Page 1 Multi-phase Programmable AC/DC Power Source ASR-6000 Series USER MANUAL ISO-9001 CERTIFIED MANUFACTURER...
Page 2 This manual contains proprietary information, which is protected by copyright. All rights are reserved. No part of this manual may be photocopied, reproduced or translated to another language without prior written consent of Good Will company. The information in this manual was correct at the time of printing. However, Good Will continues to improve products and reserves the rights to change specification, equipment, and maintenance procedures at any time without notice.
Page 3: Table Of Contents
Table of Contents Table of Contents SAFETY INSTRUCTIONS ..........5 GETTING STARTED ............9 ASR-6000 Series Overview ........10 Appearance ............17 Theory of Operation ..........27 OPERATION ..............38 Set Up ..............40 Menu Tree ............. 75 Basic Operation ............. 79 Advanced Settings ..........
Page 4 ASR-6000 Series User Manual Monitor Output Amplitude ........180 Trigger Out Width ..........181 Trigger Out Source ..........184 Re-lock ..............186 Data Average Count ..........188 Data Update Rate ..........189 TEST MODE FUNCTION ..........190 Sequence Mode ........... 191 Simulate Mode ............
Page 5: Safety Instructions
SAFETY INSTRUCTIONS AFETY INSTRUCTIONS This chapter contains important safety instructions that you must follow during operation and storage. Read the following before any operation to ensure your safety and to keep the instrument in the best possible condition. Safety Symbols These safety symbols may appear in this manual or on the instrument.
Page 6 ASR-6000 Series User Manual Do not dispose electronic equipment as unsorted municipal waste. Please use a separate collection facility or contact the supplier from which this instrument was purchased. Safety Guidelines Do not place any heavy object on the ASR-6000.
Page 7 SAFETY INSTRUCTIONS AC Input voltage range: Power Supply  200 Vac to 240 Vac ±10 % WARNING phase voltage (Delta: L-L, Y: L-N) Frequency: 47 ~ 63 Hz  To avoid electrical shock connect the protective  grounding conductor of the AC power cord to an earth ground.
Page 8 ASR-6000 Series User Manual Disconnect the circuit-breaker or permanently Cleaning the ASR-  connected power input before cleaning. 6000 Use a soft cloth dampened in a solution of mild  detergent and water. Do not spray any liquid. Do not use chemicals containing harsh material ...
Page 9: Getting Started
This chapter describes the ASR-6000 power supply in a nutshell, including its main features and front / rear panel introduction. ASR-6000 series ASR-6000 Series Overview ........10 Series lineup ..................10 Operating Area ................. 11 Main Features ................... 13 Accessories ..................15 Appearance ............
Page 10: Asr-6000 Series Overview
ASR-6000 Series User Manual ASR-6000 Series Overview Series lineup The ASR-6000 series consists of 2 models, the ASR-6450 and ASR- 6600, differing in capacity. Note that throughout the user manual, the term “ASR-6000” refers to any of the models, unless stated otherwise.
Page 11: Operating Area
GETTING STARTED Operating Area...
Page 12 ASR-6000 Series User Manual...
Page 13: Main Features
GETTING STARTED Main Features Maximum phase voltage is 350 Vrms, line Performance  voltage is 700 Vrms Maximum DC output voltage is 1000 Vdc  Maximum output frequency is 2000 Hz  Adjustable Voltage rising time  DC full capacity output ability ...
Page 14 ASR-6000 Series User Manual Built-in LAN, USB host, USB device and RS232 Interface  interface Optional GPIB, DeviceNet and CAN BUS  interface...
Page 15: Accessories
GETTING STARTED Accessories Before using the ASR-6000 power source unit, check the package contents to make sure all the standard accessories are included. Standard Part number Description Accessories Quick Start Guide 82GW1SAFE0M*1 Safety guide 62SR-6K0SC401 Input terminal cover 62SR-6K0SC301 Output terminal cover 62SR-6K0CP101 Copper plate for delta connection input (Mark 1)
Page 16 ASR-6000 Series User Manual GPW-010 Power Cord VCTF 2.0mm2/3C, 3m Max Length, 105oC, RVS2- 5*3P, RVS2-5*3P PSE TYPE GPW-011 Power Cord SJT 10AWG/5C, 3m Max Length, 105oC, RV5-5*5P, RV5-5*5P UL TYPE GPW-012 Power Cord H05VV-F 2.5mm2/5C, 3m Max Length, 105oC, RVS3-5*5P, RVS3-5*5P...
Page 17: Appearance
GETTING STARTED Appearance Front Panel Programmable AC/DC Power Source 6450 Menu Test Preset V-Limit F-Limit IPK-Limit Mode I rms Range On Phase Phase IPK CLR Shift Off Phase ALM CLR Cancel Wave Hardcopy Unlock Local Enter Output Lock : Long Push Item Index Description Power switch button...
Page 18 ASR-6000 Series User Manual Cancel key Enter key Irms/IPK-Limit button Lock/Unlock button F/F-Limit button V/V-Limit button Numerical Keypad with additional “Shift + key” shortcut functions (green zone) Air inlet Item Description Power Switch Turn on the mains power USB A Port The USB port is used for data transfers and upgrading software.
Page 19 GETTING STARTED Menu Key Enters the Main menu or goes back to one of the display modes. Test Key Puts the instrument into the Sequence and Simulation control mode. Preset Key Puts the instrument into Preset mode. Arrow Keys The arrow keys are used to select the digit power of a value that is being edited.
Page 20 ASR-6000 Series User Manual Enter Key Confirms selections and settings. Irms Used for setting the maximum output current. IPK-Limit + Used to set the peak output current limit value. Lock/Unlock Key Used to lock or unlock the front panel keys except output key. Simply press to lock, whilst long press to unlock.
Page 21 GETTING STARTED On Phase + Sets the on phase for the output voltage. Off Phase + Sets the off phase for the output voltage. Output + Selects between the Sine, Square, Waveform Triangle and ARB 1~16 waveforms (not available for DC-INT, AC+DC-EXT and AC-EXT).
Page 22: Rear Panel
ASR-6000 Series User Manual Rear Panel SENSING RS232C EXT I/O L3 N3 OUTPUT AC 0 350V 1 2kHz 500V 500V 3P 1P3W GPIB INPUT 1 /3 200 240V :L-L 47 63Hz 8kVA MAX. :L-N Item Index Description Output terminal AC power input terminal...
Page 23 GETTING STARTED Item Description Output Terminal Output terminal (M4 screw type, 8 ~ 18 AWG) (Screw torque value:18kgf-cm) AC Power Input AC inlet Terminal (M4 screw type, 8 ~ 18 AWG) (Screw torque value:18kgf-cm) Remote sensing input terminal is Remote Sensing for compensation of load wire Input Terminal voltage drop.
Page 24 ASR-6000 Series User Manual RS232C The RS232C connector for Connector controlling the ASR-6000 remotely. Ethernet LAN The Ethernet port is used for Port remote control. USB B-type Port USB port for controlling the ASR- 6000 remotely. Optional GPIB The optional GPIB connector for Connector controlling the ASR-6000 remotely.
Page 25: Status Bar Icons
GETTING STARTED Status Bar Icons Status bar Status bar Indicates if the output is ON or OFF. Indicates the output power percentage of pre output phase. When it is under 1P2W, the icon appears with 1 line (single phase). And it will be 2 lines (two phase) for 1P3W, and 3 lines (three phase) for 3P4W.
Page 26 ASR-6000 Series User Manual The alarm icon will appear on the status bar when one of the protection functions is tripped. Indicates the shift key is pressed which enables shortcut operations with each key. Indicates that the ASR-6000 is under remotely control mode.
Page 27: Theory Of Operation
GETTING STARTED Theory of Operation The theory of operation chapter describes the basic principles of operation, protection modes and important considerations that must be taken into account before use. Description of ASR-6000 System System block are composed of the parts described below. ...
Page 28: Glossary
ASR-6000 Series User Manual Glossary The maximum value of the output power Rate Output capacity will be provided consecutively when Maximum Power Capacity the following situations exist: Output voltage is 100 to 175 V within the 100 V range. Output voltage is 200 to 350 V within the 200 V range.
Page 29 GETTING STARTED Equation: The maximum value of the output current (peak Maximum Peak Current (AC-INT value) will be provided consecutively to a mode only) capacitor input-type rectifying load when the following situations exist: Output voltage is 100 to 175 V within the 100 V range.
Page 30 ASR-6000 Series User Manual The crest factor stands for a ratio of the rms Crest Factor (CF) value correlated to the peak value (crest value) of the waveform. Equation: The crest factor is 1.41 of sine wave, 1 of square Note wave, 1.717 of triangle wave.
Page 31 GETTING STARTED Phase unbalance of a three-phase system exists Three Phase when one or more of the line-to-line voltages in Unbalance a three-phase system are mismatched. Three- phase power systems and equipment are intended to operate with phases (Lines) balanced. Line-to-line voltages in a three-phase circuit typically vary by a few volts, but a difference that exceeds 1% can damage motors and...
Page 32: Alarms
ASR-6000 Series User Manual Alarms The ASR-6000 series have a number of protection features. When one of the protection alarms is tripped, the ALM icon on the display will be lit and the type of alarm that has been tripped will be shown on the display.
Page 33 GETTING STARTED Abnormal startup procedure.Bit(0~19) Contact Startup_Alarm/ HW Model service center. Startup Error (Bit: #) Module Error. Contact service center. Module Error Remote sense connection wire is abnormal or over Sensing Voltage maximum compensation voltage. Press "Shift + 6" Error to clear this alarm.
Page 34 ASR-6000 Series User Manual Parallel Version or Model Mismatch. Parallel Version or Model Mismatch Parallel Communication Error(0~5). Parallel Error/Parallel Communication Error(#)  If alarm state still exists after executing clear or Note reboot, contact your local maintenance center.  The system would be locked or automatically...
Page 35: Grounding For 1P2W Output
