DATATEC Chroma 62000D-HL Series Operating And Programming Manual

Programmable bidirectional dc power supply

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Operating and Programming

Manual

Programmable Bidirectional

DC Power Supply

62000D-HL Series

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Page 1 Ihr Ansprechpartner / Your Partner: dataTec AG E-Mail: info@datatec.eu >>> www.datatec.eu Operating and Programming Manual Programmable Bidirectional DC Power Supply 62000D-HL Series...
Page 2 Get more product & global distributor information in Chroma ATE APP Ihr Ansprechpartner / Your Partner: dataTec AG E-Mail: info@datatec.eu >>> www.datatec.eu...
Page 3 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Version 1.0 May 2024...
Page 4: Legal Notices
Legal Notices The information in this document is subject to change without notice. Chroma ATE INC. makes no warranty of any kind with regard to this manual, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. Chroma ATE INC.
Page 5: Warranty
Warranty All of Chroma’s instruments are warranted against defects in material and workmanship for a period of one year from the date of shipment. Chroma agrees to repair or replace any assembly or component found to be defective, under normal use during this period. Chroma’s obligation under this warranty is limited solely to repairing any such instrument, which in Chroma’s sole opinion proves to be defective within the scope of the warranty when returned to the factory or to an authorized service center.
Page 6: Material Contents Declaration
Material Contents Declaration The recycling label shown on the product indicates the Hazardous Substances contained in the product as the table listed below. : See <Table 1>. : See <Table 2>. <Table 1> Hazardous Substances Lead Mercury Cadmium Hexavalent Polybrominated Selected Phthalates Chromium Biphenyls/...
Page 7 <Table 2> Hazardous Substances Lead Mercury Cadmium Hexavalent Polybrominated Selected Phthalates Chromium Biphenyls/ Group Part Name Polybromodiphenyl Ethers PBB/PBDE DEHP/BBP/DBP/DIBP PCBA  CHASSIS  ACCESSORY  PACKAGE “O” indicates that the level of the specified chemical substance is less than the threshold level specified in the standards of SJ/T-11363-2006, EU Directive 2011/65/EU, and 2015/863/EU.
Page 9: Safety Summary
Safety Summary The following general safety precautions must be observed during all phases of operation, service, and repair of this product. Failure to comply with these precautions or specific WARNINGS given elsewhere in this manual will violate the safety standards of design, manufacture, and intended use of the instrument.
Page 10: Safety Symbols
Safety Symbols DANGER – High voltage. Explanation: To avoid injury, death of personnel, or damage to the instrument, the operator must refer to the explanation in the manual. High temperature: This symbol indicates the temperature is hazardous. Do not touch to avoid personal injury. Protective grounding terminal: This symbol indicates that the terminal must be connected to the ground before operating the equipment to protect against electrical shock in case of a fault.
Page 11: Revision History
Revision History The following lists the additions and modifications in this manual at each revision. Date Version Revised Sections May 2024 Complete this manual.
Page 13: Table Of Contents
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Table of Contents Overview ......................1-1 Introduction ......................1-1 System Function ....................1-1 1.2.1 Operation Mode ..................1-1 1.2.2 Protection ....................1-2 1.2.3 Output and Indicator ..................1-2 1.2.4 Control Signals for Input ................
Page 14 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 3.2.2.11.3 Setting Output Speed ..............3-14 3.2.2.11.4 Setting Margin ................3-14 3.2.3 System Setup .................... 3-14 System Information ................3-15 Factory Setup ..................3-16 Basic Setting ..................3-17 Protection ....................3-18 3.2.3.4.1 OVP ....................
Page 15 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Setting Time ..................4-10 Setting Voltage ..................4-10 Setting Voltage Slew Rate ..............4-10 Setting Current ..................4-11 Setting Current Slew Rate ..............4-11 4.1.3 Execution in List Mode ................4-11 V Step Mode .....................
Page 16 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Operation Theory ..................... 6-1 Overview ......................6-1 Self-Test and Troubleshooting ................ 7-1 Overview ......................7-1 Troubleshooting ....................7-1 Appendix A Analog Interface Pin Assignments ............A-1 Appendix B List of Protection ................... B-1 Appendix C Precautions for Battery Test ..............
Page 17: Overview
Overview Introduction The Chroma 62000D-HL Series are high power density, bidirectional DC power supplies. These supplies have regenerative load characteristics with dual quadrant operation allowing energy feed back to the grid from UUT. They are suitable for testing modern energy storage systems, providing a stable DC output and accurate measurements for regenerative power applications.
Page 18: Protection
Built-in a voltage waveform editor that can be used for long-hour planning. Specification Chroma 62000D-HL Series high power density and bidirectional DC power supplies include 36kW (6360D-2000HL) and 45kW (6450D-2000HL) two models. The output specifications of these models are listed in Table 1-1. It is suggested to warm up the instruments for more than 10 minutes before performing various tests.
Page 19 Overview Table 1-1 Specifications Model No. 62360D-2000HL 62450D-2000HL Output Ratings Output Voltage 650V / 2000V 650V / 2000V Output Current ±180A / ±60A (650V/2000V) ±180A / ±60A (650V/2000V) Output Power ±36000W ±45000W Min. Load Voltage (@ I Load Max) 35V / 105V Line Regulation Voltage +/- 0.01% F.S.
Page 20 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Model No. 62360D-2000HL 62450D-2000HL Program Accuracy 0.05% of Vmax Range ±36000W ±45000W Resolution 10mW 10mW Program Accuracy 0.3% of Pmax 0.375% of Pmax 18 19 Range 10mΩ-2Ω Resolution 10mΩ Program Accuracy (I*R+V F.S.)*0.05% Range...
Page 21 Overview Model No. 62360D-2000HL 62450D-2000HL Current (Analog Interface) 0.3% of Imax APG Measurement Accuracy Voltage (Analog Interface) 0.5% of Vmax Current (Analog Interface) 0.75% of Imax GPIB Command Response Time Vout Setting GPIB send command to DC source receiver <20ms Measure Volt &...
Page 22 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual All specifications are subject to change without prior notice. Note The minimum output voltage is <0.5% of the rated voltage at zero output setting. The minimum output current is <0.2% of the rated current at zero output setting when measured with rated load resistance.
Page 23 Overview The efficiency of input voltage and full load output (Vo Max) at 380Vac and 480Vac. Use “standard programmable commands” to get the measured values. 15. H Range F.S.= 2000V L Range F.S.= 650V The maximum noise is measured at an ambient temperature of 23°C, a relative humidity of 60% with the fan running at full speed for 30 seconds, and a distance of 1 meter from the chassis (tested to comply with ISO 7779).
Page 24 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Table 1-2 Max. Voltage (Vdc) Difference Model between Output Terminal and Earth 62360D-2000HL 3,000 62450D-2000HL If the voltage exceeds the above range it may damage the DC power supply.
Page 25: Function Buttons
Overview Function Buttons 1.4.1 Front Panel Figure 1-2 Front Panel of 62000D-HL Series Models Table 1-3 Front Panel Description Item Symbol Description Main Power Switch: Turn on or off the power. LCD Touch Panel: Use the icons as they appear on the touch screen to set the voltage/current, and measurements, control the program sequence, preview the output waveform, and display the test results.
Page 26: Rear Panel
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 1.4.2 Rear Panel Figure 1-3 Rear Panel of 62000D-HL Series Table 1-4 Rear Panel Description Item Name Description Rear auxiliary It assists the device to be moved. carrying handle 2 AC power cord Connects to the AC power cord connector to prevent the cord anti-pulling device...
Page 27 Overview Figure 1-4 GPIB/CAN FD Interface 1-11...
Page 28: Dimension
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Dimension Figure 1-5 Dimension of 62360D-2000HL and 62450D-2000HL Models 1-12...
Page 29: Installation
Installation Installation Checking the Package Check for any damage or missing accessories after unpacking. Should any damage be found, contact the shipping carrier and Chroma’s service department immediately. It is also recommended that pictures are taken of both the instrument’s damage and shipping container and that the shipping container is kept for future use.
