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TAKASAGO HX-S-G4 Series Instruction Manual

Constant-current dc power supply
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Constant-Voltage/Constant-Current DC Power Supply
HX-S-G4 series
Instruction Manual
HX-S-030-200G4/HX-S-030-400G4
HX-S-060-100G4/HX-S-060-200G4
HX-S-0500-12G4/HX-S-0500-24G4
HX-S-01000-6G4/HX-S-01000-12G4
www.takasago-ss.co.jp

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Summary of Contents for TAKASAGO HX-S-G4 Series

  • Page 1 Constant-Voltage/Constant-Current DC Power Supply HX-S-G4 series Instruction Manual HX-S-030-200G4/HX-S-030-400G4 HX-S-060-100G4/HX-S-060-200G4 HX-S-0500-12G4/HX-S-0500-24G4 HX-S-01000-6G4/HX-S-01000-12G4 www.takasago-ss.co.jp...
  • Page 2 Table of Contents Sequential Operating Function ..........59 Safety Instructions ............4 Overview .............. 59 For your safety ................5 Display during sequential operation ..... 66 Exporting ................... 5 e.g. 1 Setting of sequential operation ....67 About tthis machine ............6 e.g.
  • Page 3 Table of Contents Voltage ............... 148 Output Specifications ............. 190 Analog Output Monitor............149 Input Specifications ..............190 Output Voltage Monitor ........149 Constant Voltage Characteristics ........191 Output Current Monitor ........149 Constant Current Characteristics ........191 Isolated Analog Output Monitor .......... 150 Measurement and Display .............
  • Page 4 Safety Instructions Safety Instructions This instruction manual uses the various symbols below to indicate areas of caution. Please thoroughly read and understand these symbols and their significance prior to use. The section “For your safety” contains information on items not included with your purchased product. ...
  • Page 5 Please read through this manual to ensure the proper placement and use environment for this product before turning on power. If any problems arise, please unplug the power supply plug from the outlet power immediately and contact Takasago. Two or more persons are required to carry the this equipment. Turn off the input power switch "POWER"...
  • Page 6 The HX-S-G4 Series is the Switching DC Constant Voltage/Constant Current Power Supply capable of changing from zero-volt and zero-ampere. ● The HX-S-G4 series allows the use of both the Constant Voltage and Constant Current modes, along with the ability to be able to freely set the power from zero to full scale. ●...
  • Page 7 About this machine Features  Improved Parallel Operation (New Master/Slave) Up to 10 HX-S-G4 power supplies of the same voltage output type  External Analog Control (maximum capacity 120 kW) can be operated in parallel. Constant voltage transient recovery properties will not degrade, even Able to control ON-OFF output with external contact points, and when increasing the number of parallel units, due to the new master- voltages and currents based on external DC voltage (0~10V) and...
  • Page 8 About this machine Part Names and Functions Front Panel (Comon to all models) ①. VOLTAGE ⑤. LOCK Voltage Setting/Selection Dial LOCK Key Selects the voltage, the OVP, and various other parameters. Locks panel from use. Press the dial to change the settings number place. Lights when Lock has been enabled.
  • Page 9 About this machine Front Panel (Comon to all models) 10 11 12 13 ⑮ . Number Display (Voltage) ⑨.Ventilation Panels Panels which allow cool air to enter and cool the product internally. Displays the output voltage and the output power. When setting functions with the Function key, the item number will be displayed ⑩.DISPLAY Display Key...
  • Page 10 Isolated Control Connector Serial Port/Multi-Channel Connectors This is the Status/Alarm Output Connector. Connectors for when controlling multiple HX-S-G4 Series It is used for external analog control input of isolation type, units or for controlling RS-485 type, serial ports. analog monitor output, and contact input when the isolation Connected with special cable.
  • Page 11 About this machine Rear Panel (Each model individual part) HX030-400 HX060-100 HX030-200 HX060-200 HX0500-12 HX0500-24 HX01000-12 HX01000-6 ! CAUTION A Crimp-Style Terminal must be used. Please be ! sure to tighten all attachment screws. After connecting, attach the output terminal cover Mandatory before use.
  • Page 12 Preparation and Connection Preparation and Connection Unpacking Please check the following accessories are included when unpacking. Please confirm there is no scratches or dents on the power supply and accessories. HX-S-G4 Series Name Number Remarks 1000 1000 Included -200 -400...
  • Page 13 Preparation and Connection Placement To ensure proper and safe use of this product, please observe the following. ! WARNING Do not use in areas exposed to rain and water. Prohibited Do not place in areas in which flammable gases are present. Prohibited Do not insert any metallic pins, wires, screws, etc.
  • Page 14 Preparation and Connection Connecting the Power Supply This product operates on a 342V to 440V and 45Hz to 65Hz three-phase AC power supply. To ensure proper and safe use of this product, please observe the following. ! DANGER ! Verify that the input power supply (power supply AC 342V to 440V) is turned off when wiring input terminals.
  • Page 15 Preparation and Connection Connecting the Input power source Please ground wire using more than the cross-sectional area of the following. ! ・HX030-200,HX060-100,HX0500-12,HX01000-6: 3mm (AWG12)more Mandatory ・HX030-400,HX060-200,HX0500-24,HX01000-12: 8mm (AWG8)more ④ Other wire likewise plug into the ① It peeled the wire as the conductor connector.And secure it by tightening comes out 10 mm.
  • Page 16 Preparation and Connection ⑧ Secure it by tightening the top and bottom two ⑥ Firmly insert the connector that was wired in places screws so that it is not missing is ④ to LINE INPUT connector. inserted connector. (Photo is Fixed under the screws) ⑦...
  • Page 17 Preparation and Connection Connecting Loads Wiring material to the output terminal by attaching a crimp terminals in the figure below specified, please firmly tighten the bolt / screw which is included. 30V/60V Type Output terminal M12 Crimping M12 Bolt cover terminal +...
  • Page 18 Preparation and Connection ! DANGER ! Verify that the main power supply for the power supply is turned off when connecting loads. Mandatory Do not wire loads when voltage is being outputted from the power supply. Prohibited ! CAUTION Use wires with sufficient cross section areas for load currents. !...
  • Page 19 Preparation and Connection Attaching the Output Terminal Cover ■ HX030-200/HX060-100/HX060-200 1.Attach a supporter for attaching cover on one output terminal cover (both covers are identical in shape). *. Insert the supporter for attaching into the center part of the inside of the output terminal cover and fix it in place by screwing an M3x6mm from outside.
  • Page 20 Preparation and Connection 4. Fix the output terminal cover to which the supporter for attaching cover has been attached on the left-side grooves of the output terminal. 5. Fix the other output terminal cover on the right-side grooves of the output terminal. 6.
  • Page 21 Preparation and Connection ■ HX030-400 1. Prepare the output terminal cover by joining the wire bands together using four M3 x 6mm screws. 2. The upper and lower output terminal cover can be checked from the front of the cover. Please refer to the following. 3.
  • Page 22 Preparation and Connection 4. To finish the installation, use the 2 M3 x 6mm screws to fix the top and bottom terminal covers together. M3x6mm Screw...
  • Page 23 Preparation and Connection ■ HX0500-12/HX0500-24/HX01000-6/HX01000-12 1. Attach a supporter for attaching cover on one output terminal cover (both covers are identical in shape). *. Insert the supporter for attaching into the center part of the inside of the output terminal cover and fix it in place by screwing an M3x6mm from outside.
  • Page 24 Preparation and Connection 4. Fasten the output terminal covers with an M3X6mm screw. 5. Attaching the output terminal cover is completed.
  • Page 25 Basic Usage Basic Usage Startup Display Once power is turned on (POWER switch pushed to ON), the output voltage will be displayed in the Number Display (voltage) and the model name and the total output capacity (in kW) will be displayed in the Number Display (current). Number Display (Voltage) : Output Voltage Display Number Display (Current) : Model Display Number Display (Voltage) : Output Voltage Display...
  • Page 26 Basic Usage Default Settings Factory settings and settings after initialization are as follows: 30V/60V Type Settings Item HX030-200 HX030-400 HX060-100 HX060-200 Constant Voltage Set Value 0.00V 0.00V 0.00V 0.00V Constant Current Set Value 210.0A 420.0A 105.0A 210.0A Over Voltage Protection 33.00V 33.00V 66.00V...
  • Page 27 Basic Usage Operating as Constant Voltage Power Supply Please verify that the settings for Over Voltage Protection (OVP) circuit (page 40) and Over Current Protection (OCP) circuit (page 42) are in effect. Turn the POWER switch ON to startup the power supply. MEMO The voltage measurement value will be displayed in the Number When POWER is turned OFF for the top or...
