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Summary of Contents for Cubicon Lux
- Page 1 LCR Meter LCR-6300/6200/6100/6020/6002 User's Guide VERSION: 1.04 ISO-9001 CERTIFIED MANUFACTURER...
- Page 2 This manual contains proprietary information, which is protected by copyright. All rights are reserved. No part of this manual may be photocopied, reproduced or translated to another language without prior written consent of the Good Will company. The information in this manual was correct at the time of printing.
- Page 3 LCR-6000 Series User Manual Safety Summary Warning Dangerous When you notice any of the unusual conditions listed below, immediately terminate operation and disconnect the power cable. Please contact the GWINSTEK service center representative for repair of the instrument. If you continue to operate without repairing the instrument, there is a potential fire or shock hazard for operators.
- Page 4 Safety Summary Operating personnel must not remove instrument Keep Away From Live covers. Component replacement and internal Circuits adjustments must be made by qualified maintenance personnel. Do not replace components with the power cable connected. Under certain conditions, dangerous voltages may exist even with the power cable is removed.
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Page 5: Table Of Contents
LCR-6000 Series User Manual Table of Contents 1. UNPACKING AND PREPERATION ...........11 Incoming Inspection ................ 11 Environmental Requirements ............12 Cleaning .................... 12 How to Remove the Handle ............13 2. OVERVIEW ..................14 Introduction ..................14 Main Specifications and Features ........... 15 2.2.1 Test Function ................ - Page 6 Table of Contents 3. STARTUP....................21 Front panel ..................21 Rear Panel ..................22 Power On/Off ................. 22 3.3.1 Power On .................. 22 3.3.2 Power Off ................. 22 Warm‐up Time ................. 23 Connect to the Device Under Test (DUT) ........23 4.
- Page 7 LCR-6000 Series User Manual 4.5.1 Enlarge Display ................ 49 4.5.2 Direct Comparison Function ..........50 5. SETUP KEY ..................51 [MEAS SETUP] Page ..............51 5.1.1 Source Output Impedance [SRC RES] ......... 52 5.1.2 Averaging Factor [AVG] ............53 5.1.3 DC Bias Voltage [BIAS] ............53 5.1.4 Auto LCZ Function [AUTO LCZ] ........
- Page 8 Table of Contents 6.1.5 TERMINATOR............... 72 6.1.6 Hand Shake ................72 6.1.7 Error Code ................73 6.1.8 Result ..................74 6.1.9 DATA BUFFER ..............74 6.1.10 DEFAULT SET ..............75 [SYSTEM INFO] Page ..............76 7. FILE OPERATION ................77 [FILE] Page ..................77 7.1.1 [MEDIA] ...................
- Page 9 LCR-6000 Series User Manual 11.6.2 DISP:PAGE ................98 11.7 FUNCtion Subsystem ..............100 11.7.1 FUNCtion ................100 11.7.2 FUNCtion:IMPedance:AUTO ..........101 11.7.3 FUNCtion:IMPedance:RANGe ........... 101 11.7.4 FUNCtion:DCR:RANGe ............. 101 11.7.5 FUNCtion:RANGe:AUTO ..........102 11.7.6 FUNCtion:MONitor 1 /2............. 102 11.8 LEVel Subsystem ................104 11.8.1 LEVel:VOLTage (=VOLTage[:LEVel]) ......
- Page 10 Table of Contents 11.11.8 COMParator:BEEP ............114 11.11.9 COMParator:OPEN ............114 11.12 LIST Subsystem ................115 11.12.1 LIST:PARAmeter ............115 11.12.2 LIST:STAT ..............115 11.12.3 LIST:BAND ..............116 11.13 CORRection Subsystem ............... 117 11.13.1 CORRection:OPEN ............117 11.13.2 CORRection:OPEN:STATe ......... 118 11.13.3 CORRection:OPEN:LCR ..........
- Page 11 LCR-6000 Series User Manual 11.18.1 SYSTem:SHAKehand............ 124 11.18.2 SYSTem:CODE ............. 124 11.18.3 SYSTem:KEYLock ............125 11.18.4 SYSTem:RESult.............. 125 11.19 Common Commands ..............125 11.19.1 *IDN? ................125 11.19.2 *TRG ................125 11.19.3 *SAV ................126 11.19.4 *RCL ................126 12. SPECIFICATION ................127 12.1 General Specification ..............
- Page 12 Table of Contents Table of Figures Figure 1 -1 How to remove the handle ............. 13 Figure 2 -1 Disk Ready ..................19 Figure 2 -2 Screen Saved ..................19 Figure 3 -1 Front panel ..................21 Figure ...
- Page 13 LCR-6000 Series User Manual Figure 1 1-6 APERture Subsystem Command Tree ........107 Figure 1 1-7 FETCh Subsystem Command Tree ..........108 Figure 1 1-8 COMParator Subsystem Command Tree ........111 Figure 1 1-9 LIST Subsystem Command Tree ..........115 Figure ...
- Page 14 Table of Contents List of Tables Table 2-1 Equivalent Circuit ................15 Table 2-2 Display Range ................... 16 Table 3-1 Front panel description ..............21 Table 3-2 Rear panel description ..............22 Table 4-1 Measurement parameter combinations ......... 25 Table 4-2 Monitor parameters ................
