LCR METER IM3536 - Kamtron Systems
Contents
1. 0 1 1 10 100 1000 Capacitance uF Functionality supporting more accurate measurement Delivering reliability for production line testing Compensate for anticipated errors Cable length compensation Select from cable length settings of 0 m 1 m 2 m and 4 m guaranteeing accuracy even when measurement cables have been extended seppo Automated tester Load compensation Up to five sets of compensation condi tions can be saved Measured values are compensated according to the refer ence sample ensuring compatibility of measured values from multiple devices on production lines and when swap ping out devices for example when a unit needs to be cali brated Low Z high accuracy mode for increasing the maximum applied current When using low Z high accuracy mode the output resistance changes to 10 2 allowing more current to flow to the sample being mea sured so that high precision measurement is guaranteed 0 996 0 45 Q N With low Z high accuracy mode OFF 0 8 0 7 0 6 0 40 1 0 35 With low Z high accuracy mode ON 0 30 0 596 0 496 0 25 Measurement conditions 0 20 Frequency 100 kHz o T T O Tm T Z repeatability 96 0 396 0 15 Measurement voltage 1 V 0 repeatability Measurement range 100 mQ ON 0 2 0 10 M ON ON O 0 0 _ s O 0 02. 2 1 10 100 1000 1 10 100 1000 Measurement time ms Measurement time ms Low Z high accuracy mode can be used with the 100 mQ 1 2 and 10 Q ranges This mode is especially effective when performing low inductance L measurement of power supplies and ESR measurement of aluminum electrolytic capacitors Contact check function Detect faulty contact with the sample during four terminal measurement Faulty contact The contact check function measures the contact resistance between Lpor and Loup and between Hpor and Heur and displays an error if the readings are greater than or equal to a preset Approx 1 000 Q 4 terminal contact OK threshold IM3536 Approx 500 Q Approx 100 Q o Heur terminal Current generation terminal Approx 50 Q Hpor terminal HI voltage detection terminal Approx 20 Q Lpor terminal LO voltage detection terminal Leur terminal Current detection terminal Hcun Lour O Set threshold values Contact resistance Hi Z reject function Detect contact errors during two terminal measurement Faulty contact The Hi Z reject function outputs an error if the measurement result ex ceeds a preset judgment standard This capability nan A u enables the instrument to a detect poor contact when oF ew fa fe The instrument s touch keypad performing measurement Izxl l l makes it easy to enter judg using a two terminal fix x r ment reference values ture The judgm
3. E EENJZENSE LCR METER 1M3536 Component measuring instruments DC 4 Hz to MHz Measurement frequency The new standard 4 Introducing an LCR meter that brings exceptional pecifications and cost per formance to a wide range of applications from R amp D to production lines C C Test fixtures and probes sold separately Photograph depicts IM3536 used in Combination with the SMD Test Fixture 9677 Repeatability and measurement time s T Comparison of IM3536 and 3532 50 One eighth the precision variability and five ae es times the measurement speed of legacy models means dramatically improved productivity High speed Stability E E N oh csraspeecnuxeceseneese b uncia Sample Resistor t Measurement frequency MHz Mem Hm Memeeeeeeee e e4EeMAXe eeeeee cc c4c4 0000000000000 deme 0 03 0 02 Repatability Z 3CV 1000 Measurement time ms Raising the Bar for Basic Performance High accuracy 0 05 rdg High speed ms fastest time Guaranteed accuracy range from mQ The IM3536 delivers a guaranteed accuracy range that starts at 1 m Furthermore the frequency band has been expanded to 8 MHz broadening the array of measurement targets with which it can be used compared to legacy products Z measurement range Zz Hioki legacy model 3532 50 Expanded range IM3536 E T T TTITE 1 IL T TIT T LTIT CIERRE EE IEEE E