  • Page 28 Basic Usage Press the PRESET key to finalize settings. Confirms PRESET settings and returns to the measurement display mode. Press the OUTPUT key. Outputs with the set settings. The OUTPUT and CV lamps will light. MEMO While the PRESET lamp is lit, all other keys not mentioned in the above setting procedures cannot be used.
  • Page 29 Basic Usage Operating as Constant Current Power Supply Please verify that the settings for Over Voltage Protection (OVP) circuit (page 40) and Over Current Protection (OCP) circuit (page 42) are in effect. MEMO Turn the POWER switch ON to startup the power supply. The voltage measurement value will be displayed in the Number When POWER is turned OFF for the top or Display (voltage) and the current measurement value will be...
  • Page 30 Basic Usage Press the PRESET key to finalize settings. Confirms PRESET settings and returns to the measurement display. Press the OUTPUT key. Outputs with the set settings. The "OUTPUT" and the “CC” lamp will light. MEMO While the " " lamp is lit, all other keys not PRESET mentioned in the above setting procedures cannot be used.
  • Page 31 Basic Usage Remote Sensing Remote sensing is used for solving problems with voltage drop between the output terminal and load due to wiring by compensating for the voltage drop. Remote sensing is able to compensate voltages up to 5V per direction (one- way).
  • Page 32 Basic Usage Function Settings This section covers setting parameters for various functions. Parameters that can be set are the device address, bitrate, parity, Output ON/OFF Toggle at external contact, selection of external analog control, OUTPUT settings when POWER is ON, voltmeter and ammeter display when OUTPUT is OFF, etc. For details, see the FUNCTION Settings Items List.
  • Page 33 Basic Usage Function Settings Items List General Functions Item Settings Item Range and contents of Parameter Default Value Firmware Version Ex: 1.00 (Cannot be changed) 0=CV Priority (High Speed) 2=CV Priority (Low Speed) 1=CV Priority (Medium Speed) 2=CV Priority (Low Speed) 3=CV Slew Rate Startup Mode Selection * This function can be set for full-...
  • Page 34 Basic Usage Settings Items List (Continued) Calibration, Isolated option, Panel Operation Item Settings Item Range and contents of Parameter Default Value Voltage Setting Offset Not displayed Voltage Setting Full-Scale Not displayed Current Setting Offset Not displayed Current Setting Full-Scale Not displayed Voltage Measurement Offset Voltage measured value Voltage Measurement Full-Scale...
  • Page 35 Basic Usage Settings Items List (Continued) Communication Functions, External Control Item Settings Item Range and contents of Parameter Default Value 0=Displays Measurement Values 0=Displays Measurement Voltmeter/Ammeter Display Values when OUTPUT is OFF 1=Displays Set Values 0 = only LOCK key is valid 0 = only LOCK key is valid 1 = only OUTPUT and LOCK keys are valid...
  • Page 36 Basic Usage Settings Items List (Continued) Status Display, Beep Sound Item Range and contents of Settings Item Default Value Parameter Display only Over voltage detected Current status information Over current detected is displayed in Status of Output ON/OFF Toggle with digit hexadecimal.
  • Page 37 Basic Usage Settings Items List (Continued) Sequential Operation Function Item Range and contents of Settings Item Parameter Default Value 0 : Disable Sequential Operating Function Mode 0 : Disable 1 : Enable (Normal) 2 : Enable (Continue) Sequential Operation Number of repetition 1 = 1 time 0-9999 times 0:OUT OFF...
  • Page 38 Basic Usage Settings Items List (Continued) Sequential Operation Function Item Range and contents of Default Settings Item Parameter Value Sequential Operation Step 5 Control Time (0.1 sec.) 0-59.9 sec. 0 second Sequential Operation Step 6 Pre-set CV value 0V- Max. of each model 0.00V Sequential Operation Step 6 Pre-set CC value 0A- Max.
  • Page 39 Basic Usage Setting Output ON/OFF Toggle Mode Output status at power supply is turned on (POWERON) can be changed. If this is set to 1 or 2 and the power supply is turned on (POWERON), output will begin even if the OUTPUT key is not pressed.
  • Page 40 Basic Usage Over Voltage Protection (OVP) n the event of an over voltage due to circuit failure of the power supply, improper use, load opens in constant current mode, etc. the output is turned OFF and switching is ceased to protect the load. The OVP voltage can be set from 1% to 110% of the rated voltage.
  • Page 41 Caution If the error code and OVP are not erased after holding down the ALARM RESET key, the power supply may be damaged. Turn power off immediately and please contact Takasago or your retail store. MEMO ● During serial data communication, recovery from alarm status is possible using commands.
  • Page 42 Basic Usage Over Current Protection (OCP) In the event of an over current due to a short circuit in the load, the output is turned OFF and switching is ceased to protect the load. The OCP current can be set from 1% to 110% of the rated current. Setting/Canceling Over Current Protection Setting Over Current Protection Level .
  • Page 43 CAUTION If the error code and OCP does not erase after holding down the OVP and OCP keys, the power supply may be damaged. Turn power off immediately and please contact Takasago or your retail store. MEMO ● During serial data communication, recovery from alarm status is possible using commands.
  • Page 44 Basic Usage Setting Operation during Alarm Setting can be done about whether input shutoff is done or switching stop (forced output OFF) is done for this machine at various types of alarm occurrence. Setting Procedures Press The Function “FUNC.” key. The FUNC.
  • Page 45 Check slave unit display. malfunctioned. P_ERR E007 May have had a short May be damaged. interruption or voltage Contact Takasago Sales Dept. dip at the main power. BST_NRDY E008 Slave unit's input Check whether slave unit’s power switch is voltage is abnormal.
  • Page 46 Useful Function Useful Function Memory Saves and loads the set values of the voltage, current, and various functions in memories “A”, “B”, and “C”. MEMO Settings Items that can be saved in memory are listed on page 47 “Panel Memory Savable Settings”. Caution If the number of parallel devices (total power) is changed, the saved content of the panel memory is initialized.
  • Page 47 Useful Function [Double-Action Loading] Set the parameter for FUNCTION settings item 54 to”1”. (See page 35 Function Settings on how.) Press the memory key you wish to load from. The voltage and current values stored in memory will blink in the Number Display.
  • Page 48 Useful Function Startup Mode Selection * This function can be set for full-featured type "model name with F" only. Allows you to select the optimal output startup properties for each use. 1. Constant Voltage (CV) Priority Mode (High/Medium/Low speed) Perfect when using as a normal constant voltage power supply for testing equipment and devices. 2.
  • Page 49 Useful Function Variable Slew Rate * This function can be set for full-featured type "model name with F" only. Sets the increasing and falling rate for each Example of Slew Rate Settings in CV Priority Mode output voltage and output current individually. ①...
  • Page 50 Useful Function When selecting Constant Voltage (CV) Priority and Variable Slew Rate mode (Item 1 set to 3), Set to 2 or 3 using the VOLTAGE dial. Set Value 2 = Rising Voltage Slew Rate Set Value 3 = Falling Voltage Slew Rate Assign the set value using the CURRENT dial.
  • Page 51 Sequential ON/OFF * This function can be set for full-featured type "model name with F" only. Toggles the Output ON/OFF for multiple HX-S-G4 Series power supplies simultaneously or using time delays. Optional cables (T485-**M) are required for connection. (Sold separately)
  • Page 52 Useful Function Using the Sequential Function MEMO Output is turned ON/OFF after delay time (tdon, For sequential master machines, delay tdoff) that are set for each machine triggered by time OUTPUTON signal of the sequential master. (tdon, tdoff) can also be set. Sequential Master HX-G #1(+5V) td1 on...
  • Page 53 Useful Function Set the Sequential Master and Sequential Slave Unit Settings Select Item number 60 with the VOLTAGE dial and set the Master and Slave settings with the CURRENT dial. Set the Master to the address "1". Set the Slave to a setting other than the address "1". * If there are more than one slaves, set the addresses avoiding address duplication.
  • Page 54 Useful Function Key Lock Use the LOCK key when protecting settings from careless operations is desired. Key Lock Settings Pressing the LOCK key will restrict key inputs. LOCK lamp will light. The status of the Lock Key can be selected under the FUNCTION Settings Item Number 53 parameters from the following 3 types below.
  • Page 55 Useful Function Variable Internal Resistance * This function can be set for full-featured type "model name with F" only. ! CAUTION This function intentionally generates a voltage drop due to load current when running in Constant Voltage mode. Variable Internal Resistance function is This function is capable of approximating an internal restricted to only DC operations.
