Keithley 2002 Digital-Multimeter, DMM, 2002 Datenbogen

Produktcode

2002

IGI

L M

S &

TEMS

www.keithley.com

1.888.KEITHLEY

(U.S. only)

A Greater Measure of Confidence

2001 Condensed specifications

DC VolTs

DCV INPuT CHaraCTErIsTICs aND aCCuraCY

Default

resolution

Input

resistance

accuracy

±(ppm of reading + ppm of range)

range

full scale

resolution

Minutes

Hours

Days

Year

Years

200 mV

±210 .00000 mV

10 nV

100 nV

>10 G

3 + 3

10 + 6

25 + 6

37 + 6

50 + 6

2 V

±2 .1000000 V

100 nV

1 µV

>10 G

2 + 1 .5

7 + 2

18 + 2

25 + 2

32 + 2

20 V

±21 .000000 V

1 µV

10 µV

>10 G

2 + 1 .5

7 + 4

18 + 4

24 + 4

32 + 4

200 V

±210 .00000 V

10 µV

100 µV

10 M

W ±1%

2 + 1 .5

13 + 3

27 + 3

38 + 3

52 + 3

1000 V

±1100 .0000 V

100 µV

1 mV

10 M

W ±1%

10 + 1 .5

17 + 6

31 + 6

41 + 6

55 + 6

2001

2002

7½-Digit High Performance Multimeter

8½-Digit High Performance Multimeter

DC VolTs NoTEs

1 . For T

CAL

±1°C, following 55-minute warm-up . T

CAL

is ambient tempera-

ture at calibration, which is 23°C from factory .

2 . For T

CAL

±5°C, following 55-minute warm-up . Specifications include

factory traceability to US NIST .

3 . When properly zeroed using REL function .
4 . DCV Transfer Stability typical applications are standard cell compari-

sons and relative accuracy measurements . Specs apply for 10 power

line cycles, 20-reading digital filter, autozero on with type synchro-

nous, fixed range following 2-hour warm-up at full scale to 10% of

full scale, at T

REF

±1°C (T

REF

is the initial ambient temperature) .

Specifications on the 1000V range are for measurements within 5% of

the initial measurement value and following measurement settling .

aC VolTs

Normal Mode rMs

90 Days, ±2°C from last aC self-cal for 1% to 100% of range

±(% of reading + % of range)

range

20–50Hz

50–100Hz

0.1–2kHz

2–10kHz

10–30kHz

30–50kHz

50–100kHz

100–200kHz

0.2–1MHz

1–2MHz

200 mV

0 .25 + 0 .015

0 .07 + 0 .015

0 .03 + 0 .015

0 .035 + 0 .015

0 .05 + 0 .015

0 .3 + 0 .015

0 .75 + 0 .025

2 + 0 .1

5 + 0 .2

2 V

0 .25 + 0 .015

0 .07 + 0 .015

0 .03 + 0 .015

0 .035 + 0 .015

0 .05 + 0 .015

0 .3 + 0 .015

0 .75 + 0 .025

2 + 0 .1

5 + 0 .2

20 V

0 .25 + 0 .015

0 .07 + 0 .015

0 .04 + 0 .015

0 .06 + 0 .015

0 .08 + 0 .015

0 .1 + 0 .015

0 .3 + 0 .015

0 .75 + 0 .025

4 + 0 .2

7 + 0 .2

200 V

0 .25 + 0 .015

0 .07 + 0 .015

0 .04 + 0 .015

0 .06 + 0 .015

0 .08 + 0 .015

0 .1 + 0 .015

0 .3 + 0 .015

0 .75 + 0 .025

4 + 0 .2

750 V

0 .25 + 0 .015

0 .1 + 0 .015

0 .08 + 0 .015

0 .09 + 0 .015

0 .12 + 0 .015

0 .15 + 0 .015

0 .5 + 0 .015

aC VolTs NoTEs

1 .  Specifications apply for sinewave input, AC + DC coupling, 1 power line cycle, digital filter off, following 55 minute warm-up .
2 .  For 1% to 5% of range below 750V range, and for 1% to 7% of 750V range, add 0 .01% to range uncertainty . For inputs from 200kHz to 2MHz, specifications apply above 10% of range .
3 .  Add 0 .001% of reading × (V

/100V)

additional uncertainty above 100V rms .