4. E 0m lm 2m 4m Coefficient DC resistance measurement 1 ME 1 1 5 2 3 Measurement level 0 010 Vto0 999V 1V 1 001 Vto5V Settable range for frequency Coefficient AC measurement 1 0 2 V 1 0 2 V 0 m Up to 8 MHz 1 m 8 MHz 2 m Up to 2 MHz 4 m Up to 1MHz D Measurement speed coefficient F s ed m Measurement speed FAST SLOW SLOW2 eQemicient A Coefficient Coefficient 1 2 AC measurement 8 4 2 ISP Tempetlallecoenicient Operating temperature t C Basic accuracy Coefficient 140 1x t 23 Accuracy is calculated based on coefficients A and B from the basic ac When the operating temperature t is 23 C 5 C use a coefficient of 1 ae eet Free software for calculating 1 k range or higher 100 range or lower accuracy Basic accuracy Ae E 1 Basic accuracy Ass menge 1 LCR application disc Automatically calculate measurement accuracy based on user entered measurement conditions and measurement results Free download from the Hioki website Zx Impedance of the measurement conductor A Noted in basic accuracy chart Upper value Z accuracy 96 rdg lower value 0 accuracy B Noted in basic accuracy chart Upper value Z accuracy 96 rdg lower value 0 accuracy A is the accuracy of R when DC rdg B is the coefficient for the resistance of the sample Conditions Temperature and humidity ranges 23 C x 5 C 8096 RH or less no condensat
5. 00uH inductance is connected in parallel to the DUT Calculate conductivity and the dielectric constant The conditions used to calculate conductivity and the dielectric constant can be set easily using the instrument s touch screen The instrument s touch keypad makes it easy to enter numbers Enter the following parameters gt Conductor length LENGTH Conductor cross sectional area AREA Evaluate samples that exhibit signal dependence using free application software The bundled application allows you to save measurement data from the LCR meter as a Microsoft Excel or text file CSV format using the Hiit f i instrument s USB LAN GP IB or RS 232C interface Standard accessory Becu O e Frequency characteristics measurement while varying the frequency Bap Nl Lasap Mon Voltage characteristics measurement while varying the voltage E m Buc e Current characteristics measurement while varying the current i f _ Time interval measurement measurement at a specified time interval E Godin db s ima e Capture measured value when the RETURN key is pressed one off measurement Lnd LLL Humber A maar menti is Tem Data saved in CSV format M ad die E ua bud i M Simple automatic configuration of sweep points Sweep points are generated automatically once dL i ET decore oap iue pe epin Viger you set the start value end value and number of H 1 t Hia pen PI Ponens
6. 999 GQ o 0 00000 to 999 999 G 0 00000 to 999 999 G Terminal structure 4 terminal structure Supplementary functionality Measurable range 1 mQ to 200 MQ Output impedance Normal mode 100 Q Low impedance high accuracy mode 10 2 Trigger function Uses a specific signal to time the start of measurement Trigger types Internal trigger Automatically generates a trigger signal internally to repeat measurement External trigger Allows you to control the instrument s measurement operation by inputting a trigger signal from an external device trigger sources manual communica tions commands EXT I O Trigger delay Sets the delay time from trigger input to measurement Setting range 0 0000 s to 9 9999 s Trigger synchronous output Outputs the measurement signal after trigger input and ap plies it to the sample during measurement only Allows you to set a wait time until data is acquired Setting range 0 0000 s to 9 9999 s Open short compensation Load compensation Number of sets of compensation condi tions Up to 5 Compensauon Cable length compensation Cable length settings 0 m 1 m function 2m 4m Correlation compensation Compensation of display values based on user input compensation coefficient 4 terminal contact check Performs a contact disconnection check between Heyr and Contact check Ho and between Leur and Lio High Z reject func
