Xantrex Technology XDC 20-600 Power Supply User Manual
Contents
1. Set Questionable STATus lt channel gt QUEStionable PTRansition See Table 4 15 on page 4 52 Yes Status Positive lt status enable gt Transition Register Query Questionable STATus lt channel gt QUEStionable CURRent COND See Table 4 17 on page 4 53 N A Status Current ition Condition Register Set Questionable STATus lt channel gt QUEStionable CURRent ENAB See Table 4 17 on page 4 53 Yes Status Current le lt status enable gt Enable Register Query Questionable STATus lt channel gt QUEStionable CURRent EVE See Table 4 17 on page 4 53 N A Status Current Nt Event Register Set Questionable STATus lt channel gt QUEStionable CURRent NTRa_ See Table 4 17 on page 4 53 Yes Status Current nsition lt status enable gt Negative Transition Register Set Questionable STATus lt channel gt QUEStionable CURRent PTRa_ See Table 4 17 on page 4 53 Yes Status Current nsition lt status enable gt Positive Transition Register Query Questionable STATus lt channel gt QUEStionable POWer CONDit See Table 4 18 on page 4 53 N A Status Power ion Condition Register Set Questionable STATus lt channel gt QUEStionable POWer ENABle See Table 4 18 on page 4 53 Yes Status Power lt status enable gt Enable Register Query Questionable STATus lt channel gt QUEStionable POWer EVENt See Table 4 18 on2. Figure 1 1 Front Panel 6000 Watt TM XDOP 01XN Table 1 1 Item Descriptions for Figure 1 1 Item Description 1 Rack mount brackets 2 Handles 3 On Off Switch 4 Air intake vents 5 Front panel display vacuum fluorescent display See Figure 1 4 for details 6 Voltage knob 7 Current knob 8 Keypad See Figure 1 3 for details 1 3 About The XDC Power Supply gt TAGE CURRENT Ooo A Y Q EEFE gt Figure 1 2 Front Panel 12000 Watt Table 1 2 Item Descriptions for Figure 1 2 Item Description 1 Rack mount brackets 2 Handles 3 On Off Switch 4 Air intake vents 5 Front panel display vacuum fluorescent display See Figure 1 4 for details 6 Voltage knob Current knob 1 4 Keypad See Figure 1 3 for details TM XDOP O1XN Front Panel D
3. dhis X Golm Cie 7 8 9 PAL Gas eror as 4 5 6 TRIGGER AARM Gow Gea 1 2 3 X gt END G Cixi 2 0 7 CE ENTER MENU J x x a rN 1 2 OIO G1 G2 43 6 do Figure 1 3 Keypad Table 1 3 Item Descriptions for Figure 1 3 Item Description 1 Voltage knob Turn knob to increase or decrease output voltage This is a velocity sensitive rotary encoder 2 Current knob Turn knob to increase or decrease output current limit This is a velocity sensitive rotary encoder The secondary functions for keys 3 5 listed below operate when the power supply is in Auto Sequence 3 VOLTAGE set key View and set voltage output setpoint RUN PAUSE Auto Sequence Program Start a selected program or pause the program 4 CURRENT set key View and set current output setpoint TRIGGER for Auto Sequence Program Apply a trigger when requested This key may also be used to advance to the next step in the program by pressing and holding 5 STORE settings key Save power supply output settings to one of ten locations END Auto Sequence Programming Stop the program The program will star
4. A 14 Size A 14 TM XDOP O1XN B Calibration 6000 Watt only Overview 2 2 eee eee eee eee B 2 Entering Calibration Mode B 3 Front Panel B 3 SCPI 2 57 22 2 ee eee ee B 4 Security code B 5 Setup and Equipment B 6 Front Panel Calibration Procedure B 7 Output Voltage B 7 Output Current B 7 Analog Programming Interface 0 5V Range B 8 Analog Programming Interface Voltage Programming Calibration B 8 Analog Programming Interface Voltage Readback Calibration B 9 Analog Programming Interface Current Programming Calibration B 9 Analog Programming Interface Current Readback Calibration B 10 Analog Programming Interface 0 10V Range B 10 Remote Interface Calibration Procedure B 11 Output Voltage
5. C 6 TM XDOP O01XN xvii xviii Terminating Characters C 7 Common Commands C 7 Parameter Types C 8 SCPI Command Summary C 9 Notations Used in the Tables C 9 Expressions C 33 Error Messages Overview 2 5 eee eee eee eee eee eee eee D 2 Command Error List D 2 Execution Error List D 3 Device Specific Error List D 5 Query Error List D 6 User Request Event D 6 Operation Complete Event D 6 Front Panel Error Codes D 7 CPU Error Codes D 7 Analog Programming Interface Error codes D 7 Auto Sequencing Error Codes D 7 CANbus Error Codes
6. C 12 Commands for Output Control C 13 Commands for Current Share C 15 Commands for Calibration C 16 Command to Clear all Protection Mechanisms C 17 Commands for Fold Protection C 18 Commands for Triggering C 18 System Commands C 19 Status Commands C 20 Protection Commands C 27 User Lines C 27 Output State C 28 Auto Sequence Commands C29 Legacy Commands C 32 Expressions C33 Command Error List D 2 Execution Error List D 3 Device Specific Error List D 5 Query Error List D 6 User Request Event D 6 Operation Complete Event D 6 Front Panel Error Codes D 7 CPU
7. 4 20 Front panel 4 20 SCPI 2 7 2 eee 4 21 Using GPIB 4 21 SCPI Commands for Digital Interfaces 4 22 Set Up Power ON Defaults 4 22 Factory Preset 4 22 Last Setting 4 23 User Setting 4 23 Auto Sequence 4 23 Power On Output State 4 24 Reset 4 24 Store User Settings 4 25 Change Remote Local Control of Power Supply 4 26 Enable Output 4 26 Program V I P 4 27 SCPI 4 27 Configure V I P Protection Limits 4 29 Over Voltage Protection 4 29 Under Voltage Protection 4 29 Over Current Protection 4 30 U
8. 1 3 Display 1 9 Status Annunciators 1 9 Rear Panel 1 11 Overview of Operation 1 12 Power ON 7 1 12 Control Modes 1 12 2 Installation Overview 2 2 Basic Setup Procedure 2 2 Inspection Cleaning and Packaging 2 2 Initial Inspection 2 2 Maintenance 2 3 Packaging for Shipping or Storage 2 3 Location Mounting and Ventilation 2 4 Rack Mounting 2 4 Ventilation 2 6 AC Input Power 2 7 AC Input Connector 2 7 AC Input Wire 2 8 AC Wire Input Connection for 6000 W 2 9 AC Wire Inpu
9. 3 40 Editing Trigger Source of a Sequence 3 41 Using Auto Sequencing 3 42 Configure Display 3 43 Lock Out Control Knobs 3 44 Set V I and P Limits 3 45 Slew Rate 3 49 View Model Information 3 50 Default Display 3 51 View Power Output 3 51 Monitor Status 3 51 4 Remote Operation Overview 4 2 Making Connections for Remote Control 4 3 Remote Analog Operation 4 4 Analog Connections 44 Pin Connections 4 6 Remote Interlock Using a Contact Closure 4 7 Configure Analog Control 4 8 Front Panel 4 8 SCPI 4 9 Using Remote Analog Cont
10. B 11 Output Current B 11 Analog Programming Interface 0 5V Range B 12 Analog Programming Interface Voltage Programming Calibration B 12 Analog Programming Interface Voltage Readback Calibration B 13 Analog Programming Interface Current Programming Calibration B 13 Analog Programming Interface Current Readback Calibration B 14 Analog Programming Interface 0 10V Range B 14 Exit calibration mode B 15 Restore Factory Calibration B 15 C SCPI Command Reference Codes and Standards C2 IEEE 488 2 Requirements C2 SCPI Requirements C 2 TEEE 488 2 SCPI Syntax and Style C 3 Parameters C3 Units of Measure and Multipliers C 3 SCPI Command Hierarchy C 4 Using SCPI Commands C 5 Using Minimum and Maximum C 6 Using Queries
11. 3 18 Toggle Local Remote 3 18 Select Remote Control Source 3 19 Configure Remote Control Source 3 20 Store User Settings 3 21 Change Stored Settings 3 22 TM XDOP O1XN Recall Settings 3 23 Read Error Messages 3 26 Configure User Lines 3 27 Configure Power ON Settings 3 29 Factory Preset 3 30 User Setting 3 31 Last Setting 3 32 Auto Sequence 3 32 Program Auto Sequence 3 33 Programming a Sequence 3 33 Deleting a Sequence 3 36 Editing a Sequence Step 3 37 Inserting a Sequence Step 3 38 Deleting a Sequence Step 3 39 Editing Repeat Times of a Sequence
12. D 8 Multichannel Error Codes D 8 Current Share Error Codes D 9 GPIB Overview 2 22 eee eee eee eee eee eee eee E 2 Codes and Standards E 2 Message Terminators E 2 Address Range E 2 Primary Address E 2 Secondary Address E 2 Service Request and Polling E 2 Protocol Specifications E 3 Multiline Control Functions E 3 Interface Functions E 3 Electrical Specifications E 4 Driver Requirements E 4 TM XDOP 01XN Mechanical Specifications Performance Specifications E 4 Warranty and Product Information WA 1 Indek a a a Meee ne geen papa nee Deen oneereePeeEeaE IX 1 xix TM XDOP 01XN XX Figures Figure 1 1 Figure 1 2 Figure 1 3 Figure 1 4 Figure 1 5 Figure
13. 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 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 outlet Heavy connecting cables must have some form of strain relief so they don t loosen the connections or bend the bus bars Wire Size Isolation Single Load 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 See Figure 2 7 The wire should be one size larger than necessary to accommodate the required output current Normally the next largest commonly used gauge is used For example use 1OAWG for 20A and 8AWG for 30A The wire must have a suitable insulating coating that will prevent arcing between the positive and negative output current and must be rated for 105 C operation To connect a single load to the DC output bus bars 10 150V outputs 1 Ensure that the power supply is powered OFF 2 Plac
14. 0 1 2 Not Used 3 Not Used 9 MEASuring 4 STATus OPERation SHUTdown PROTection Not Used 10 Yj Waiting for TRIGger 5 6 7 8 9 Not Used 11 Not Used Not Used 12 Not Used Not Used 13 L REGulating Summary to Status Not Used 14 SHUTdown Summary Byte Not Used 15 m Remote CONtrol Summary 10 bit 7 Current SHare Summary 11 STATus OPERation RCONtrol Not Used 12 A N Analog Control Voltage 0 Analog Control Current 1 GPIB Control 2 GPIB Control with LLO 3 RS 232 Control 4 5 6 7 8 Not Used 13 PROGram running 14 Not Used 15 RS 232 Control with LLO _ Multi channel Control Multi channel Control with LLO Not Used Not Used 9 Not Used 10 Not Used 11 Not Used 12 Not Used 13 Not Used 14 Not Used 15 STATus OPERation MASTer 0 SLAVe 1 Not Used 2 Not Used 3 Not Used 4 5 6 id 8 STATus OPERation CSHare Not Used Not Used Not Used Not Used Not Used 9 Not Used 10 Not Used 1 Not Used 12 A Not Used 13 fi Not Used 14 Not Used 15 WD TH Figure 4 4 Operation Status Registers TM XDOP 01XN 4 45 Remote Operation Table 4 9 OPERation Status Register Bit Bit Weight Bit Name 0 1 CALibrating 1 2 SETTling 2 4 RANGing
15. TM XDOP O1XN Power Supply Operation Set Power The POWER SETPOINT menu option lets you select the power output limit measured in watts The following table shows how to access and work with the Power Setpoint option The power setpoint is normally at the maximum rating of the power supply in the factory default configuration and does not need to be re set for typical use Step Do This You Will See 1 ERROR MSGS 2 i POWER SETPOINT Press 8 times O SETPO 3 SET HHHH W 4 Use the numeric keypad or arrow keys to enter the value which must be 0 103 of the unit s rated power 5 This saves the value and enables the ENTER new power setpoint Turn Output On or Off Use the OUT ON OFF toggle key to enable or disable the power supply s output When the output is disabled the voltage and current at the output are zero regardless of the setpoints When the output is on and you press OUT ON OFF OUTPUT OFF is momentarily displayed Then the readback is 0000vV 0000A to indicate that output is zero and the OUT OFF annunciator illuminates This is also known as Standby mode When you press OUT ON OFF again the OUT ON annunciator illuminates and the power supply resumes normal operation with the display showing a readback of the output TM XDOP O1XN 3 9 Operation Set Output Protection Seven configurable protection mechanisms are available e OVP Over Voltage Protection Factory default 103 VRATED e UVP Under Vo
16. 14 RMT Power supply is under remote control 15 ALARM Power supply is operating outside the parameters the user set by using PROT SET or the power supply s internal temperature has exceeded an internally set trip point OTP 16 OUT OFF Power supply output is disabled all other circuits are active unit is in standby mode 17 OVP Power supply has exceeded an over voltage trip point 18 Interlock Signals that the external shutdown line the safety interlock line has been activated disabling the supply output 19 OTP Power supply has exceeded an over temperature trip point disabling the supply output 20 OUT ON Output is on 21 Bar graphs Graphical representation of output voltage current and power 22 CV CC CP Power supply is in constant voltage mode constant current mode or constant power mode 1 10 TM XDOP O1XN Rear Panel A a iG o ver
17. 2 Ensure that the box contains the power supply the operating manual the AC input cover and strain relief and the output cover Inspect the unit for scratches and cracks as well as broken switches connectors or displays TM XDOP 01XN Inspection Cleaning and Packaging If the unit is damaged save all packaging materials and notify the carrier immediately Follow the instructions in Warranty and Product Information and the instructions on page 2 3 to return the unit Maintenance Routine servicing of the power supply is not required except for periodic cleaning Whenever a unit is removed from operation clean the metal surfaces with naphtha or an equivalent mild solvent and clean the front panel with a damp cloth using a weak solution of soap and water Use low pressure compressed air to blow dust from in and around vent openings and components on the printed circuit boards Packaging for Shipping or Storage Follow these instructions to prepare the power supply for shipping or storage 1 When returning the unit or sending it to the service center attach a tag to the unit stating its model number located on the front panel label and serial number located on 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 and shipping repack the power supply in its original container If the original container is not availabl
18. GPIB setting is saved TM XDOP 01XN SCPI Using GPIB TM XDOP 01XN GPIB Operation To set up GPIB control parameters SYST COMM GPIB ADDR lt GPIB address gt where e the GPIB address may be in the range 1 to 30 To configure the unit to generate a power on service request SYST COMM GPIB PONS ON OFF To select GPIB as the remote control source SYST REM SOUR GPIB Sending a GPIB command should put the power supply in remote mode with the RMT annunciator lit Refer to the manual for your GPIB interface card Commands to change remote and local mode will be specific to that card Press the LCL RMT button to return to local mode except if the power supply is in LLO local lockout state Remote Operation SCPI Commands for Digital Interfaces These SCPI commands are for use with GPIB RS 232 and Multichannel remote digital interfaces Set Up Power ON Defaults For a complete list of commands and remote functionality see Appendix C SCPI Command Reference The Power On configuration can be set with one of 4 options e Factory Preset The output is reset to the original factory levels at power on e Last Setting The output is set to the same levels as when it was last powered OFF e User Settings The output is set to a stored setting that is recalled from memory See Store User Settings on page 3 21 e Auto Sequence The output is controlled by a program that is recalled from memory
19. STATus QUEStionable CURRent 2 3 Not Used 4 5 6 7 8 Not Used Not Used Not Used Not Used Not Used 9 Not Used 10 Not Used 11 Not Used 12 Not Used 13 Not Used 14 Not Used 15 VOLTage Summary CURRent Summary Not Used POWer Summary g STATus QUEStionable 2 3 TEMPerature Summary 4 5 6 7 8 Over POWer Under POWer Not Used 0 1 2 Not Used 3 Not Used AN Not Used 4 CALibration 5 6 7 8 STATus QUEStionable POWer Not Used Not Used Not Used Not Used 9 to eae Not Used Not Used 10 an Not Used AC Off 11 Not Used UNRegulated 12 Not Used 9 Not Used 13 Not Used 10 Not Used 14 Not Used 11 Not Used 15 Not Used 12 Not Used 13 Not Used 14 Not Used 15 Over TEMperature 0 High TEMperature 1 Not Used 2 Not Used 3 Not Used 4 5 6 7 8 STATus QUEStionable TEMPerature Not Used Not Used Not Used Not Used Not Used 9 Not Used 10 Not Used 11 Not Used 12 Not Used 13 Not Used 14 Not Used 15 Figure 4 5 Questionable Status Registers TM XDOP 01XN 4 51 Remote Operation Table 4 15 QUEStionable Status Register Bit BitWeight Bit Name 0 1 VOLTage Summary 1 2 CURRent Summary 2 4 TIME 3 8 POWer Summary 4 16 TEMPerature Summa
20. To change setpoints SOUR VOLT lt voltage gt SOUR CURR lt current gt SOUR POW lt power gt To check setpoints SOUR VOLT SOUR CURR SOUR POW To set a triggered setpoint SOUR VOLT 1 SOUR CURR 1 TRIG lt voltage gt TRIG lt current gt SOUR POW TRIG lt power gt See Triggering Commands on page 4 36 for more information To check a triggered setpoint SOUR VOLT 1 SOUR CURR 1 SOUR POW TRIG To set limits SOUR SOUR SOUR SOUR SOUR SOUR TRIG TRIG HIGH lt voltage gt OW lt voltage gt VOLT LIM VOLT LIM CURR LIM CURR LIM POW POW HIGH lt current gt XOW lt current gt LIM HIGH lt power gt LIM LOW lt power gt If the high end of the range was set to 5 volts the command SOUR VOLT 10 would return an error TM XDOP 01XN 4 27 Remote Operation To check ranges SOUR VOLT LIM HIGH SOUR VOLT LIM LOW SOUR CURR LIM HIGH SOUR CURR LIM LOW SOUR POW LIM HIGH SOUR POW LIM LOW Example To set voltage to 5 5V and current limit to 100A send the command VOLT 5 5 CURR 100 Then check the output POW MEAS VOLT 5 500 example readback default unit V MEAS CURR 0 MI 010 example readback default unit A BAS 0 005 example readback default unit W TM XDOP O1XN SCPI Commands for Digital Interfaces Configure V I P Protection
21. 0 D NXT0 dOdX WL Table G 14 Auto Sequence Commands Function SCPI Command Description Query Program selected PROGram lt channel gt SELected STEP lt step_numb Edit program step voltage of Yes sequence step er gt VOLTage lt voltage gt selected sequence voltage Program selected PROGram lt channel gt SELected STEP lt step_numb Edit program step power of Yes sequence step er gt POWer lt power gt selected sequence power Program selected PROGram lt channel gt SELected STEP Edit program step OVP level of Yes step OVP lt step_number gt OVP lt OVP_level gt selected sequence Program selected PROGram lt channel gt SELected STEP lt step_numb Edit program step time or Yes sequence step time er gt DWEL1 lt step_time gt TRIG triggering of selected sequence Program selected PROGram lt channel gt SELected TRIGger SOURce Edit program trigger source of Yes sequence trigger BUS MANual ExXTernal IMMediate selected sequence source Program selected PROGram lt channel gt SELected REPeat Edit program end action of Yes sequence end action lt sequence_count gt ONCE FORever INFinity selected sequence Read specific PROGram lt channel gt SEQuence lt sequence_number gt Read number of programmed Yes sequence number of STEP COUNt steps in specific sequence
22. 3 8 SWEeping 4 16 MEASuring 5 32 Waiting for TRIGger Summary 6 64 Waiting for ARM Summary 7 128 CORRecting 8 256 REGulating Summary 9 512 SHUTdown Summary 10 1024 Remote CONtrol Summary 11 2048 Current SHareSummary 12 4096 Not Used 13 8192 INSTrument Summary 14 16384 PROGram Running 15 32768 Not Used 4 46 Description Indicates that the supply is in CALibration Mode Not implemented Not implemented Not implemented Not implemented Indicates if the supply is waiting for a TRIGger Not implemented Not implemented Reflects the summary of the REGulating Sub Register Reflects the summary of the SHUTdown Sub Register Reflects the summary of the Remote CONtrol Sub Register Reflects the summary of the Current Share Sub Register Not used Not implemented Indicates that an Automated Sequence is running Not used TM XDOP O1XN SCPI Commands for Digital Interfaces REGulating Sub Register This describes the regulating mode If none of these bits is active the output unregulated UNRegulated bit is active in the questionable status register Table 4 10 REGulating Sub Register Bit Bit Weight BitName Description 0 1 CV The power supply is regulating in Constant Voltage mode 1 2 CC The power supply is regulating in Constant Current mode 2 4 CP The power supply is regulating in Constant Power mode SHUTdown Sub Register Describes the cause of the power supply shutting down More than one bit may
23. The voltage or current readback or setpoint values passed are out of range Current share slave output off by unknown One of the slave s output is off because of unknown reasons Current share slave output off by command One of the slave s output is off because of a command from a remote source or the front panel Current share slave output off by AC fail One of the slave s output is off because of an AC fail condition Current share slave output off by OTP Over Temperature Protection One of the slave s output is off because of an OTP condition D 9 GPIB Appendix E describes the General Purpose Interface Bus GPIB commands and lines supported by this model GPIB Overview This power supply can be programmed from a remote terminal using a General Purpose Interface Bus GPIB interface Communications over the GPIB interface meet IEEE 488 2 standards and are SCPI compliant Codes and Standards The GPIB interface of the this Programmable DC Power Supply has been implemented according to IEEE standard 488 1 1987 IEEE Standard Digital Interface for Programmable Instrumentation The communications protocol complies with IEEE 488 2 1992 Message Terminators The GPIB End of message EOM terminators can be the END message EOD the ASCII code for line feed LF or both The power supply terminates responses with line feed LF Address Range Primary Address The power supply will respond to any GPIB
24. 2 CURRENT Lets you pre set a setpoint before enabling it To pre set a current setpoint press CURRENT use the Current knob or the numeric keypad to enter a value and then press ENTER to enable it See Set Current on page 3 8 This output can be changed while the output is OFF 3 STORE Lets you save power supply settings See Store User Settings on page 3 21 3 5 Operation Menu Navigation OUT ON OFF This is a toggle key that enables and disables the power supply output Normally you should leave the power supply in its Output Off state when no load is attached or there is no need for DC output See Turn Output On or Off on page 3 9 When the Out On annunciator is illuminated the output is on When the Out Off annunciator is illuminated the output is off 5 LCL RMT This key lets you toggle between local and remote control If the RMT annunciator is illuminated press LCL RMT to return control to the front panel if local mode has been enabled by the controller See Toggle Local Remote on page 3 18 PROT SET Lets you view and set protection setpoints See Set Output Protection on page 3 10 RECALL Lets you apply stored power supply settings See Recall Settings on page 3 23 EXIT Lets you cancel an operation or leave Calibration mode or Auto Sequence mode Four keys allow you to access many functions available on the menu These keys are MENU ENTER and the U
25. 3 PROT SET ALARMS PROT SET Press repeatedly ENTER Use the arrow keys or the numeric keypad to select the value None CC CV CP ENTER Use the arrow keys or the numeric keypad to select the delay time ENTER You Will See OVP SET 0V Fold SD Mode Fold on Delay Os This setting is saved TM XDOP O1XN Power Supply Operation Set Shutdown Recovery for AC Off and OTP The Shutdown Recovery menu offers 2 options for AC Off ACO and Over Temperature protection OTP Auto Recovery With this method the power supply returns to its normal operating state once the alarm condition no longer exists For example if there was an over temperature alarm and the protection was set to auto recovery the power supply would return to its normal operating state once the temperature was reduced below the alarm level Latched With this method the power supply remains in Shutdown state until the operator manually clears the protection level and manually turns the output back on You can set either or both the OTP and AC Off to Auto Recovery or Latched To set both OTP and AC Off to Auto Recovery Step Do This You Will See 1 env ERROR MSGS 2 Cv 3 times S D RECOVERY 3 OTP Latched 4 Cw OTP AutoRecov 5 ENTER ACO AutoRecov ENTER oe OTP is set to Auto Recovery 6 ACO remains set to Auto Recovery and the S TM XDOP 01XN display returns to its default operating mode You can also press
26. 300 40 0 300 V 0 40 A 12000 W 30 mV 40 mA 155 mV 120 mA 450 mV 200 mA 250 mV 30 mV 100 mA 0 309 V 0 91 120 mV 240 mA 60 mV 20 mA 120 mV 24mA 600 20 0 600 V 0 20 A 12000 W 60 mV 20 mA 305 mV 80 mA 900 mV 100 mA 350 mV 80 mV 50 mA 0 618 V 0 91 240 mV 120 mA 120 mV 16mA 240 mV 12mA Specifications and Characteristics AC Line Input Specifications The input to the power supply requires the following specifications AC Line Input Voltage Operating Ranges Operating Range nominal 208V ms Standard 190 to 242 Vc 3 o 3 wire safety ground nominal 400V ms with HV Input option 342 to 500 Ve 3 b 3 wire safety ground Frequency Range 47 to 63 Hz Maximum Peak In rush Current at turn on nominal 208V Standard 35 Arms 6000 Watt 70 Ams 12000 Watt nominal 400V ms with HV Input option 19 A 6000 Watt 38 Aims 12000 Watt Minimum Power Factor nominal 208V Standard 0 95 nominal 400V ms with HV Input option 0 9 Operating Current nominal 208V ms Standard Maximum 24 A 6000 Watt 48 A 12000 Watt Typical 20 A 6000 Watt 40 A 12000 Watt Operating Current nominal 400V with HV Input option Maximum 13 A 6000 Watt 26 A 12000 Watt Typical 11 A 6000 Watt 22 A 12000 Watt At nominal input voltage and maximum power At 190V input voltage 55 C ambient temperature and maximum power At 208V input voltage 25 C
27. 68 Voltage Sub Register Commands 4 69 Current Sub Register Commands 4 70 Power Sub Register Commands 4 71 Temperature Sub Register Commands 4 72 Current Sharing Overview eee ee eee eee eee eee eee ee 5 2 Setting up Current Sharing 5 3 Operation 5 5 Errors 2 0 eee ee eee eee 5 6 CANbus Specifications 5 6 Specifications and Characteristics Electrical Specifications Summaty A 2 AC Line Input Specifications A 6 AC Line Input Voltage Operating Ranges A 6 Output Performance Specifications A 7 Environmental Specification A 12 Thermal Specification 7 A 12 Humidity Specification A 12 International Approvals A 13 Mechanical Specification A 14 Weight
28. An 8 bit status mask for the Standard Event Status Register that determines which bits are OR d to form the ESB bit in the Status Byte Register GPIB_address The address for a GPIB controlled unit An integer value in the range 1 to 30 on off state A Boolean indicator of a state Possible values are ON OFF 0 off or 7 on OVP_level A numeric value as defined by SCPI May also be MAXimum or MINimum May include voltage related suffix units such as mV uV V etc Range is 0 to 103 of model s rated voltage suolsseidxy ve 9 NXT0 dOdX WL Table G 16 Expressions Expression Details power A numeric value as defined by SCPI May also be MAXimum or MINimum May include power related suffix units such as mW uW W etc Range is 0 to 101 of model s rated power setting location A numeric indication of an internal set of setting registers An integer value in the range to 10 sequence_count Number of times a sequence is to be repeated Range is 1 to 9999 sequence_number The name of an auto sequence program Range is to 10 The suffix is part of the SEQUENCE command name and is not a parameter status enable A 16 bit status mask for any condition register that determines which bits are to be used for synthesizing the summary bit of that register step_number The step number of an auto sequence program Possibly
29. Maximum calibration level The power supply will automatically set the voltage readback lines to approximately 90 of full scale Enter voltage data Enter the voltage across the voltage readback lines read from the external DVM Press ENTER Power supply calculates and stores calibration constants The menu will go to the 5V analog current programming calibration menu Analog Programming Interface Current Programming Calibration TM XDOP 01XN 1 Connect the power source across the current programming lines Pins B4 and B1 GND Attach a DVM across the current programming lines as well Enter 5V analog current programming calibration menu Select ANLG I PGM 5V from the calibration menu Press ENTER You will be prompted to set up for calibration Press ENTER when ready Minimum calibration level Set the input to the programming lines to approximately 0 5V 10 of full scale Enter voltage data Enter the voltage at the current programming lines read from the external DVM Press ENTER Maximum calibration level Set the input to the programming lines to approximately 4 5V 90 of full scale Enter voltage data Enter the voltage at the current programming lines read from the external DVM Press ENTER B 9 Calibration 6000 Watt only 7 Power supply calculates and stores calibration constants 8 The menu will go to the 5V analog current readback calibration menu Analog Programming Interface Current Readback Ca
30. PON Reserved Description Set if KOPC command has been received and all pending operations have been completed The message Event 800 Operation Complete is loaded into the Error Event Queue Not implemented Always set to 0 Set if an attempt is being made to read data from the output queue when no output is either present or pending Suggests that data in the output queue has been lost See Query Error List on page D 6 for possible error codes Set if there is a device specific error See Device Specific Error List on page D 5 for possible error codes Set if a program data element following a header was evaluated by the power supply as outside of its legal input range or is otherwise inconsistent with the power supply s capabilities Suggests that a valid program message could not be properly executed due to some power supply condition See Execution Error List on page D 3 for possible error codes Set if an IEEE488 2 syntax error has been detected by the parser an unrecognized header was received or a group Execute Trigger was entered into the input buffer inside an IEEE 488 2 program message See Command Error List on page D 2 for possible error codes Set if the bit is unmasked and the instrument wishes to support a 488 2 user request event An event occurs when the instrument detects the activation of a user request local control The message Event 600 User Request is loaded into t
31. Power Programming 0 1 of Pmax C Voltage Readback 0 04 of Vmax C Current Readback 0 06 of Imax C Power Readback 0 1 of Pmax C Remote Analog Programming Interface Voltage Programming 0 04 of Vmax C Current Programming 0 06 of Imax C Voltage Readback 0 04 of Vmax C Current Readback 0 06 of Imax C Analog Programming Interface Programming Lines Impedance 0 5 V 4c range gt 30 kOhm 0 10 V4 range gt 30 kOhm Readback Lines Impedance 0 5 V 4c range lt 500 Ohm 0 10 V4 range lt 1 kOhm Isolation all program and readback lines 58 Vdc with respect to chassis potential 1 At 25 C 45 C with full power load 2 At 25 C 5 C after 30 minutes full load operation TM XDOP 01XN A 9 Specifications and Characteristics User Line Interface Includes auxiliary status lines interlock and external trigger lines Maximum Current Sink Capability Each Output 10 mA Maximum Supply Voltage 15 Vac Minimum Supply Voltage 4 Vac Isolation 300 Vdc with respect to chassis potential or negative output Switching Frequency Typical 31 kHz 62 kHz output ripple Rise Time 5 to 95 step in output voltage Load Condition Time Max No Load 100 ms Full Load 100 ms Fall Time For a programmed 95 to 5 step in output voltage Load Condition Time Max No Load 3s Full Load 50 ms a Fall time is lt 4s for 300 V and 600 V units Time Delay From Power On Until Output Stable 5 s maximum Within reg
32. SREQuest ENABle lt status enable gt STATus lt channel gt SREQuest ENABle Parallel Poll Enable Register Each of the 16 bits in the Parallel Poll Enable register correspond to bits in the Status Byte Each bit in the Parallel Poll Enable register is ANDed with its corresponding bit in the Status Byte and the resulting bits are ORed together to generate ist Therefore using the parallel poll enable register allows any single bit or combination of bits to control the ist message The Power on Status Clear command determines if the Parallel Poll Enable Register is cleared at power on E g Sending PRE 8 sets bit 3 of the Parallel Poll Enable Register This will cause the Summary bit of the Questionable Status register bit 3 in the Status Byte to generate a TRUE ist message whenever it gets set Command PRE lt status enable gt PRE Status Byte The status byte query will return the contents of the status byte register and the MSS Master Summary Status message The response is in the format of a weighted decimal value representing the status byte register and the MSS message bit 6 Thus the response to STB is identical to the response to a serial poll except that the MSS message appears in bit 5 in place of the RQS message See Status Byte on page 4 55 for details Command STB SCPI equivalent STATus SBYTe EVENt TM XDOP O1XN SCPI Commands
33. Set Low Voltage SOURce lt channel gt VOLTage LIMit LOW Set lower limit of voltage setpoint Yes Limit lt voltage gt MAXimum MINimum range soft limits Table C4 Contrands for Current Share Set Current Sharing SOURce lt channel gt COMBine CSHare MODE Select current share mode Yes Mode NONE MASTer SLAVe Read Summed MEASure SCALar CURRent DC SUM Read total current output of all N A Current current sharing supplies Ayeuiuing puewwos 149s P a NXT0 dOdX WL Table C5 Comrrands for Calibration Restore Factory CALibration lt channel gt RESTore Restore the calibration to the N A Calibration constants set at the factory Change Calibration CALibration lt channel gt SECure CODE Change the calibration security No Password lt codeword gt code Set Calibration CALibration lt channel gt SECure STATe lt on Change calibration state mode Yes State off state gt lt codeword gt Set Analog Current CALibration lt channel gt ANALog lt 5V 10V gt PROG Set analog programming current No Programming Input ram CURRent LEVel MINimum MAXimum calibration level Level Enter Analog CALibration lt channel gt ANALog Set analog programming current No Current 5V 10V PROGram CURRent DATA lt current gt calibration data Programming Input Data Se
34. The inputs to the programming lines should be approximately 1V for the minimum calibration level and 9V for the maximum calibration level TM XDOP O01XN Exit calibration mode Exit calibration mode When you have completed calibration hit the EXIT key The SCPI command is CAL STAT OFF 0000 Restore Factory Calibration TM XDOP 01XN To restore the unit to the calibration constants set at the factory Step Do This You Will See 1 Output V Cal 2 Cv Si a Factory Cal Scroll to select Factory Cal 3 Select Y to Restore the factory Restore Y calibration Selecting N will exit The SCPI command is CALibration RESTore Important This procedure should not be used in place of regular calibration but may be useful to restore the unit to an operational state in case of failure SCPI Command Reference Appendix C provides a summary of the Standard Commands for Programmable Instruments SCPI that are supported by the this Programmable Power Supply SCPI Command Reference Codes and Standards This power supply conforms to the following international standards IEEE Std 488 2 1992 IEEE Standard Codes Formats Protocols and Common Commands For Use With IEEE Std 488 1 1987 IEEE Std 488 1 1987 IEEE Standard Digital Interface for Programmable Instrumentation TIA EJA 232F Standard Commands for Programmable Instruments SCPI Version 1997 0 IEEE 488 2 Requirements GPIB c
35. This shows whether the present current level is over or under the specified trip limit Table 4 17 CURRent Sub Register Bit Bit Weight Bit Name 0 1 Over CURrent 1 2 Under CURrent POWer Sub Register Description Set if the supply s output current is greater than the user specified over current trip level variable trip limit and the supply is in Operation state Set if the supply s output current is less than the user specified under current trip level variable trip limit and the supply is in Operation state This shows whether the present power level is over or under the specified trip limit Table 4 18 POWer Sub Register Bit Bit Weight Bit Name 0 1 Over POWer 1 2 Under POWer TM XDOP 01XN Description Set if the supply s output power is greater than the user specified over power trip level variable trip limit and the supply is in Operation state Set if the supply s output power is less than the user specified under power trip level variable trip limit and the supply is in Operation state 4 53 Remote Operation TEM Perature Sub Register This shows whether the temperature of critical components is near or over the maximum operating temperature Table 4 19 TEM Perature Sub Register Bit Bit Weight Bit Name 0 1 Over TEMperature 1 2 High TEMperature Standard Event Status Register Description Set if the power supply temperature exceeds the maximum operating temperature Set i