GETTING STARTED Grounding for 1P2W Output The output terminals of the ASR-6000 series are isolated with respect to the protective grounding terminal. The insulation capacity of the load, the load cables and other connected devices must be taken into consideration when connected to the protective ground or when floating.
Page 36: Considerations
ASR-6000 Series User Manual Considerations The following situations should be taken into consideration when using the power supply. When the power supply switch is first turned Inrush Current on, an inrush current is generated. Ensure there is enough power available for the power supply when first turned on, especially if a number of units are turned on at the same time.
Page 37 Inductive Load Ensure the connected diode meets the following CAUTION specifications between the load, either capacitor or inductor, and the ASR-6000 series power supplies.  Maximum reverse voltage: 600V or higher depend on the output phase voltage  Maximum forward current: ...
Page 38 ASR-6000 Series User Manual PERATION Set Up ..............40 Power Up and Procedure ............... 40 How to Use the Instrument ............42 Input Terminal Connection ............45 Copper Plate Introduce ............. 45 Single Phase Connection ........... 47 Delta Connection ..............48 Y Connection ...............
Page 39: Operation
OPERATION Setting the Output On and Off Phase ........100 Setting the SRC ................102 Setting the Sync Phase ..............103 Switch the Display Modes ............106 Using the Measurement Function ..........110 Setting the Phase and Line Voltage ..........113 Select the Each and All Setting Method ........
Page 40: Set Up
ASR-6000 Series User Manual Set Up We take the illustration of Single Phase Input for example here. Please refer to page 45 of the chapter of Input Terminal Connection for detailed information of the 3 different connection methods. Power Up and Procedure 1.
Page 41 5. Press the POWER key. The welcome screen of GW Instek will be displayed followed by self- checking procedure before the continuous mode screen appears with the settings loaded.  The power supply takes around 35 seconds to fully CAUTION turn on and shutdown.
Page 42: How To Use The Instrument
ASR-6000 Series User Manual How to Use the Instrument The ASR-6000 AC power supplies generally use Background the scroll wheel, Arrow keys, Numerical Keypad and Enter keys to edit numerical values or to select menu options. Menu navigation is performed using the menu keys and function keys on the front panel.
Page 43 OPERATION Use the Arrow keys to select a digit power and Using the Arrow then use the scroll wheel to edit the value by Keys and Scroll Wheel to Edit that power. Parameter Values 1. Use the Arrow keys to move the cursor to the digit of the desired value.
Page 44 ASR-6000 Series User Manual The function keys are quick settings keys, the Using the function of which depends on the current menu Function Keys or operation. 1. Press the Function key that corresponds to the setting directly to its left side.
Page 45: Input Terminal Connection
OPERATION 3. Repeat the steps above for all the relevant digits. 4. Press the Enter key to confirm the edit. By default the cursor starts at the lowest digit of value. Note Input Terminal Connection Basically, the input terminal, which is located in Background the rear panel of unit, can be connected through 3 methods: Single Phase, Delta and Y Connection.
Page 46 ASR-6000 Series User Manual Input Quantity of Copper Plate Connection Copper Plate Quantity of Input Connections Single 62SR-6K0CP201*2pcs Delta 62SR-6K0CP101*1pcs, 62SR-6K0CP301*2pcs 62SR-6K0CP201*1pcs...
Page 47: Single Phase Connection
OPERATION Single Phase Connection 1. Assemble the two Steps copper plates specific for Single phase input connection with the AC input terminals. The first plate is for L1, L2 and L3 terminals, while the other plate is for N1, N2 and N3 terminals.
Page 48: Delta Connection
ASR-6000 Series User Manual 4. The AC power cords of Single phase input are connected with the AC input terminals equipped with protective lid completely.  Power input cords are not included in this product. Note  The input & output terminals necessitate connectivity through ring-type connectors.
Page 49 OPERATION 2. Connect the AC power cords to the AC input terminals. Red  Line (N2)  Green  Neutral  (N1) Yellow  Neutral  (N3) 3. Install the protective lid of power input terminals (main box x1 and side plate x1) followed by fastening the three screws to fix the lid firmly into...
Page 50: Y Connection
ASR-6000 Series User Manual Y Connection 1. Assemble the copper Steps plate specific for Y input connection with the AC input terminals. The copper plate is for N1, N2 and N3 terminals. In terms of the specific copper plates for Y input Note connection, refer to page 45 for more details.
Page 51 OPERATION 4. The AC power cords of Y input are connected with the AC input terminals equipped with protective lid completely.  Power input cords are not included in this product. Note  The input & output terminals necessitate connectivity through ring-type connectors. The diagram is only for reference on wiring method.
Page 52: Output Terminal Connection
ASR-6000 Series User Manual Output Terminal Connection The output terminal can output power in three Background mode: 1P2W, 1P3W and 3P4W. Select applicable output mode, via panel configurations, in accordance with varied applications. Be aware of dangerous voltages. Ensure that the...
Page 53 OPERATION 3. Connect the output wires to the AC output terminals as follows: Red  Line (L)  Black  Neutral (N)  4. Install the protective lid of power output terminals (main box x1 and side plate x1) followed by fastening the 4 screws to fix the lid firmly into place.
Page 54: 1P3W Output Connection
ASR-6000 Series User Manual Because the neutral has been referenced to the WARNING chassis ground, be careful electric shock by yourself. 1P3W Output Connection 1. Disconnect the unit from the mains power Steps socket and turn the power switch off.
Page 55: 3P4W Output Connection
OPERATION 4. The AC power cords of 1P3W output are connected with the AC output terminals equipped with protective lid completely.  The input & output terminals necessitate Note connectivity through ring-type connectors. 3P4W Output Connection 1. Disconnect the unit from the mains power Steps socket and turn the power switch off.
Page 56 ASR-6000 Series User Manual 3. Install the protective lid of power output terminals (main box x1 and side plate x1) followed by fastening the 4 screws to fix the lid firmly into place. 4. The AC power cords of 3P4W output are...
Page 57: Remote Sensing Connection
OPERATION Remote Sensing Connection Remote sense is used to compensate for the Background voltage drop seen across load cables due to resistance inherent in the load cables. The remote sense function can compensate a maximum of 5% of the output voltage and all of output frequency. Based on different 3 output methods, the connections of remote sense vary accordingly.
Page 58: 1P2W Output Remote Sensing Connection
ASR-6000 Series User Manual 1P2W Output Remote Sensing Connection 1. Configure the setting of remote sense to ON Steps of 1P2W (page 169). Output Remote Sensing 2. Connect the L1 terminal of the remote sense Connection terminal block to the L terminal of the load.
Page 59 OPERATION 4. After connection, cover the protective lid onto Install the the remote sensing terminal block followed by Protective lid fastening the screws as figure shown. 5. The remote sense connection and the protective lid installation are completed accordingly.
Page 60: 1P3W Output Remote Sensing Connection
ASR-6000 Series User Manual 1P3W Output Remote Sensing Connection 1. Configure the setting of remote sense to ON Steps of 1P3W (page 169). Output Remote Sensing 2. Connect the L1 terminal of the remote sense Connection terminal block to the L1 terminal of the load.
Page 61 OPERATION 6. After connection, cover the protective lid onto the Install the Protective lid remote sensing terminal block followed by fastening the screws as figure shown. 7. The remote sense connection and the protective lid installation are completed accordingly.
Page 62: 3P4W Output Remote Sensing Connection
ASR-6000 Series User Manual 3P4W Output Remote Sensing Connection 1. Configure the setting of remote sense to ON Steps of 3P4W (page 169). Output Remote Sensing 2. Connect the L1 terminal of the remote sense Connection terminal block to the L1 terminal of the load.
Page 63 OPERATION 8. After connection, cover the protective lid onto the Install the Protective lid remote sensing terminal block followed by fastening the screws as figure shown. 9. The remote sense connection and the protective lid installation are completed accordingly. The diagram is only for reference on wiring WARNING method.
Page 64: Using The Rack Mount Kit
ASR-6000 Series User Manual Using the Rack Mount Kit The ASR-6000 has the following optional Rack Background Mount kits, respectively. Unit Model Rack Mount kit part number ASR-6450 GRA-451 ASR-6600 The GRA-451-E is designed to fit into an EIA rack of 4U-height, while the GRA-451-J is designed to fit into a JIS rack of 4U-height.
Page 65: Optional Interface Installation
There are up to 3 kinds of optional interface Background cards (DeviceNet, CAN BUS, GPIB) available to allow user to control ASR-6000 series remotely. Refer to the following steps for instructions of how to install interface cards into the slot from rear panel of the unit.
Page 66 ASR-6000 Series User Manual 4. Insert an optional interface card (DeviceNet, CAN BUS, GPIB) into the slot of rear panel and click it all the way into place. GPIB CAN BUS DeviceNet 5. Fasten the screws to fix the optional interface card onto the rear panel of unit.
Page 67: Reset To Factory Default Settings