7. C voltage 0 V to 2 50 V 10mV resolution In low Z high accuracy mode 0 V to 1 V 10 mV resolution EXT I O HANDLER USB USB flash drive LAN Measurement modes Measurement modes LCR mode Measurement using a single set of conditions Continuous measurement mode Continuous measurement using previously saved conditions LCR mode Measurements Bin measurement 10 categories for 2 measurement parameters Judgment method Set as absolute values percentage or deviation percentage Comparator measurement Hi IN and Lo judgments for 2 parameters Judgment method Set as absolute values percentage or de viation percentage Display Zoom display function Enlarged display of measured values Number of display digits setting Allows you to set the number of display digits for measured values for each measurement parameter Valid setting range 3 to 6 digits Continuous measurement mode Measurements Performs continuous measurement using measurement condi tions that have been saved using the panel save function Measurement is started by an external trigger any of the three types described below Maximum number of measurements 60 Interfaces GP IB RS 232C Output from EXT I O connector Generates BCD output for the No 1 and No 3 parameter BCD output measured values Input and output signals are set to BCD mode selection with judgment output Display and
8. EEER 10 100 tk 10k 100k 1M Frequency Hz For more information about L and C measurable ranges see page 14 SSS La up uus DTE T i Low impedance measurement with unmatched repeatability The IM3536 delivers repeatability that is an order of magnitude better than that of previous products This level of perfor mance makes the instrument ideal for use in applications such as electrolytic capacitor low ESR measurement and power supply coil impedance testing the latter of which demands excellent frequency characteristics Z repeatability Legacy product 3532 50 Measurement count Z repeatability IM3536 With low Z high accuracy mode on 0 2 0 15 0 05 a F R ee es ee de Hen Ss Ec 0 50 100 180 700 0 08 TX 21 0 15 ZU Measurement count Graphs illustrate the results of measuring a resistance of 1 mQ 200 times under the following conditions Frequency 1 kHz Measurement speed FAST Measurement range 100 mQ From measurement to analysis Applications n development evaluation and research Ideal for use in R amp D work requiring a wide range of measurement conditions and for evaluation of devices under conditions of actual use The IM3536 enables measurement conditions to be varied over a wide range for example to analyze a coil s resonance point while varying the frequency or to perform measurement while changing the measurem
9. M3536 connector signal assignment LCR mode operation LDO to LD6 Select panel number LD VALID Execute panel load Gr During BCD output toggle between C2 high order and low order digits During BCD output toggle between the No 1 and No 3 parameters CALIB DC adjustment request A OT EH Vd ENID i tO Arivavd SHIS SMIJ dO Lino F FO ONY ANG H A Output signals EOM End of measurement INDEX End of capture m r ERR AEE E EE E aS ERR Measurement error output Sse Ph Bi ISO_5V Isolated 5V power output g z 9 ISO COM Isolated common signal ground tw a 2 Z Q Output signals common signal line 272 TE PARAx HI PARAx IN PARAx LO x 1 3 AND BINI to BINIO OUT OF BINS DI 0 to DI 3 D2 0 to D2 3 D3 0 to D3 3 D4 0 to D4 3 Comparator judgment result output BIN judgment result output BCD output signal E Electrical specifications Signal assignment is different during continuous measurement mode Signal logic is 0 V to 0 9 V for LO level and 5 V to 24 V for HI level B Connectors Connectors to use unit side 37 pin D sub female connector with 4 40 inch screws Compliant connectors DC 37P ULR solder type and DCSP JB37PR pressure weld type For information on where to obtain connectors consult your nearest HIOKI distributor Input signals Input type Optocoupler isolated no