36. insulation from the wires and clamp securely at the appropriate pin See Table 4 1 Figure 4 1 and Table 4 2 for the location and function of each connector Use shielded twisted pairs of 22 24AWG for signal connections TM XDOP O1XN Radiated emissions TM XDOP 01XN Remote Analog Operation Add a ferrite block to the analog program lines and the user lines to reduce radiated emissions The 1 square inch ferrite block with built in housing clip is packaged and shipped with the power supply Position the block no more than 2 50mm from the power supply end of the analog program and user lines The ferrite block is required for the power supply to meet radiated emissions requirements for CE Mark approval J210 connector J210 cable Ferrite Block To user interface Max 5 cm 1 4 5 Remote Operation Pin Connections Table 4 1 User Line Pins Pin Function Input Output Al Aux Status Line A Output A2 Aux Status Line B Output A3 External Trigger 4 12V Input A4 Safety Interlock Shutdown 4 12V Input A5 Safety Interlock Shutdown GND Input A6 User Power 5 12Vdc Input A7 User Ground Input CHASSIS POTENTIAL VCC_USER ISOLATED USER LINES a gi R24 U4 4K65 R30 4 5 AUX_ STATUS_ A Al 5 A2 USER_LINE1 51 E 4 EXTERNAL TRIGGER AS envi7z2 INTERLOCK CA
37. length 2 16 noise and impedance 2 17 local control mode described 1 12 local lockout 4 26 local mode changing 4 26 locking out voltage and current knobs 3 44 M maintenance 2 3 Master display annunciator 1 10 menu navigation 3 6 menu items AUTO SEQ PGM 3 6 CALIBRATION 3 7 CURRENT SHARE 3 6 DISPLAY CFG 3 7 ERROR MSGS 3 6 KNOB LOCKOUT 3 7 IX 3 Index MODEL INFO 3 7 PON CONFIG 3 6 POWER SETPT 3 6 REMOTE CONFIG 3 6 REMOTE SELECT 3 6 S D RECOVERY 3 6 SETPT LIMIT 3 7 SLEW RATE 3 7 USER LINES 3 6 MENU key 1 6 MODEL INFO menu item 3 7 3 50 model information viewing 3 50 multichannel commands 4 15 configuration 4 12 connections 1 2 control mode described 1 12 operation 1 11 4 14 setup 4 13 multiple loads connecting 2 19 noise and impedance on lines 2 17 normal operation operating state 3 3 numeric keypad described 1 6 O operating states calibration 3 3 normal operation 3 3 output shutdown 3 3 power on 3 3 soft start 3 3 operation control modes 1 12 overview 1 12 power on 1 12 operation local control mode 3 2 powering off 3 2 powering on 3 2 operation complete event error D 6 OTP display annunciator 1 10 OUT OFF display annunciator 1 10 OUT ON display annunciator 1 10 OUT ON OFF key 1 5 3 6 output IX 4 enabling 4 26 setting current 3 8 setting power 3 9 output shutdown operating state 3 3 output wires fastening 2 19 illustrated 2 19 over temper
38. or voltage current and power see Configure Display on page 3 43 The display also shows the Regulation mode CV CC or CP Bar graphs represent the percentage of full voltage current and power being output by the supply View Power Output To see the present power output in watts press the Up arrow key The output power appears on the display After a few seconds the display shows the voltage and current output again Monitor Status The front panel display has a large number of indicators and annunciators See Display and Status Annunciators on page 1 9 TM XDOP 01XN 3 51 Operation 3 52 TM XDOP O1XN Remote Operation Chapter 4 provides an overview of how to use remote analog control gives information on the setup and use of Multichannel functionality and explains how to send commands to the power supply using the SCPI programming language Remote Operation Overview 4 2 In addition to front panel operation the power supply can be operated remotely through the following interfaces e Analog 0 to 5V 0 to 10V e RS 232 e GPIB with optional GPIB CANbus card e Multichannel with optional GPIB CANbus card The connecting ports for these interfaces are shown in Figure 1 6 and Figure 4 1 The remote interfaces except for the analog programming interface accept commands in 2 formats IEEE 488 2 common commands and SCPI commands SCPI commands that are aliases for the IEEE 488 2 common
39. procedure Output Voltage Set the load to open circuit Attach a DVM across the output terminals 2 Minimum calibration level Set the output voltage to 10 by sending the command CAL OUTP VOLT LEV MIN 3 Enter voltage data Enter the voltage read from the external DVM CAL OUTP VOLT DATA lt voltage gt 4 Maximum calibration level Set the output voltage to 90 by sending the command CAL OUTP VOLT LEV MAX 5 Enter voltage data Enter the voltage read from the external DVM CAL OUTP VOLT DATA lt voltage gt 6 Power supply calculates and stores calibration constants Output Current 1 Set the power supply and load operate at full output You must ensure the power supply is operating in current mode during current calibration Place a shunt on the load line so that you can measure the current Attach a DVM across the shunt 2 Minimum calibration level Set the output current to 10 by sending the command CAL OUTP CURR LEV MIN 3 Enter current data Enter the current read from the external DVM via the shunt CAL OUTP CURR DATA lt current gt 4 Maximum calibration level TM XDOP 01XN Set the output current to 90 by sending the command CAL OUTP CURR LEV MAX Calibration 6000 Watt only 6 Enter current data Enter the current read from the shunt via the external DVM CAL OUTP CURR DATA lt current gt Power supply calculates and stores calibration constants Analog Programming Interface 0 5V Range
40. steps Delete a specific PROGram lt channel gt SEQuence lt sequence_number gt The specific sequence is deleted N A sequence DELete Delete specific PROGram lt channel gt SEQuence lt sequence_number gt Delete a specific sequence step N A sequence step STEP lt step_number gt DELete Edit specific PROGram lt channel gt SEQuence lt sequence_number gt Edit a specific sequence step Yes sequence step STEP lt step_number gt EDIT L lt voltage gt lt current gt lt power gt lt OVP_level gt lt time gt TRIG Insert step into PROGram lt channel gt SEQuence lt sequence_number gt Insert a step into a specific N A specific sequence STEP lt step_number gt INSert lt voltage gt lt current gt lt power gt lt OVP_level gt lt step_ time gt TRIG sequence BDUAAJOY PULWWOD 1dDS NXT0 dOdX WL TE Table C 14 Auto Sequence Commands Function SCPI Command Description Query Program specific PROGram lt channel gt SEQuence lt sequence_number gt Edit program step current of Yes sequence step STEP lt step_number gt CURRent lt current gt specific sequence current Program specific PROGram lt channel gt SEQuence lt sequence_number gt Edit program step voltage of Yes sequence step STEP lt step_number gt VOLTage lt voltage gt specific sequence voltage Program speci
41. 13 on page 4 49 Yes Remote Control lt status enable gt Enable Register Query Operation STATus lt channel gt OPERation RCONtrol EVENt See Table 4 13 on page 449 N A Status Remote 2 Control Event Register Set Operation Status STATus lt channel gt OPERation RCONtrol NTRans_ See Table 4 13 on page 4 49 Yes Remote Control ition lt status enable gt Negative Transition Register Set Operation Status STATus lt channel gt OPERation RCONtrol PTRans_ See Table 4 13 on page 4 49 Yes Remote Control ition lt status enable gt Positive Transition Register Query Operation STATus lt channel gt OPERation REGulating COND See Table 4 10 on page 4 47 N A Status Regulating ition Condition Register Set Operation Status STATus lt channel gt OPERation REGulating ENAB See Table 4 10 on page 4 47 Yes Regulating Enable le lt status enable gt Register Ayewuiuing puewwos 149s NXT0 dOdX WL Function SCPI Command Description Query Query Operation 3 ATus lt channel gt OPERation REGulating EVE See Table 4 10 on page 4 47 N A Status Regulating Nt Event Register Set Operation Status STATus lt channel gt OPERation REGulating NTRa See Table 4 10 on page 4 47 Yes Regulating nsition lt status enable gt Negative Transition Register Set Operation Status ST
42. 446 Yes Negative Transition lt status enable gt Register Set Operation Status STATus lt channel gt OPERation PTRansition See Table 4 9 on page 446 Yes Positive Transition lt status enable gt Register Query Operation STATus lt channel gt OPERation CSHare CONDitio See Table 4 14 on page 4 50 N A Status Current n Sharing Condition Register Set Operation Status STATus lt channel gt OPERation CSHare ENABle See Table 4 14 on page 4 50 Yes Current Sharing lt status enable gt Enable Register Query Operation STATus lt channel gt OPERation CSHare EVENt See Table 4 14 on page 4 50 N A Status Current Sharing Event Register BDUSAJOY PULWWOD 14S NXT0 dOdX WL T 9 Table C10 Status Commands Set Operation Status STATus lt channel gt OPERation CSHare NTRansit See Table 4 14 on page 4 50 Yes Current Sharing ion lt status enable gt Negative Transition Register Set Operation Status STATus lt channel gt OPERation CSHare PTRansit See Table 4 14 on page 4 50 Yes Current Sharing ion lt status enable gt Positive Transition Register Query Operation STATus lt channel gt OPERation RCONtrol CONDit See Table 4 13 on page 4 49 N A Status Remote ion Control Condition Register Set Operation Status STATus lt channel gt OPERation RCONtrol ENABle See Table 4
43. 6 LCL RMT 1 5 3 6 MENU 1 6 OUT ON OFF 1 5 3 6 PROT SET 1 5 3 6 RECALL 1 6 3 6 STORE 1 5 3 5 VOLTAGE 3 5 G General Purpose Interface Bus See GPIB GPIB configuration 4 20 connection 4 19 electrical specifications E 4 location 4 3 mechanical specifications E 4 performance specifications E 4 protocol specifications E 3 using 4 21 GPIB control mode described 1 12 GPIB port 1 11 ground screw 1 11 identification 4 42 TEC viii A 13 IEC symbols Caution ix Earth Ground Terminal ix Off supply ix On supply ix Protective Conductor Terminal ix Warning Shock Hazard ix incorrect code B 3 information about your power supply 3 50 4 42 Information about Your System form WA 4 input connector 2 7 input power 2 7 input wires connecting 2 13 recommended size 2 8 specifications 2 8 2 10 2 12 installation AC input power 2 7 connecting multiple loads 2 19 TM XDOP 01XN Index connecting single load 2 18 inspecting the power supply 2 2 load wiring 2 16 location 2 4 mounting 2 4 rack mounting 2 4 tests 2 13 ventilation requirements 2 6 Interlock display annunciator 1 10 inverter purchase date WA 4 serial number WA 4 K keypad illustrated 1 3 1 4 1 5 KNOB LOCKOUT menu item 3 7 3 44 L LCL display annunciator 1 10 LCL RMT key 1 5 3 6 limits changing setpoint 3 45 load connections illustrated 2 19 wire size 2 18 load wiring current carrying capacity 2 16
44. 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
45. Connection l 3 right terminals 3 Phase Terminal Block Connectors AC input cover plate Figure 2 6 Attaching the AC Input Wires for 12000 Watt units 2 12 TM XDOP 01XN Basic Checks or Self Tests Basic Checks or Self Tests WARNING The factory setting for Power ON is OV and OA with the output OFF These settings can be customized 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 e Digital Voltmeter DVM rated better than 0 05 accuracy e DC shunt ImV A 40 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 Display Test To ensure that the display is working properly 1 Turn the power switch ON 2 Observe the display panel Every pixel should illuminate for 2 seconds as part of the power on self test If you need to rerun the test 1 Turn the power switch OFF 2 Wait until the pixels fade to black Some residual charge may remain in the capacitors after the power is OFF Waiting for the display to fade ensures that the capacitors have sufficiently discharged their power to reset the power
46. Error Codes D 7 Analog Programming Interface Error code D 7 Auto Sequencing Error Codes D 7 CANbus Error Codes D 8 Multichannel Error Codes D 8 Current Share Error Codes D 9 Multiline Control Functions E 3 Interface Functions E 3 Driver Types for Interface Lines E 4 TM XDOP 01XN About The XDC Power Supply Chapter lists the features of the XDC and shows diagrams of the front and rear panel About The XDC Power Supply Overview Features 1 2 The XDC Series of digital 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 XDC uses our newly developed digital technology which combined with Soft Switching provides superior performance and a high level of user control through both front panel and remote interfaces e Digital processing for highly accurate control e Ten 99 step auto sequences for easy bench top programming of complex test routines e Ten stored settings e Zero voltage soft switching for low noise output improved efficiency and higher reliab
47. Limits Over Voltage Protection To set the Over Voltage Protection level SOUR VOLT PROT lt voltage gt To check the Over Voltage Protection level SOUR VOLT PROT To check if the Over Voltage Protection was tripped SOUR VOLT PROT TRIP Alternatively you can query the status registers See Appendix B Under Voltage Protection To set the Under Voltage Protection level SOUR VOLT PROT UND lt voltage gt SOUR VOLT PROT UND STAT lt on off state gt The first UVP protection command sets the protection level The second command lets you choose a warning alarm only OFF or shut down with an alarm ON if the protection level is exceeded To check the Under Voltage Protection level SOUR VOLT PROT UND To check if the Under Voltage Protection was tripped SOUR VOLT PROT UND TRIP Alternatively you can query the status register See Appendix C SCPI Command Reference TM XDOP 01XN 4 29 Remote Operation Over Current Protection To set the Over Current Protection level SOUR CURR PROT lt current gt SOUR CURR PROT STAT lt on off state gt The first OCP protection command sets the protection level The second command lets you choose a warning alarm only OFF or shut down with an alarm ON if the protection level is exceeded To check the Over Current Protection level SOUR CURR PROT To check if the Over Current Protection was tripped SOUR CURR PROT TRIP Und
48. MENU 4 times to bring up the Shutdown Recovery option The default is Latched You can leave it at Latched or change it to Auto Recovery Press either arrow key repeatedly until the desired option appears The default is AutoRecov You can leave it at Auto Recovery or change it to Latched Press either arrow key repeatedly until the desired option appears 3 15 Operation Respond to Alarms If there is a protection alarm press the PROT SET ALARMS key to read the message or messages Once you have read a message the system clears it from memory To tell the system that a message has been read press an arrow key If a message has been read and the conditions that caused the alarm no longer exist the display shows Alarms Cleared If the unit has shut down resume operation by pressing the OUT ON OFF key The following table shows what to do if there is an OC Alarm and an OP Alarm and the conditions that caused the alarms no longer exist Step Do This You Will See 1 OC Alarm 2 Cw OP Alarm If the alarms are cleared the system returns to its default operating state If the alarms persist the system prompts OVP SET V The system has shifted to output protection mode You can press ENTER to work with the OVP setting or press the arrow keys to view the other protection settings See Set Output Protection on page 3 10 for more information WARNING Fire hazard If an over voltage over current over power protect
49. OVP Adjustment Range 0 to 103 of Vmax 0 82 4V 0 103 V 0 1545V 0 309V 0 618 V Efficiency f 0 89 0 90 0 90 0 91 0 91 Drift 30 minutes amp Voltage 0 04 of Vmax 32 mV 40 mV 60 mV 120 mV 240 mV Current 0 6 of Imax 450 mA 360 mA 240 mA 120 mA 60 mA Drift 8 hours Voltage 0 02 of Vmax 16 mV 20 mV 30 mV 60 mV 120 mV Current 0 04 of Imax 30 mA 24 mA 16mA 8mA 4mA Temperature Coefficient Voltage 0 04 of Vmax C 32 mV 40 mV 60 mV 120 mV 240 mV Current 0 06 of Imax C 45 mA 36 mA 24 mA 12mA 6mA Minimum output voltage is lt 0 3 of rated voltage at zero output setting Minimum output current is lt 0 2 of rated current at zero output setting when measured with rated load resistance For input voltage variation over the AC input voltage range with constant rated load For 0 100 load variation with constant nominal line voltage Current mode noise is measured from 10 to 100 of rated output voltage full current unit in CC mode Typical efficiency at nominal input voltage and full output power Maximum drift over 30 minutes with constant line load and temperature after power on Maximum drift over 8 hours with constant line load and temperature after 30 minute warm up Change in output per C change in ambient temperature with constant line and load ropa he ao op TM XDOP 01XN A 3 Specifications and Characteristics Table A 3 Specifications for 12000 Watt units 10V to 60V Models Mode
50. Parameters 4 39 Deleting Sequences 4 39 Auto Sequence Operation 4 40 Select Sequence to Run 4 40 Operation 4 40 Slew Rate 4 41 Identification Query 4 42 Option Identification Query 4 42 SCPI Version Query 4 42 Status Registers 4 43 OPERation Status Register 4 44 REGulating Sub Register 4 47 SHUTdown Sub Register 4 47 Protection SHUTdown Sub Register 4 48 Remote CONtrol Sub Register 4 49 Current SHare Sub Register 4 50 QUEStionable Status Register 4 50 VOLTage Sub Register 4 53 CURRent Sub Register 4 53 POWer Sub Register 4 53 TEMPerature Sub Registe
51. Pollution Degree 2 IEC 1010 1 Thermal Specification Operating Temperature Range 0 C 50 C4 Storage Temperature Range 40 C 85 C a Consult the factory for operation below 0 C and above 50 C Humidity Specification Operating Humidity Range lt 95 RH Non condensing Storage Humidity Range lt 95 RH Non condensing TM XDOP 01XN International Approvals International Approvals TM XDOP 01XN Units bearing the c CSA us mark are certified by CSA to the following CAN CSA C22 2 No 1010 1 92 and CAN CSA C22 2 No 1010 1B 97 and to ANSI UL 61010B 1 Units bearing the CE mark meet the requirements of EMC Directive standards EN50081 2 and EN50082 1 and Low Voltage Directive safety standard IEC 61010 1990 A 1 1992 A 2 1995 FCC part 15 Class A limits for radio frequency emissions Canadian EMC standard ICES 001 Class A limits Specifications and Characteristics Mechanical Specification Weight 6000 W approx 75 1b 34 kg for 10 V 600 A unit without packaging 12000 W approx 170 lb 77 kg for 10 V 1200 A unit without packaging Size _ 21 in 533 mm a 22 8 in 18 2 in 579mm 462 mm e3 Oo ee O06 e 19 in 483 mm s2858 4 Esmor EEEE 5 2in SSSR rare 133 mm A 14 TM XDOP 01XN Mechanical Specification 22 2 in 565 mm 23 7 in
52. Printed in Canada
53. RS 232 Pins Pin Function Not used Receive Transmit Not used Ground Not used Ready to Send RTS Clear to Send CTS Not used O WAND NH WN e TM XDOP O1XN Configuration Front Panel First set the RS 232 parameters Step Do This RS 232 Operation You Will See ERROR MSGS a 5 times i Select the baud rate Select the flow control option 8 ENTER REMOTE CONFIG RS 232 Cfg Baud 9600 Baud HHHH Flow Ctl None Options are None no flow control Hdwr CTS DTS hardware handshake XON software XON XOFF characters used Settings are saved Next select RS 232 as the remote control interface Step Do This 4 times i You Will See ERROR MSGS REMOTE SELECT RS 232 RS 232 setting is saved Press the LCL RMT button to begin remote operation via the RS 232 interface TM XDOP 01XN Remote Operation SCPI Using RS 232 4 18 Set the band rate SYST COMM SER BAUD 1200 2400 4800 9600 19200 38400 Select flow control SYST COMM SER PACE HARD XON NONE Where e HARD means hardware flow control e XON means XON XOFF characters are used NONE means no flow control Select RS 232 to be the remote control source SYST REM SOUR RS232 Put the unit into remote operation SYST REM STAT REM Use any terminal emulation program to send commands to the power supply To change between remote
54. Register Commands Query Protection Shutdown Event SCPI command STATus lt channel gt OPERation SHUTdown PROTection EVENt Query Protection Shutdown Condition SCPI command STATus lt channel gt OP Enable Protection Shutdown Sub Register SCPI command STATus lt channel gt OP lt status enable gt Query format STATus lt channel gt OP Set Protection Shutdown Positive Transition Filter SCPI command STATus lt channel gt OP lt status enable gt Query format STATus lt channel gt OP Set Protection Shutdown Negative Transition Filter SCPI command STATus lt channel gt OP lt status enable gt Query format STATus lt channel gt OP Remote Control Sub Register Commands Query Remote Control Event SCPI command STATus lt channel gt OP TM XDOP 01XN ERation RCONtrol ERation SHUTdown PROTection CONDition ERation SHUTdown PROTection ENABle ERation SHUTdown PROTection ENABle ERation SHUTdown PROTection PTRansition ERation SHUTdown PROTection PTRansition ERation SHUTdown PROTection NTRansition ERation SHUTdown PROTection NTRansition EV ENt 4 65 Remote Operation Query Remote Control Condition SCPI command STATus lt channel gt OPERation RCONtrol CONDition Enable Remote Control Sub Register SCPI command STATus lt channel gt OPERation RCONtrol ENABle lt sta
55. SCPI and IEEE 488 2 standards Each status register has a Condition Event and Enable register and transition filters See Status Register Commands on page 4 58 for commands to read or change their values Transitions of the condition register are automatic and reflect the condition of the instrument at the moment Reading a condition register has no effect on the contents The event register bits are set automatically to correspond with changes in the condition register The rules are dependent on the positive and negative transition registers Reading an event register clears it The CLS command clears all event registers The enable register enables reporting of the event bits to the summary bit or the status byte The contents of the enable register are unchanged by CLS and RST A positive transition filter allows an event to be reported when a condition changes from false to true Setting both positive and negative filters to TRUE allows an event to be reported any time the condition changes Clearing both filters disables event reporting The contents of transition filters are unchanged by CLS and RST The status registers maybe be divided into 4 categories the operation status registers the questionable status registers the standard event status register and the status byte 4 43 Remote Operation OPERation Status Register The operation status register is a 16 bit register which contains information about co
56. STATus lt channel gt QUEStionable VOLTage CONDition Enable Voltage Sub Register SCPI command STATus lt channel gt QUEStionable VOLTage ENABle lt status enable gt Query Format STATus lt channel gt QUEStionable VOLTage ENABle Set Voltage Positive Transition Filter SCPI command STATus lt channel gt QUEStionable VOLTage PTRansition lt status enable gt Query Format STATus lt channel gt QUEStionable VOLTage PTRansition Set Voltage Negative Transition Filter SCPI command STATus lt channel gt QUEStionable VOLTage NTRansition lt status enable gt Query Format STATus lt channel gt QUEStionable VOLTage NTRansition TM XDOP 01XN 4 69 Remote Operation Current Sub Register Commands Query Current Sub Register Event SCPI command STATus lt channel gt QUEStionable CURRent EVENt Query Current Sub Register Condition SCPI command STATus lt channel gt QUEStionable CURRent CONDition Enable Current Sub Register SCPI command STATus lt channel gt QUEStionable CURRent ENABle lt status enable gt Query Format STATus lt channel gt QUEStionable CURRent ENAB1le Set Current Positive Transition Filter SCPI command STATus lt channel gt QUEStionable CURRent PTRansition lt status enable gt Query Format STATus lt channel gt QUES
57. TEMPeratur See Table 4 19 on page 4 54 Yes Status Temperature PTRansition lt status enable gt Positive Transition Register Query Questionable STATus lt channel gt QUEStionable VOLTage COND See Table 4 16 on page 4 53 N A Status Voltage ition Condition Register Set Questionable STATus lt channel gt QUEStionable VOLTage ENAB See Table 4 16 on page 4 53 Yes Status Voltage Enable Register le lt status enable gt Kewwns puewwos 149s 972 9 NXT0 dOdX WL Query Questionable STATus lt channel gt QUEStionable VOLTage EVE See Table 4 16 on page 4 53 N A Status Voltage Nt Event Register Set Questionable STATus lt channel gt QUEStionable VOLTage NTRa_ See Table 4 16 on page 4 53 Yes Status Voltage nsition lt status enable gt Negative Transition Register Set Questionable STATus lt channel gt QUEStionable VOLTage PTRa_ See Table 4 16 on page 4 53 Yes Status Voltage nsition lt status enable gt Positive Transition Register Query the Standard STATus lt channel gt STANdard EVENt See Table 4 20 on page 4 55 N A Event register ESR Enable the Standard STATus lt channel gt STANdard ENABle See Table 4 20 on page 4 55 Yes Event register ESE ESE Query the Status STATus lt channel gt SBYTe EVENt See Tab
58. To select Factory Preset Step Do This 1 2 3 a 2 times 2 times to select or Ca and to change You can also press the Down arrow 2 times You Will See ERROR MSGS PON CONFIG Last Setting Factory Preset Out ON Y The default display for the selected operating mode TM XDOP 01XN User Setting TM XDOP 01XN Power Supply Operation User Setting lets you restore a custom setting the next time the unit is powered on This assumes at least one user setting has been stored in memory See Store User Settings on page 3 21 To select User Setting Step Do This I 2 2 times i 6 4 o W to scroll to select i to select or Ca and to change a You can also press the Down arrow 2 times Enter a value from 1 to 10 You Will See ERROR MSGS PON CONFIG Last Setting User Settings User Set Out ON Y The default display for the selected operating mode 3 31 Operation Last Setting Auto Sequence Selecting Last Setting lets you restore the settings that are in use when the power supply is powered off the next time it is powered on To select Last Setting Step Do This 2 2 times 5 to select or Ca and to change a You can also press the Down arrow 2 times You Will See ERROR MSGS PON CONFIG Last Setting Out ON Y The default display for the selected operating mode Auto Sequence lets you recall a stored progr
59. View of Remote Interface Connections 4 3 Schematic For User Line Interface 4 6 Connections for Multichannel Operation 4 13 Operation Status Registers 4 45 Questionable Status Registers 4 51 IEEE 488 2 Status Register and Status Byte 4 54 Connections for Current Share Operation 5 2 Power Supply Dimensions 6000 Watt unit A 14 Power Supply Dimensions 12000 Watt unit A 15 xxi xxii Tables Table 1 1 Table 1 2 Table 1 3 Table 1 4 Table 1 5 Table 1 6 Table 1 7 Table 2 1 Table 2 2 Table 2 3 Table 2 4 Table 3 1 Table 3 2 Table 4 1 Table 4 2 Table 4 3 Table 4 4 Table 4 5 Table 4 6 Table 4 7 Table 4 8 Table 4 9 Table 4 10 Table 4 11 Table 4 12 Table 4 13 Table 4 14 Table 4 15 Table 4 16 Table 4 17 Table 4 18 Table 4 19 Table 4 20 Table 4 21 Table 4 22 TM XDOP 01XN Item Descriptions for Figure 1 1 1 3 Item Descriptions for Figure 1 2 1 4 Item Descriptions for Figure 1 3 1 5 Front Panel Functions 1 7 Item Descriptions for Figure 1 4 1 9 Item Descri
60. address in the range 1 to 30 Secondary Address The power supply does not support secondary addressing Service Request and Polling The power supply s serial poll responses and SRQ generation use an IEEE 488 2 reporting structure See Status Registers on page 4 43 The Request Service bit bit 6 in the Status Byte will generate a service request SRQ on the GPIB The power supply can be set up to generate a service request SRQ at power on Use the command SYSTem COMMunicate GPIB PONSrq ON OFF 1 0 E 2 TM XDOP O1XN Protocol Specifications Protocol Specifications Multiline Control Functions IEEE 488 2 Section 5 requires specific Device Interface Functions Table E 1 Multiline Control Functions Function Mnemonic Source SH1 Handshake Acceptor AHI Handshake Talker T6 Listener L4 Interface Functions Description Functions Subset Complete capability SIDS SGNS SDYS STRS SWNS SIWS Complete capability AIDS ANRS ACRS ACDS AWNS Includes serial poll TIDS TADS TACS SPAS SPIS SPMS TPIS TPAS LIDS LADS LACS LPIS LPAS IEEE 488 1 Section 2 Table E 2 Interface Functions Function Mnemonic Device Clear DC1 Device Trigger DT1 Drivers E2 Parallel Poll PPI Remote Local RLI Service SRI Request Controller CO TM XDOP 01XN Description Functions Subset Complete capability DCIS DCAS Complete capability DTIS DTAS Tri state drivers where selectable Parallel Poll C
61. ambient temperature and maximum power At 342V input voltage 50 C ambient temperature and maximum power At 400V input voltage 25 C ambient temperature and maximum power pao se A 6 TM XDOP O1XN 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 e Typical 89 efficiency at nominal line voltage and ambient temperature e Minimum 82 efficiency Specific minimum efficiency limits are model dependent Load Regulation Voltage S mV 0 05 of Vmax Current 6000 W 20 mA 0 1 of Imax 12000 W 40 mA 0 2 of Imax Power 1 of Pmax Line Regulation Voltage 0 01 of Vmax Current 6000 W 0 05 of Imax 12000 W 0 1 of Imax Power 1 of Pmax Programming Range for Voltage Current and Power Voltage and Current From 0 103 of the rated maximum output Power From 0 103 of the rated maximum output OVP Programming Range e 0 103 of maximum rated voltage TM XDOP 01XN A 7 Specifications and Characteristics Typical Programming Resolution Front Panel or Remote Digital Interface Voltage 0 002 of Vmax Current 0 002 of Imax Power 0 05 of Pmax Over Voltage Protectio
62. considered a SCPI suffix Range is 1 to 99 step_time The duration of an auto sequence step in the format hh mm ss s May include time related suffix units such as S MIN mS uS etc By default the value is in seconds voltage A numeric value as defined by SCPI May also be MAXimum or MINimum May include voltage related suffix units such as mV uV V etc Range is 0 to 103 of model s rated voltage BDUSAJOY PULWWOD dIS Error Messages Appendix D lists all the error codes and their meanings Error M essages Overview Errors are placed in a queue as they are detected The queue works on a first in first out FIFO basis If the queue overflows the last error in the queue is replaced with error 350 Queue Overflow When all errors have been read from the queue further error queries return 0 No error The error queue is cleared when any of the following occur IEEE 488 2 section 11 4 3 4 e Upon receipt of a CLS command e Upon reading the last item from the queue All negative values are reserved by the SCPI standard All errors unique to the power supply have positive values Command Error List An error in the range 199 100 indicates that an IEEE 488 2 syntax error has been detected by the instrument s parser The occurrence of any error in this class causes the command error bit bit 5 in the Event Status Register to be set Tabl
63. current protection Disabled 0 0A and not shutdown when tripped Under current protection Disabled 0 0A and not shutdown when tripped Over power protection Disabled 0 0W and not shutdown when tripped Under power protection Disabled 0 0W and not shutdown when tripped Fold shutdown protection None and delay 0 5s AC off shutdown recovery Autorecover Over temperature shutdown Latched recovery Triggered voltage setpoint Disabled Default Triggered current setpoint Disabled Default 4 24 TM XDOP 01XN SCPI Commands for Digital Interfaces Table 4 8 Features Affected by Reset RST Command Feature Reset State RST Triggered power setpoint Disabled Default Autosequence mode Exit Front panel display config Show V amp I Knob lockout None Calibration mode False Output Disabled Store User Settings TM XDOP 01XN If you have a frequent or constant need for a specific voltage and current output you can save these setpoints in the power supply s memory as a user setting Once a setting is stored it remains in the power supply s memory after the unit is powered off See Store User Settings on page 3 21 for a list of parameters that are saved To store save settings SAV lt user setting gt Example SAV 1 will save all the present settings to user setting location 1 To recall settings RCL lt user setting gt To save default settings SDS lt user setting gt This will save factory default se
64. discussed in Chapter 4 Remote Operation Appendix C SCPI Command Reference and Appendix E GPIB The factory default remote control setting is RS 232 It has a default configuration of 9600 baud Toggle Local Remote The LCL RMT key allows you to shift between local and remote control To shift from local to remote control Do This You Will See RS 232 In the case shown the power supply has changed from local front panel control to remote control through its RS 232 port The remote control options are RS 232 Analog V and I Analog V Analog I GPIB and Linked You can change the remote control source through the REMOTE SELECT menu option See Select Remote Control Source below There are 2 exceptions to this function e Ifthe power supply has Local Lockout LLO active it will not let you shift from remote to local control Instead the display will show LLO on and the system will remain in remote control e Ifthe system is using GPIB it will shift to remote control only when the Remote enable line REN 1 and a command is sent from the remote controller TM XDOP O1XN Power Supply Operation Select Remote Control Source The REMOTE SELECT menu option allows you to select an interface for remote control Before selecting a remote control source be sure to set up each interface using the Remote Configure menu See Configure Remote Control Source on page 3 20 Remote control source
65. error is queued when the power supply cannot convert the input to a calibrated value Calibration memory lost Save recall memory lost Indicates that the non volatile data saved by the SAV command has been lost Configuration memory lost Indicates that non volatile configuration data saved by the power supply has been lost Out of memory An internal operation needed more memory than was available Self test failed Queue overflow A specific code entered into the queue in lieu of the code that caused the error This code indicates that there is no room in the queue and an error occurred but was not recorded Communication error This is the generic communication error for errors which cannot be classified below Parity error in program message Parity bit not correct when data received Framing error in program message A stop bit was not detected when data was received e g a baud rate mismatch Input buffer overrun Software or hardware input buffer on serial port overflows with data caused by improper or nonexistent pacing Error M essages Query Error List An error number in the range 499 400 indicates that the output queue control of the instrument has detected a problem with the message exchange protocol described in IEEE 488 2 chapter 6 The occurrence of any error in this class causes the query error bit bit 2 in the Event Status Register to be set Table D 4 Query Error List Error code E
66. gt MAXimum MINimum DEFault interval for the programmed voltage change Set Over Current SOURce lt channel gt CURRent PROTection OVER Set the over current protection Yes Protection Level LEVel lt current gt MAXimum MINimum level Set Over Current SOURce lt channel gt CURRent PROTection OVER Select over current protection to Yes Protection STATe lt on off state gt shutdown ON or set alarm Shutdown State OFF Query Over SOURce lt channel gt CURRent PROTection OVER Query if over current protection N A Current Protection TRIPped mechanism has tripped Tripped Set Under Current SOURce lt channel gt CURRent PROTection UNDer Set under current protection level Yes Protection Level LEVel lt current gt MAXimum MINimum Set Under Current SOURce lt channel gt CURRent PROTection UNDer Select under current protection to Yes Protection STA lt on off state gt shutdown ON or set alarm Shutdown State OFF Ayewuiuing puewwos 149s vI 9 NXT0 dOdX WL Table G3 Contrands for Output Control Query Under SOURce lt channel gt CURRent PROTection UNDer Query if under current protection N A Current Protection TRIPped mechanism has tripped Tripped Set Over Power SOURce lt channel gt POWer PROTec
67. mV 1500 mA 0 41 2 V 0 87 16 mV 1800 mA 8 mV 150 mA 16mV 180 mA Maximum drift over 30 minutes with constant line load and temperature after power on Maximum drift over 8 hours with constant line load and temperature after 30 minute warm up Change in output per C change in ambient temperature with constant line and load 60 200 0 60 V 0 200 A 12000 W 6 mV 200 mA 35 mV 440 mA 90 mV 1A 100 mV 15 mV 900 mA 0 61 8 V 0 89 24 mV 1200 mA 12 mV 100 mA 24 mV 120 mA Minimum output current is lt 0 2 of rated current at zero output setting when measured with rated load resistance Current mode noise is measured from 10 to 100 of rated output voltage full current unit in CC mode TM XDOP O1XN Electrical Specifications Summary Table A 4 Specifications for 12000 Watt units 80V to 600V Models Models Output Ratings Output Voltage Output Current v Output Power Line Regulation Voltage 0 01 of Vmax Current 0 1 of Imax Load Regulation a Voltage 0 05 of Vmax 5 mV Current 0 2 of Imax 40 mA Meter Accuracy Voltage 0 15 of Vmax Current 0 5 of Imax Output Noise 0 20 MHz Voltage p p Output Ripple rms Voltage Current OVP Adjustment Range 0 to 103 of Vmax Efficiency i Drift 30 minutes amp Voltage 0 04 of Vmax Current 0 6 of Imax Drift 8 hours Voltage 0 02 of Vmax Current 0 05 of Imax Temperature C
