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Tonghui Electronics TH9130 Operation Manual

Multi-function safety compliance analyzer
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TH9130 Series Instruction Manual
Operation Manual
TH9130(A)/TH9131(A)
Multi-function Safety Compliance Analyzer
V1.0.8@2024.03
Tonghui Electronic Co.,Ltd.
www.tonghui.com.cn

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  • Page 1 TH9130 Series Instruction Manual Operation Manual TH9130(A)/TH9131(A) Multi-function Safety Compliance Analyzer V1.0.8@2024.03 Tonghui Electronic Co.,Ltd. www.tonghui.com.cn...
  • Page 2 TH9130 Series Instruction Manual Version History: This manual will be continually improved for ease of use. Due to possible errors or omissions in the instruction manual, improvement and refinement of the instrument functions, technical updates and software upgrades, the instruction manual will be adjusted and revised accordingly.

  • Page 3: Table Of Contents

    Conductivity Test Setup .................... 33 3.5.6 Electrical Test Setup (only available for TH9130/TH9131) ........35 3.5.7 Leakage Current Test Setup (only available for TH9130/TH9131) ......37 3.5.8 Open Short Circuit Test Setup .................. 50 Measurement TEST Setting ....................51 3.6.1 Zero ..........................
  • Page 4 TH9130 Series Instruction Manual 3.9.2 External Control Line Legend ................... 64 Chapter 4 Interfaces and Communications ................... 67 Remote Control Interface ....................67 4.1.1 RS232C Interface Description .................. 67 4.1.2 GPIB Interface Description ..................74 Serial Port Command Set Description ................78 4.2.1...

  • Page 5: Chapter 1 Overview

    AC/DC Withstanding Voltage Test: Instrument output power TH9130/TH9130A: AC: 500VA (5kV, 100mA), current up to 120mA when AC voltage is less than 4kV; DC: 150VA (6kV, 25mA), current up to 20mA when DC voltage is more than 1.5kV. TH9131/TH9131A: AC: 200VA (5kV, 40mA); DC: 120VA (6kV, 20mA).
  • Page 6 RMS; and AC, DC or AC+DC composite wave can be tested. ■ 500VA AC Power Supply (only available for TH9130) The instrument has a built-in 500VA AC power supply, which can provide power for electrical testing and leakage testing of DUTs, and also supports the use of external power supply to access the instrument for testing.

  • Page 7: Conditions Of Use

    TH9130 Series Instruction Manual test system. The instrument also provides a convenient and practical file function to save the measurement parameters set by the user. Up to 100 files can be saved, each with up to 50 steps. 1.2 Conditions of Use 1.2.1...

  • Page 8: Volume And Weight

    TH9130 Series Instruction Manual (5) Do not use the instrument in areas with strong magnetic or electric field effects, as electromagnetic pulses can cause the instrument to malfunction and possibly create a fire. (6) Do not use this instrument near sensitive test equipment and receiving equipment. If this instrument is used in the vicinity of such equipment, noise from failure breakdown of the part under test may affect such equipment.

  • Page 9: Leakage Current

    TH9130 Series Instruction Manual 1.4.3 Leakage Current Leakage current is not more than 3.5mA. 1.5 Electromagnetic Compatibility Power transient sensitivity according to GB6833.4. Conductivity sensitivity is according to the requirements of GB6833.6. Radiation interference according to the requirements of GB6833.10.

  • Page 10: Chapter 2 Operational Norms And Measures

    TH9130 Series Instruction Manual Chapter 2 Operational Norms and Measures This chapter describes the norms and measures to be observed during the use of this instrument. When using this instrument, special care should be taken to ensure safety. ___________________________________________________________ WARNING: This instrument has a test high voltage output of 5kVAC or 6kVDC, and...
  • Page 11 TH9130 Series Instruction Manual and stop of the high voltage is controlled remotely and the operator cannot know the actual working status of the instrument through the interface. Pay particular attention to the reliability of the remote-control connection.  The "STOP" button must be connected reliably. Press the "STOP" button before replacing the part under test.

  • Page 12: Treatment Measures

    TH9130 Series Instruction Manual U: Test set voltage R: Discharge impedance of the measured part, about 2kΩ resistance C: Capacitance of the measured part If the time constant of the part under test is known, then the time required to discharge to 30V after the output is cut off can be derived from the above equation.
  • Page 13 TH9130 Series Instruction Manual taken.  When the [STOP] key is pressed, the DANGER indicator remains on continuously.  The voltmeter has no voltage reading, but the DANGER indicator is on. When the above condition occurs, please turn off the power immediately and unplug the power supply.
  • Page 14 TH9130 Series Instruction Manual Instrument output power 500VA If the device under test draws a large amount of current, a large current (about tens of amperes) may flow for tens of milliseconds before the defective product is judged and the output current is cut off, and the same may happen before the test is conducted.

  • Page 15: Chapter 3 Panel Description And Operating Instructions

    TH9130 Series Instruction Manual Chapter 3 Panel Description and Operating Instructions This chapter contains descriptions and introductions of panels and operations. 3.1 Front Panel Description The front panel schematic is shown in Figure 3-1. Figure 3-1 Power switch Turns AC power on or off. When in the pressed position, power is (POWER) ...

  • Page 16: Rear Panel Description

    TH9130 Series Instruction Manual Used to move the cursor around the screen, the selected Arrow key parameter is displayed with an orange background. 10 Numeric keypad Used to enter numbers or, if required, characters (file names). PASS lamp, after the end of the test, no test data beyond the initial setting is found, the instrument judges that the test is qualified, and the PASS judgment lamp is on.
  • Page 17 The low voltage input to the human body impedance analog circuit Probe (MD) test bar is typically the low voltage input to the surface leakage terminal current test and the inter-surface leakage current test. Table 3-2 Note*: *The marking options are all available for TH9130/TH9131.

  • Page 18: Overview Of The Instrument Interface Structure

    TH9130 Series Instruction Manual 3.3 Overview of the Instrument Interface Structure The interface structure of the instrument is schematized as follows. Measurement TEST Startup Test Setting SETUP STEP: 01/01 Insert Delete Save AC (AC withstand) IR (Insulation resistance) AC parameters...
  • Page 19 TH9130 Series Instruction Manual by touching the screen or the F1 to F6 keys or numeric keys. As well as selecting Upgrade, Initialize and Save. 4、 If you need to use numeric key to input, press 〖ENTER〗key to confirm, 〖ESC〗key to reset, 〖←〗key to delete the wrongly input numbers or letters.
  • Page 20 TH9130 Series Instruction Manual need to enter the password after the failure. Time qualifying Set the duration of buzzer sound when passing 0.2 to 99.9s 0.5s interrogation (PASS) (QIT) Set the interval time between test steps STEP, the key means to press the [START] key to continue after Inter-division 0.2s...
  • Page 21 TH9130 Series Instruction Manual key when any one of the steps STEP determines that the part under test is defective. ⑶ When set to STOP test STOP, when any one of the steps STEP determines that the tested part is defective, you must press the [STOP] key before you can press the [START] key to restart the test.
  • Page 22 TH9130 Series Instruction Manual Figure 3-6 Breakdown Test Interface Setting up the Default Configurable range Description project value Breakdown AC breakdown / DC Selectable mode of breakdown testing AC Options breakdown or DC breakdown 0.05kV ~ termination Starting voltage 0.05kV...
  • Page 23 Figure 3-7 Schematic diagram of electric shock 3.4.1.5 AC Power Supply (only available for TH9130) protection The AC power supply is used to provide power to the DUT when the test function is electrical performance test (RUN) or leakage current test (LC).