  • Page 56 Useful Function Measurement Display Smoothing Use when wishing to stabilize displayed values when the load current is periodically fluctuating at high speeds. The displayed value will be the average value of data, including new data, measured within the past 2 seconds. This is renewed approximately every 200ms.
  • Page 57 Useful Function Linearity Compensation This function provides a high output setting accuracy by measuring and compensating the nonlinearity of the output caused by feedback systems or DA converters/Error Amplifiers used as a DC power supply voltage or current reference value. This is normally used when the compensation function is turned ON (Parameter 1 or 2).
  • Page 58 Useful Function Setting Beep Sound This machine emits a beep sound when a button is pressed or an alarm occurs. You can set whether beep sounds are emitted or not. Setting Procedures Press The Function “FUNC.” key. The FUNC. lamp will light. The Setting Item Number will be displayed in the Number Display (voltage) and the parameter will be displayed in the Number Display (current).
  • Page 59 Useful Function Sequential Operating Function Overview Sequential Operating Function of HX-S-G4 series is to control output sequentially (regularly and continuously) by applying each settings, such as preset CV/CC value, control contents, control time, to the function. STEP Control ・Preset CV/CC Value ・Control contents...
  • Page 60 Useful Function ■ Important note on sequential operation function ① Please take note that the waveform during SWEEP control is not complete straight line. SWEEP control is unable to fluctuate exactly in a linear manner. It is fluctuated in steps with the min. setting resolution of each power supply.
  • Page 61 Useful Function ③ Rising time of voltage and current during STEP control depends on programming time of output specification. Actual waveform will be the following image when the programing time (e.g. Model: 500V type and CV low-speed: 500ms) is longer than control time (e.g. 0.1s). Please take note that the waveform dose not rise vertically regardless of programing time and control time.
  • Page 62 Useful Function ④ HX-S-G4 series is designed not to perform OUPUT ON for 1 sec. after OUTPUT OFF. Therefore, please set 0V or 0A for "STEP" ,without setting control contents as "OUTPUT OFF", when it requires 0V and 0A output from 0.1 sec. to 1 sec. for min.control time of sequential operation function.
  • Page 63 Useful Function How to use sequential operation function ■ Basic Operation Set initial value of constant voltage (CV) and constant current (CC) at the start of sequential operation function. - Constant Voltage (CV) setting value : Any voltage - Constant Current (CC) setting value : Any current Please refer to page 27 "Use as constant voltage power supply"...
  • Page 64 Useful Function Set number of repetition for sequential operation mode Keep the function key "FUNC." pressed and select "101" for parameter with "VOLTAGE" dial and set the desired number of repetition with "CURRENT" dial. 0 - endless repetition 1-9999 = 1-9999 repetitions Set output state at the end of sequential operation.
  • Page 65 Useful Function Set Preset CV value, Preset CC value, Control contents, and Control time to the sequential operation after STEP 2. Please refer to page37 FUNCTION setting for sequential function and set same procedures as STEP 1. MEMO Please set 0 min. 0.0 sec. for STEP 2 to terminate the sequential operation with STEP 1.
  • Page 66 Useful Function Display during sequential operation "Number Display (Voltage)" and "Number Display (Current)" will be switched to the followings when "DISPLAY KEY" is pressed during sequential operation. Normal Operation : "Voltage Measurement Value / Current Measurement Value" → "Voltage Measurement Value / Current Measurement Value" →...
  • Page 67 Useful Function e.g. 1 Setting of sequential operation This page describes FUNCTION setting to create the following setting value. OUTPUT OFF Step 1 Step2 Step3 Step 1 Step2 Step3 Step 1 Step2 Step3 10 sec. 10 min. 10 sec. 10 sec. 10 min.
  • Page 68 Useful Function e.g. 2 Setting of sequential operation This page describes FUNCTION setting to create the following setting value. Step 1 Step 2 Step 3 Step 4 10 sec. 10 sec. 10 sec. 10 sec. Constant Voltage (CV) setting value Step 1...
  • Page 69 Besides, remote control of more than one units using one communication terminal can be realized by multi- connecting a Serial I/F 2 connector. Command forms can be selected from 2 types; command forms in conformance with IEEE488.2 Common Command and SCPI Protocol, or forms in conformance with Takasago HX-S-G Series Commands.
  • Page 70 The diagram below shows the connections for controlling multiple HX-S-G4 Series power supplies with one communication terminal including a computer or a sequencer. By setting each individual address for the HX-S-G4 Series power supplies, it is possible to control up to a maximum of 31 devices with one port.
  • Page 71 When sending commands continuously to the HX-S-G4 power supply due to there being no flow control function, a delay is required on the communication terminal side. If receiving has failed, the HX-S-G4 Series power supply will return an alarm response. Alarm response: HX-S-G4 command system: "ERROR"...
  • Page 72 Using via Digital Data Communication Accessing Access Procedure For controlling via communication commands, match the address assigned by the "Device Address Assign" command with the device address, set under FUNCTION Settings Item 60 "Device Address". At this point, the front panel "REMOTE" LED will light and control via communication commands will be granted. (hereinafter, "Remote Control Status").
  • Page 73 Using via Digital Data Communication Communication with Multiple Connections Below are Remote Control examples when connected to two HX-S-G4 Series power supplies. Connection Configuration Device Address: 1 Note: If RS-485 control, set to other than "1" RS-232C/RS- T485-**M (** is cable length specification) Device Address: 2 ...
  • Page 74 Command forms can be selected from 2 types; HX-S-G4 standard command forms in conformance with IEEE488.2 Common Command and SCPI Protocol, or HX command compatible forms in conformance with Takasago HX Series Commands. Command forms can be selected under FUNCTION Settings Item 63 "Command Forms".
  • Page 75 Using via Digital Data Communication Upper and Lower-Case Sensitive Common Commands and SCPI Commands are not case-sensitive. <Ex.> OUTPUT Output Outp OUTP OUTPut Short Form & Long Form SCPI Command has two forms; abbreviated (Short) and normal (Long) form. Command words must use either of the two forms.
  • Page 76 Using via Digital Data Communication Further, when using semi-colons, if there are commands of the same command level, the root command can be omitted. <Ex.> Due to there being a command within the same level, everything after CONTain is executed. ALM:CLEar;CONTain:CC <NRf>...
  • Page 77 Format: *IDN? Type: QUERY command only Response: Name of Manufacturer, Name of Model, Software Version <Ex> full specification / Isolated OP attached *IDN? TAKASAGO,HX-S-G2FI_60V-12000W,000000000000,FW_VER1.03 *RST : Resets set parameters Function: Resets set parameters (Factory Default Settings) Format: *RST Type: SET command only No parameters <Ex.>...
  • Page 78 Type: SET command only Range: 0~50 Address 0 is a global address. Assign addresses to all multi-connected HX-S-G4 Series DC power supplies. Once the global address is assigned, only Output ON/OFF Toggle SET command "OUTPut[:STATe]" is valid. Further, no Acknowledge Responses will be sent only while the global address is assigned.
  • Page 79 Using via Digital Data Communication ALM Level ALM level command corresponds to external output settings for alarm reset and status information. Command Name Summary Command Type :CLEar Executes alarm reset SET Only :CONTain Sets whether to include CC_STS in LEVEL1_ALM or not Both Sets whether to include CV_STS in LEVEL1_ALM or not Both...
  • Page 80 Using via Digital Data Communication ALM:CONTain:CV :Sets whether to contain CV_STS in LEVEL1_ALM Function: Sets whether to contain CV_STS status in LEVEL1_ALM output condition. Same as FUNCTION Settings Item 74 Format: ALM:CONTain:CV <NRf> Type: SET command, QUERY command Parameters: 0: Does not include in LEVEL1_ALM 1: Includes in LEVEL1_ALM Response: 0, 1...
  • Page 81 Using via Digital Data Communication OUTPut Level OUTPut level command corresponds to functions concerning output control. Command Name Summary Command Type OUTPut :DELay Sets Output ON Delay Time Both :OFF Sets Output OFF Delay Time Both :EXTernal :MODE Sets operation mode for output control at External Contact Both :HOT Sets output status when POWER is ON...
  • Page 82 Using via Digital Data Communication OUTPut:EXTernal:MODE :Sets operation mode for Output Control at External Contact Points Function: Sets operation mode for Output Control at External Contact Points Same as FUNCTION Settings Item 10 Format: OUTPut:EXTernal:MODE <NRf> Type: SET command, QUERY command Parameters: 0: Invalid 1: When close Output is ON, When open Output is OFF...