Page 30: Maintenance And Cleaning
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Standard Accessories Item Name AC Input Cover M3 Copper Pillar G29-000162 *1 G51-000760 *1 H61-300621 *4 W72-000181 *4 M61-000043 *1 G32-017626 *2 G32-275400 *1 Please keep all of the packing materials in case the device has to be returned for repair.
Page 31: Requirements Of Input Power
Installation Input AC supply voltage fluctuations can be up to ±10% of the rated voltage. Transient over voltage is impulse withstand CAT II. Pollution degree II. Requirements of Input Power 2.3.1 Ratings (1) Model 62360D-2000HL Input voltage/frequency range: : 380-480V±10% 3~ 4W / 47-63Hz Maximum input power: 42.0kVA Maximum input current:...
Page 32 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 2-1 Connect the green or green/yellow grounding wire to the terminal. Connect the red, black, or blue power wire to the “L1, L2, L3” terminal. To protect the operators, the wire connected to the GND terminal WARNING ) must be connected to the earth.
Page 33: Remote Sensing
Installation Table 2-1 Suggested Cable Specification Conductor Safe Diameter for Current (A) Area Anti-pulling Sectional Copper Standard (mm) Area mm Conductor 24~31.4 (AC input cable) Table 2-2 lists the PVC (105°C) wire specification references when the ambient temperature is 30°C. Table 2-2 PVC (105°C) Cable Specification Conductor Safe Current (A)
Page 34: Reverse Connection Of Remote Sensing Wire Polarity
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 2-2 shows the correct connection. Use two wires to connect the positive/negative connector of the load to the remote sensing connector on the rear panel. The connecting wire diameter must be 22AWG, and its withstand voltage should meet the 3kV specification.
Page 35: Output Connection
Installation Figure 2-3 In the event of a reverse polarity error condition, proceed as follows to reset it: First power it off. Connect the remote sensing wire properly. Restart the DC power supply. CAUTION 1. If there is a voltage on the power supply output, do not reverse connect the Remote sense to it or to the UUT to avoid damaging the power supply.
Page 36 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Table 2-4 Safety Cover Safety Cover Applicable Range Applicable Model Vdc = 0~2000V 62360D-2000HL Io = -180A~180A max 62450D-2000HL Vdc = 0~2000V 62360D-2000HL (when output is not 62450D-2000HL connected) For the models requiring a larger safety cover, a cable with a wider diameter is needed.
Page 37: Specification Of Connecting Wire
Installation Figure 2-4 Output Safety Cover Assembly CAUTION To meet the safety requirement, the safety cover must be tightly secured. The diameter of the wire connected to the load must be able to carry the maximum current applied. Be sure to select a proper output wire that can withstand the voltage based on the model.
Page 38: Power On Procedure
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Table 2-6 Max. Parallel Capacitance for Model Output (μF) 62360D-2000HL H range: 500uF L range: 3000uF 62450D-2000HL H range: 500uF L range: 3000uF CAUTION Be aware of the polarity and it withstands voltage when paralleling capacitance.
Page 39 Installation Figure 2-6 CAUTION The DC power supply internal circuit may not be able to reset if it is powered off and on immediately. It is suggested to wait for 60 seconds after powering it off and power it on again. WARNING Before turning on the power supply, all protective grounding terminals, extension cords, and devices must connect to the earth.
Page 41: Manual Operation
Manual Operation Manual Operation Introduction The DC power supply can be operated manually or remotely via GPIB/CAN (option), LAN, USB, or APG interface which is described in Chapter 5 and section 3.2.5.1. Refer to the manual operation for using the front touch panel or rotary knob to input data described in this chapter.
Page 42: Meas. & Setup
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 3.2.1 Meas. & Setup Source & Load Mode There are two ways to set the output voltage (CV MODE). Method 1: Tap V next to the numbers of Vset, and the touch panel will switch to a numeric keypad as Figure 3-2 shows.
Page 43: Source Mode
Manual Operation Figure 3-3 Source Mode Following is the way to set Source Mode: Tap the drop-down menu and select Source Mode; the panel will switch to the screen as Figure 3-4 shows. The rest settings are the same as Source & Load Mode. WARNING In Source Mode, a negative current will still be generated even when the output is reversed.
Page 44: Load Mode
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-4 Load Mode The following describes how to set Load Mode: Tap the drop-down menu and select Load Mode; the panel will switch to the screen as Figure 3-5 shows. The actual loading current is I=Vo/R, thus the minimum calculated from the set value is the actual loading current as Figure 3-6 shows.
Page 45: Output Setup
Manual Operation Figure 3-5 Figure 3-6 3.2.2 Output Setup Tap “Output Setup” in the Menu screen to enter the setup page as Figure 3-7 shows.
Page 46: H/L Range Setting
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-7 The values (for reference only) in Figure 3-7 are not the default settings of the DC power supply. H/L Range Setting The panel operation can switch voltage levels in two ways First, tap the yellow icon ( ) directly in the middle on the upper panel.
Page 47 Manual Operation Figure 3-8 Setting H/L Range via Shortcut Key Figure 3-9 Setting H/L Range via Output Setup Menu...
Page 48: Response Cv
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-10 Setting H/L Range Response CV Slow: This option reduces the voltage output response speed with a higher priority on  output stability. Fast: This option increases the voltage output response speed with a higher priority on ...
Page 49: Limit
Manual Operation Figure 3-11 Adjusting CC or CV Response Speed V Limit Select the V Limit Max/Min corresponding space to set the value. Use this option to narrow down its range by setting the MIN and MAX. When setting the output voltage, the DC power supply allows setting the voltage within the range of [MIN value ≤...
Page 50: Slew Rate
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual exceeds the output current 21W set by the user, the BUZZER will beep one time (if BUZZER is set to ON) and the main screen will automatically prompt a warning message. V SLEW RATE Tap “Slew Rate Set.”...
Page 51: I Slew Rate
Manual Operation I SLEW RATE Select the I slew rate corresponding space as shown in Figure 3-12 to set the value. The output current slew rate of the DC power supply is set as follows. The maximum input Slew Rate is 90A/ms and the minimum is 0.0001A/ms. The output of the DC power supply will follow the slew rate to rise to the set output current.
Page 52: Dc_On
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-15 DC_ON When the DC power supply is ON and the voltage is over VDC_R, the pin10 DCOUT_ON of the ANALOG INTERFACE on the rear panel will turn to HIGH; also when the DC power supply is OFF and the voltage is lower than VDC_F, the pin1 DCOUT_ON of the ANALOG INTERFACE on the rear panel will turn to LOW, allowing you to use them for other purposes as Figure 3-16 shows:...
Page 53: Setting Control Mode
Manual Operation Figure 3-17 (Note: This is an optional function setting screen. If SAS is not selected, the setting parameter will be grayed out.) 3.2.2.11.1 Setting Control Mode When the DC Power Supply is operated in IV mode, the control mode will affect the setting values and measuring object of the IV curve.
Page 54: Setting Input Filter
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 3.2.2.11.2 Setting Input Filter The Input Filter in IV mode can utilize the measured signal through this digital filter for IV curve calculation. For example, assuming the measured voltage waveform has a 20kHz ripple and when the input filter is set to 1kHz, it can filter 20kHz of the ripple component.
Page 55: System Information
Manual Operation System Information This function allows you to learn the firmware information of the DC power supply. Tap “Sys. Information” to access it. The display of each item is explained as follows: Device Model : Displays the power supply model no. as shown in Figure 3-20. Serial No.
Page 56: Factory Setup
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-22 Factory Setup This function lets you reset the DC power supply to its factory default settings. On the Menu page, tap “System Setup” and select “Factory Default”, the screen appears as Figure 3-23 shows.
Page 57: Basic Setting
Manual Operation Figure 3-24 Basic Setting This function allows you to set the brightness of the backlight, language, buzzer, time, and date. On the Menu page, tap “System Setup” and select “Basic Setting”, the screen will appear as Figure 3-25 or Figure 3-26 shows. Tap Backlight to set its brightness.