68. others as slaves Current sharing may be configured either through the front panel menus or by SCPI commands sent via a remote interface In addition to selecting the current share mode the master may be set up to display the summed current from all units On the front panel a MASTER or SLAVE annunciator will light up to indicate the current share mode To configure current share with the front panel You Will See ERROR MSGS A mew or C a Press 8 times CURRENT SHARE 3 ENTER t 0e No share r a to select the current Master share option No share Master or Slave Press to save If No share or Slave are selected configuration is complete and the menu exits 4a If Master has been selected you will be prompted to select whether the master Display Sum Y should display the total current output of all current share units Use C 4 gt or Ce to select Y or N Press ENTER SCPI TM XDOP 01XN Select whether the unit will operate as a master or slave unit SOURCE COMBine CSHare MODE MASTer SLAVe OFF To query the total output current of all current sharing units use the SCPI command MEAS CURR SUM The current share subregister CSHare will show whether the master or slave is operating 5 3 Current Sharing 5 4 STAT OPER CSH COND See Table 4 14 Current SHare Sub Register on page 4 50 for a description of the bits in this register 3 5
69. parameters The command is always separated from the parameter by a blank space Multiple commands sent in the same string are separated by a semi colon The following is an example of how 3 common commands can be sent together in the same string OPC PSC Off TRG SCPI Command Reference Parameter Types Boolean Parameters Discrete Parameters Numeric Parameters String Parameters C 8 Several different data types are defined for use in program messages and response messages Boolean parameters are single binary conditions such as 1 and 0 or ON and OFF The following is an example of a command that uses Boolean parameters SYST COMM GPIB PONS ON OFF 1 0 Discrete parameters are used when program settings have a limited number of values If you query a discrete parameter the response will always be in the short form with all uppercase letters The following is an example of a command that uses discrete parameters TRIG SOUR BUS EXT IMM NONI Gl Numeric parameters are number representations such as decimal points optional signs and scientific notation Values such as MINimum and MAXimum are accepted as substitutes for numbers When DEFault is provided as a parameter the machine selects the default value automatically You can also use engineering unit suffixes such as V A or W with numeric parameters In cases where specific numeric values are accepted the power unit will round the input pa
70. source 3 19 remote control modes described 3 5 remote control vs local control 3 18 remote mode changing 4 26 REMOTE SELECT menu item 3 6 remote sensing 2 24 remote sensing ports 1 11 reset 4 24 RMT display annunciator 1 10 RS 232 configuration 4 17 connection 4 16 location 4 3 using 4 18 RS 232 control mode described 1 12 RS 232 port 1 11 RUN PAUSE key 1 5 TM XDOP 01XN Index S S D RECOVERY menu item 3 6 SCPI version 4 42 SCPI commands 4 22 for specific items see the Table of Contents at the beginning of Appendix B parameter types C 8 using C 5 security code B 5 self tests current mode operation test 2 15 display test 2 13 equipment required 2 13 power on test 2 13 voltage mode operation test 2 14 sense protection 3 10 SEQ display annunciator 1 10 serial number WA 4 Set display annunciator 1 10 setpoints changing 4 27 soft limits 3 45 4 27 SETPT LIMIT menu item 3 7 3 45 settings factory default 1 12 power on 3 29 recall 3 23 4 25 user 3 21 4 25 shutdown recovery 3 15 single load connecting 2 18 Slave display annunciator 1 10 slave shutdown 3 10 slew rate overview 3 49 programming via SCPI 4 41 setting 3 49 SLEW RATE menu item 3 7 soft start operating state 3 3 soft switching power 1 2 specifications electrical A 2 environmental A 12 SRQ display annunciator 1 10 Standard Commands for Programmable Instruments See SCPI commands status conditio
71. supply 3 Turn the power switch ON 4 Observe the display panel If you observe or suspect that one or more of the display pixels is malfunctioning contact the manufacturer Power ON Check To complete the power on check 1 Ensure that the AC power switch is OFF 2 Connect the unit to an AC outlet TM XDOP 01XN 2 13 Installation 3 Turn the front panel AC power switch to ON After a short power on delay the front panel digital meters and the CV annunciator illuminate Both voltmeter and ammeter displays should read zero Check the front panel annunciators If OUT ON is illuminated press OUT ON OFF to disable the output The OUT OFF annunciator should now be illuminated For an illustration of the annunciators and their locations see Status Annunciators on page 1 9 If the ERR indicator is lit see Read Error Messages on page 3 26 or page 4 35 on how to read an error message and consult Appendix D to determine the meaning of the error If an unexpected error persists after the power has been cycled contact the manufacturer for assistance Voltage Mode Operation Check WARNING On units rated higher than 40V ensure that the electrical connections are protected to prevent accidental contact A CAUTION When making connections to the bus bars ensure that each terminal s mounting hardware and wiring assembly are placed so they don t touch the other terminal and short the power sup
72. the Operation Event Status Register is set and its corresponding bit in the Operation Status Enable Register is set TM XDOP 01XN 4 57 Remote Operation Status Register Commands In the following sections lt status enable gt is a value from 0 to 32767 representing a 15 bit register mask SCPI Status Commands Preset Status Configures the status data structures to ensure that certain events are reported at a higher level through the status reporting mechanism These events are summarized in the mandatory structures the Operation Status Register and Questionable Status Register The PRESet command affects only the enable registers and the transition filter registers of the status data structures PRESet does not clear any of the event registers or any item from the error event queue The CLS command is used to clear all event registers and queues in the device status reporting mechanism For the device dependent status data structures the PRESet command sets the enable register to all 1s and the transition filter register to report only positive transitions For the SCPI mandatory status data structures the PRESet command sets the transition filter registers to recognize only positive transitions and sets the enable register to Os The following will not be affected by this command Service Request Enable Register Parallel Poll Enable Register the memory register associated with the SAV command the power supply address Output Que
73. the rear panel Connect the DVM across the DC shunt Press OUT ON OFF to turn the DC output ON Slowly turn the Voltage knob clockwise to a maximum reading of 10V Slowly turn the Current knob clockwise to a maximum reading of 10A 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 Check that the Constant Current CC annunciator is illuminated Press OUT ON OFF to turn the DC output OFF Disconnect the DVM and the shunt Installation Load Wiring When connecting load wiring to the power supply consider the following factors e Current carrying capacity of the wire e Maximum load wiring length for operation with sense lines e Noise and impedance effects of the load lines Current Carrying Capacity As a minimum load wiring must have a constant 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 450A per square centimeter for various gauges of wire rated for 105 C operation Operating at the maximum current rating results in a temperature rise of approximately 30 C for a wire operating in free air Where load wiring must operate in areas with elevated ambient temperatures or bundled with oth
74. to less than the supply rating range to match the tolerance of connected equipment or any other criteria you may have You can control the voltage current and power setpoint limits through the SETPT LIMIT menu option Once the limits have been changed from the supply s default rated output settings outside this range are no longer accepted Before setting voltage current or power setpoint limits make sure that the voltage current or power setpoint is set to a value between the desired upper and lower setpoint limits Important Setpoint limits do not apply to the triggered outputs and auto sequence outputs TM XDOP O1XN 3 45 Operation To set the voltage limits Step Do This 1 2 MENU C until you see the SETPT LIMIT option ENTER ENTER Use the Voltage knob arrow keys or numeric keypad to enter a value The value must be within OV to 103 of the unit s rated voltage and must be higher than the voltage setpoint ENTER Use the Voltage knob arrow keys or numeric keypad to enter a value The value must be within OV to 103 of the unit s rated voltage and must be lower than the voltage setpoint ENTER You Will See ERROR MSGS SETPT LIMIT Voltage Limit High 0V High HHHEV Low 0V The Maximum setting is saved and the Minimum setting appears Low V The setting is saved and the display returns to its default operating mode TM XDOP O1XN TM XDOP
75. voltage setting is saved Set HHHHEA Your current setting appears on the display Your current setting is saved Set 1 unused Set 1 Your voltage and current setting is now saved as Set 1 a unused appears with Set 1 if there are no saved settings in the system Press Enter to save your setting as Set 1 If unused does not appear then you can overwrite Set 1 with your new setting or use the numeric keypad or arrow keys to find the next unused set number You can also press CE to clear an existing setting and then press ENTER to replace the cleared setting with your new setting Change Stored Settings To change a stored setting overwrite it with a new setting or select the setting press CE and hold it for a few seconds to clear the setting from memory 3 22 TM XDOP O1XN Power Supply Operation Recall Settings After you have saved one or more settings you can press RECALL to retrieve them from the power supply s non volatile memory or to run an auto sequence program You can also recall stored settings through your Power ON configuration See Configure Power ON Settings on page 3 29 To retrieve a setting using RECALL Step DoThis You Will See 1 Last Setting 2 User Settings 3 User Set 1 4 This setting is retrieved from memory the power supply s output changes to match the setting and the display returns to its default operating mode a Ifyou want a different setting besides S
76. 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 or input voltage that creates operating conditions beyond the maximum or minimum limits listed in the Xantrex product specifications including high input voltage from generators and 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 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
77. you want the program to resume you can press TRIGGER or supply a trigger signal to the rear panel Trigger input When a sequence is paused by a trigger the Trigger annunciator is illuminated During operation press the Up key to display information on the currently running sequence including sequence number step number step parameters settings the trigger source as well as the loop count To run an auto sequence program Step Do This You Will See Kies Auto Sequence 2 Auto Seq 1 3 Seq 1 ready 3 HHH HHA RUN TM XDOP 01XN Power Supply Operation Configure Display The DISPLAY CONFIG menu option allows you to select the readback values displayed when the power supply is operating in its default state The factory default is to display voltage and current readback but you can also choose voltage and power current and power or voltage current and power This table shows how to access and work with the DISPLAY CONFIG option Step Do This You Will See 1 ERROR MSGS E C until you see the DISPLAY CFG DISELAY LEG option 3 Show V and I 4 Show V and I Cy Using the arrow keys select from Show V and I and Show V and P 5 The setting is saved a You can also press MENU repeatedly to bring up the Display Config option TM XDOP 01XN 3 43 Operation Lock Out Control Knobs The KNOB LOCKOUT menu option allows you to lock the front panel knobs forcing changes to be made via the VOLTAG
78. 0 V 0 60 V Output Current 7 0 600 A 0 300A 0 200A O0 I50A 0 100A Output Power 6000 W 6000 W 6000 W 6000 W 6000 W Line Regulation Voltage 0 01 of Vmax 1 mV 2 mV 3 mV 4 mV 6 mV Current 0 05 of Imax 300 mA 150 mA 100 mA 75 mA 50 mA Load Regulation q Voltage 0 05 of Vmax 5mV 10mV 15 mV 20 mV 25 mV 35 mV Current 0 1 of Imax 20 mA 620 mA 320 mA 220 mA 170 mA 120 mA Meter Accuracy Voltage 0 15 of Vmax 15 mV 30 mV 45 mV 60 mV 90 mV Current 0 5 of Imax 3A 15A 1 0 A 750 mA 500 mA Output Noise 0 20 MHz Voltage p p 75 mV 75 mV 75 mV 75 mV 100 mV Output Ripple rms Voltage 10 mV 10 mV 12 mV 15 mV 15 mV Current 3100mA 1600mA 1000mA 750mA 450 mA OVP Adjustment Range 0 to 103 of Vmax 0 10 3V 0 206V 0 30 9V 0 41 2V 0 61 8V Efficiency f 0 85 0 87 0 87 0 87 0 89 Drift 30 minutes amp Voltage 0 04 of Vmax 4mV 8 mV 12 mV 16 mV 24 mV Current 0 6 of Imax 3600mA 1800mA 1200mA 900mA 600 mA Drift 8 hours Voltage 0 02 of Vmax 2mV 4mV 6mV 8 mV 12 mV Current 0 04 of Imax 240 mA 120 mA 80 mA 60 mA 40 mA Temperature Coefficient Voltage 0 04 of Vmax C 4mV 8 mV 12 mV 16 mV 24 mV Current 0 06 of Imax C 360 mA 180 mA 120 mA 90 mA 60 mA Minimum output voltage is lt 0 3 of rated voltage at zero output setting Minimum output current is lt 0 2 of rated current at zero output setting when measured with rated load resistance For input voltage variation over the AC input voltage ran
79. 01XN To set the current limits Step Do This 1 2 MENU a until you see the SETPT LIMIT option ENTER ENTER 0g Use the Current knob arrow keys or numeric keypad to enter a value The value must be within OA to 103 of the unit s rated current and must be higher than the current setpoint ENTER Use the Voltage knob arrow keys or numeric keypad to enter a value The value must be within OA to 103 of the unit s rated current and must be lower than the current setpoint ENTER Power Supply Operation You Will See ERROR MSGS SETPT LIMIT Voltage Limit Current Limit High 0A High HHH A Low 0A The Maximum setting is saved and the Minimum setting appears Low HA The setting is saved and the display returns to its default operating mode 3 47 Operation To set the power limit Step Do This 1 2 MENU a until you see the SETPT LIMIT option ENTER ENTER Use the arrow keys or numeric keypad to enter a value The value must be within OW to 103 of the unit s rated power and must be higher than the power setpoint ENTER Use the Voltage knob arrow keys or numeric keypad to enter a value The value must be within OW to 103 of the unit s rated power and must be lower than the power setpoint ENTER You Will See ERROR MSGS SETPT LIMIT Voltage Limit Power Limit High 44HEW High HHH W Low HH W The Maximum set
80. 1 6 Figure 2 1 Figure 2 2 Figure 2 3 Figure 2 4 Figure 2 5 Figure 2 6 Figure 2 7 Figure 2 8 Figure 2 9 Figure 2 10 Figure 2 11 Figure 4 1 Figure 4 2 Figure 4 3 Figure 4 4 Figure 4 5 Figure 4 6 Figure 5 1 Figure A 1 Figure A 2 TM XDOP 01XN Front Panel 6000 Watt 1 3 Front Panel 12000 Watt 14 Keypad 1 5 Front Panel Display 1 9 Front Panel Display Status Annunciators 1 9 Rear Panel 6000 Watt 1 11 Typical Box Label for Storage 2 3 Unpacking the Power Supply 2 5 Mounting the Power Supply in the Rack With Support Rails 2 6 AC Input Connector for 6000 Watt units 2 7 Attaching the AC Input Wires for 6000 Watt units 2 10 Attaching the AC Input Wires for 12000 Watt units 2 12 Fastening the Output Wires 6000 Watt 2 19 Output Bus Bar Cover for 6000 Watt units 2 20 Output for 12000 Watt units 2 21 Output Cover with Strain Relief for 6000 Watt units 2 22 Output for 12000 Watt units 2 23
81. 3 33 4 38 recalling 3 42 repetitions 3 40 4 38 running a program 3 42 trigger source 3 41 4 39 automatic mode crossover 3 4 AUX A display annunciator 1 10 auxiliary 4 34 bar graph current 1 9 power 1 9 voltage 1 9 bar graphs display annunciator 1 10 C calibration change code B 5 front panel procedure B 7 mode B 3 overview B 2 remote interface procedure B 11 restore factory defaults B 15 CALIBRATION menu item 3 7 calibration operating state 3 3 Canadian EMC Requirements viii A 13 CANbus 4 11 CANbus port 1 11 CC display annunciator 1 10 CE key 1 6 command errors list of D 2 constant current CC mode 3 4 constant power CP mode 3 4 constant voltage CV mode 3 4 control knobs locking out voltage 3 45 locking out voltage and current 3 44 unlocking 3 45 control modes 1 12 analog mode described 1 12 GPIB mode described 1 12 local mode described 1 12 multichannel mode described 1 12 RS 232 mode described 1 12 control options configuring remote control source 3 20 described 1 2 GPIB 1 2 remote vs local 3 18 RS 232 1 2 Index SCPI 1 2 selecting remote control source 3 19 CP display annunciator 1 10 CSA approval viii A 13 current bar graph 1 9 current carrying capacity for load wiring 2 16 CURRENT key 1 5 3 5 current knob described 1 5 3 7 current limit setting 3 47 current mode operation test 2 15 current output setpoint setting 3 8 cur
82. 36 TM XDOP O1XN SCPI Commands for Digital Interfaces Auto Sequencing Auto Sequencing allows users to program a sequence of steps Each step has the properties of voltage current power limits and OVP limit The steps are either programmed to run for a predetermined length of time or are programmed to pause and wait for a trigger AN CAUTION Setpoint limits do not apply to auto sequence programmed setpoints Programmed sequences can run one time only or repeatedly up to 9999 times or infinitely You can store up to 10 sequences of 99 steps each The duration of each step may range from a minimum of 10 milliseconds to a maximum of 99 hours Operation Users can select and start a sequence and while the sequence is running pause or end it Users can press and hold the TRIGGER button to skip over steps that have a set duration Commands are also available to let users run pause resume and restart an autosequence A pause or wait for trigger causes the power supply to hold the output at the programmed level until the appropriate signal to continue is received Editing Users can delete single steps or entire sequences If a step is deleted the subsequent steps will shift up If a new step is inserted the subsequent steps will shift down Remote programming of auto sequences has the same functionality as using the front panel TM XDOP 01XN 4 37 Remote Operation Programming Sequences Select Sequence to Pr
83. 6 7 Connect the CANbus ports of all paralleled units and install terminators See figure below Connect the CANbus ports in series linking the first power supply to the second using a parallel male DB9 to female DB9 cable and then the second to the third using a second cable etc Alternatively a single ribbon cable with multiple connectors may be used instead of several cables Terminate the bus at each end with a 120 ohm 1 4 Watt resistor included across the CAN HI and CAN LO signals Pins 2 and 7 as shown below Female connector shown Pinouts are reversed left to right when using a male connector Make load connections Connect the output of each power supply to the load or a distribution terminal which is connected to the load To provide reliable current sharing ensure that the lines from each supply are the same gauge and length If you are using remote sense you must e Connect the sense lines from all units e Connect all sense lines to the same load sense point Power up the master Power up slaves individually Set the voltage and current limit on the master unit Important Setting the current limit of the master results in the same current limit for each slave For example if five units are connected setting the current limit of the master to 10 A may result in a system current of 50 A 8 Enable the output TM XDOP O1XN Operation TM XDOP 01XN Operation Once a current sharin
84. 602 mm 19 in 483 mm 5 10 4 in 464 mm aa a aaa o ml ml Figure A 2 Power Supply Dimensions 12000 Watt unit TM XDOP 01XN A 15 Calibration 6000 Watt only Appendix B lists the calibration procedures for the 6000 W unit If you purchased a 12000 Watt unit please contact your supplier or Xantrex directly see Warranty for contact information Calibration 6000 Watt only Overview B 2 The calibration of the unit is software dependent there are no potentiometers to adjust Calibration may be performed via the front panel or SCPI commands Front panel calibration is partially automated The calibration points are set automatically and you will be prompted to enter the measurement data There are 10 items that need to be calibrated Output voltage and output current are mandatory If you intend to use the analog programming interface you must calibrate it as well It needs to be calibrated in both the 0 5V and the 0 10V ranges In each range voltage programming voltage readb
85. 9 Current SHare Sub Register 4 50 QUEStionable Status Register 4 52 VOLTage Sub Register 4 53 CURRent Sub Register 4 53 POWer Sub Register 4 53 TEMPerature Sub Register 4 54 Standard Event Status Register 4 55 Status Byte Summary Register 4 56 Preset Values of User Configurable Registers 4 58 xxiii xxiv Table A 1 Table A 2 Table A 3 Table A 4 Table C 1 Table C 2 Table C 3 Table C 4 Table C 5 Table C 6 Table C 7 Table C 8 Table C 9 Table C 10 Table C 11 Table C 12 Table C 13 Table C 14 Table C 15 Table C 16 Table D 1 Table D 2 Table D 3 Table D 4 Table D 5 Table D 6 Table D 7 Table D 8 Table D 9 Table D 10 Table D 11 Table D 12 Table D 13 Table E 1 Table E 2 Table E 3 Specifications for 6000 Watt units 10V to 60V Models A 2 Specifications for 6000 Watt units 80V to 600V Models A 3 Specifications for 12000 Watt units 10V to 60V Models A 4 Specifications for 12000 Watt units 80V to 600V Models A 5 TEEE 488 2 Commands C 10 Readback Commands
86. AMPLitude lt current gt MAXimum MINimum Set Triggered SOURce lt channel gt CURRent LEVel TRIGgered Change triggered current setpoint Yes Current Setpoint AMPLitude lt current gt MAXimum MINimum DEFault Set Immediate SOURce lt channel gt POWer LEVel IMMediate Change power setpoint Yes Power Setpoint AMPLitude lt power gt MAXimum MINimum Set Triggered SOURce lt channel gt POWer LEVel TRIGgered Change triggered power setpoint Yes Power Setpoint AMPLitude lt power gt MAXimum MINimum DEFault Set Immediate SOURce lt channel gt VOLTage LEVel IMMediat Change voltage setpoint Yes Voltage Setpoint e AMPLitude lt voltage gt MAXimum MINimum Set Triggered SOURce lt channel gt VOLTage LEVel TRIGgered Change triggered voltage setpoint Yes Voltage Setpoint AMPLitude lt voltage gt MAXimum MINimum DEFault Set Voltage Slew SOURce lt channel gt VOLTage SLEW STEP lt slewra Sets the voltage slew rate voltage Yes Rate Voltage te voltage gt MAXimum MINimum DEFault change for the programmed time interval Set Voltage Slew SOURce lt channel gt VOLTage SLEW INTerval lt s1 Sets the voltage slew rate time Yes Rate Interval ewrate interval
87. ATus lt channel gt OPERation REGulating PTRa_ See Table 4 10 on page 4 47 Yes Regulating Positive nsition lt status enable gt Transition Register Query Operation STATus lt channel gt OPERation SHUTdown CONDit See Table 4 11 on page 4 47 N A Status Shutdown ion Condition Register Set Operation Status STATus lt channel gt OPERation SHUTdown ENABle See Table 4 11 on page 447 Yes Shutdown Enable lt status enable gt Register Query Operation STATus lt channel gt OPERation SHUTdown EVENt See Table 4 11 on page 4 47 N A Status Shutdown Event Register Set Operation Status STATus lt channel gt OPERation SHUTdown NTRans_ See Table 4 11 on page 4 47 Yes Shutdown Negative ition lt status enable gt Transition Register Set Operation Status STATus lt channel gt OPERation SHUTdown PTRans_ See Table 4 11 on page 447 Yes Shutdown Positive ition lt status enable gt Transition Register Query Operation STATus lt channel gt OPERation SHUTdown PROTec_ See Table 4 11 on page 4 47 N A Status Shutdown Protection Condition Register tion CONDition 2u 1 J Y PULWWOD 14S NXT0 dOdX WL EZ Table C 10 Status Commands Set Operation Status STATus lt channel gt OPERation SHU
88. COO CO OOO oug AUXA AUXB AUTO SEQ ENN ADR RQ pares VP OTP PONER Master lave Pause rigger amp Set CL MT UTOFF _Int rlock out ON A A A A A A A A A A A 0O 0 OM d 4 D 46 Figure 1 5 Front Panel Display Status Annunciators TM XDOP 01XN Display 1 9 About The XDC Power Supply Table 1 6 Item Descriptions for Figure 1 5 Item Description 1 AUX A Condition selected for auxiliary line A is TRUE 2 Master Power supply is selected to be the master in current share configurations 3 Master Power supply is selected to be the master in current share configurations 4 Slave Power supply is selected to act as a slave in current share configurations 5 AUTO Power supply is in auto sequence operation Pause Auto sequence program is paused Output is still on Press RUN PAUSE key to continue 7 SEQ Power supply is in auto sequence setup mode if Set is also turned on or in auto sequence operation 8 Trigger Auto sequence program is waiting for a trigger signal to continue execution 9 ERR An error has occurred 10 Set Setting or setpoint is to be entered 11 ADR Power supply is being addressed receiving data All remote digital interfaces 12 LCL Power supply is under local front panel control 13 SRQ Service request GPIB only
89. CPI command STATus lt channel gt OPERation EVENt Query Operation Status Register Condition SCPI command STATus lt channel gt OPERation CONDition Enable Operation Status Register SCPI command STATus lt channel gt OPERation ENABle lt status enable gt Query Format STATus lt channel gt OPERation ENABle Set Operation Status Positive Transition Filter SCPI command STATus lt channel gt OPERation PTRansition lt status enable gt Query Format STATus lt channel gt OPERation PTRansition Set Operation Status Negative Transition Filter SCPI command STATus lt channel gt OPERation NTRansition lt status enable gt Query Format STATus lt channel gt OPERation NTRansition 4 62 TM XDOP O1XN TM XDOP 01XN Regulating Sub Register Commands Query Regulating Event SCPI command SCPI Commands for Digital Interfaces STATus lt channel gt OPERation REGulating EVENt Query Regulating Condition SCPI command STATus lt channel gt OPERation REGulating CONDition Enable Regulating Sub Register SCPI command STATus lt channel gt OPERation REGulating ENABle lt status enable gt Query format STATus lt channel gt OPERation REGulating ENABle Set Regulating Positive Transition Filter SCPI c
90. E and CURRENT keys Knobs should be locked out whenever you do not want someone to accidentally adjust the supply settings while the unit is operating in local mode To lock out both knobs Step Do This You Will See 1 ERROR MSGS MENU 2 KNOB LOCKOUT ie until you see the KNOB LOCKOUT option 3 ENTER Lock V Knob N 4 Lock V Knob Y Lock I Knob N ENTER The Voltage knob is locked out Lock I Knob Y OOOO The setting is saved and the display returns to its default operating mode ENTER If you attempt to use either knob the display shows Knobs Locked and there is no effect on the output TM XDOP 01XN Power Supply Operation To lock out only the Voltage knob Step Do This You Will See 1 ERROR MSGS MENU 2 KNOB LOCKOUT 8 until you see the KNOB LOCKOUT option 3 ENTER Lock V Knob N 4 Lock V Knob Y Lock I Knob N ENTER The Voltage knob is locked out The Current knob is not locked out This setting is saved and the display returns to its default operating mode ENTER O08 If you attempt to use the Voltage knob the display shows V Knob Locked and the output is not affected If you attempt to use the Current knob the knob operates normally You can also lock the Current knob without locking the Voltage knob To unlock the knobs repeat the steps above and select N for Lock _ Knob Set V I and P Limits The voltage current and power setpoints can be limited
91. LEVel lt current gt MIN MAX The string CAL CURR LEV MIN sets the current calibration level to the minimum model value Using Queries A question mark lets you query the present value for most parameters For example to query the current calibration state use CAL SEC STAT You can also use the following to query minimum and maximum allowed values for most parameters VOLT MIN VOLT MAX Important If you send 2 queries it is best to read and respond to the first response before trying to read the second Otherwise you may receive an incomplete first response followed by a complete second response To avoid this you can either wait for and read the first response before sending the second query or send a device clear message before sending the second query C 6 TM XDOP O1XN Using SCPI Commands Terminating Characters Every command string must end with a terminating lt new line gt character An IEEE 488 EOI end or identify can be used instead of a lt new line gt character It is also acceptable to use a lt carriage return gt followed by a lt new line gt Terminating a command string always resets the SCPI command path to the root level Common Commands TM XDOP 01XN The IEEE 488 2 standard includes a set of common commands for functions such as reset and self test These common commands always start with an asterisk contain 4 or 5 characters and may have one or more
92. MSGS 2 Cw o Gnceor enw AUTO SEQ PGM 3 Sequence 1 i g A D or C vW gt Use the scroll keys to Sequence select a sequence to work with 5 enter Edit Sequence A or W Use the scroll keys to pel Repeaty select the Set Repeat option 7 Run Once 3 A or W Use the scroll keys to eee select the number of times to run the sequence e Once will run the sequence once e 2 to 9999 times will run the sequence the specified number of times e Forever will run the sequence forever 9 Edit Sequence 10 The sequence s repeat times has now been changed Select another sequence to work with or escape by pressing exit TM XDOP O1XN Power Supply Operation Editing Trigger Source of a Sequence TM XDOP 01XN When steps are programmed to advance step by trigger this option allows you to edit the source of those trigger events To edit the sequence s trigger source Step Do This You Will See 1 ERROR MSGS 3 Sequence 1 4 A or W Use the scroll keys to Bequence select a sequence to work with 5 enter Edit Sequence 6 A or W Use the scroll keys to Trig S rce select the Trig Source option 7 Trig From Man 8 A or W Use the scroll keys to Trig from 4 select the trigger source e Man is triggered by pressing the trigger key e Ext is triggered by the rear external trigger line e Imm is triggered by receiving an INIT IMM command e Bus is triggered by a GPIB GET command or a TRG
93. N The power supply is too heavy for one person to safely lift and mount To avoid injury ask a co worker for assistance 3 While your assistant s holds the unit steady fasten it to the rack by inserting bolts through the mounting brackets on either side of the front panel and securing them with a washer and nut 4 The front panel mounting brackets are designed to prevent the unit from sliding out of the rack not to support its full weight Provide adequate support for the rear of the unit without obstructing the ventilation inlets Use slide rails as illustrated in Figure 2 3 or slide brackets attached to the 8 32 mounting holes on each side of the unit Follow the manufacturer s instructions to install rails or slides 2 4 TM XDOP O1XN Location Mounting and Ventilation Figure 2 2 Unpacking the Power Supply 6000 Watt shown TM XDOP 01XN 2 5 Installation Figure 2 3 Mounting the Power Supply in the Rack With Support Rails 6000 W shown a Available from rack or cabinet vendors e g Schroff part number 30150 094 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 See Specifications and Characteristics on page A 1 for the operating ambient tem
94. ONFIG Factory default Set output on off Last setting Set output on off User setting Select 1 to 10 Set output on off Auto sequence Select to 10 Set output on off S D RECOVERY Select OTP Select AC Off recovery recovery REMOTE Select remote interface SELECT TM XDOP 01XN 1 7 About The XDC Power Supply Table 1 4 Front Panel Functions REMOTE RS 232 Select baud rate Select flow CONFIG GPIB Select address control Analog Select input voltage Select PON SRQ Multichannel range Select address AUTO SEQ PGM Select Sequence Edit Sequence Select Step Edit Step Enter Value Duration To Next Step or EXIT to finish Insert Step Delete Step Set Repeat Select repetitions for sequence Trig Source Select trigger source Delete SequenceConfirm delete CURRENT No sharing SHARE Master Display summed Select Yor N Slave current POWER Set power SETPOINT DISPLAY Set display config CONFIG KNOB LOCKOUT Lock voltage knob Lock current knob SETPOINT LIMIT Voltage limit Enter max limit Enter min limit Current limit Enter max limit Enter min limit Power limit Enter max limit Enter min limit SLEW RATE Voltage slew Enter voltage step Enter time Voltage slew default interval CALIBRATION Calibrate voltage Calibrate current Calibrate analog 5V voltage programming Calibrate analog 5V voltage readback Calibrate analog 5V current programming Calibrate analog 5V current readback Calibrate analog 10V voltage programming Calibrat
95. Plevel gt DWEL lt time gt TRIG EP lt step_number gt DELete An error will result if the last step with the end action is deleted without a new end action programmed to take its place Deleting Sequences If you no longer need a sequence select it with the PROG NAME command and then delete it with the following PROGram DELete You can also use the following to delete all sequences PROGram DELete ALL TM XDOP 01XN Remote Operation Auto Sequence Operation Select Sequence to Run PROGram NAM where lt seq E lt sequence_number gt uence_number gt can range from 1 to 10 Operation Running PROGram STATe RUN PAUSe STOP e Once the programmed sequence has been selected you can start it by setting the state to RUN by sending the command PROG STAT RUN e At any time you can pause the sequence by sending PROG STAT PAUS A paused sequence will cause the supply to hold the output levels at the setpoints programmed by the current step To resume set the state to RUN again e To end the sequence operation send the command PROG STAT STOP Sending RUN will restart the auto sequence program from the first step e You can query the state of the selected auto sequence program with PROG STAT Trigger If the auto sequence was programmed to wait for a trigger the power supply holds the output levels at the programmed setpoints until a trigger is received It then advances to the nex
96. Power Supply 3 2 Powering OFF the Power Supply 3 2 Power Supply Operating States 3 3 Power Supply Regulation Modes 3 4 Remote Control Modes eee 3 5 Front Panel Controls 3 5 Function Keys 3 5 Menu Navigation 3 6 Top Level Menu Items 3 6 Control Knobs eee 3 7 Power Supply Operation 3 8 Set Voltage 3 8 Set Current 3 8 Set Power 3 9 Turn Output On or Off 3 9 Set Output Protection 3 10 Set Shutdown Recovery for AC Off and OTP 3 15 Respond to Alarms 3 16 Shutdown vs Protection Alarm 3 17 Set Up Remote Control
97. Power supplies controlled via multichannel have full capabilities including changing REM LCL modes and calibration Any power supply may send multichannel commands if they are connected to a PC via RS 232 or GPIB A power supply will attempt to connect to the network e on power up and e when the multichannel address is changed Note that slave units have an automatic readdressing capability when in multichannel mode A slave unit will attempt another address when it is added to a string with an address that is already taken If no new address can be found then the following error will be queued Error 1702 Multichannel address taken is queued if the power supply fails to connect SCPI Remote Control RCONtrol subregister will indicate the status of the connection A power supply that has been disabled will not have any bits set Use the SCPI command STAT OPER RCON COND to query the condition of the multichannel interface See Table 4 13 Remote CONtrol Sub Register on page 4 49 for a description of the bits in this register 4 14 TM XDOP O1XN Multichannel Operation Multichannel Commands To send a command to a multichannel power supply attach the channel address to the command If no channel number is specified the command will be executed by the directly connected power supply For example the command SOURCE12 VOLT 10 0 will set the power supply with address 12 to 10V output The mas
98. RS 232 ENTER DD T Select desired option ENTER Analog I Setting is saved Press the LCL RMT button to begin remote operation via the analog interface SCPI To select which setpoints to control via analog programming lines use the command SYST RI Where EM SOUR AVOL ACUR AVC e AVOL Analog VOLtage selects only voltage to be programmed via the analog programming lines e ACUR Analog CURrent selects only current to be programmed via the analog programming lines e AVC Analog Voltage and Current selects voltage and current to be programmed via the analog programming lines To select the voltage level SYST COMM APR LI Where EV 5 10 5 is the 0 5V range and 10 is the 0 10V range To put the unit into remote control SYST RI TM XDOP 01XN EM STAT RI EM 4 9 Remote Operation Using Remote Analog Control Connect your programming voltage sources and monitors ensuring that the appropriate 0 5V or 0O 10V range has been configured and selected See Select Remote Control Source on page 3 19 With the Analog Control mode selected varying the programming source from 0 to 5V or 10 will vary the output voltage or current from 0 to its rated maximum A voltage in the range of 0 5V or 10 on the corresponding monitor line is proportional to 0 100 of the rated output The output V and I readback lines are active for all operating modes as are the user i