  • Page 83 Using via Digital Data Communication OUTPut:MODE :Sets Startup Mode Function: Sets the Output Startup Mode Same as FUNCTION Settings Item 1 Format: OUTPut:MODE <NRf> Type: SET command, QUERY command Parameters: 0=CV Priority, (High Speed) 1=CV Priority (Medium Speed) 2=CV Priority (Low Speed) 3=CV Slew Rate 4=CC Priority (High Speed) 5=CC Priority (Medium Speed)
  • Page 84 Using via Digital Data Communication MEASure Level MEASure level command corresponds to functions concerning measurement, such as retrieving voltage and current measurements. Command Name Summary Command Type MEASure :CORRection :MODE Sets operation mode for the Linear Compensation Function Both :MVAV Sets Moving Average process for measurement values Both [:SCALar]...
  • Page 85 Using via Digital Data Communication MEASure:MVAV :Sets Moving Average process for Measurement Values Function: Sets the Moving Average process for Measurement Values Same as FUNCTION Settings Item 11 Format: MEASure:MVAV <NRf> Type: SET command, QUERY command Parameters: 0: Moving Average for measured value is not processed 1: Moving Average for measured value is processed Response: Same as parameters...
  • Page 86 Using via Digital Data Communication MEASure[:SCALar]:POWer[:DC] :Retrieves Power Measurement Values Function: Retrieves electric power measurement values Format: MEASure[:SCALar]:POWer[:DC]? Type: QUERY command only Response: Returns same resolution data as the power meter Restrictions: Alarm response is returned for normal SET commands in the following conditions ·...
  • Page 87 Using via Digital Data Communication SOURce Level SOURce level command corresponds to functions concerning output settings, such as settings for voltage and current values. Command Name Summary Command Type [SOURce] :CURRent [:LEVel] [:IMMediate] [:AMPLitude] Sets Output Current Both :PROTection [:LEVel] Sets OCP Current Both :SLEW...
  • Page 88 Using via Digital Data Communication [SOURce]:CURRent[:LEVel][:IMMediate][:AMPLitude] : Sets Output Current Function: Sets the output current Format: [SOURce]:CURRent[:LEVel][:IMMediate][:AMPLitude] <NRf> Type: SET command, QUERY command Parameters: Range varies depending on the total output capacity of the parallel connection. Response: Same as parameters Model(Type) Output Current(A) Ranges Total Output...
  • Page 89 Using via Digital Data Communication [SOURce]:CURRent:PROTection[:LEVel] :Sets OCP Current Function: Sets the over current (OCP). Format: [SOURce]:CURRent:PROTection[:LEVel] <NRf> Type: SET command, QUERY command Parameters: Range varies depending on the total output capacity of the parallel connection. Response: Same as parameters Model(Type) Output Current Ranges (A) Total Output...
  • Page 90 Using via Digital Data Communication [SOURce]:CURRent:SLEW:RISing : Sets the CC Slew Rate Rising Function: Sets the CC slew rate for rising. Same as FUNCTION Settings Item 4 Format: [SOURce]:CURRent:SLEW:RISing <NRf> Type: SET command, QUERY command Parameters: Range varies depending on the total output capacity of the parallel connection. Response: Same as parameters Model(Type)
  • Page 91 Using via Digital Data Communication [SOURce]:CURRent:SLEW:FALLing : Sets CC Slew Rate Falling Function: Sets the CC slew rate for falling. Same as FUNCTION Settings Item 5 Format: [SOURce]:CURRent:SLEW:FALLing <NRf> Type: SET command, QUERY command Parameters: Range varies depending on the total output capacity of the parallel connection. See CC Slew Rate Ranges for range settings.
  • Page 92 Using via Digital Data Communication [SOURce]:MEMory:RECall:MODE : Sets Load Order for Panel Memory Function: Sets the order of loading for panel memory(A/B/C) Same as FUNCTION Settings Item 54 Format: [SOURce]:MEMory:RECall:MODE <NRf> Type: SET command, QUERY command Parameters: 0: Determines by Single-Action 1: Determines by Double-Action Response: Same as parameters...
  • Page 93 Using via Digital Data Communication [SOURce]:RESistance[:LEVel][:IMMediate][:AMPLitude] : Sets internal resistance Function: Sets the internal resistance Format: [SOURce]:RESistance[:LEVel][:IMMediate][:AMPLitude] <NRf> Type: SET command, QUERY command Parameters: Range varies on the model and the number of parallel connected devices Response: Same as parameters 30V Output Type 60V Output Type 500V Output Type...
  • Page 94 Using via Digital Data Communication [SOURce]:VOLTage[:LEVel][:IMMediate][:AMPLitude] : Sets output voltage Function: Sets the output voltage Format: [SOURce]:VOLTage[:LEVel][:IMMediate][:AMPLitude] <NRf> Type: SET command, QUERY command Parameter: 30VType: 0.00 to 31.50/ 60VType: 0.00 to 63.00/ 500VType: 0.0 to 525/ 1000VType: 0 to 1050 Response: Same as parameters Restrictions:...
  • Page 95 Using via Digital Data Communication [SOURce]:VOLTage:SLEW:RISing : Sets CV Slew Rate Rising Function: Sets the CV slew rate for rising. Same as FUNCTION Settings Item 2 Format: [SOURce]:VOLTage:SLEW:RISing <NRf> Type: SET command, QUERY command Parameter: 30VType: 0.01 to 60.00/ 60VType:0.1 to 120.0/ 500VType: 1 to 1000/ 1000VType: 1 to 2000 Response: Same as parameters Restrictions:...
  • Page 96 *1 It is the status for factory adjustments of OVP and OCP. Practically, the status when OVP and OCP are running is output to Bit4 OCP_ALM and Bit3 OVP_ALM *2 Booster refers to the HX-S-G4 Series power supply that is running as a slave unit under parallel operation. <Ex.>...
  • Page 97 Using via Digital Data Communication STATus:OUTPut:MODE :selection of status output function Function : Select status output function. Same as FUNCTION Setting Item 76. Format : STATus:OUTPut:MODE[]<NR1> Type : SET command, QUERY command Parameter : 0:LEVEL1_ALM、 1:OUTPUT ON/OFF_STS Response : Same as parameters Restrictions:...
  • Page 98 Using via Digital Data Communication SYSTem Level SYSTem level command corresponds to the settings of main FUNCTION items. Command Command Name Summary Type SYSTem :COMMunicate :SERial [:RECeive] :BAUD Sets Bitrate Both :PACE Sets Acknowledge Response Both :PARity [:TYPE] Sets Parity Both :UNIT Sets Query Response Unit Load...
  • Page 99 Using via Digital Data Communication SYSTem:COMMunicate:SERial[:RECeive]:BAUD : Sets Bitrate Function: Sets the bitrate Same as FUNCTION Settings Item 61 Format: SYSTem:COMMunicate:SERial[:RECeive]:BAUD <NRf> Type: SET command, QUERY command Parameters: 0: 2400bps 1: 9600bps 2: 19200bps 3: 38400bps Response: 2400, 9600, 19200, 38400 Restrictions: Alarm response is returned for normal SET commands in the following conditions - While operating as a series operation slave unit - While operating as a parallel operation slave unit...
  • Page 100 Using via Digital Data Communication SYSTem:COMMunicate:SERial[:RECeive]:PARity[:TYPE] : Sets the parity Function: Sets the parity Same as FUNCTION Settings Item 62 Format: SYSTem:COMMunicate:SERial[:RECeive]:PARity[:TYPE] <String> Type: SET command, QUERY command Parameters: ODD: Odd number EVEN: Even number NONE: None Response: ODD, EVEN, NONE Restrictions: Alarm response is returned for normal SET commands in the following conditions - While operating as a series operation slave unit - While operating as a parallel operation slave unit...
  • Page 101 Using via Digital Data Communication SYSTem:CONTrol:CURRent:MODE : Sets Mode for Current Setting Control Method Function: Sets mode for the method on setting the current Same as FUNCTION Settings Item 71 Format: SYSTem:CONTrol:CURRent:MODE <NRf> Type: SET command, QUERY command Parameters: 0: Front Panel, Digital Communication 1: External Voltage 2: External Resistance Type-A 3: External Resistance Type-B...
  • Page 102 Using via Digital Data Communication SYSTem:CONTrol:VOLTage:MODE : Sets Mode for Voltage Setting Control Method Function: Sets mode for the method on setting the voltage Same as FUNCTION Settings Item 70 Format: SYSTem:CONTrol:VOLTage:MODE <NRf> Type: SET command, QUERY command Parameters: 0: Front Panel, Digital Communication 1: External Voltage 2: External Resistance Type-A 3: External Resistance Type-B...