Page 58: Protection
Figure 3-26 Protection Chroma 62000D-HL Series DC Power Supplies have complete protection functions divided into two classes. The first type of protection includes over voltage, over current, over power, and FOLDBACK; while the second type of protection includes over temperature, fan failure, and over/under input voltage.
Page 59: Ovp
Manual Operation Figure 3-27 3.2.3.4.1 Use the touch panel to set OVP. This function sets the protection point for Over Voltage. Once the output voltage exceeds the range, it will turn off the output that is OUTPUT = OFF to protect the unit under test. Table 3-1 shows the voltage range of OVP.
Page 60: Ocp
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 3.2.3.4.2 Use the touch panel to set OCP 132.00. This function sets the protection point for Over Current. Once the output current exceeds the range, it will turn off the output that is OUTPUT = OFF to protect the unit under test.
Page 61: Safety Int.lock
Manual Operation Figure 3-30 3.2.3.4.4 SAFETY INT.LOCK This function allows you to control the DC power supply to be OFF temporarily through the Pin 3 (Interlock) of ANALOG INTERFACE. Use the touch button to set Safety Int. Lock mode to disable or enable as Figure 3-31 shows.
Page 62: Foldback
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual When protection occurs to Safety Interlock the main page will show this protection message as Figure 3-32 shows. Figure 3-32 Pin 3 is the input pin of the TTL Level and can set the initial state to PULL=HIGH or PULL=LOW.
Page 63 Manual Operation Figure 3-34 Use the touch button to set Foldback mode. There are three options available for selection: Disable, CV TO CC, and CC TO CV. (1) Disable: Ignore the output close function. (2) CV TO CC: Active in CV MODE only. Once the operating mode changes to CC MODE the system will turn off the output to protect the UUT.
Page 64: Meas. Setting
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual When Foldback protection occurs the main page will prompt a Protect Message as Figure 3-36 shows. Figure 3-36 Be aware that if the delay time is set to t seconds, it means the Foldback that is set to CV TO CC or CC TO CV will not be activated unless it sustains t seconds when a mode change is detected.
Page 65 Manual Operation Figure 3-38 The way to change the Reading Average Times is shown in Figure 3-39. Tap the touch screen to set the desired average times. Reading Average Time can be set to 1, 2, 4, and 8. Figure 3-39 Assuming the Reading Average Time is set to = 8, the Average Method is set to FIXED, readings sampling is that the device clears all of the old samples (A1 ~ A8) in the buffer and saves the new samples (B1 ~ B8),...
Page 66: Screenshot
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual All New vaules Next time A1 A2 A3 A4 A5 A6 A7 A8 B1 B2 B3 B4 B5 B6 B7 B8 buffer buffer Figure 3-40 Assuming the Reading Average Time is set to = 8, the Average Method is set to MOVING, the readings sampling is that the device removes the oldest sample in the buffer and saves a new sample, then averages them in repetition as Figure 3-41 shows.
Page 67: Source Setting
Manual Operation Figure 3-43 Source Setting Tap Source Setting to turn on or off the Ri function as Figure 3-44 shows. When the Ri function is turned on, the main screen of Source Mode will add a new setting item for Ri as shown in Figure 3-45.
Page 68: Source & Load Setting
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-45 Source & Load Setting Tap Source & Load Setting to enable or disable the R function as Figure 3-46 shows. When the R function is enabled, the Source & Load main screen will add a new setting item of R as shown in Figure 3-47.
Page 69: Advance
Manual Operation Figure 3-47 3.2.4 Advance Chroma 62000D-HL Series with solar array simulation models provides the following 4 output modes for use. (1) Table Mode: It gets the Solar Array IV curve by importing the voltage/current settings in the Excel table through the Solar Array Simulation Soft Panel.
Page 70: Sas Mode
Figure 3-48 SAS Mode Chroma 62000D-HL Series with solar array simulation models can simulate the solar cell curves via the Solar Array Simulation Soft Panel. In addition, the standalone model has also built in a solar array simulation function which is called SAS mode for use.
Page 71 Manual Operation The user can directly change the VOC, ISC, VMP, and IMP parameters from the operation screen. Tap “Trigger” to refresh the parameters when any of them is changed. The IV curve will be updated immediately and so are the EQ_PMP, EQ_VMP, and EQ_IMP parameters. ...
Page 72 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual The power supply is displayed as shown in Figure 3-50 when executing the Solar Array Simulation Soft Panel. The user cannot change the settings directly from the power supply. Figure 3-50 Following is the way to create IV curve data in an Excel file.
Page 73: En50530 Mode
Manual Operation Figure 3-51 EN50530 Mode Besides simulating the solar cell curve via the Solar Array Simulation Soft Panel, the 62000D-HL Series with solar array simulation power supply has a built-in EN50530 formula for solar cell curve simulation. Select “EN50530” from the Mode menu to enter into the EN50530 setup page as shown in Figure 3-52.
Page 74: Sandia Mode
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Tap “Trigger” to refresh the parameter. Check all settings are done and tap “ ” to execute the EN50530 function. When outputting in EN50530_MODE, the EQ_VOC, EQ_VMP, EQ_ISC, and EQ_IMP are the actual operating points obtained by the user-defined VMP and PMP settings computed by the device’s built-in formula.
Page 75: Battery Simulator
Manual Operation Figure 3-54 Setting procedure: Tap the VMP column to set the maximum power voltage. Tap the PMP column to set the maximum power. Tap the FF column to set the fill factor. Tap the BETA column to set the voltage temperature coefficient process technology. Tap the IRR column to set the irradiation.
Page 76 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-55 VH: Set the maximum battery voltage. VL: Set the minimum battery voltage Initial Status: Select SOC or VOL to set the initial status. SOC: Set the percentage of battery capacity, the actual output voltage will follow this ratio to output a voltage between VH~VL.
Page 77: Configuration
Manual Operation Figure 3-57 CHG OCP: Set the protection point for charging overcurrent. DSG OCP: Set the protection point for discharging overcurrent. Series: Set the battery number for the series connection. Parallel: Set the battery number for parallel connection. 3.2.5 Configuration Interface Tap Configuration on the Menu page and select Interface and APG as shown in Figure 3-58 and Figure 3-59.
Page 78: Apg
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-59 3.2.5.1.1 Analog Programming interface (APG) can perform the following two functions: 1. use the analog signal control panel to set the value and 2. Use the analog signal to indicate the panel measurement.
Page 79 Manual Operation Figure 3-61 V SET: Use the touch panel to set the mode. There are 2 selections for V SET which are NONE/Vref (0-10V), where: NONE: It means not using the programming function. Vref (0-10V): It means using the external voltage source as the programming setting. I SOURCE SET: Use the touch panel to set the mode.
Page 80: Lan
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual APG VSET/APG ISET has 2 selections which are NONE/Vref (0- 10V). When selecting Vref=10V  it means the DC power supply’s output of 0~100% will map to 0~10V as Figure 3-62 shows. Figure 3-62 APG VMEAS/APG IMEAS has 2 selections which are NONE/Vref (0- 10V).
Page 81 Manual Operation Auto Detect: The default of DHCP is ON. Swipe left to the second page as Figure 3-65 shows, the DC Power Supply will automatically detect the external network address (192.168.1.10). Manual Detect: Tap DHCP to set it to OFF. Tap IP ADDR and set it.
Page 82: Gpib
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual The LAN Status is displayed automatically in the following 6 types: CONNECTED: It means the network is connected. CONNECTING..: It means the network is connecting. NONE CONNECT: It means the network is not connected. SETTING.
Page 83 Manual Operation Switch to use CAN or CAN FD on the upper right corner. Tap Mode (CAN 11bit / 29bit mode) to set the bit number. Tap Padding (CAN data padding) and set it. Tap Baud (CAN baud rate) and set it from the drop-down menu. Tap Cyclic Time (CAN cycle response) to set it.