99. See Auto Sequencing on page 4 37 All these options can be accessed from the Front Panel menus or remotely through a set of digital commands The instructions that follow show how to work remotely through SCPI commands Refer to Table 3 1 Settings Affected by Recall on page 3 25 for more details Factory Preset Selecting Factory Preset lets you restore the factory defaults the next time the power supply is powered ON To power on factory settings OUTP PON REC PRES To check the current user setting OUTP PON REC The response should be PRES which stands for PRESet 4 22 TM XDOP O1XN Last Setting User Setting Auto Sequence TM XDOP 01XN SCPI Commands for Digital Interfaces Selecting Last Setting lets you restore the settings that are in use when the power supply is powered off the next time it is powered on To power on the last stored setting OUTP PON REC LAST To check the current user setting OUTP PON REC The response should be LAST Selecting User Setting lets you restore a custom setting next time the unit is powered on This assumes that at least one user setting has been set up and stored in memory See Store User Settings on page 3 21 To power on user setting 1 OUTP PON REC USER1 To check the setting OUTP PON REC The response should be USER1 The user setting must be in the range of 1 10 See Store User Settin
100. T e Blank spaces separate command keywords from parameter values For example CURR 0 1 e Commas separate parameters from each other when more than one parameter is sent in the same string For example CAL STAT OFF 1234 e Semicolons separate multiple commands from the same subsystem This allows for greater efficiency For example CAL CURR LEV MIN VOLT LEV MIN is the same as typing CAL CURR LEV MIN CAL VOLT LEV MIN e Colons and semicolons can be used together to link commands from different subsystems For example CAL CURR LEV MIN MEAS CURR C 5 SCPI Command Reference The following punctuation is not sent with the command string e Braces identify a selection of choices Choose one of the enclosed values e Vertical bars or pipes separate the choices found within the braces e Angle brackets lt gt identify where specific values must be entered for a parameter For example in the example at the top of the page the parameter lt current gt appears in the command string To set the current setpoint to 0 1A the syntax is CAL CURR LEV 0 1 e Square brackets identify optional parameters If an optional parameter is not sent with the command string a default parameter is sent in its place Using Minimum and Maximum In the following example Minimum and Maximum are offered as alternative choices to declaring a specific parameter value CAL CURRent
101. THODE AS 5VC 100K GND_ USER F aT R94 caL USER LINES Q 1uF T i VCC_ USER GNDC 5ve 0 R23 VCC_USER L GND_USER 4K65 z U3 R29 1 s vA USER_ LINE2 gt 51 KeA 5 a CNY17 2 100K GND_ USER R95 ip a 508 Ohm l 0 4W R12 R7 R4 RI 5VC _ U2 CNY17 2 127R 127R 127R 127R DA USER_ TRIG gt 5 als GND_ USER 2 WW D2 p 5VC 100K i R22 R96 c 4k65 Ane 508 Ohm Q 1uF GNDC i 0 4W GNDC R6 R5 R2 R3 g 5vC U1 CNY17 2 127R 127R 127R 127R USER_ SHUTDOWN ERE 2 TAEI D1 Vf 1 3V TYP 1 5V MAX R21 R97 z T If 10mA Recommended 90mA MAX 4K65 1N4148W GNDC Figure 4 2 Schematic For User Line Interface 4 6 TM XDOP 01XN Remote Analog Operation Table 4 2 Analog Programming Pins Pin Function Input Output Bl Analog Programming GND Output B2 12V unregulated 10mA max Output B3 Voltage Setpoint 0 5 10V Input B4 Current Setpoint 0O 5 10V Input B5 Voltage Readback 0 5 10V Output B6 Current Readback 0 5 10V Output The analog setpoint and readback pins may be configured to work in either a 0 5V range or 0 10V range The programming lines have their own isolated power source 10mA max and this power can be looped back to power the user lines if required Connect the pins as shown in Table 4 3 Table 4 3 Analog Pin Connections for Power Loop Back Programming Line Pin User Line Pin Bl to A7 B2 to A6 Remote Interlock Using a Contact Closure The interlock input may b
102. Tdown PROTec See Table 4 11 on page 447 Yes Shutdown tion ENABle lt status enable gt Protection Enable Register Query Operation STATus lt channel gt OPERation SHUTdown PROTec See Table 4 11 on page 447 N A Status Shutdown tion EVENt Protection Event Register Set Operation Status STATus lt channel gt OPERation SHUTdown PROTec See Table 4 11 on page 4 47 Yes Shutdown tion NTRansition lt status enable gt Protection Negative Transition Register Set Operation Status STATus lt channel gt OPERation SHUTdown PROTec See Table 4 11 on page 4 47 Yes Shutdown tion PTRansition lt status enable gt Protection Positive Transition Register Preset Enable STATus lt channel gt PRESet N A Positive Transition and Negative Transition Status Registers Query Questionable STATus lt channel gt QUEStionable CONDition See Table 4 15 on page 4 52 N A Status Condition Register Set Questionable STATus lt channel gt QUEStionable ENABle See Table 4 15 on page 4 52 Yes Status Enable lt status enable gt Register Query Questionable STATus lt channel gt QUEStionable EVENt See Table 4 15 on page 4 52 N A Status Event Register Set Questionable STATus lt channel gt QUEStionable NTRansition See Table 4 15 on page 4 52 Yes Status Negative lt status enable gt Transition Register Ayeuiuing puewwos 149s NXT0 dOdX WL
103. Technology Inc as well as its products and services at www xantrex com TM XDOP 01XN vi Important Safety Instructions A 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 gt WARNING Limitations on use The XDC is not intended for use in connection with life support systems or other medical equipment or devices gt 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 brea
104. To set up to calibrate the analog programming interface you will need a DC power source capable of outputting 0 to 5V and a DVM Table 4 2 Analog Programming Pins on page 4 7 Analog Programming Interface Voltage Programming Calibration 1 Connect the power source across the voltage programming lines Pins B3 and B1 GND Attach a DVM across the voltage programming lines as well Minimum calibration level Set the input to the programming lines to approximately 0 5V 10 of full scale Set the power supply to receive 5V analog voltage programming calibration data with the command CAL ANAL 5V PROG VOLT LEV MIN Enter voltage data Enter the voltage at the voltage programming lines read from the external DVM CAL ANAL 5V PROG VOLT DATA lt voltage gt Maximum calibration level Set the input to the programming lines to approximately 4 5V 90 of full scale Set the power supply to receive 5V analog voltage programming calibration data with the command CAL ANAL 5V PROG VOLT LEV MAX Enter voltage data Enter the voltage at the voltage programming lines read from the external DVM CAL ANAL 5V PROG VOLT DATA lt voltage gt Power supply calculates and stores calibration constants TM XDOP O1XN Remote Interface Calibration Procedure Analog Programming Interface Voltage Readback Calibration 6 Attach a DVM across the voltage readback lines Pins B5 and B1 GND Minimum calibration le
105. Warranty gives you specific legal rights You may have other rights which may vary from state to state or province to province WA 2 TM XDOP O1XN 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 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 When you contact Xantrex to obtain service please have your instruction manual ready for reference and be prepared to supply e The serial number of your product e Information about the installation and use of the unit e Information about the failure and or reason for the return e A copy of your dated proof of purchase Record these details in Information About Your System on page WA 4 Return Procedure 1 Package the unit safely 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 e The RMA number supplied by Xantrex Technology Inc clearly marked on the outside of the box e A return address where the unit c
106. Watt low and medium voltage TM XDOP 01XN 2 19 Installation Output Strain Relief Cover See Figure 2 8 and Figure 2 9 for installation of the output cover Use this cover to protect users from accidental contact with the bus bars and to clamp output cables in place Figure 2 8 Output Bus Bar Cover for 6000 Watt units low and medium voltage 2 20 TM XDOP O1XN Load Connections e N Tarama Tata TTA TERRETRERNARM Y ERRER 7 WHORE y T 7 SE is aan S TERR SARANA Mme a A WERE SE SEREAS A e a Ons lt neamen ay WS 2 21 Figure 2 9 Output for 12000 Watt units low and medium voltage TM XDOP 01XN Installation f 299999599 QSVaVeesg RNA Figure 2 10 Output Cover with Strain Relief for 6000 Watt units high voltage 300 600V TM XDOP O1XN 2 22 Load Connections he Se Sa Sa ta Sa Sa Sa Sa Sa Sa ta a aA TERERANANUNARNNMNNM ARATE EStaiain is ie eininiStein inane leinianu WA RM AAT ALATA AAP OAT AA GAR A A Figure 2 11 Output for 12000 Watt units high voltage 300 600V 2 23 TM XDOP 01XN Installation 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 tra
107. able STATus lt channel gt SREQuest ENABle lt status Register bits enable gt Read Status Byte STB Read the status byte and Master N A STATus lt channel gt SBYTe EVENt Summary Status bit Kewwns puewwos 149s cL 9 NXT0 dOdX WL Table C1 IEEE 488 2 Commands Trigger TRG Trigger commands Analogous to N A the IEEE 488 1 defined Group Execute Trigger interface message See IEEE 488 2 section 6 1 4 2 5 Self Test Query TST Internal self test and responds N A SYSTem lt channel gt TEST indicating whether or not the device completed the self test without any detected errors Wait To Continue WAI Prevents the device from N A SySTem lt channel gt WAIT executing any further commands or queries until the no operation pending flag is TRUE OPC Table G2 Readback Commands Read Output MEASure lt channel gt SCALar CURRent DC Read output current N A Current Read Output Power MEASure lt channel gt SCALar POWer DC Read output power N A Read Output MEASure lt channel gt SCALar VOLTage DC Read output voltage N A Voltage QDUBAJOY PULWIWOD 14S NXT0 dOdX WL T D Table G3 Contrands for Output Control Set Immediate SOURce lt channel gt CURRent LEVel IMMediat Change current setpoint Yes Current Setpoint e
108. ack current programming and current readback need to be calibrated All calibration data is taken at 10 and 90 of the rated outputs The setting and readback accuracy of the power supply should be checked annually and calibration done only if the unit is not operating within its specification Important POWER is calculated from voltage and current readback The OTP and AC off protection mechanisms are operational during calibration All other protection mechanisms are disabled TM XDOP O1XN Entering Calibration Mode Entering Calibration Mode CAUTION Calibration procedures should only be performed by qualified users Failure to adhere to this warning may cause damage to the power supply or pose a safety hazard for the user Front Panel TM XDOP 01XN Calibration mode can be entered from the front panel by selecting CALIBRATION from the main menu or by using the change calibration state SCPI command To access calibration mode via the front panel Step Do This You Will See 1 2 3 ERROR MSGS Ca Press 2 times CALIBRATION Code HHH Enter the calibration security code The Code 0000 factory code is 0000 You are now in the Output V Cal Calibration menu If your password code is incorrect the prompt displays Incorrect code and automatically returns to Code Either try again or press EXIT to escape If your password code is correct the prompt displays Output V C
109. al This is the first of 12 available options The 12 sets of parameters that must be adjusted during calibration are Output V Cal Calibrate voltage output and readback Output I Cal Calibrate current output and readback ANLG V PGM 5V Calibrate 5V analog programming interface for setting voltage output ANLG V RB 5V Calibrate 5V analog programming interface for monitoring voltage output ANLG I PGM 5V Calibrate 5V analog programming interface for setting current output ANLG I RB 5V Calibrate 5V analog programming interface for monitoring current output B 3 Calibration 6000 Watt only SCPI B 4 To CA To CA ANLG V PGM 10V Calibrate 10V analog programming interface for setting voltage output ANLG V RB 10V Calibrate 10V analog programming interface for monitoring voltage output ANLG I PGM 10V Calibrate 10V analog programming interface for setting current output ANLG I RB 10V Calibrate 10V analog programming interface for monitoring current output Factory Cal Lets you restore the factory calibration constants Change Code Lets you change the password code access calibration mode via remote interface use the command L STAT ON 0000 check if the power supply is in calibration mode use the command Lie SEATS vie 1 where the parameter 0000 may be replaced with your own 4 digit security code TM XDOP 01XN Security code TM XDOP 01XN Enteri
110. am next time the unit is powered on Assumes at least one program has been saved in memory See Using Auto Sequencing on page 3 42 To select Auto Sequence Step Do This 2 MENU 2 times 4 6 Cc to select a You can also press the Down arrow 2 times b You can also press the Down arrow 3 times c You can scroll through up to 10 stored programs You Will See ERROR MSGS PON CONFIG Last Setting Auto Sequence Auto Seq The default display for the selected operating mode TM XDOP O1XN Power Supply Operation Program Auto Sequence The AUTO SEQ PGM menu option is used to set up command programs for automated operation There are 10 programmable sequences with up to 99 steps per sequence Each sequence can be repeated a programmable number of times or forever If the sequence contains steps that advance by a trigger event a single trigger source can be selected to advance those steps Each step can be programmed to set the voltage setpoint current setpoint power setpoint and OVP level automatically Each step can also be programmed to advance by a delayed time or a trigger event The duration of each step may range from 10 ms to 99 hours Programming a Sequence TM XDOP 01XN This option allows you to set up command programs for automated operation To program a sequence Impo rtant In the following procedure only change the default setpoints if required Otherwise simp
111. an be shipped Post office boxes are not acceptable e A contact telephone number where you can be reached during work hours e A brief description of the problem 3 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 TM XDOP 01XN WA 3 Warranty and Product Information Out of Warranty Service If the warranty period for your XDC 6000 Watt and 12000 Watt Series Digital Programmable Power Supply has expired if the unit was damaged by misuse or incorrect installation if other conditions of the warranty have not been met or if no dated proof of purchase is available your inverter may be serviced or replaced for a flat fee To return your XDC 6000 Watt and 12000 Watt Series Digital Programmable Power Supply for out of warranty service contact Xantrex Customer Service for a Return Material Authorization RMA number and follow the other steps outlined in Return Procedure on page WA 3 Paym
112. and local modes press the LCL RMT button or the command SYST REM STAT REM LOC RWL If you are in local mode you may still communicate receive responses to queries but you may not change any settings Attempting to do so will cause Error 221 Settings conflict TM XDOP O1XN GPIB Operation GPIB Operation GPIB Connection The GPIB port is a special GPIB female connector Table 4 7 describes the pin functions Pin 12 is not used Table 4 7 GPIB Pins Pin Function 1 D1 2 D2 3 D3 4 D4 5 EOI 6 DAV 7 NRFD 8 NDAC 9 IFC 10 SRQ 11 ATN 12 Not used 13 D5 14 D6 15 D7 16 D8 17 REN 18 Ground 19 Ground 20 Ground 21 Ground 22 Ground 23 Ground 24 Ground TM XDOP 01XN 4 19 Remote Operation Configuration Front panel Configure the power supply s GPIB address and power on service request setting The defaults are GPIB address 2 and power on service request off First set the GPIB parameters Step Do This 1 2 3 4 ENTER 5 Select an address from 1 30 ENTER Select whether power on service request is to be sent 8 ENTER You Will See ERROR MSGS REMOTE CONFIG RS 232 Cfg GPIB Cfg GPIB Addr GPIB Addr 2 PON SRQ Y Options are Y Yes or N No Settings are saved Next select GPIB as the remote control interface Step Do This a 4 times Select GPIB 5 ENTER You Will See ERROR MSGS REMOTE SELECT RS 232 GPIB
113. annel use STATus lt channel gt STANdard ENABle lt status enable gt STATus lt channel gt STANdard ENAB1e Standard Event Status Register The Standard Event Status Register query allows the user to determine the current contents of the Standard Event Status Register See Standard Event Status Register on page 4 54 Reading this register clears it Command ESR SCPI equivalent for multichannel use STATus lt channel gt STANdard EVENt Service Request Enable Register The Service Request Enable Register allows the user to select the reasons for the power supply to issue a service request The Service Request Enable Register allows the user to select which summary messages in the Status Byte Register may cause service requests 4 59 Remote Operation To clear the Service Request Enable Register send SRE 0 The Power on Status Clear command also determines if the Service Request Enable Register is cleared at power on A cleared register does not allow status information to generate a service request E g Sending SRE 8 sets bit 3 of the Service Request Enable Register This will cause the Summary bit of the Questionable Status register bit 3 in the Status Byte to generate a service request message whenever it gets set Command SRE lt Service Request Enable gt SRE SCPI equivalent for multichannel use STATus lt channel gt
114. ar panel diagram Figure 1 6 in Chapter 1 Basic Setup Procedure Table 2 1 provides a summary of the setup procedure and an overview of the subsections in this chapter Use this table as a quick reference if you are familiar with the installation requirements for the power supply If you require more information each step in the table refers to a subsequent section which contains more details Complete each step in the sequence given Table 2 1 Basic Setup Procedure Step Description 1 Inspection Cleaning and Packaging Inspection Installation Input Power Test Select Wires Connect Load Connect Remote Sensing if required Initial Inspection 2 2 Action Visually inspect the power supply Install the power supply ensuring adequate ventilation Connect AC input power Perform functional tests for voltage mode operation current mode operation and front panel controls Select wires that can tolerate the DC current output Connect the load wires to the DC output Connect remote sensing connectors on power supply to load Reference Inspection Cleaning and Packaging on page 2 2 Location Mounting and Ventilation on page 2 4 AC Input Power on page 2 7 Basic Checks or Self Tests on page 2 13 Load Wiring on page 2 16 Load Connections on page 2 18 Remote Sensing on page 2 24 When you receive your power supply do a quick visual check 1
115. ate of current Yes Sequence operating RUN PAUSe STOP auto sequence state Skip to the next step PROGram lt channel gt SELected STEP NEXT Skip to start of next step Errorif N A while running in STATe is not RUN auto sequence Read selected PROGram lt channel gt SELected COUNt Read number of programmed Yes sequence number of steps in selected sequence steps Delete selected PROGram lt channel gt SELected STEP lt step_numb Delete the selected sequence step N A sequence step er gt DELete Exit a selected PROGram lt channel gt SELected EXIT Exit a selected sequence N A sequence Read current step PROGram lt channel gt SELected STEP EXECuting Query current step in execution N A number Edit selected PROGram lt channel gt SELected STEP lt step_numb Edit the selected sequence step Yes sequence step er gt EDIT LL lt voltage gt lt current gt lt power gt lt OVP_level gt lt time gt TRIG Insert step into PROGram lt channel gt SELected STEP lt step_numb Insert a step into the selected N A selected sequence er gt INSert sequence lt voltage gt lt current gt lt power gt lt OVP_level gt lt step_time TRIG Program selected PROGram lt channel gt SELected STEP lt step_numb Edit program step current of Yes sequence step current er gt CURRent lt current gt selected sequence Kewwns puewwos 149s
116. att and 12000 Watt Series Digital Programmable Power Supply This warranty period lasts for 5 five years from the date of purchase at the point of sale to you the original end user customer You require proof of purchase to make warranty claims 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 Unite
117. ature protection auto recovery 3 15 latched 3 15 OVP display annunciator 1 10 P Pause display annunciator 1 10 3 42 PON CONFIG menu item 3 6 power bar graph 1 9 power limit setting 3 48 power on 1 12 power on settings auto sequence 3 32 configuring 3 29 factory preset 3 30 last setting 3 32 user setting 3 31 power on test 2 13 power output setpoint 3 9 power output viewing 3 51 POWER SETPT menu item 3 6 powering off 3 2 powering on 3 2 power on operating state 3 3 programming capability 1 2 proof of purchase WA 4 PROT SET key 1 5 3 6 protection 3 10 AC off 4 33 clearing 4 33 fold 3 14 4 32 over current OCP 3 12 4 30 over power OPP 3 13 4 31 over temperature OTP 4 32 over voltage OVP 3 11 4 29 shutdown recovery 3 15 under current UCP 3 12 4 30 under power UPP 3 13 4 31 under voltage UVP 3 11 4 29 purchase date WA 4 TM XDOP O1XN Q query errors list of D 6 R rack mounting illustrated 2 6 procedure 2 4 readback configure display 3 43 default display 3 51 readback capability 1 2 rear panel described 1 11 illustrated 1 11 RECALL key 1 6 3 6 recall memory options auto sequence 3 23 factory preset 3 23 last setting 3 23 user settings 3 23 regulation modes automatic mode crossover 3 4 constant current 3 4 constant power 3 4 constant voltage 3 4 REMOTE CONFIG menu item 3 6 remote control configuring remote control source 3 20 selecting
118. ave s RS 232 port If the unit is to execute commands set the power supply to accept control via multichannel commands the CANbus interface with the SCPI command SYSTem REMote SOURce MCHannel TM XDOP O1XN Setup Multichannel Operation Connect power supplies to be controlled via the CANbus network Parallel male DB9 to female DB9 cables N 1 are required Connect the power supplies in series linking the first power supply to the second using one cable and then the second to the third using a second cable and the second CAN port A single ribbon cable with multiple connectors may be used instead of several cables for ease of connection Terminate the bus at each end with a 120 ohm 1 4 Watt resistor included across the CAN HI and CAN LO signals Pins 2 and 7 See Table 4 5 CANbus Pins on page 4 11 At least one power supply should be connected to a PC via RS 232 or GPIB for multichannel functionality Configure each of the power supplies with a unique address as described in the configuration section Addresses may be in the range 1 to 50 inclusive Turn the power supplies on one at a time setting the remote control source of each power supply which will accept commands to multichannel See Figure 4 3 Figure 4 3 Connections for Multichannel Operation TM XDOP 01XN Remote Operation Using Multichannel Operation Once the power supplies have been configured and connected you may power them on
119. be active and multiple actions will be required to restart the unit The protection shutdown sub register indicates which protection mechanisms have caused the power supply to shutdown Table 4 11 SHUTdown Sub Register Bit Bit Weight Bit Name Description 0 1 PROTection The power supply is shut down by a power supply protection Summary mechanism 1 2 INTerlock The power supply is shut down by INTerlock signal 2 4 COMMand The power supply is shut down by a command TM XDOP 01XN 4 47 Remote Operation Protection SHUTdown Sub Register Table 4 12 Protection SHUTdown Sub Register Bit Bit Weight 0 1 1 2 2 4 3 8 4 16 5 32 6 64 7 128 8 256 9 512 10 1024 Bit Name Over VOLTage Under VOLTage Over CURrent Under CURrent Over POWer Under POWer AC Off Over TEMPerature SENSe FOLDback ASlave Description Over voltage protection has tripped Under voltage protection has tripped Over current protection has tripped Under current protection has tripped Over power protection has tripped Under power protection has tripped AC Off protection has tripped Over temperature protection has tripped Sense protection has tripped Foldback protection has tripped 12000 Watt Analog slave has shutdown due to a protection event in the slave unit TM XDOP O1XN Remote CONtrol Sub Register SCPI Commands for Digital Interfaces This identifies which remote interface is controlling the unit Only one bit is active at a time w
120. calibration data by sending the command CAL ANAL 5V PROG CURR LEV MAX Calibration 6000 Watt only 5 6 Enter voltage data Enter the voltage at the current programming lines read from the external DVM CAL ANAL 5V PROG CURR DATA lt voltage gt Power supply calculates and stores calibration constants Analog Programming Interface Current Readback Calibration 6 Attach a DVM across the current readback lines Pins B6 and B1 GND Minimum calibration level Set the current readback lines to approximately 10 of full scale by sending the command CAL ANAL 5V READ CURR LEV MIN Enter voltage data Enter the voltage across the current readback lines read from the external DVM CAL ANAL 5V READ CURR DATA lt voltage gt Maximum calibration level Set the current readback lines to approximately 90 of full scale by sending the command CAL ANAL 5V READ CURR LEV MAX Enter voltage data Enter the voltage across the current readback lines read from the external DVM CAL ANAL 5V READ CURR DATA lt voltage gt Power supply calculates and stores calibration constants Analog Programming Interface 0 10V Range The 0 10V range of the analog programming interface must be calibrated separately Follow the procedure exactly as for calibrating the 0 5V range except that all the analog signals will be scaled by a factor of 2 The commands will begin with the header CAL ANAL 10V
121. cation for 6000 Watt Units AC Input Voltage Range Wire 190 242Vac 47 63Hz 4x 10 AWG 3 wire plus safety ground stranded _ 3 phase 4 wire standard copper 60 C minimum 300V 0 800 in maximum cable diameter rated for 25A 342 500Vac 47 63Hz 4x 14 AWG 3 wire plus safety ground stranded 3 phase 4 wire HV Input copper 60 C minimum 600V 0 800 in maximum cable diameter rated for 13A Table 2 3 AC Wire Specification for 12000 Watt Units AC Input Voltage Range Wire 190 242 Vac 47 63Hz 4x 6 AWG 3 wire plus safety ground stranded 3 phase 4 wire standard copper 60 C minimum 300V outside diameter OD of cable is lt 1 in rated for 50 A 342 500Vac 47 63Hz 4x 10 AWG 3 wire plus safety ground stranded 3 phase 4 wire HV Input copper 60 C minimum 600V outside diameter OD of cable is lt 1 in rated for 25 A TM XDOP O1XN AC Input Power AC Wire Input Connection for 6000 W See Figure 2 5 on page 2 10 To connect the 6000 W AC input wires 1 9 Ensure that the AC input cord is de energized and that the power switch on the front of the power supply is OFF Strip approximately 4 in 10 cm from the jacket of the AC wire Strip 0 55 in 14 mm at the end of each wire Undo the 2 screws for the AC wiring strain relief cover on the rear panel Remove the cover Undo the strain relief screws Insert the AC input cable through the strain relief until the outer cable jacket is fl
122. ccept data 17 MENU key Access all menu functions 1 6 TM XDOP O1XN Table 1 4 Front Panel Functions Front Panel Key Functions Voltage Setpoint Enter voltage Current Setpoint Enter current Output ON OFF Toggle Local Remote Mode Toggle Protection Set OVP level Enter OV level UVP level Enter UV level OCP level Enter OC level UCP level Enter UC level OPP level Enter OP level UPP level Enter UP level Fold Mode Select fold mode S D if tripped S D if tripped S D if tripped S D if tripped S D if tripped Select fold delay Select Yor N Select Yor N Select Yor N Select Y or N Select Yor N Read Alarms Read alarm msgs Store User Setting Select 1 to 10 Recall Factory default Last setting User setting Select 1 to 10 Auto sequence Select 1 to 10 Auto Sequence Operation Run Pause Trigger Stop MENU Access menu functions ENTER Make a selection UP DOWN Scroll to view selections increment numerical entries CE Clear entry Numeric keypad Enter data EXIT Cancel operation Special Key Functions UP View power readback from default window CE Deletes a selected user setting from memory Hold for 2 seconds EXIT Exit auto sequence Menu Function ERROR MSGS Read error msgs USER LINES Aux line A Configure aux line A Set aux line A polarity Aux line B Configure aux line A Set aux line B polarity PON C
123. ck 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 Remote sensing is normally only required for critical loads which cannot tolerate the slight voltage drop in the load lines caused by their resistance Remote sensing has no effect when the power supply is operating in Constant Current mode Two remote sensing connectors are located on the rear panel of the power supply See Figure 1 6 on page 1 11 for location and polarity Connect 2 wires from these ports to the load where the power supply cables terminate for your connection Carefully observe the correct polarity when making the connection On 12000 Watt units connect the sense wires to the connector on the top or master power module The remote sensing input is sensitive to electrical noise so always use a shielded twisted pair 22AWG or greater for the sense line cable Terminate the shield to the supply chassis or the negative output of the power supply for best results TM XDOP O1XN Operation Chapter 3 explains how to power on and power off the power supply It provides information about configuring the power supply and also gives procedures for operating the supply via the front panel controls and menu functions Brief descriptions are provided of Constant Voltage Constant Current and Constant Power
124. command STATus lt channel gt lt status enable gt Query Format STATus lt channel gt TM XDOP 01XN OP OP ERation CSHare ERation CSHare NTRansition NTRansition 4 67 Remote Operation Questionable Status Register Commands Query Questionable Status Register Event SCPI command STATus lt channel gt QUEStionable EVENt Query Questionable Status Register Condition SCPI command STATus lt channel gt QUEStionable CONDition Enable Questionable Status Register SCPI command STATus lt channel gt QUEStionab ENABle lt status enable gt oO Query Format STATus lt channel gt QUEStionable ENABle Set Questionable Status Positive Transition Filter SCPI command STATus lt channel gt QUEStionable PTRansition lt status enable gt Query Format STATus lt channel gt QUEStionable PTRansition Set Questionable Status Negative Transition Filter SCPI command STATus lt channel gt QUEStionable NTRansition lt status enable gt Query Format STATus lt channel gt QUEStionable NTRansition 4 68 TM XDOP O1XN SCPI Commands for Digital Interfaces Voltage Sub Register Commands Query Voltage Sub Register Event SCPI command STATus lt channel gt QUEStionable VOLTage EVENt Query Voltage Sub Register Condition SCPI command
125. command 9 Edit Sequence 10 The sequence s trigger source has now been changed Select another sequence to work with or escape by pressing exit 3 41 Operation Using Auto Sequencing Auto Sequence programs can be set to run as a Power ON default or recalled from memory by pressing the RECALL key In Auto Sequence mode 3 of the function keys operate as alternates e VOLTAGE operates as RUN PA USE e CURRENT operates as TRIGGER e STORE operates as END In the following discussion about running programs in Auto Sequence mode each of the keys mentioned above is referred to as their alternate function When an Auto Sequence program is launched from Recall the AUTO SEQ annunciator illuminates on the front panel Press EXIT to return the unit to normal operating mode Auto sequence programs can operate 3 different ways e They can run automatically through a series of steps repeating those steps a pre set number of times if necessary and complete their operation without intervention from an operator e They can run automatically and be paused If you need to stop the program temporarily you can press PAUSE to stop it and then press RUN to resume the program s operation when ready When a sequence is manually paused the Pause annunciator is illuminated The output remains on and voltage may be present at the output e They can run automatically programmed to wait for a trigger at certain points in the sequence If
126. commands have been provided for use over the multichannel interface The IEEE 488 2 common commands that are supported are CLS PSC lt on_off_state gt ESE RCL lt user_setting gt ESE lt enable_mask gt RST ESR SAV lt user_setting gt IDN SDS OPC SRE OPC SRE lt enable_mask gt OPT STB PRE TRG PRE lt enable_mask gt TST PSC WAI For a detailed listing of all SCPI commands see Table C 1 to Table C 14 Before using a SCPI command familiarize yourself with the information in Using SCPI Commands on page C 5 TM XDOP O1XN Making Connections for Remote Control Making Connections for Remote Control TM XDOP 01XN See Figure 4 1 View of Remote Interface Connections on page 4 3 for the locations of the RS 232 GPIB and CANbus connectors and the locations and the pin numbers of the User Lines and the Analog Programming Lines GPIB and CANbus are optional fo Cele USER LINES PROGRAM LINES CANBUS CANBUS GPIB EAO O gooii odori o LL n z9242237 sHBS88 l l 098 E MADE IN CANADA Zes a A lo Le a 5 ae obol Jo oO o ial T o
127. configuration UVP e Over current protection setpoint and shutdown configuration OCP e Under current protection setpoint and shutdown configuration UCP e Over power protection setpoint and shutdown configuration OPP e Under power protection setpoint and shutdown configuration UPP e Foldback protection mode and delay settings e Over temperature protection auto recovery configuration OTP e AC Off auto recovery configuration ACO e Aux line configuration e Front panel display configuration e Front panel knob lockout e Voltage current and power limits e Triggered voltage current and power setpoints e Trigger source Important All parameters are saved and used when the user setting is recalled Therefore you should set parameters that you do not care about to the factory defaults TM XDOP 01XN 3 21 Operation To create and save a user setting 1 Set up the power supply with all the parameters you require 2 Press store 3 Select a memory location and press to save your settings The following table demonstrates how to set and save current and voltage settings Step Do This 1 VOLTAGE 2 Turn the Voltage knob or use the numeric keypad to enter a voltage setpoint ENTER CURRENT a 5 Turn the Current knob or use the numeric keypad to enter a current setpoint ENTER STORE ENTER You Will See Set H V Set HHV Your voltage setting appears on the display Your
128. ction 11 6 for details 2u 1 J Y PULWWOD 14S NXT0 dOdX WL IT 9 Table C 1 IEEE 488 2 Commands Function SCPI Commands Description Query Query Power On PSC Query Power On Status Clear N A Status Clear STATus lt channel gt POSClear setting Power On Status PSC Controls the automatic power on N A Clear STATus lt channel gt POSClear lt on off state gt clearing of the Service Request Enable Register Standard Event Status Enable Register Parallel Poll Enable Register and other event enable registers Possible values are 0 leave them alone or 1 clear them Recall RCL Restores the settings of unit from N A SYSTem lt channel gt RECall lt setting_location gt values stored in memory Reset RST Performs a device reset Set the N A SYSTem lt channel gt RESet power supply to a known state that is independent of the use history of the device Save User Settings SAV Stores the current setting of the N A SYSTem lt channel gt SAVE USER device in local memory Scope is lt setting_location gt same as RST Save Default SDS Save the factory default settings N A Settings SYSTem lt channel gt SAVE DEFault lt setting_location gt Query Service SRE Query the Service Request Enable N A Request Enable STATus lt channel gt SREQuest ENABle Register bits Service Request SRE Set the Service Request Enable N A En
129. d 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 Telephone 1 800 670 0707 toll free in North America 1 360 925 5097 direct Fax 1 800 994 7828 toll free in North America 1 360 925 5134 direct Email customerservice xantrex com 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 What proof of purchase is required 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 e The dated purchase receipt from the original purchase of the product at point of sale to the end user or e The dated dealer invoice or purchase receipt showing original equipment manufacturer OEM status or e The dated invoice or purchase receipt showing the product exchanged under warranty TM XDOP 01XN WA 1 Warranty and Product Information What does this warranty not cover This Limited Warranty does not cover normal