10. e impedance value calculated with the following expression m o Similarly insert coefficient A 0 1 and coefficient B 0 02 for the 0 Zx Q oL H 0 90 basic accuracy as follows x 1 8 90 dibad 10 x 500 d eh aC F asic accuracy 0 1 0 02 x 10 1 2 0 18 deg R Q 8 0 w 2x mx Measurement frequency Hz Guaranteed accuracy measurement level range The range of measurement levels for which accuracy is guaranteed varies with the setting conditions Range Sample s impedance 4 Hz to 99 99 Hz 100 Hz to 999 99 Hz 1 kHz to 10 kHz 10 001 Hzto100 kHz 100 01 kHz to 1 MHz 1 0001 MHz to 5 MHz 5 0001 MHz to 8 MHz 100MO 8 amp 8 MQ to 200 MO 10 MQ ME uc 0 101 V to 5 V TU T MS 0 501 V to 5 V 1M9 os 0 050 V to 5 V 0401Vto5V 0 501Vto5V ooko Otima oO ee NINE 0 101 Vto 1 V 10kQ to 100kQ amp KG aa E 0 050 V to 5 V CETUR t 0 010 V to 5 V 1kQ on 0 050 V to 1 V 0 101 V to 1V 100 Q 80 to 1002 10Q 800mQ to 102 0 101 V to 1 V 050 V to 5 V 19 80mQto12 nee 0 101 Vto5V 0 501 Vto1V 100mQ 1m to 100 m9 0 101 Vto5V 0 501 Vto5 V The guaranteed accuracy range during DC bias operation is 10 mQ or greater The accuracy for DC resistance Rdc measurement is guaranteed only when offset values are acquired The guaranteed accuracy range varies with the sample s impedance 14 Measurable ranges L measurement range C measuremen
11. ent signal during evaluation of a sample that exhibits signal dependency Variable current 1O0LA to 100mA Variable voltage l0mV to 5 V Variable frequency DC 4 Hz to 8 MHz V mode CV mode CC mode Example of measurement while varying the frequency from 1 MHz to 8 MHz Graph created using a spreadsheet z LE ad USB connection x a a p En 2226 we Am Ci o N Add c ae amp DON rd The IM3536 ships standard with application software that can save a measurement data as an Excel file while sweeping through a range of MUN frequencies pre configured on a computer m a For more information see page 5 xm a Me ips did P4 aba Sob BDXe Db O EE Frequency Hz DC bias function Measure under conditions simulating actual use or in accor dance with industry standards Internal DC bias capacitor only m A DC voltage can be superposed onto the measurement signal while measuring a capacitor The generated voltage can be varied from 0 V to 2 50 V DC 10 mV resolution Low Z high accuracy mode 0 V to 1 V External DC bias with support for L or C measurement depending on the unit DC BIAS VOLTAGE UNIT 9268 10 DC BIAS CURRENT UNIT 9269 10 Measurement frequency range 40 Hz to 8 MHz Measurement frequency range 40 Hz to 2 MHz Requires a separate external DC bias power supply Maximum applied voltage 40 V DC Maximum applied current 2 A DC An internal 3
12. ent standard is calcu lated based on the measurement range and judgment reference value valid setting range 0 to UTE 30 00096 2 terminal contact OK Improve measurement precision with the waveform averaging function The IM3536 s waveform averaging function lets you set the number of measured waveforms for each frequency band deter mined by the measurement speed setting FAST MED SLOW SLOW2 Number of waveforms Many increased measurement precision A Normal FAST MED SLOW SLOW2 number of waveforms v Number of waveforms Few higher measurement speed 10 EXT I O BCD USB GP IB RS 232C ce Las a itt om i HAE OU mmum ee ee T cae cle e amp am5BEEMESGSGS i Access an extensive range of interfaces 1n all model variants EXT I O EXT I O allows you to output the measurement complete signal and judgment results signal and to control the instrument by inputting signals such as a measurement trigger signal All signal lines are isolated from the instrument s measurement and control circuitry for maximum noise resistance m Example of EXT I O timing LCR mode OU t8 Start of measurement signal j L8 o uw uw INDEX Oi f Y Analog end of measurement signal EE EOM l End of measurement signal PARA x x BINx JUDGE RESET Last judgment Judgment result Comparator and BIN result output ON EL iu result q ERR Reset Err