OPERATION Reset to Factory Default Settings The default settings can be restored from the Background Menu key settings. See page 246 for the default factory settings. 1. Press the Menu key. The Menu Steps settings will appear on the display. 2.
Page 68: View Firmware Version And Serial Number
ASR-6000 Series User Manual View Firmware Version and Serial Number The Menu>System Information setting displays Background the serial number and firmware version. 1. Press the Menu key. The Menu Steps setting will appear on the display. 2. The system information should now be listed...
Page 69: Usb Driver Installation
If the USB Type B interface is to be used for Background remote control, the USB driver needs to be installed. The USB driver, both gw_asr.inf and gw_asr.cat can be downloaded from the GW Instek Note website. For information on the USB interface, see page 223.
Page 70 ASR-6000 Series User Manual 3. The ASR-6000 will be located under Other Devices in the hardware tree. Right-click the ASR-6XXX and choose Update Driver Software. 4. From the hardware wizard choose Browse my computer driver software.
Page 71 OPERATION 5. Set the file path to the location of the USB driver, click Next and finish the driver installation. 6. ASR-6000 will now be located in the Ports node of the hardware tree in the Windows Device Manager if the driver installation was successful.
Page 72: Air Inlet Cleaning And Installation
ASR-6000 Series User Manual Air Inlet Cleaning and Installation The ASR-6000 is equipped with a cellular-like Background metal filter to prevent dust from infiltrating into the unit. In case of vent blockage, please clean the filter periodically by vacuum cleaner.
Page 73 OPERATION 4. Use a vacuum cleaner to absorb and remove dust off from the air inlet. Air inlet 5. Follow the steps 1-3 in reversed order to reassemble the lid and the cover of air inlet with ASR-6000 unit. Please clean regularly to avoid damaging the Note internal components of the machine The above procedure should only be attempted...
Page 74: Wire Gauge Considerations
ASR-6000 Series User Manual Wire Gauge Considerations Before connecting the output terminals to a load, Background the wire gauge of the cables should be considered. It is essential that the current capacity of the load cables is adequate. The rating of the cables must equal or exceed the maximum current rated output of the instrument.
Page 75: Menu Tree
OPERATION Menu Tree Convention Use the menu trees as a handy reference for the power supply functions and properties. The ASR-6450 / ASR- 6600 menu system is arranged in a hierarchical tree. Each hierarchical level, which is coated in varied colors, can be navigated through the orders within the diagrams below.
Page 76: Main - 1P2W
ASR-6000 Series User Manual Main – 1P2W Level 1 Level 2 Level 3 Level 4 Level 5 Main Page of 1P2W MODE AC+DC-INT FREQ IRMS ON Phs OFF Phs Wave TEST FIXED FIXED FREE FREE AC-INT ARB 1~16 FREQ IRMS...
Page 77: Main - 1P3W & 3P4W
OPERATION Main – 1P3W & 3P4W Level 1 Level 2 Level 3 Level 4 Level 5 Main Page of 1P3W and 3P4W MODE AC+DC-INT FREQ IRMS ON Phs OFF Phs Wave TEST L1 → L2 FIXED FIXED L1 → L3 FREE FREE AC-INT...
Page 78: Menu
ASR-6000 Series User Manual Menu Level 1 Level 2 Level 3 Level 4 Menu System Information MISC Configuration T Ipeak, hold Phase Mode IPK CLR Power ON Buzzer Remote Sense V Response Output Relay THD Format External Control V Unit(TRI, ARB)
Page 79: Basic Operation
OPERATION Basic Operation This section describes the basic operations required to operate the power supply. Select the Output Mode → from page 80  Select the Output Phase → from page 83  Select the Voltage Range → from page 83 ...
Page 80: Select The Output Mode
ASR-6000 Series User Manual Select the Output Mode The ASR-6000 has up to 10 modes to output, Background which empower user to have multiple applications for different scenarios. List of the Signal Source Output Output Selectable Phase Mode Sync Combinations of...
Page 81 OPERATION The signal source is from internal. Set the output voltage, waveform, frequency, on phase and off phase through the control panel or the remote control. The signal source is from external. Amplifies and outputs the external input signal. Set the voltage gain through the control panel or the remote control.
Page 82 ASR-6000 Series User Manual 1. Press Shift + Range to access the Operation MODE selection menu. steps Alternatively, it is available to use scroll wheel followed by the Enter key to enter the MODE menu. 2. Choose an output mode with scroll wheel.
Page 83: Select The Output Phase
OPERATION Select the Output Phase There are up to 3 Output Phase of ASR-6000 for Background user to utilize in different applications. Description Output Phase Single phase two wire output 1P2W (1P) Single phase three wire output 1P3W Three phase four wire output 3P4W (3P) (default setting) 1.
Page 84: Select The Voltage Range
ASR-6000 Series User Manual Select the Voltage Range The Range setting determines the general outlet Background voltage range. The ranges available correspond to common mains output voltage standards. 1. Press Range to access the Range Steps menu. 2. Set the voltage range with the F1, F3 and F4 soft-keys.
Page 85: Select The Output Waveform
OPERATION The output voltage values set by user can be divided Note into 2 manual settings, both of which have close relation with voltage range that contains high range (200V, AUTO) and low range (100V). For instance, when setting 5 Vrms under 200V range and 3 Vrms under 100V range, the Vrms setting will change from 5 Vrms to 3 Vrms directly after switching the voltage range from 200V to 100V.
Page 86 ASR-6000 Series User Manual 2. Press Enter to confirm the waveform setting. Example Wave setting  Waveform selection is Not available under DC-INT, Note AC+DC-EXT and AC-EXT output modes.  When changing to a waveform with setting higher than the upper limit of other waveform, the setting...
Page 87 OPERATION Setting the Output Voltage Limit Setting the voltage limit allows the output Background voltage to be set to any level within the voltage limit range. List of the Voltage Limit Value Output Limit Value of the Mode Output Modes 10% ~ 100% AC-INT AC-ADD...
Page 88 ASR-6000 Series User Manual Example - Vrms Setting Vrms Limit Example - VPK+ Setting VPK+ Limit Example - VPK- Setting VPK- Limit  Voltage limit setting is Not available for both Note AC+DC-EXT, AC-EXT and AC-VCA output modes.  The Vrms Limit value defined by user will be...
Page 89 OPERATION Setting the Output AC/DC Voltage & Gain The ACV, DCV and Gain settings set the output Background voltage level. Before setting the power supply voltage level, set the voltage range and voltage limit beforehand. List of the Voltage Range Output Mode Range and Gain GAIN...
Page 90 ASR-6000 Series User Manual 2. Use the scroll wheel or the numerical keypad to set value of ACV/DCV/GAIN value directly or use the define value, F3 (MAX) and F4 (MIN) soft-keys to set the limit to the maximum or minimum value.
Page 91: Setting The Frequency Limit
OPERATION ACV setting Defined setting Example of ACV Setting in the AC+DC-INT DCV setting Defined setting Example of DCV Setting in the DC-INT GAIN setting Defined setting Example of GAIN Setting in the AC+DC-EXT 1. Vrms can only be set up to 144.3 Vrms / 288.6 Vrms for triangular waveform.
Page 92 ASR-6000 Series User Manual List of the Range Frequency Limit Output Mode Freq Hi Freq Lo Value of the Limit Limit Output Modes AC+DC-INT 1.00 ~ 2000.0 Hz 1.00 ~ 2000.0 Hz AC+DC-ADD AC-INT AC-ADD 15.00 ~ 2000.0 Hz 15.00 ~ 2000.0 Hz...
Page 93 OPERATION Freq Lo Limit setting Min/Max settings Example - Freq Lo Setting in AC+DC-INT  Before change freq limit setting, if FREQ setting Note value is bigger than desire freq limit value, the freq limit value cannot be change accordingly. ...
Page 94: Setting The Output Frequency & Signal
ASR-6000 Series User Manual Setting the Output Frequency & Signal The FREQ and SIG settings set the frequency of Background the output. Before setting the frequency, set the frequency limit. List of the Range Option Output Mode Frequency Range FREQ...
Page 95 OPERATION 4. Repeat the previous steps 1 ~ 2 to set frequency with the scroll wheel. 5. Press and hold the DEF1 or DEF2 soft-key until “Saved to DEF1/2” is displayed. This will save the frequency setting to the DEF1 or DEF2 soft- key individually.
Page 96: Setting The Peak Current Limit
ASR-6000 Series User Manual Setting the Peak Current Limit Setting the peak current limit sets a limit on the Background current that can be sourced by the power supply. Once the output current over the setting, the output will set to off.
Page 97 OPERATION 3. Set the peak current (IPK+ & IPK-) with the scroll wheel, the numerical keypad or with the F3 (MAX) and F4 (MIN) soft-keys to set the current limit to the maximum and minimum values, respectively. 4. Press Enter to confirm the peak current setting. IPK+ limit setting Defined setting Example -...
Page 98: Setting The Output Current Level
ASR-6000 Series User Manual Setting the Output Current Level The IRMS and I settings set the current of the Background output. Setting the RMS or AVG current sets a limit on the current that can be sourced by the power supply. Once the output current is over the setting, the output will set to off.
Page 99 OPERATION 2. Set the IRMS/I level with the scroll wheel, the numerical keypad or with the F3 ~ F4 soft-keys. The MAX and MIN soft-keys set the IRMS or I level to the maximum and minimum, respectively. 3. Press Enter to confirm the current setting. Example - IRMS setting Defined setting...
Page 100: Setting The Output On And Off Phase
ASR-6000 Series User Manual Setting the Output On and Off Phase The on and off phase setting sets the starting and Background ending phase of the voltage output. List of the ON Range Output Mode Phase and OFF ON Phs...
Page 101 OPERATION 3. Press Enter to confirm the setting. On and Off Phase Setting Soft-keys setting Example - Phase Setting in the AC+DC-INT...