130. data structures N A STATus lt channel gt CLEAr Standard Event ESE Query the Standard Event Status N A Status Enable Query STATus lt channel gt STANdard ENABle Enable register settings Standard Event ESE Set the Standard Event Status N A Status Enable STATus lt channel gt STANdard ENABle lt E Enable Register bits word gt Standard Event ESR Query Standard Event Status N A Status Register STATus lt channel gt STANDard EVENt Register Query Identification Query IDN Query identification string N A SYSTem lt channel gt IDENtify Manufacturer s information Individual Status IST Reads the current state of the N A Query TEEE 488 1 defined ist local message in the device Operation Complete OPC Causes the device to generate the N A Command operation complete message in the Standard Event Status register when all pending selected device operations have finished Query Operation OPC Place and ASCII character 1 N A Complete into the output queue when all Command pending operations have been finished See IEEE 488 2 1992 section 12 5 3 Option OPT Identify reportable device options N A Identification Query SYSTem lt channel gt OPTIon Parallel Poll Enable PRE Query the Parallel Poll Enable N A Register Query Register setting Parallel Poll Enable PRE lt status enable gt Sets the Parallel Poll Enable N A Register Command Register bits See IEEE 488 2 se
131. e seal the unit in a plastic bag and then pack it into a wooden or sturdy cardboard box large enough to allow 2 in 5cm of cushioning material to surround the unit For cushioning use material such as foam slabs that are capable of supporting the unit 3 Label the box as shown below in Figure 2 1 If shipping mark the service center address and your return address on the carton 5 If storing stack no more than 5 boxes high Check the storage temperature range specification in Appendix A POWER SUPPLY Model Number Serial Number FRAGILE ELECTRONIC EQUIPMENT Figure 2 1 Typical Box Label for Storage TM XDOP 01XN 2 3 Installation 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 AN 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 With the help of at least one other person lift the unit out of its package and slide it into an empty space in a mounting rack equipped with rails that are rated to support the unit s weight See Figure 2 3 On 12000 Watt units remove the temporary lifting handles before installing the unit in a rack CAUTIO
132. e D 1 Command Error List Error code Error Message Description 100 Command error This is the generic syntax error 105 GET not allowed A Group Execute Trigger was received within a program message 114 Header suffix out of range The value of a numeric suffix attached to a program mnemonic is out of range May refer to multichannel addressing auto sequence number or auto sequence step number 120 Numeric data error This error is generated when parsing a data element which appears to be numeric including the non decimal numeric types 123 Exponent too large The magnitude of the exponent was larger than 32000 151 Invalid string data The data with the enclosed double apostrophes string is invalid Possibility of wrong length or character TM XDOP O1XN Execution Error List Execution Error List An error in the range 299 200 indicates that an error has been detected by the instrument s execution control block The occurrence of any error in the class causes the execution error bit bit 4 in the Event Status Register to be set TM XDOP 01XN Execution errors are reported by the device after rounding and expression evaluation operations have taken place Table D 2 Execution Error List Error code Error Message Description 200 203 220 221 222 225 231 240 241 282 Execution error This is the generic error for the power supply Command protected Indicates that a l
133. e Request ONSrq ON OFF 0 1 Select Range for SYSTem lt channel gt COMMunicate APRogram LEVe Select analog interface voltage Yes Analog 5110 levels Programming Interface Set Remote Control SYSTem lt channe1l gt REMote STATe RS 232 Only Change remote Yes Operation Serial LOCal REMote RWLock control mode Interface Query SCPI Version SYSTem lt channel gt VERSion Returns the SCPI version to N A which the instrument complies Format is YY YY V Kewwns puewwos 149s P N oO NXT0 dOQX WL Table C 10 Status Commands Power On Status STATus lt channel gt POSClear lt on off state gt Controls the automatic power on Yes Clear PSC clearing of the Service Request Enable Register Standard Event Status Enable Register Parallel Poll Enable Register and other event enable registers Query Operation STATus lt channel gt OPERation CONDition See Table 4 9 on page 446 N A Status Condition Register Set Operation Status STATus lt channel gt OPERation ENABle lt status See Table 4 9 on page 446 Yes Enable Register enable gt Query Operation STATus lt channel gt OPERation EVENt See Table 4 9 on page 446 N A Status Event Register Set Operation Status STATus lt channel gt OPERation NTRansition See Table 4 9 on page
134. e a bolt in the connecting hole of the negative bus bar and fasten the negative wire or bus bar a washer and a nut to the bolt 3 Using a wrench turn the bolt until it is secure at approximately 25 foot pounds 34Nm 4 Fasten the positive wire or bus bar to the positive bus using a bolt washer and nut 5 Tighten the bolt to approximately 25 foot pounds 34Nm TM XDOP O1XN Load Connections 6 Ensure that the positive and negative wires are arranged so bare wires do not come into contact with each other or the chassis To connect the DC output wire clamp connectors 300V 600V outputs Connect appropriately sized wires as described in steps 1 to 6 above except strip 0 5 in 14mm of insulation off each load wire and clamp in the output connector by securely tightening the vertical clamp screw for each output Multiple Loads To connect multiple loads in parallel 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 This is due to wire impedance drops amp Li SALA AAS Figure 2 7 Fastening the Output Wires 6000
135. e a particular step by waiting for a certain time period Step Do This You Will See Set Step Time 1 T HH HHHH ENTER Enter the Step duration The format of the display is hh mm ss ss Use the decimal key to move to the right 2 To Next Step The completion of this procedure will bring you back to step 15 of the Table 3 2 on page 3 33 table Continue programming the current step Setting step advance by trigger This procedure continues from step 13 in the Table 3 2 To Program a Sequence on page 3 33 table It explains how to program the sequence to advance a particular step by waiting for a certain trigger event See Editing Trigger Source of a Sequence on page 3 41 for more information about trigger event Step Do This You Will See Set Step Time Ca or Cw Use the scroll keys to select Wait for Trig the Wait for Trig option 2 To Next Step The completion of this procedure will bring you back to step 15 of the Table 3 2 on page 3 33 table Continue programming the current step Impo rtant The default value for a sequence s repeat time and trigger source is repeat once and trigger from key See Editing Repeat Times of a Sequence on page 3 40 and Editing Trigger Source of a Sequence on page 3 41 for an explanation of how to edit these values 3 35 Operation Deleting a Sequence This option allows you to delete an entire sequence To delete a sequence Step Do This You W
136. e analog 10V voltage readback Calibrate analog 10V current programming Calibrate analog 10V current readback Restore factory calibration Change calibration security code MODEL INFO View info 1 8 TM XDOP 01XN Display OOO tH HH Heal PA m0 oomo OOOO omo ooo Cone omo OO000 ooo Oooo _ Fou Pam Daaa Bore mom mma m ma paa ce ee eoe py oN Cee moa goo emre mo de moh oe pa mo a o oe BOE CURRENT n m Ue Lely 3 ano M0009 DOM Mimo mi0 amo oon omg armo mng arg pe AUXA AUXB AUTO SEQ HHA A ADR SRO OVP OTP PONER Master Slave Pause Trigger Set LCL RMT OUTOFF Interlock OUT ON siil A A O Figure 1 4 Front Panel Display Table 1 5 Item Descriptions for Figure 1 4 Item Description 1 Main Display Shows setpoints readback and menus There are 14 characters Each character is 5 pixels wide by 7 pixels high 2 Status Annunciators See Status Annunciators on page 1 9 and Figure 1 5 for detailed information 3 Voltage Current and Power Bar Graphs Show present voltage current limit and power output in graphical format Also indicates regulation mode Status Annunciators i ae Oe OOO O00 TOOT OL DW O00 aos SC ao VOLTAGE EE mom OOO oo os ooma oome BOD OOO oo ss ooma QOD Com Oe Cie n da0 ooa 000 0a aes ees ca COSCO COC OOOO meme Oo oomo Coo oo os ooma wee S BOUE OO 00m0 oD on a Oooo oa os oa oomo CURRENT e m m Dii 3 WU M0005 OOM COD O00 CON DW
137. e configured for use with an external voltage free contact Connect pins as shown Table 4 4 Analog Pin Connections with a Contact Closure Programming Line Pin User Line Pin Bl to AS Closing an external contact across the interlock pins B2 A4 will then disable the unit Opening the contact will enable the supply output TM XDOP 01XN 4 7 Remote Operation Configure Analog Control You may configure the analog programming lines to work in either a 0 to 5V range or a 0 tol0V range You may also select whether the voltage current or both are controlled with the programming lines If you select only voltage or only current the other will be controlled via the front panel Front Panel First configure the analog programming lines Step Do This You Will See 1 ERROR MSGS 2 5 times REMOTE CONFIG 3 RS 232 Cfg 4 Analog Cfg 5 Input 0 5V 6 0 5V or Ww or amp 0 10V Select the input range 7 Setting is saved and menu is exited a You can also press MENU 5 times Next select analog programming as the remote control interface Your options are e Analog V amp I voltage and current programmed via the analog interface e Analog V voltage programmed via the analog interface current set via front panel e Analog I current programmed via the analog interface voltage set via front panel 4 8 TM XDOP O1XN Step 1 2 3 Remote Analog Operation Do This You Will See mew ERROR MSGS Cw Atines REMOTE SELECT
138. ee 1 ERROR MSGS 2 Use the scroll keys to get the SLEW RATE menu SLEW RATE 3 Voltage slew ENTER 4 dv 0 100 V 5 Enter the desired voltage step Allowable range is dV 1 000 V 0 1 to 5 rated voltage 6 dt 150 us ENTER 7 Enter the time interval The range is 150 us to 1 5 s dt 1000 us ENTER Co 3 49 Operation The combination must not exceed 1 30us Though the software will attempt to achieve higher slew rates it is limited to this value by hardware constraints The power supply slew rate cannot be faster than the rise and fall times given in the product specifications in Appendix A Manufacturer s recommendation is to keep the slew rate at or below the default value View Model Information The MODEL INFO menu option displays hardware and software information including Manufacturer Xantrex Model description e g XDC 60 100 Voltage and current ratings 60 V 100 A ROM version e g ROM Ver 5 000 FPGA version e g FPGA Ver A007 SCPI version supported e g SCPI 1997 0 Serial number To access and work with the View Model Information option 1 2 3 Step Do This You Will See env ERROR MSGS Ca 1 time MODEL INFO nee Press Up or Down arrow keys to cycle through Model Information TM XDOP O1XN Default Display Default Display The default display normally shows the readback of the voltage and current output To change the display to show voltage and power or current and power
139. egal password protected program command or query could not be executed because the command was disabled Check calibration state Parameter error Indicates that a program data element related error occurred Setting conflict Indicates that a legal program data element was parsed but could not be executed due to the current power supply state Factors that may contribute to this error are Remote source To set most values the remote source must be correct Remote state To set most values the unit must be in remote mode Calibration mode when in calibration mode certain settings will cause as error Current share mode When the unit is in current share mode other than none certain settings will cause an error Data out of range Indicates that a legal command could not be executed because the interpreted value was outside the legal range as defined by the power supply Out of memory The power supply has insufficient memory to perform the requested operation Data questionable Indicates that measurement accuracy is suspect Hardware error occurs during flash update if there is a failure Indicates that a legal program command or query could not be executed because of a hardware problem in the power supply Hardware missing Indicates that a legal program command or query could not be executed because of missing power supply hardware e g an option not installed Illegal program name The name used to reference an auto seq
140. el lt voltage gt MAXimum MINimum Set Under Voltage SOURce lt channel gt VOLTage PROTection UNDer Select under voltage protection to Yes Protection STATe lt on off state gt shutdown ON or set alarm Shutdown State OFF Query Under SOURce lt channel gt VOLTage PROTection UNDer Query if under voltage protection N A Voltage Protection TRIPped mechanism has tripped Tripped 2u 1 J Y PULWWOD 14S NXT0 dOOX WL ST Table C 3 Con trands for Output Control Set High Current SOURce lt channel gt CURRent LIMit HIGH Set upper limit of current setpoint Yes Limit lt current gt MAXimum MINimum range soft limits Set Low Current SOURce lt channel gt CURRent LIMit LOW Set lower limit of current setpoint Yes Limit lt current gt MAXimum MINimum range soft limits Set High Power SOURce lt channel gt POWer LIMit HIGH Set upper limit of power setpoint Yes Limit lt power gt MAXimum MINimum range soft limits Set Low Power SOURce lt channel gt POWer LIMit LOW Set lower limit of power setpoint Yes Limit lt power gt MAXimum MINimum range soft limits Set High Voltage SOURce lt channel gt VOLTage LIMit HIGH Set upper limit of voltage setpoint Yes Limit lt voltage gt MAXimum MINimum range soft limits
141. ent options such as credit card or money order will be explained by the Customer Service Representative In cases where the minimum flat fee does not apply as with incomplete units or units with excessive damage an additional fee will be charged If applicable you will be contacted by Customer Service once your unit has been received Information About Your System As soon as you open your XDC 6000 Watt and 12000 Watt Series Digital Programmable Power Supply package record the following information and be sure to keep your proof of purchase O Serial Number O Purchased From O Purchase Date WA 4 TM XDOP O1XN Index A AC input connector 1 11 2 7 AC input power 2 7 AC input wires connecting 2 9 2 11 illustrated 2 10 2 12 specification 2 8 AC off auto recovery 3 15 active power factor correction 1 2 ADR display annunciator 1 10 ALARM display annunciator 1 10 ALARM key 1 5 alarms 3 16 analog control mode described 1 12 analog programming connections 4 4 pins 4 7 using 4 10 analog programming lines 4 3 approvals Canadian EMC Requirements viii A 13 CSA viii A 13 FCC viii A 13 AUTO display annunciator 1 10 AUTO SEQ menu option 3 33 AUTO SEQ PGM menu item 3 6 3 33 auto sequencing 4 37 deleting a sequence 3 36 3 39 4 39 editing a sequence step 3 37 function keys 3 42 inserting a sequence step 3 38 operation 4 37 4 40 operation via front panel 3 42 programming a sequence
142. er Current Protection To set the Under Current Protection level SOUR CURR PROT UND lt current gt SOUR CURR PROT UND STAT lt on off state gt The first UCP protection command sets the protection level The second command lets you choose a warning alarm only OFF or shut down with an alarm ON if the protection level is exceeded To check the Under Current Protection level SOUR CURR PROT To check if the Under Current Protection was tripped SOUR CURR PROT TRIP 4 30 TM XDOP O1XN SCPI Commands for Digital Interfaces Over Power Protection To set the Over Power Protection level SOUR POW PROT lt wattage gt SOUR POW PROT STAT lt on off state gt The first OPP protection command sets the protection level The second command lets you choose a warning alarm only OFF or shut down with an alarm ON if the protection level is exceeded To check the Over Power Protection level SOUR POW PROT To check if the Over Power Protection was tripped SOUR POW PROT TRIP Under Power Protection To set the Under Power Protection level SOUR POW PROT UND lt wattage gt SOUR POW PROT UND STAT lt on off state gt The first UPP protection command sets the protection level The second command lets you choose a warning alarm only OFF or shut down with an alarm ON if the protection level is exceeded To check the Under Power Protection level SOUR POW PROT To check if the Under Power Protection was trip
143. er signal is supplied Setting Sequence Repetitions PROG REP ONCE lt Sequence_count gt FOR INF e ONCE will run the sequence once and return it to its STOP condition e lt sequence_count gt ranges from 1 to 9999 It will run the sequence the number of times specified before putting it into the STOP condition TM XDOP O1XN Selecting a Trigger SCPI Commands for Digital Interfaces FORever and INFinity cause the sequence to repeat forever A query will return 9 9E37 representing INFinity Source If any triggers are programmed into the sequence select a trigger source PROG TRIG SOUR BUS MAN EXT IMM Editing Step Parameters BUS trigger signal is IEEE 488 1 GET or TRG MANua1 trigger input is from the front panel TRIGGER key EXTernal The external trigger line is selected as the source IMMediate The source is the SCPI command INIT IMM Commands are provided to edit only one of voltage current power OVP level step duration or end action Program step voltage Pp D P D P PROG STEP lt step_number gt Program step current PROG STEP lt step_number gt Program step power ROG STEP lt step_number gt Program step OVP level PROG STEP lt step_number gt Program step time duration PROG STEP lt step_number gt To delete a step PROGram STI VOLT lt voltage gt CURR lt current gt POW lt power gt OVP lt OV
144. er wiring use larger gauges or higher temperature rated wiring For high current applications custom designed bus bars are typically used To increase the current carrying capability use parallel cables Table 2 4 Current Carrying Capacity for Load Wiring Wire Size Maximum Wire Size Maximum AWG Current A AWG Current A 20 2 5 4 97 18 4 2 155 16 6 1 192 14 10 1 0 247 12 16 2 0 303 10 21 3 0 350 8 36 4 0 405 6 6l 250MCM 455 a Single insulated conductors in free air 30 C 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 the larger load wiring to ensure a smaller voltage drop 1V maximum although units will compensate for up to 5V drop in each line with the remote sense lines connected 2 16 TM XDOP O1XN Load Wiring Noise and Impedance Effects TM XDOP 01XN To minimize noise pickup or radiation use the shortest possible length of shielded twisted pair wiring for load lines Connect the shield to the chassis via a rear panel mounting screw Where shielding is not possible or is impractical twisting the wires together offers 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 2 17 Installation Load Connections
145. et 1 use the arrow keys or numeric keypad Four options are available from the Recall memory 1 Last Setting Returns the setpoints to values stored before power was turned off User Settings Returns the setpoints to one of ten possible saved values Factory Preset Returns the setpoints to the original out of the box values 4 Auto Sequence Returns control of the setpoints to one of ten possible saved programs For further information see Program Auto Sequence on page 3 33 To access these options press RECALL repeatedly until the correct option appears or press the arrow keys Pressing RECALL lets you scroll through the options in the direction listed above Pressing the arrow keys lets you cycle through the options in either direction TM XDOP 01XN 3 23 Operation 3 24 To restore the last setting Step Do This You Will See 1 recat Preseonce Last Settings 2 Press to restore last setting To select a stored user setting Step Do This You Will See 1 User Setting RECALL Press twice User Set s N ENTER _ Use the numeric keypad or arrow keys to enter a value between 1 and 10 05 ENTER Use the numeric keypad or arrow keys to enter a value between 1 and 10 a This prompt appears when there is at least one saved setting in memory If there are no saved settings the display reads None Saved and then automatically returns to User Settings To select a
146. example Active Low is selected 4 This setting is saved and the display returns to its default operating mode 3 28 TM XDOP 01XN Power Supply Operation Configure Power ON Settings TM XDOP 01XN The Power ON configuration can be set with 4 options e Factory Preset Where the Power ON output is reset to the original factory levels These include Output OFF V sgr 0 and Isgr 0 default configuration e Last Setting Where the Power ON output is set to the same level as when it was last powered OFF This is useful for automatic recovery from short power failures e User Settings Where the Power ON output is set to a stored setting that is recalled from memory See Store User Settings on page 3 21 e Auto Sequence Where the Power ON output can be recalled from memory See Using Auto Sequencing on page 3 42 The output state also depends on the Power ON Output setting The values listed above are true only if the OUT ON setting is Yes Otherwise Output is off unit in Standby mode See Recall Settings on page 3 23 for settings affected by the Power ON feature Each of the 4 Power ON configuration options can be accessed from the Front Panel menus or remotely through a set of digital commands The procedures that follow show how to use the Front Panel menus Operation Factory Preset Selecting Factory Preset lets you restore the factory defaults the next time the power supply is powered ON
147. f the power supply temperature exceeds 90 of the maximum operating temperature The standard event status register sets bits for specific events during power supply operation All bits in the standard event status registers are set through the error event queue The register is defined by 488 2 and is controlled using 488 2 common commands ESE ESE and ESR Figure 4 6 IEEE 488 2 Status Register and Status Byte on page 4 54 summarizes the standard Event Status Register Operation Complete Not Used Query Error Device Dependent Error Execution Error Command Error User Request Power On Reserved Reserved 9 Reserved 10 Reserved Reserved 12 Reserved 13 Reserved Reserved 15 ON oar wh O O Not Used Not Used Not Used Summary of QUESTionable Status MAV RQS MSS Summary of OPERation Status Standard Event Status Register Figure 4 6 IEEE 488 2 Status Register and Status Byte NOofh WDM O TM XDOP O1XN SCPI Commands for Digital Interfaces Table 4 20 Standard Event Status Register Bit Bit Weight 0 1 1 2 2 4 3 8 4 16 5 32 6 64 7 128 8 15 Status Byte TM XDOP 01XN Bit Name Operation Complete OPC Request Control RQC Query Error QYE Device Dependent Error DDE Execution Error EXE Command Error CME User Request URQ Power ON
148. factory setting Step Do This You Will See 1 Factory Preset RECALL Press 3 times ENTER This restores the setpoints to factory defaults To select Auto Sequence Step Do This You Will See 1 Auto Sequence RECALL 3 Press 4 times 2 ENTER User Set Use the numeric keypad or arrow keys to enter a value between 1 and 10 io ENTER This runs the selected Auto Sequence program a This prompt appears when there is at least one saved programs in memory If there are no saved programs the display reads None Saved and then automatically returns to Auto Sequence For operation of Auto Sequence mode see Using Auto Sequencing on page 3 42 TM XDOP O1XN Power Supply Operation Table 3 1 Settings Affected by Recall Feature Voltage setpoint Current setpoint Power setpoint Triggered voltage setpoint Triggered current setpoint Triggered power setpoint Trigger source Low voltage setpoint limit High voltage setpoint limit Low current setpoint limit High current setpoint limit Low power setpoint High power setpoint Over voltage protection Under voltage protection Over current protection Under current protection Over power protection Under power protection Fold shutdown protection AC off shutdown recovery Over temperature shutdown recovery Front panel display config Knob lockout Aux line configuration TM XDOP 01XN Factory Preset Value 0 0V 0 0A 103 of power rating Di
149. fic PROGram lt channel gt SEQuence lt sequence_number gt Edit program step power of Yes sequence step STEP lt step_number gt POWer lt power gt specific sequence power Program specific PROGram lt channel gt SEQuence lt sequence_number gt Edit program step OVP level of Yes step OVP STEP lt step_number gt OVP lt OVP_level gt specific sequence Program specific PROGram lt channel gt SEQuence lt sequence_number gt Edit program step time or Yes sequence step time STEP lt step_number gt DWEL1 lt step_time gt TRIG triggering of specific sequence Program specific PROGram lt channel gt SEQuence lt sequence_number gt Edit program trigger source of Yes sequence trigger TRIGger SOURce BUS MANual EXTernal IMMediate specific sequence source Program specific PROGram lt channel gt SEQuence lt sequence_number gt Edit program end action of Yes sequence end action REPeat specific sequence lt sequence_count gt ONCE FORever INFinity Ayeuiuing puewwos 149s cE 9 NXT0 dOdX WL Reset CLR Equivalent to RST and SYSTem RESet commands N A Performs a device reset Set the power supply to a known state that is independent of the use history of the device Query System Error ERR Equivalent to SYSTem ERRor command except that the return string N A contains the command Returns the nex
150. for Digital Interfaces Power on Status Clear The Power On Status Clear command controls the automatic power on clearing of the Service Request Enable Register the Standard Event Status Enable Register the Parallel Poll Enable Register and the Error Event Queue Command PSC COUTE PSC SCPI equivalent for multichannel use SYSTem lt channel gt POSClear ON OFF 0 1 SYSTem lt channel gt POSClear Individual Status Query The individual status query allows the programmer to read the state of the IEEE 488 1 ist individual status message without performing a parallel poll The query returns a 1 or 0 The ist message is formed by ANDing the bits in the Parallel Poll Enable Register PRE with the Status Byte and then ORing the result In other words the ist is TRUE if any of bits of the Parallel Poll Enable Register ANDed with the Status Byte are TRUE Command IST Operation Complete The Operation Complete command causes the power supply to generate the operation complete message in the Standard Event Status Register when all pending operations have been finished Command XOPC OPRC Wait to Continue Command The Wait to Continue command prevents the power supply from executing any further commands or queries until the no operation pending flag is TRUE Command WAI TM XDOP 01XN 4 61 Remote Operation Operation Status Register Commands Query Operation Status Register Event S
151. g network is setup you may adjust the voltage and current limit setpoints on the master The master will automatically adjust the setpoints of the slave units to equalize the current output of all units You may also disable or enable the output of the master automatically disabling or enabling the output of all slaves You may use local or remote RS 232 GPIB multichannel or analog control to operate the master Slaves will be operating under remote control from the master and in local lockout Hence they will only respond to remote queries or the OUT ON OFF key on the front panel of the master The default display will show a greek letter sigma before the readback current if the summed current output is being displayed For example the display may read 60 00V X 500A However the setpoint displayed on the master is still the current limit for a single unit The master or slave annunciators will light up and stay on to show that current share is operating properly Power supplies may not enter calibration mode while current sharing or enter current share operation while in calibration mode 5 5 Current Sharing Errors The master annuciator will flash if it does not detect any slave units on the network The slave annunciator will flash if it does not detect a master on the network Check the cable and the master configuration A master or slave will be disabled from current sharing set to No share if e there is mo
152. ge with constant rated load For 0 100 load variation with constant nominal line voltage Current mode noise is measured from 10 to 100 of rated output voltage full current unit in CC mode Typical efficiency at nominal input voltage and full output power Maximum drift over 30 minutes with constant line load and temperature after power on Maximum drift over 8 hours with constant line load and temperature after 30 minute warm up Change in output per C change in ambient temperature with constant line and load rpg me Ao op TM XDOP O1XN Electrical Specifications Summary Table A 2 Specifications for 6000 Watt units 80V to 600V Models Models 80 75 100 60 150 40 300 20 600 10 Output Ratings Output Voltage 0 80 V 0 100 V 0 150 V_ 0 300V 0600 V Output Current 0 75A 060A 040A 020A 0 10A Output Power 6000 W 6000 W 6000 W 6000 W 6000 W Line Regulation Voltage 0 01 of Vmax 8 mV 10 mV 15 mV 30 mV 60 mV Current 0 05 of Imax 37 5mA 30mA 20 mA 10 mA S5mA Load Regulation d Voltage 0 05 of Vmax 5 mV 45 mV 55 mV 80 mV 155 mV 305 mV Current 0 1 of Imax 20 mA 95 mA 80 mA 60 mA 40 mA 30 mA Meter Accuracy Voltage 0 15 of Vmax 120 mV 150 mV 225 mV 450 mV 900 mV Current 0 5 of Imax 375 mA 300 mA 200 mA 100 mA 50 mA Output Noise 0 20 MHz Voltage p p 100 mV 100 mV 150 mV 250 mV 350 mV Output Ripple rms Voltage 15 mV 20 mV 20 mV 30 mV 80 mV Current 320 mA 230 mA 120 mA 50 mA 25 mA
153. ge a value conform to the same rules as SCPI Commands will cause an error if the unit s remote source remote state current share mode status and calibration status is incorrect Legacy commands do not have multichannel capabilities Query commands return a string containing the command itself The CLR command does not clear any legacy fault registers The RST command only clears the protections so that the voltage and setpoints can take effect It does not change any setpoint values When a protection is tripped the unit s output may be turned off configurable Bpressions Table C 16 Expressions Expression Details aux_line_mnemonic Define the output of the auxiliary line The possible values are NONE ON OFF OVOLtage UVOLtage OCURrent UCURrent OPOWer UPOWer ACOFf OTEMperature HTEMpertature SPRotection UNRegulated FOLD CC CV CP channel The address for a multichannel slave An integer value in the range 2 to 50 codeword A string representing any 4 digit positive integer current A numeric value as defined by SCPI May also be MAXimum or MINimum May include current related suffix units such as mA uA A etc Range may be 0 to 103 of model s rated current delay A length of time in the range 0 to 60 seconds May include time related suffix units such as S MIN mS uS etc By default the value is in seconds ESE word Range 0 255
154. ges PROGSAM LINES e rea a amaA Ww z 23 422z S888288 A A LA o GO D Figure 1 6 Rear Panel 6000 Watt low and medium output shown TM XDOP 01XN Table 1 7 Item Descriptions for Figure 1 6 Item Description 1 Fan Exhaust Vents Do not obstruct 2 Remote Sensing Ports From the rear point of view left is negative right is positive 3 DC Output Bus bars are shown Terminal blocks are used for higher voltages 300 and 600 Vdc only 4 Auxiliary Status Lines External Interlock and Trigger Input 5 Analog Program and Readback 6 CANbus Port For current sharing or multichannel operation optional 7 RS 232 Connector 8 GPIB optional 9 Protective Conductor Ground Screw 10 AC Input 11 Chassis ground stud About The XDC Power Supply Overview of Operation Power ON Power ON describes the period between the time the AC power is turned ON and the time the power supply is ready for normal operation Each supply comes with a series of factory default settings that may be in effect at the conclusion of the Power ON period These include Output OFF No current is sent to the DC output connections You must press Out ON OFF to activate the supply output Voltage OV The Voltage setpoint is zero Current 0A The Current setpoint is zero Local mode operation The output state depends o
155. gital interface A remote digital interface following RS 232 protocol is standard An optional remote digital interface following IEEE 488 2 GPIB protocol is also available An optional CANbus port is also available which enables multi channel communication from a single GPIB address and supports current sharing with parallel connected units For detailed information see Chapter 4 Remote Operation Controls The power supply is shipped ready to operate in local mode The factory default power on setting is OV OA with the DC output turned off This section describes the function keys menu options 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 Chapter 1 About The XDC Power Supply The next section Power Supply Operation on page 3 8 provides details about configuring and operating the power supply Eight function keys are located on the front panel Each is described below For the purposes of simple front panel control you should understand the function of the LCL RMT OUT ON OFF VOLTAGE and CURRENT keys 1 VOLTAGE Lets you pre set a setpoint before enabling it To pre set a voltage setpoint press VOLTAGE use the Voltage knob or the numeric keypad to enter a value and then press ENTER to enable it See Set Voltage on page 3 8 This output can be changed while the output is OFF
156. gs on page 4 25 for an explanation of how to save user settings Selecting Auto Sequence lets you recall a stored program next time the unit is powered ON This assumes that at least one program has been created and stored in memory See Editing Trigger Source of a Sequence on page 3 41 for more information See for information about remotely programming and running auto sequence programs To reset to user setting 1 OUTP PON REC SEQ1 To check the setting OUTP PON REC The response should be SEQ1 Remote Operation Power On Output State You may also change the output state whether the output is enabled or disabled at power on To change the power on at output state OUTP PON STAT ON OFF 1 0 To check the setting OUTP PON STAT Reset Resetting the unit puts certain features to a known state These states are listed in the table below To reset the unit RST or SYST RES Table 4 8 Features Affected by Reset RST Command Feature Reset State RST Voltage setpoint 0 0V Current setpoint 0 0A Power setpoint 103 of power rating Low voltage setpoint limit 0 0V High voltage setpoint limit 103 of voltage rating Low current setpoint limit 0 0A High current setpoint limit 103 of current rating Low power setpoint 0 of power rating High power setpoint 103 of power rating Over voltage protection Disabled 0 0V Under voltage protection Disabled 0 0V and not shutdown when tripped Over
157. he Error Event Queue Not implemented Reserved for possible future use by IEEE Bit values are reported as Zero The Status byte register contains the STB and RQS MSS messages as defined in 488 1 The user can read the status byte register using a 488 1 serial poll or the 488 2 STB common command If the user sends a serial poll bit 6 will respond with Request Service RSQ The value of the status byte is not altered by a serial poll The STB query causes the device to send the contents of the Status Byte Register and the Master Summary Status MSS summary message The STB query does not alter the status byte MSS or RQS 4 55 Remote Operation Table 4 21 Status Byte Summary Register Bit Bit Weight Bit Name Description 0 1 Reserved 1 2 Reserved 2 4 Error Event Queue ERR Set if any errors are present in the Error Event queue 3 8 Questionable Status Set if any bits are set in the Questionable Status Event Register QSR register 4 16 Message Available MAV Indicates whether the output queue is empty MAV is TRUE if the device is ready to accept a request from the controller 5 32 Standard Event Status Bit A summary of the Standard Event Status Register Summary ESB 6 64 Request Service RQS MSS indicates that the device has at least one reason for Master Status Summary requesting service MSS 7 128 Operation Status Register Present if a bit is set in the Operation status register OSR Error Event Q