13. hena Sete intermediate data points 4 HR x ga D Biss ce i eroe i Erit os LE T tA 4 TATEM NTBRE i 1E ET HT rm uer pim fes 1 Tenes Hp i IET e ti HH 1 TOES g gd mn Og IHE 4705 tidia a THES aT TEE ecaeosoonooocnoooooocoaotl NaacsaIud Simplifying the process of building production lines Increase convenience and efficiency Perform two Jobs with one instrument to save space and speed up the process of building a system Continuous measurement function Suppose you wish to test power supply inductance L Q at 1 kHz plus DC resistance DCR The IM3536 steps up by delivering high speed continuous measurement of different conditions with a single instrument zi 2 18650uH LCR measurement DC resistance measurement LCR measurement DC resistance measurement Tasks that used to require hnow can be two instruments completed with one By progressively loading a series of measurement conditions saved using the panel save func tion and performing measurements under multiple sets of different conditions you can now test one component under multiple conditions during a single test session Display saved panels as a list and load them quickly Panel save and load functions Save and load measurement conditions and compensation values Ensure reliable application of settings during setup changes Target A Measurement conditions and judg ment standards e Meas
14. ion at least 60 minutes after power ON after performing open and short compensation Basic accuracy as 4Hz1099 99Hz 100Hz to 999 99Hz 1kHz to 10kHz 10 001kHz to 100kHz 100 01kHz to 1MHz 1 0001MHz to 8MHz A 1 B 1 A 6 B 5 A 3 B 2 A 3 B 2 10MQ 800kQ to 10M2 205 Bs A 0 1 0 i A 0 25 B 0 04 100kQ 8KQ to 100k2 ee B B D EIS ESM 10kQ 8009 to 10kQ SE dI UU T A 0 1 0 zn st 0 sono wo A POM oa Bunge Ac oe_ aco 002 A 0 1 B 0 02 A 0 3 B 0 02 1009 S510 1998 a ee 01 A 0 15 B 0 02 0 i B 0 3 A 1 B 0 3 CUETO SS A 0 5 B 02 A 0 5 B 02 A 1 B 1 5 A 3 B 2 A 2 B 100MQ 1moto tmo 7 Bt c W D E e Method of determining basic accuracy Calculation example Impedance Zx of sample 500 2 actual measurement value Calculate the basic accuracy from the sample impedance measurement range and measurement frequency and the corresponding basic accuracy Measurement conditions When frequency 10 kHz and range 1 k2 A and coefficient B from the table above Insert coefficient A 0 2 and coefficient B 0 02 for the Z basic accuracy e The calculation expression to use differs for each of the 1 KQ range and from the table above into the expression above and 100 Q range and below 10 x 500 For C and L obtain basic accuracy A and coefficient B by determining the Z basic accuracy 0 2 0 02 x A 1 0 28 Yrdg measurement range from the actual measurement value of impedance or the approximat
15. l info kr hioki co jp All information correct as of Nov 25 2014 All specifications are subject to change without notice IM3536E2 4YE Printed in Japan
16. n voltage contact inputs current sink active low Input asserted on voltage 0 9 V or less Input de asserted off voltage OPEN or 5 V to24 V Input asserted on current 3 mA ch Maximum applied voltage 30 V Output signals Output type Isolated NPN open collector outputs current sink active low Maximum load voltage 30V Maximum output current 50 mA ch Residual voltage 1 V 10 mA 1 5 V 50 mA Internally isolated Output voltage 4 5 V to 5 0 V power supply Maximum output current 100 mA External power input none BCD LCR mode output signals operate in two modes judgment mode and BCD mode In BCD mode measured values for the No 1 parameter and the No 3 parameter are output using the BCD signals LCR mode only The BCD high order digit and low order digit polarity and ERR informa tion can be switched with the C1 signal CI HI 3 n D2 n D4 n D3 n AAT HI high order No 6 digit data No 5 digit data No 4 digit data No 3 digit data Fa CI LO LO low order No 2 digit data No 1 digit data Polarity ERR a 9 4 7 5 o Me D2 n Interfaces Control the instrument with communication commands from a computer via the USB LAN GP IB or RS 232C interfaces USB LAN Connector USB Type B receptacle Connector RJ 45 connector Electrical specifications USB2 0 High Speed Transmission method 10Base T 100Base T automatic detection Protocol TCP IP GP IB RS 232C Connector 24 pin Ce