  • Page 103 Using via Digital Data Communication SYSTem:ERRor :Reads Error Message Function: After an error response is received, send this command to retrieve the cause for the generated error Format: SYSTem:ERRor? Type: QUERY command only Response: Error Code, Error Message Table-Error Codes & Error Messages Error Code Error Messages Meaning...
  • Page 104 Using via Digital Data Communication SYSTem:KEYLock:MODE : Sets LOCK Mode Function: Sets the mode for the Key Lock on the front panel Same as FUNCTION Settings Item 53 Format: SYSTem:KEYLock:MODE <NRf> Type: SET command, QUERY command Parameters: 0: Only LOCK key is usable 1: Only OUTPUT and LOCK keys are usable 2: VOLT/CURR dials are non-usable (Along with this, PRESET key, FUNC key, OVP key, and OCP key are also non-usable)
  • Page 105 Using via Digital Data Communication SYSTem:PRESet:MODE : Sets Method to Determine PRESET Contents Functions: Sets the method in which the PRESET contents are determined Same as FUNCTION Settings Item 50 Format: SYSTem:PRESet:MODE <NRf> Type: SET command, QUERY command Parameters: 0: Changes set values after PRESET mode is completed 1: Changes set values while PRESET mode is operating Response: Same as parameters...
  • Page 106 Using via Digital Data Communication SYSTem:TRIP : Executes TRIP Function: Executes TRIP operation (output stop) by setting operation for stopping output Format: SYSTem:TRIP Type: SET command only Parameters: None <Ex.> SYST:TRIP SYSTem:TRIP:MODE : Sets operation for stopping output during TRIP execution or serious/light failure Function: Sets operation for stopping output during TRIP execution or serious/light failure Same settings as FUNCTION Settings Item 9...
  • Page 107 Using via Digital Data Communication SYSTem:BUZzer:ALArm : Sets ON/OFF of alarm sound at alarm occurrence Function: Sets ON/OFF of alarm sound at alarm occurrence Same as FUNCTION Settings Item 91 Format: SYSTem:BUZzer:ALArm <NRf> Type: SET command, QUERY command Parameters: 0: OFF 1: ON Response: Same as parameters...
  • Page 108 Using via Digital Data Communication SEQUENCE Level Sequence operation setting is performed by digital data communication too. Command Name Summary Command Type SEQuence - - Setting for sequential operation :MODE Both Number of Repetition Setting for sequential operation Both :RCOUnt Contents Setting for sequential setting :PATTern Both...
  • Page 109 Using via Digital Data Communication SEQuence:RCOUnt :Set number of repetition for sequential operation Function : Set number of repetition for sequential operation. Same as FUNCTION Setting Item 101. Format : SEQuence:RCOUnt[]<NR1> Type : SET command, QUERY command Parameter : 0 - 9999. Note) 0 : Operation will be looped unless any termination request. Response :...
  • Page 110 Using via Digital Data Communication SEQuence:PATTern :Set contents of sequential operation : Set operation contents of sequenctial operation Function Same as FUNCTION Setting Item 110 - 159. : SEQuence:PATTern[]<NR1>,<NRf>,<NRf>,<NR1>,<NRf>,<NR1> Format: ① ② ③ ④ ⑤ ⑥ SEQuence:PATTern?[]<NR1> ① Type : SET command, QUERY command Parameter :...
  • Page 111 Using via Digital Data Communication SEQuence:STOP :Set output at the end of sequential operation : Set output at the end of sequential operation Function Same as FUNCTION Setting Item 102. : SEQuence:STOP[]<NR1> Format Type : SET command, QUERY command Parameter : O: OUT OFF, 1: Keep output state of sequential operation Response :...
  • Page 112 HX Compatible Commands HX compatible commands are commands which conform to Takasago HX Series communication command format. Remote control is possible only for common functions between HX series and HX-S-G4 series since the commands and HX are compatible. HX commands are listed below. For details on each command, see the pages listed below.
  • Page 113 <Ex> MV100.99  MV100.9 For HX-S-G4 Series power supplies, if either OVP, OCP or OHP error is generated, the alarm response will change to "ALM160". During device errors, only "LV", "LC", "AR", "TP", and "TK" commands are valid. All other commands will return alarm responses.
  • Page 114 *: Set value within range Range: 0~50 Assigned Address 0 is a global address. Assign addresses to all multi-connected HX-S-G4 Series power supplies. Once the global address is assigned, only Output ON/OFF Toggle SET command "OT" is valid. Further, no Acknowledge Responses will be sent only while the global address is assigned Caution ...
  • Page 115 Using via Digital Data Communication : Sets OCP Current Function: Sets the OCP current Format: *: Set value within range Range: Values other than ranges result in parameter errors. Range varies depending on the total output capacity of the parallel connection. Model (Type) Output Current Ranges (A) Total Output...
  • Page 116 Using via Digital Data Communication : Sets Output Current Function: Sets the output current Format: *: Set value within range Range: Values other than ranges result in parameter errors. Range varies depending on the total output capacity of the parallel connection. Model (Type) Output Current Ranges(A) Total Output...
  • Page 117 Using via Digital Data Communication : Sets Output ON/OFF Function: Sets the output ON/OFF Format: *: Set value Set Value: 0: OUTPUT "OFF" 1: OUTPUT "ON" Values other than 0 and 1 result in parameter errors. <Ex.> A1,OT0 : Executes Breaker Trip Function: Executes breaker trip Format:...
  • Page 118 Using via Digital Data Communication HX-compatible Read-Back Commands This section explains about the HX based command Read-Back commands. : Read-Back Set Parameters Function: Retrieves the output voltage, output current, over voltage, over current, and output ON/OFF status set in the HX-S-G4 power supply with the specified device address. Format: Read-Back Format: A*1,MV*2,MC*3,LV*4,LC*5,OT*6...
  • Page 119 Using via Digital Data Communication : Read-Back ID-ROM Parameters Function: Read-back information of equivalent model of HX Format: Read-Back Format: A*1,*2,MV*3,MC*4,LV*5,LC*6 *1~*6:Read-Back Value Read-Back Value: *1: Device address of the responded HX-S-G4 power supply *2: Model Information *3: Constant Output Voltage (Max. no. of decimal places is 1) *4: Constant Output Current (For max no.
  • Page 120 Output Current Range in page 116) <Ex.> A1,TK5 0.00A Notes Communication control functions using multi-connecting cables can be connected with HX-S-G4 Series and ZX series as well as FK2 series. If you want multi-connection with other models, please contact our Sales Department for more information.
  • Page 121 The measurement value, the total sum of the output current and output power, is displayed on the Master unit. ! CAUTION  Parallel operation is only possible with the same-voltage HX-S-G4 series models. (Ex: Parallel operation of HX-S-030-200G4 and HX-S-030-400G4 is possible.)  FUNCTION items for when operating in Slave cannot be set by only references.
  • Page 122 2. After all power is turned on, wait approximately 2 seconds before operating. 3. The HX-S-G4 power supply whose M/B CONTROL Connector IN is not connected to another HX-S-G4 Series power supply is the Master unit (#1 in the previous page).
  • Page 123  Connecting device models that are different in power capacity will result in breakdown.  Turn all series connected HX-S-G4 Series’ input power (POWER switch) ON.  Please calibrate the output voltage for the Slave before use.
  • Page 124 Using in Series/Parallel Operation Load Wire Connection  Connect wires from the Slave’s minus terminal to the Master’s plus terminal.  Connect wires from the Slave’s plus terminal to the Load’s plus terminal.  Connect wires from the Master’s minus terminal to the Load’s minus terminal. Control Terminal Wiring ...
  • Page 125 Using in Series/Parallel Operation Calibrating Slave Unit Output Settings Calibrate the Slave unit to match the Slave’s output voltage in series operation with the Master’s voltage. Preparation The following measuring device is required for calibration. Voltage Measuring Digital Multimeter 2 devices No.
  • Page 126 Using in Series/Parallel Operation Press the FUNC. key of the Slave. Turn the VOLTAGE dial of the Slave unit to display the setting item number 38 in the Number Display (voltage). * At that time, turn off the Number Display (current). 10.
  • Page 127 Controlling with External Analog & Contact Signals Using External Control Terminals This section covers proper methods when operating the HX-S-G4 Series Power Supply externally. On the rear panel of this power supply, there are the connector for external control and the connector for isolation control, which can be applied and used for various purposes combined with the FUNCTION items.
  • Page 128 Controlling with External Analog & Contact Signals External Control Connector Terminal List Terminal Terminal Signal Name Signal Name Voltage Monitoring Output Common for Analog Signal Current Monitoring Output Common for Analog Signal Output Voltage Control, External Voltage Input Common for Analog Signal Output Voltage Control, External Resistance (B,C) Output Voltage Control, External Resistance (B,C) - + Input...