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Page 15: Unpacking And Preperation
LCR-6000 Series User Manual NPACKING AND PREPERATION This chapter describes how to set up and start the LCR-6000 Series LCR Meter. Incoming Inspection Environmental Requirements Cleaning How to Remove the Handle 1.1 Incoming Inspection After you receive the instrument, perform the following checks during unpacking according to the following procedure: If the external face of the instrument (such as... -
Page 16: Environmental Requirements
UNPACKING AND PREPERATION If an abnormality is detected, contact the company and Note transport the meter to your nearest GW INSTEK Instruments sales or service office. Save the packing box, shock-absorbing material, and packaged items as you received them in case you need to mail the instrument to an authorized GW Instek distributor or service center. -
Page 17: How To Remove The Handle
LCR-6000 Series User Manual 1.4 How to Remove the Handle A handle kit is attached to the LCR-6000 Series: Figure 1 -1 How to remove the handle Retracted Carrying Position Extended Remove Handle (Lift the handle perpendicular to the unit while pulling it in the direction of 1.) -
Page 18: Overview
Overview VERVIEW This chapter contains general information about LCR-6000 Series .The information is organized as follows. Introduction Main Specifications Feature overview 2.1 Introduction Thank you for purchasing an LCR-6000 Series LCR meter. The GW INSTEK LCR-6000 Series is a general-purpose LCR meter for incoming inspection of components, quality control, and laboratory use. -
Page 19: Main Specifications And Features
LCR-6000 Series User Manual 2.2 Main Specifications and Features 2.2.1 Test Function Cs-Rs, Cs-D, Cp-Rp, Cp-D, Lp-Rp, Lp-Q, Ls-Rs, Ls-Q, Rs-Q, Rp-Q, R-X, DCR, Z-θr, Z-θd, Z-D, Z-Q 2.2.2 Equivalent Circuit Serial and Parallel Table 2 -1 Equivalent Circuit Circuit Dissipation Conversion... -
Page 20: Trigger Mode
Overview NOTE *1. Measurement speed in 300kHz, typical. 2.2.5 Trigger Mode Includes Internal, Manual, External and Bus Trigger. 2.2.6 Basic Accuracy 0.05%@SLOW/MED 0.1%@FAST 2.2.7 Display Range Table 2 -2 Display Range Parameter Display Range 0.00001uH ~ 9999.99H 0.00001pF ~ 9999.99mF R, X, |Z| 0.00001Ω... -
Page 21: Test Signal Level
LCR-6000 Series User Manual 2.3.2 Test Signal Level 10.00mV- 2.00V (± 10%) CV mode:10.00mV- 2.00V(± 6%) 100.0uA- 20.00mA (± 10%) CC mode:100.0uA- 20.00mA(± 6%) @2VMax DCR: ± 1V(2Vpp), Square wave, 3Hz up 0.033A(Max), Output impedance fixed 30Ω 2.3.3 Output impedance 30Ω, 50Ωand 100Ω... -
Page 22: List Sweep
Overview 2.4.3 List Sweep Points There is a maximum of 10 points. Sweep parameters Test frequency, test voltage, test current. Comparator function of list sweep The comparator function enables you to set one pair of lower and upper limits for each measurement point. You can select from: Judge with the first sweep parameter/Judge with the second parameter/Not used for each pair of limits. -
Page 23: Figure 2 -1 Disk Ready
LCR-6000 Series User Manual Save Screen After a USB disk has been inserted into the USB host port of the LCR meter and if the meter detects that the USB disk is usable, the meter will show “USB Disk Ready. Press <Enter> to save screen.” on the lower part of the LCD screen. -
Page 24: Dc Bias Voltage
Overview 2.6.2 DC Bias Voltage 0V ~ ± 2.5V Accuracy: ± 0.5%+0.005V... -
Page 25: Startup
LCR-6000 Series User Manual TARTUP This chapter describes names and functions of the front panel, rear panel, and screen display and provides the basic procedures for operating the LCR- 6000 Series. Front panel summary Rear panel summary Power On/Off ... -
Page 26: Rear Panel
Startup Trigger Key ESC Key USB Disk Port (USB-Host) System Soft-key 3.2 Rear Panel Figure 3 -2 Rear Panel Table 3 -2 Rear panel description Description Power Cable Receptacle(Outlet) (to LINE) Frame Terminal RS-232C Interface Handler Interface 3.3 Power On/Off 3.3.1 Power On Press the power key for at least 2 seconds. -
Page 27: Warm-Up Time
LCR-6000 Series User Manual 3.4 Warm‐up Time LCR-6000 Series is ready to be used as soon as the power-up sequence has completed. However, to achieve the specification accuracy, first warm up the instrument for 30 minutes. 3.5 Connect to the Device Under Test (DUT) The LCR-6000 Series uses a four terminal measurement configuration that provides easy, accurate and stable... -
Page 28: Measure Key
Measure Key EASURE KEY This section includes the following information: MEAS DISPLAY page OPEN/SHORT page LIST SETUP page LIST MEAS page 4.1 [MEAS DISPLAY] Page When the [Measure] key is pressed, the [MEAS DISPLAY] page appears. The following measurement controls can be set. -
Page 29: Measurement Function [Func]
LCR-6000 Series User Manual Figure 4 -1 [MEAS DISPLAY] Page 4.1.1 Measurement Function [FUNC] The LCR-6000 Series simultaneously measures four components of complex impedance (parameters) in a measurement cycle. These include a primary parameter, a secondary parameter and two monitor parameters. NOTE The monitor parameters can be set in the [SETUP] page. -
Page 30: Table 4-3 Measurement And Monitor Parameter Descriptions
Measure Key Table 4 -3 Measurement and Monitor parameter descriptions Parameter Description Capacitance value measured using the series equivalent circuit model Capacitance value measured using the parallel equivalent circuit model Inductance value measured using the series equivalent circuit model Inductance value measured using the parallel equivalent circuit model Equivalent series resistance measured... -
Page 31: Impedance Range [Range]
LCR-6000 Series User Manual 4.1.2 Impedance Range [RANGE] Impedance range mode To achieve the best measurement result, it is recommended to set the impedance range mode to “Auto range”. When using “Hold range”, errors in measurement results may occur if the measured value exceeds the full scale of the selected range. -
Page 32: Table 4-5 Effective Measurement Range For The Impedance Range When In Hold State
Measure Key Table 4 -5 Effective measurement range for the impedance range when in HOLD state. Range Impedance Effective measurement range range 10Ω 0 - 10Ω 30Ω 10Ω-100Ω 100Ω 100Ω-316Ω 300Ω 316Ω-1kΩ 1kΩ 1kΩ-3.16kΩ 3kΩ 3.16kΩ-10kΩ 10kΩ 10kΩ-31.6kΩ 30kΩ 31.6kΩ-100kΩ... -
Page 33: Test Frequency [Freq]
LCR-6000 Series User Manual Procedure for setting the impedance range [RANGE] Step 1. Press the [Measure] key. Step 2. Use the cursor key to select the [RANGE] field. Step 3. Use the soft-keys to select the impedance range mode or impedance range. Soft-key Function AUTO RANGE... -
Page 34: Table 4-8 Lcr-6300'S Predefined Test Frequencies That Can Be Selected By Using Incr+/Decr
Measure Key Procedure for setting test frequency [FREQ] Step 1. Press the [Measure] key. Step 2. Use the cursor key to select the [FREQ] field. Step 3. Use the soft-keys or numeric entry keys to enter the test frequency. When data is entered with the numeric keys, the soft-keys change to unit labels (Hz, kHz). -
Page 35: Trigger Mode [Trig]
LCR-6000 Series User Manual Table 4 -12 LCR-6002’s predefined test frequencies that can be selected by using INCR+/DECR‐ INCR+/DECR- 10Hz 50Hz 60Hz 100Hz 120Hz 1kHz 2kHz 4.1.4 Trigger Mode [TRIG] LCR-6000 Series supports four trigger modes: INT (internal), EXT (external), MAN (manual) and BUS (RS- 232). -
Page 36: Test Signal Voltage/Current Level [Level]
Measure Key 4.1.5 Test Signal Voltage/Current Level [LEVEL] The LCR-6000 Series’ test signal voltage/current level can be set as the effective value (RMS value) of a sine wave of the test frequency from the unit’s internal oscillator. When a constant voltage or current level measurement is performed, an asterisk mark (*) appears at the end of the LEVEL display. -
Page 37: Measurement Speed [Speed]
LCR-6000 Series User Manual 4.1.6 Measurement Speed [SPEED] SLOW, MED and FAST can be selected for LCR-6000 Series. SLOW mode will result in more stable and accurate measurement results. Procedure for setting measurement speed mode Step 1. Press the [Measure] key. Step 2. -
Page 38: Measurement Log [Log]
Measure Key 26.5 88.5 24.5 100k 88.5 24.5 300k 88.5 24.5 4.1.7 Measurement log [LOG] The LCR-6000 has an internal data buffer that record up to 10000 measurement readings. These readings can be saved to an external USB drive in a .csv file format. These readings can then be opened on a PC using software such as Windows Excel. - Page 39 LCR-6000 Series User Manual SAVE TO USB Saves the recorded readings in the buffer to an external USB flash drive. The internal buffer is cleared after this operation. CLEAR Clears the internal buffer. BUFFER SAVE & STOP Stops the recording and saves the recorded readings in the internal buffer to an external USB flash drive.
