component measuring instruments measure across the broad frequency range of 100khz to 120mhz with the new model 3535 lcr hitester . the 6ms high- speed measurement capability is particularly useful with the built- in comparator and load functions, and for bin (classification) measurements, to suit a wide range of applications such as chip inductor and high speed magnetic head testing, as well as other related research needs. achieve ultimate measurement flexibility by detaching the head amp unit from the main unit and placing it in proximity to the test object so as to minimize the effect of test leads on measurements. the 3535's low price, ideal size and light weight are all achieved by incorporating an automatically balanced bridge circuit with digital control. never before has such an advanced precision instrument coupled with economical features been placed on the test and measurement market. 3535 lcr hitester head amp unit
1 detachable head amp the measurement frequency is set with four-digit resolution from 100 khz to 120 mhz. four sampling rates can be selected: fast, normal, slow and slow2. the minimum measurement time of about 6 ms (displaying |z|) provides rapid sampling for optimum production line efficiency. (the measurement frequency range depends on the measured parameter type). the following parameters can be measured, and selected parameters can be captured using a pc. |z|, |y|, , rp, rs (esr), g, x, b, lp, ls, cp, cs, d (tan ) and q. measurement frequency, signal level and other conditions can be changed while monitoring measurement values, showing the effects of trial measurements and test condition settings. with the optional 9442 printer , measurement values, comparator results and screen data can be printed. the constants a and b can be set in the following compensation function expression: compensation value = a up to four parameters can be displayed enlarged, for easy observation of the measurement values on production lines and in other situations where the display has to be monitored from a distance. any four of fourteen parameter types can be selected for simultaneous measurement and display. utilize the ability to store up to 30 sets of measurement conditions, including comparator values, to provide rapid response to frequent component changes on flexible production lines. detach the head amp unit from the 3535 and extend its reach to the measurement object using a dedicated cable so as to minimize the effect of measurement leads. 9678 connection cable 3535 main unit a standard component can be measured to obtain a compensation amount to be applied to subsequent measurement values. this function is useful for matching measurement values between different instruments. bin (classification) measurement load compensation function broad frequency measurement range 6-millisecond minimum measurement time 14 parameter types adjust for conditions while measuring for changing production lines printer output correlation compensation function simultaneously measure up to 4 parameters zoom display continuous measurements using up to ten classifications of two measurements, measurement values can be easily classified by rank. store measurement data up to 200 measurement values can be stored in the main unit. saved values can be transferred to a computer or printed all at once. store up to 30 sets of measurement conditions. of multiple conditions stored in memory, up to five measurements can be made sequentially per condition saved on the screen. with the comparator function, the results of a sequence of measurements can be logically anded and output from a single instrument. head amp unit
ext i/o signals 2 ext i/o externally control triggering and loading of measurement conditions, and for automated lines, configure output signals including comparator results and end-of-measurement signals at the touch of a button. outputs ? internal dc power (+5 v output) ? comparator results ? bin (classification) measurement results ? end-of-measurement signal inputs ? external dc power supply (+5 to 24 v can be provided by an external source) ? external trigger signal ? selection of panels for loading the following chart shows the timing sequence of the trigger (trig), end-of-measurement (eom) signals and comparator result signals from the ext i/o connector. 