Page 84: Usb
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-69 12. Tap Apply to execute the setting of each parameter (update the CAN device setting). 13. Touch the upper left corner to enter the Menu page. 14. Tap “MEAS. & Setup” to return to the main page. 3.2.5.1.5 The power supplies support remote operation via the USB bus.
Page 85: Parallel
Manual Operation This function is for users to query the USB Address only. Parallel The 62000D-HL Series Power Supplies can be operated in parallel. When in parallel mode the maximum current is up to 2,160A. When the IV curve function is enabled, the Table Mode, SAS Mode, and IV Program only support parallel operation without serial function.
Page 86: Installing Parallel Communication Interface
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-71 3.2.5.2.2 Installing Parallel Communication Interface When 2 DC power supplies are connected in parallel, the DisplayPort connector on the rear panel must be connected as shown in Figure 3-72. Figure 3-72 When 3 DC power supplies are connected in parallel for operation, the DisplayPort connector on the rear panel must be connected as shown in Figure 3-73.
Page 87: Setting Parallel Operation Mode
Manual Operation Figure 3-73 Each D-series supply has two DisplayPort female sockets. They need to be connected no matter if the connection is in series or parallel. There is no difference between the left and right connection ports but connected in series as shown in Figure 3-72 or Figure 3-73.
Page 88: Parallel Mode Connection
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-74 When multiple DC power supplies are connected in parallel, only one DC power supply can be the Master and the rest have to be set to Slave. For example: If there are 5 sets connected in parallel and 150V/900A is set, the setting of each set is 150V/180A and the total output will be...
Page 89: Power On Status
Manual Operation Figure 3-75 Figure 3-76 Power On Status This function automatically loads the default output status after powered on, so that you don’t have to set it again. On the “Configuration” page, select “Power On Status” display will appear as Figure 3-77 shows.
Page 90 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-77 Select the setting. Power On Status has three options: Default / Last Turn Off / User Define. When set to Default, it means the output state is not defined specifically, which is V = 0.00V;...
Page 91: Calibration
Tap “MEAS. & Setup” to return to the main page. Calibration Chroma 62000D-HL Series DC power supplies have 6 calibration functions: HOST V: the actual voltage output (CV mode) and its measurement accuracy. HOST I: the actual current output (CC mode) and its measurement accuracy.
Page 92: Voltage Output And Measurement Calibration
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 3.2.5.4.1 Voltage Output and Measurement Calibration The required equipment is shown in Table 3-5. Table 3-5 Device Suggested Model or Capacity 0~1000V or under: HP 34461A or equivalent DVM. 1000V~2000V: VITREK 4700 or equivalent DVM.
Page 93 Manual Operation First, complete the point 1 voltage calibration by tapping “START” next to “V point 1”. The DC power supply will output 0.3% of Max Vo (High Range). Enter the actual voltage as measured by DVM in the position [1] entry box and tap “SEND” to confirm. Next, tap “START”...
Page 94: Current Output And Measurement Calibration
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 3.2.5.4.2 Current Output and Measurement Calibration The hardware requirements are listed in Table 3-6. Table 3-6 Device Suggested Model or Capacity HP 34461A or equivalent DVM. ULTRASTAB DCCT (Current Shunt) current transducer 600/2000A ITZ600-25PR or equivalent Bidirectional...
Page 95 Manual Operation Figure 3-84 First, perform the calibration of “I source point 1” by tapping “START” next to it. The DC power supply will output 0A. Enter the current measured by the current shunt (DVM) in the box for point 1, and tap “SEND” to confirm it. Next, tap “START”...
Page 96 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-85 Next, tap “START” next to “I load point 1” to perform the first point of negative current calibration. The DC power supply will output 0A. Enter the current measured by the current shunt it in the box of position [4] and tap “SEND”...
Page 97: Apg Voltage Output Calibration
Manual Operation Figure 3-86 When the above voltage calibrations are done, tap “STOP” to exit the calibration procedure. To save the calibration data, tap “SAVE”, and tap “CLEAR” to delete the calibration parameters if there is no need to save them. WARNING Improper shunt range selection may cause damage to the current shunt.
Page 98 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-87 When conducting the APG voltage output calibration, each calibration point has to be entered into at least 4 Arabic numerals to ensure the power supply accuracy after calibration. Calibration Procedure (Model 62000D-HL): On the Calibration page, tap “Host V”...
Page 99: Apg Voltage Measurement Calibration
Manual Operation When entering into the Calibration page, be sure to check the interface connection on the rear panel is correct. If HP 34461A is used, the DVM1 and DVM2 can be connected to the front and rear measurement input terminals respectively. When on the APG V SET page and the wires are correctly connected, tap “START”...
Page 100 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-90 shows the wire connection for APG voltage measurement calibration. Figure 3-90 When conducting the APG voltage measurement calibration, each calibration point has to enter at least 4 Arabic numerals to ensure the power supply accuracy after calibration.
Page 101 Manual Operation When entering into the Calibration page, be sure to check the interface connection on the rear panel is correct. If HP 34461A is used, the DVM1 and DVM2 can be connected to the front and rear measurement input terminals respectively. When on the APG V MEAS page and the wires are correctly connected, tap “START”...
Page 102: Apg Current Output Calibration
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 3.2.5.4.5 APG Current Output Calibration The hardware requirements for APG current output calibration are listed in Table 3-9. Table 3-9 Device Suggest Model or Capacity HP 34461A or equivalent DVM DC Power Supply Any DC power supply or DC signal source that can output 10Vdc and drive more than 100mA.
Page 103 Manual Operation Figure 3-94 When entering into the Calibration page, be sure to check the interface connection on the rear panel is correct. Calibration points may be different for other models (not 62000D- HL), please operate it following the instructions displayed. When on the APG I SET page and the wires are correctly connected, tap “START”...
Page 104: Apg Current Measurement Calibration
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 3-95 When the APG current calibrations are done, tap “STOP” to exit the calibration procedure. To save the calibration data, tap “SAVE”, and tap “CLEAR” to delete the calibration parameters if there is no need to save them as Figure 3-95 shows.
Page 105 Manual Operation Figure 3-96 When conducting the APG current measurement calibration, each calibration point has to enter at least 4 Arabic numerals to ensure the power supply accuracy after calibration. Calibration Procedure (Model 62000D-HL): On the Calibration page, tap “Host V” to select APG I MEAS and list the APG current calibration items as shown in Figure 3-97.
Page 106: External Output
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual When on the APG I MEAS page and the wires are correctly connected, tap “START” next to I source point 1 to calibrate the first point current. The system will set the output voltage on the rear panel to approx.
Page 107 Manual Operation Figure 3-99 The remote INHIBIT function allows users to remotely turn off the power supply. Pull: Low sets Remote INHIBIT to enable, the power supply’s ON/OFF is still controlled by “ ”. When the Pin 6 and Pin18 (_INHIBIT) of ANALOG INTERFACE are triggered at a low level that equals to tap “...
Page 108 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual When the DC power supply is set to OUTPUT = ON, the detailed actions of REMOTE INHIBIT are shown in Figure 3-101. _INHIBIT SIGNAL Output INHIBIT =DISABLE Output INHIBIT =ENABLE Figure 3-101 Ext.
Page 109 Manual Operation _EXT ON SIGNAL Output EXT ON =DISABLE Output EXT ON =ENABLE Figure 3-102 3-69...
Page 111: Program Sequence
Program Sequence Program Sequence The 62000D-HL Series DC power supplies allow users to program the sequence for output in List Mode and V Step Mode. List Mode has 10 programs and each program can add new sequences liberally so that a total of 100 sequences is available for editing.
Page 112: List Mode
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 4-2 Figure 4-3 List Mode In List Mode, there are a maximum of 100 sequences that can be added to one program. The sequence setting is described in section 4.1.2 and the complete program structure is listed in Figure 4-4.
Page 113: Program Settings
Program Sequence Figure 4-4 4.1.1 Program Settings A program has 5 settings: (1) Ext Trig PULL, (2) Prog No, (3) Run Count, (4) Prog Chain, and (5) Clear Prog. Setting Ext Trig Pull Tap Ext Trig Pull on the right and select HIGH or LOW. When the Ext Trig is set to HIGH, a negative edge trigger signal (TTL level) is needed from the Analog Interface PIN 15 on the rear panel to move to the next sequence step.