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Page 40: Open/Short] Page
Measure Key Before saving the recorded readings in the internal buffer to the external USB flash drive, remember to plug the external USB drive into the USB port on the front panel. The recorded readings will be saved in a subdirectory named MEAS DATA, whose parent directory will have the same name as the LCR-6000 model being used. -
Page 41: Open Correction [Open]
LCR-6000 Series User Manual Figure 4 -2 [OPEN/SHORT] Page 4.2.1 Open Correction [OPEN] The LCR-6000 Series’ OPEN correction capability cancels errors due to the stray admittance (G, B) in parallel with the device under test (Refer to Figure 4 -3). Figure ... -
Page 42: Short Correction [Short]
Measure Key Disables open correction. MEAS OPEN Starts open correction (AC). DCR OPEN Starts open correction (DC). Step 4. Press the [MEAS OPEN] or [DCR OPEN] soft-key. A dialog message, “Open-circuit the test terminals” will appear. Step 5. Connect the test fixture to the BNC terminals. Do not connect the DUT to the fixture. -
Page 43: Spot Correction
LCR-6000 Series User Manual Step 1. Press the [Measure] key. Step 2. Press the [OPEN SHORT] soft-key. Step 3. Use the cursor key to select the [SHORT] field. Soft-key Function Enables short correction. Disables short correction. MEAS SHORT Starts short correction (AC). DCR SHORT Starts short correction (DC). - Page 44 Measure Key To specify frequency points and perform open correction Step 1. Press the [Measure] key. Step 3. Press the [OPEN SHORT] soft-key. Step 3. Use the cursor key to select the [SPOT] field. Step 4. Enter the frequency using the numeric entry keys.
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Page 45: List Setup] Page
LCR-6000 Series User Manual To specify frequency points and perform short correction Step 1. Press the [MEAS SHORT] soft key, a dialog message, “Short-circuit the test terminals”, will be displayed. Step 2. Connect the test fixture to the BNC terminals and short-circuit the test terminals. -
Page 46: Measurement Function [Func]
Measure Key Figure 4 -5 [LIST SETUP] Page 4.3.1 Measurement Function [FUNC] Select the primary and the secondary measurement here. 4.3.2 Test Mode [MODE] The [LIST MEAS] page will execute a list of up to 10 swept frequency or amplitude tests. When [MODE] is set to SEQ and [TRIG] is set to MAN, the [LIST MEAS] function will automatically execute each test step on the list in sequence until the... -
Page 47: List Measurement Parameters
LCR-6000 Series User Manual Trigger Mode Function Trigger by the meter’s internal trigger source. Trigger by pressing the trigger button. Trigger by sending a signal to the trigger pin on the handler interface. Trigger by the RS-232 port. 4.3.3 List Measurement Parameters The list parameter used for the list measurement can be the measurement frequency or the signal level [V/A]. -
Page 48: List Point And Limit Modes
Measure Key 4.3.4 List Point and Limit Modes The List measurement feature supports up to 10 list points as well as measurement limit values. Each list point can be turned on or off. To configure the list points: Step 1. Press the [Measure] key. -
Page 49: List Meas] Page
LCR-6000 Series User Manual 4.4 [LIST MEAS] Page The [LIST MEAS] page will appear when you press the [Measure] key and then the [LIST MEAS] soft-key. Figure 4 -6 [LIST MEAS] Page On the [LIST MEAS] page, the list points are swept and the measurement results are compared to the limits. -
Page 50: Test Mode [Mode]
Measure Key Trigger mode When entering LIST MEAS for the first time, the system will set Trig Mode to MAN and automatically performs a measurement. Trig Mode Function Internal Trigger. All ten list points are swept continuous. Manual Trigger. Each time the instrument is triggered by [Trig] key, the list points are swept one by one. -
Page 51: Range Mode [Range]
LCR-6000 Series User Manual There are 4 available trigger modes in the [LIST MEAS] page. Trigger Modes Function Trigger by the meter’s internal trigger source. Trigger by pressing the trigger button. Trigger by sending a signal to the trigger pin on the handler interface. Trigger by the RS-232 port. - Page 52 Measure Key Soft-key Function SAVE & STOP Stops the recording and saves the recorded readings in the internal buffer to an external USB flash drive. The internal buffer will be cleared after the save operation. If an external USB flash drive is not plugged in, the meter will not stop the ongoing recording.