Page 102: Setting The Src
ASR-6000 Series User Manual Setting the SRC The acronym SRC stands for Source, which Background corresponds to pins 20, 21, and 22 of the System I/O on the back panel, allowing user to choose the signal source from which pin.
Page 103: Setting The Sync Phase
OPERATION Setting the Sync Phase Output Mode Range List of the Syn Phs setting AC+DC-Sync 0.0° ~ 359.9° AC-Sync 1. Use the scroll wheel followed by Steps the Enter key to make the Syn Phs parameter selectable. 2. Set the Syn Phs setting with the scroll wheel or with the F3 (MAX) and F4 (MIN) soft-keys to set the Sync Phase to the maximum and minimum values, respectively.
Page 104 ASR-6000 Series User Manual The actual waveform - ACV: 100 Vrms, DCV: 100Vdc, Syn Phs: 0 Output On The actual waveform - ACV: 100 Vrms, DCV: 100Vdc, Syn Phs: 0 Steady State The actual waveform - ACV: 100 Vrms, DCV: 100Vdc,...
Page 105 OPERATION The actual waveform - ACV: 100 Vrms, DCV: 100Vdc, Syn Phs: 120 Output On The actual waveform - ACV: 100 Vrms, DCV: 100Vdc, Syn Phs: 120 Steady State The actual waveform - ACV: 100 Vrms, DCV: 100Vdc, Syn Phs: 120 Output Off It is available for AC+DC-Sync and AC-Sync Mode Note...
Page 106: Switch The Display Modes
ASR-6000 Series User Manual Switch the Display Modes The ASR-6000 power supply has three display modes: standard, simple and harmonic modes. The standard display mode shows the power supply setup in the Setting section and the 4 configurable measurements in the Configurable section that corresponds to the left side real-time Measurement section.
Page 107 OPERATION Measurement Setting Standard Mode - section section 3P4W Configurable section Phase degree setting 1. Press the F3(ITEM1), F4(ITEM2), Configuring the F5(ITEM3) or F6(ITEM4) soft-key Standard mode measurements to enter each menu. 2. Use the scroll wheel to select a measurement item and press Enter to confirm.
Page 108 ASR-6000 Series User Manual 1. Press the F4 (RMS/AVG/PEAK) Configuring the soft-key to toggle among each Simple mode measurements mode of format. 2. The display will show parameters of measurement for each format. Refer to the page 113 for details.
Page 109 OPERATION 4. When the measurements are beyond one page, which consists of up to 20 items, press the F5 (Page Up) and F6 (Page Down) soft-keys to flip through pages. Press the soft-key F8 to toggle hold on Hold Measurement or off.
Page 110: Using The Measurement Function
ASR-6000 Series User Manual Using the Measurement Function The 4 configurable measurements, which indicate the live-time measurement in varied units, on the far-right side within the standard display mode can be switched by user anytime in the process of power output, thus providing an instantaneous analysis.
Page 111 OPERATION Vmin Minimum Peak Value of Output Voltage VLL rms Root Mean Square Line to Line Voltage VLL avg Average Line to Line Voltage Maximum Peak Value of Output Line to VLL max Line Voltage Minimum Peak Value of Output Line to VLL min Line Voltage VpkH...
Page 112 ASR-6000 Series User Manual 1. Under the standard display mode, Steps press the F3(ITEM1), F4(ITEM2), F5(ITEM3) or F6(ITEM4) soft-key to enter each menu. 2. Use the scroll wheel to select a measurement item and press Enter to confirm. 3. Press Enter to confirm the measurement item setting.
Page 113: Setting The Phase And Line Voltage
OPERATION Setting the Phase and Line Voltage The phase and line voltage settings are available for either 1P3W and 3P4W output modes, and also the Balance phase mode enabled only. 1. Press the Menu key to enter the Steps MISC section, and select “Balance” for Phase Mode.
Page 114: Select The Each And All Setting Method
ASR-6000 Series User Manual Select the Each and All Setting Method This function is exclusively applicable to the condition when 3P4W output mode, Unbalance setting and DC-INT, AC+DC-Ext, AC- EXT, AC+DC-Add, AC-ADD modes under balance are activated. When “Each” is adopted, user can swiftly configure values of L1, L2 and L3 individually.
Page 115: Switch The Measurement Format
OPERATION Switch the Measurement Format The 3 measuring formats, RMS, AVG as well as PEAK, on the far- right side within the simple display mode can be switched by user anytime in the process of power output, thus offering an instant readout of diversified calculations.
Page 116: Panel Lock
ASR-6000 Series User Manual Panel Lock The panel lock feature prevents settings from being changed accidentally. When activated, all keys and knobs except the Lock/Unlock key and the Output key (if active) will be disabled. If the instrument is remotely controlled via the USB/LAN/RS- 232/GPIN/CAN BUS/DeviceNet interface, the panel lock is automatically enabled.
Page 117: Alarm Clear
OPERATION Alarm Clear The ALM CLR (Alarm Clear) function will clear Background alarms like Over Current, Over Peak Current, Over Power Protect, Output Short, Sensing Voltage Error, among others. Refer to page 250 for more details. 1. Press Shift + 6 to clear any alarms. Steps ALM indicator Example...
Page 118: Turning The Output On/Off
ASR-6000 Series User Manual Turning the Output On/Off Please ensure that the wiring method of the output WARNING terminals on the rear panel matches the phase setting before proceeding with the output execution. See page 45 for details about using the output terminals.
Page 119: Hardcopy
OPERATION Hardcopy Please confirm the detection of the USB disk before Note utilizing this function. If the USB disk is not detected, an error message will be displayed accordingly. 1. Press Shift + 3 to hardcopy the Steps screen. Example Hardcopy message Local Background...
Page 120: Advanced Settings
ASR-6000 Series User Manual Advanced Settings Using the Remote Sense Function → from page 120  Square Wave Signal Duty Ratio Adjustable → from page 121  Preset Settings → from page 122  Edit Arbitrary Waveform → from page 129 ...
Page 121: Remote Sense
OPERATION Remote Sense Remote sense is used to compensate for the voltage Remote Sense drop seen across load cables due to resistance Operation inherent in the load cables. The remote sense function can compensate a maximum of 5% of the output voltage and all of output frequency.
Page 122: Preset Settings
ASR-6000 Series User Manual Preset Settings Save Preset Settings to Local Memory Up to 10 preset settings (M0 – M9) can be saved to the internal memory shared by both output mode and output phase. For example, when saving preset setting to M0 for 3P4W mode, and...
Page 123 OPERATION For example, pressing Preset & holding F1 will Example save the present settings to memory slot 0 (saved to M0).  There are overall 10 groups of memory number Note for preset setting (M0 ~ M9). Only M0 ~ M7 are available in soft-keys, whereas the rest groups M8 ~ M9 can be saved from either the Save/Recall Files utility under Menu system or...
Page 124: Load Preset Settings To Local Memory
ASR-6000 Series User Manual Load Preset Settings to Local Memory Any of the 10 preset settings can be recalled from internal memory. 1. Press Preset followed by Steps clicking on the F1 ~ F8 soft- keys individually to load the corresponding memory number.
Page 125 OPERATION  There are overall 10 groups of memory number Note for preset setting (M0 ~ M9). Only M0 ~ M7 are available in soft-keys, whereas the rest groups M8 ~ M9 can be recalled from either the Save/Recall Files utility under Menu system or press and hold the numerical keypad.
Page 126: Manage Preset Settings
ASR-6000 Series User Manual Manage Preset Settings Preset settings can be easily saved to or recalled from a USB flash drive using the Save/Recall Files utility in the Menu system. Settings can also be deleted (Recalled Default) from local memory using the utility.
Page 127 OPERATION Deleted (Recalled Default) the Delete selected preset memory from local memory. Saves the selected preset Save memory to local memory. Recalls the selected preset Recall memory from local memory. 5. Go to the Memory No. setting and select the preset memory number to perform the operation on.
Page 128 ASR-6000 Series User Manual Saves all the files including MEMUSB Preset, Sequence, Simulate and ARB from the local memory to a USB flash drive. Loads all the files including MEMUSB Preset, Sequence, Simulate and ARB from a USB flash drive to the local memory.
Page 129: Edit Arbitrary Waveform
OPERATION Edit Arbitrary Waveform The arbitrary waveform editing function is to Background select built-in arbitrary waveforms. There are a number of built-in waveform shapes to choose from, each of which can be customized with varied attributes. Finally, choose an ARB NO. (1~16) to output the selected built-in waveform.
Page 130 ASR-6000 Series User Manual The triangle waveform has a settable number of percentage. Attributes: Sym: 0 ~ 100% ARB NO: 1 ~ 16 STAIR The staircase waveform has a settable number of step levels. Attributes: Stairs: 1 ~ 100 ARB NO: 1 ~ 16...
Page 131 OPERATION CLIP Outputs a clipped sinewave. The degree to which the sine wave is clipped is settable. Attributes: Ratio: 0.00 ~ 1.00 ARB NO: 1 ~ 16 CF-1 Crest factor (CF-1) waveform. The crest factor is settable. Attributes: CF: 1.1 ~ 10.0 ARB NO: 1 ~ 16...
Page 132 ASR-6000 Series User Manual CF-2 Crest factor (CF-2) waveform. The crest factor is settable. Attributes: CF: 1.5 ~ 2.0 ARB NO: 1 ~ 16 SURGE The surge waveform has a settable ACV base level, site size and site shape. Attributes: Type: SQU, SIN (site waveform type) ACV: 0 ~ 100% (base waveform ampl.)
Page 133 OPERATION DST01-22 The DST01-22 waveform shape function simply adds a number Fourier series terms to create an arbitrary waveform. Attributes: Type: 1 ~ 22 (Number of selectable ARB waveforms) ARB NO: 1 ~ 16 RIPPLE The RIPPLE waveform shape function has a settable DC ripple attributes.
Page 134 ASR-6000 Series User Manual The DIP waveform refers to a transient reduction in RMS voltage, also known as Voltage Dip or “Drop In Point”. Refer to following for the suggested range. Attributes: ST Phs:0.1~53.9 SP Phs:45.1~171.9 End Phs: 54.1~359.9 ARB NO: 1~16...