  • Page 24: System Environment Parameter Setting

    TH9130 Series Instruction Manual to Ground) option, and "S-G" (Secondary to Ground) and "P-S" (Primary to Secondary) can be selected. This function is for an additional high voltage output, which can be tested at multiple points. At this time, if the test is conducted, not only the HV terminal of the front panel and the HV terminal of the rear panel have high-voltage output, but also the L&N terminal or the EXTERNAL...

  • Page 25: System Communication Settings

    TH9130 Series Instruction Manual Screen 1 ~ 100 Adjust screen brightness brightness Set the failure (FAIL) alarm sound is turned on, Off/Long Tone/Double Long Bad sound where the long beep for the sound continues to Short Tone Tone beep until STOP to terminate the beeping...

  • Page 26: Measurement Setting Setup Setting

    TH9130 Series Instruction Manual From the above figure, it can be seen that the communication of the instrument is mainly categorized into RS232C, GPIB (optional), USB and LAN. for specific description and detailed explanation, please refer to Chapter 4, Interfaces and Communication section.

  • Page 27: Ac Withstand Voltage Test Setup

    TH9130 Series Instruction Manual Figure 3-12 Test Mode Selection 1 Figure 3-13 Test Mode Selection 2 3.5.1 AC Withstand Voltage Test Setup Figure 3-14 AC Withstand Voltage Parameter Setting Setting Default Configurable range Description the project value...
  • Page 28 Table 3-7 Note*: *Marked for TH9130/TH9131 only. Backplane Output: When the Backplane Output is set to "On" in the System Settings, this function is allowed to be set in the parameter setting of AC Withstand Voltage. The setting interface is shown in the figure.
  • Page 29 TH9130 Series Instruction Manual voltage test terminal, at this time, not only the HV terminals of the front and rear panels have high voltage output, but also one of the corresponding options has high voltage output, as shown in the following table.

  • Page 30: Dc Withstand Voltage Test Setup

    TH9130 Series Instruction Manual Figure 3-16 Instrument Backplane Wiring Diagram Conductivity test: Check whether the ground wire of the DUT and the ground test terminal of the instrument are connected reliably. If the option is set to "On", the ground test wire must be connected from the ground test terminal of this sub-instrument to the ground input wire of the DUT, i.e., the resistance from the Case terminal of the rear panel to the GND terminal should be less...
  • Page 31 Table 3-9 Note*: *Marked for TH9130/TH9131 only. Backplane Output: When the Backplane Output is set to "On" in the System Settings, this function is allowed to be set in the parameter setting of DC Withstand Voltage. The setting interface is shown in the figure.
  • Page 32 TH9130 Series Instruction Manual following table. Figure 3-18 Backplane Output Settings Setting Test High End Test Description Options (High Voltage) Rear panel L and N terminals Rear Panel Rear Panel L&N shorted for high voltage output, CASE CASE terminal for test low side...

  • Page 33: Insulation Resistance Test Setup

    TH9130 Series Instruction Manual Figure 3-19 Instrument Backplane Wiring Diagram Conductivity test: Check whether the ground wire of the DUT and the ground test terminal of the instrument are connected reliably. If the option is set to "On", the ground test wire must be connected from the ground test terminal of this sub-instrument to the ground input wire of the DUT, i.e., the resistance from the Case terminal of the rear panel to the GND terminal should be less...
  • Page 34 Table 3-11 Note*: *Marked for TH9130/TH9131 only. Auto Ranging: To select the appropriate current range for IR, please calculate the current based on the test voltage and the insulation impedance of the object to be measured, i.e. I = U/R, and then select the appropriate current range accordingly.

  • Page 35: Ground Resistance Test Setup

    TH9130 Series Instruction Manual 3.5.4 Ground Resistance Test Setup Figure 3-21 Grounding Resistance Setting Setting up the Default Configurable range Description project value The current step can be set to the Test pattern All test modes desired test mode Set the current required for the Test Current 1.00 ~ 40.00A...
  • Page 36 TH9130 Series Instruction Manual output open circuit, that is, setting the output voltage in constant voltage mode, while the grounding resistance test is constant current test mode, if the actual test current can not reach the set current, the test voltage can be set to 8V.

  • Page 37: Conductivity Test Setup

    TH9130 Series Instruction Manual Figure 3-24 AC Withstand Voltage Setup for Synchronized Testing Figure 3-25 Measurement Display for Synchronization Test 3.5.5 Conductivity Test Setup Figure 3-26 Conductivity Test Setup Setting Configurable Default Description the project range value The current step can be set to the...
  • Page 38 Table 3-14 Note*: *MArking available for TH9130/TH9131 only. On-resistance test: On-resistance test, can test the resistance between different detection terminals, adding the DUT L to N test application, which can detect the DUT (DUT) L line to the N line of the internal impedance, to prevent the DUT L and N short circuit or abnormalities caused by the danger of power supply.

  • Page 39: Electrical Test Setup (Only Available For Th9130/Th9131)

    TH9130 Series Instruction Manual 3.5.6 Electrical Test Setup (only available for TH9130/TH9131) Figure 3-28 Electrical Test Setup Setting Configurable Default Description range value project Test The current step can be set to the All test modes pattern desired test mode...
  • Page 40 TH71XX can be remotely controlled. Table 3-15 AC Power Supply (only available for TH9130): If AC Power Supply is set to On in the System Setup, there is a setup screen as shown below in the Setup screen of Electrical Test.