  • Page 129 Controlling with External Analog & Contact Signals Toggling Output ON/OFF with External Contacts *This function can not use 1000V type. The output for HX-S-G4 power supplies can be toggled ON/OFF using outputs from small capacity contact or photocoupler. Use a photocoupler or a small signal relay or switch with a minimum contact capacity of 5V, 2.5mA. !...
  • Page 130 Controlling with External Analog & Contact Signals Setting Procedures Press the Function "FUNC." key. The FUNC. lamp will light. The Setting Item Number will be displayed in the Number Display (voltage) and the parameter will be displayed in the Number Display (current).
  • Page 131 Toggling Output ON/OFF with Isolated External Contacts * This function can be set for isolation-option-featured type "model name with I" only. The output for HX-S-G4 Series power supplies can be toggled ON/OFF using outputs from small capacity contact or photocoupler.
  • Page 132 Controlling with External Analog & Contact Signals Setting Procedures Press the Function "FUNC." key. The FUNC. lamp will light. The Setting Item Number will be displayed in the Number Display (voltage) and the parameter will be displayed in the Number Display (current).
  • Page 133 Controlling with External Analog & Contact Signals Toggling Output ON/OFF with External Contacts in Series Operation The output for HX-S-G4 power supplies can be toggled ON/OFF using outputs from small capacity contact or photocoupler. Use a photocoupler or a small signal relay or switch with a minimum contact capacity of 5V, 2.5mA. !...
  • Page 134 Controlling with External Analog & Contact Signals Setting Procedures Press the Function "FUNC." key. The FUNC. lamp will light. The Setting Item Number will be displayed in the Number Display (voltage) and the parameter will be displayed in the Number Display (current).
  • Page 135 Controlling with External Analog & Contact Signals TRIP Operation with External Contacts *This function can not use 1000V type. The input for this machine can be shut off (switching stop by setting) using output from small capacity contacts or photocouplers. Use a photocoupler or a small signal relay or switch with a minimum contact capacity of 5V, 2.5mA.
  • Page 136 Controlling with External Analog & Contact Signals TRIP Operation with Isolated External Contacts * This function can be set for isolation-option-featured type "model name with I" only. The input for this machine can be shut off (switching stop by setting) using output from small capacity contacts or photocouplers.
  • Page 137 Controlling with External Analog & Contact Signals Output Voltage Control Output Voltage Control with External Resistance 1. Output Voltage Control with External Resistance (A) *This function can not use 1000V type. This section describes how to set the output voltage zero when the external resistance value is infinity.
  • Page 138 Controlling with External Analog & Contact Signals Setting Procedures Press the Function "FUNC." key. The FUNC. lamp will light. The Setting Item Number will be displayed in the Number Display (voltage) and the parameter will be displayed in the Number Display (current).
  • Page 139 Controlling with External Analog & Contact Signals 2. Output Voltage Control with External Resistance (B) *This function can not use 1000V type. This section describes how to set the output voltage to zero when the external resistance value is zero (short). The output voltage is derived from the following formula.
  • Page 140 Controlling with External Analog & Contact Signals 3. Output Voltage Control with External Resistance (C) *This function can not use 1000V type. This section describes how to set the output voltage zero when the external resistance value is 10kΩ. The output voltage is derived from the following formula. Output Voltage [V] = ...
  • Page 141 Controlling with External Analog & Contact Signals Output Voltage Control with External Voltage *This function can not use 1000V type. Output voltage is proportionate to the external DC voltage. Outputs from 0 to a rated output voltage for external voltages 0 to 10V.
  • Page 142 Controlling with External Analog & Contact Signals Output Voltage Control with Isolated External Voltage * This function can be set for isolation-option-featured type "model name with I" only. Output voltage is proportionate to the external DC voltage. The external voltage is insulated from output of this machine. Outputs from 0 to a rated output voltage for external voltages 0 to 10V.
  • Page 143 Controlling with External Analog & Contact Signals Output Current Control Output Current Control with External Resistance 1. Output Current Control with External Resistance (A) *This function can not use 1000V type. This section describes how to set the output current zero, when the external resistance value is infinite (open).
  • Page 144 Controlling with External Analog & Contact Signals Setting Procedures Press the Function "FUNC." key. The FUNC. lamp will light. The Setting Item Number will be displayed in the Number Display (voltage) and the parameter will be displayed in the Number Display (current).
  • Page 145 Controlling with External Analog & Contact Signals 2. Output Current Control with External Resistance(B) This section describes how to set the output current to zero when the external resistance value is zero (short). The output current is derived from the following formula. Output Current [A] kΩ...
  • Page 146 Controlling with External Analog & Contact Signals 3. Output Current Control with External Resistance(C) *This function can not use 1000V type. This section describes how to set the output current zero when the external resistance value is 10kΩ. The output current is derived from the following formula. Output Current [A] ...
  • Page 147 Controlling with External Analog & Contact Signals Output Current Control with External Voltage *This function can not use 1000V type. Outputs current, which is proportionate to the direct current voltage added from external voltage. Outputs from 0 to the maximum output current for external voltage of 0 to 10V.
  • Page 148 Controlling with External Analog & Contact Signals Output Current Control with Isolated External Voltage * This function can be set for isolation-option-featured type "model name with I" only. Output current is proportionate to the external DC voltage. The external voltage is insulated from output of this machine. Outputs from 0 to the rated output current for external voltage of 0 to 10V.
  • Page 149 Controlling with External Analog & Contact Signals Analog Output Monitor *This function can not use 1000V type. This can produce the DC voltage, which is proportional to the output voltage and output current. Use when wishing to surveillance the output with an external meter or recorder. Outputs a "0~10V"...
  • Page 150 Controlling with External Analog & Contact Signals Isolated Analog Output Monitor * This function can be set for isolation-option-featured type "model name with I" only. This can produce the DC voltage, which is proportional to the output voltage and output current and is insulated from the output terminal.
  • Page 151 Controlling with External Analog & Contact Signals Status Output This can externally output the operational status of the HX-S-G4 Series power supply. which is attached to the Output Circuit Isolated Control of the main Output is given by an open collector insulated by a photocoupler.
  • Page 152 Controlling with External Analog & Contact Signals LEVEL1_ALM, OUTPUT ON/OFF_STS For "LEVEL1_ALM" and OUTPUT ON/OFF_STS, either function can be selected by setting the function. ■ LEVEL1_ALM and OUTPUT ON/OFF_STS selection Setting Procedures Press the Function "FUNC." key. The FUNC. lamp will light. The Setting Item Number will be displayed in the Number Display (voltage) and the parameter will be displayed in the Number Display (current).
  • Page 153 Controlling with External Analog & Contact Signals LEVEL1_ALM, This handles the operation mode’s status signal as a LEVEL1_ALM (alarm status). It can also be used for surveillance as an alarm when switching from constant voltage to constant current. Status Signals that can be set in LEVEL1_ALM CV_STS (Constant Voltage Operation) CC_STS (Constant Current Operation) Setting Procedures...
  • Page 154 Special Loads Special Loads This section explains about loads with reverse current and pulse current loads as special loads. Loads with Reverse Current ! CAUTION This machine does not have functions to stabilize the output voltage against reverse current from loads. If the maximum sink current is exceeded, the output voltage will rise above the rated value and burn-out the internal circuits.
  • Page 155 Special Loads Pulse Current Loads If the load current exceeds the constant current (current limit) value for even a moment, the constant current circuits will trigger. Further, if the output power exceeds the rating even for a moment the power limit circuit will trigger. In these cases, the output voltage will become unstable.
  • Page 156 Special Loads Connection to Secondary Battery Since this machine lowers the output voltage rapidly, it has the sinking function that absorbs the current from the load side. For this reason, if connected with the secondary battery, constant current discharge occurs due to sinking current when output is turned OFF.
  • Page 157 Special Loads 【 This page is blank 】...
  • Page 158 This section covers warranty period, maintenance service, daily inspection, and troubleshooting. Warranty Period The warranty period for the HX-S-G4 Series power supply is 3 year from the day of purchase. During this period, Takasago Co., Ltd will take full responsibility for any damages caused to the product due to manufacturing or degradation of parts, and shall repair free of charge.
  • Page 159 Maintenance Periodical check and replacement of air filter The air filter is attached inside of the front panel. Please perform the periodical cleaning and replacement of the filter before the clogging becomes severe. ! CAUTION ・Deterioration in a cooling effect due to the clogging of the air filter may cause fault. Therefore, please perform the periodical cleaning and replacement.