Page 135 OPERATION LF-RING The LF-RING waveform shape function is used to simulate a low-frequency and sinusoidal waveform, which is smooth, continuous and resembles a shape of ring. Attributes: ACV: 0.0~350.0Vrms Amp: 140~200% Base_Freq: 50.0~200.0Hz Ring_Freq: 200.0~5000.0Hz Decay: -0.100~0.100 ST Phs: 0.1~120.1 End Phs: 60.1~359.9 Ring Phs: 0.1~359.9 ARB NO: 1~16...
Page 136: Compiling Arbitrary Waveform Input
ASR-6000 Series User Manual Compiling Arbitrary Waveform Input 1. Press Shift + 1 to access the Wave Output Arbitrary menu. Waveform on ASR-6000 Alternatively, it is available to use scroll wheel followed by the Enter key to enter the Wave menu.
Page 137 OPERATION Default Waveform Setting ARB 1 Ramp (rising) ARB 2 Ramp (falling) ARB 3 Sine wave, half-cycle(positive pole)
Page 138 ASR-6000 Series User Manual ARB 4 Sine wave, half-cycle(negative pole) ARB 5 Sine wave, half-wave rectification(positive polarity) ARB 6 Sine wave, half-wave rectification(negative polarity)
Page 139 OPERATION ARB 7 Sine wave, full-wave rectification(positive polarity) ARB 8 Sine wave, full-wave rectification(negative polarity) ARB 9 Second order step response(damping coefficient 0.1)
Page 140 ASR-6000 Series User Manual Second order step response(damping ARB 10 coefficient 0.2) ARB 11 Second order step response(damping coefficient 0.7) ARB 12 Second order impulse response(damping coefficient 0.1)
Page 141 OPERATION ARB 13 Second order impulse response(damping coefficient 0.2) ARB 14 Second order impulse response(damping coefficient 0.7) ARB 15 Exponential (rising)
Page 142 ASR-6000 Series User Manual ARB 16 Exponential (falling) Note Del ARB1~16 restores back to Default for ARB1~16 (page 143~144). Del All Data restores back to Default for all ARB (page 144~145). 3. Press Enter to confirm the waveform setting. Example...
Page 143: Manage Arbitrary Waveform Settings
OPERATION Manage Arbitrary Waveform Settings Arbitrary waveform settings can be easily saved to or from a USB flash drive using the Save/Recall Files utility in the Menu system. Files can also be deleted from local memory using the utility. When files are saved to USB they are saved in File Format the following format: ARBX.ARB, where X is the memory number...
Page 144 ASR-6000 Series User Manual 5. Go to the Memory No. setting and select the sequence memory number to perform the operation on. Press Enter to confirm. 1 ~ 16 (ARB1 ~ ARB16) Memory No. 6. Press EXE[F1] key to perform the Execute File file operation.
Page 145 OPERATION Deletes (Recall Default) all the Delete files including Preset, Sequence, Simulate and ARB from local memory. Example All Data option selected Save all data from Local memory to USB From the previous step 4, execute the “Delete” Single Arbitrary action to restore the selected ARB memory back to Wave Default the default setting.
Page 146: External Keypad Operation
ASR-6000 Series User Manual External Keypad Operation USB Keypad ASR series supports external keypad, via Front panel USB connector, to execute operations including setting and output. Refer to the table below for functions of each key from external keypad. Function Scale -->...
Page 147: Output Impedance Setting
OPERATION Output Impedance Setting This function makes sure that high impedance is Background set for ASR-6000 when output is ON. Also, it is to make output voltage nearly zero volt when output is OFF. In addition, it offers the specific test for battery or relevant devices in order to avoid minor current flow back to ASR-6000, that is to say, no discharge from battery to ASR-6000.
Page 148 ASR-6000 Series User Manual Example L1 Output Inductance setting Note This function supports the application of single unit only. As the figure below shown, it is Not available for application of connection with external parallel units. If there is any fluctuation in the output voltage...
Page 149: External Parallel Operation
External Parallel Operation This function is to provide larger rated power Background supply by which up to six ASR-6000 series units, which consist of both units of Master and Slave, are connected in parallel. See the following illustration for an example of 1 Master &...
Page 150  It is available to connect in parallel on your own, or purchase ASR-6000 units in parallel connection by default from GW INSTEK. Refer to page 266 for details of the models in parallel connection.  The V Response will be configured in Medium forcibly under the condition of parallel output.
Page 151: External Control
EXTERNAL CONTROL XTERNAL CONTROL The rear panel has a connector that include signal input and output. This connector is used for external control from the menu of this product by using the external signal that includes amplified external voltage, amplified external signal, synchronization frequency and voltage and current monitor output.
Page 152: External I/O Connector
ASR-6000 Series User Manual External I/O Connector The External I/O Connector is primarily used to Overview control ASR-6000 externally by using the logic signal. More than that, it is able to monitor Sequence function status, voltage and current output level remotely with ease. In addition, the...
Page 153: External Signal Input Function
EXTERNAL CONTROL Input Sequence hold Falling edge detection Input Sequence branch 1 Falling edge detection Input Sequence branch 2 Falling edge detection GND_D Digital ground Output 50mA or less Input External signal input 1 Input External signal input 2 Input External signal input 3 Output Monitor output 1...
Page 154: Ext Gain - Ac+Dc-Ext And Ac-Ext Mode
ASR-6000 Series User Manual EXT GAIN - AC+DC-EXT and AC-EXT mode Select AC+DC-EXT or AC-EXT mode to use Overview ASR-6000 as an amplifier specifically for signal input from the external signal input port on the rear panel. The impedance of input is 1MΩ, whilst the frequency range of input is from DC to 2000 Hz.
Page 155: Ext Add - Ac+Dc-Add And Ac-Add Mode
EXTERNAL CONTROL EXT ADD - AC+DC-ADD and AC-ADD mode Select AC+DC-ADD or AC-ADD mode to add Overview & the external signal source signal that includes Concept magnification to the internal signal then power output on the rear panel. The impedance of input is 1MΩ, whilst the frequency range of input is from DC to 2000 Hz.
Page 156 ASR-6000 Series User Manual  The limit frequency range of synchronous TTL Note signal is 15Hz ~ 2kHz. If TTL signal is greater than 2kHz, output will be disabled automatically.  L1, L2 and L3 outputs correspond to the external signal input 1, 2 and 3 respectively.
Page 157: Ext Voltage - Ac-Vca Mode
EXTERNAL CONTROL EXT Voltage - AC-VCA mode Select AC-VCA mode to use ASR-6000 as an Overview amplifier specifically for DC input from the external signal input port on the rear panel. The input voltage range of input is from DC -2.5V to +2.5V.
Page 158: Voltage And Current Monitor Output
ASR-6000 Series User Manual Voltage and Current Monitor Output Utilize the function of Monitor Output with Overview External I/O pins 23 and 24 in conjunction with the Monitor Output Amp function found under MENU->MISC to empower user to arbitrarily select phase, voltage, current and amplitude of monitor output.
Page 159: Miscellaneous
MISCELLANEOUS ISCELLANEOUS The Miscellaneous menu contains miscellaneous parameter settings. T peak, hold ............160 Phase Mode ............162 Peak CLR ............. 164 Power ON ............166 Buzzer ..............168 Remote Sense ............169 V Response............171 Output Relay ............172 THD Format ............
Page 160: T Peak, Hold
ASR-6000 Series User Manual T peak, hold The T peak, hold function sets the hold time for the peak voltage and current measurement. After the output is turned on, the ASR- 6000 will delay starting the peak measurement by this hold time.
Page 161 MISCELLANEOUS 4. Press Exit[F8] to exit from the Exit MISC Configuration settings. Example T Peak, Hold setting...
Page 162: Phase Mode
ASR-6000 Series User Manual Phase Mode The Phase Mode function allows user to select either Unbalance or Balance setting. When the Balance setting is selected under the 1P3W output, each phase degree is fixed 180 , whereas when it’s in Balance setting under the 3P4W output, each phase degree is fixed 120 .
Page 163 MISCELLANEOUS Example Phase Mode setting L1 - L2 phase degree setting of Unbalance mode for 3P4W output L1 -> L2 Phase degree setting L1 – L3 phase degree setting of Unbalance mode for 3P4W output L1 -> L3 Phase degree setting...
Page 164: Peak Clr
ASR-6000 Series User Manual Peak CLR The peak measured during output process can be easily cleared out via this function. It is applicable for user to restart measuring the peak value when necessity emerges. 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 165 MISCELLANEOUS Although the hold peak current will be zeroing at once Note right after the execution of Peak CLR action, the zeroing value, however, will be soon updated when new measurement greater than 0 occurs during output process.
Page 166: Power On
ASR-6000 Series User Manual Power ON The Power ON setting allows you to have the power-on output or other operation functions on automatically after startup. The settings that are loaded are the last settings that were present in the standard mode before the unit was turned off last.
Page 167 MISCELLANEOUS Example Power ON setting...
Page 168: Buzzer
ASR-6000 Series User Manual Buzzer The Buzzer setting turns the buzzer sound on or off for key presses. 1. Press the Menu key. The Menu Steps setting will appear on the display. 2. Use the scroll wheel to go to item 2, MISC Configuration and press Enter.
Page 169: Remote Sense
MISCELLANEOUS Remote Sense The remote sense function detects the output voltage at the sensing input terminal. This function compensates for voltage drops across the load cables when the load is connected to the ASR-6000 over a long distance. The remote sense function can compensate a Note maximum of 5% of the output voltage.
