quality you can measure all in one the te 4 x 00 series is designed as a universal, multifunction dmm. measurements commonly associated with ?igh-end?system dmms are standard features with the te 4 x00 famil y . functions such as 4-wire and 6-wire guarded resistance measurements, inductance and capacitance, leakage and temperature, rms and peak-to-peak, frequency and timing, sourcing of voltage and current, and much more. the te 42 00 is best suited for applications demanding precision sources with simultaneous measurements such as in parametric testing, while the te 41 00 fits the bill where basic dmm functions are required. the te 41 00 series� unique ?elative?function allows you to remove lead resistance or other fixed offsets in your measurement and to perform percent deviation and db measurements. an external, level controlled trigger can be used for capturing single-shot events, and store up to 64 measurements on board. t e 41 00 6-1/2 digit digital multimeter te 4 20 0 6-1/2 digit multi- functi on digital multimeter te 42 00 6-1/2 lcr sourcing digital multimeter hardware features dc voltage and current ac voltage and current � true rms � peak-to-peak � crest factor � median resistance � 2-wire � 4-wire � 6-wire guarded meas. � extended meas. to 1g ? rtd temperature meas. diode v/i characterization capacitance measurement inductance measurement leakage measurement time measurements � variable threashold � frequency and period � duty cycle � pulse width � totalizer, event counter source & measure functions � dc voltage � ac voltage � dc current internal temperature environment friendly � low power & heat � minimal materials usage uncompromising performance the te 4 1 0 0 / 42 00 provides a combination of resolution, accuracy and speed that surpasses rivals. a 6-1/2 digit display, 0.006% basic dcv accuracy and 1,000 rps assure you of measurements that are accurate, fast and repeatable. the sm2042 adds a comprehensive repertoire of measurements, and the te 42 00 adds more measurements and source functions, packed into a 3 u p xi plug- in module. both measurements and sourcing functions are isolated from the pc and are therefore truly differential. an on board controller responds to high level commands from the pc, minimizing overhead. t e 4 1 0 0 series 6-1/2 digit p x i multimeters te st . me as ur e . ac qu ire . c ont ro l 2 70 71 c ab ot ro ad, suite 124 laguna hills , ca 926 5 3 p ho ne 949 . 34 8 .7 766 � fax 949 . 348.7776 ? web www.team-solutions.com test. measure. acquire. control marketing marketing
temperature rtd type [1] ro ( ? ) resolution temperature range accuracy 23? � 5? one year [1] [1] these specifications are valid for 4-wire type rtd. pt385, pt3911, pt3916, pt3926 100 ? , 200 ? 0.01 ? -150 to 650 ? �0.06 ? pt385, pt3911, pt3916, pt3926 500 ? , 1 k ? 0.01 ? -150 to 650 ? �0.03 ? cu (copper) less than 12 ? 0.01 ? -100 to 200 ? �0.18 ? for temp. 20?, otherwise �0.05 ? cu (copper) higher than 90 ? 0.01 ? -100 to 200 ? �0.10 ? for temp. 20?, otherwise �0.05 ? voltage, current and resistance leakage leakage reading voltage range accuracy 23? � 5? one year [1] [1] accuracy is % of reading + amp. error does not include external shunt resistor�s tolerance. 