1. | depends on the component and trigger delay. * 2. reference value with fast measurement speed, averaging off and z measurement selected. timing chart for ext i/o sequencing automatically balanced bridge circuit with digital control both rs-232c and gp-ib interfaces are included for external control of all functions (except power on/off of the 3535 main unit) from a computer. external control using a pc rs-232c interface transfer method: communications method:full duplex, synchronization method:start-stop asynchronous transfer speed: 9,600 or 19,200 bps data length: 8 bits parity: none stop bit: 1 bit delimiter: cr+lf or cr flow control: none connector: 9-pin d-sub male, reverse wired gp-ib interface supported standard: ieee-488.1 1987 ieee-488.2 1987 common (required) commands can be used. gp-ib interface rs-232c interface keylock key prevents unintended operations from inadvertent touching of display panel ext.i/o 3535 rear view any voltage from 100 to 240 vac measurement principle automatically balanced bridge circuit with digital control the measurement signal is generated by a primary oscillator and applied to the component (dut). the low terminal voltage is measured and used to control the phase and amplitude of a secondary oscillator so as to maintain a balanced condition (low terminal voltage being zero). the impedance z and phase angle of the dut are determined according to the amplitude and phase required to maintain the secondary oscillator in its balanced condition. high zdut cpu cpu bridge circuit primary oscillator secondary oscillator low rf amplitude and phase control rout minimum trigger time circuit response time previous test result clear previous test result test result measurement time: 6 ms 2 minimum time from measurement completion to next trigger
changing settings while measuring 3 measurement frequency setting screen measurement level setting screen use the numeric keypad or digit keys to enter values for changing the test frequency or level while monitoring the measurement. choose from open-circuit voltage or constant current mode for the level setting. load compensation setting screen set up five compensation constants for the function to correct measurement values. parameter setting screen select any four of the fourteen parameter types for display. menu screen select an item to display the corresponding setting screen. initial screen shows measurement values for any four selected parameters, and the current setting conditions. simple touch panel operation note: the screens show typical examples on the 3535. make all measurement condition settings from the easy-to-use touch panel. active keys appear in reverse video, providing simple, dialog-type operation by lightly touching the item or number to be set. real-time display of measurement data on the settings screen provide convenient monitoring while changing test signal settings. zoom display up to 4 parameters for enhanced visibility at a distance on production lines.
multiple functions for a broad range of applications application setting screen 4 comparator bin (classification) measurement continuous measurements zoom display numeric digit display scaling compare two measurement items using the comparator function. input can be either the absolute value, percentage of standard value or its deviation percentage ( s %). classify 2 measurement items in up to 10 categories. measurement conditions saved by the panel save function can be used to continuously measure up to five conditions per page. enlarge the display of measurement data and comparator results. the number of significant digits of measured values of each parameter can be set to three, four or five digits. set constants a and b to apply compensation to measurement values.
3535 specifications measurement items measurement frequency output impedance measurement signal level monitor function limit function measurement time measurement speed average trigger function load compensation function key lock function comparator : : : : : : : : : : : : : z (impedance), y (admittance), rs (series- equivalent resistance, esr), rp (parallel- equivalent resistance), g (conductivity), x (reactance), b (susceptance), (phase angle), ls (series-equivalent inductance), lp (parallel- equivalent inductance), cs (series-equivalent capacitance), cp (parallel-equivalent capacitance), q (q factor), d (loss constant tan ) frequency range: 100 khz to 120 