Page 170 ASR-6000 Series User Manual Remote sense function is available as follows: Note 1. Only (AC-INT/AC-SYNC and Sinewave ) or DC-INT 2. Output Impedance is Truned off 3. When the Output is ON, it will forcibly turn OFF the Output and delay for 100 ms before switching the setting.
Page 171: Response
MISCELLANEOUS V Response The voltage response, which is described as the fluctuating change of voltage rising time when output on moment, can be customized by user in the 3 speeds containing Fast, Medium(default) and Slow elaborated below for ASR-6000 models. 1.
Page 172: Output Relay
ASR-6000 Series User Manual Output Relay The internally built-in output relay function has close relation with the power output function by default. That is to say, when output is on, the output relay will be activated if output relay is enabled; by contrast, the output relay will be deactivated when output is off.
Page 173: Thd Format
MISCELLANEOUS THD Format Choose one of the THD (Total Harmonic Distortion) equations. The equations of 2 varied modes (IEC by default) of Harmonic Format below are for, specifically, by the time the upper limit of measured harmonic order is 100. 1.
Page 174 ASR-6000 Series User Manual  F : Fundamental (1st harmonic) Parameter component  F : Fundamental or harmonic component  O: Measured harmonic order  N: Always 100 4. Press Exit[F8] to exit from the Exit MISC Configuration settings. Example...
Page 175: External Control
MISCELLANEOUS External Control User can enable or disable the External Control I/O input. When External Control I/O input is set as disabled, the ASR-6000 series status will remain output. 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 176: Unit
ASR-6000 Series User Manual V Unit User can freely select voltage set value unit as either RMS or PEAK only when output waveform is selected TRI or ARB. 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 177: Set Change Phase
MISCELLANEOUS Set Change Phase This function allows users to choose to output at a fixed angle or a random angle when the configuration setting change is executed.  The settings contain Voltage, Gain, Waveform, Output Phase, Frequency and Duty. Note ...
Page 178: Monitor Output 1 And 2
ASR-6000 Series User Manual Monitor Output 1 and 2 This function, which is paired with External Control I/O pin, is specifically for 2 monitor output. User can customize own phase, voltage and current for monitor output. 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 179 MISCELLANEOUS Example – Monitor Output 1 Monitor Output 1 setting Example – Monitor Output 2 Monitor Output 2 setting...
Page 180: Monitor Output Amplitude
ASR-6000 Series User Manual Monitor Output Amplitude This function, which is paired with External Control I/O pin, provides either ±2.5V or ±10V voltage amplitude for selection to correspond to L1/L2/L3 voltage or current output ratio. In terms of conversion ratio of different models, please refer to the chapter Voltage and Current Monitor Output on page 158.
Page 181: Trigger Out Width
MISCELLANEOUS Trigger Out Width This function, which is paired with External Control I/O pin and Trigger Out Source, generates a TTL pulse signal output synchronously with output waveform.  When the set time of Pulse Width is greater than a period time of output frequency, output Pulse Note maintains High Level.
Page 182 ASR-6000 Series User Manual Example Trigger Out Width setting The actual waveform – AC-INT Mode, Frequency 900 Hz, TrgOut Width 0.1 ms The actual waveform – AC-INT Mode, Frequency 900 Hz, TrgOut Width 1 ms...
Page 183 MISCELLANEOUS The actual waveform – AC-INT Mode, Frequency 900 Hz, TrgOut Width 1.1 ms...
Page 184: Trigger Out Source
ASR-6000 Series User Manual Trigger Out Source This function, which is paired with Trigger Out Width, allows user to select which output phase for synchronous output by Trigger out. 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 185 MISCELLANEOUS Actual Waveform When user selects the 3P4W output mode and the Trigger output width is set to 2.5ms and L1, the Actual Waveform will be as the following diagram.
Page 186: Re-Lock
ASR-6000 Series User Manual Re-lock This function is used to lock the phase degree again since the output voltage and frequency are set separately in either the 1P3W or the 3P4W output mode. For example, when re-lock is disabled, the output phase difference does not return to the default setting.
Page 187 MISCELLANEOUS Re-lock Disable illustration Re-lock Enable illustration...
Page 188: Data Average Count
ASR-6000 Series User Manual Data Average Count This function allows user to designate an exact count number to average the measured data. It is particularly practical for large changes in load or power of low input signal frequency. 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 189: Data Update Rate
MISCELLANEOUS Data Update Rate This function allows user to define update rate (time period) for the measured data. Take the 5s for example, the measured data updates in an interval of every 5 second. 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 190: Test Mode Function
ASR-6000 Series User Manual EST MODE FUNCTION There are two test modes, Sequence Mode and Simulate Mode respectively, available for user to execute. Refer to the following chapters for details in necessity. Sequence Mode ........... 191 Sequence Mode Overview ............191 Sequence Settings ................
Page 191: Sequence Mode
TEST MODE FUNCTION Sequence Mode Sequence Mode Overview The Sequence function works with DC-INT, AC- Background INT and AC+DC-INT modes with full AC waveforms containing sine, square, triangle as well as arbitrary. The available parameters, which will be introduced in later sectors, vary depending on selected output modes.
Page 192 ASR-6000 Series User Manual Step 0 is assigned as a “Standby” step. At the end of the test the unit will shift to the standby Note step. Voltage range settings follow up main page set up, there are two ranges HI and LO, which result in varied ranges of ACV and DCV values, respectively.
Page 193 TEST MODE FUNCTION Jump To The Jump To setting determines which step to jump to at the end of the step. If Jump To is turned off, the unit will follow the Term (Step termination) setting for the step. Jump Cnt Determines the number of times to loop the jump step.
Page 194 ASR-6000 Series User Manual Sets the AC voltage level. There are 3 secondary voltage settings that determine how the voltage is output. CT: Sets the voltage level of the step immediately to ACV values. KP: Sets the voltage level to “keep”...
Page 195 TEST MODE FUNCTION Wave Sets the outputting waveform of the step. Up to 4 waves including sine, square, triangle and arbitrary (1-16) wave shapes are available. ON/OFF Phs Sets the start and stop phase of the AC waveform for each step. The ON Phs setting sets the starting phase the step for the...
Page 196 ASR-6000 Series User Manual Output No Sweep Sweepable Step 0 Push Step 1 Jump To Jump to StepX Jump To Cnt > 0 Cnt = 0 Jump Cnt Push Branch 1 Go to StepX BRN1 Push Branch 2 Go to StepX...
Page 197: Sequence Settings
TEST MODE FUNCTION Sequence Settings 1. Press Test key. Entering the Sequence Menu Alternatively, it is available to navigate, with scroll wheel, to the TEST SEQ… option followed by pressing the Enter key to enter the SEQUENCE menu. 2. Press Seq/Sim[F1] key to toggle to the SEQUENCE Mode.
Page 198 ASR-6000 Series User Manual 0.00 ~ 175.00 (Range 100V) 0.00 ~ 350.00 (Range 200V) Secondary CT (Constant), KP (Keep), SP settings (Sweep) Note: Step 0 can only be set to either CT or SP. 7. Go to the DCV setting and set the output voltage for the step.
Page 199 TEST MODE FUNCTION Fset 1.00~2000.0 (AC+DC-INT mode) 15.00~2000.0 (AC-INT mode) Secondary CT (Constant), KP (Keep), SP settings (Sweep) Note: Step 0 can only be set to either CT or SP. 9. Go to the Wave setting and choose which waveform to output. Wave SIN, SQU, TRI, ARB1 - 16 10.
Page 200 ASR-6000 Series User Manual Sync Code LL, LH, HL, HH 15. Go to the ON Phs setting and set the starting phase of the step. The Fixed indicates user- defined degree. ON Phase Free, Fixed ON Phase 0.0 ~ 359.9º...
Page 201 TEST MODE FUNCTION Example of Using Const Hold +150V Sequence +100V Function Sweep Sweep +50V Keep Step0 Step0 Step1 Step2 Step3 Output On STOP The example above shows how to generate a test procedure in DC-INT mode by each step. Step No.
Page 202: Save A Sequence To Local Memory
ASR-6000 Series User Manual Save a Sequence to Local Memory Sequence settings can be saved to one of 10 Saving a memory slots (SEQ0 ~ SEQ9). Sequence 1. Press Save[F3] key firstly. Steps 2. A list of memory slots prompts where it is available to use scroll wheel followed by pressing Enter to execute save action.
Page 203: Manage Sequence Settings
TEST MODE FUNCTION Manage Sequence Settings Sequence settings can be easily saved to or from a USB flash drive using the Save/Recall Files utility in the Menu system. Files can also be deleted from local memory using the utility. When files are saved to USB they are saved in File Format the following format: SEQX.SEQ, where X is the memory number...
Page 204 ASR-6000 Series User Manual Deletes (Recall Default) the Delete selected sequence memory from local memory. 5. Go to the Memory No. setting and select the sequence memory number to perform the operation on. Press Enter to confirm. 0 ~ 9 (SEQ0 ~ SEQ9) Memory No.
Page 205 TEST MODE FUNCTION Loads all the files including MEMUSB Preset, Sequence, Simulate and ARB from a USB flash drive to the local memory. Deletes (Recall Default) all the Delete files including Preset, Sequence, Simulate and ARB from local memory. Example All Data option selected Save all data from Local memory to USB...
Page 206 ASR-6000 Series User Manual SEQ7 Reset test for Level1 systems with 12V SEQ8 Starting Profile SEQ9 Test2 Tr: 10ms, Td: 40ms...