1.00 na to 100.00 na -10 v to + 10 v 2 + 350 pa 100.00 na to 1000.00 na -9 v to + 9 v 1.2 + 2 na 1000.00 na to 3300.00 na -7 v to + 7 v 1.5 + 20 na easy to install and use the te 41 00 series supports plug-and-play operating systems. once installed, your computer will automatically detect and allocate i/o space, without having to set address switches. add to this the intuitive graphical user interface (gui), and you are up and making measurements within minutes of installation. just point and click to perform a wide range of complex measurements. to further increase productivity and to automate the measurement process, the te 41 00 series examples are provided with comprehensive windows98/95 and nt support for both textual programming languages such as ?? ateasy, labwindows/cvi, testpoint, matlab and more, or for graphical environments such as visualbasic, labview, hpvee etc. 6-wire guarded resistance measurement ( te 42 00 ) the te 420 0 provides a guarded 6-wire resistance measurement method. it is used to make resistance measurements when the resistor-under-test has other shunting paths which can cause inaccurate readings. this method isolates the resistor-under-test by maintaining a guard voltage at a user defined node. applications include in circuit test, resistor networks, etc. example: assume a 30k ? resistor is in parallel with two resistors (510 ? and 220 ? ), that are connected in series. by sensing the voltage at the top of the 30 k ? , and then applying this same voltage to the junction of the 510 ? and 220 ? there is no current flow through the shunting path. with this ?uarding? the sm2044 accurately measures the 30k ? resistor. extended resistance ( te 42 00 ) when utilizing the leakage measurement configuration, use the following equation to derive the resistance being measured: r x = v s /i, where v s is the dc voltage source, and i is the leakage current being measured. for example, if you set the leakage test voltage to 9.0v and measure 9 na of leakage current, this corresponds to 1,000 m ? of resistance. this application is useful for testing cables, printed circuit boards, connectors and semiconductors. leakage ( te 420 0 ) t emperature ( te 42 00 ) dc volt range full scale reading resolution accuracy 90 days 23? � 5? [1] accuracy 1 year 23? � 5? [1] [1] accuracy is % of reading + volts. 330mv 330.0000 mv 100 nv 0.004 + 5.5 �v 0.007 + 8 �v 3.3 v 3.300000 v 1 �v 0.0025 + 12 �v 0.0045 + 17 �v 33 v 33.00000 v 10 �v 0.004 + 280 �v 0.007 + 330 �v 330 v 330.0000 v 100 �v 0.005 + 1.2 mv 0.008 + 1.5 mv v guard hi_v hi_i lo_i lo_v g_src g_sens 30 k ? 510 ? 220 ? + - sm2044 dc current 3.3 ma 3.30000 ma 10 na 0.07 + 350 na 0.085 + 400 na 33 ma 33.0000 ma 100 na 0.06 + 2 a 0.075 + 3 a [1] accuracy is % of reading + amps. 330 ma 330.000 ma 1 a 0.055 + 40 a 0.075 + 60 a 2.5a 2.50000 a 10 a 0.1 + 200 a 0.14 + 350 a ac current (rms) 3.3 ma (signal >50 ua) 3.30000 ma 1 na 10 hz - 20 hz 2.7 + 4 a [1] 2.9 + 4 a [1] 20 hz - 47 hz 0.9 + 4 a 1.0 + 4 a [1]accuracy is % of reading + amps. 47 hz - 1 khz 0.08 + 3 a 0.12 + 4 a 1 khz - 10 khz 0.14 + 4 a 0.22 + 4 a 33 ma (signal >500 ua) 33.0000 ma 10 na 10 hz - 20 hz 2.6 + 30 a 2.8 + 30 a 20 hz - 47 hz 0.9 + 30 a 1.0 + 30 a 47 hz - 1 khz 0.15 + 20 a 0.16 + 30 a 1 khz - 10 khz 0.3 + 40 a 0.4 + 40 a 330 ma (signal >5 ma) 330.000 ma 100 na 10 hz - 20 hz 2.7 + 400 a 2.8 + 400 a 20 hz - 47 hz 0.9 + 400 a 1.0 + 400 a 47 hz - 1 khz 0.17 + 180 a 0.22 + 220 a 1 khz - 10 khz 0.4 + 350 a 0.6 + 400 a 2.5 a (signal >50 ma) 2.50000 a 1 a 10 hz - 20 hz 2.5 + 3 ma 2.7 + 3 ma 20 hz - 47 hz 0.8 + 3 ma 0.9 + 3 ma 47 hz - 1 khz 0.2 + 2 ma 0.21 + 3 ma 1 khz - 10 khz 0.4 + 3 ma 0.44 + 4 ma ac volts (rms) range full scale reading resolution frequency accuracy 90 days 23? � 5? [1] accuracy 1 year 23? � 5? [1] [1] accuracy is % of reading + volts. [2] signal is limited to 8x10 6 volt hz product.. 