  • Page 41: Leakage Current Test Setup (Only Available For Th9130/Th9131)

    TH9130 Series Instruction Manual Frequency supply Set the upper test current limit for the AC Upper 0.0 ~ 2.1A power supply. current Close 0.0 ~ 4.2A Higher/lower voltage ranges correspond limit to different ranges. Zero-line Set whether the zero wire of the AC...
  • Page 42 TH9130 Series Instruction Manual Figure 3-31 Leakage Current Setting 2 Setting up Configurable Default value Description the project range Test The current step can be set to the All test modes pattern desired test mode Leakage Set the upper limit of leakage current 0.0 ~ 10000uA...
  • Page 43 TH9130 Series Instruction Manual detailed in the specific national and international standards in the technical specifications. Leakage Set the mode of the tested leakage RMS/Peak Effective value current current value. Ground-to-ground Set the probe position for leak testing. Probe line of fire...
  • Page 44 TH9130 Series Instruction Manual Disconnect Diagram Closed Diagram The Reverse Polarity Switch has three options: On, Off and Auto, and the corresponding schematic diagrams for On and Off are shown in the figure below. When Reverse is selected as Auto, the instrument will test the leakage current value of the line with Reverse switch in "open"...
  • Page 45 TH9130 Series Instruction Manual Turn off Open Turn off Status IV Close Close Close Status V Close Open Close Status VI Turn off Close Close Status VII Turn off Open Close Status VIII Close Auto Turn off Status 1 & Status 2...
  • Page 46 TH9130 Series Instruction Manual Neutral: Disconnect; Reverse: Closed; Ground: Disconnect Status IV: Single fault and L and N reverse tested (Class I products) Neutral: Disconnect; Reverse: Open; Ground: Disconnect Status V: Single Fault Test (Class II products) Neutral: Closed; Reverse: Closed; Ground: Closed...
  • Page 47 TH9130 Series Instruction Manual Neutral: Closed; Reverse: Open; Ground: Closed Status VII: Single failure test (Class II products) Neutral: Disconnect; Reverse: Close; Ground: Close Status VIII: Single fault with L and N reverse test (Class II products) Neutral: Disconnect; Reverse: Open; Ground: Close 3.5.7.2...
  • Page 48 TH9130 Series Instruction Manual UL544NP UL544P IEC60601, GB9706.1 UL1563 IEC60990 Fig4-U1, GB4706.1 IEC60990 Fig4-U2, GB12113.1 IEC60990 Fig5-U1, GB7000.1 IEC60990 Fig5-U3, GB12113.1 IEC61010-1 A.2, GB4793.1 IEC60598FigG.4, GB7000.1...
  • Page 49 TH9130 Series Instruction Manual Special Needs Networks Frequency Detection IEC60598FigG.4, GB7000.1: If this network is required, please contact the manufacturer to add it. Special network: According to the human body impedance model required by the customer, another test model can be added, and the program can be re-upgraded to match the model impedance.
  • Page 50 TH9130 Series Instruction Manual Surface-to-Earth Leakage Current Inter-surface Leakage Current If the Reverse polarity switch is set to "Off" and the Ground ground switch is set to "Disconnected", the Probe Setup option will add two options, Ground to Zero and Auto, both of which are used to test for leakage current to ground, as shown below.
  • Page 51 TH9130 Series Instruction Manual Earth Leakage Current Automatic is measured once each with the Probe Switch switch placed in positions A and B in the diagram above. Test Probe Position Description Table Switch Position Ground To Line Probe Ground Leakage Current Test...
  • Page 52 If AC/DC is selected as AC or DC and the range is set to a fixed range, the minimum wait time time is 1.3 seconds. AC Power Supply (only available for TH9130): If AC Power Supply is set to On in the System Setup, there is a setup screen as shown below in the Setup screen of Electrical Test.
  • Page 53 TH9130 Series Instruction Manual Figure 3-33 AC Power Setup Setting up Default Configurable range Description the project value Set the test voltage of the AC power Test 0.0 ~ 277.0V supply. Close voltage 0.0 ~ 140.0V Higher/lower voltage ranges correspond to different ranges.

  • Page 54: Open Short Circuit Test Setup

    TH9130 Series Instruction Manual 3.5.8 Open Short Circuit Test Setup Figure 3-34 Open Short Circuit Test Setup Setting up the Configurable Default Description project range value Set the condition for determining that the Open Circuit 10% ~ 100%. test result is an open circuit, expressed...

  • Page 55: Measurement Test Setting

    TH9130 Series Instruction Manual Figure 3-35 Sampling Standard Settings 3.6 Measurement TEST Setting Operating Instructions: ⒈ Press 〖TEST〗key to enter the AC measurement interface shown in Figure 3-36.1. ⒉ Press "Zero" key to clear the zero function, press 〖▲〗, 〖▼〗 arrow keys or knob or touch the screen directly to display the parameter settings of different test steps as shown in Fig.
  • Page 56 TH9130 Series Instruction Manual Figure 3-36.2 DC Withstand Voltage Measurement Figure 3-36.3 Insulation Resistance Measurement Figure 3-36.4 Grounding Resistance Measurement...
  • Page 57 TH9130 Series Instruction Manual Figure 3-36.5 Conductivity Test Measurements Figure 3-36.6 Electrical Test Measurements (available for TH9130/TH9131 only) Figure 3-36.7 Leakage Current Measurement (only available for TH9130/TH9131)

  • Page 58: Zero

    TH9130 Series Instruction Manual Figure 3-36.8 Open/Short Circuit Measurement 3.6.1 Zero Before the test, due to the instrument working environment and the test cable placement position changes, the instrument no-load test may appear some bottom numbers. For customers who require accurate measurement, you can clear the zero in the TEST measurement interface.

  • Page 59: How To Test

    TH9130 Series Instruction Manual In the step display page, in addition to the step, test function and other information, at this time it will display the relevant test parameters of the step to be tested that has been set up and completed, as well as the main test data such as the measured voltage, current, resistance, and the test status and test results.

  • Page 60: Dut Connection Method

    TH9130 Series Instruction Manual ③ When sampling a standard capacitance value, first use a standard sample of the capacitance to be tested as the object to be tested, press Sampling in the OSC mode, and measure the capacitance value as the standard value to be used in the test.

  • Page 61: Test Program

    TH9130 Series Instruction Manual Figure 3-40 TH90022 Wiring Diagrams For test lead connections for electrical and leakage tests, refer to the two wiring diagrams above. The input terminal (AC input) of the DUT is connected to the L and N terminals on the rear panel of the instrument or to the socket terminal of the TH90022.
  • Page 62 TH9130 Series Instruction Manual In any case, to abort the test output just press the [STOP] key. 3.7.4.2 OSC Test Program ① Correctly connect the DUT according to the DUT connection method Press 〖TEST〗 key to enter into the measurement interface, then it will display the steps to be tested which have been set up, including test steps, test functions, and the percentage of open-circuit and short-circuit judgment, and the test voltage, capacitance value and time.

  • Page 63: File Storage

    TH9130 Series Instruction Manual Parameter setting calculation. Assume that Cs = 400P; OPEN value: Lower limit 100P/400P=25%, upper limit 350P/400P=88%, 60% recommended. SHORT value: Lower limit 450P/400P=112%, upper limit 550P/400P=138%, 125% is recommended. 3.8 File Storage Operating Instructions: 1, press 〖FILE〗key, enter the file management interface, as shown in Figure 3-41.