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Page 53: Enlarge Display] Page
LCR-6000 Series User Manual 4.5 [ENLARGE DISPLAY] Page Only four measurement values will be shown in this simplified display mode: The primary measurement parameters, the secondary measurement parameters and two monitored parameters such as △, △%, Iac or Vac, etc. 4.5.1 Enlarge Display Press the ENLARGE soft-key in the [MEAS DISPLAY] to enter the [ENLARGE DISPLAY] mode (simplified... -
Page 54: Direct Comparison Function
Measure Key Figure 4 -7 [ENLARGE DISPLAY] Page 4.5.2 Direct Comparison Function The Direct Comparison function can be turned on in the [BIN SETUP] page. When the number of bins is set to 1 in the [BIN SETUP] page, the Direct Comparison function will be activated for the [ENLARGE DISPLAY] mode. -
Page 55: Setup Key
LCR-6000 Series User Manual ETUP KEY This section includes the following information: MEAS SETUP page BIN SETUP page BIN MEAS page BIN COUNT page Every time or everywhere you can press the [Setup] key to open the [MEAS SETUP] page. -
Page 56: Source Output Impedance [Src Res]
Setup Key In the [MEAS SETUP] Page, you can configure each of the following measurement controls with the cursor placed in the corresponding field. Measurement Function [FUNC] Impedance range [RANGE] Test Frequency [FREQ] Trigger Mode [TRIG] Test Signal Voltage Level [LEVEL] ... -
Page 57: Averaging Factor [Avg]
LCR-6000 Series User Manual Soft-key Function 30Ω 30Ω 50Ω 50Ω 100Ω 100Ω 5.1.2 Averaging Factor [AVG] The averaging feature allows you to obtain moving average values of successive measurement results. You can specify the averaging factor from integer 1 to integer 256. -
Page 58: Auto Lcz Function [Auto Lcz]
Setup Key test. -2V voltage is applied to the device under test. Bias Voltage range Resolution 0.01V ≦ DC BIAS ≦ 2.50V 0.01V -2.50V≦ DC BIAS ≦ -0.01V 0.01V 5.1.4 Auto LCZ Function [AUTO LCZ] Auto LCZ Function can help you to select a proper measurement parameter. -
Page 59: Measurement Delay [Delay]
LCR-6000 Series User Manual Procedure for setting monitor parameters (monitor 1 and monitor 2) Step 1. Press the [Setup] key. Step 2. Use the cursor key to select [MON 1] or [MON 2] field. Step 3. Use the soft-keys to select DC bias voltage. Soft-key Function Turn off the monitor... -
Page 60: Nominal Value [Nominal]
Setup Key NOTE In situations when the actual measuring Vac or Iac goes beyond the extent that the ALC can regulate, a warning message, “Failed! ALC can’t regulate!”, will be shown at the bottom of the screen to indicate to the operator that the ALC can no longer regulate Vac/Iac. -
Page 61: Bin Setup] Page
LCR-6000 Series User Manual 5.2 [BIN SETUP] Page Press [Setup] key and press the [BIN SETUP] soft-key to open [BIN SETUP] page. This page allows you to configure the LCR-6000 Series’ built-in comparator. The built-in comparator can sort DUTs into a maximum of 10 levels (BIN1 through BIN9 and OUT) using up to nine sets of primary parameter limits along with one set of secondary parameter limits. -
Page 62: Measurement Function [Func]
Setup Key Figure 5 -2 [BIN SETUP] Page 5.2.1 Measurement Function [FUNC] The LCR-6000 Series simultaneously measures four components of the complex impedance (parameters) in a measurement cycle. These include primary parameter, secondary parameter and two monitor parameters. Please refer to the ... -
Page 63: Figure 5 -3 Page Comparator Workflow
LCR-6000 Series User Manual Figure 5 -3 Page Comparator Workflow Sorting Start COMP=ON BIN1 <Primary<BIN1 …. BIN9 <Primary<BIN9 AUX=ON AUX=ON Lower<Secondary<Upper Lower<Secondary<Upper Display: OUT AUX NG Display: BIN1-9 AUX NG Display: BIN1-9 OK Display: OUT NG Output: NG Output: NG Output: BIN_1 or BIN_2 …... -
Page 64: Auxiliary Bin [Aux]
Setup Key 5.2.3 Auxiliary Bin [AUX] After AUX is turned on, DUTs that do not fall within the primary parameter limit values are sorted as OUT. In addition, DUTs that fall within the primary parameter limits but are out of the secondary parameter limits are sorted into the auxiliary (AUX) bin. -
Page 65: Figure 5 -4 Absolute Mode
LCR-6000 Series User Manual Absolute mode[ABS] Absolute value (Δ) = UNKNOWN value – nominal value Figure 5 -4 Absolute mode Includes the point ● ○ Excludes the point Percentage mode [PER] Deviation percentages (%) = Absolute value (Δ)/nominal value × 100% Figure ... -
Page 66: Figure 5 -6 Sequential Mode
Setup Key Sequential mode[SEQ] Figure 5 -6 Sequential mode Includes the point ● ○ Excludes the point In Sequential mode, the comparison limit values are based on the absolute value of the measurement. The nominal value does not need to participate in operation. To set up the comparator limit mode Step 1. -
Page 67: Nominal Value For Tolerance Mode
LCR-6000 Series User Manual 5.2.5 Nominal value for tolerance mode You must configure the nominal value when you use tolerance mode as the limit mode for the primary parameter. In sequential mode the nominal value does not affect sorting. In sequential mode, you do not need to configure the nominal value. -
Page 68: Lower And Upper Limits
Setup Key Soft-key Function 1-BINS Set to 1 bin 2-BINS Set to 2 bins 3-BINS Set to 3 bins 4-BINS Set to 4 bins 5-BINS Set to 5 bins 6-BINS Set to 6 bins 7-BINS Set to 7 bins 8-BINS Set to 8 bins 9-BINS Set to 9 bins... -
Page 69: Comparator Function On/Off
LCR-6000 Series User Manual Figure 5 -7 [BIN MEAS] Page This page provides the following information: FUNC, RANGE, FREQ, LEVEL, TRIG, LEVEL, SPEED: These conditions can be set from [MEAS DISPLAY] page. Comparator function ON/OFF [COMP]. Auxiliary bin ON/OFF [AUX]. ... -
Page 70: Auxiliary Bin [Aux]
Setup Key Soft-key Function Turns OFF the COMP function Turns ON the COMP function 5.3.2 Auxiliary Bin [AUX] After AUX is turned on, DUTs that do not fall within the primary parameter limit values are sorted as OUT. In addition, DUTs that fall within the primary parameter limits but out of the secondary parameter limits are sorted into the auxiliary (AUX) bin. -
Page 71: Counter Function [Count]
LCR-6000 Series User Manual 5.4.1 Counter Function [COUNT] The number of DUTs sorted into each bin is counted while the unit sorts the DUTs into the appropriate bins using the comparator function. When the maximum count of 99999999 is reached, the counting operation stops and the overflow message “--------”... -
Page 72: System Configurations
System Configurations YSTEM CONFIGURATIONS This section includes the following information: SYSTEM CONFIG page SYSTEM INFO page SYSTEM SERVICE page 6.1 [SYSTEM CONFIG] Page When the [Measure] or [Setup] key is pressed, followed by the [SYSTEM] bottom soft-key, the [SYSTEM CONFIG] page appears. -