mhz setting resolution: four digits (by front panel setting)* 100.0 khz to 1.000 mhz: 100-hz steps 1.000 mhz to 10.00 mhz: 1-khz steps 10.00 mhz to 100.0 mhz: 10-khz steps 100.0 mhz to 120.0 mhz: 100-khz steps * 1-hz resolution with gp-ib or rs-232c interface frequency accuracy: less than 0.005% of setting value 50 10 (at 100 khz) open-terminal voltage (v) mode level range: 5 mv to 1 v, 20 ma max. (up to 10.00 mhz) 5 mv to 500 mv, 10 ma max. (above 10.01 mhz) setting resolution: 1mv steps setting accuracy: (5% + 5 mv) (2 + log f) where f is in mhz constant current (cc) mode level range: 200 a to 20 ma: 1 v max. (up to 10.00 mhz) 200 a to 10 ma: 0.5 v max. (above 10.01 mhz) setting resolution: 10 a steps setting accuracy: (10% + 50 a) (2 + log f) where f is in mhz monitor voltage: 0.000 to 1.000 v monitor current: 0.000 to 20.00 ma current limit (during v setting): 0.20 to 20.00 ma voltage limit (during cc setting): 0.005 to 1.000 v 6 1 ms (nominal) actual time depends on measurement conditions, such as measurement speed and averaging. fast, normal, slow and slow2 off, 2, 4, 8, 16, 32 and 64 internal and external trigger sources can be selected. trigger delay function: 0.01 to 9.99 s with 0.01 s resolution measure a standard component to establish a compensation value for subsequent measurements. temporarily disable touch panel operation using rear panel switch. compares two measurement items. input either the absolute value, percentage of standard value or its deviation percentage ( %). note: for %, the measurement value is displayed as the percentage of deviation from the standard value. classification (bin) measurement correlation compensation function panel save and load measurement value storage zoom display function continuous measurements audible beeper numerical display digit setting function display setting functions printer functions interfaces operating temperature and humidity storage temperature and humidity operating environment power maximum rated power dimensions and mass conforming standards : : : : : : : : : : : : : : : : : : ranks two measurement items into ten classifications. constants a and b are entered to compensate displayed values. [compensated value] = a [measurement value] + b memory capacity: 30 sets load method: front panel key operation, external i/o connector, gp-ib, rs-232c memory capacity: up to 200 values measurement values are stored in the main unit and transferred as a batch. enlarge the display of measurement data and comparator results. measurements are made continuously per conditions saved on the screen. beeping can be set on/off for key entry and comparator results (in or ng). measurement values can be set to display as 3, 4 or 5 digits. available settings depend on the parameter. backlight and voltage/current monitor display can be set on/off. note: when the backlight is off, display refresh is disabled (during high-speed measurement). hard copy printout of measurement values and screens. note: requires 9442 and 9444 gp-ib, rs-232c and ext i/o (standard) 10 to 40 c, 80% rh or less, no condensation -10 to 55 c, 80% rh or less, no condensation indoors, up to 2000 m asl 100 to 240 vac, 50/60 hz 50 va approx. 360w 130h 360d mm, 8.3 kg emc : en61326:1997+a1:1998+a2:2001 en61000-3-2:2000 en61000-3-3:1995+a1:2001 safety: en61010-1:2001 pollution degree 2 high speed testing of chip inductors and magnetic heads in research and development 5
6 method of acquiring measurement accuracy measurement accuracy and range basic accuracy frequency constant log f+2 (f 10 mhz), where f is in mhz 10 log f - 7 (f > 10 mhz), where f is in mhz level constant 10 - 3 log v, where v is in mv cable length constant 1 (0m) 2 (2m, 9678) temperature constant 1 + 0.1 | t [ c] - 23 [ c] | measurement speed constant 5 + 150/ v (fast), where v is in mv 3 + 100/ v (normal), where v is in mv 1.5 + 30/ v (slow), where v is in mv 1 (slow2) accuracy is calculated using z and , and other parameters are calculated from these. z accuracy: calculated from the following formula accuracy [%] = basic accuracy frequency constant level constant measurement speed constant cable length constant temperature constant accuracy: calculated from the following formula accuracy [degrees] = z accuracy 0.6 [measurement range: reference value] * ranges for r, c, and l measurement are based on the data calculated from the z measurement range, and do not represent the guaranteed measurement ranges. 