330 mv (signal >5 mv) 330.000 mv 100 nv 10 hz - 20 hz 3.1 + 380 v 3.2 + 430 v 20 hz - 47 hz 0.93 + 170 v 0.95 + 200 v 47 hz - 10 khz 0.14 + 110 v 0.15 + 120 v 10 khz - 50 khz 0.6 + 200 v 0.63 + 230 v 50 khz - 100 khz 5.4 + 370 v 5.6 + 400 v 3.3 v (signal >10 mv) 3.300000 v 1 v 10 hz - 20 hz 3.1 + 2.2 mv 3.2 + 2.5 mv 20 hz - 47 hz 0.96 + 1.5 mv 1.0 + 1.7 mv 47 hz - 10 khz 0.055 + 1.1 mv 0.065 + 1.2 mv 10 khz - 50 khz 0.65 + 1.3 mv 0.7 + 1.5 mv 50 khz - 100 khz 5.2 + 1.7 mv 5.3 + 2 mv 33 v (signal >100 mv) 33.00000 v 10 v 10 hz - 20 hz 3.1 + 16 mv 3.3 + 20 mv 20 hz - 47 hz 0.96 + 14 mv 1.0 + 16 mv 47 hz - 10 khz 0.065 + 11 mv 0.073 + 13 mv 10 khz - 50 khz 0.095 + 18 mv 0.12 + 20 mv 50 khz - 100 khz 1.6 + 22 mv 1.8 + 30 mv 250 v [2] (signal >1 v) 250.0000 v 100 v 10 hz - 20 hz 3.1 + 160 mv 3.3 + 200 mv 20 hz - 47 hz 0.96 + 130 mv 1.0 + 150 mv 47 hz - 10 khz 0.045 + 110 mv 0.06 + 130 mv 10 khz - 50 khz 0.4 + 170 mv 0.45 + 200 mv 50 khz - 100 khz 1.8 + 240 mv 2.1 + 300 mv resistance 2-wire and 4-wire ohms range full scale reading current source resolution accuracy 90 days 23�� 5? [1] [2] accuracy 1 year 23�� 5? [1] [2] [1] accuracy is % of reading + ohms. [2] with reading rate set to 2 rps, within one hour of ohms zero, using relative control. [3] 4-wire ohms is available to 330 k ? range. [4] only available with the sm2042/44. 33 ? [4] 33.00000 ? 10 ma 10 ? 0.005 + 1.5 m ? 0.008 + 2 m ? 330 ? 330.0000 ? 1 ma 100 ? 0.0046 + 5 m ? 0.007 + 6 m ? 3.3 k ? 3.300000 k ? 1 ma 1 m ? 0.003 + 32 m ? 0.005 + 33 m ? 33 k ? 33.00000 k ? 100 a 10 m ? 0.0033 + 330 m ? 0.006 + 350 m ? 330 k ? [3] 330.0000 k ? 10 a 100 m ? 0.007 + 4 ? 0.009 + 5 ? 3.3 m ? 3.300000 m ? 1 a 1 ? 0.03 + 50 ? 0.04 + 70 ? 33 m ? 33.0000 m ? 100 na 100 ? 0.13 + 500 ? 0.2 + 600 ? 330 m ? [4] 330.00 m ? 10 na 10 k ? 1.4 + 60 k ? 2.0 + 80 k ?
capacitance range full scale reading resolution accuracy one year 23? � 5? [1] [1] accuracy is % of reading + farads. [2] within one hour of zero, using relative control. accuracy is specified for values higher than 5% of the selected range with the exception of the 10 nf range, which is capable of measuring down to 0 pf. 10 nf 11,999 pf 1 pf 2.1 5 pf [2] 100 nf 119.99 nf 10 pf 1 1 f 1.1999 f 100 pf 1 10 f 11.999 f 1 nf 1 100 f 119.99 nf 10 nf 1 1 mf 1.1999 mf 100 nf 1 10 mf 11.999 mf 1 f 2 acv frequency frequency range 1 hz - 100 hz 100 hz- 1 khz 1 khz- 10 khz 10 khz- 100 khz 100 khz- 300 khz [1] input rms voltage required for a valid reading. for example, 10% - 200% of range indicates that in the 330 mvac range, the input voltage should be 33 mv to 660 mv. resolution 1 mhz 10 mhz 100 mhz 1 hz 1 hz uncertainty is �0.002% of reading � adder shown 4 mhz 20 mhz 200 mhz 2 hz 5 hz input signal range [1] 10 - 200% of range 10 - 200% of range 10 - 200% of range 10 - 200% of range 25 - 200% of range ac crest factor [2] acv range resolution lowest specified input voltage (vp-p) highest specified input voltage (vp-p) accuracy 23? � 5? one year [1] [1] accuracy is % of reading + constant. [2] specified from 30hz to 10khz. 330 mv 0.01 0.1 v 1.8 v 2.2 0.3 3.3 v 0.01 1 v 18 v 2.1 0.1 33 v 0.01 10 v 180 v 2 0.1 250 v 0.01 100 v 700 v 2 0.1 acv p-p [2] acv range full scale reading (vp-p) resolution lowest specified input voltage (vp-p) accuracy 23? � 5? one year [1] [1] accuracy is % of reading + volts [2] specified from 30hz to 10khz. 330 mv 1.85 v 1 mv 0.1 v 1.5 10 mv 3.3 v 18.5 v 10 mv 1 v 1.4 70 mv 33 v 185 v 100 mv 10 v 1 700 mv 250 v 850 v 1 v 100 v 1 .6 v aci frequency frequency range 1 hz-100 hz 100 hz-1 khz 1 khz-10 khz 10 khz-500 khz resolution 1 mhz 10 mhz 100 mhz 1 hz uncertainty 0.01% 4 mhz 0.01% 20 mhz 0.01% 200 mhz 0.01% 2 hz input signal range, 3.3 ma range 10% -500% 10% - 500% 10% -500% 10% - 500% input signal range, 33 ma range 50% - 100% 50% - 100% 50% -100% 50% -100% input signal range, 330 ma, 2.5a ranges 50% -110% 50% - 100% 50% - 100% 50% - 100% timing threshold dac selected vac range threshold range threshold dac resolution typical one year setting uncertainty [1] [1] accuracy ( % of setting + volts). 