17. ntronics type connector Connector D sub 9 pin connector Standard TEEE 488 1 1987 Flow control Hardware Software Reference standard IEEE 488 2 1987 Transmission speed 9600 bps 19200 bps 38400 bps 57600 bps Terminator LF CR LF Measurement parameters and measurement conditions Speed and accuracy Rs Equivalent series resistance ESR Measurement speed FAST MED SLOW SLOW2 Averaging Valid setting range 1 to 256 in steps of 1 Basic accuracy Z 0 05 rdg 0 0 03 representative value Guaranteed 1 mQ to 200 MC impedance accuracy range Guaranteed l year accuracy period Warm up time 60 minutes Z Impedance i Y Admittance Rp Equivalent parallel resistance Ls Equivalent series inductance 0 Phase angle Lp Equivalent parallel inductance X Reactance Measurement G Conduct Cs Equivalent series capacitance parameters p E DR Cp Equivalent parallel capacitance HSCEptapce D Loss factor tan 6 Q Q factor o Conductivity Rdc DC resistance Permittivity Rs 0 00 m to 9 99999 GQ Z 0 00 m to 9 99999 GQ Rp 0 00 m to 9 99999 GQ Y 0 000 n to 9 99999 GS Ls 0 00000 u to 9 99999 GH 0 0 000 to 999 999 Lp 2 0 00000 u to 9 99999 GH X 0 00 m to 9 99999 GQ Cs 0 0000 p to 9 99999 GF Display range G 0 000 n to 9 99999 GS Cp 0 0000 p to 9 99999 GF B 0 000 n to 9 99999 GS D 2 0 00000 to 9 99999 Q 0 00 to 9999 99 A 0 000 to 999 999 Rde 0 00 m to 9 99
18. or output JUDGE i E een XX Judgment result CALIB Acquires the offset value LD VALID Panel load execution pg LDO to LD6 X Panel number PARAx HI PARAx IN PARAx LO AND BINx OUT OF BINS From Comparator BIN Judgement Result to EOM LO Setting value for delay time Settable range 0 0000 s to 0 9999 s 40 us From EOM width LO to TRIG LO Minimum time from end of measurement to next trigger 400 us From TRIG LO to INDEX HI Time from trigger to circuit response 400 us INDEX width HI Analog measurement time Minimum chuck time switching chuck with INDEX LO is possible 1 ms EOM width HI Measurement time 1 5 ms From TRIG width LO to LD VALID HI CALIB HI Time to panel load execution and DC adjustment request signal detection at least t3 Trigger pulse width LO time At least 100 us Trigger off HI time At least 100 us There is an apporoximate error of 100 us in the delay time entered for Judgement Result EOM for the setting value tl is the reference value for when the setting value is 0 0000 s t2 is the reference value for when trigger input for during measurement is disabled Additional time is required when loading panel numbers using the panel load function 4 Reference value for Measurement frequency 1 kHz Measurement speed FAST Range HOLD E EXT I O signal list Input signals TRIG External trigger 14 B I
19. ord length 1 m 3 28 ft 4 TERMINAL PROBE 9140 10 Measurable range DC to 200 kHz Measurable terminal diameter 0 3 mm 0 01 in to 5 mm 0 2 in Cord length 1 m 3 28 ft 4 TERMINAL PROBE 9500 10 Measurable range DC to 200 kHz Measurable terminal diameter 0 3 mm 0 01 in to 2 mm 0 08 in Cord length 1 m 3 28 ft PINCHER PROBE L2001 Measurable range DC to 8 MHz Replaceable tips Measurable sample sizes IM9901 0603 to 2220 EIA 1608 to 5750 JIS IM9902 0201 to 2220 EIA 0603 to 5750 JIS Cord length Approx 730 mm 28 74 in Ships standard with one set of IM9901 CONTACT TIPS IM9902 For more information please see individual product catalogs World s First High Precision 4 Terminal Measurement SMD TEST FIXTURE IM9100 Measurable range DC to 8 MHz For SMD with electrodes on bottom Measurable sample sizes 01005 to 0402 EIA 0402 to 1005 JIS Direct connection type For more information please see individual product catalogs TEST FIXTURE 9262 Measurable range DC to 8 MHz Measurable terminal diameter 0 3 mm 0 01 in to 2 mm 0 08 in Direct connection type TEST FIXTURE 9261 10 Measurable range DC to 8 MHz Measurable terminal diameter 0 3 mm 0 01 in to 1 5 mm 0 06 in Cord length 1 m 3 28 ft SMD TEST FIXTURE 9263 Measurable range DC to 8 MHz For SMD with electrodes on side Measurable sample sizes 0805 to 2220 EIA 2012 to 5750 JIS Direc