1. acquire z constants a and b from the basic accuracy table, and calculate the basic accuracy of z. 2. acquire the other constants from the measurement conditions. 3. acquire the accuracy of z. 4. calculate the basic accuracy of from the basic accuracy of z. 5. the range of possible values for z and is acquired from the basic accuracy. the absolute value of is used. 6. the range of possible values for cs is acquired from the range of z and . x = zsin , cs = 1/ x obtaining the basic accuracy of a capacitor. (cs=100pf) measurement value: z = 159.33, = -87.33 when measuring with the following conditions using 1 k range. ? measurement frequency: 10 mhz ? measurement speed: slow2 ? measurement signal level: 500 mv ? cable length: 0 m ? temperature: 24 c from the basic accuracy table, the constants a and b are a = 0.50 and b = 0.10 159.33 10 z basic accuracy = 0.50 + 0.10 ( - 1 ) = 0.559% 1000 frequency constant = log(10) + 2 = 3 level constant = 10 - 3 log(500) 1.903 measurement speed constant = 1 cable length constant = 1 temperature constant = 1 + 0.1 |24 - 23| = 1.1 z accuracy = 0.559 3 1.903 1 1 1.1 3.510% accuracy = 3.510 0.6 = 2.106 zmin = 159.33 ( 1 - 3.510 / 100 ) 153.74 zmax = 159.33 ( 1 + 3.510 / 100 ) 164.92 min = 87.33 - 2.106 85.224 max =87.33 + 2.106 89.436 csmin = 1 ( zmax sin max ) 96.509 pf ...-3.491% csmax = 1 ( zmin sin min ) 103.883 pf ...3.883% = 2 f, where f is the measurement frequency in hz therefore, the basic accuracy of cs is -3.491 to 3.883%. measurement range 9700-10 head amp unit upper end of range zm 10 basic accuracy = a + b ( -1 ) range lower end of range range basic accuracy = a + b ( -1 ) zm 10 zm = measurement value 1 k range 10 k range 100 k range 10 k to 300 k a=2.00 b=0.20 1 k to 20 k a=1.00 b=0.10 100 to 2 k a=0.50 b=0.10 100 m to 100 a=0.50 b=0.10 1 k range 10 k range 100 k range z ? r* 100 to 2 k 1k to 20 k 10 k to 300 k c* 0.66 pf to 15.9 f 0.066 pf to 1.59 nf 4.4 ff to 159 pf l* 0.133 nh to 3.18 mh 1.33 h to 31.8 mh 13.3 h to 477mh -180.00 to 180.00
7 3535 lcr hitester 9151-02 gp-ib connection cable (2 m) 9151-04 gp-ib connection cable (4 m) 9442 printer 9443-02 ac adapter (for 9442, eu) 9443-03 ac adapter (for 9442, usa) 9444 connection cable (for 9442) 1196 recording paper (for 9442 / 25 m, 10 rolls) the head amp and test fixtures are not supplied with the unit. please order the appropriate options for your application. options 9700-10 head amp unit 9677 smd test fixture 9699 smd test fixture 9678 connection cable 9637 rs-232c cable (9pin-9pin/cross/1.8m) 9638 rs-232c cable (9pin-25pin/cross/1.8m) options head amp unit must be factory adjusted for dedicated use with the 3535 before delivery. head amp unit must be factory adjusted for dedicated use with the 3535 before delivery. 9700-10 head amp unit measurement range: 100 m to 300 k(3 ranges) for testing components with electrodes on the bottom 9677 smd test fixture operating frequency : gfwr453pk measurable object size : 618318pp dimensions : dssur1436z ] 6:14k ] 7:19gpp mass : dssur1468j * please note that use of the 9677 with model 3535 will not comply with ce mark requirements. 9699 smd test fixture operating frequency : gfwr453pk measurable object size : zlgwk=413wr713ppkhljkw=ohvvwkdq418pp dimensions : dssur1 43318z ] 519k ] 7313gpp mass : dssur1458j rwh= wkh777frqqhfwlrqfdeohdqgdfdgdswhuduhuhtxluhgwrfrqqhfwwkh775sulqwhu1 printing method =wkhupdovhuldogrwsulqwhu paper width / print speed =445pp28518fsv power supply : 9443 ac adapter or supplied nimh battery (prints 3000 lines after full char ge by 9443) dimensions : approx. 160 z 66.5h z 170d mm mass =dssur183j smd test fixture (direct contact type) 9678 connection cable cable length: 2m 9442 printer head office : 81 koizumi, ueda, nagano, 386-1192, japan tel +81-268-28-0562 / fax +81-268-28-0568 e-mail: os-com@hioki.co.jp hioki usa corporation : 6 corporate drive, cranbury, nj 08512 usa tel +1-609-409-9109 / fax +1-609-409-9108 e-mail: hioki@hiokiusa.com distributed by doolqirupdlrqfruuhfdvridsu159/53391doovshflfdlrqvduhvemhfrfkdqjhzlkrqrlfh1 6868 h09h036ssulqhglqdsdq shanghai representative of?ce : 1310 shanghai times square of?ce 93 huaihai zhong road shanghai, 200021, p.r.china tel +86-21-6391-0090, 0092 fax +86-21-6391-0360 e-mail: info@hioki.cn
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