330mv -1.0v to +1.0v 0.5 mv 0.2% + 4mv 3.3 v -10.0v to +10.0v 5.0 mv 0.2% + 40mv 33 v -100.0v to +100.0v 50 mv 0.2% + 0.4mv 250 v -500v to +500v 500 mv 0.2% + 4v t iming function ( te 42 00 ) inductance range full scale reading resolution default frequency accuracy one year 23? � 5? [1] [1] accuracy is % of reading + henry. [2] accuracy is specified for values greater than 5% of the selected range. [3] minimum measureable 500 nh. 33 h 33.00 h 1 nh 75 khz 3 + 500 nh [2] 330 h 330.0 h 10 nh 50 khz 2 + 3 h 3.3 mh [3] 3.300 mh 100 nh 4 khz 1.5 + 25 h 33 mh 33.00 mh 1 h 1.5 khz 1.5 + 200 h 330 mh 330.0 mh 10 h 1 khz 2.5 + 3 mh 3.3 h 3.300 h 100 h 100 hz 3 + 35 mh peak to peak, crest and median ( te 42 00 ) capacitance measurements ( te 42 0 0 ) inductance measurements ( te 420 0 ) internal temperature ( te 42 00 ) a special on-board temperature sensor allows monitoring of the dmm � s internal temperature. this provides the means to determine when to run the self-calibration function (s-cal) for the dmm, as well as predicting the performance of the dmm under different operating conditions. when used properly, this measurement can enhance the accuracy and stability of the dmm. it also allows monitoring of the pc internal temperature. capacitance measurement ( te 42 00 ) the te 42 00 measures capacitance using a differential charge slew method, usable down to a few pf. with the exception of the 10 nf range, each of the ranges has a reading span from 5% of range to full scale. for testing surface mount parts, use the optional signametrics smt tweezer probes. inductance measurement ( te 420 0 ) the te 42 0 0 measures inductance using a precision ac source with a frequency range of 20 hz to 75 khz. since inductors can vary greatly with frequency, you should choose the appropriate generator frequency. in addition to inductance, the inductor � s q factor is measured. sourcing functions ( te 420 0 ) the te 42 00 adds a number of sourcing functions, giving great versatility for a variety of applications. all of the available sources, vdc, vac, and idc are isolated. this allows sourcing with a significant common mode voltage as well as the ability to connect several te 42 00 units in parallel for increased dc current, or in series for increased dc voltage. two d/a converters (dacs) are used for the source functions, a 12 bit dac, and a trim dac. the last augments the 12 bit dac to form a 16 bit composite dac. for functions requiring high precision, use both dacs by selecting the closedloop mode, otherwise only the 12 bit dac is engaged. duty cycle frequency range 1hz to 100hz 100hz to 1khz 1khz to 10khz 10khz to 100khz resolution 0.02% 0.2% 2% 20% typical uncertainty is �0.03% of reading � adder shown 0.03% 0.3% 3% 20% full scale reading 100.00 % 100.00 % 100.00 % 100.00 % pulse width polarity frequency range resolution width range uncertainty positive and negative pulse 1 hz to 100 khz 2 s 2 s to 1s 0.01% 4 s ac median [2] acv range full scale reading resolution lowest specified input voltage (vp-p) accuracy 23? � 5? one year [1] [1] accuracy is % of reading + volts. [2] specified from 30hz to 10khz. 330 mv 0.950 v 1 mv 0.08 v 3.3 17 mv 3.3 v 9.50 v 10 mv 0.8 v 3 160 mv 33 v 95.0 v 100 mv 8 v 3 1.4v 250 v 425 v 1 v 80 v 3% 12v