158. hen the temperature drops to below the trip level The default value is ON To query if OTP has tripped SENSE TEMP PROT TRIP TM XDOP O1XN AC Off Protection SCPI Commands for Digital Interfaces The user has the option of setting whether the AC Off protection mechanism is latched or automatically resumes operation SENSE VOLT AC PROT LATCH ON 1 OFF 0 Where ON or 1 means the supply will be latched in shut down if an AC Off condition occurs until the user re enables the output and OFF or 0 means the supply will automatically resume operation when the AC line input returns to normal The default value is OFF To query if AC Off has tripped SENSE VOLT AC PROT TRIP Clear Protection Event To clear a protection mechanism that has tripped OUTP PROT CLE This will clear all protection mechanisms and re enable the output If the condition that caused the alarm still exists the protection will be allowed to trip again View Power Supply Output TM XDOP 01XN The following 3 commands query the voltage current or power being supplied at the output terminals To measure the voltage output MEAS VOLT To measure the current output MEAS CURR To measure the power output MEAS POW Remote Operation Configure Auxiliary Status Lines To set up Auxiliary line A OUTP AUXA SOUR lt aux line mnemonic gt The choices for lt aux line m
159. ility e Active Power Factor Correction PFC for lower input current draw and lower current harmonic generation e Remote voltage sense with 5V line drop compensation e Automatic Voltage Current mode crossover e Constant power mode e Seven load protection mechanisms e Alarms and messages for over and under programmed trip points e Auxiliary status lines for monitoring power supply conditions e Remote interlock and trigger ports e Selectable standby last setting programmed sequence and other power on defaults e Active current sharing with parallel connected units for higher power requirements These features are available when the power supply is equipped with the optional GPIB CANbus interface card e Standard RS 232 remote control interface and optional GPIB IEEE 488 2 port e CANbus communications link for multichannel addressing and master slave current sharing e Extensive SCPI command set e Keypad knobs and arrow keys for fast and tactile front panel operation e Bright vacuum fluorescent display with annunciators to indicate complete supply status at a glance e Front panel software based calibration e Fully isolated analog programming and readback capabilities e CE Mark CSA Certified FCC Compliance TM XDOP O1XN Front Panel Front Panel lt ID A D 600 0 eor supe c Jovo eons EE EEEE S gt C gt UU UU UUUY U UUUU UUUU UUUUUUUUU
160. ill See 5 Cw 6 times or ewu X AUTO SEQ PGM Sequence 1 i Ca or Cw Use the scroll keys to Sequence select a sequence to delete 5 Edit Sequence 8 Ca or Cw Use the scroll keys to DekSeguenge select the Del Sequence option 7 Delete Seq N 9 Ca or Cw Use the scroll keys to Delete Segr Y confirm deletion 9 Seq Erased 10 Wait Sequence is now deleted 3 36 TM XDOP 01XN Editing a Sequence Step TM XDOP 01XN Power Supply Operation This option allows you to edit a particular step in a sequence that has already been programmed or to add steps to a new program To edit a step in a programmed sequence Step Do This 1 2 3 MENU C 7 N or 4 wW D Use the scroll keys to select a sequence to work with ENTER A or G v Use the scroll keys to select a sequence to edit ENTER or ow Use the scroll keys to select the Edit Step option Follow step 8 in Table 3 2 To Program a Sequence on page 3 33 to finish editing the step You Will See ERROR MSGS AUTO SEQ PGM Sequence 1 Sequence Edit Sequence Step 1 Step Edit Step Edit Step 3 37 Operation Inserting a Sequence Step This option allows you to insert a particular step in a sequence that has already been programmed To insert a step into a programmed sequence Step Do This 1 2 3 CW 6 times or vew a or CW Use the scroll keys to
161. ion or slave shutdown 12000 Watts only error persists without apparent cause press OUT ON OFF 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 TM XDOP O1XN Power Supply Operation The possible alarms are e OVP Shutdown e UVP Shutdown e OCP Shutdown e UCP Shutdown e OPP Shutdown e UPP Shutdown e UVP Alarm e OCP Alarm e UCP Alarm e OPP Alarm e UPP Alarm e Fold Shutdown e Sense Shutdown e Hi Temp Alarm e OTP Shutdown e AC Off e Slave Shutdown Alarm 12000 Watt only Shutdown vs Protection Alarm If a protection setpoint is exceeded the system does the following 1 IfS D if tripped Y has been selected the unit shuts down If it is an OVP alarm the unit shuts down 2 IfS D if tripped Nhas been selected and it is not an OVP alarm the unit does not shut down but does create an alarm message 3 Ifthe unit is not shutting down the system still sets the appropriate status bits in the questionable status register which can be queried remotely See Status Registers on page 4 43 for more information TM XDOP 01XN 3 17 Operation Set Up Remote Control The power supply can be controlled locally with the front panel or remotely through several different interfaces The remote interfaces are
162. ith the exception of analog control where voltage or current alone or both may be under remote control Current share mode is considered to be under local control even though the user cannot adjust the voltage setting from the front panel Table 4 13 Remote CONtrol Sub Register Bit Bit Weight 0 1 1 2 2 4 3 8 4 16 5 32 6 64 7 128 TM XDOP 01XN Bit Name Analog Control Voltage Analog Control Current GPIB CONtrol GPIB CONtrol with LLO RS 232 CONtrol RS 232 Control with LLO Multi channel CONtrol Multi channel Control with LLO Description The Voltage Setpoint is under control of the Analog Programming Interface The Current Setpoint is under control of the Analog Programming interface The power supply is under Remote CONtrol via the GPIB interface The power supply is under Remote Control via the GPIB interface with local controls locked out The power supply is under Remote CONtrol via the RS 232 interface The power supply is under Remote CONtTrol via the RS 232 interface with local controls locked out The power supply is under Remote CONtrol via the Multi channel Programming interface The power supply is under Remote CONtrol via the Multi channel Programming interface with local controls locked out 4 49 Remote Operation Current SHare Sub Register This register shows the state of the current share configuration which can either be set through the front panel Current Share Config
163. ker 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 vii Approvals Units bearing the c CSA us mark are certified by CSA to the following CAN CSA C22 2 No 1010 1 92 and CAN CSA C22 2 No 1010 1B 97 and to ANSI UL 61010B 1 Units bearing the CE mark meet the requirements of EMC Directive standards EN50081 2 and EN50082 1 and Low Voltage Directive safety standard IEC 61010 1990 A 1 1992 A 2 1995 FCC part 15 Class A limits for radio frequency emissions Canadian EMC standard ICES 001 Class A limits viii TM XDOP 01XN IEC Symbols Used in This Manual TM XDOP 01XN gt amp O Earth Ground Terminal Protective Conductor Terminal On Supply Off Supply Warning Shock Hazard Caution Check manual for specific information Contents Important Safety Instructions Approvals viii IEC Symbols Used in This Manual ix 1 About The XDC Power Supply Overview 2 2 1 2 Features 1 2 Front Panel
164. l to the power setpoint and the product of the voltage and current setpoint V spr and Isgr is greater than the power limit point Psgr In Constant Power mode the power supply maintains the output power at the selected value Pspy while the load voltage V and load current I varies with the load requirements The power limit is normally set to the maximum supply rating so the Constant Voltage or Constant Current modes will always be in effect without entering into the Constant Power mode of operation This feature allows the power supply to automatically switch operating modes in response to changing load requirements If for example the power supply was operating in Constant Voltage CV Mode Ij lt Isgr and the load changed so the load current I became EQUAL TO the current limit setting Isgr the power supply would automatically switch into Constant Current CC Mode and the output voltage would vary in response to changes in load current If the additional load was subsequently removed so the load current was again LESS THAN the current limit setting the supply would automatically return to Constant Voltage CV Mode TM XDOP O1XN Remote Control M odes Remote Control Modes Front Panel Function Keys TM XDOP 01XN A number of control interfaces are available You can control the power supply remotely using 0 5V or O 10V signals via the remote analog programming interface or from a remote terminal using a remote di
165. ldFire Self Test Failed Analog Programming Interface Error codes Table D 9 Analog Programming Interface Error code Error code Error Message Description 1501 Analog programming self test failed Auto Sequencing Error Codes Table D 10 Auto Sequencing Error Codes Error code Error Message Description 1601 Invalid step number Step does not exist is out of allowed range or preceding steps do not exist TM XDOP O01XN D 7 Error M essages CANbus Error Codes Table D 11 CANbus Error Codes Error code Error Message Description 1701 1702 1703 1704 1705 1706 CANbus hardware missing The CANbus option is not installed on the controller card or controller card is not present CANbus device specific error An error has occurred on the CANbus circuit Probable causes are AC input too low AC input not secure controller card not securely fastened or other noise sources CANbus input buffer corrupted CANbus input buffer corrupted CANbus input buffer overrun Data is sent on the CANbus faster than the CPU can process CANbus output buffer overrun Data cannot be transmitted fast enough Multichannel Error Codes Multichannel functionality is only available with the 6000 Watt power supply Table D 12 Multichannel Error Codes Error code Error Message Description 1800 1802 1803 1804 1805 D 8 Multichannel general error An error has occurred while sending multichannel command
166. le 4 21 on page 4 56 N A Byte STB Service Request STATus lt channel gt SSREQuest ENABle lt status Set the bits in the Service Request Yes Enable enable gt Enable Register SRE SRE 2u 1 J Y PULWWOD dIS NXT0 dOdX WL L 9 Table C11 Protection Commands Set Over SENSe lt channel gt TEMPerature PROTection LAT Select if output is latched off or Yes Temperature Ch lt on off state gt auto recovers in the case of an Response over temperature condition Query Over SENSe lt channel gt TEMPerature PROTection TIRI _ Query temperature protection N A Temperature Pped tripped Protection Tripped Set AC Fail SENSe lt channel gt VOLTage AC PROTection LATC Select if output is latched off or Yes Response h lt on off state gt auto recovers in the case of an AC Fail Query AC Fail SENSe lt channel gt VOLTage AC PROTection TRIP Query AC protection circuit N A Protection Tripped ped tripped Table G12 User Lines Select polarity of OUTPut lt channel gt AUXiliary lt A B gt POLarity Configure the polarity of the Yes Auxiliary Lines HIGH LOW auxiliary line Select Source of OUTPut lt channel gt AUXiliary lt A B gt SOURce Configure the auxiliary line Yes Auxiliary Line State lt aux_line_mnemonic gt OUTPut lt channel gt AUXiliary lt A B gt STATe Quer
167. le DB9 connector to support daisy chain connections The CAN Controller Area Network is an ISO standard ISO11898 for a serial communication network Table 4 5 describes the pin functions Pins 1 4 8 and 9 are not used The CANbus is used for communications in multichannel operation or current sharing master slave operation and is part of the optional GPIB CANbus interface card Table 4 5 CANbus Pins Pin Function 1 Not used 2 CANLO 3 Ground 4 Not used 5 Ground 6 Ground 7 CANHI Remote Operation Configuration Front Panel SCPI Table 4 5 CANbus Pins Pin Function 8 Not used 9 Not used Before connecting a power supply to a multichannel network you must configure each power supply with a unique address The front panel or a remote interface maybe used to do this One power supply must be configured to operate via RS 232 or GPIB Select the REMOTE CONFIG menu Select the Multichnl Cfg menu Press ENTER When prompted with Addr enter a unique network address in the range 1 50 Press ENTER To receive and execute commands Select the REMOTE SELECT menu then select Multichannel from the list Press ENTER Set a slave s multichannel address using the command SYSTem COMMunicate MCHannel ADDRess lt multichannel address gt where multichannel address is an integer in the range of 1 50 and the command is sent via a controller directly connected to the sl
168. libration Attach a DVM across the current readback lines Pins B6 and B1 GND 2 Enter 5V analog current readback calibration menu Select ANLG I RB 5V from the calibration menu Press ENTER You will be prompted to set up for analog current readback calibration Press ENTER when ready 3 Minimum calibration level The power supply will automatically set the current readback lines to approximately 10 of full scale 4 Enter voltage data Enter the voltage read from the external DVM Press ENTER 5 Maximum calibration level The power supply will automatically set the current readback lines to approximately 90 of full scale 6 Enter voltage data Enter the voltage at the current readback lines read from the external DVM Press ENTER Power supply calculates and stores calibration constants The menu will go to the 10V analog voltage programming calibration menu Analog Programming Interface 0 10V Range The 0 10V range of the analog programming interface must be calibrated separately Follow the procedure exactly as for calibrating the 0 5V range using the corresponding 10V menu options All the analog signals will be scaled by a factor of 2 B 10 TM XDOP 01XN Remote Interface Calibration Procedure Remote Interface Calibration Procedure Calibration can also be done via front panel See Front Panel Calibration Procedure on page B 7 Calibration of voltage programming and readback are combined in a single
169. llow to see ENTER how to proceed a You can also press MENU 5 times After you have selected the remote control source you want to configure configure that setting using appropriate values from the following table Select values using the arrow keys or the numeric keypad To save a value you have selected press ENTER See Chapter 4 Remote Operation for detailed instructions on setting up remote interfaces Remote Control Source Prompt Configuration Settings RS 232 Baud HH 1200 2400 4800 9600 19200 38400 Flow Ctl H rawr XON None Analog Input HHHH V Select the operating range of the API 0 5 0 10 GPIB GPIB Addr 1 30 PON SRQ Y YN Multichannel Slave Addr 2 50 Connect Y N a This range depends on the user s network configuration b Hdwr hardware handshake XON software flow control XON XOFF characters used None no flow control TM XDOP 01XN Power Supply Operation Store User Settings If you have a frequent or constant need for a specific voltage and current output you can save these setpoints in the power supply s memory as a user setting Once a setting is stored it remains in the power supply s memory after the unit is powered off Ten user setting memory locations are available and each saves the following parameters e Voltage setpoint e Current setpoint e Power setpoint e Over voltage protection setpoint OVP e Under voltage protection setpoint and shutdown
170. ls 10 1200 20 600 30 400 Output Ratings Output Voltage 0 10 V 0 20 V 0 30 V Output Current 0 1200 A 0 600A O0 400A Output Power 12000 W 12000 W 12000 W Line Regulation Voltage 0 01 of Vmax 1 mV 2 mV 3 mV Current 0 1 of Imax 1200mA 600 mA 400 mA Load Regulation E Voltage 0 05 of Vmax 5mV 10mV 15 mV 20 mV Current 0 2 of Imax 40 mA 2440mA 1240mA 840mA Meter Accuracy Voltage 0 15 of Vmax 15 mV 30 mV 45 mV Current 0 5 of Imax 6A 3A 20A Output Noise 0 20 MHz Voltage p p 75 mV 75 mV 75 mV Output Ripple rms Voltage 10 mV 10 mV 12 mV Current 6200mA 3200mA 2000 mA OVP Adjustment Range 0 to 103 of Vmax 0 10 3 V 0 20 6 V 0 30 9 V Efficiency f 0 85 0 87 0 87 Drift 30 minutes amp Voltage 0 04 of Vmax 4mV 8 mV 12 mV Current 0 6 of Imax 7200mA 3600mA 2400 mA Drift 8 hours Voltage 0 02 of Vmax 2mV 4mV 6mV Current 0 05 of Imax 600 mA 300 mA 200 mA Temperature Coefficient 1 Voltage 0 04 of Vmax C 4mV 8 mV 12 mV Current 0 06 of Imax C 720 mA 360 mA 240 mA Minimum output voltage is lt 0 3 of rated voltage at zero output setting For input voltage variation over the AC input voltage range with constant rated load For 0 100 load variation with constant nominal line voltage Typical efficiency at nominal input voltage and full output power ropa me ao op 40 300 0 40 V 0 300 A 12000 W 4mV 300 mA 25 mV 640 mA 60 mV 15A 75 mV 15
171. ltage Protection Factory default OV disabled e OCP Over Current Protection Factory default 0A disabled e UCP Under Current Protection Factory default OA disabled e OPP Over Power Protection Factory default OW disabled e UPP Under Power Protection Factory default OW disabled e Fold Fold Protection See below OVP shuts down the power supply if the protection limit is exceeded The other options offer a choice they shut down the power supply or issue a warning When the protection level is set to zero that mechanism is considered disabled However in the case of OVP a hardware protection mechanism still exists The last protection mechanism is Fold Mode protection when the unit will shut down if it enters the selected regulation mode for a specified period of time Other protection mechanisms designed to protect the power supply are e AC Off AC Off protection will disable the output if the AC line drops below the acceptable range e High Temperature Alarm A High Temperature condition will queue an alarm message when the temperature of critical internal components nears the maximum operating temperature e Over Temperature Protection OTP An over temperature condition will disable the output e Sense Protection Sense Protection will disable the output when the internal sense circuit is tripped by either reversed polarity at the output of the supply or a high voltage present at the output e Slave Shutdo
172. ly press ENTER to accept Table 3 2 To Program a Sequence Step Do This You Will See 1 ew ERROR MSGS MENU 2 C v On en 6 times AUTO SEQ PGM 3 enter Sequence 1 Sequence or W Use the scroll keys to select a sequence to work with 5 Edit Sequence 6 Edit mode is selected Step 1 7 Edit Step 8 Center Enter the step voltage setpoint S01 HHV 9 Enter the step current setpoint S01 HHA 10 Enter the step power SO1 HW 3 33 Operation Table 3 2 To Program a Sequence Step Do This You Will See 11 Enter the step OVP level S01 HV 12 Center Set Step Time 13 A or Ww Use the scroll keys to select how you want to advance to the next step e Set Step Time waits for a certain period See the Setting step advance by time table e Wait for Trig waits for a trigger event See the Setting step advance by trigger table 14 Set the step advance method To Next Step 15 Step 2 Cate Fe go to the next step in the sequence This will return you to step 7 in this table Repeat steps 7 to 14 for all remaining steps in the sequence EXIT Cent press to exit auto sequence programming and return to the default screen 3 34 TM XDOP O1XN TM XDOP O1XN Power Supply Operation Setting step advance by time This procedure is continued from step 13 in the Table 3 2 To Program a Sequence on page 3 33 table It describes how to program the sequence to advanc
173. m from the jacket of the AC wire Strip 0 55 in 14 mm at the end of each wire Remove the square AC input cover plate from the AC input bracket on the rear panel and a round knock out from either the rear or right side of the bracket Insert the AC input cable through the knock out and through the removable nut from the strain relief until there is enough cord to attach the AC wires to the terminal block the nut must be inside the AC input bracket Tighten the cable clamp screws and the strain relief nut inside the AC input bracket until the AC input wire is firmly held between the nut and the cable clamp screws Insert the ground wire green 0 55 in 14 mm into the left most terminal location and tighten securely Route the AC wires to the input terminal block by connecting the red black and white wires to the remaining 3 cable clamp connectors There is no set order for connecting the wires Any of the 3 phase wires can be connected to any of the 3 line input connectors To connect each wire loosen the terminal screw insert the stripped wire 0 55 in 14mm into the terminal and tighten the screw securely Reinstall the AC input cover plate Connect the free end of the cable to the AC source checking that the voltage is within the approved input range for the supply Energize the AC input It is now safe to turn the power supply on TM XDOP 01XN 2 11 Installation eft terminal Ground
174. mation procedures for installing the unit as well as information about operating and troubleshooting the unit 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 Organization This Manual is organized into five chapters and 5 appendixes Chapter 1 About The XDC Power Supply Chapter 1 lists the features of the XDC and shows diagrams of the front and rear panel Chapter 2 Installation Chapter 2 explains how to mount and wire the XDC and also how to perform basic functional tests Chapter 3 Operation Chapter 3 explains how to power on and power off the power supply It provides information about configuring the power supply and also gives procedures for operating the supply via the front panel controls and menu functions Chapter 4 Remote Operation Chapter 4 provides an overview of how to use remote analog control gives information on the setup and use of Multichannel functionality and explains how to send commands to the power supply using the SCPI programming language Chapter 5 Current Sharing Chapter 5 explains what current sharing is and shows how to configure and operate units in c
175. menu or through the SCPI command SOURce COMBine CSHare MODE Table 4 14 Current SHare Sub Register Bit BitWeight Bit Name Description 0 1 MASTer The power supply is configured to be a Current Share Master 1 2 SLAVe The power supply is configured to be a Current Share Slave QUEStionable Status Register The Questionable Status Register is a 16 bit register that stores information about questionable events or status during power supply operation That is bits in these registers may indicate that the output of the supply is of undesirable or questionable quality The Questionable Status data structure consists of a questionable status register and 4 sub registers representing the status of the voltage current power outputs and temperature Figure 4 5 gives an overview of the Questionable Status data structure The represents the logical summation of bits in a register Table 4 15 Table 4 16 Table 4 17 Table 4 18 and Table 4 19 describe the meanings of each bit as well as the bit number and bit weight TM XDOP O1XN SCPI Commands for Digital Interfaces Over VOLtage Under VOLtage Not Used Not Used g STATus QUEStionable VOLTage 2 3 Not Used 4 5 6 7 8 Not Used Not Used Not Used Not Used Not Used 9 Not Used 10 Not Used 11 Not Used 12 Not Used 13 Not Used 14 Not Used 15 pass Over CURrent Under CURrent Not Used Not Used
176. modes Operation Overview Once you have installed the power supply and connected both the AC input power and the load as explained in Chapter 2 Installation the power supply is in its default configuration and is ready to operate in local control mode Powering ON the Power Supply WARNING The factory setting for Power ON is OV and OA with the output OFF These settings can be customized 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 To power on the power supply 1 Ensure that the AC power switch is OFF 2 Connect the unit to an AC outlet 3 Turn on the front panel AC power switch After a short power on delay the digital meters on the front panel and the CV annunciator illuminate The voltmeter and ammeter displays should read zero Check the front panel annunciators If OUT ON is illuminated press OUT ON OFF to disable it The OUT OFF annunciator should now be illuminated For an illustration of the annunciators and their locations see Figure 1 5 Powering OFF the Power Supply From the front panel the safest method for shutting down the power supply is Step Do This You Will See illuminates Ouput V and I are 0 2 Switch the AC power to OFF The AC OFF alarm and then the unit fades to black 3 2 TM XDOP O1XN Power Supply Operating States Power Supply Ope
177. n 0 002 of Vmax Remote Analog Programming Interface Voltage 0 002 of Vmax Current 0 002 of Imax Typical Measurement Resolution Front Panel or Remote Digital Interface Voltage 0 002 of Vmax Current 0 002 of Imax Power 0 05 of Pmax Remote Analog Programming Interface Voltage 0 002 of Vmax Current 0 002 of Imax Programming Accuracy Front Panel or Remote Digital Interface Voltage Programming 0 1 of Vmax Current Programming 0 5 of Imax Power Programming 0 5 of Pmax Over voltage 0 1 of Vmax Programming Remote Analog Programming Interface Voltage Programming 0 2 of Vmax Current Programming 0 5 of Imax Readback Accuracy Front Panel or Remote Digital Interface Voltage Readback 0 15 of Vmax Current Readback 0 5 of Imax Power Readback 0 5 of Pmax Remote Analog Programming Interface Voltage Readback 0 3 of Vmax Current Readback 0 5 of Imax 1 Accuracy specifications apply for settings in range of 1 to 100 of rated output A 8 TM XDOP O1XN Output Performance Specifications 30 Minute Drift Voltage 0 04 of Vmax Current 0 6 of Imax Power 6000W 1 of Pmax 12000W 2 of Pmax 8 Hour Drift Temperature Stability Voltage 0 02 of Vmax Current 6000W 0 04 of Imax 12000W 0 05 of imax 12000W 600V model 0 08 of Imax Power 0 1 of Pmax Temperature Coefficients Front Panel or Remote Digital Interface Voltage Programming 0 04 of Vmax C Current Programming 0 06 of Imax C
178. n the Power ON output setting You can customize the Power ON settings to suit your needs See Configure Power ON Settings on page 3 29 for more information Control Modes One local method and 4 remote methods are available for controlling the power supply Local Mode Where the user operates the menu keypad and knobs RS 232 Where the user operates the supply remotely through a serial port connection standard feature GPIB Where the user operates the supply remotely through the faster General Purpose Interface Bus The GPIB bus follows the IEEE 488 2 standard and is an optional feature of this power supply Multichannel Where the user operates the supply remotely through the optional multichannel link between 2 or more up to 50 power supplies optional feature Analog Where the user operates the supply remotely through the isolated analog programming and readback port standard feature Three options are available Analog V and I Analog V Analog I Each of these methods is referred to as a control mode TM XDOP O1XN Installation Chapter 2 explains how to mount and wire the XDC and also how to perform basic functional tests Installation Overview Chapter 2 Installation provides recommendations and procedures for inspecting installing and testing the power supply For more information about controls and connectors refer to the front panel diagrams Figure 1 1 to Figure 1 5 as well as the re
179. ndation is to keep the slew rate at or below the default value Example Set a slew rate of 100V 10s for a 100V 60A power supply This slew rate is 1V 0 1s which is within the acceptable range Send the commands T VOLT SLEW STEP 1 and VOLT SLEW INT 100ms TM XDOP 01XN 4 41 Remote Operation Identification Query The identification query command returns a string that states the manufacturer model serial number and firmware revision IDN may return Xantrex XDC 60 100 100000 3 000 0 0 0000 Option Identification Query OPT or SYST lt channel gt OPTion The option identification query returns a string listing any reportable options that are installed in the power supply Reportable options are GPIB and CANbus but may include others in the future A zero will be returned if no options are installed Example OPT may return GPI B CANI BUS to indicate that both the GPIB and CANbus Multichannel Current Share options are installed SCPI Version Query SYST VERS will return the SCPI version to which the unit complies for example 1997 0 TM XDOP 01XN SCPI Commands for Digital Interfaces Status Registers Condition Register Event Register Enable Register Transition Filters TM XDOP 01XN The Status Register structure is mandatory for SCPI and IEEE 488 2 compliance The register bits are defined by the
180. nder Current Protection 4 30 Over Power Protection 4 31 Under Power Protection 4 31 Configure Other Protection Mechanisms 4 32 TM XDOP 01XN Fold Protection 4 32 Over Temperature Protection 4 32 AC Off Protection 4 33 Clear Protection Event 4 33 View Power Supply Output 4 33 Configure Auxiliary Status Lines 4 34 Read Error Messages 4 35 Triggering Commands 4 36 Auto Sequencing 4 37 Operation 4 37 Editing 4 37 Programming Sequences 4 38 Select Sequence to Program 4 38 Editing the Sequence 4 38 Setting Sequence Repetitions 4 38 Selecting a Trigger Source 4 39 Editing Step
181. nditions which are part of the power supply s normal operation The Operation Status data structure has the operation status register and 5 sub registers to represent regulation shutdown protection shutdown remote control and current sharing modes Each of the sub registers is summarized in a summary bit Figure 4 4 represents the Operation Status data structure The represents the logical summation of bits in a register Table 4 9 Table 4 10 Table 4 11 Table 4 13 and Table 4 14 describe the meanings of each bit as well as the bit number and bit weight TM XDOP O1XN SCPI Commands for Digital Interfaces cv 0 cc 1 CP 2 Not Used 3 Not Used 4 5 6 7 8 STATus OPERation REGulating Not Used Not Used Not Used Not Used Not Used 9 Not Used 10 Not Used 11 Not Used 12 Not Used 13 Not Used 14 Not Used 15 Over VOLtage 0 Under VOLTage 1 Over CURrent 2 Under CURrent 3 Over POWer 4 5 6 7 8 Under POWer AC Off Over TEMperature SENSe FOLDback 9 ASlave 10 Not Used 11 Not Used 12 Not Used 13 Not Used 14 Not Used 15 G PROTection Summary 0 A INTerlock 1 COMMand 2 Not Used 3 Not Used 4 5 6 7 8 gt STATus OPERation SHUTdown Not Used CALibrating Not Used Not Used Not Used Not Used Not Used
182. nemonic gt include NONE e ON Output On e OFF Output Off e OVOL Over Voltage Condition e UVOL Under Voltage Condition e OCUR Over Current Condition e UCUR Under Current Condition e OPOW Over Power Condition e UPOW Under Power Condition e ACOF AC Power had been turned off or failed e OTEM Over Temperature Condition e HTEM High Temperature Condition e SPR Sense Protection Tripped e FOLD Fold Protection Tripped e CC Constant Current Mode e CV Constant Voltage Mode e CP Constant Power Mode e UNR Output Unregulated To check the setting OUTP AUXA SOUR To set up Auxiliary line B OUTP AUXB SOUR lt aux line mnemonic gt To set the polarity of the auxiliary status lines OUTP AUXA POL HIGH LOW OUTP AUXB POL HIGH LOW Where true the line is pulled high LOW means the logic of the output is active low HIGH means that the logic of the output is active high That is if the condition is TM XDOP O1XN SCPI Commands for Digital Interfaces The user can select polarity for either of the auxiliary lines To check the state of the line OUTP AUXA STAT This command returns a or O If it returns a 1 this means that the status selected as the auxiliary line mnemonic is true Read Error Messages TM XDOP 01XN To read from the error queue SYST ERR This command returns an error code and message from the error queue For example e 315 Configura
183. new code gt STATe OFF ON lt code gt STATe CALibration is the root keyword of the command CURRent and SECure are second level keywords and DATA LEVel CODE and STATe are third level keywords A colon is used to separate a command keyword from a lower level keyword C 4 TM XDOP 01XN Using SCPI Commands Using SCPI Commands TM XDOP 01XN Throughout these commands the optional command lt channel gt is available for the units equipped with the optional CANbus interface card This manual shows SCPI commands in the following format CALibration CURRent LEVel lt current gt MIN MAX The command is expressed as a mixture of upper and lowercase letters The uppercase letters suggest how the command can be abbreviated into a short form SCPI commands can be sent in long or short forms The short form is better for data entry The long form is better for readability Command strings are not case sensitive CURR Curr and curr are all acceptable abbreviations for CURRent As for the long form CURRENT Current and current are all acceptable The command strings include punctuation While some punctuation is sent with the string other markings are used to identify different elements of the command syntax and are not sent with the string The following punctuation is sent with the command string e Colons separate command keywords from lower level keywords For example CAL CURR STA
184. ng Calibration Mode To protect calibration data a security code is required to enter calibration mode The security code set at the factory to 0000 The password can be changed from the remote interface or the front panel Calibration state must be ON to change the password From the front panel select Change Code from the calibration menu and enter the new code To change the Calibration security code Step Do This You Will See 1 Output V Cal 2 Si a Change Code Scroll to select Change Code 3 Enter a new 4 digit code Code 4 You are back in the Calibration menu Output V Cal If you have entered a valid code the prompt displays Output V Cal You can either continue working with the calibration options or press EXIT to leave calibration mode The SCPI command to change the security code is CAL CODE lt security_code gt The security code is any 4 digit number enclosed by quotation marks Trying to change the password to an invalid one causes an error B 5 Calibration 6000 Watt only Setup and Equipment B 6 6 digit DVM e current shunt e variable load e 0 10 V DC power supply analog programming interface e Load wiring sized for the maximum available output current See Table 2 4 on page 2 16 To set up to calibrate output voltage and current Connect a load to the output of the power supply and a current shunt in series You will need to use the DVM to measure both the voltage at the o
185. ns listed 3 27 IX 5 Index status register 4 43 commands 4 58 condition 4 43 current 4 53 current share 4 50 enable 4 43 event 4 43 power 4 53 questionable 4 50 remote control 4 49 standard event 4 54 status byte 4 55 temperature 4 54 transition filters 4 43 voltage 4 53 STORE key 1 5 3 5 T terminal blocks 1 11 TRIGGER key 1 5 Trigger display annunciator 1 10 3 42 triggering 4 36 auto sequence 3 35 3 41 4 39 external input 4 6 setpoints 4 27 sources 4 37 U UL approval 1 viii A 13 unlocking control knobs 3 45 up arrow key 1 6 user lines 3 27 4 3 4 6 Also see triggering interlock auxiliary status lines USER LINES menu item 3 6 user request event error D 6 user settings changing 3 22 recalling settings 3 23 storing 3 21 V vacuum fluorescent display 1 2 1 3 1 4 ventilation 2 6 VIEW MODEL INFO menu item 3 50 voltage bar graph 1 9 VOLTAGE key 1 5 3 5 IX 6 voltage knob described 1 5 3 7 locking out 3 45 voltage limit setting 3 46 4 27 voltage mode operation test 2 14 W warranty out of warranty service WA 4 terms and conditions WA 1 wire specification AC 2 8 X Xantrex web site v TM XDOP 01XN Xantrex Technology Inc 1 800 670 0707 Tel toll free NA 1 360 925 5097 Tel direct 1 800 994 7828 Fax toll free NA 1 360 925 5134 Fax direct customerservice xantrex com www xantrex com TM XDOP 01XN
186. ns for Remote Control on page 4 3 for details Each user line also has a corresponding annunciator on the front panel display to indicate when it is on Aux lines can be set up to report the following status conditions TM XDOP 01XN None Unregul Output Unregulated OVP Over Voltage Condition UV Under Voltage Condition OC Over Current Condition UC Under Current Condition OP Over Power Condition UP Under Power Condition AC Off Input power has failed or is out of range OTP Over Temperature Condition Hi Temp High Temperature Condition SenseProt Sense Protection Tripped Fold Prot Fold Protection Tripped CC Constant Current Mode CV Constant Voltage Mode CP Constant Power Mode Out ON Output On Out OFF Output Off Operation To access and work with the USER LINES menu option Step Do This You Will See 1 ERROR MSGS 2 Cw A USER LINES 3 Aux line A 4 Ca or Cv to select which line to Arline B configure 5 Cfg None a You can also press MENU again to bring up the AUX LINES option Aux line B has been selected to be configured To configure Aux line B Step Do This You Will See 1 Cfg CV Press repeatedly until the desired a option appears For this example CV is selected 2 Pol Act High Cw Press repeatedly until the desired Pol Act Low option appears Select either Act High Active high logic or Act Low Active low logic for the auxiliary lines In this