  • Page 160 Maintenance Attach the air filter. Please fix the filter preventing lateral and vertical movement by holding with the protuberances (three parts) on the back of the front cover. The air filter has directionality. Set the air filter so that the positioning parts are placed in the upper side. After that arrange shorter side from the edge of the filter on the right side and longer side from the edge of the filter on the left side.
  • Page 161 Maintenance 【 This page is blank 】...
  • Page 162 Calibration Calibration Calibrating Output Settings Preparation The following measuring device is required for calibration. 2. Shunt Resistor for Current Measurement- 1 set 1. Digital Multimeter for Voltage/Current 30-200 30-400 60-100 60-200 Measurement- 1 set 200A/50mV 500A/50mV 200A/50mV 200A/50mV 500-12 500-24 1000-6 1000-12 No.
  • Page 163 Calibration 7. Set the constant voltage setting value to [ xV ] and the constant current setting value to [ yA ] and set 11. Press the FUNC. key to settle the full-scale the output to ON. calibration value of the output voltage settings. 30-200 30-400 60-100...
  • Page 164 Calibration Offset/Full-Scale Calibration of Output Current Settings 1. Perform load with only the shunt resistor. Disconnect the load wires and the remote sensing wires. 4. Turn the VOLTAGE dial to display the setting Connect the shunt to the output terminal. Connect item number 22 in the Number Display (voltage).
  • Page 165 Calibration 7. Set the constant voltage setting value to [ xV ] and the constant current setting value to [ yA ] and set 11. Press the FUNC. key to settle the full-scale the output to ON. calibration value of the output current settings. 30-200 30-400 60-100...
  • Page 166 Calibration Offset/Full-Scale Calibration of Output Voltage with External Analog Input Output Voltage Control with External Voltage (Isolated External Voltage) 1. Disconnect the load wires and the remote sensing Adjust so that the output voltage becomes wires. Connect the digital multimeter to the output [ xV ] with the CURRENT dial.
  • Page 167 Calibration 7. Set the external voltage to 10.000V and the constant current setting value to [ yA ] and set 11. Press the FUNC. key to settle the full-scale the output to ON. calibration value of output voltage control with 30-200 30-400 60-100...
  • Page 168 Calibration Output Voltage Control with External Resistance(A) 1. Disconnect the load wires and the remote 5. Adjust so that the output voltage becomes "0.000V" sensing wires. Connect the digital multimeter to with the CURRENT dial. the output terminal. Turn the POWER switch ON and OUTPUT OFF in advance.
  • Page 169 Calibration 7. Set the external resistance to 0Ω and the constant current setting value to [ yA ] and set 11. Press the FUNC. key to settle the full-scale the output to ON. calibration value of output voltage control (A) with 30-200 30-400 60-100...
  • Page 170 Calibration Output Voltage Control with External Resistance(B) 1. Disconnect the load wires and the remote sensing Adjust so that the output voltage becomes wires. Connect the digital multimeter to the output "0.000V" with the CURRENT dial. terminal. Turn the POWER switch ON and OUTPUT OFF in advance.
  • Page 171 Calibration 7. Set the external resistance to 10kΩ and the constant current setting value to [ yA ] and set 11. Press the FUNC. key to settle the full-scale the output to ON. calibration value of output voltage control with 30-200 30-400 60-100...
  • Page 172 Calibration Output Voltage Control with External Resistance(C) 1. Disconnect the load wires and the remote Adjust so that the output voltage becomes sensing wires. Connect the digital multimeter to "0.000V" with the CURRENT dial. the output terminal. Turn the POWER switch ON and OUTPUT OFF in advance.
  • Page 173 Calibration 7. Set the external resistance to 0Ω and the 11. Press the FUNC. key to settle the full-scale constant current setting value to [ yA ] and set calibration value of output voltage control with the output to ON. external resistance (B).
  • Page 174 Calibration Offset/Full-Scale Calibration of Output Current with External Analog Input Output Current Control with External Voltage (Isolated External Voltage) 1. Perform load with only the shunt resistor. Disconnect the load wires and the remote sensing 4. Turn the VOLTAGE dial to display the setting item wires.
  • Page 175 Calibration 7. Set the external voltage to 10.000V and the 10. Adjust so that the output current becomes [ yA ] constant voltage setting value to [ xV ] and set the with the CURRENT dial. output to ON. 30-200 30-400 60-100 60-200...
  • Page 176 Calibration Output Current Control with External Resistance (A) 1. Perform load with only the shunt resistor. 5. Adjust so that the output current becomes "0A" Disconnect the load wires and the remote sensing with the CURRENT dial. wires. Connect the shunt to the output terminal. Connect the digital multimeter to the terminal located on the shunt.
  • Page 177 Calibration 7. Set the constant voltage setting value to [ xV ] and 10. Adjust so that the output current becomes [ yA ] the external resistance to 0Ω and set the output to with the CURRENT dial. 30-200 30-400 60-100 60-200 30-200...
  • Page 178 Calibration Output Current Control with External Resistance (B) 1. Perform load with only the shunt resistor. 5. Adjust so that the output current becomes "0A" Disconnect the load wires and the remote sensing with the CURRENT dial. wires. Connect the shunt to the output terminal. Connect the digital multimeter to the terminal located on the shunt.
  • Page 179 Calibration 7. Set the constant voltage setting value to [ xV ] and 10. Adjust so that the output current becomes the external resistance to 10kΩ and set the output [ yA ]with the CURRENT dial. to ON. 30-200 30-400 60-100 60-200 30-200...
  • Page 180 Calibration Output Current Control with External Resistance (C) 1. Perform load with only the shunt resistor. 5. Adjust so that the output current becomes "0A" Disconnect the load wires and the remote sensing with the CURRENT dial. wires. Connect the shunt to the output terminal. Connect the digital multimeter to the terminal located on the shunt.
  • Page 181 Calibration 7. Set the constant voltage setting value to [ xV ] and the external resistance to 0Ω and set the output to 10. Adjust so that the output current becomes [ yA ] with the CURRENT dial. 30-200 30-400 60-100 60-200 30-200...
  • Page 182 Calibration Calibrating Meters Preparation The following measuring device is required for calibration. 2. Shunt Resistor for Current Measurement- 1 set 1. Digital Multimeter for Voltage/Current 30-200 30-400 60-100 60-200 200A/50mV 500A/50mV 200A/50mV 200A/50mV Measurement- 1 set 500-12 500-24 1000-6 1000-12 No.
  • Page 183 Calibration 7. Set the constant voltage setting value to [ xV ] and the 11. Press the FUNC. key to settle the full-scale constant current setting value to [ yA ] and set the calibration value in the voltmeter. output to ON. 30-200 30-400 60-100...
  • Page 184 Calibration Ammeter Offset/Full-Scale Calibration Note: Before performing this operation, be sure to perform Offset/Full-scale Calibration (page164) of output current setting. 1. Perform load with only the shunt resistor. Disconnect the load wires and the remote sensing 4. Turn the VOLTAGE dial to display the setting item wires.
  • Page 185 Calibration 7. Set the constant voltage setting value to [ xV ] and 11. Press the FUNC. key to settle the full-scale the constant current setting value to [ yA ] and set calibration value in the ammeter. the output to ON. 30-200 30-400 60-100...
  • Page 186 Calibration Offset/Full Scale Calibration of Output Voltage Monitor (Isolated Output Voltage Monitor) 1. Disconnect the load wires and the remote sensing 5. Turn the VOLTAGE dial to display the setting item wires. Connect the digital multimeter to the output number 32 in the Number Display (voltage). terminal.
  • Page 187 Calibration 8. Set the constant voltage setting value to [ xV ] and the constant current setting value to [ yA ] and set 12. Press the FUNC. key to settle the full-scale the output to ON. calibration value of output voltage monitor 30-200 30-400 60-100...
  • Page 188 Calibration Offset/Full Scale Calibration of Output Current Monitor (Isolated Output Current Monitor) 5. Turn the VOLTAGE dial to display the setting item number 32 in the Number Display (voltage). 1. Disconnect the load wires and the remote sensing wires. Connect the digital multimeter to the output terminal.
  • Page 189 Calibration 8. Set the constant voltage setting value to [ xV ] and the constant current setting value to [ yA ] and set 12. Press the FUNC. key to settle the full-scale the output to ON. calibration value of output current monitor 30-200 30-400 60-100...
  • Page 190 Specifications Specifications Output Specifications Specification/Models 30-200 30-400 60-100 60-200 500-12 500-24 1000-6 1000-12 Rated Output Voltage 500V 500V 1000V 1000V Rated Output Current 200A 400A 100A 200A Rated Output Power 6000W 6000W 6000W 6000W 12000W 12000W 12000W 12000W Input Specifications 30-200 30-400 60-100...