Page 73: Setting The System Date And Time
LCR-6000 Series User Manual Figure 6 -1 [SYSTEM CONFIG] Page 6.1.1 Setting the system date and time LCR-6000 Series features a built-in 24-hour clock. To change the date Step 1. Press the [Measure] or [Setup] key. Step 2. Press the [SYSTEM] bottom soft-key. Step 3. -
Page 74: Account Setting
System Configurations Soft-key Function HOUR INCR+ Increases the hour in steps of 1. HOUR DECR- Decreases the hour in steps of 1. MINUTE INCR+ Increases the minute in steps of 1. MINUTE INCR- Decreases the minute in steps of 1. SECOND DECR+ Increases the second in steps of 1. -
Page 75: Key Beep Setting
LCR-6000 Series User Manual If you forget your password, please contact your local NOTE GW Instek distributor or GWInstek at www.gwinstek.com / marketing@goodwill.com.tw. 6.1.3 KEY BEEP Setting Key tone settings. To set up the beep feature Step 1. Press the [Measure] or [Setup] key. Step 2. -
Page 76: Terminator
System Configurations Soft-key Function 1200 Sets the baud rate to 1200. 9600 Sets the baud rate to 9600. 38400 Sets the baud rate to 38400. 57600 Sets the baud rate to 57600. 115200 Sets the baud rate to 115200. 6.1.5 TERMINATOR The command terminator EOL uses the ASCII Line Feed character by default. -
Page 77: Error Code
LCR-6000 Series User Manual Soft-key Function Turn off the Hand Shake feature. Turn on the Hand Shake feature. 6.1.7 Error Code If the error code setting is set to on, the meter will return error codes if the wrong command or an invalid command is received to help you to debug your control program. -
Page 78: Result
System Configurations 6.1.8 Result If the Result setting it set to Auto, the meter will automatically send out the measurement results each time a test is finished; this setting is convenient especially when the meter is working with a sorting machine. The meter will start a test after receiving the trigger signal and then returns the test result to the sorting machine without the need to receive a ‘fetch?’... -
Page 79: Default Set
LCR-6000 Series User Manual 6.1.10 DEFAULT SET To reset setting values (MEAS SETUP) and offset values (OPEN SHORT) to factory default, use the DEFAULT SET setting. The device can be quickly restored to its factory settings. Default settings: (MEAS SETUP): FUNC: Cp-D FREQ: 1kHz LEVEL: 1V... -
Page 80: System Info] Page
System Configurations 6.2 [SYSTEM INFO] Page When the [Measure] or [Setup] key is pressed followed by [SYSTEM] bottom soft-key, and then the [SYSTEM INFO] soft-key, the [SYSTEM INFO] page appears. There are no configurable options in the [SYSTEM INFO] page. Figure ... -
Page 81: File Operation
LCR-6000 Series User Manual ILE OPERATION This chapter provides information on the file operation of the LCR-6000 Series. You can save up to 10 files into the internal non-volatile memory. 7.1 [FILE] Page When the [Setup] key is pressed followed by the [FILE] bottom soft-key, the [FILE] page appears. -
Page 82: Media]
File Operation 7.1.1 [MEDIA] The Media field is used to select the media source from either the meter’s internal memory or an external USB flash drive. A maximum of up to 10 files can be accessed from either source. Step 1. Press the [Setup] key. -
Page 83: Auto Save Data To Last File [Auto Save]
LCR-6000 Series User Manual 7.1.3 Auto save data to last file [AUTO SAVE] You can save the modified data into the last used file when the instrument power key is pressed. To turn on/off the AUTO SAVE function Step 1. Press the [Setup] key. -
Page 84: Handler Interface
Handler Interface ANDLER INTERFACE This chapter provides information about the LCR-6000 Series’ built-in handler interface. It includes: Pin Assignment Circuit Diagram Timing Chart The LCR-6000 Series’ built-in handler interface outputs signals that indicate the end of a measurement cycle, the result of bin sorting by the comparator. -
Page 85: Pin Assignment
LCR-6000 Series User Manual 8.1 Pin Assignment Figure 8 -1 Pin Assignment Output Pins Table 8 -1 Handler Interface Signals ~ Output Pins Pin names Signal descriptions The sorting result is within bin1. O_BIN_1 Active low. The sorting result is within bin2. O_BIN_2 Active low. -
Page 86: Table 8-2 Handler Interface Signals ~ Input Pins
Handler Interface Over fail occurs on the secondary measurement parameter. Active O_S_OVER low. (The signal on this pin is available only after AUX is turned on.) Over fail occurs on the primary measurement parameter. Active O_P_OVER low. The logic state of this pin = O_P_HI OR O_P_LO. -
Page 87: Connection
LCR-6000 Series User Manual 8.2 Connection Electrical parameters Interface power requirements: +12.4V~36VDC, 0.2A(Min). Output circuit: Built-in pull-up resistors are internally connected to the collector pin of the output transistors. The output pins are isolated by photocouplers. Input pins: Isolated by photocouplers. Warning: To avoid damaging the interface, ensure the external power does not exceed the +12.4~36V input range. -
Page 88: Timing Chart For Handler Interface
Handler Interface Circuit of output pins Figure 8 -3 Circuit of output pins (Bin sorting, Index, EOM) EXT.DCV R 4.99k OUTPUT Maximum sourcing current: 5mA. Maximum sinking current: 50mA 8.3 Timing Chart for Handler Interface Figure 8 -4 Timing chart Table ... -
Page 89: Examples
LCR-6000 Series User Manual XAMPLES This chapter covers basic measurement procedures as well as basic L, C, and R measurement theory. It also offers various measurement hints. After the descriptions of basic measurement procedures, practical measurement examples are shown using LCR-6000 Series. 9.1 Basic Measurement Procedure The following flow chart shows the basic procedures used to measure the impedance of capacitors, inductors,... -
Page 90: Example
Examples Figure 9 -1 Basic Measurement Procedure Start Setup measurement conditions: [FUNC] [LEVEL] [FREQ] Connect the test fixture CORRECTIONS OPEN TEST SHORT TEST Connect DUT Perform measurement 9.2 Example This paragraph describes a practical example of measuring a ceramic capacitor. The basic procedure flow to perform this measurement is the same as the Basic Measurement Procedure described previously. - Page 91 LCR-6000 Series User Manual Step 1. Turn the LCR-6000 Series ON. Step 2. Set up the measurement conditions by filling in the fields on the MEAS DISPLAY page. Move to the FUNC field using the cursor keys and choose Cs-D. Move to the FREQ field using the cursor ...
- Page 92 Examples Move to the SHORT TEST or SPOT field using the cursor keys. Connect the clips to a shorting bar as shown below: Press the [MEAS SHORT] soft-key and then the [OK] soft-key. Wait until the “Correction finished” message is displayed.