Page 114: Setting Prog Chain
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Table 4-1 lists the Run Count range: Table 4-1 Run Count Min. Max. Times 15000 Ex. 1: Set RUN COUNT for a program Set Prog Chain =3, Run Count =2 for Prog No.1. Set Prog Chain =No, Run Count =2 for Prog No.3.
Page 115 Program Sequence A2: Execution steps: (1) When all Prog No.1 sequences are done, skip Prog No.2 and jump to Prog No.3. (2) When all Prog No.3 sequences are done, skip Prog No.4 and Prog No.5, and jump to Prog No.6. (3) End Figure 4-6 Ex.
Page 116: Setting Clear Program
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual If the program is commanded to skip to the next Program and there is no sequence or all sequences are set to Skip (see 4.1.2.1), then the program will stop execution. Setting Clear Program Tap Clear Prog on the right to clear all sequences in the program.
Page 117 Program Sequence Figure 4-9 Figure 4-10 Setting a SEQUENCE: Repeat the steps to add a new sequence to show the hidden function bar. Tap the red dot line box in Figure 4-11 to perform the setting as Figure 4-12 shows. Each Sequence can include the following 7 items: (1) Voltage, (2) V slew rate, (3) Source current, (4) Load current, (5) I slew rate, (6) Type, and (7) Time as described below.
Page 118: Setting Sequence Type
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Figure 4-11 Figure 4-12 Setting Sequence Type Tap Type as labeled (6) in Figure 4-12 to set the sequence type. There are 4 sequence types, these are (a) AUTO, (b) MANUAL, (c) TRIGGER, and (d) SKIP.
Page 119 Program Sequence Figure 4-13 Execution steps: (1) SEQ#1 (1) Since SEQ TYPE = AUTO is set for SEQ#1, it begins to execute the settings in SEQ#1. (2) During SEQ#1 voltage rise, the maximum loading current is 1A and does not exceed the current setting 20A;...
Page 120: Setting Time
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual COUNT 1 COUNT 2 SEQ#2 SEQ#1 SEQ#2 SEQ#1 10(Sec) 10(Sec) 5(Sec) 5(Sec) START Figure 4-14 B. Setting sequence type to MANUAL When SEQ TYPE = MANUAL is selected, the sequence will run automatically and stop at the setting of VOLTAGE or CURRENT without skipping to the next sequence until any key on the front panel is pressed.
Page 121: Setting Current
Program Sequence Setting Current Tap Figure 4-12 (3) and (4) to set the current parameter. See section 3.2 for a detailed description. Setting Current Slew Rate Tap Figure 4-12 (5) to set the current slew rate. See section 3.2 for a detailed description. 4.1.3 Execution in List Mode When the sequences are finished for editing, press “...
Page 122: Setting Start V
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Setting Start V There are two methods to set Start V: Method 1 (via touch panel): Tap the 0.00 after Start V and the touch panel will switch to a numeric pad as shown in Figure 4-16.
Page 123: Setting End V
Program Sequence Setting End V There are two methods to set End V: Method 1 (via touch panel): 1. Tap the 0.00 after End V and the touch panel will switch to a numeric pad as shown in Figure 4-16. 2.
Page 124 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual CASE1: The hardware's initial voltage is 0V and the output waveform is as Figure 4-17 shows. CASE2: The hardware's initial voltage is 10V and the output waveform is as Figure 4-18 shows.
Page 125: Execution In V Step Mode
Program Sequence 4.2.2 Execution in V Step Mode After the settings of Start V, End V, and Run time are done, tap “ ” to confirm and start the execution. Tap “ ” again to abort. Running V Step Mode Tap “...
Page 127: Remote Operation
Remote Operation Remote Operation Overview The 62000D-HL Series DC power supply can be controlled remotely via USB, GPIB, or Ethernet. The USB interface supports USB 2.0/USB 1.1. GPIB interface is an 8-bit parallel data bus that synchronizes with the host bus commands. Ethernet interface is used in local area networks for data transmission.
Page 128: Gpib Function Of 62000D-Hl Series
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual GPIB Function of 62000D-HL Series Table 5-1 GPIB Function Description Talker/Listener Commands and response messages can be sent and received over the GPIB bus. Status information can be read using a series poll. Service Request It sets the SRQ line to true if there is an enabled service request condition.
Page 129: Boolean Data Format
Remote Operation Symbol Description Example The flexible decimal format includes NR1, NR2 or NR3. 123, 12.3, .23E+3 NRf+ The extended decimal format includes NRf and MIN, MAX. 123, MIN and MAX are the high and low limits of the parameter. 12.3,1.23E+3, MIN, MAX Table 5-4...
Page 130: Program Header
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Program Header The program header is the keyword to identify a command. It follows the syntax described in section 5.6 of IEEE 488.2. The DC power supply accepts characters in both upper and lower case without distinguishing the difference.
Page 131: Program Message Terminator ()
Remote Operation 5.3.5.7.2 Program Message Terminator (<PMT>) A program message terminator represents the end of a program message. Three permitted terminators are: (1) <END> : end or identify (EOI) (2) <NL> : new line which is a single ASCII-encoded byte 0A (10 decimals). (3) <NL>...
Page 132 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Command Description *STB? Read status byte query ABORt Sets all output states to “OFF”. CAL:REMote Sets the measurement point of input voltage. CONFigure:APGISet Sets the action type of APG SOURCE / LOAD ISET.
Page 133 Remote Operation Command Description SYSTem:COMMunicate:CAN:ID Sets the CAN ID. SYSTem:COMMunicate:CAN:MASK Sets the CAN ID mask. SYSTem:COMMunicate:CAN:MODE Sets the CAN 11-bit / 29-bit mode. SYSTem:COMMunicate:CAN:PADding Sets the CAN padding function. SYSTem:COMMunicate:CAN:SPEC Sets the CAN function to Standard or FD mode. SYSTem:COMMunicate:CAN:APPLY Updates the CAN settings.
Page 134 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Command Description SOURce:RESistance Sets the Source resistance. LOAD:CURRent Sets the Load output current. LOAD:CURRent:PROTect:HIGH Sets the current range for Load over current protection. LOAD:POWer Sets the Load power output. LOAD:POWer:PROTect:HIGH Sets the power range for Load over power protection.
Page 135 Remote Operation Command Description PROGram:SEQuence:TIME Sets the duration of the sequence in List mode. PROGram:CLEAR Clears all sequences from the program selected in List mode. PROGram:ADD Adds sequences to the program selected in List mode. PROGram:MAX? Queries the sequence amount of the program selected in List mode PROGram:SEQuence Sets the parameters of a single sequence...
Page 136: Common Commands Syntax
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Command Description SAS:IRR Sets the IRR value in EN50530 mode. TRIG Uses this command to update the SAS output waveform when in SAS mode. SAS:SANDIA:IRRREF Sets the IRRREF value in SANDIA mode. SAS:SANDIA:TMPREF Sets the TMPREF value in SANDIA mode.
Page 137 Remote Operation *ESE Standard Event Status Enable Type: Device status Description: This command sets the condition of the Standard Event Status Enable register, which determines which events of the Standard Event Status Event register (see *ESR?) are allowed to set the ESB (Event Summary Bit) of the Status Byte register.
Page 138 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual *RCL Recall Instrument State Command Type: Device status Description: This command restores the High Slew Rate Load to a state that was previously stored in memory with the *SAV command to the specified location (see *SAV).
Page 139 Remote Operation contents (which means the total byte weight of all the bytes set to “1”.) Status Summary Message? Status Bytes Register Read by ESB MAV *STB?? Service Request? & & & & & & & Set Service Request Enable Register by *SRE? Figure 5-1 Table 5-6...
Page 140: Specific Commands For 62000D-Hl Series
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Summary Message Event Bit (ESB) Bit 5 of Read Standard Event Status Byte Register Status Register by *ESR? & & & & & & & & Set Standard Event Status Enable Registor by *ESE? Figure 5-2...