20. s 3504 50 60 and taping machines 3504 40 IMPEDANCE 1MHz 300MHz ANALYZER IM7580 High frequency measurement up to 300 MHz Ideal for production lines of ferrite beads and inductors DC 4Hz 5MHz IMPEDANCE O ANALYZER IM3570 LCR meter integrated with impedance analyzer Measure the frequency characteristics of piezo electric devices functional polymer capacitors and power inductors o o CHEMICAL O 1mHz 200kHz IMPEDANCE ANALYZER Supports LCR impedance measurements for Cole Cole plots and equivalent circuit analyses IM3590 Measure electrochemical components materials batteries and electric double layer capac itors EDLCs Note Company names and Product names appearing in this catalog are trademarks or registered trademarks of various companies HIOKI Shanghai SALES amp TRADING CO LTD i O IC A TEL 86 21 63910090 FAX 86 21 63910360 DISTRIBUTED BY http www hioki cn E mail info hioki com cn HIOKI E E CORPORATION HIOKI INDIA PRIVATE LIMITED TEL 91 124 6590210 FAX 91 124 6460113 HEADQUARTERS E mail hioki hioki in 81 Koizumi Ueda Nagano 386 1192 Japan TEL 81 268 28 0562 FAX 81 268 28 0568 HIOKI SINGAPORE PTE LTD http www hioki com E mail os com hioki co jo TEL 65 6634 7677 FAX 65 6634 7477 E mail info sg hioki com sg HIOKI USA CORPORATION HIOKI KOREA CO LTD TEL 1 609 409 9109 FAX 1 609 409 9108 TEL 82 42 936 1281 FAX 82 42 936 1284 http www hiokiusa com E mail hioki hiokiusa com E mai
21. sound Lock operation of the instrument using the touch screen Key lock function l Unlock by entering a passcode Beep tone Enable or disable for judgment results and key operation LCD display on off Display settings Off The display turns off 10 sec after the touch panel is last touched Display 5 7 inch color TFT with touch panel Other Operating temperature and humidity 0 C to 40 C 32 F to 104 F 80 RH non condensing Storage temperature and humidity 10 C to 50 C 14 F to 122 F 80 RH non condensing Operating environment Indoors Pollution Degree 2 altitude up to 2000 m 6562 ft Power supply and maximum rated power 100 V AC to 240 V AC 50 60 Hz 50 VA Dielectric strength 1 62 kV AC for 1 min between power line and ground line Standards compliance EMC EN 61326 EN 61000 Safety EN 61010 Dimensions and Mass Approx 330 W x 119 H x 230 D mm 12 99 W x 4 69 H x 9 06 D in approx 4 2 kg 148 1 oz Accessories Power cord x1 Instruction manual x1 LCR application disc Communications user manual x1 13 Measurement accuracy Measurement accuracy is calculated based on the following equation Measurement accuracy Basic accuracy x Cx D xE x F x G C Level coefficient V Setting value corresponds to when V mode V E Measurement cable length coefficient Measurement level 1V A
22. t connection type SMD TEST FIXTURE 9677 Measurable range DC to 120 MHz For SMD with electrodes on side Measurable sample sizes 0402 to 0603 EIA 1005 to 1608 JIS Direct connection type SMD TEST FIXTURE 9699 Measurable range DC to 120 MHz For SMD with electrodes on bottom Measurable sample sizes 0608 to 0805 EIA 1608 to 2012 JIS Direct connection type LCR Meter Series Full Product Lineup M t d Model PEE TTE TTOHO IU TUHO a Applications and measurement object DC 4Hz 8MHz LCR METER ls Q IM3536 DEED purpose LCR meter up to 8 MHz EE ae electronic components such as capacitors and inductors O 1mHz 200kHz LCR METER IM3533 E of special measurements of transformers including turn ratio and mutual ee IM3533 01 High end model of the IM3523 and IM3533 with sweep measurement Mil ave 5 40Hz 200kHz LCR METER 3 3 IM3523 Extremely cost effective model suitable for production lines including integration into automated machinery For C D and ESR measurement of electrolytic capacitors and L Q and DCR mea surement of inductors 120Hz 1kHz LCR HiTESTER O Q 3511 50 Compact LCR meter with single function For production lines of aluminum electrolytic capacitors 1kHz 1MHz C METER Q Q 3506 10 l C meter for low capacity capacitors For production of MLCC and film capacitors 120Hz 1kHz C HITESTER O O 3504 C meter for large capacity MLCCs For sorting machines of large capacity MLCC