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Page 93: Figure 9 -2 Measurement Results
LCR-6000 Series User Manual performed continuously by the internal trigger, and the measured Cs and D values of the capacitors are displayed as shown below: Figure 9 -2 Measurement results... -
Page 94: Remote Control
Remote Control EMOTE CONTROL This chapter provides the following information to remotely control the LCR- 6000 Series via the RS-232C: About RS-232 Select Baud Rate About SCPI LCR-6000 Series can use the RS-232 interface to communicate with the computer to complete all the instrument functions. -
Page 95: To Select Baud Rate
LCR-6000 Series User Manual Figure 1 0-2 PC - LCR-6000 Series connection uses a null modem connection Pin2 RxD Pin2 Pin3 TxD Pin3 Pin5 GND Pin5 Make sure the controller you connect to LCR-6000 Series also uses these settings. The RS-232 interface transfers data using: 8 data bits, 1 stop bit, no parity. -
Page 96: Scpi Language
Remote Control 10.3 SCPI Language Standard Commands for Programmable Instruments (SCPI) is fully supported by the RS-232 interface. LCR-6000 Series ONLY supports the SCPI Language. NOTE:... -
Page 97: Command Reference
LCR-6000 Series User Manual OMMAND REFERENCE 11.1 Terminator :The EOI line is asserted by New Line or ASCII Line Feed character. <NL> (Decimal 10, Hex 0x0A, or ASCII ‘\n’) 11.2 Notation Conventions and Definitions The following conventions and definitions are used in this chapter to describe RS-232 operation. -
Page 98: Figure 1 1-1 Command Tree Example
Command Reference Figure 1 1-1 Command Tree Example function :imp? :mon1 :imp :type {…} rang? Example: function:imp:type Cp-D function Subsystem Command Level 2 type Level 3 Cp-D Parameter The basic rules of the command tree are as follows. Letter case (upper and lower) is ignored. ... - Page 99 LCR-6000 Series User Manual Every command and character parameter has at least two forms, a short form and a long form. In some cases they will be the same. The short form is obtained using the following rules. A) If the long form has four characters or less, the long form and short form are the same.
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Page 100: Header And Parameters
Command Reference 11.4 Header and Parameters The commands consist of a command header and parameters. (See the following.) Example: comp:nom 100.0e3 Header Parameter Headers can be of the long form or the short form. The long form allows easier understanding of the program code and the short form allows more efficient use of the computer. -
Page 101: Command Reference
LCR-6000 Series User Manual 11.5 Command Reference All commands in this reference are fully explained and listed in the following functional command order. DISPlay Subsystem FUNCtion Subsystem FREQuency Subsystem VOLTage Subsystem APERture Subsystem FETCh Subsystem ... -
Page 102: Display Subsystem
Command Reference 11.6 DISPlay Subsystem The DISP Subsystem command group sets the display page. Figure 1 1-2 Command Tree Example 11.6.1 DISP:LINE The :LINE command enters an arbitrary comment line of up to 30 ASCII characters in the comment field. Command Syntax DISP:LINE “<string>”... - Page 103 LCR-6000 Series User Manual COUNT. LISTMEAS [or LIST] Sets the display page to LIST MEAS. SETUP [or MSET] Sets the display page to MEAS SETUP. CORRECTION [or CSET] Sets the display page to CORRECTION. BINSETUP [or BSET] Sets the display page to BIN SETUP.
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Page 104: Function Subsystem
Command Reference 11.7 FUNCtion Subsystem The FUNCtion subsystem command group sets the measurement function, the measurement range, monitors parameter control. Figure 1 1-3 FUNCtion Subsystem Tree FUNCtion {Cs-Rs,Cs-D, Cp-Rp,Cp-D, Lp-Rp,Lp-Q, Ls-Rs,Ls-Q, R-Q,R-X, Z-thr(Z-θr),Z-Thd(Z-θd) Z-D,Z-Q, DCR} :IMPedance :AUTO {on,off,1,0} :RANGe <integer>... -
Page 105: Function:impedance:auto
LCR-6000 Series User Manual Query Response <function> Example SEND> FUNC?<NL> RET> Cp-D<NL> 11.7.2 FUNCtion:IMPedance:AUTO The FUNCtion:IMPedance:AUTO command sets the impedance’s LCZ Automatic selection. Command FUNC:IMPedance:AUTO {ON,OFF, 0,1} Syntax Example SEND> FUNC:IMP:AUTO ON<NL> Query Syntax FUNC:IMPedance:AUTO? Query Response {on,off}<NL> Example SEND> FUNC:IMP:AUTO?<NL> RET>... -
Page 106: Function:range:auto
Command Reference Query Response <0-8><NL> Example SEND> FUNC:DCR:RANG?<NL> RET> 0<NL> 11.7.5 FUNCtion:RANGe:AUTO The FUNCtion:RANGe:AUTO command sets the auto range to ON or OFF. Command FUNC:RANGe:AUTO {off(hold),on(auto),NOMinal} Syntax Parameter Where, {off(hold),on(auto),NOMinal} is: off(or hold): Sets the auto range to off. on(or auto): Sets the auto range to on. - Page 107 LCR-6000 Series User Manual FREQuency Subsystem The FREQuency command sets the oscillator frequency. The FREQuency? query returns the current test frequency setting. Figure 1 1-4 FREQ Subsystem Command Tree [:CW] FREQuency {value,MIN,MAX} Command FREQ[:CW] {<value>,MIN,MAX} Syntax Parameter Where, <value> Is the numeric data (NR1 integer, NR2fix float or NR3 floating point).