Page 207: Running A Sequence
TEST MODE FUNCTION Running a Sequence When running a sequence, the display changes Background to the sequence run view. Settings Step X of Y Run Screen Branch 1 Overview Branch 2 HOLD/CONTI test STOP/RUN test Readback measurements 1. Press Output. Steps Output 2.
Page 208 ASR-6000 Series User Manual 2). Alternatively the :TRIG:SEQ:SEL:EXEC command can also be used evoke a conditional branch. 5. To pause the test mid-way, press HOLD[F3] key. Hold Test 6. To continue a paused test, press CONTI[F3] key. Continue Test...
Page 209: Simulate Mode
TEST MODE FUNCTION Simulate Mode Simulate Mode Overview The Simulate function, which works in AC+DC- Background INT mode only, is used to test power supply fluctuation. This function is able to simulate common abnormalities in mains power such as fluctuations in voltage, phase and frequency. These simulations can be run as one-off anomalies or cyclic anomalies.
Page 210 ASR-6000 Series User Manual Initial The Initial step is used as the initial and final settings of the waveform simulation. This is the standby step before the test starts and the standby step after the test ends. Normal1 This step configures the normal output conditions that precede the abnormal conditions.
Page 211 TEST MODE FUNCTION ✓ ✓ ✓ Fset ✓ ✓ ✓ Wave ✓ ✓ ✓ ON Phs ✓ ✓ ✓ ✓ OFF Phs ✓ ✓ ✓ ✓ Time Sets the duration time of the step. When the ON Phs=ON, the total duration of the step is equal to the Time setting + ON Phs=ON duration.
Page 212: Simulate Settings
ASR-6000 Series User Manual The following diagram illustrates the relationship between each of the parameters in a step. ON Phs OFF Phs additional time additional time Time ON Phs Vset OFF Phs Fset Trigger out Output off position After entering the SIM Mode, It will forcibly set Note Remote Sense OFF.
Page 213 TEST MODE FUNCTION 5. Go to the Time setting and set the duration of the step. Time 0.0001 ~ 9999.9999s (Normal1, Normal2 and Abnormal) 0.0000 ~ 9999.9999s (Trans1 and Trans2) Note: For Trans1 and Trans2, it supports a value of 0, which will skip the step.
Page 214 ASR-6000 Series User Manual 9. Go to the Fset setting set the frequency of step. If you input a frequency value that is not within the range, the warning message below will be shown. Not applicable for Trans1, Trans2 and Normal2.
Page 215: Save A Simulation To Local Memory
TEST MODE FUNCTION Save a Simulation to Local Memory Simulation settings can be saved to one of 10 Saving a memory slots (SIM0 ~ SIM9). Simulation 1. Press Save[F3] key firstly. Steps 2. A list of memory slots prompts where it is available to use scroll wheel followed by pressing Enter to execute save action.
Page 216: Manage Simulation Settings
ASR-6000 Series User Manual Manage Simulation Settings Simulation settings can be easily saved to or from a USB flash drive using the Save/Recall Files utility in the Menu system. Files can also be deleted from local memory using the utility.
Page 217 TEST MODE FUNCTION Deletes (Recall Default) the Delete selected simulation memory from local memory. 5. Go to the Memory No. setting and select the simulation memory number to perform the operation on. Press Enter to confirm. 0 ~ 9 (SIM0 ~ SIM9) Memory No.
Page 218 ASR-6000 Series User Manual Loads all the files including MEMUSB Preset, Sequence, Simulate and ARB from a USB flash drive to the local memory. Deletes (Recall Default) all the Delete files including Preset, Sequence, Simulate and ARB from local memory.
Page 219: Running A Simulation
TEST MODE FUNCTION Running a Simulation When running a simulation, the display changes to Background the simulate run view. Settings Run Screen Step X of Y Overview HOLD/CONTI test STOP/RUN test Readback measurements 1. Press Output key. Steps Output 2. Press Run[F4] key. The test will start to run. The settings of current step will be shown at the top of the screen and the measurement readout will be shown on the bottom of the screen.
Page 220 ASR-6000 Series User Manual 3. The test will continue to run until the last repeat step has run, or Stop[F4] key is pressed or the output is turned off*. When the test has finished/stopped, the screen will return to the original settings screen.
Page 221: Communication Interface
OMMUNICATION INTERFACE This chapter describes basic configuration of IEEE488.2 based remote control. For a command list, refer to the programming manual, downloadable from GW Instek website, www.gwinstek.com If the instrument is remotely controlled via the Note USB/LAN/RS232/GPIB/DeviceNet/CAN BUS interface, the panel lock is automatically enabled.
Page 222: Interface Configuration
ASR-6000 Series User Manual Interface Configuration Ethernet Remote Interface The Ethernet interface can be configured for a number of different applications. Ethernet can be configured for basic remote control or monitoring using a web server or it can be configured as a socket server.
Page 223: Usb Remote Interface
COMMUNICATION INTERFACE 6. If DHCP was set to OFF, configure the remaining LAN parameters. IP Address Subnet Mask Gateway Socket Port (Fixed to 5025) LAN configuration 7. Press Exit[F8] to exit from the LAN Exit settings. USB Remote Interface PC side connector Type A, host Configuration Rear panel Type B, device ASR-6000 side...
Page 224: Usb Remote Control Function Check
ASR-6000 Series User Manual 2. Press the Menu key. The Menu setting will appear on the display. 3. Use the scroll wheel to go to item 4, USB Device. 4. If the connection is successful Connection Status will change from Offline to Online.
Page 225: Rs-232 Remote Interface
Manufacturer: GW-INSTEK Model number : ASR-6XXX Serial number : GXXXXXXXX Software version : XX.XX For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com. RS-232 Remote Interface BD-9, male RS-232 Connector Configuration...
Page 226 ASR-6000 Series User Manual 1. Connect the RS-232C cable from Steps the PC to the rear panel RS-232 port. 2. Press the Menu key. The Menu setting will appear on the display. 3. Use the scroll wheel to go to item 5, RS232C and press Enter.
Page 227: Rs232 Remote Control Function Check
Serial number, and Software version in the following format. GW-INSTEK, ASR-6XXX, GXXXXXXXX, XX.XX Manufacturer: GW-INSTEK Model number : ASR-6XXX Serial number : GXXXXXXXX Software version : XX.XX For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com.
Page 228: Using Realterm To Establish A Remote Connection
ASR-6000 Series User Manual Using Realterm to Establish a Remote Connection Realterm is a terminal program that can be used Background to communicate with a device attached to the serial port of a PC or via an emulated serial port via USB.
Page 229 COMMUNICATION INTERFACE settings can be viewed by right-clicking the connected device and selecting the Properties option. 5. Start Realterm on the PC as an administrator. Click: Start menu>All Programs>RealTerm>realterm Tip: to run as an administrator, you can right click the Realterm icon in the Windows Start menu and select the Run as Administrator option.
Page 230 ASR-6000 Series User Manual For USB, the baud rate should be fixed to 115,200. Note 7. Click on the Send tab. In the EOL configuration, check on the +LF check boxes. Enter the query: *idn? Click on Send ASCII.
Page 231: Gpib Remote Interface (Optional)
COMMUNICATION INTERFACE 8. The terminal display will return the following: GW-INSTEK, ASR-6XXX, GXXXXXXXX, XX.XX (manufacturer, model, serial number, software version) 9. If Realterm fails to connect to the ASR-6000, please check all the cables and settings and try again. GPIB Remote Interface (Optional) 1.
Page 232: Gpib Function Check
See the National Instrument website, http://www.ni.com for details.  For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com  Operating System: Windows XP, 7, 8, 10 1. Start the NI Measurement and...
Page 233 COMMUNICATION INTERFACE Start>All Programs>NI MAX 2. From the Configuration panel access; My System>Devices and Interfaces>GPIB0 3. Press the Scan for Instruments button. 4. In the Connected Instruments panel the ASR-6000 should be detected as Instrument 0 with the address the same as that configured on the ASR-6000.
Page 234 ASR-6000 Series User Manual 6. Click on Communicate with Instrument. 7. Under the Communicator tab, ensure *IDN? is written in the Send String text box. 8. Click on the Query button to send the *IDN? query to the instrument. 9. The instrument identification string will be returned to the buffer area: GW-INSTEK, ASR-6XXX, GXXXXXXXX, XX.XX...
Page 235: Devicenet Remote Interface (Optional)
COMMUNICATION INTERFACE DeviceNet Remote Interface (Optional) Block terminal, 5 pins, male DeviceNet Connector Configuration Baudrate, MAC ID. Parameters 1 2 3 4 5 1, 3: GND Pin Assignment 2: CAN-L 4: CAN-H 5: 24V 1. Press the Menu key. The Menu Steps setting will appear on the display.
Page 236: Can Bus Remote Interface (Optional)
ASR-6000 Series User Manual CAN BUS Remote Interface (Optional) BD-9, male CAN BUS Connector Configuration Protocol, Baudrate, Node ID Parameters 1 2 3 4 5 2: CAN-L Pin Assignment 3, 5: GND 7: CAN-H 6 789 1, 4, 6, 8, 9: No connection 1.
Page 237: Web Server Remote Control Function Check
COMMUNICATION INTERFACE Web Server Remote Control Function Check Enter the IP address of the power supply (for Functionality example: http:// XXX.XXX.XXX.XXX) in a web Check browser after the instrument has been configured for LAN (page 222). The web interface allows you to: ...
Page 238: Socket Server Function Check
ASR-6000 Series User Manual Socket Server Function Check To test the socket server functionality, National Background Instruments Measurement and Automation Explorer can be used. This program is available on the NI website, www.ni.com., via a search for the VISA Run-time Engine page, or “downloads”...
Page 239 COMMUNICATION INTERFACE 4. Select Manual Entry of Raw Socket from the popup window. 5. Enter the IP address and the port number of the ASR-6000. The port number is fixed at 5025. 6. Double click the Validate button and press Next.
