240 mA 120 mV 120 mA 240 mV 60 mA Drift (8 hours): 2 Voltage (0.02% of Vmax) Current (0.04% of Imax) 16 mV 30 mA 20 mV 24 mA 30 mV 16 mA 60 mV 8 mA 120 mV 4 mA Temperature Coefficient: 3 Voltage (0.
Specifications and Characteristics AC Line Input Specifications AC Line Input Specifications The input to the power supply requires the following specifications. AC Line Input Voltage Operating Ranges Table A.
Specifications and Characteristics Output Performance Specifications Output Performance Specifications These specifications define the electrical performance specifications of the power supply output. These specifications apply to both local and remote sense configurations, except where noted. These specifications apply to all programming sources, except where noted. Rated Output Range Voltage 0–100% Current 0–100% Efficiency • • Typical 89% efficiency at nominal line voltage and ambient temperature.
Specifications and Characteristics Output Performance Specifications Programming Accuracy1 Remote Analog Programming Interface Voltage Programming Resistive Programming 1% of V or Imax 2% of V or Imax Readback Accuracy Front Panel or Remote Analog Programming Interface Voltage Readback Current Readback 1% of Vmax 1% of Imax 30 Minute Drift2 Voltage 0.04% of Vmax Current 0.6% of Imax 8 Hour Drift Temperature Stability3 Voltage 0.02% of Vmax Current 0.
Specifications and Characteristics Output Performance Specifications Analog Programming Interface Programming Lines, Impedance 0-5 Vdc range 0-10 Vdc range Approximately 3 MOhm Approximately 3 MOhm Readback Lines, Impedance 0-5 Vdc range 0-10 Vdc range Approximately 400 Ohm Approximately 400 Ohm Isolation, all program and readback lines • non-isolated for standard configuration, referenced to supply “negative” output.
Specifications and Characteristics Output Performance Specifications Fall Time For a programmed 95% to 5% step in output voltage.
Specifications and Characteristics Environmental Specification Maximum Remote Sense Line Drop Compensation Minimum 3.8 V for each line, 5 V typical Isolation AC Input to Output 1350 Vac AC Input to Chassis 1350 Vac Output to Chassis 600 Vac Environmental Specification Thermal Specification Operating Temperature Range 0°C–50°C1 Storage Temperature Range – 40°C–+ 85°C 1. Humidity Specification Consult the factory for operation below 0°C and above 50°C.
Specifications and Characteristics Mechanical Specification Mechanical Specification Weight 6000 W: approx. 75 lb. (34 kg) for 10 V-600 A unit, without packaging Size 21 in. 533 mm 22.8 in. 18.2 in. 579 mm 462 mm 19 in. 483 mm 5.2 in. 133 mm Figure A.
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 prg.info@xantrex.com www.xantrex.