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Page 108: Level Subsystem
Command Reference 11.8 LEVel Subsystem The Level subsystem sets the oscillator’s output voltage/current level and source output impedance. Figure 1 1-5 LEVel Subsystem Command Tree 11.8.1 LEVel:VOLTage (=VOLTage[:LEVel]) The LEVel:VOLTage or VOLTage[:LEVel] command sets the oscillator’s output voltage level. Command LEVel:VOLTage {<value>,MIN,MAX} Syntax... -
Page 109: Level:current (=Current[:Level])
LCR-6000 Series User Manual 11.8.2 LEVel:CURRent (=CURRent[:LEVel]) The LEVel:CURRent or CURRent[:LEVel] command sets the oscillator’s output current level. Command LEVel:CURRent {<value>,MIN,MAX} Syntax or CURRent:LEVel {<value>,MIN,MAX} Parameter Where, <value> Is the numeric data (NR1, NR2 or NR3). MIN Sets to the minimum value of current. MAX Sets to the maximum value of current. -
Page 110: Level:alc (=Amplitude:alc)
Command Reference Note The suffix unit can’t be used with this command. This command CANNOT be used in LIST SWEEP. DISPLAY page and CORRECTION page. 11.8.4 LEVel:ALC (=AMPlitude:ALC) The LEVel:ALC or AMPlitude:ALC command enables the Automatic Level Control (ALC). Command LEVel:ALC {on,1,off,0} Syntax... -
Page 111: Aperture Subsystem
LCR-6000 Series User Manual 11.9 APERture Subsystem The APERture subsystem command sets the integration time of the ADC and the averaging rate. Figure 1 1-6 APERture Subsystem Command Tree APERture {SLOW,MED,FAST} <averaging rate value:NR1> Command APERture {SLOW,MED,FAST} Syntax APERture <value> SPEED(spd) {SLOW,MED,FAST} SPEED(spd) <value>... -
Page 112: Fetch Subsystem
Command Reference 11.10 FETCh Subsystem The FETCh subsystem command group is a sensor-only command which retrieves the measurement data taken by measurement(s) initiated by a trigger, and places the data into the output buffer. Figure 1 1-7 FETCh Subsystem Command Tree IMPedance? FETCh MAIN? -
Page 113: Fetch:impedance
LCR-6000 Series User Manual 11.10.2 FETCh:IMPedance? The FETCh:IMPedance? query sets the latest measurement data of the primary parameter, secondary parameter, monitor1 and monitor2 results into the output buffer. Query Syntax FETCh:IMPedance? Query Response <NR3:primary value>,<NR3:secondary value>, <NR3:monitor1>,<NR3:monitor2>,<comparator result> Example SEND> FETC:IMP?<NL> RET>... -
Page 114: Fetch:list
Command Reference 11.10.6 FETCh:LIST? The FETCh:LIST? query sets the latest LIST measurement data of the primary parameters, secondary parameters and comparator results into the output buffer. Only applicable when in the [LIST MEAS] page view. Query Syntax FETCh:LIST? Query Response <spot no>,<NR3:primary value>,<NR3:secondary value>,<CMP result>... -
Page 115: Comparator Subsystem
LCR-6000 Series User Manual 11.11 COMParator Subsystem The COMParator subsystem command group sets the comparator function, including its ON/OFF setting, limit mode, and limit values. Figure 1 1-8 COMParator Subsystem Command Tree :S TATe COMParator {ON,OFF} :MODE {ABS,PER,SEQ} :AUX {ON,OFF} :BINS {1 to 9}... -
Page 116: Comparator:mode
Command Reference 11.11.2 COMParator:MODE The :COMParator:MODE command sets the limit mode of the comparator function. Command COMParator:MODE {ABS,PER,SEQ} Syntax Parameter Where,{ABS,PER,SEQ} is: Absolute tolerance mode Percent tolerance mode Sequential mode Example SEND> COMP:MODE PER<NL> Query Syntax COMParator:MODE? Query Response {abs,per,seq} Example SEND>... -
Page 117: Comparator:tolerance:nominal
LCR-6000 Series User Manual 11.11.5 COMParator:TOLerance:NOMinal The COMParator:TOLerance:NOMinal command sets the nominal value for the tolerance mode of the comparator function. Command COMParator:TOLerance:NOMinal <value> Syntax Parameter Where,<value> is: NR1, NR2 or NR3 A suffix multiplier can be used with this command. But the suffix unit F//H can’t be used. -
Page 118: Comparator:beep
Command Reference A suffix multiplier can be used with this command. Example SEND> COMP:SLIM 0.0001,0.0010<NL> Query Syntax COMParator:SLIM? COMParator:secondary? Query Response <NR3:low limit>,<NR3:high limit> Example SEND> COMP:SLIM?<NL> RET> 1.00000e-04,1.00000e-03<NL> 11.11.8 COMParator:BEEP The :COMParator:BEEP command sets beep mode of the comparator function. -
Page 119: List Subsystem
LCR-6000 Series User Manual 11.12 LIST Subsystem The LIST or SWEEP Subsystem command group sets the List Sweep measurement function, including the sweep point setting and limit values for the limit function. Figure 1 1-9 LIST Subsystem Command Tree :PARAmeter LIS T {FREQ,VOLT,CURR}... -
Page 120: List:band
Command Reference Parameter Where,<n> is: NR1(1 to 10): List sweep point Query Response {on,off} Example SEND> LIST:STAT? 1<NL> RET> on<NL> 11.12.3 LIST:BAND The LIST:BAND command sets the List Sweep point value, limit mode and low/high limit values. Command LIST:BAND <n>,<point value>,{A,B,OFF},<low>, Syntax <high>... -
Page 121: Correction Subsystem
LCR-6000 Series User Manual 11.13 CORRection Subsystem The CORRection subsystem command group sets the correction function, including the OPEN, SHORT and SPOT correction settings. Note The CORRection subsystem CANNOT work in [LIST MEAS] page. Figure 1 1-10 CORRection Subsystem Command Tree CORRection OPEN null... -
Page 122: Correction:open:state
Command Reference pass/fail<NL> //Finish or Undone 11.13.2 CORRection:OPEN:STATe The CORRection:OPEN:STATe command sets the OPEN correction function to ON or OFF. Command CORRection:OPEN:STATe {ON,OFF or 1,0} Syntax Parameter ON, 1 Set up the function is ON OFF,0 Set up the function is OFF Example SEND>... -
Page 123: Correction:short:state
LCR-6000 Series User Manual 11.13.6 CORRection:SHORt:STATe The CORRection:SHORt:STATe command sets the SHORT correction function to ON or OFF. Command CORRection:SHORt:STATe {ON,OFF or 1,0} Syntax Parameter ON, 1 Set up the function is ON OFF,0 Set up the function is OFF Example SEND>... -
Page 124: Correction:spot:frequency
Command Reference Query Response {on,off} Example SEND> CORR:SPOT:STATe?<NL> RET> on<NL> 11.13.10 CORRection:SPOT:FREQuency The CORRection:SPOT:FREQuency command sets the frequency point for the specified frequency point correction. Command CORRection:SPOT:FREQuendy <value> Syntax Parameter value NR1,NR2 or NR3:Frequecny value. A suffix multiplier can be used with this command. But the unit “Hz”... -
Page 125: Trigger Subsystem