Page 141: Cal Subsystem
Remote Operation 5.7.2 CAL Subsystem CAL:REMote Description: Sets the measurement point position for measuring the input voltage. Syntax: CAL:REMote <Arg> Parameter: <Arg>: ON | OFF Example: CAL:REMote ON Query Syntax: CAL:REMote? Return Parameter: ON | OFF Query Example: CAL:REMote? Return Example: 5.7.3 CONFIGURE Subsystem CONFigure:APGISet Description:...
Page 142 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Example: CONFigure:APGVMeas VREF10 Query Syntax: CONFigure:APGVMeas? Return Parameter: NONE | VREF10 Query Example: CONFigure:APGVMeas? Return Example: VREF10 CONFigure:AVG:TIMES Description: Sets the average times for measuring input voltage/current. Syntax: CONFigure:AVG:TIMES <NR1> Parameter: 0: 1 time 1: 2 times...
Page 143 Remote Operation Example: CONFigure:DI1:FUNC EXTON Query Syntax: CONFigure:DI1:FUNC? Return Parameter: NONE | EXTON | INH Query Example: CONFigure:DI1:FUNC? Return Example: EXTON 10. CONFigure:DI1:PULL Description: Executes the Remote Inhibit input signal to increase the resistance control function. Syntax: CONFigure:DI1:PULL <Arg> Parameter: <Arg>: LOW | HIGH Example: CONFigure:DI1:PULL LOW...
Page 144 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Query Syntax: CONF:FOLDT? Return Parameter: <NRf+> Query Example: CONF:FOLDT? Return Example: 1.000000e+01 15. CONFigure:INTERLOCK Description: Executes the Safety Interlock control. Syntax: CONFigure:INTERLOCK <Arg> Parameter: <Arg>: DISABLE | ENABLE Example: CONFigure:INTERLOCK DISABLE Query Syntax: CONFigure:INTERLOCK?
Page 145 Remote Operation Note CONFigure:MSTSLV? must be OFF when setting it. (Not in series/parallel mode.) 19. CONFigure:MSTSLV:PARSER Description: Sets to series or parallel mode. Both Master and Slave need to be set by this command. Syntax: CONFigure:MSTSLV:PARSER <Arg> Parameter: <Arg>: PARALLEL Example: CONFigure:MSTSLV:PARSER PARALLEL Query Syntax:...
Page 146: System Subsystem
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Query Example: CONF:RESP:CV? Return Example: SLOW 24. CONFigure:OUTPut Description: Sets the output voltage/current. Syntax: CONFigure:OUTPut <Arg> Parameter: <Arg>: ON | OFF Example: CONFigure:OUTPut ON Query Syntax: CONFigure:OUTPut? Return Parameter: ON | OFF Query Example: CONFigure:OUTPut?
Page 147 Remote Operation Code Error Message Code Error Message -231 "Sequence selected error" SYSTem:DATE Description: Sets the system date. Syntax: SYSTem:DATE <Arg1>,<Arg2>,<Arg3> Parameter: Arg1: Year (NR1) Arg2: Month (NR1) Arg3: Day (NR1) Example: SYSTem:DATE 2020,01,01 Query Syntax: SYSTem:DATE? Return Parameter: <Arg1>,<Arg2>,<Arg3> same as the parameter. Query Example: SYSTem:DATE? Return Example:...
Page 148 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 400k 500k 800k 100k 1000k 125k Example: SYSTem:COMMunicate:CAN:BAUD 12 Query Syntax: SYSTem:COMMunicate:CAN:BAUD? Return Parameter: <NR1> Query Example: SYSTem:COMMunicate:CAN:BAUD? Return Example: SYSTem:COMMunicate:CAN:DATA Description: Sets the CAN FD data transmission baudrate. Syntax: SYSTem:COMMunicate:CAN:DATA <NRf+>...
Page 149 Remote Operation Return Parameter: <NR1> Query Example: SYSTem:COMMunicate:CAN:MODE? Return Example: 11. SYSTem:COMMunicate:CAN:PADding Description: Sets the CAN padding function. Syntax: SYSTem:COMMunicate:CAN:PADding <Arg> Parameter: <Arg>: ENABLE | DISABLE Example: SYSTem:COMMunicate:CAN:PADding ENABLE Query Syntax: SYSTem:COMMunicate:CAN:PADding? Return Parameter: ENABLE | DISABLE Query Example: SYSTem:COMMunicate:CAN:MODE? Return Example: ENABLE | DISABLE 12.
Page 150 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 16. SYSTem:COMMunicate:SOCK:GATEway Description: Sets the Ethernet Gateway. Syntax: SYSTem:COMMunicate:SOCK:GATEway <Arg> Parameter: <Arg>: “255.255.255.0” Example: SYSTem:COMMunicate:SOCK:GATEway “255.255.255.0” Query Syntax: SYSTem:COMMunicate:SOCK:GATEway? Return Parameter: “255.255.255.0” Query Example: SYSTem:COMMunicate:SOCK:GATEway? Return Example: “255.255.255.0” 17. SYSTem:COMMunicate:SOCK:IP Description: Sets the Ethernet IP.
Page 151 Remote Operation Query Syntax: SYSTem:MODule:VERSion? <Arg1>[<,><Arg2>] Query Parameter: Arg1: Module No.: 1~3 Arg2: Module No.: 1~2, 1: AD, 2: DD Query Example: SYSTem:MODule:VERSion? 1,2 Return Example: MAIN:0.90,BOOT:0_06,PLD:0.31,PCB:03 22. SYSTem:PONStatus Description: Sets the function mode of Power On Status. Syntax: SYSTem:PONStatus <NR1> Parameter: Example: SYSTem:PONStatus 0...
Page 152 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Query Syntax: SYSTem:PONStatus:POWer:LOAD? Return Parameter: <NRf+> Query Example: SYSTem:PONStatus:POWer:LOAD? Return Example: 1.000000e+00 27. SYSTem:PONStatus:POWer:SOUR Description: Sets the Source power of Power On Status. Syntax: SYSTem:PONStatus:POWer:SOUR <NR1> Parameter: Refer to individual spec for valid numeric range. Example: SYSTem:PONStatus:POWer:SOUR It sets the output power...
Page 153: Source Subsystem
Remote Operation Example: SYST:SLEEP:TIME 5 Query Syntax: SYST:SLEEP:TIME? Return Parameter: 5~20 min Query Example: SYST:SLEEP:TIME? Return Example: 33. SYST:SLEEP:STAT Description: Queries the Sleep state. Query Syntax: SYST:SLEEP:STAT? Return Parameter: STANDBY | SLEEP Query Example: SYST:SLEEP:STAT? Return Example: SLEEP 34. SYST:SLEEP:TIME:STAT Description: Queries the duration of Sleep mode.
Page 154 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Query Example: SOUR:VOLT? It returns the voltage. SOUR:VOLT? MAX It returns the max. voltage can be set. Return Example: 8.000000e+01 SOURce:VOLTage:LIMit:{HIGH/LOW} Description: Sets the output voltage range. Syntax: SOURce:VOLTage:LIMIT:HIGH <NRf+>[suffix] SOURce:VOLTage:LIMIT:LOW <NRf+>[suffix] Parameter: Refer to individual spec for valid numeric range.
Page 155 Remote Operation Parameter: Refer to individual spec for valid numeric range. Example: SOUR:CURR 1 It sets the output current to 1 amps. SOUR:CURR 60.00 It sets the output current to 60.00 amps. Query Syntax: SOUR:CURR? [{MAX/MIN}] Return Parameter: <NRf+> [Unit=Amp] Query Example: SOUR:CURR? It returns the current.
Page 156 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Query Example: SOUR:CURR:SLEW? It returns the current slew rate. SOUR:CURR:SLEW? MAX It returns the max. current slew rate. Return Example: 1.000000e+00 Note Source and Load currents share this setting. SOURce:POWer Description: Sets the output power (watt).