187. nterface lines The analog programming inputs are active only when selected using the procedure in Select Remote Control Source on page 3 19 You can select analog remote control or either the output voltage or current or both When only voltage or current is being remotely controlled the other setpoint is under front panel local control TM XDOP O1XN Multichannel Operation Multichannel Operation Multichannel Connections CANbus TM XDOP 01XN You may remotely control up to 50 power supplies from one programming interface RS 232 or GPIB by using multichannel addressing if the CANbus option is installed One power supply will be connected to a PC via RS 232 or GPIB All other power supplies are connected via CANbus Controller Area Network to that unit SCPI commands that include a channel address will be sent via the CANbus to the other power supplies Commands with the local address will be executed locally and will not be sent The multichannel address must be appended to the program mnemonic If no multichannel address is appended to the program mnemonic the command is executed by the local directly connected power supply Each unit of the network can send and receive commands to and from other units on the network It is highly recommended that only one command be sent at a time Any RS 232 and GPIB timeout settings should be increased when using multichannel commands The CANbus port is a one male one fema
188. o to the Output Current Calibration menu Output Current 1 Set the power supply and load operate at full output You must ensure the power supply is operating in current mode during current calibration Place a shunt on the load line so that you can measure the current Attach a DVM across the shunt 2 Enter output current calibration menu Select Output I Cal from the calibration menu Press ENTER You will be prompted to set up for output current calibration Press ENTER when ready 3 Minimum calibration level The power supply will automatically set the output current to 10 4 Enter current data TM XDOP 01XN Enter the current output read from the external DVM via the shunt Press ENTER B 7 Calibration 6000 Watt only Maximum calibration level The power supply will set the output to 90 Enter current data Enter the current output read from the external DVM via the shunt Press ENTER Power supply calculates and stores calibration constants The menu will go to the 5V analog voltage programming calibration menu Analog Programming Interface 0 5V Range To set up to calibrate the analog programming interface you will need a DC power source capable of outputting 0 to 5V and a DVM See Table 4 2 Analog Programming Pins on page 4 7 Analog Programming Interface Voltage Programming Calibration B 8 1 Connect the power source across the voltage programming lines Pins B3 and B1 GND Attach a DVM acro
189. oefficient j Voltage 0 04 of Vmax C Current 0 06 of Imax C Minimum output voltage is lt 0 3 of rated voltage at zero output setting Minimum output current is lt 0 2 of rated current at zero output setting when measured with rated load resistance For input voltage variation over the AC input voltage range with constant rated load For 0 100 load variation with constant nominal line voltage Current mode noise is measured from 10 to 100 of rated output voltage full current unit in CC mode Typical efficiency at nominal input voltage and full output power Maximum drift over 30 minutes with constant line load and temperature after power on Maximum drift over 8 hours with constant line load and temperature after 30 minute warm up Current drift for 600V 20A unit is 0 08 of Imax Change in output per C change in ambient temperature with constant line and load Sore meno oe TM XDOP 01XN 80 150 0 80 V 0 150 A 12000 W 8 mV 150 mA 45 mV 340 mA 120 mV 750 mA 100 mV 15 mV 640 mA 0 82 4 V 0 89 32 mV 900 mA 16 mV 75 mA 32 mV 90 mA 100 120 0 100 V 0 120 A 12000 W 10 mV 120 mA 55 mV 280 mA 150 mV 600 mA 100 mV 20 mV 460 mA 0 103 V 0 90 40 mV 720 mA 20 mV 60 mA 40 mV 72mA 150 80 0 150 V 0 80 A 12000 W 15mV 80 mA 80 mV 200 mA 225 mV 400 mA 150 mV 20 mV 240 mA 0 154 5 V 0 90 60 mV 480 mA 30 mV 40 mA 60 mV 48 mA
190. ogram PROGram NAME lt sequence_number gt lt sequence_number gt is a number between 1 and 10 that corresponds to the number of the sequence Define the name of the program to be selected If lt sequence_number gt already exists then that existing program is selected If the program name does not exist then the new name is selected but no program is defined by this selection Editing the Sequence To edit an existing step or to program new steps use the following commands PROG STEP lt step_number gt EDIT lt voltage gt lt current gt lt power gt lt OVP_level gt lt time gt TRIG Any of the step parameters may be omitted in which case the default parameters will be used The defaults are 0 V 0 A 0 W 0 V 10 ms To insert a step between commands in an existing program use this command PROG STEP lt step_number gt INS lt voltage gt lt current gt lt power gt lt OVP_level gt lt time gt TRIG The step number is where the inserted step is to be located The existing step and all following steps at that location are moved down In both the edit and insert commands e lt step_number gt ranges from 1 to 99 e lt time gt defines the duration of the step and must be entered in the format milliseconds It ranges from 10ms to 99 hours e TRIG may be entered instead of a step duration In this case the unit will hold the output levels at that step until a trigg
191. ommand STATus lt channel gt OPERation REGulating PTRansition lt status enable gt Query format STATus lt channel gt OPERation REGulating PTRansition Set Regulating Negative Transition Filter SCPI command STATus lt channel gt OPERation REGulating NTRansition lt status enable gt Query format STATus lt channel gt OPERation REGulating NTRansition 4 63 Remote Operation Shutdown Sub Register Commands Query Shutdown Event SCPI command STATus lt channel gt OPERation SHUTdown EVENt Query Shutdown Condition SCPI command STATus lt channel gt OP ERation SHUTdown Enable Shutdown Sub Register SCPI command STATus lt channel gt OP Query format STATus lt channel gt OP ERation SHUTdown Set Shutdown Positive Transition Filter SCPI command STATus lt channel gt OPERation SHUTdown lt status enable gt Query format STATus lt channel gt OP ERation SHUTdown Set Shutdown Negative Transition Filter SCPI command STATus lt channel gt lt status enable gt Query format STATus lt channel gt 4 64 OP OP ERation SHUTdown ERation SHUTdown CONDition ERation SHUTdown ENABle lt status enable gt NABle ea PTRansition PTRansition NTRansition NTRansition TM XDOP O1XN SCPI Commands for Digital Interfaces Protection Shutdown Sub
192. omplete capability LOCS LWLS REMS RWLS Complete capability NPRS SQRS APRS Device does not act as a controller E 3 GPIB Electrical Specifications Driver Requirements IEEE 488 2 Section 3 3 Table E 3 Driver Types for Interface Lines Signal Line DIO1 DIO2 DIO3 DIO4 DIO5 DIO6 DIO7 DIO8 Driver Tri State Tri State Tri State Tri State Tri State Tri State Tri State Tri State Signal Line EOI DAV NRFD NDAC REN IFC SRQ ATN Driver Tri State Tri State Open Collector mandatory Open Collector mandatory Tri State Tri State Open Collector mandatory Tri State Driver Specifications for 1 megabyte second e Low State Output voltage lt 0 5V at 48mA sink current e High State Output Voltage 3 state 2 2 4V at 5 2mA The Output Voltage open collector is dependent on the composite Device Load Requirements The Voltage values are measured at the device connector between the signal line and the logic ground Mechanical Specifications Mechanical Specifications comply with IEEE 488 1 standards See Appendix A for details Performance Specifications The power supply responds within 2 ms of receiving a command over the GPIB interface E 4 TM XDOP O1XN Warranty and Product Information Warranty What does this warranty cover This Limited Warranty is provided by Xantrex Technology Inc Xantrex and covers defects in workmanship and materials in your XDC 6000 W
193. ontrol implements all IEEE 488 2 requirements SCPI Requirements The power supply conforms to the following SCPI requirements C 2 SCPI mandated commands Questionable Status Register QSR Condition Event Enable Operation Status Register OSR Condition Event Enable Status Byte Register SBR Standard Event Status Register SESR TM XDOP O1XN IEEE 488 2 SCPI Syntax and Style IEEE 488 2 SCPI Syntax and Style Parameters Units of Measure and Multipliers TM XDOP 01XN Refer to IEEE 488 2 section 7 7 3 for the definition of units of measure The default units of measure include e V Volt voltage e A Ampere current e W Watt power e S seconds time The supported optional multipliers include m milli e k kilo Important The SI standard for these multipliers is specifically lowercase while the IEEE standard specifies uppercase Both combinations are supported C 3 SCPI Command Reference SCPI Command Hierarchy SCPI is an ASCII based command language designed for use in high technology test and measurement equipment The command structure is organized around common roots or nodes which are the building blocks of SCPI subsystems An example of a common root is CALibration and some of the commands that reside in the CALibration subsystem are shown below CALibration CURRent DATA lt numeric value gt LEVel MIN MAX SECure CODE lt
194. oo Figure 4 1 View of Remote Interface Connections Removable mating connectors are supplied for the user lines and program lines while the mating connectors and cables for the other ports are supplied by the user 4 3 Remote Operation Remote Analog Operation Analog Connections The analog interface has 2 ports the user lines and the analog programming lines The tables below show the function and power flow for each pin on these ports The user lines are optically isolated The output lines are open collector configuration The input lines are capable of sinking 10mA with recommended 5V at input up to a maximum 90mA The analog program and monitor lines are fully isolated from the supply output but not each other Isolation to chassis is limited to 58 V CAUTION To avoid damage to the power supply do not apply signals to Analog programming lines in excess of 58 V wrt chassis or 12 V wrt Analog programming ground 4 4 Use precision variable low noise voltage sources for the program lines and be sure that the program source ground potential is the same as on the analog readback circuitry The external analog monitoring circuitry must be high impedance because the onboard V and I readback sources have approximately 300 ohms output impedance Connect your program and readback lines to the removable wire clamp connectors marked user lines and program lines in Figure 4 1 Strip 0 2 Smm of
195. ower Protection PROT SET ALARMS Press repeatedly until the desired setting appears ENTER Use both the Current and Voltage knobs or the numeric keypad or the arrow keys to enter a value The value must be between OW and 103 of the unit s rated power ENTER Use the arrow keys to select Yes or No For this example Yes is selected ENTER Step Do This 1 2 PROT SET ALARMS Press repeatedly until the desired setting ALARMS appears ENTER Use both the Current and Voltage knobs or the numeric keypad or the arrow keys to enter a value must be between OW and 103 of the unit s rated power ENTER Use the arrow keys to select Yes or No For this example Yes is selected ENTER Power Supply Operation You Will See OVP SET 0V OPP SET OW OPP SET OW OPP SET W S D if trip N S D if trip Y This setting is saved and the display returns to its default operating mode You Will See OVP SET 0V UPP SET OW UPP SET 0W UPP SET HH W S D if trip N S D if trip Y This setting is saved and the display returns to its default operating mode Operation Fold Protection options are None Fold protection disabled CC Shutdown on entering CC mode CV Shutdown on entering CV mode CP Shutdown on entering CP mode A programmable delay time causes the supply to wait before shutting down the output To set Fold Protection Step Do This 1 2
196. p and Down arrow keys Top Level Menu Items 3 6 To display the first menu item press MENU To display the other top level menu items in the order listed below press MENU or the Down arrow repeatedly To display the other items in reverse order press the Up arrow repeatedly The top level menu items are 1 oe CO A oe ERROR MSGS Lists up to 50 queued errors See page 3 26 USER LINES Configures auxiliary lines A and B See page 3 27 PON CONFIG Configures the power on settings See page 3 29 S D RECOVERY Sets up shutdown recovery options for AC Off and Over Temperature Protection See page 3 15 REMOTE SELECT Sets up the remote access option See page 3 19 REMOTE CONFIG Configures the remote access option See page 3 20 AUTO SEQ PGM Programs automatic sequences See page 3 33 CURRENT SHARE Sets up master slave relationships for multiple supply configurations See Chapter 5 Current Sharing POWER SETPT Sets up the power output See page 3 9 TM XDOP O1XN Control Knobs TM XDOP 01XN 10 11 12 13 14 15 Front Panel Controls DISPLAY CFG Sets up the display to show the desired combination of voltage current and power See page 3 43 KNOB LOCKOUT Locks out either the Voltage or Current knob or locks out both See page 3 44 SETPT LIMIT Sets up minimum and maximum voltage current and power setpoints See page 3 45 SLEW RATE Set
197. page 4 53 N A Status Power Event Register BDUBAJOY PULWWOD 14S NXT0 dOdX WL G 9 Table C10 Status Commands Function SCPI Gommand Description Query Set Questionable STATus lt channel gt QUEStionable POWer NTRans_ See Table 4 18 on page 4 53 Yes Status Power ition lt status enable gt Negative Transition Register Set Questionable STATus lt channel gt QUEStionable POWer PTRans_ See Table 4 18 on page 4 53 Yes Status Power ition lt status enable gt Positive Transition Register Query Questionable STATus lt channel gt QUEStionable TEMPeratur See Table 4 19 on page 4 54 N A Status Temperature CONDition Condition Register Set Questionable STATus lt channel gt QUEStionable TEMPeratur See Table 4 19 on page 4 54 Yes Status Temperature ENABle lt status enable gt Enable Register Query Questionable STATus lt channel gt QUEStionable TEMPerature See Table 4 19 on page 4 54 N A Status Temperature EVENt Event Register Set Questionable STATus lt channel gt QUEStionable TEMPeratur See Table 4 19 on page 4 54 Yes Status Temperature NTRansition lt status enable gt Negative Transition Register Set Questionable STATus lt channel gt QUEStionable
198. ped SOUR POW PROT TRIP TM XDOP 01XN 4 31 Remote Operation Configure Other Protection Mechanisms Fold Protection Fold protection causes the supply to shut down if the selected regulation mode is entered A delay time may be specified as well To set the fold mode OUTP PROT FOLD CC CV CP NONE Where NONE indicates fold protection is disabled wa CC indicates the supply will shut down due to constant current condition CV indicates the supply will shut down due to constant voltage CP indicates the supply will shut down due to constant power The default value is NONE To set the fold delay OUTP PROT FOLD DEL lt delay_time gt Where lt delay_time gt is a value in the range of 0 60 seconds Units may be specified as ms milliseconds s seconds or min minutes If no units are specified the default seconds are assumed Increments of 0 1s are allowed The default value is 0 5 second Over Temperature Protection The user has the option of setting whether the over temperature protection OTP mechanism is latched or automatically resumes operation The trip levels are internally set and cannot be changed by the user SENSE TEMP PROT LATCH ON 1 OFF 0 Where ON or 1 means the supply will be latched in shutdown if OTP is tripped until the user clears the alarm and re enables the output and OFF or 0 means the supply will automatically resume operation w
199. pendix B 3 3 Operation Power Supply Regulation Modes Constant Voltage CV Constant Current CC Constant Power CP Automatic Mode Crossover 3 4 The power supply has 3 regulation modes while in the Normal Operation State e Constant Voltage CV e Constant Current CC e Constant Power CP The CV CC and CP annunciators indicate the regulation mode In this mode the supply s output voltage is constant while the current and power vary with the load The power supply will operate in constant voltage mode whenever the load current I is less than the current limit setting Isgr or Ip lt Igpr IL V ser R1 In constant voltage mode the power supply maintains the output voltage at the selected value V sgr while the load current I varies with the load requirements In this mode the supply s output current is constant while the voltage and power vary with the load The power supply will operate in constant current mode whenever the load resistance is low enough that the load current I is equal to the current limit setting Isgr V_ Isp7Ry In constant current mode the power supply maintains the output current at the selected value Isgr while the load voltage Vy varies with the load requirements In this mode the supply s output power is constant while the voltage and current vary with the load resistance The power supply will operate in Constant Power mode when the power drawn by the load is equa
200. perature range 2 6 TM XDOP O1XN 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 and Figure 2 6 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 AC Input Connector The AC input connector is a standard wire clamp terminal block with 3 phase connectors and a chassis ground connector The safety ground wire alternatively may be connected to the chassis using a ring tongue on the ground stud as shown in Figure 2 4 and Figure 2 6 ee at nanosa DOO AN AN o rn a o i A7 Ground Connection 3 Phase Terminal Block Connectors Figure 2 4 AC Input Connector for 6000 Watt units TM XDOP 01XN 2 7 Installation AC Input Wire 2 8 The manufacturer recommends the AC input wire specified in Table 2 2 and Table 2 3 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 Specifi
201. ply outlet Heavy connecting cables must have some form of strain relief so the connections aren t loosened and the bus bars aren t bent To complete the voltage mode operation check 1 Ensure that the OUT OFF annunciator is illuminated If OUT ON is illuminated press OUT ON OFF 2 Connect a Digital Voltmeter DVM to the output terminals on the rear panel observing correct polarity 3 Press OUT ON OFF to turn the DC output ON Slowly turn the Current knob clockwise 1 or 2 turns Slowly turn the Voltage knob clockwise and observe both the front panel voltmeter and the DVM Do not exceed 10V 5 Compare the DVM reading with the front panel voltmeter reading to verify the accuracy of the internal voltmeter Both readings should be the same within the accuracy of the meters The minimum control range is from zero to the maximum rated output for the power supply model Check that the Constant Voltage CV annunciator is illuminated TM XDOP O1XN 6 Basic Checks or Self Tests Press OUT ON OFF to turn the DC output OFF Current Mode Operation Check ZN WARNING High temperature Ensure that the current output does not exceed the rating of the shunt or load wiring during this test TM XDOP 01XN To complete the current mode operation check 1 a he a Ensure that the OUT OFF annunciator is illuminated If OUT ON is illuminated press OUT ON OFF Connect the DC shunt across the output terminals on
202. ptions for Figure 1 5 1 10 Item Descriptions for Figure 1 6 1 11 Basic Setup Procedure 2 2 AC Wire Specification for 6000 Watt Units 2 8 AC Wire Specification for 12000 Watt Units 2 8 Current Carrying Capacity for Load Wiring 2 16 Settings Affected by Recall 3 25 To Program a Sequence 3 33 User Line Pins 4 6 Analog Programming Pins 4 7 Analog Pin Connections for Power Loop Back 4 7 Analog Pin Connections with a Contact Closure 4 7 CANbus Pins 4 11 RS 232 Pins 4 16 GPIB Pins 4 19 Features Affected by Reset RST Command 4 24 OPERation Status Register 4 46 REGulating Sub Register 4 47 SHUTdown Sub Register 4 47 Protection SHUTdown Sub Register 4 48 Remote CONtrol Sub Register 4 4
203. r 4 54 Standard Event Status Register 4 54 Status Byte 4 55 Error Event Queue ERR 4 56 Questionable Status Register Summary QSR 4 56 TM XDOP 01XN XV 5 xvi Message Available MAV 4 56 Standard Event Status Summary ESB 4 56 Master Summary Status MSS 4 56 Request Service RQS 4 57 Operation Status Register Summary OSR 4 57 Status Register Commands 4 58 SCPI Status Commands 4 58 IEEE 488 2 Status and Event Commands 4 59 Operation Status Register Commands 4 62 Regulating Sub Register Commands 4 63 Shutdown Sub Register Commands 4 64 Protection Shutdown Sub Register Commands 4 65 Remote Control Sub Register Commands 4 65 Current Share Sub Register Commands 4 67 Questionable Status Register Commands 4
204. r sequence System TRIGger lt channel gt SEQuence SOURce Sets the trigger source for Yes Set Trigger Source BUS EXTernal IMMediate ON E triggered setpoints BDUBAJOY PULWWOD 14S NXT0 dOdX WL 61 9 Table C 9 System Commands Query System Error SYSTem lt channel gt ERRor NEXT Returns the next error in the N A instrument s error queue Recall Default SYSTem lt channel gt RECall DEFault Restore the factory preset values N A Factory Preset Select Remote SYSTem lt channel gt REMote SOURce Select the remote control source Yes Control Source RS232 GPIB AVOLtage ACURrent AVCurrent MCHann el Set RS 232 Baud SYSTem lt channel gt COMMunicate SERial RECei Configure the RS 232 baud rate Yes Rate ve BAUD 1200 2400 4800 9600 Set RS 232 Flow SYSTem lt channel gt COMMunicate SERial RECei Select type of flow control for Yes Control ve PACE HARDware XON NONE RS 232 Set Multichannel SYSTem lt channel gt COMMunicate MCHannel ADDR Select the multichannel unit Yes Address ess lt channel gt address 6000 W only Set GPIB Address SYSTem lt channel gt COMMunicate GPIB SELF A Configure GPIB address Yes DDRess lt GPIB_address gt Set GPIB Power On SYSTem lt channel gt COMMunicate GPIB SELF P Configure GPIB PON SRQ Yes Servic
205. rameters The following is an example of a command that uses numeric parameters VOLT PROT lt voltage gt MAX MIN String parameters are used when a series of ASCII characters is required Strings must be enclosed within single or double quotations The beginning and ending quotation marks must be matching Quote delimiters may be included in the string by typing the quotation marks twice without any characters in between The following is an example of a command that uses string parameters CAL STAT ON 0000 TM XDOP O1XN SCPI Command Summary SCPI Command Summary The SCPI commands supported by the this Programmable Power Supply are described in the tables in the remainder of this section These tables use the following column headings e Function The commonly used name for the function e SCPI Command The full command in long form e Description Explains what the command does or what is affected by it e Query Indicates whether the unit supports a query version of the listed command Notations Used in the Tables The following abbreviations are used in the command listings e N A Not applicable The command has no associated setpoint value TM XDOP 01XN C 9 OT D NXT0 dOdX WL Table C 1 IEEE 488 2 Commands Function SCPI Commands Desaiption Query Clear Status CLS Clears the status
206. rating States Power On Output Shutdown Soft Start Normal Operation Calibration TM XDOP 01XN The power supply has 5 operating states e Power On e Output Shutdown e Soft Start e Normal Operation e Calibration 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 and performing self tests At the end of the Power On period the supply is normally in its default Power On mode with the output OFF Vspgr 0 and Igp7 0 In this state the output is disabled and there is no output regardless of power settings The power supply can be placed in the Output Shutdown state by a command via the front panel or from the programming interface via the Interlock signal or from a protection mechanism This is also called the Standby mode In this state the output power is ramping up gradually towards its target load This reduces equipment stress This state occurs whenever the supply output is set to ON or a protection state is re set and is approximately 2 seconds in duration This is the normal operating state for the power supply The power supply is ready to accept commands This is a service mode that is used to calibrate setpoints and readback levels for accuracy Calibration should only be performed by qualified service personnel For detailed information see Ap
207. re Event Sub Register is read and then cleared SCPI command STATus lt channel gt QUEStionable TEMPerature EVENt Query Questionable Temperature Sub Register Condition SCPI command STATus lt channel gt QUEStionable TEMPerature CONDition Enable Temperature Sub Register SCPI command STATus lt channel gt QUEStionable TEMPerature ENABle lt status enable gt Query Format STATus lt channel gt QUEStionable TEMPerature ENABle Set Temperature Positive Transition Filter SCPI command STATus lt channel gt QUEStionable TEMPerature PTRansition lt status enable gt Query Format STATus lt channel gt QUEStionable TEMPerature PTRansition Set Temperature Negative Transition Filter SCPI command STATus lt channel gt QUEStionable TEMPerature NTRansition lt status enable gt Query Format STATus lt channel gt QUEStionable TEMPerature NTRansition 4 72 TM XDOP O1XN Current Sharing Chapter 5 explains what current sharing is and shows how to configure and operate units in current sharing mode Current Sharing Overview In many applications multiple power supplies are connected in parallel to supply large currents to a load Typically because of differences in the load wiring and supply setpoints each power supply will provide different amounts of cu
208. re than one master connected to the CANbus Error 1911 e there are more than 4 slaves Error 1922 or e the model does not match that of the master Error 1922 In each of these cases the current share mode will be set to No share If a unit becomes disconnected due to a failure in communications the master will queue error 1912 Current Share Slave Lost and the slave will queue error 1921 Current Share Master Lost The slave s output will be disabled and the slave annunciator will flash See Table D 13 Current Share Error Codes on page D 9 for the list of error codes and messages CANbus Specifications 5 6 Max cable length 40m Bus speed 700 kbits sec Termination 120 ohm 1 4 Watt Connections parallel male DB9 to female DB9 cable TM XDOP O1XN Specifications and Characteristics Appendix A lists all of the electrical environmental and mechanical specifications of the XDC Important e These specifications are represented over the full operating temperature range e Nominal line input voltage assumed unless otherwise stated e All sense lines are configured for default local operation e All specifications are subject to change without notice Specifications and Characteristics Electrical Specifications Summary Table A 1 Specifications for 6000 Watt units 10V to 60V M odels Models 10 600 20 300 30 200 40 150 60 100 Output Ratings Output Voltage 0 10 V 0 20 V 0 30 V 0 4
209. rent Level MINimum MAXimum level Enter Output CALibration lt channel gt OUTPut CURRent DATA Set output current calibration data No Current Data lt current gt Set Supply Output CALibration lt channel gt OUTPut VOLTage LEVel Set voltage output calibration No Voltage Level MINimum MAXimum level Enter Output CALibration lt channel gt OUTPut VOLTage DATA Set voltage output calibration data No Voltage Data lt voltage gt Table C6 Contrand to Clear all Protection Mechanisrs Clear Output OUTPut lt channel gt PROTection CLEar Clears the protection mechanism N A Protection Ayewiuing puewwos 149s B he foe NXT0 dOdX WL Table C 7 Comrrends for Fold Protection Function SCPI Command Description Query Set Output Fold OUTPut lt channel gt PROTection FOLD DELay Set the delay time seconds Yes Delay lt delay gt before fold protection is triggered Set Output Fold OUTPut lt channel gt PROTection FOLD MODE Select which regulation mode to Yes Mode NONE CC CP CV fold back None CV CC CP Query Fold OUTPut lt channel gt PROTection FOLD TRIPped Query if fold protection has N A Protection Tripped tripped Table G 8 Conrrands for Triggering Function SCPI Command Description Query Set Immediate INITiate lt channel gt IMMediate Initiate a triggered event or N A Initiation of Trigge
210. rent share configure 5 2 overview 5 2 setup 5 6 specifications 5 6 CURRENT SHARE menu item 3 6 current sharing 1 11 CV display annunciator 1 10 D DC output 1 11 decimal key described 1 6 defaults configuring power on 4 22 saving 4 25 device specific errors list of D 5 digital processing 1 2 display defaults 3 51 display annunciators ADR 1 10 ALARM 1 10 AUTO 1 10 AUX A 1 10 bar graphs 1 10 CC 1 10 CP 1 10 CV 1 10 ERR 1 10 illustrated 1 9 Interlock 1 10 LCL 1 10 Master 1 10 OTP 1 10 OUT OFF 1 10 IX 2 OUT ON 1 10 OVP 1 10 Pause 1 10 RMT 1 10 SEQ 1 10 Set 1 10 Slave 1 10 SRQ 1 10 Trigger 1 10 DISPLAY CFG menu item 3 7 3 43 display test 2 13 down arrow key 1 6 E END key 1 5 ENTER key 1 6 ERR display annunciator 1 10 error messages 4 35 For individual error codes and error message descriptions see Appendix D D 1 command errors D 2 device specific errors D 5 execution errors D 3 operation complete event D 6 query errors D 6 reading 3 25 4 35 user request event D 6 ERROR MSGS menu item 3 6 execution errors list of D 3 exhaust fan I 11 exhaust vents 1 11 EXIT key 1 6 3 6 F factory default settings 1 12 FCC compliance viii A 13 fold protection options 3 14 4 32 setting 3 14 front panel controls 3 5 front panel illustrated 1 3 1 9 function keys ALARM 1 5 CE 1 6 CURRENT 1 5 3 5 ENTER 1 6 TM XDOP O1XN EXIT 1 6 3
211. rol 4 10 Multichannel Operation 4 11 Multichannel Connections 4 11 CANbus 2 2 eee fe eee ee eee eee eee 4 11 TM XDOP 01XN xiii xiv Configuration 4 12 Front Panel 4 12 SCPI 4 12 Setup 4 13 Using Multichannel Operation 4 14 Multichannel Commands 4 15 Multichannel Broadcast Commands 4 15 Specifications 4 15 RS 232 Operation 4 16 RS 232 Connection 4 16 Configuration 4 17 Front Panel 4 17 SCPI 2 52 eee eee ee 4 18 Using RS 232 4 18 GPIB Operation 4 19 GPIB Connection 4 19 Configuration
212. row keys to enter a value 0 103 of the unit s rated voltage 5 S D if trip N 6 Use the arrow keys to select Yes or No S D if trip Y For this example Yes is selected 7 This setting is saved and the display ENTER returns to its default operating mode 3 11 Operation To set the Over Current Protection Step Do This You Will See 1 OVP SET 0V 2 Press repeatedly until the OCP SET 0A desired setting appears 3 OCP SET 0A 4 Use the Current knob the numeric OCP SET A keypad or the arrow keys to enter a value 0 103 of the unit s rated current 5 S D if trip N 6 Use the arrow keys to select Yes or No S D if trip Y For this example Yes is selected 0 ENTER To set the Under Current Protection Step Do This 1 2 Press repeatedly until the desired setting appears 4 Use the Current knob the numeric keypad or the arrow keys to enter a value The value must be between 0 103 of the unit s rated current 5 ENTER 6 Use the arrow keys to select Yes or No For this example Yes is selected 7 ENTER This setting is saved and the display returns to its default operating mode You Will See OVP SET 0V UCP SET 0A UCP SET 0A UCP SET HHA S D if trip N S D if trip Y This setting is saved and the display returns to its default operating mode TM XDOP O1XN TM XDOP 01XN To set the Over Power Protection Step Do This 1 2 To set the Under P
213. rrent to the load Each of the supplies may have to be controlled separately and output transient response may not be optimal 6kW and 12kW power supplies equipped with the optional CANbus interface can be configured to current share using a simple daisy chain control connection between the units When configured for current sharing one supply configured as a master controls the remaining supplies slaves via CANbus to equalize the current drawn from each unit In addition to balancing the supply outputs the current share configuration allows you to control the output voltage current limit and output enable disable function of all the supplies through the master supply You can also choose direct display and readback of the total current from the system Current sharing can be used with a maximum of five supplies of the same model Figure 5 1 shows a typical current share system setup TERMINATION Pw i 1 O H 60V 100A 60 0V Y500A MASTER UNIT Figure 5 1 Connections for Current Share Operation 5 2 TM XDOP O1XN Setting up Current Sharing Setting up Current Sharing Front Panel Step Do This l To set up multiple supplies for current share operation 1 Configure each supply with a unique multichannel address See Multichannel Operation on page 4 11 2 Configure the supplies for current sharing Configure one supply to operate as the master the
214. rror Message Description 400 Query Error This is the generic query error for the power supply used only when the other types of errors do not apply 410 Query INTERRUPTED Generated when a new command was received before it could finish the query User Request Event An error event in the range 699 600 is used when the instrument wishes to report a 488 2 user request event This event also sets the user request bit bit 6 of the Standard Event Status Register Table D 5 User Request Event Error code Error Message Description 600 User request Operation Complete Event D 6 An error event in the range 899 800 is used when the instrument wishes to report a 488 2 operation complete event This event occurs when an instrument s synchronization protocol having been enabled by an OPC command completes all selected pending operations This event also sets the operation complete bit bit 0 of the Standard Event Status Register Table D 6 Operation Complete Event Error code Error Message Description 800 Operation complete TM XDOP O1XN Front Panel Error Codes Front Panel Error Codes Table D 7 Front Panel Error Codes Error code Error Message Description 1301 Front Panel Protocol Error Invalid data from the front panel was sent to the CPU 1302 Front Panel Not Responding 1303 Front Panel Self Test Failed CPU Error Codes Table D 8 CPU Error Codes Error code Error Message Description 1401 Co
215. ry 5 32 FREQuency Summary 6 64 PHASe Summary 7 128 MODulation Summary 8 256 CALibration 9 512 Not Used 10 1024 Not Used 11 2048 AC Off 12 4096 UNRegulated 13 8192 INSTrument Summary 14 16384 Command Warning 15 32768 Not Used 4 52 Description Reflects a summary of the VOLTage Sub Register Reflects a summary of the CURRent Sub Register Not implemented Reflects a summary of the POWer Sub Register Reflects a summary of the TEMPerature Sub Register Not implemented Not implemented Not implemented Indicates an error in the unit calibration Not implemented Not implemented Indicates an AC Supply failure Indicates that the output is not regulated in either Constant Voltage mode Constant Current mode or Constant Power mode Reflects the inverse of the Operation Regulation Summary bit Not implemented Not implemented Always zero TM XDOP O1XN VOLTage Sub Register SCPI Commands for Digital Interfaces This shows whether the present voltage level is over or under the specified trip limit Table 4 16 VOLTage Sub Register Bit Bit Weight Bit Name 0 1 Over VOLtage 1 2 Under VOLtage CURRent Sub Register Description Set if the supply s output voltage exceeds the over voltage trip level either user specified variable trip limit or the fixed trip limit Set if the supply s output voltage is less than the user specified under voltage trip level variable trip limit and the supply is in Operation state
216. s One such cause is sending a command that is too long Multichannel address taken The multichannel address configured for this unit has already been assigned to another unit on the CANbus network Multichannel originator not responding The originator of the message is not responding to the handshaking Multichannel recipient not responding The recipient of the message is not acknowledging the reception of the command Multichannel command overwritten A received command through the CANbus has been overwritten TM XDOP O1XN Current Share Error Codes Current Share Error Codes Table D 13 Current Share Error Codes TM XDOP 01XN Error code Error Message Description 1900 1911 1912 1921 1922 1924 1925 1926 1927 1928 Current Share General Error Current share master already online A unit on the CANbus network has already been assigned the current share master unit Only one is allowed per network Current share slave lost One of the connected current share slaves have not responded in time Current share master lost The assigned master has not responded in time Current share slave connection refused Connection as a slave on the current share network has been refused due to one of the following reasons 4 slaves are already online the voltage rating does not match those of the master s the current rating does not match those of the master s Current share data out of range