  • Page 64: Handler

    TH9130 Series Instruction Manual Functionality Description New Folder Create a new folder Delete Folder Delete the currently selected folder Rename Rename the currently selected file or folder Save to internal Store the current file inside the instrument Save Store the current file on a USB flash drive...
  • Page 65 TH9130 Series Instruction Manual provides the contact signal with the system and the test result output signal. The signals can be divided into two main categories: internal output signals and external input signals. The internal outputs can be further divided into test result outputs and contact signal outputs. Internal signal output specification: DC 24V, 20 ~ 40mA;...
  • Page 66 TH9130 Series Instruction Manual and the output is LOW. Insulation resistance test Electrical resistance is greater than the insulation upper limit, the test result is HIGH resistance FAIL, the output is LOW. Leakage test leakage current is Leakage greater than the upper limit, the...
  • Page 67 TH9130 Series Instruction Manual test The test power of the electrical Electrical test is less than the lower limit, the /RunP_LOW testing test result is LOW FAIL, and the output is LOW Pressure The test result is GFI_FAIL and resistance...

  • Page 68: External Control Line Legend

    TH9130 Series Instruction Manual 3.9.2 External Control Line Legend 3.9.2.1 Example of using the internal power supply...
  • Page 69 TH9130 Series Instruction Manual 3.9.2.2 Example of using the external power supply...
  • Page 70 TH9130 Series Instruction Manual 3.9.2.3 Timing Diagram Timing diagram - example of 2 test steps Time Range Explanations >10mS External trigger signal(/EXT_STRAT) continue time, need about >10mS External trigger signal(/EXT_STRAT) time needed from start to /EOT signal <20mS is cleared, <20mS...

  • Page 71: Chapter 4 Interfaces And Communications

    TH9130 Series Instruction Manual Chapter 4 Interfaces and Communications The instrument can use either the RS232C serial interface (standard) or the GPIB parallel interface (optional) for data communication and remote control without the instrument panel, but they cannot be used at the same time; they have the same programmed Commands but use different hardware configurations and communication protocols.
  • Page 72 TH9130 Series Instruction Manual Code Notation Connector Pin Number Transmit Data Receive Data Ground This is the easiest and cheapest way to communicate using the serial port. Note: The serial port pin definition of this instrument is basically the same as the pin definition of the connector of a standard 9-cell RS232C.
  • Page 73 TH9130 Series Instruction Manual When making your own connecting cable, note that you should short pins 4 and 6 and pins 7 and 8 on the computer connector. ■ When communicating with the computer through the serial port, the bus mode of the instrument should be set first, and the operation sequence is as follows.
  • Page 74 TH9130 Series Instruction Manual Command characters normally received from the host are sent back in that character. Executes the Query command and sends the query result to the host. Once the instrument executes the Query command, it will send the query result immediately, regardless of whether the current Command string has been fully executed.
  • Page 75 TH9130 Series Instruction Manual char read_port( int port ); /* recive a character form serial port */ void string_wr( char *ps ); /* write a string to serial port */ void string_rd( char *ps ); /* read a string from serial port */ char input[256].
  • Page 76 TH9130 Series Instruction Manual if( check_stat(PORT) & 256 ) { c = read_port( PORT ); break; if( n ) break; if( c == *ps ) ps++; else { printf( "\nE10:Write Echo Error!" ); exit(1); send_port( PORT,'\n' );/* send Command end symbol */ delay( 2 );...
  • Page 77 TH9130 Series Instruction Manual if( c == '\n' ) break; *ps = c. ps++; *ps = 0. /* send a character to serial port */ void send_port( int port,char c ) union REGS r. r.x.dx = port; /* serial port */ r.h.ah = 1;...

  • Page 78: Gpib Interface Description

    TH9130 Series Instruction Manual return r.h.al; /* check the status of serial port */ int check_stat( int port ) { union REGS r; } r.x.dx = port; /* serial port */ r.h.ah = 3; /* int14 function3:read status */ int86( 0x14,&r,&r ).
  • Page 79 TH9130 Series Instruction Manual The total cable length of a bus system should not exceed the product of 2 meters and the total number of connected test instruments, and the total cable length should not exceed 20 meters. Up to 15 test instruments can be connected simultaneously on the same bus.
  • Page 80 TH9130 Series Instruction Manual Testing Instruments Backplane Connectors Figure 5-2 DuAl-Backed Connector Stacking GPIB cable connection method two: Figure 5-3 QuAd-Back Connector Stacking...
  • Page 81 TH9130 Series Instruction Manual 4.1.2.2 GPIB Interface Function The instrument provides most of the general GPIB functions except for the controller, see the following table. Nicknames Functionality Support all data source contact functions Support all fiducial contact functions Basic Speak Function; Speak Function Only; Speak Cancel at MLA;...

  • Page 82: Serial Port Command Set Description

    Lower current limit (0 ~ upper limit value) Arc limit (0, 1.0 ~ 20.0mA) Test frequency (0:50Hz, 1:60Hz) Rise time; test time; fall time; Conductivity test (0:OFF, 1:ON) (only available for TH9130/TH9131) Backplane outputs (0:P-G, 1:S-G, 2:P-S) (only available for TH9130/TH9131) DC test multi-Command Example: TH9130/TH9131.
  • Page 83 Rising arc (1.0 ~ 10.0mA) Arc limit (0, 1.0 - 10.0mA) Rising time; Waiting time; Testing time; Falling time; Conductivity test (0:OFF, 1:ON) (only available for TH9130/TH9131) Backplane outputs (0:P-G, 1:S-G, 2:P-S) (only available for TH9130/TH9131) Insulation Test Multi-Instruction Example: TH9130/TH9131: FUNC:SUR:STEP_1:CAL_2_1.5_0_1000_0_0_0_6_0_0(NL^END) TH9130A/TH9131A: FUNC:SUR:STEP_1:CAL_2_1.5_0_1000_0_0_0_6_0(NL^END) Numbers and characters separated by spaces after the CAL character indicate, respectively: Test mode (0:AC, 1:DC, 2:IR, 3:GB, 4:CONT, 5:RUN, 6:LC, 7:OSC);...
  • Page 84 Test mode (0:AC, 1:DC, 2:IR, 3:GB, 4:CONT, 5:RUN, 6:LC, 7:OSC); Resistance upper limit (0 ~ 10000Ω) Resistance lower limit (0 ~ upper limit) Testing time Conductivity test (0:GND, 1:OFF, 2:L-N) (only available for TH9130/TH9131) Electrical Test Multi-instruction (TH9130/TH9131 available) Example:...