Page 157: Load Subsystem
Remote Operation 12. SOURce:DCON Description: Sets the DC_ON function to be on or off. Syntax: SOURce:DCON <Arg> Parameter: <Arg>: ENABLE | DISABLE Example: SOURce:DCON ENABLE Query Syntax: SOURce:DCON? Return Parameter: ENABLE | DISABLE Query Example: SOURce:DCON? Return Example: ENABLE 13. SOURce:DCON:{RISE/FALL} Description: Sets the DC_ON signal active point.
Page 158 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Syntax: LOAD:CURRent:PROTect:HIGH <NRf+>[ suffix] Parameter: Refer to individual spec for valid numeric range. Example: LOAD:CURR:PROT:HIGH 60.0 It sets the high limit to 60A for current output protection. Query Syntax: LOAD:CURR:PROT:HIGH? [{MAX/MIN}] Return Parameter: <NRf+>...
Page 159: Fetch Subsystem
Remote Operation 5.7.7 FETCH Subsystem FETCh:VOLTage? Description: Measures the output of the power supply and returns real-time voltage. Query Syntax: FETCh:VOLTage? Return Parameter: <NRf+> [Unit=Volt] Query Example: FETC:VOLT? Return Example: 9.983100e+00 FETCh:CURRent? Description: Measures the output of the power supply and returns real-time current (with sign).
Page 160: Measure Subsystem
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Return Example: 0,OFF,CV 5.7.8 MEASURE Subsystem MEASure:VOLTage? Description: Returns the voltage measured at the output of the power supply. Query Syntax: MEASure:VOLTage? Return Parameter: <NRf+> [Unit=Volt] Query Example: MEAS:VOLT? Return Example: 8.120000e+01 MEASure:CURRent?
Page 161 Remote Operation PROGram:SAVE Description: Saves the program. Syntax: PROGram:SAVE Parameter: None Example: PROG:SAVE PROGram:SELected Description: Sets the executed program no. in List mode. Syntax: PROGram:SELected <NR1> Parameter: 1 to 10 Example: PROG:SEL 10 Query Syntax: PROG:SEL? Return Parameter: <NR1> Query Example: PROG:SEL? It returns the program no.
Page 162 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Return Parameter: <NR1> Query Example: PROG:SEQ:SEL? Return Example: PROGram:SEQuence:TYPE Description: Sets the action type of a sequence in List mode. Syntax: PROGram:SEQuence:TYPE <Arg> Parameter: <Arg> AUTO | MANUAL | TRI | SKIP Example: PROG:SEQ:TYPE AUTO Query Syntax:...
Page 163 Remote Operation Note The current of Source and Load share this setting. 14. PROGram:SEQuence:CURRent:LOAD Description: Sets the sequence for Load current output in List mode. Syntax: PROGram:SEQuence:CURRent:LOAD <NRf+> Parameter: <NRf+> Example: PROG:SEQ:CURR:LOAD 45 Query Syntax: PROG:SEQ:CURR:LOAD? [{MAX/MIN}] Return Parameter: <NRf+> Query Example: PROG:SEQ:CURR:LOAD? Return Example:...
Page 164 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual <Arg2>: Sequence Voltage (NRf+ unit: voltage) <Arg3>: Sequence Voltage Slewrate (NRf+ unit: voltage) <Arg4>: Sequence Source Current (NRf+ unit: current) <Arg5>: Sequence Current Slewrate (NRf+ unit: current), Source and Load share this setting.) <Arg6>: Sequence Load Current (NRf+ unit: current) <Arg7>: Sequence TIME (NRf+ unit: SEC, only valid when Sequence Type is AUTO) (...
Page 165: Instrument Subsystem
Remote Operation 5.7.10 INSTRUMENT Subsystem INSTrument:STATus:AD? Description: Returns the AD module status. Syntax: INSTrument:STATus:AD? <NR1> Query Syntax: 1 | 2 | 3 Return Parameter: 0 ~ 4294967295 (2 BIT 0 OVP_VDC_F BIT 16 OCP_IO_REGEN BIT 1 UVP_VDC_F BIT 17 OCP_IL_R BIT 2 OVP_Vrs_F BIT 18...
Page 166: Subsystem
Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 5.7.11 IV Subsystem IVCurve:VOC? Description: Queries the VOC value in IV Curve mode. Query Syntax: IVCurve:VOC? Return Parameter: <NRf+> Query Example: IVC:VOC? Return Example: 6.000000e+02 IVCurve:ISC? Description: Queries the ISC value in IV Curve mode. Query Syntax: IVCurve:ISC? Return Parameter:...
Page 167 Remote Operation IVCurve:CONFigure:CONTrol Description: Sets the output control mode of IV curve. Syntax: IVCurve:CONFigure:CONTrol <ARG> Parameter: <ARG>: CC | CV Example: IVC:CONF:CONT CC Query Syntax: IVCurve:CONFigure:CONTrol? Return Parameter: CC | CV Query Example: IVC:CONF:CONT? Return Example: IVCurve:CONFigure:FILTer Description: Sets the cutoff frequency (unit: Hz) of the IV curve measurement signal filter.
Page 168 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual 12. IVCurve:IT Description: Sets the 128 current dots in IV Curve mode. Syntax: IVCurve:IT <NRf+>...< NRf+> Parameter: Refer to individual spec for valid numeric range. Example: IVC:IT <I1>,<I2,...<I128> Query Syntax: IVCurve:IT? Return Parameter: <NRf+>,...,<NRf+>...
Page 169: Sas Subsystem
Remote Operation Query Example: IVC:SEQ? Return Example: 5,0,99,10 Note Before setting the sequence, be sure to check that it exists in the IV-Program. If not, it has to use PROG:ADD command to add the sequence. 17. IVCurve:SEQuence:RUN? Description: Queries the IV Program execution status. Query Syntax: IVCurve:SEQuence:RUN? Return Parameter:...
Page 170 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Query Syntax: SAS:VOC? Return Parameter: <NRf+> Query Example: SAS:VOC? Return Example: 6.000000e+02 SAS:ISC Description: Sets the VOC value in ISC mode. Syntax: SAS:ISC <NRf+> Parameter: Refer to individual spec for valid numeric range. Example: SAS:ISC 8 Query Syntax:...
Page 171 Remote Operation SAS:TECH Description: Sets the TECH value in EN50530 mode. Syntax: SAS:TECH <ARG> Parameter: <ARG>: CSI | TF Example: SAS:TECH CSI Query Syntax: SAS:TECH? Return Parameter: CSI | TF Query Example: SAS:TECH? Return Example: SAS:IRR Description: Sets the IRR value in EN50530 mode. Syntax: SAS:IRR <NRf+>...
Page 172 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Example: SAS:SANDIA:BETA -2 Query Syntax: SAS:SANDIA:BETA? Return Parameter: <NRf+> Query Example: SAS:SANDIA:BETA? Return Example: -2.000000e+00 13. SAS:SANDIA:FF Description: Sets the FF value in SANDIA mode. Syntax: SAS:SANDIA:FF <NRf+> Parameter: Refer to individual spec for valid numeric range.
Page 173: Battery Simulation Subsystem
Remote Operation Return Example: 5.000000e+02 5.7.13 Battery Simulation Subsystem BATTery:OUTPut Description: Sets the output for the battery simulator. Syntax: BATTery:OUTPut <Arg> Parameter: <Arg>: ON | OFF Example: BATT:OUTP ON Query Syntax: BATTery:OUTPut? Return Parameter: ON | OFF Query Example: BATT:OUTP? Return Example: BATTery:INITial Description:...
Page 174 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Return Example: 1.000000e+03 BATTery:ESR Description: Sets the internal resistance of the battery simulator. Syntax: BATTery:ESR <NRf+> Parameter: Refer to individual spec for valid numeric range. Example: BATT:ESR 1 Query Syntax: BATTery:ESR? Return Parameter: <NRf+>...