217. s are listed here along with their respective programming interfaces e RS 232 e Analog V amp I Voltage and current programmed via the analog interface e Analog V Voltage programmed via the analog interface current programmed via front panel e Analog I Current programmed via the analog interface voltage programmed via front panel e GPIB e Multichn1 multichannel operation using the optional CANbus interface between units To change the remote control source Step Do This You Will See 1 ERROR MSGS 2 Cw eee REMOTE SELECT 3 Enen RS 232 4 The options are RS 232 Analog V Jor a nll amp I Analog V Analog I GPIB and RMT linked Press repeatedly until the desired remote control source appears 5 The setting is saved and the display returns to its default operating mode If you change the remote setting to GPIB the next time you shift from local to remote control the unit will shift to GPIB control TM XDOP 01XN 3 19 Operation Configure Remote Control Source The REMOTE CONFIG menu option lets you set up the attributes of the remote control sources The following table shows how to access and work with the Remote Configuration option Step Do This You Will See 1 ERROR MSGS 2 Cw B nace REMOTE CONFIG 3 RS 232 Cfg 4 RS 232 Cfg WwW a Cr Qr E ae ee Analog Cfg ress repeate n until the desired GPIB Cfg remote control source appears Multichnl Cfg 5 See the tables that fo
218. s the programmable slew rate See page 3 49 CALIBRATION Displays the Calibration menu This menu item can be password protected See Chapter B Calibration 6000 Watt only MODEL INFO Displays make electrical ratings ROM version FPGA version and SCPI version See View Model Information on page 3 50 The Voltage and Current knobs are the simplest way to control the power supply The Voltage and Current knobs are digital encoders and therefore there are no start or end points to their rotation and their rotation positions are meaningless when the power supply is powered OFF The control knobs can be disabled through a menu command See Lock Out Control Knobs on page 3 44 for more information 3 7 Operation Power Supply Operation Set Voltage Set Current 3 8 This section describes how to configure and operate the power supply The VOLTAGE key allows you to set and view the DC voltage output setpoint Step Do This You Will See 1 Set HHHHFV 2 Use the numeric keypad Voltage knob or arrow keys to enter a value O 103 of rated voltage 3 This saves the setting and enables the new voltage setpoint The CURRENT key allows you to set and view the DC current output setpoint Step Do This You Will See 1 Set HHHHEA 2 Use the numeric keypad Current knob or arrow keys to enter a value 0 103 of rated current 3 This saves the setting and enables the new current setpoint
219. sabled DEF Disabled DEF Disabled DEF None 0 0V 103 of voltage rating 0 0A 103 of current rating 0 of power rating 103 of power rating Disabled 0 0V Disabled 0 0V and not shutdown when tripped Disabled 0 0A and not shutdown when tripped Disabled 0 0A and not shutdown when tripped Disabled 0 0W and not shutdown when tripped Disabled 0 0W and not shutdown when tripped None and delay 0 5s Auto recover Latched Show V I amp P None None and active low Operation Read Error Messages The ERROR MSGS menu option lets you display up to 50 queued messages Once each message has been read it is cleared from the system Press either arrow key to clear the displayed message and bring up the next message Once all messages have been read and cleared the prompt reads No errors and the power supply automatically returns to the default state To read and clear error messages Step Do This You Will See 1 ERROR MSGS 2 Error 3 Press repeatedly until all messages No errors have been read and cleared For a detailed description of all error messages see Appendix D TM XDOP O1XN Power Supply Operation Configure User Lines The USER LINES menu option lets you configure the auxiliary status lines The Auxiliary Aux lines are 2 open collector outputs that can be used to monitor the status of the power supply The auxiliary lines are referred to as AUX A and AUX B See Making Connectio
220. select a sequence to work with dm or W Use the scroll keys to select the step to insert in front of A or W Use the scroll keys to select the Insert Step option Follow step 8 in Table 3 2 To Program a Sequence on page 3 33 to finish editing the step You Will See ERROR MSGS AUTO SEQ PGM Sequence 1 Sequence Edit Sequence Step 1 Step Edit Step Insert Step TM XDOP O1XN Deleting a Sequence Step Power Supply Operation This option allows you to delete a particular step in a sequence that has already been programmed To delete a step in a programmed sequence Step Do This 1 2 3 10 11 12 TM XDOP 01XN MENU A or W Use the scroll keys to select a sequence to work with ENTER ENTER A or Ww Use the scroll keys to select the step to delete ENTER A or WV Use the scroll keys to select the Delete Step option ENTER Step has now been deleted Select another step to work with or escape by pressing ext You Will See ERROR MSGS AUTO SEQ PGM Sequence 1 Sequence Edit Sequence Step 1 Step Edit Step Delete Step Step Deleted Step 3 39 Operation Editing Repeat Times of a Sequence This option allows you to edit the number of times the sequence will run before it goes into STOP mode To edit the sequence s repeat times Step Do This You Will See 1 ERROR
221. ss the voltage programming lines as well Enter 5V analog voltage programming calibration menu Select ANLG V PGM 5V from the calibration menu Press ENTER You will be prompted to set up for analog voltage programming calibration Press ENTER when ready Minimum calibration level Set the input to the programming lines to approximately 0 5V 10 of full scale Enter voltage data Enter the voltage at the voltage programming lines read from the external DVM Press ENTER Maximum calibration level Set the input to the programming lines to approximately 4 5V 90 of full scale Enter voltage data Enter the voltage at the voltage programming lines read from the external DVM Press ENTER Power supply calculates and stores calibration constants The menu will go to the 5V analog voltage readback calibration menu TM XDOP O1XN Front Panel Calibration Procedure Analog Programming Interface Voltage Readback Calibration Attach a DVM across the voltage readback lines Pins B5 and B1 GND Enter 5V analog voltage readback calibration menu Select ANLG V PGM 5V from the calibration menu Press ENTER You will be prompted to set up for output voltage calibration Press ENTER when ready Minimum calibration level The power supply will automatically set the voltage readback lines to approximately 10 of full scale Enter voltage data Enter the voltage across the voltage readback lines read from the external DVM Press ENTER
222. t Analog Voltage CALibration lt channel gt ANALog Set analog programming voltage No Programming Input 5V 10V PROGram VOLTage LEVel calibration level Level MINimum MAXimum Enter Analog CALibration lt channel gt ANALog Set analog programming voltage No Voltage 5V 10V PROGram VOLTage DATA lt current gt calibration data Programming Input Data Set Analog Current CALibration lt channel gt ANALog Set analog readback current No Readback Output 5V 10V READback CURRent LEVel calibration level Level MINimum MAXimum Enter Analog CALibration lt channel gt ANALog Set analog readback current No Current Readback 5V 10V READback CURRent DATA lt current gt calibration data Output Data Set Analog Voltage CALibration lt channel gt ANALog Set analog readback voltage No Readback Output 5V 10V READback VOLTage LEVel calibration level Level MINimum MAXimum BDUSAJOY PULWWOD dIS NXT0 dOOX WL LT 9 Table C 5 Comrrands for Calibration Enter Analog CALibration lt channel gt ANALog Set analog readback voltage No Voltage Readback 5V 10V READback VOLTage DATA lt current gt calibration data Output Data Set Supply Output CALibration lt channel gt OUTPut CURRent LEVel Set output current calibration No Cur
223. t Connection for 12000 W 2 11 Basic Checks or Self Tests 2 13 Equipment Required 2 13 Display Test 2 13 Power ON Check 2 13 Voltage Mode Operation Check 2 14 TM XDOP 01XN xi xii Current Mode Operation Check 2 15 Load Wiring 2 16 Current Carrying Capacity 2 16 Load Wiring Length for Operation with Sense Lines 2 16 Noise and Impedance Effects 2 17 Load Connections 2 18 Wire Size 2 18 Isolation 2 18 Single Load 2 18 Multiple Loads 2 19 Output Strain Relief Cover 2 20 Remote Sensing 2 24 Operation Overview 2 eee eee eee eee 3 2 Powering ON the
224. t error in the instrument s error queue Identification Query ID Query identification string Model ID and Version N A Read Output IOUT Equivalent to MEASure CURRent command N A Current Read output current Set High Current IMAX lt current gt Equivalent to SOURce CURRent LIMit HIGH lt current gt command Yes Limit Set upper limit of current setpoint range soft limits Set Immediate ISET lt current gt Equivalent to SOURce CURRent command Yes Current Setpoint Change current setpoint Set Output State OUT lt on off Equivalent to OUTP lt on of state gt command Yes state gt Enable disable the power supply output Set Over Voltage OVSET lt voltage gt Equivalent to SOURce VOLTage PROTection O0 VER LEVel lt voltage gt Yes Protection Level command Set the over voltage protection level ROM Query ROM Queries the main firmware version N A Clear Output RST Equivalent to OUTPut PROTection CLEar command N A Protection Clears the protection mechanism Set High Voltage VMAX lt voltage gt Equivalent to SOURce VOLTage LIMit HIGH lt voltage gt command Yes Limit Set upper limit of voltage setpoint range soft limits Read Output VOUT Equivalent to MEASure VOLTage command N A Voltage Read output voltage Set Immediate VSET lt voltage gt Equivalent to SOURce VOLTage command Yes Voltage Setpoint Change voltage setpoint BDUSAJOY PULWWOD 14S NXT0 dOdX WL EE Notes All legacy commands that chan
225. t from the beginning when RUN is pressed 6 OUT ON OFF key Toggle between Output ON and Output OFF 7 LCL RMT key Toggle between local mode and remote mode or Go to Local for GPIB operation except during calibration 8 PROTECTION SET key View and set protection setpoints ALARM response Read and clear alarm messages ALARM annunciator indicates if there are any alarm messages TM XDOP 01XN 1 5 About The XDC Power Supply Table 1 3 Item Descriptions for Figure 1 3 Item Description 9 RECALL settings key Apply stored power supply settings 10 EXIT key Cancel operation exit menu or get out of Calibration mode or Auto Sequence mode Automatic timeout will also cancel operation except calibration and auto sequence operation 11 Numeric keypad Numbers 0 to 9 used for data entry 12 Decimal key Enter a decimal Used for data entry 13 CE key Clear the entire data field Used for data entry In Store User Setting mode used to delete selected setting or program 14 Up arrow key Scroll through menus and lists or in data entry mode increase the displayed value In default operating mode use this key to view the output power In Auto Sequence Operating mode use this key to view present sequence number step numbers and sequence loop count 15 Down arrow key Scroll through menus and lists or in data entry mode decrease the displayed value 16 ENTER key Select a menu item or a
226. t step A trigger must come from the selected trigger source Skipping a Ste p PROGram STEP NEXT Querying Operation PROGram STEP EXEC You can query the step number that is currently operating TM XDOP O1XN SCPI Commands for Digital Interfaces Slew Rate The slew rate is calculated as a function of change in the output voltage and a given time interval The maximum slew rate is 1 V rating 150us The slew rate is saved upon power off and restored at power on Output ON OFF and shutdown are not affected by the programmable slew rate These functions have a slew rate of 1 20ms For more information on setting slew rates see Slew Rate on page 3 49 The SCPI commands for changing the voltage slew rate are VOLT SLEW STEP lt slewrate voltage gt MAX MIN DEF where voltage step has the units V mV etc and the range is 0 1 to 5 of rated voltage default step is 0 1 of rated output voltage VOLT SLEW INTerval lt slewrate interval gt MAX MIN DEF where time interval has the units s ms or us and the range is 150 us to 1 5s default interval is 150us AN CAUTION Check both the voltage step and the interval to ensure you get the required slew rate The combination must not exceed 1 V rating 150us Though the software will attempt to achieve higher slew rates it is limited to this value by hardware constraints Manufacturer s recomme
227. ter receives the command and puts in on the CANbus Appendix C in your manual lists all commands lt channel gt indicates where the multichannel address is to be inserted into the command TEEE488 2 commands have been given an alias that is SCPI compliant if the command is applicable to a power supply in multichannel operation These commands include CLS IDN OPT RST TST RCL SAV SDS and WAI See Table C 9 System Commands on page C 19 in your manual Important The multichannel interface may not handle multiline response messages Multichannel Broadcast Commands Specifications TM XDOP 01XN Add a suffix of 0 to simultaneously broadcast the command to the master and all other units on the CANbus Only commands are allowed queries are not allowed Note that there will be a lag in execution time between the local unit and all other units of up to a maximum of 20 ms For example SOURCEO VOLT 10 0 will set all units in a multichannel string to 10 0 V Max connected units 50 Max cable length 40m Bus speed 700 kbits sec Termination 120 ohm 1 4 W Connections parallel male DB9 to female DB9 cable Addresses 1 to 50 Remote Operation RS 232 Operation RS 232 Connection Use a standard null modem cable to connect the power supply to the host interface The RS 232 port is a standard male DB9 connector Table 4 6 describes the pin functions Pins 1 4 6 and 9 are not used Table 4 6
228. ting is saved and the Minimum setting appears Low HHHEW The setting is saved and the display returns to its default operating mode TM XDOP O1XN Slew Rate TM XDOP 01XN Power Supply Operation The slew rate is calculated as a function of change in the output voltage and a given time interval The maximum slew rate is 1 rated voltage 150us The slew rate is saved upon power off and restored at power on Output ON OFF and shutdown are not affected by the programmable slew rate These functions have a slew rate of 1 20ms The range of output voltage is 5 0 1 of rated voltage The range of time interval is 1 5 s 150 us The negative slew rate is limited by the discharge rate of the output capacitors During current share slaves operate with their default slew rate The master operates at its programmed slew rate Hence a programmable slew rate for the system is achieved However this slew rate is limited by the speed of the control loop The slaves will return to their programmed slew rate when they exit current share slave operation The slew rate error increases as the slew rate increases Selecting SLEW RATE from the main menu will give you two choices Voltage slew adjust the voltage slew rate Voltage default restore the default voltage slew rate Selecting VOLTAGE DEFAULT will return the slew rate to the default value of 1 rated voltage per 150us To set the slew rate Step Do This You Will S
229. tion OVER LEV Set the over power protection Yes Protection Level jel lt power gt MAXimum MINimum level Set Over Power SOURce lt channel gt POWer PROTection OVER STAT Select over power protection to Yes Protection lt on off state gt shutdown ON or set alarm Shutdown State OFF Query Over SOURce lt channel gt POWer PROTection OVER Query if over power protection N A Power Protection RIPped mechanism has tripped Tripped Set Under Power SOURce lt channel gt POWer PROTection UNDer L Set under power protection level Yes Protection Level EVel lt power gt MAXimum MINimum Set Under Power SOURce lt channel gt POWer PROTection UNDer ST Select under power protection to Yes Protection ATe lt on off state gt shutdown ON or set alarm Shutdown State OFF Query Under SOURce lt channel gt POWer PROTection UNDer TR Query if under power protection N A Power Protection IPped mechanism has tripped Tripped Set Over Voltage SOURce lt channel gt VOLTage PROTection OVER Set the over voltage protection Yes Protection Level LEVel lt voltage gt MAXimum MINimum level Query Over SOURce lt channel gt VOLTage PROTection OVER TR Query if over voltage protection N A Voltage Protection IPped mechanism has tripped Tripped Set Under Voltage SOURce lt channel gt VOLTage PROTection UNDer Set under voltage protection level N A Protection Level EV
230. tion memory test e 100 Command error e 0 No error The queue can store up to 50 error messages See Appendix D Error Messages for descriptions of the messages 4 35 Remote Operation Triggering Commands Triggers are event driven signals that instruct power supplies to change their output Triggering provides a method to control changes in the power supply s output and to program several power supplies to react at the same time Triggering is useful in manufacturing processes where power requirements change as the machinery performs different operations AN CAUTION Setpoint limits do not apply to triggered setpoints To program triggers 1 Configure the desired output levels as a result of a trigger VOLTage TRIGgered lt voltage gt MAX MIN DEF CURRent TRIGgered lt current gt MAX MIN DEF POWer TRIGgered lt power gt MAX MIN DEF The user can choose to set all or any one of voltage current and power triggered levels DEF DEFault means that when a trigger is received no change will occur 2 Specify a trigger signal source TRIGger SOURce BUS EXT IMM NONE Where e BUS means the trigger source is the IEEE 488 1 GET or TRG e EXT means the source is the external trigger line e IMM means the trigger source is the SCPI command INIT IMM e NONE means triggering is disabled See Figure 4 2 Schematic For User Line Interface on page 4 6 4
231. tionable CURRent PTRansition Set Current Negative Transition Filter SCPI command STATus lt channel gt QUEStionable CURRent NTRansition lt status enable gt Query Format STATus lt channel gt QUEStionable CURRent NTRansition 4 70 TM XDOP O1XN Power Sub Register Commands Query Power Sub Register Event SCPI command STATus lt channel gt QUEStionable Query Power Sub Register Condition SCPI command STATus lt channel gt QUI EStionable Enable Power Sub Register SCPI command STATus lt channel gt QUEStionable Query Format STATus lt channel gt QUEStionable Set Power Positive Transition Filter SCPI command STATus lt channel gt QUEStionable lt status enable gt Query Format STATus lt channel gt QUI EStionable Set Power Negative Transition Filter SCPI command STATus lt channel gt lt status enable gt QUI EStionable Query Format STATus lt channel gt TM XDOP 01XN QUI EStionable SCPI Commands for Digital Interfaces POWer EVENt POWer CONDition POWer ENAB POWer ENABI e lt status enable gt e POWer PTRansition POWer PTRansition POWer NTRansition POWer NTRansition 4 71 Remote Operation Temperature Sub Register Commands Query Questionable Temperature Sub Register Event Temperatu
232. ttings to a user setting location replacing any setting that was previously saved there Example To save settings set up the power supply with all required settings we recommend that you do this right after recalling the factory default settings For example you can set voltage current and all protection levels Then to save the settings to Location 1 issue the command SAV 1 When you want to recall the settings issue the command RCL 1 If you want to recall them at the next power on issue the command OUTP PON REC USERI1 Remote Operation To recall last settings If you wish to recall the settings present when the supply was last powered off send the command SYST REC LAST Change Remote Local Control of Power Supply A SCPI command is provided for use with the RS 232 and multichannel interfaces to change the remote local mode GPIB will use IEEE 4888 1 functions to change modes SYST REM STAT LOC REM RWL Where e LOC go to local mode operation e REM go to remote mode operation e RWL remote with local lockout Go to remote mode operation with local mode locked out With RWL set the user cannot return to local mode via the front panel To query to remote mode SYST REM STAT Enable Output To enable or disable the output OUTP ON OFF To query the state of the output enable OUTP 4 26 TM XDOP O1XN Program V I P SCPI SCPI Commands for Digital Interfaces
233. tus enable gt Query Format STATus lt channel gt OPERation RCONtrol ENABle Set Remote Control Positive Transition Filter SCPI command STATus lt channel gt OPERation RCONtrol PTRansition lt status enable gt Query Format STATus lt channel gt OPERation RCONtrol PTRansition Set Remote Control Negative Transition Filter SCPI command STATus lt channel gt OPERation RCONtrol NTRansition lt status enable gt Query Format STATus lt channel gt OPERation RCONtrol NTRansition 4 66 TM XDOP O1XN Current Share Sub Register Commands SCPI Commands for Digital Interfaces Query Current Share Register Event STATus lt channel gt OP ERation CSHare Query Current Share Register Condition SCPI command STATus lt channel gt XOR ERation CSHare Enable Current Share Sub Register SCPI command OP ERation CSHare STATus lt channel gt Query Format STATus lt channel gt OP ERation CSHare Set Current Share Positive Transition Filter SCPI command STATus lt channel gt lt status enable gt Query Format STATus lt channel gt OP OP ERation CSHare ERation CSHare EVENt CONDition ENABle lt status enable gt ENABle PTRansition PTRansition Set Remote Control Negative Transition Filter SCPI
234. ue and the power on status clear flag setting Table 4 22 Preset Values of User Configurable Registers Register Filter Enable Preset Value Operational Enable Register Os Positive Transition Filter Is Negative Transition Filter Os Questionable Enable Register Os Positive Transition Filter Is Negative Transition Filter Os All others Enable Register Is Positive Transition Filter Is Negative Transition Filter Os SCPI command STATus lt channel gt PRESet 4 58 TM XDOP O1XN SCPI Commands for Digital Interfaces IEEE 488 2 Status and Event Commands TM XDOP 01XN Clear Status Command Clears all Event Registers including the Status Byte the Standard Event Status and the Error Queue Command CLS SCPI equivalent for multichannel use STATus lt channel gt CLEar Standard Event Status Enable Register The Event Summary Enable command determines which bits in the Standard Event Status Register are summarized in the Event Summary Bit ESB of the Status Byte The Power on Status Clear command determines if the Standard Event Status Enable Register is cleared at power on E g Sending ESE 16 sets bit 4 of the Standard Event Status Enable Register This will cause the Event Summary bit ESB in the Status Byte to be set whenever the Execution Error bit bit 4 in the Standard Event Status Register gets set Command ESE lt status enable gt ESE SCPI equivalent for multich
235. uence program was invalid or there is no program selected D 3 Error M essages Table D 2 Execution Error List Error code Error Message Description 284 285 290 Program currently running Certain operations dealing with auto sequence programs may be illegal while the program is running For example deleting a running program is not possible Program syntax error There is an error in the program definition Memory use error Indicates that a user request has directly or indirectly caused an error related to memory or lt data_handle gt s This is not the same as bad memory TM XDOP O1XN Device Specific Error List Device Specific Error List An error in the range 399 300 or 1 32767 indicates that the instrument has detected an error which is not a command query or execution error some device operations did not properly complete possibly due to an abnormal hardware or firmware condition These codes are also used for self test response errors The occurrence of any error in the class causes the device specific error bit bit 3 in the Event Status Register to be set TM XDOP 01XN Table D 3 Device Specific Error List Error code Error Message Description 300 310 313 314 315 321 330 350 360 361 362 363 Device specific error Indicates that the power supply could not complete the operation due to some condition of the power supply System error This
236. ueue ERR This bit it TRUE if any errors are present in the Error Event Queue Questionable Status Register Summary QSR This bit is TRUE when a bit in the Questionable Event Status Register is set and its corresponding bit in the Questionable Status Enable Register is TRUE Message Available MAV This bit is TRUE whenever the power supply is ready to accept a request by the Digital Programming Interface to output data bytes This message is FALSE when the output queue is empty Standard Event Status Summary ESB This bit is TRUE when a bit is set in the Standard Event Status Register Master Summary Status MSS This is caused by one of the following e Status Byte bit 0 AND Service Request Enable Register bit 0 e Status Byte bit 1 AND Service Request Enable Register bit 1 e Status Byte bit 2 AND Service Request Enable Register bit 2 4 56 TM XDOP O1XN SCPI Commands for Digital Interfaces e Status Byte bit 3 AND Service Request Enable Register bit 3 e Status Byte bit 4 AND Service Request Enable Register bit 4 e Status Byte bit 5 AND Service Request Enable Register bit 5 e Status Byte bit 7 AND Service Request Enable Register bit 7 Request Service RQS RQS is TRUE if the Service Request Enable Register has a bit set and there is a corresponding bit within the Status Byte The SRQ line of the GPIB will be set The SRQ annuciator will be lit Operation Status Register Summary OSR This bit is TRUE when a bit in
237. ulation envelope Time Delay From Output Enable Until Output Stable 2 s maximum Within regulation envelope Output Hold Up Time Power Off Minimum 4 ms at full load Output Hold Up Time Source Interruption Minimum 4 ms with output deviation less than 5 of maximum output voltage after source interruption TM XDOP 01XN Output Performance Specifications Transient Response Time Time to recover within 0 75 of rated output of previous level after step change in load current between 50 and 100 Mode Time Voltage Mode 3 ms 6000 W models Voltage Mode 30 ms 12000 W models Mode Crossover Maximum deviation as a percentage of rated output voltage CV CC Overshoot 1 Peak Peak and RMS Noise Bandwidth Limits The frequency range for Peak to Peak measurements is 10 Hz 20 MHz The frequency range for RMS measurements is 10 Hz 100 kHz Maximum Remote Sense Line Drop Compensation Minimum 3 8 V for each line 5 V typical Isolation AC Input to Output 1350 Vic AC Input to Chassis 1350 Vc Output to Chassis 600 Vic 1 Time for the output voltage to recover within 0 75 of rated output of its previous level after a step change in load current of up to 50 100 and 100 to 50 of rated output TM XDOP 01XN A 11 Specifications and Characteristics Environmental Specification Operating Altitude Up to 6 500 feet 2 000 m Storage Altitude Up to 50 000 feet 15 000 m Installation Category II GEC 1010 1
238. umentation UNLESS SPECIFICALLY AGREED TO IN WRITING XANTREX TECHNOLOGY INC XANTREX A MAKES NO WARRANTY AS TO THE ACCURACY SUFFICIENCY OR SUITABILITY OF ANY TECHNICAL OR OTHER INFORMATION PROVIDED IN ITS MANUALS OR OTHER DOCUMENTATION 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 AND C REMINDS YOU THAT IF THIS MANUAL IS IN ANY LANGUAGE OTHER THAN ENGLISH ALTHOUGH STEPS HAVE BEEN TAKEN TO MAINTAIN THE ACCURACY OF THE TRANSLATION THE ACCURACY CANNOT BE GUARANTEED APPROVED XANTREX CONTENT IS CONTAINED WITH THE ENGLISH LANGUAGE VERSION WHICH IS POSTED AT WWW XANTREX COM Date and Revision July 2006 Revision A Part Number TM XDOP 01XN Contact I nformation Telephone 1 800 670 0707 toll free in North America 1 360 925 5097 direct Fax 1 800 994 7828 toll free in North America 1 360 925 5134 direct Email customerservice xantrex com Web www xantrex com About This Manual Purpose Scope Audience The purpose of this Operating Manual is to provide explanations and procedures for installing operating maintaining and troubleshooting the XDC 6000 Watt and 12000 Watt Series Digital Programmable Power Supply The Manual provides safety guidelines detailed planning and setup infor
239. urrent sharing mode Appendix A Specifications and Characteristics Appendix A lists all of the electrical environmental and mechanical specifications of the XDC Appendix B Calibration 6000 Watt only Appendix B lists the calibration procedures for the 6000 W unit If you purchased a 12000 Watt unit please contact your supplier or Xantrex directly see Warranty for contact information Appendix C SCPI Command Reference Appendix C provides a summary of the Standard Commands for Programmable Instruments SCPI that are supported by the this Programmable Power Supply Appendix D Error Messages Appendix D lists all the error codes and their meanings Appendix E GPIB Appendix E describes the General Purpose Interface Bus GPIB commands and lines supported by this model Warranty and Product Information This section explains the warranty and provides information on returning your unit for service TM XDOP 01XN Conventions Used The following conventions are used in this guide WARNING Warnings identify conditions that could result in personal injury or loss of life CAUTION Cautions identify conditions or practices that could result in damage to the unit or other equipment Important These notes describe things which are important for you to know but not as serious as a caution or warning Related Information You can find more information about Xantrex
240. ush with the inside of the strain relief Tighten the strain relief cable clamp screws Insert the ground wire green 0 55 in 14 mm into the left most terminal location and tighten securely The safety ground wire may alternatively be connected to the chassis ground stud next to the terminal block using a suitably sized ring terminal Route the AC wires to the input terminal block by connecting the red black and white wires to the remaining 3 cable clamp connectors There is no set order for connecting the wires Any of the 3 phase wires can be connected to any of the 3 line input connectors To connect each wire loosen the terminal screw insert the stripped wire 0 55 in 14mm into the terminal and tighten the screw securely Reinstall the AC input strain relief cover routing wires inside the cover to prevent pinching Connect the free end of the cable to the AC source checking that the voltage is within the approved input range for the supply Energize the AC input It is now safe to turn the power supply on TM XDOP 01XN 2 9 Installation Figure 2 5 Attaching the AC Input Wires for 6000 Watt units 2 10 TM XDOP O1XN AC Input Power AC Wire Input Connection for 12000 W See Figure 2 6 on page 2 12 To connect the 12000 W AC input wires 1 9 Ensure that the AC input cord is de energized and that the power switch on the front of the power supply is OFF Strip approximately 2 75 in 70 m
241. utput of the power supply and the voltage across the shunt You will need to convert the voltage across the shunt to a current measurement To set up to calibrate the analog programming interface you will need a 0 10V power supply to provide a programming signal to the voltage and current programming lines You will also need to connect the DVM to measure the signal at the readback lines TM XDOP O1XN Front Panel Calibration Procedure Front Panel Calibration Procedure Calibration can also be done via remote control using SCPI commands See Remote Interface Calibration Procedure on page B 11 Calibration of voltage programming and readback are combined in a single procedure Output Voltage Set the load to open circuit Attach a DVM across the output terminals 2 Enter output voltage calibration menu Select Output V Cal from the calibration menu Press ENTER You will be prompted to set up for output voltage calibration Press ENTER when ready 3 Minimum calibration level The power supply will automatically set the output voltage to 10 4 Enter voltage data Enter the voltage output read from the external DVM Press ENTER 5 Maximum calibration level The power supply will set the output voltage to 90 6 Enter voltage data Enter the voltage output read from the external DVM Press ENTER 7 Power supply calculates and stores calibration constants 8 The menu will g
242. vel Set the voltage readback lines to approximately 10 of full scale by sending the command CAL ANAL 5V READ VOLT LEV MIN Enter voltage data Enter the voltage across the voltage readback lines read from the external DVM CAL ANAL 5V READ VOLT DATA lt voltage gt Maximum calibration level Set the voltage readback lines to approximately 90 of full scale by sending the command CAL ANAL 5V READ VOLT LEV MAX Enter voltage data Enter the voltage across the voltage readback lines read from the external DVM CAL ANAL 5V READ VOLT DATA lt voltage gt Power supply calculates and stores calibration constants Analog Programming Interface Current Programming Calibration TM XDOP 01XN 1 Connect the power source across the current programming lines Pins B4 and B1 GND Attach a DVM across the current programming lines as well Minimum calibration level Set the input to the programming lines to approximately 0 5V 10 of full scale Set the power supply to receive 5V analog current programming calibration data with the command CAL ANAL 5V PROG CURR LEV MIN Enter voltage data Enter the voltage at the current programming lines read from the external DVM CAL ANAL 5V PROG CURR DATA lt voltage gt Maximum calibration level Set the input to the programming lines to approximately 4 5V 90 of full scale Set the power supply to receive 5V analog current programming
243. wn Alarm Slave Shutdown Alarm 12000 Watts only will disable the output when one of the protection mechanisms has been enacted in the slave unit Recovery options are available for AC Off OTP and Slave Shutdown Also see Status Registers on page 4 43 3 10 TM XDOP O1XN TM XDOP 01XN Power Supply Operation To set the Over Voltage Protection Step Do This You Will See 1 OVP SHUTDOWN 2 OVP SET 0V 3 Use the Voltage knob the numeric keypad OVP SET V or the arrow keys to enter a value The value must be between 0 103 of the unit s rated voltage 4 This setting is saved and the ENTER display returns to its default operating mode The other protection options follow a similar procedure but have 2 extra steps 1 When you press PROT SET ALARMS the OVP prompt appears Press PROT SET ALARMS repeatedly to cycle through the other protection options 2 Protection options other than OVP prompt you with S D if trip N Use the arrow keys to select Yes or No Yes shuts down the power supply if the protection limit is reached No issues a warning a message in the Alarms menu without shutting down the supply These 2 extra steps are shown in the following example To set the Under Voltage Protection Step Do This You Will See 1 OVP SET 0V 2 Press repeatedly until the UVP SET 0V desired setting appears 3 UVP SET 0V 4 Use the Voltage knob the numeric UVP SET V keypad or the ar
244. xantrex XDC 10 600 XDC 10 1200 XDC 20 300 XDC 20 600 XDC 30 200 XDC 30 400 XDC 40 150 XDC 40 300 XDC 60 100 XDC 60 200 Ei Emu i Sy XDC 150 40 XDC 150 80 XDC 300 20 XDC 300 40 XDC 600 10 XDC 600 20 Operating Manual XDC 6000 Watt and 12000 Watt Series Digital Programmable DC Power Supply Smart choice for power Xa ntrex l XDC 6000 Watt and 12000 Watt Series Digital Programmable Power Supply Operating Manual About Xantrex Xantrex Technology Inc is a world leading supplier of advanced power electronics and controls with products from 50 watt mobile units to one MW utility scale systems for wind solar batteries fuel cells microturbines and backup power applications in both grid connected and stand alone systems Xantrex products include inverters battery chargers programmable power supplies and variable speed drives that convert supply control clean and distribute electrical power Trademarks XDC 6000 Watt and 12000 Watt Series Digital Programmable Power Supply is a trademark of Xantrex International Xantrex is a registered trademark of Xantrex International Other trademarks registered trademarks and product names are the property of their respective owners and are used herein for identification purposes only Notice of Copyright XDC 6kW and 12kW Series Digital Programmable Power Supply Operating Manual July 2006 Xantrex International All rights reserved Exclusion for Doc
245. y the state of the auxiliary N A Query state of Auxiliary Line line Ayeuiuing puewwos 149s O I 2 Table G 13 Output State Set Output State OUTPut lt channel gt STATe lt on off state gt Enable disable the power supply Yes output Set Output State at OUTPut lt channel gt PON STATe lt on off state gt Selects the state of the output at Yes Power On power on Power On OUTPut lt channel gt PON RECall Configure the supply to recall last Yes Configuration LAST PRESet USER lt setting_location gt SEQ lt sequen setting one of the user settings ce_number gt factory preset values or to enable an auto sequence 2u 1 J Y PULWIWOD 1dDS NXT0 dOdX WL NXT0 dOdX WL 62 9 Table C 14 Auto Sequence Commands Function SCPI Command Description Query Delete selected PROGram lt channel gt SELected DELete SELect The selected sequence is deleted N A sequence ed Delete all sequences PROGram lt channel gt SELected DELete ALL All sequences are deleted N A Select a sequence to PROGram lt channel gt SELected NAME Select sequence to run or edit Yes run or edit lt sequence_number gt Change Auto PROGram lt channel gt SELected STATe Change operating st
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