dc volts input resistance 330 mv & 3.3 v ranges >10 g ? 33 v & 330 v ranges 10 m ? noice rejection nmrr 50, 60, 400hz >95 db cmrr @ 10 rps with 1 k ? lead imbalance >120 db dc current burden voltage < 350 mv for all ranges over current protected fuse, top accessible ac volts input resistance 1 m ? , shunted by < 100 pf, all ranges crest factor 3 at full scale, increasing to 7 at lowest specified voltage ac coupled specified range: 10 hz to 100 khz typical settling time < 0.5 sec to within 0.1% of final value cmrr @ 10 rps with 1 k ? lead imbalance >60 db. ac current burden voltage 350 mv rms all ranges crest factor 3 at full scale, increasing to 7 at lowest specified current over current protected 2.5 a fuse. top accessible trigger input input active voltage level range +3 v to +15 v minimum input current 1 ma timing characteristics trigger occurs within 1/reading rate isolation 35 v from analog dmm inputs, and from computer chassis earth ground. temperature coefficient all functions less than 0.1 x accuracy specification per � c at 23 � c 5 � c. specifications assume a zero operation performed within an hour of measurement, and self cal within four hours. reading rate (user selectable) 0.5 to 1,000 rps up to 10 rps, 6-1/2 digits up to 30 rps, 5-1/2 digits hardware interface pci bus overload protection (voltage inputs) 300 vdc, 250 vac (din connector) 50 vac isolation 300 vdc, 250 vac from earth ground maximum input (volt x hertz) 8x10 6 volt x hz common mode input (across voltage hi & lo). 1x10 6 volt x hz common mode input (across voltage hi & lo relative to earth ground). safety designed to iec 1010-1 guidelines, for iec 664 installation category ii. all dmm inputs are to be used in protected, low energy circuits only. approved calibration calibrations are performed by signametrics in a computer with a 10 � c internal temperature rise. all calibration constants are stored in a text file. calibration can be performed by any calibration laboratory having the appropriate equipment. temperature range 0 � c to 50 � c, operating power +5 vdc, 300 ma maximum size 8.2" x 4.4" dc voltage source parameter closed loop open loop [1] accuracy is % of reading + volts output voltage range -10.000v to +10.000v maximum current source/sink 10 ma dac resolution 16 bits 12 bits accuracy 23 � c 5 � c one year [1] 0.015% 250 v 0.13% 35 mv typical settling time 3s 2 ms typical source resistance 250 ? dc current source range compliance voltage resolution minimum level accuracy 23? � 5? one year [1] [1] accuracy is % of reading + amps 1.25 a 4.2 v 400 pa 1 na 0.2% + 1 na 12.5 a 4.2 v 4 na 10 na 0.1% + 10 na 125 a 4.2 v 40 na 100 na 0.1% + 100 na 1.25 ma 4.2 v 400 na 1 a 0.1% + 1 a 12.5 ma 4.0 v 4 a 10 a 0.1% + 10 a ac/dc v oltage source and current source ( te 42 00 ) note: te am s ol ut io ns , i nc . reserves the right to make changes in materials, specifications, product functionality or accessories without notice. software compatability the signametrics products are designed to be compatible with most windows � s/w including visualbasic � , � c++ � , hpvee � , ateasy � , matlab � , testpoint � , labwindows � , labview � and other packages. also provided is a visualbasic � panel with sources and plug-and-play setup. input characteristicsother specifications ac voltage source parameter closed loop open loop [1] accuracy is % of reading + volts output voltage 0 to 20 v peak-to-peak (0 to 7.071068v rms) dac resolution 16 bits 12 bit peak current 10 ma accuracy 23 � c 5 � c one year [1] acv spec 2 mv acv spec + 0.8% 8 mv typical settling time 10 s 1.5 s typical source resistance 250 ? frequency range / resolution 2 hz to 75 khz / 2 hz frequency stability 100 ppm 1 hz warranty t s i products are warranted for a period of one years from date of delivery against defects in material or workmanship. returned products will either be repaired or replaced at tsi � s discretion. guarantee if, for whatever reason, you are not satisfied with your ts i purchase, please return it within 30 days for a refund. 2 707 1 ca bo t roa d , s ui te 12 4 laguna hills , ca 926 53 ph on e 949 .3 48 . 77 6 6 � fax (949) 455- 1 12 0 ? web www.team-solutions.com precision instruments for the pc marketing
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