Page 175: Function Subsystem
Remote Operation 5.7.14 Function Subsystem FUNCtion:OPTion:KEY Description: Input the product key no. Syntax: FUNCtion:OPTion:KEY <ARG> Parameter: <ARG>: Product key Example: FUNC:OPT:KEY “XXXXXXXXXXXXX” Query Syntax: FUNCtion:OPTion:KEY? Return Parameter: IDLE | CORRECT | INCORRECT Query Example: FUNC:OPT:KEY? Return Example: INCORRECT FUNCtion:OPTion? Description: Queries the product key function.
Page 177: Operation Theory
Operation Theory Operation Theory Overview The 62000D-HL DC power supplies have AL, AY, AR, BD, PD, LD, CB, DP, DB, CP, D, E, EA, EB, EC, ED, EM, MI, EL, G, H, IR, CR, B, P, MB, MP, BC, UD, OT, PA, RP, SE, and the communication interface GPIB/CAN board (option).
Page 178 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Input stage boost and high voltage DC to DC power component board Output inductor board Input inductance and current measurement board Output capacitor board Fan connector adapter H/L Remote sense switch Module auxiliary circuit board Remote sense board Software security lock...
Page 179: Self-Test And Troubleshooting
Self-Test and Troubleshooting Self-Test and Troubleshooting Overview Follow the actions described in this chapter to inspect the 62000D-HL series DC power supply and troubleshoot problems if the instrument is unable to operate normally. Please consult Chroma or its sales agent if the information provided in this manual is unable to resolve the problem.
Page 180 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Problem Cause Resolution correctly, and then power it on again. 2. Consult with your local sales agent for further assistance. MATCH warning for The model numbers do not 1. The power supplies of incompatible models when match.
Page 181: Appendix A Analog Interface Pin
Appendix A Analog Interface Pin Assignments Appendix A Analog Interface Pin Assignments The 25-pin connector is located at the rear panel as Figure A-1 shows: Figure A-1 Pin No. Pin Definition Pin No. Pin Definition DCOUT_ON OUTPUT FAULT OUTPUT DC_ON_ST OUTPUT PROG_TRIG INTERLOCK...
Page 182 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual (12) PIN 12: AVO_MEAS_V, voltage measurement only that allows you to set in “voltage form” with input voltage range from 0V to 10V, see section 3.2.5.1.1 APG for the detailed information.
Page 183: Appendix B List Of Protection
Appendix B List of Protection Appendix B List of Protection Follow the protections described in this appendix to inspect the 62000D-HL series DC power supply and troubleshoot any problems if the instrument is unable to operate normally. Please consult Chroma or the sales agent if the information provided in this manual is unable to resolve the problem.
Page 184 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message on Panel Protection Possible Cause Troubleshooting It means over charge The set charging Check the set protection is CHG_OCP value is lower than charging setting occurred in Charge the charging value.
Page 185 Appendix B List of Protection Message on Panel Protection Possible Cause Troubleshooting abnormal and notify the system of the boards where the the system. alarm. protection occurred. (Please contact the technical service personnel or agents of Chroma.) It means the DC/DC The DC/DC module Check and replace module is abnormal...
Page 186 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message on Panel Protection Possible Cause Troubleshooting abnormal when 2. The system 2. Check and replace reading the data. control board is the system control abnormal. board. (Please contact the technical service personnel or agents of Chroma.)
Page 187 Appendix B List of Protection Message on Panel Protection Possible Cause Troubleshooting personnel or agents of Chroma.) It means the DC/DC 1. The comm. cable 1. Check if the module cannot be of the DC/DC comm. cable of the recognized. module control DC/DC module board has fallen...
Page 188 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message on Panel Protection Possible Cause Troubleshooting It means the Slave The comm. cables Check if the comm. communication of used to connect cables connecting SLV_DISCONN multiple devices multiple devices are multiple devices are connection has wrong or fallen.
Page 189 Appendix B List of Protection Message Protection Possible Cause Troubleshooting abnormal. board that has protection occurred. (Please contact the technical service personnel or agents of Chroma.) 1. The output transient power is too high. (Source Mode) 1. Remove the UUT 2.
Page 190 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message Protection Possible Cause Troubleshooting contact the technical service personnel or agents of Chroma.) 1. Remove the UUT and check if the operation is correct. 1. The output 2. Check and transient power is It means the DC BUS replace the...
Page 191 Appendix B List of Protection Message Protection Possible Cause Troubleshooting technical service personnel or agents of Chroma.) 1. Check if the input power meets the rated value. 2. Measure the AC/DC module fuse and replace it. (Please contact 1. The input power is the technical abnormal.
Page 192 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message Protection Possible Cause Troubleshooting circuit of the replace the AC/DC module is AC/DC module abnormal. board that has 3. The power protection component of the occurred. (Please AC/DC module is contact the abnormal or technical service...
Page 193 Appendix B List of Protection Message Protection Possible Cause Troubleshooting AD/DC circuit is too 2. The measurement correct. high. (>30A (rms)) circuit of AC/DC 2. Check and module is replace the abnormal. AC/DC module 3. The power board that has component of the protection AC/DC module is...
Page 194 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message Protection Possible Cause Troubleshooting damaged. protective phase 3. The AC/DC relay and power module PWM drive components. signal is abnormal. (Please contact 4. The power the technical component of the service personnel AC/DC module is or agents of...
Page 195 Appendix B List of Protection Message Protection Possible Cause Troubleshooting personnel or agents of Chroma.) Check and replace the AC/DC module It means the DSP board that has The DSP memory on memory of the AC/DC protection occurred. FLASHERR the AC/DC module module board is (Please contact the board is abnormal.
Page 196 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message Protection Possible Cause Troubleshooting AC/DC module is replace the abnormal. AC/DC module 3. The AC/DC board that has module power protection component is occurred. (Please abnormal or contact the damaged.
Page 197 Appendix B List of Protection Message Protection Possible Cause Troubleshooting (Please contact the technical service personnel or agents of Chroma.) 1. Check if the output active load meets the rated 1. The power value. component of the 2. Check and DC/DC module is replace the It means the DC/DC...
Page 198 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message Protection Possible Cause Troubleshooting 1. Remove the UUT and check if the operation is correct. 1. The measured 2. Check and current within the replace the module differs by It means the current DC/DC module more than 5A.
Page 199 Appendix B List of Protection Message Protection Possible Cause Troubleshooting It means the internal 1. The operating 1. Eliminate the temperature of the environment ambient power component in temperature is temperature too the DC/DC module is over the limit. high problem. too high.
Page 200 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Message Protection Possible Cause Troubleshooting DC/DC module is PWM signals. protection occurred. abnormal. 2. FPGA detects (Please contact the circuit malfunction technical service personnel or agents of Chroma.) It means one of the 1.
Page 201 Appendix B List of Protection Message Protection Possible Cause Troubleshooting of Chroma.) It means the status Check and replace check failed when the DC/DC module The SRAM on the powered on and board. (Please SRAM_ERR DC/DC module checked emif contact the technical board is abnormal.
Page 203: Appendix C Precautions For Battery Test
Appendix C Precautions for Battery Test How to Safely Connect the 62000D-HL Bi-Directional DC Power Supply to the Battery The Chroma 62000D-HL series of bidirectional power supplies offer two-quadrant operations with positive current/positive voltage and negative current/positive voltage. This allows the instruments to function as both DC power supplies and regenerative DC loads.
Page 204 Programmable Bidirectional DC Power Supply 62000D-HL Series Operating and Programming Manual Before connecting the 62000D-HL to the battery, it is necessary to add the following parts to the circuit as shown above: relay switches (S1/S2), a resistor (R), and a fuse. When selecting the components, make sure that the S1, S2, and fuse can withstand the maximum charge or discharge current specifications, and that the resistance is 1ohm/10W.
Page 205 Ihr Ansprechpartner / Your Partner: dataTec AG E-Mail: info@datatec.eu >>> www.datatec.eu Chroma ATE Inc. 88 Wenmao Rd., Guishan Dist., Taoyuan City 333001, Taiwan T +886-3-327-9999 F +886-3-327-8898 www.chromaate.com info@chromaate.com...

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