  • Page 191 Specifications Constant Voltage Characteristics 30-200 30-400 60-100 60-200 500-12 500-24 1000-6 1000-12 Specification/Models 0.00V-31.50V 0.00V-63.00V 0.0V-525.0 0V-1050V Range of set of set of set of set ±(0.1%+5mV) ±(0.1%+10mV) ±(0.1%+0.1V) ±(0.1%+0.2V) Accuracy *11 value value value value 10mV 0.1V Resolution Below 0.01% + (0.005% of maximum output voltage) Load Regulation *4 Below 0.01% + (0.005% of maximum output voltage) Line Regulation *5...
  • Page 192 Specifications Measurement and Display 30-200 30-400 60-100 60-200 500-12 500-24 1000-6 1000-12 Specification and Models 4-digits Digital Meter Voltmeter 99.99V 999.9V 9999V Max. Display ±(0.1%+2digit(0.2V) )of ±(0.1%+2digit(2V) )of Measure Accuracy *13 ±(0.1%+2digit(0.02V) )of reading reading reading Temperature Coefficient ± 100ppm/C (Typical Value) 4-Digit Digital Meter Ammeter...
  • Page 193 Specifications Protection Functions 30-200 30-400 60-100 60-200 500-12 500-24 1000-6 1000-12 Specification/Models 0.30V to 33.00V 0.60V to 66.00V 5.0V to 550.0V 10V to 1100V Range Over Voltage ± (0.2%+5 digit (0.05V)) of ± (0.2%+5 digit(0.05V)) of ± (0.2%+5 digit (0.5V)) ±...
  • Page 194 Specifications Other Functions Specification/Models 30-200 30-400 60-100 60-200 500-12 500-24 1000-6 1000-12 All modes are displayed with LEDs OUT ON ------------------------------------------------------------------------------------ Orange CV (Constant Voltage) ---------------------------------------------------------------------- Green CC (Constant Current) --------------------------------------------------------------------- Green Operational Mode Displays PRESET (PRESET) ------------------------------------------------------------------------- Green FUNC. (when setting functions) ---------------------------------------------------------- Green REMOTE (During Remote Operation) ------------------------------------------------- Green LOCK (in Key Lock state)------------------------------------------------------------------ Green Master-Slave Parallel...
  • Page 195 EN61010-1 EMS EN61326-1:(Industrial locations) EMI EN61326-1:(Class A) ・All cable connecting should be less than 3m and supplied by TAKASAGO, Ltd. as options. Conformity ・It is required to wrap 2T of ferrite clamp, such as RFC-20 manufactured by Kitagawa Industries Standards Applicable or equivalent, around cables while connectors for external control will be used.
  • Page 196 Specifications Isolation/ Withstanding Voltage 30-200 30-400 60-100 60-200 500-12 500-24 1000-6 1000-12 Specification/Models At 500V DC mega-ohm tester, above 20MΩ At 1000V DC mega-ohm tester, above 20MΩ Isolation Between each input and output, input and chassis, Between each input and output, input and chassis, output and chassis output and chassis Between input and output: 3.0kV AC 1minute...
  • Page 197 Specifications External Diagrams 1.HX-S-030-200G4(F)・( I )
  • Page 198 Specifications 2.HX-S-030-400G4(F)・( I )
  • Page 199 Specifications 3.HX-S-060-100G4(F)・( I )
  • Page 200 Specifications 4.HX-S-060-200G4(F)・( I )
  • Page 201 Specifications 5.HX-S-0500-12G4(F)・( I )
  • Page 202 Specifications 6.HX-S-0500-24G4(F)・( I )
  • Page 203 Specifications 7.HX-S-01000-6G4(F)・I...
  • Page 204 Specifications 8.HX-S-01000-12G4(F) I...
  • Page 205 Appendix Appendix Appendix 1 Output Current vs Input Current ※The graph below is if input voltage AC400V, power factor of 0.65. 1.HX030-200G4 出力電流 対 入力電流 Output Current vs Input Current Output Current (A) 出力電流(A) 出力電圧3V Output 出力電圧6V Output 出力電圧9V Output 出力電圧12V Output 出力電圧15V...
  • Page 206 Specifications 3.HX060-100G4 出力電流 対 入力電流 Output Current vs Input Current Output Current (A) 出力電流(A) Output Output Output Output Output 出力電圧6V 出力電圧12V 出力電圧18V 出力電圧24V 出力電圧30V Output Output Output Output 出力電圧36V 出力電圧42V 出力電圧48V 出力電圧54V 出力電圧60V Output 4.HX060-200G4 出力電流 対 入力電流 Output Current vs Input Current Output Current (A) 出力電流(A) Output...
  • Page 207 Specifications 5.HX0500-12G4 Output Current vs Input Current 出力電流 対 入力電流 10.8 12.0 13.2 Output Current (A) 出力電流(A) 出力電圧5V 出力電圧50V Output 出力電圧100V 出力電圧150V Output Output Output 出力電圧200V Output 出力電圧250V Output 出力電圧300V Output 出力電圧350V Output Output Output 出力電圧400V 出力電圧450V Output 出力電圧500V 6.HX0500-24G4 Output Current vs Input Current 出力電流...
  • Page 208 Specifications 7.HX01000-6G4 Output Current vs Input Current 出力電流 対 入力電流 Output Current (A) 出力電流(A) Output Output Output 出力電圧10V 出力電圧100V 出力電圧200V 出力電圧300V Output Output Output Output Output 出力電圧400V 出力電圧500V 出力電圧600V 出力電圧700V Output Output Output 出力電圧800V 出力電圧900V 出力電圧1000V 8.HX01000-12G4 出力電流 対 入力電流 Output Current vs Input Current 10.8 12.0...
  • Page 209 Specifications Appendix 2 Output Current vs Efficiency 1.HX030-200G4 Output Current vs Efficiency 出力電流 対 効率 Output Current (A) 出力電流(A) Output Output Output Output Output 出力電圧3V 出力電圧6V 出力電圧9V 出力電圧12V 出力電圧15V 出力電圧18V 出力電圧21V Output 出力電圧24V Output 出力電圧27V 出力電圧30V Output Output Output 2.HX030-400G4 Output Current vs Efficiency 出力電流...
  • Page 210 Specifications 3.HX060-100G4 Output Current vs Efficiency 出力電流 対 効率 出力電流(A) Output Current (A) Output Output Output Output Output 出力電圧6V 出力電圧12V 出力電圧18V 出力電圧24V 出力電圧30V Output Output Output Output 出力電圧36V Output 出力電圧42V 出力電圧48V 出力電圧54V 出力電圧60V 4.HX060-200G4 Output Current vs Efficiency 出力電流 対 効率 Output Current (A) 出力電流(A) Output...
  • Page 211 Specifications 5.HX0500-12G4 Output Current vs Efficiency 出力電流 対 効率 Output Current (A) 出力電流(A) 出力電圧5V Output 出力電圧50V 出力電圧100V Output 出力電圧150V Output Output Output 出力電圧200V Output 出力電圧250V 出力電圧300V 出力電圧350V Output Output Output Output Output 出力電圧400V 出力電圧450V 出力電圧500V 6.HX0500-24G4 Output Current vs Efficiency 出力電流...
  • Page 212 Specifications 7.HX01000-6G4 Output Current vs Efficiency 出力電流 対 効率 Output Current (A) 出力電流(A) Output Output 出力電圧10V 出力電圧100V Output 出力電圧200V Output 出力電圧300V Output 出力電圧400V 出力電圧500V 出力電圧600V 出力電圧700V Output Output Output Output Output 出力電圧800V 出力電圧900V Output 出力電圧1000V 8.HX01000-12G4 Output Current vs Efficiency 出力電流...
  • Page 213 Specifications Appendix 3 Rush Current Wave Form ・The entire waveform when you enter the AC440V Input Voltage 1kV/div Input Current 50A/div Output timing for the HOTSTART setting ・The expansion waveform when you enter the AC440V Input Voltage 1kV/div Input Current 50A/div...
  • Page 214 Specifications Appendix 4 Loaded Current vs Recommended Conductor Area Recommended Sectional Conductor Area (mm...
  • Page 215 Specifications Appendix 5 Circuit Block Diagram...
  • Page 216 Postal code 213-8558 24-16 Mizonokuchi 1-chome, Takatsu-ku Kawasaki-shi Kanagawa 213-8558 Japan HX-S-G4 Series Instruction Manual July 2021 Ver3.0 DOC-2008-03...

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