  • Page 85: Scpi Instruction Set

    *Source voltage range (0:LOW, 1:HIGH) *Source frequency (45.0 to 500.0Hz) *Zero wire grounding (0:OFF, 1:ON) *Overload constant current (0:OFF, 1:ON) Note*: *Indicates that it is only available for TH9130 Open and short circuit test multi-Command Example: FUNC:SOUR:STEP_1:CAL_7_20_300_10(NL^END) Numbers and characters separated by spaces after the CAL character indicate, respectively: Test mode (0:AC, 1:DC, 2:IR, 3:GB, 4:CONT, 5:RUN, 6:LC, 7:OSC);...
  • Page 86 TH9130 Series Instruction Manual  DISP:PAGE Command syntax: DISP:PAGE <page name> <page name> is as follows. TEST Set display screen to: Measurement display screen (TEST) SETUP Set the display screen to: Measurement setting screen (SETUP) SYST Set the display screen to: System settings screen...

  • Page 87: Function Subsystem Command Set

    Data accuracy: 1 --Data<model>: Data type: character Data range: 0(AC), 1(DC), 2(IR), 3(GB), 4(CONT), 5(RUN) (only available for TH9130/TH9131), 6(LC) (only available for TH9130/TH9131), 7(OSC) --Example: Set the test mode in STEP 1 to: IR Setting command: FUNC:SOUR:STEP 1:PRJ IR...
  • Page 88 TH9130 Series Instruction Manual --Data <voltage value>: Data type: floating point number Data range: 0.050~5.000 Data accuracy: 0.001 Data unit: kV --Example: Set the voltage of ACW in STEP 1 to: 1kV Setup command: FUNC:SOUR:STEP 1:AC:VOLT 1.000 Query command: FUNC:SOUR:STEP 1:AC:VOLT? Return value: 1.000...
  • Page 89 TH9130 Series Instruction Manual Data type: floating point number Data range: 0, 0.3 to 999.0s (0 means off) Data accuracy: 0.1s Data unit: s --Example: Set the test time for ACW in STEP 1 to: 1s Setting command: FUNC:SOUR:STEP 1:AC:TTIM 1 Query command: FUNC:SOUR:STEP 1:AC:TTIM? Return value: 1.0...
  • Page 90 TH9130 Series Instruction Manual Data accuracy: 0.1mA Data unit: mA --Example: Set the upper limit of ARC current for ACW in STEP 1 to: 1mA Setting command: FUNC:SOUR:STEP 1:AC:ARC 1 Query command: FUNC:SOUR:STEP 1:AC:ARC? Return value: 1.0  FUNC:SOURce:STEP:AC:FREQ Set/query the test frequency of ACW.
  • Page 91 TH9130 Series Instruction Manual Query command: FUNC:SOUR:STEP 1:AC: CONTI? Return value: 0 4.2.3.4 DC Setup Function Command Set  FUNC:SOURce:STEP:DC:VOLT Set/query the voltage of DCW. -- Format : Setting format: FUNC:SOUR:STEP <sn>:DC:VOLT <voltage value Query format: FUNC:SOUR:STEP <sn>:DC:VOLT? --Data<sn>: Data type: Integer...
  • Page 92 TH9130 Series Instruction Manual Data type: floating point number Data range: 0 to upper limit current value (0 means off) Data accuracy: 0.0001mA Data unit: mA --Example: Set the lower current limit of DCW in STEP 1 to: 1mA Setting command: FUNC:SOUR:STEP 1:DC:LOWC 1 Query command: FUNC:SOUR:STEP 1:DC:LOWC? Return value: 1.0000...
  • Page 93 TH9130 Series Instruction Manual Data unit: s --Example: Set the DCW fall time in STEP 1 to: 1s Setting command: FUNC:SOUR:STEP 1:DC:FTIM 1 Query command: FUNC:SOUR:STEP 1:DC:FTIM? Return value: 1.0  FUNC:SOURce:STEP:DC:WTIM Set/query the DCW wait time. --Format: Setting Format: FUNC:SOUR:STEP <sn>:DC:WTIM <time value>...
  • Page 94 TH9130 Series Instruction Manual --Example: Set the rising arc of DCW in STEP 1 to: 1mA Setting command: FUNC:SOUR:STEP 1: DC:RAMPARC 1 Query command: FUNC:SOUR:STEP 1:DC:RAMPARC? Return value: 1.0  FUNC:SOURce:STEP:DC:RAMP Set/query the status of DCW rising judgment --Format: Set the format: FUNC:SOUR:STEP <sn>:DC:RAMP <ON/OFF>or<1/0>...
  • Page 95 TH9130 Series Instruction Manual Return value: 0 4.2.3.5 IR Setup Function Command Set  FUNC:SOURce:STEP:IR:VOLT Set/query the voltage of IR. --Format: Setting format: FUNC:SOUR:STEP <sn>:IR:VOLT <voltage value Query format: FUNC:SOUR:STEP <sn>:IR:VOLT? --Data <voltage value>: Data type: floating point number Data range: 0.050~6.000 Data accuracy: 0.001...
  • Page 96 TH9130 Series Instruction Manual Return value: 1  FUNC:SOURce:STEP:IR:TTIM Set/query the test time of IR. --Format: Setting format: FUNC:SOUR:STEP <sn>:IR:TTIM <Time value> Query format: FUNC:SOUR:STEP <sn>:IR:TTIM? --Data<time value>: Data type: floating point number Data range: 0, 0.3 to 999.0s (0 indicates continuous testing) Data accuracy: 0.1s...
  • Page 97 TH9130 Series Instruction Manual --Format: Setting Format: FUNC:SOUR:STEP <sn>:IR:FTIM <time value> Query format: FUNC:SOUR:STEP <sn>:IR:FTIM? --Data<time value>: Data type: floating point number Data range: 0 to 999.0s (0 means off) Data accuracy: 0.1s Data unit: s --Example: Set the fall time of IR in STEP 1 to: 1s...
  • Page 98 TH9130 Series Instruction Manual Setting format: FUNC:SOUR:STEP <sn>:GB:CURR <Current Value Query format: FUNC:SOUR:STEP <sn>:GB:CURR? --Data <current value>: Data type: floating point number Data range: 1.00~40.00 Data accuracy: 0.01 Data unit: A --Example: Set the current of GB in STEP 1 to: 25A Setup Command: FUNC:SOUR:STEP 1:GB:CURR 25.00...
  • Page 99 TH9130 Series Instruction Manual value Query format: FUNC:SOUR:STEP <sn>:GB:LOWR? --Data <resistance value>: Data type: integer Data range: 0 to upper limit value Data accuracy: 1 Data unit: mΩ --Example: Set the lower resistance limit of GB in STEP 1 to: 10mΩ...
  • Page 100 TH9130 Series Instruction Manual Data type: character Data range: 0 to 2 (0:OFF, 1:AC, 2:DC) --Example. Set the synchronization test for GB in STEP 1 to: OFF Setting command: FUNC:SOUR:STEP 1:GB:DUAL 0 Query command: FUNC:SOUR:STEP 1:GB:DUAL? Return value: 0 ...
  • Page 101 TH9130 Series Instruction Manual --Data <resistance value>: Data type: integer Data range: 0 to upper limit value Data accuracy: 1 Data unit: Ω --Example: Set the lower resistance limit of CONT in STEP 1 to: 10Ω Setting command: FUNC:SOUR:STEP 1:CONT:LOWR 10.00 Query command: FUNC:SOUR:STEP 1:CONT:LOWR? Return value: 10.00...
  • Page 102 TH9130 Series Instruction Manual Query format: FUNC:SOUR:STEP <sn>:OSC:OPEN? --Data <ratio>: Data type: Integer Data range: 10 to 100 Data accuracy: 10 --Example: Set the OPEN ratio of the OSC in STEP 1 to: 50% Setting command: FUNC:SOUR:STEP 1: OSC:OPEN 50...
  • Page 103 TH9130 Series Instruction Manual 4.2.3.9 RUN Setup Function Command Set (available only for TH9130/TH9131)  FUNC:SOURce:STEP:RUN:UPPV Set/query the upper limit of voltage for RUN. --Format: Setting format: FUNC:SOUR:STEP <sn>:RUN:UPPV <voltage value Query format: FUNC:SOUR:STEP <sn>:RUN:UPPV? --Data <voltage value>: Data type: floating point number Data range: 0.0~277.0...
  • Page 104 TH9130 Series Instruction Manual Data unit: A --Example: Set the upper current limit of RUN in STEP 1 to 10A. Setting command: FUNC:SOUR:STEP 1:RUN:UPPC 10.00 Query command: FUNC:SOUR:STEP 1:RUN:UPPC? Return value: 10.00  FUNC:SOURce:STEP:RUN:LOWC Set/query the lower current limit of RUN.