23. t range 10M 100 1M E 10 100k 1 imi T 100m 1k LR 10m 100 2 1m 10 i 100u T 100m E g 1 2 10m o 1 m 100n 10 10n 10u E in iu E 100p 100n 10p 10n 1p in ERE 100f 2 lii 100p at 10f BANI 1 10 100 k 10k 100k 1M 10M 1 10 100 1k 10k 100k 1M 10M Frequency Hz Frequency Hz LCR METER IM3536 Standard accessories Power Cord nstruction manual LCR Application Disc Communication commands user manual Free software for calculating accuracy LCR application disc Automatically calculate measurement accuracy based on user entered Note Test fixtures are not supplied with the instrument measurement conditions and measurement results Free download from the Hioki Select optional test fixtures or probes when ordering SEES Options RS 232C CABLE 9637 GP IB CONNECTOR CABLE 9151 02 DC BIAS VOLTAGE UNIT 9268 10 DC BIAS CURRENT UNIT 9269 10 For the PC 9pin 9pin cross 2 m 6 56 ft length Measurement frequency range 40 Hz to 8 MHz Measurement frequency range 40 Hz to 2 MHz 1 8m 5 91 ft length Maximum applied voltage 40 V DC Maximum applied current 2 A DC An internal 300uH inductance is connected in parallel to the DUT Probes and Test Fixtures for Lead Components Test Fixtures for SMDs CONTACT TIPS IM9901 4 TERMINAL PROBE L2000 Measurable range DC to 8 MHz Measurable terminal diameter 0 3 mm 0 01 in to 5 mm 0 2 in C
24. tion Detection of OPEN state during 2 terminal measurement Recording and interface Range 4 Hzto 8 MHz 4 00 Hz to 999 99 HZ a na 10 mHz steps 1 0000 kHz to 9 9999 kHz 100 mHz steps ener Resolution 10 000 kHz to 99 999 kHz 1 Hz steps Deer 100 00 kHz to 999 99 kHz 10 Hz steps 1 0000 MHz to 8 0000 MHz 100 Hz steps Accuracy 0 01 of setting or less Normal mode PUn uit 4 Hz to 1 0000 MHz 10 mV to 5 V maximum 50 mA signal level ange 1 0001 MHz to 8 MHz 10 mV to 1 V maximum 10mA V mode Low impedance high accuracy mode CV mode 4 Hz to 1 0000 MHz 10 mV to 1 V maximum 100 mA Resolution 10 mV to 1 000 V mV steps Normal mode 4 Hz to 1 0000 MHz 10 pA to 50 mA maximum 5 V Measurement Range 1 0001 MHz to 8 MHz 10 pA to 1 mA maximum 1 V signal level Low impedance high accuracy mode CC mode 4 Hz to 1 0000 MHz 10 uA to 100 mA maximum 1 V Resolution 10 pA steps Monitor function Monitor voltage range 0 000 V to 5 000 V Monitor current range 0 000 mA to 100 0 mA Memory function Measurement result items maximum 32000 items can be saved to the instrument Memory can be read using communications commands or a USB flash drive DC resistance measurement Measurement signal level Fixed at 1 V Panel save and load functions Measurement conditions Up to 60 Compensation values Up to 128 DC bias measurement Generating range D
25. urement parameters Ls Q Rdc V Measurement frequency 1 kHz e Constant current 1 mA Target B Measurement conditions and judgment standards e Measurement parameters Z O e Measurement frequency 1 5 kHz e Constant current 0 5 mA Save 32000 measurement results copy them to a USB flash drive and load them onto a computer You can then open the measurement data using a spreadsheet to analyze variations and manage test data Even if both hands are full grt 7 i7 TEET TRIG ISO COM Select External trigger as the trigger setting and then control instrument operations such as measurement and saving of data from an external device such as a foot switch via the EXT I O terminal s TRIG signal Residual charge protection function The IM3536 features an enhanced residual charge protection func tion that is designed to protect the instrument s internal circuitry from a capacitor discharge voltage in the event a charged capaci tor is inadvertently connected to a measurement terminal Easy to view list display Filename Measurement parameter name Measure the test target Number of tests n Save the results to the instru ment s internal memory Copy the saved data to a USB flash drive 1 h S l i i t T 1 1 t T 1 BRE Roh cR O w OO BOB oO D Relationship between the capacitance from which LCR meters can be protected and residual voltage values Residual voltag
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