LCR-6000 Series User Manual 11.14 TRIGger Subsystem The TRIGger subsystem command group is used to enable a measurement or a sweep measurement, and to set the trigger mode. Figure 1 1-11 TRIGger Subsystem Command Tree [:IMMediate] TRIGger :S OURce {INT,MAN,EXT,BUS} :DELAY(DLY) <float value>,min,max... -
Page 126: Bias Subsystem
Command Reference Parameter Where, is float value:from 1ms to 60.00s min: =0ms max: =60.000s Example SEND> TRIG:DLY 1<NL>//1.000s Query Syntax TRIGger:DELAY? TRIGger:DLY? Query Response {0.000s~60.00s} Example SEND> TRIG:DLY?<NL> RET> 1.000s<NL> 11.15 BIAS Subsystem The BIAS subsystem command group sets the DC BIAS switch to ON or OFF, and sets the DC bias voltage value. -
Page 127: File Subsystem
LCR-6000 Series User Manual 11.16 FILE Subsystem The FILE subsystem command group executes the file operation. Figure 1 1-13 FILE Subsystem Command Tree :S AVE FILE <File No.> :LOAD <File No.> :DELete <File No.> 11.16.1 FILE? The FILE? query returns the file number used by the system. Query Syntax FILE? Query Response... -
Page 128: File:delete
Command Reference The FILE:LOAD <n> command recalls all user settings from specified file. Command FILE:LOAD <File No.> Syntax Parameter Where, <File No.> is: NR1 (0 to 9) Example SEND> FILE:LOAD 0<NL> 11.16.4 FILE:DELete Command FILE:DELete <File No.> Syntax Parameter Where, <File No.> is: NR1 (0 to 9) Example SEND>... -
Page 129: System:keylock
LCR-6000 Series User Manual Query Syntax SYSTem:CODE? Query Response {on,off} Example SEND> SYST:CODE?<NL> RET> OFF<NL> 11.18.3 SYSTem:KEYLock SYSTem:KEYLock command unlocks the keypad. Command SYST:KEYLOCK OFF Syntax or UNLOCK(UNLK) Example SEND> UNLOCK<NL> 11.18.4 SYSTem:RESult SYSTem:RESult command selects the test results send mode. Command SYSTem:RESult {fetch,auto} Syntax... -
Page 130: Sav
Command Reference Note This command can be used in BUS trigger mode. *TRG = TRIG;:FETC? 11.19.3 *SAV *SAV = FILE:SAVE The *SAV command saves all user settings into the currently used file. Command *SAV Syntax Example SEND> *SAV<NL> 11.19.4 *RCL *RCL = FILE:LOAD The *RCL command recalls all user settings from the currently used file. -
Page 131: Specification
LCR-6000 Series User Manual PECIFICATION This chapter describes the specifications and supplemental performance characteristics of the LCR-6000 Series: Specifications Dimensions Accuracy is defined as meeting all of the following conditions: Temperature: 23 ºC± 5 ºC Humidity: <70% R.H. Zeroing: Open and Short Correction Warm up time is 30 min or more. - Page 132 Specification Test Frequency LCR-6300: 10Hz~300kHz LCR-6200: 10Hz~200kHz LCR-6100: 10Hz~100kHz LCR-6020: 10Hz~20kHz LCR-6002: 10Hz~2kHz Frequency range and resolution Frequency range(F) Resolution 10.00Hz ≦ F ≦ 99.99Hz 0.01Hz 100.0Hz ≦ F ≦ 999.9Hz 0.1Hz 1.000kHz ≦ F ≦ 9.999kHz 10.00kHz ≦ F ≦ 99.99kHz 10Hz 100.0kHz ≦F ≦...
- Page 133 LCR-6000 Series User Manual LCR-6020’s open/short trimming frequency point list 1.2k 1.5k 2.5k LCR-6002’s open/short trimming frequency point list 1.2k 1.5k Display Range Parameter Display Range 0.00001uH ~ 9999.99H 0.00001pF ~ 9999.99mF R, X, |Z| 0.00001Ω ~ 99.9999MΩ G, B, |Y| 0.01nS ~ 999.999S 0.00001 ~ 9.99999 0.00001 ~ 99999.9...
- Page 134 Specification Ranging: Auto, Hold and Nominal range. Total 9 Ranges. Equivalent Circuit: Serial and Parallel OPEN/SHORT Test : OPEN/SHORT Zeroing (ALL,SPOT) Files: built-in 10 files and USB Disk 10 files, 9999 Log File, 999 Picture File, 10000 Data (.csv) Beep Feature: OFF/PASS/FAIL Trigger Mode: Internal, Manual, External and...
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Page 135: Dimensions
LCR-6000 Series User Manual 12.2 Dimensions Figure 1 2-1 Dimensions 264.4 291.6 308.6 311.1... -
Page 136: Accuracy
Accuracy CCURACY This section will explain the meter’s accuracy, measurement tolerance and how to test the meter’s performance. It includes: Accuracy Factors that decide accuracy The meters’ accuracy is affected by the tolerances from measurement stability, temperature variation, circuit linearity and the measurement repeatability. The meter’s accuracy verification needs to be done under the following circumstances: Warming up time: ≥... -
Page 137: Accuracy
LCR-6000 Series User Manual 13.1 Accuracy 13.1.1 L, C, R |Z| Measurement Accuracy The accuracies of L, C, R, |Z| is equal to A , which is defined by: = ± [A× A )× 100+K ]× K Basic measurement accuracy : Basic accuracy correction factor : Impedance factor a : Impedance factor b... -
Page 138: Accuracy For Q
Accuracy 13.1.3 Accuracy for Q Q’s accuracy is defined below: (when Q × D <1) Where: is the measured Q value. is D’s accuracy. 13.1.4 Accuracy for ‘s accuracy is defined below: ... -
Page 139: Accuracy For Rs
LCR-6000 Series User Manual 13.1.6 Accuracy for Rs When D (measured D value)≤0.1 The accuracy of R is defined as: × D [Ω] = 2πfL Where: is the measured X value[]. is the measured C value[F]. is the measured L value[H]. is D’s accuracy. -
Page 140: Figure 1 3-1 The Basic Measurement Accuracy A
Accuracy Figure 1 3-1 The basic measurement accuracy A If the accuracy for the spot you are searching for falls right on the line, e.g. the horizontal thick line between values 0.25 and 0.65, then use the smaller value, 0.25, for the basic accuracy of the spot you are searching for. -
Page 141: Figure 1 3-2 Table For Basic Accuracy Correction Factor A
LCR-6000 Series User Manual Figure 1 3-2 Table for basic accuracy correction factor A 100m 150m [Vrms] 200m 500m Table 1 3-1 Impedance correction factors Measurement Measuring frequency K speed 100Hz ... -
Page 142: Table 13-2 Temperature Correction Factor K
Accuracy Table 1 3-2 Temperature correction factor K Temp (ºC) Table 1 3-3 Correction factor for interpolated open/short trimming K Test frequency When test frequency equals to the open/short trimming frequency When test frequency is not equal to 0.0003 the open/short trimming frequency Please refer to 12.1 general specification section for what the open/short... -
Page 143: Declaration Of Conformity
LCR-6000 Series User Manual 13.3 Declaration of Conformity GOOD WILL INSTRUMENT CO., LTD. declare, that the below mentioned product Type of Product: Precision LCR Meter Model Number: LCR-6300, LCR-6200, LCR-6100, LCR-6020, LCR-6002 are herewith confirmed to comply with the requirements set out in the Council Directive on the Approximation of the Law of Member States relating to Electromagnetic Compatibility (2014/30/EU) and Low Voltage Directive (2014/35/EU).