  • Page 105 TH9130 Series Instruction Manual Data unit: W --Example: Set the lower power limit for RUN in STEP 1 to: 5W Setting command: FUNC:SOUR:STEP 1:RUN:LOWP 5 Query command: FUNC:SOUR:STEP 1:RUN:LOWP? Return value: 5  FUNC:SOURce:STEP:RUN:UPPF Set/query the upper limit of power factor of --Format: Setting format: FUNC:SOUR:STEP <sn>:RUN:UPPF <Power...
  • Page 106 TH9130 Series Instruction Manual Data accuracy: 0.01 Data unit: mA --Example: Set the upper limit of leakage current of RUN in STEP 1 to 3mA. Setting command: FUNC:SOUR:STEP 1:RUN:UPPL 3.00 Query command: FUNC:SOUR:STEP 1:RUN:UPPL? Return value: 3.00  FUNC:SOURce:STEP:RUN:LOWL Set/query the lower limit of leakage current of RUN.
  • Page 107 TH9130 Series Instruction Manual Data accuracy: 0.1s Data unit: s --Example: Set the wait time for RUN in STEP 1 to: 1s Setting command: FUNC:SOUR:STEP 1:RUN:WTIM 1 Query command: FUNC:SOUR:STEP 1:RUN:WTIM? Return value: 1.0  FUNC:SOURce:STEP:RUN:PLC Set/query remote control settings for RUN.
  • Page 108 TH9130 Series Instruction Manual Query format: FUNC:SOUR:STEP <sn>:RUN:ACSOUR:FREQ? --Data<frequency>: Data type: floating point number Data range: 45.0~500.0 Data accuracy: 0.1 Data unit: Hz --Example: Set the RUN AC source frequency in STEP 1 to: 400Hz Setting command: FUNC:SOUR:STEP 1:RUN:ACSOUR:FREQ Query command: FUNC:SOUR:STEP 1:RUN:ACSOUR:FREQ? Return value: 400 ...
  • Page 109 Set the RUN AC source voltage range in STEP 1 to: High Grade Setting command: FUNC:SOUR:STEP 1: RUN: ACSOUR:RANG 1 Query command: FUNC:SOUR:STEP 1: RUN: ACSOUR:RANG? Return value: 1  FUNC:SOURce:STEP:RUN:ACSOUR:FOLD (available only with TH9130) Set/query RUN AC source overload constant current setting --Format: Setting format: FUNC:SOUR:STEP <sn>:RUN:ACSOUR:FOLD <state>...
  • Page 110 TH9130 Series Instruction Manual --Example: Set the upper limit of leakage current of LC in STEP 1 to 3000uA. Setting commands: FUNC:SOUR:STEP 1:LC:UPPL 3000 Query command: FUNC:SOUR:STEP 1:LC:UPPL? Return value: 3000  FUNC:SOURce:STEP: LC:LOWL Set/query the lower limit of LC leakage current.
  • Page 111 TH9130 Series Instruction Manual Data unit: V --Example: Set the voltage lower limit of LC in STEP 1 to: 10V Setting command: FUNC:SOUR:STEP 1:LC:LOWV 10 Query command: FUNC:SOUR:STEP 1:LC:LOWV? Return value: 10  FUNC:SOURce:STEP:LC:TTIM Set/query the test time of LC.
  • Page 112 TH9130 Series Instruction Manual Setting command: FUNC:SOUR:STEP 1:LC:NEUT 0 Query command: FUNC:SOUR:STEP 1:LC:NEUT? Return value: 0  FUNC:SOURce:STEP:LC:REVE Set/query the polarity reversal status of LC. --Format: Setting format: FUNC:SOUR:STEP <sn>:LC:REVE <state> Query format: FUNC:SOUR:STEP <sn>:LC:REVE? --Data<status>: Data type: character Data range: 0 to 2 (0: off, 1: on, 2: Automatic)
  • Page 113 TH9130 Series Instruction Manual  FUNC:SOURce:STEP:LC:PROBE Set/query the probe status of the LC. --Format: Setting format: FUNC:SOUR:STEP <sn>:LC:PROBE <state> Query format: FUNC:SOUR:STEP <sn>:LC:PROBE? --Data<status>: Data type: character Data range: 0 to 4 (0: ground to fire, 1: probe to fire, 2: probe to...
  • Page 114 TH9130 Series Instruction Manual Data range: 0 to 1 (0: off, 1: on) --Example: Set the auto range of LC in STEP 1 to: OFF Setting command: FUNC:SOUR:STEP 1:LC:RANG 0 Query command: FUNC:SOUR:STEP 1:LC:RANG? Return value: 0  FUNC:SOURce:STEP:LC:PLC Set/query LC remote control settings.
  • Page 115 TH9130 Series Instruction Manual --Data<frequency>: Data type: floating point number Data range: 45.0~500.0 Data accuracy: 0.1 Data unit: Hz --Example: Set the LC AC source frequency in STEP 1 to: 400Hz Setting command: FUNC:SOUR:STEP 1:LC:ACSOUR:FREQ 400 Query command: FUNC:SOUR:STEP 1:LC:ACSOUR:FREQ? Return value: 400 ...
  • Page 116 TH9130 Series Instruction Manual --Format: Setting format: FUNC:SOUR:STEP <sn>:LC:ACSOUR:RANG <state> Query format: FUNC:SOUR:STEP <sn>:LC:ACSOUR:RANG? --Data<status>: Data type: character Data range: 0 to 1 (0: LOW, 1: HIGH) --Example: Set the LC AC source voltage range in STEP 1 to: High Grade...
  • Page 117 TH9130 Series Instruction Manual Return value: 1.000  FUNC:BREAKdown:AC:VOLTEnd Set/query the termination voltage of the AC breakdown test. --Format: Setting format: FUNC:BREAK:AC:VOLTE <VOLTAGE> Query Format: FUNC:BREAK:AC:VOLTE? --Data <voltage value>: Data type: floating point number Data range: 0.050~5.000 Data accuracy: 0.001...
  • Page 118 TH9130 Series Instruction Manual Query command: FUNC:BREAK:AC:STEP? Return value: 55  FUNC:BREAKdown:AC:UPPC Set/query the upper limit current of AC voltage breakdown test --Format: Setting format: FUNC:BREAK:AC:UPPC <current value Query Format: FUNC:BREAK:AC:UPPC? --Data <current value>: Data type: floating point number Data range: 0.001 to 100mA Data accuracy: 0.001mA...
  • Page 119 TH9130 Series Instruction Manual Set the test time for AC voltage breakdown test to 1s Setting command: FUNC:BREAK:AC:TTIM 1 Query command: FUNC:BREAK:AC:TTIM? Return value: 1.0  FUNC:BREAKdown:AC:RTIM Set/query the rise time for AC voltage breakdown test. --Format: Setting format: FUNC:BREAK: AC:RTIM<time value>...
  • Page 120 TH9130 Series Instruction Manual Set the AC voltage breakdown continuity test switch to: 1 (ON) Setting command: FUNC:BREAK:AC:CONT 1 Query command: FUNC:BREAK:AC:CONT? Return value: 1  FUNC:BREAKdown:DC:VOLTStart Set/query the starting voltage of the DC breakdown test. --Format: Setting format: FUNC:BREAK:DC:VOLTS <voltage value Query Format: FUNC:BREAK:DC:VOLTS? --Data <voltage value>:...
  • Page 121 TH9130 Series Instruction Manual Data unit: kV --Example: Set the step voltage for the DC voltage breakdown test to: 50V Setting command: FUNC:BREAK:DC:STEPVOLT 0.050 Query command: FUNC:BREAK:DC:STEPVOLT? Return value: 0.050  FUNC:BREAKdown:DC:STEP Set/query the number of test steps for the DC breakdown test.
  • Page 122 TH9130 Series Instruction Manual Data unit: mA --Example: Set the lower current limit of the DC voltage breakdown test to: Setting command: FUNC:BREAK:DC:LOWC 1 Query command: FUNC:BREAK:DC:LOWC? Return value: 1.0000  FUNC:BREAKdown:DC:TTIM Set/query the test time of DC voltage breakdown test --Format: Setting format: FUNC:BREAK:DC:TTIM <Time value>...
  • Page 123 TH9130 Series Instruction Manual Data accuracy: 0.1s Data unit: s --Example: Set the wait time for DC voltage breakdown test to: 1s Setting command: FUNC:BREAK:DC:WTIM 1 Query command: FUNC:BREAK:DC:WTIM? Return value: 1.0  FUNC:BREAK:DC:ARC Set/query the upper limit of ARC current for DC voltage breakdown test.