Page 240 ASR-6000 Series User Manual 5025 5025 7. Next configure the Alias (name) of the ASR- 6000 connection. In this example the Alias is: 8. Click finish. 9. The IP address of the power supply will now appear under Network Devices in the configuration panel.
Page 241 COMMUNICATION INTERFACE 11. Click the Configuration Icon. Under the IO Settings tab check Enable Termination Character. The termination character should be set as Line Feed -\n. 12. Click the Input/Output icon. Under the Basic I/O tab, make sure *IDN?\n is entered in the Select or Enter Command drop box.
Page 242 ASR-6000 Series User Manual For further details, please see the programming Note manual, available on the GW Instek web site @ www.gwinstek.com.
Page 243: Faq
• The accuracy does not match the specification. • How frequently should the power source be calibrated? The accuracy does not match the specification. Make sure the device is powered On for at least 30 minutes, within +18°C~+28°C. This is necessary to stabilize the unit to match the specification.
Page 244: Appendix
Firmware Update The ASR series firmware can be upgraded using Background the USB A port on the front panel. See your local distributor or the GW Instek website for the latest firmware information.  Ensure the DUT is not connected. Note ...
Page 245 APPENDIX 4. Key in the password when prompted and then press Enter. The password is “5004”. 5. Go to Item 1, Update Firmware and press Enter. Update Firmware Exit [F4] 6. Wait for the unit to update. Upon completion the unit will automatically reboot.
Page 246: Factory Default Settings
ASR-6000 Series User Manual Factory Default Settings The following default settings are the factory configuration settings for the ASR-6000 series. For details on how to return to the factory default settings, see page 65. Continuous Mode ASR-6450 ASR-6600 3P4W 1P2W...
Page 247 APPENDIX MISC Configuration ASR-6450 ASR-6600 T peak , hold(msec) Phase Mode Unbalance Unbalance Peak CLR Power ON Buzzer Remote Sense V Response Medium Medium Output Relay Enable Enable THD Format External Control V Unit(TRI,ARB) Set Change Phase Monitor Output1 L1 Voltage L1 Voltage Monitor Output2 L1 Current...
Page 248 ASR-6000 Series User Manual RS232C ASR-6450 ASR-6600 Baudrate 9600 9600 Databits 8bits 8bits Parity None None Stopbits 1bit 1bit GPIB ASR-6450 ASR-6600 Address CAN BUS ASR-6450 ASR-6600 Baudrate 125K 125K Node ID DeviceNet ASR-6450 ASR-6600 Baudrate 125K 125K MAC ID...
Page 249 APPENDIX Sequence Mode ASR-6450 ASR-6600 Step Time 0.1000 s 0.1000 s Jump To Jump Cnt Branch 1 Branch 2 Term CONTI CONTI Sync Code Item 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 50.0 , 50.0 , 50.0 , 50.0 , 50.0 ,...
Page 250: Error Messages & Messages
ASR-6000 Series User Manual Error Messages & Messages The following error messages or messages may appear on the ASR- 6000 screen display during varied operations. Normal Messages Description Protection type Keys Locked All of keys are locked, except Display Message output key, long push “Lock”...
Page 251 APPENDIX Rear USB Port Rear USB port disconnected Display Message Disconnected From PC from PC Only Reseting... Ready For Recall Factory Display Message Default Only Failed Factory Default Recall Factory Default Failed Display Message Only Error Password Input Error Password Display Message Only USB Memory...
Page 252 ASR-6000 Series User Manual Preset M# Deleted Preset M0~M9 Deleted Display Message Only ARB# Deleted ARB1~ARB16 Deleted Display Message Only Save All Data Ready to save all data Display Message (Preset0~9 + SEQ0~9 + SIM0~9 Only + ARB1~16) All Data Saved Success...
Page 253 APPENDIX Saved To ARB#,V-Limit Saved to ARB1 ~ ARB16,V-Limit Display Message Invalid Invalid Only Saved To ARB#,V-Limit & Saved to ARB1 ~ ARB16,V-Limit Display Message Freq Invalid and Freq Invalid Only Saved To ARB Fail Failed to save ARB file, please Display Message check whether the file is correct Only...
Page 254 ASR-6000 Series User Manual Save Fail! SEQ0 ~ SEQ9 or SIM0 ~ SIM9 Display Message save fail! Only Sequence preparation... Sequence preparation, please Display Message wait some time Only Sequence is ready. Sequence is ready. Display Message Only Simulation preparation... Simulation preparation, please...
Page 255: Specifications
APPENDIX Specifications The specifications apply when the ASR-6000 is powered on for at least 30 minutes. Electrical specifications Model ASR-6450 ASR-6600 Input ratings Single-phase Power type Three-phase, Delta or Y connection selectable Voltage range 200 Vac to 240 Vac ±10 % phase voltage (Delta: L-L, Y: L-N) Frequency range 47 Hz to 63 Hz Power factor...
Page 256 ASR-6000 Series User Manual Setting Setting Resolution: Resolution: 0.01 V / 0.1 0.01 V / 0.1 V 1P3W: 0.00 1P3W: 0.00 Vpp to 1000 Vpp to 1000 Vpp / 0.00 Vpp / 0.00 Vpp to 2000 Vpp to 2000 3P4W: 0.00 3P4W: 0.00...
Page 257 APPENDIX Model ASR-6450 ASR-6600 DC output (only single phase output) Output capacity 4.5 kW 6 kW Mode Floating output, the N terminal can be grounded Setting -250.0 V to +250.0 V / -500.0 V to +500.0 V, Setting Range Resolution: 0.01 V / 0.1 V Voltage Accuracy ±(|0.3 % of set| + 0.3 V / 0.6 V)
Page 258 ASR-6000 Series User Manual maximum current, and the operating temperature range. 11) L1, L2 and L3 phase can be set unbalanced at unbalance mode in the polyphase output. 12) Can be set only with unbalance mode in polyphase output. 13) For an output voltage of 50V or higher, sine wave, same load and voltage condition for all phase.
Page 259 APPENDIX DC: ±(|2 % of rdg| + ±(|2 % of rdg| + 0.5 1 A / 0.5 A) A / 0.25 A)
Page 260 ASR-6000 Series User Manual Active Resolution 0.1 W /1 W Accuracy ±(1 % of rdg + 3 W) ±(1 % of rdg + 1 W) Resolution 0.1 VA / 1 VA Apparent ±(2 % of rdg + 6 ±(2 % of rdg + 2...
Page 261 APPENDIX Model ASR-6450 ASR-6600 Others UVP, OVP, OCP, OTP, OPP, Fan Fail, Peak and RMS Current Protections Limit Parallel function Up to 3 units Display TFT-LCD, 7 inch Memory function Store and recall settings, Basic settings: 10 Number of 16 (nonvolatile) memories Arbitrary Waveform...
Page 262 ASR-6000 Series User Manual General Specifications Model ASR-6450 ASR-6600 Type A: Host, Type B: Slave, Speed: 1.1/2.0, USB-CDC / USB-TMC MAC Address, DNS IP Address, User Password, Gateway IP Address, Instrument IP Standard Address, Subnet Mask External Signal Input External...
Page 263 APPENDIX Altitude Up to 2000 m 430(W)×176(H)×590(D) (not including Dimensions (mm) protrusions) Weight Approx. 40 kg  A value with the accuracy is the guaranteed value of the specification. However, an accuracy noted as reference value shows the supplemental data for reference when the product is used, and is not under the guarantee.
Page 264 ASR-6000 Series User Manual External Synchronous Signal or Line (AC+DC-SYNC, AC- SYNC Mode) Specification Factory Default Synchronization signal External synchronization source signal (EXT) or LINE Power input (LINE) Synchronization 15 Hz to 2 kHz frequency range Input terminal 25 Pins D-SUB Connector (rear panel, female, M2.8 screw) Input impedance 1 MΩ...
Page 265 APPENDIX Voltage and Current Monitor Output Model ASR-6450 Phase mode 3P4W 1P2W R100/R200 Range R100 R200 R100 R200 H/L Level Voltage(V/V) 4/125 1/125 4/250 1/250 4/125 1/125 4/250 1/250 2/(1 1/(3 4/(1 1/(1 2/(5* 1/(1 4/(5* 1/(5* Current(V/A) 5*N) 0*N) 5*N) 5*N) 0*N)
Page 266: Information Of Name Order
ASR-6000 Series User Manual Information of Name Order The name order of ASR-6000 series has its rules in definition for each character by order. Refer to the following contents for details. The definitions below describe the meanings behind Background each group of alphanumeric characters, in varied colors, of naming code for ASR series models.
Page 267: Asr-6000 Dimensions
APPENDIX ASR-6000 Dimensions ASR-6450/6600 Scale = mm...
Page 268: Declaration Of Conformity
ASR-6000 Series User Manual Declaration of Conformity GOOD WILL INSTRUMENT CO., LTD. declare that the below mentioned product satisfies all the technical relations application to the product within the scope of council: Directive: EMC; LVD; WEEE; RoHS The product is in conformity with the following standards or other normative documents: ◎...
Page 269: Maintenance & Regular Inspection
APPENDIX Maintenance & Regular Inspection The potential malfunctions and faults may occur Background on ASR-6000 due to scores of reasons like humidity, temperature, dust, vibration as well as aging and wear of components. Consequently, to conduct regular maintenance and inspection on ASR-6000 is highly suggested on daily basis.
Page 270 ASR-6000 Series User Manual Vibration Check if the equipment is operating stably and free from any vibration. Heating & From the wind hole check if Cooling the fan runs adequately and Equipment make sure both wind speed and wind volume are in normal status.
Page 271: Index
INDEX NDEX Accessories ......... 15 Frequency output ....... 92 Advanced settings Front panel diagram ....17 Buzzer .......... 167 Ground Power output ......165 symbol ..........5 Program timer unit ..... 168 I rms ..........96 SCPI emulation170, 171, 172, 174, 175 Ipk-Limit .......
Page 272 ASR-6000 Series User Manual RS-232 ........222, 225 Test USB ........222, 225 Sequence Save preset to local memory .. 120 Overview ........189 Recall..........200 Save preset to USB ....124 Run ..........205 Save sequence to USB ..142, 201 Save ..........

This manual is also suitable for:

Asr-6450 Asr-6600

GW Instek ASR-6000 Series User Manual

Table of Contents

Etting Started

Peration

Xternal Control

Iscellaneous

Est Mode Function

Ommunication

Quick Links

Chapters

Need help?

Questions and answers

Subscribe to Our Youtube Channel

Related Manuals for GW Instek ASR-6000 Series

Summary of Contents for GW Instek ASR-6000 Series

This manual is also suitable for:

Table of Contents