  • Page 124: System Subsystem Command Set

    TH9130 Series Instruction Manual 4.2.4 SYSTem Subsystem Commands Set 4.2.4.1 MEA Setup Function Command Set  SYSTem:MEA:TRGMODE Set/query the triggering method of the test. --Format: Setting format: SYSTem:MEA:TRGMODE <way> Query format: SYSTem:MEA:TRGMODE ? --Data<mode>: Data type: character Data range: 0 to 2 (0: manual, 1: external, 2: bus)
  • Page 125 TH9130 Series Instruction Manual --Format: Setting format: SYSTem:MEA: RPTCNT <number of times> Query format: SYSTem:MEA:RPTCNT? --Data <number of times>: Data type: integer Data range: 0 to 999 Data accuracy: 1 --Example: Set the number of repetitions to: 2 Setting command: SYSTem:MEA:RPTCNT 2...
  • Page 126 TH9130 Series Instruction Manual Data range: 0.2 to 99.9s Data accuracy: 0.1s Data unit: s --Example: Set the response time of the tested buzzer to: 1.0s Setting command: SYSTem:MEA:PASSHOLD 1.0 Query command: SYSTem:MEA:PASSHOLD? Return value: 1.0  SYSTem:MEA:STEPHOLD Set/query the inter-item hold time for test STEPs.
  • Page 127 TH9130 Series Instruction Manual Set the AC power supply to: 1 Setting command: SYSTem:MEA:ACSOURCEI 1 Query command: SYSTem:MEA:ACSOURCE? Return value: 1  SYSTem:MEA:DUTOUT Set/query the status of the backplane output. (available only for TH9130/TH9131) --Format: Setting format: SYSTem:MEA:DUTPOUT <ON/OFF >or<1/0>...
  • Page 128 TH9130 Series Instruction Manual --Format: Setting format: SYSTem:ENV:PASSVOL <TWO/LONG/OFF>or<2/1/0> Query format: SYSTem:ENV:PASSVOL? --Data < TWO/LONG/OFF >: Data type: character Data range: OFF(0), LONG(1), TWO(2) --Example: Set Qualified Sound Status to: LONG Setting command: SYSTem:ENV:PASSVOL 1 Query command: SYSTem:ENV:PASSVOL? Return value: 1 ...
  • Page 129 TH9130 Series Instruction Manual Set the key lock status to: Manual Setting command: SYSTem:ENV:KEYLOCK 0 Query command: SYSTem:ENV:KEYLOCK? Return value: 0  SYSTem:ENV:KEYLOCK:UNLOCK Unlock the key lock state. --Example: Unlock the key lock state under the bus unlock setting condition Setting command: SYSTem:ENV:KEYLOCK:UNLOCK ...

  • Page 130: Mmem Subsystem Command Set

    TH9130 Series Instruction Manual Return value: 2021,11,17  SYSTem:ENV:TIME Set/query the system time. --Format: Setting format: SYSTem:ENV:TIME <hour, minute, second>. Query format: SYSTem:ENV:TIME? --Data <hour, minute, second>: Data type: character Data range: 0 0 0 ~ 23 59 59 --Example:...
  • Page 131 TH9130 Series Instruction Manual Return value: OK for success, ERROR for failure.  MMEM:COPY Copy internal files specified by folder name to external storage. --Format: Setting format: MMEM:COPY <folder name> --Data <folder name>: Data type: character --Example: Set the copy folder name: TH9130TEST...

  • Page 132: Usb Subsystem Command Set

    TH9130 Series Instruction Manual  MMEM:COPY Copy the internal file specified by the filename to external storage. --Format: Setting format: MMEM:COPY <filename>. <file format>. --Data <filename>/<file format>: Data type: character --Example: Set the copy file name to: TH9130TEST Setting command: MMEM:COPY TH9130TEST.sta Return value: OK for successful copying, ERROR for failed copying.
  • Page 133 TH9130 Series Instruction Manual --Format: Setting Format: USB:NEW <folder name> --Data <folder name>: Data type: character (case sensitive) Return value: OK --Example: Set the new folder name: TH9130test Setting command: USB:NEW TH9130test  USB:DEL Delete the external folder specified by the folder name.
  • Page 134 TH9130 Series Instruction Manual Data type: character (case sensitive) Return value: OK --Example: Set the new file name to: TH9130test Setting command: USB:NEW TH9130test.sta  USB:DEL Delete the external file specified by the filename. --Format: Setting format: USB:DEL <filename>.sta --Data<filename>:...

  • Page 135: Fetch Subsystem Command Set

    TH9130 Series Instruction Manual Setting command: USB:SAVE TH9130TEST.sta  USB:LOAD Load the external file specified by the filename into the current. --Format: Setting format: USB:LOAD <filename>.sta --Data<filename>: Data type: character --Example: Set the load file name to: TH9130TEST Setting command: USB:LOAD TH9130TEST.sta Return value: OK for successful loading, ERROR for failed loading.

  • Page 136: Other Control Command Sets

    Test steps:4,Test Mode:CONT, Actual Test Resistance 900Ω,Test Conclusion:PASS. Test steps: 5, Test mode: RUN, Test Voltage 220V, Current 2A, Power 440W, Power Factor 1.000, Leakage Current 1mA, Test Conclusion: PASS; (only available for TH9130/TH9131) Test steps:6, Test Mode:LC, Power Supply Voltage 230V, MD Voltage 3000mV, Leakage Current 3000uA, Maximum Leakage Current 3006uA, Test Conclusion:PASS;...
  • Page 137 TH9130 Series Instruction Manual Query return: <manufacturer>,<model>,<firmware><NL^END>. Here: <manufacturer> Give the name of the manufacturer (i.e. Tonghui) <model> Give the model number of the machine (e.g. TH9130/TH9130A) <firmware> Give the software version number (e.g. Ver1.0 2) Example:*IDN? Return: Tonghui,TH9130,Ver1.02 FUNC:START Start the test FUNC:START <num>...

  • Page 138: Chapter 5 Technical Indicators

    TH9130 Series Instruction Manual Chapter 5 Technical Indicators Model TH9130/TH9130A TH9131/TH9131A Pressure resistance test Output Voltage 0.05-5.0kV voltage range Voltage 50/60Hz ± 0.1% sine wave Waveform Output 500VA (5.0kV 100mA) 200VA (5.0kV 40mA) power Voltage 0.05-6.0kV range Output 150VA (6.0kV 25mA) 120VA (6.0kV 20mA)
  • Page 139 ± (1% of reading + 3 words) 1001-10000Ω ± (1% of reading + 10 words) Testing time 0.3-999s, 0 for continuous testing Electrical testing (only available for TH9130/TH9131) Voltage Measurement Range, 0.0-277.0V 0.1V ± (1.5% of reading + 2 words)
  • Page 140 ± (2% of reading + 2 words) resolution and accuracy Testing time 0.1-999s, 0 means continuous test Waiting time 0.2-999s Leakage current test (only available for TH9130/TH9131) DUT power supply range and 0-277Vac, 16Aac max ± (1.5% of reading + 2 words) accuracy (30-277V) Leakage current test range 0.0uA-10.00mA...
  • Page 141 TH9130 Series Instruction Manual of 0.5 kΩ 1kΩ kΩ (>6% range) Range 1 0.0uA - 64.0uA 0.0uA - 32.0uA 0.0uA - 22.0uA Range 2 15.6uA - 260.0uA 7.8uA - 130.0uA 5.1uA - 85.0uA Range 3 63uA - 1050uA 31.5uA - 525.0uA 21.0uA - 350.0uA...
  • Page 142 TH9130 Series Instruction Manual range) (<6% of range) Range 1-5 AC+DC ± (2% of reading + 3 + (2% of reading + words) 0.2% of range) 15Hz<f<100khz ± (2% of reading + 3 + (2% of reading + words) 0.2% of range) 100khz≤f≤1mhz...
  • Page 143 TH9130 Series Instruction Manual of 0.5 kΩ 1kΩ kΩ (<6% range) Range 1 Range 2 0.0uA - 15.6uA 0.0uA - 7.8uA 0.0uA - 5.1uA Range 3 0uA - 63uA 0.0uA - 31.5uA 0.0uA - 21.0uA Range 4 0uA - 252uA...
  • Page 144 TH9130 Series Instruction Manual Auto range MD main resistance MD main resistance is MD main resistance of 1.5 of 0.5 kΩ 1kΩ kΩ Range 1 0.0mv - 32.0mv 0.0mv - 32.0mv 0.0mv - 32.0mv Range 2 28.0 mv - 130.0mv 28.0 mv - 130.0mv...
  • Page 145 TH9130 Series Instruction Manual 30Hz<f<100khz ± (2% of reading + 3 words) 100khz≤f≤1mhz ± (5% of reading) >10.0mv DC only ± (2% of reading + 3 words) > 10.0mv Range 6 AC+DC ± (5% of reading) >10.0mv 15Hz<f<100khz AC only 15Hz<f≤30Hz...
  • Page 146 TH9130 Series Instruction Manual Range 1 0.0mv - 32.0mv 0.0mv - 32.0mv 0.0mv - 32.0mv Range 2 7.8mv - 130.0mv 7.8mv - 130.0mv 7.8mv - 130.0mv Range 3 31.5mv - 525.0mv 31.5mv - 525.0mv 31.5mv - 525.0mv Range 4 126mv - 2100mv...
  • Page 147 TH9130 Series Instruction Manual 100khz<f<1mhz ± (10% of reading + (2% of reading + 0.5% of + 2mv) range) Range 6 AC+DC ± (2% of reading + (2% of reading + 0.2% of + 3 words) range) 15Hz<f<100khz ± (10% of reading...

  • Page 148: Chapter 6 Appendice

    TH9130 Series Instruction Manual Chapter 6 Appendice 6.1 Warranty Warranty period: the warranty period of one year shall be calculated from the date of shipment of the instrument purchased from the Company by the user unit, or from the date of shipment of the instrument purchased from the operating department.
  • Page 149 TH9130 Series Instruction Manual Modifying the MD Selection Screen June 2023 ..........Fifth Edition Modification of IR specifications Revise the format of some of the instructions August 2023 ..........Sixth Edition Modification of IR specifications Modification of some instructions...

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