4 . Typical values .

oHMs

TWo-WIrE aND four-WIrE oHMs (2W and 4W ohms functions)

Default

resolution

Current

source

resistance accuracy

±(ppm of reading + ppm of range)

range

full scale

resolution

24 Hours

90 Days

1 Year

2 Years

21 .000000

1 µ

10 µ

9 .2 mA

29 + 7

52 + 7

72 + 7

110 + 7

200

210 .00000

10 µ

100 µ

0 .98 mA

24 + 7

36 + 7

56 + 7

90 + 7

2 k

2100 .0000 k

100 µ

1 m

0 .98 mA

22 + 4

33 + 4

50 + 4

80 + 4 .5

20 k

21 .000000 k

1 m

10 m

89 µA

19 + 4

32 + 4

50 + 4

80 + 4 .5

200 k

210 .00000 k

10 m

100 m

7 µA

20 + 4 .5

72 + 4 .5

90 + 4 .5

130 + 5

2 M

2 .1000000 M

100 m

770

50 + 4 .5

110 + 4 .5

160 + 4 .5

230 + 5

20 M

21 .000000 M

W 1

70 nA

160 + 4 .5

560 + 4 .5

900 + 4 .5

1100 + 5

200 M

210 .00000 M

W 10 W

100

4 .4 nA

3000 + 100 10000 +100 20000 + 100 30000 + 100

1 G

1 .0500000 G

W 100 W

1 k

4 .4 nA

9000 + 100 20000 +100 40000 + 100 60000 + 100

oHMs NoTEs

1 .  Current source is typically ±9% absolute accuracy .
2 .  For 2-wire mode .
3 .  Specifications are for 1 power line cycle, 10 reading digital filter,

Auto Zero on, 4-wire mode, offset compensation on (for 20

W to

20k

W ranges) .

4 . For T

CAL

±1°C, following 55 minute warm-up . T

CAL

is ambient tempera-

ture at calibration (23°C at the factory) .

5 . For T

CAL

±5°C, following 55-minute warm-up . Specifications include

traceability to US NIST .

6 . When measuring resistance of inductive loads, the inductance of that

load must be 10mH or less .

DC aMPs

DCI INPuT CHaraCTErIsTICs aND aCCuraCY

range

full scale

resolution

Default

resolution

Maximum

burden

Voltage

accuracy

±(ppm of reading + ppm of range)

24 Hours

90 Days

1 Year

2 Years

200 µA

210 .00000 µA

10 pA

100 pA

0 .25 V

63 + 25

300 + 25

500 + 25

1350 + 25

2 mA

2 .1000000 mA

100 pA

1 nA

0 .31 V

64 + 20

300 + 20

400 + 20

750 + 20

20 mA

21 .000000 mA

1 nA

10 nA

0 .4 V

65 + 20

300 + 20

400 + 20

750 + 20

200 mA

210 .00000 mA

10 nA

100 nA

0 .5 V

96 + 20

300 + 20

500 + 20

750 + 20

2 A

2 .1000000 A

100 nA

1 µA

1 .5 V

500 + 20

600 + 20

900 + 20

1350 + 20

DC aMPs NoTEs

1 . Specifications are for 1 power line cycle, Auto Zero on, 10 reading

digital filter .

2 . For T

CAL

±1°C, following 55 minute warm-up .

3 . For T

CAL

±5°C, following 55 minute warm-up . Specifications include

traceability to US NIST .

4 . Add 50 ppm of range for current above 0 .5A for self heating .
6 . Actual maximum voltage burden = (maximum voltage burden) ×

MEASURED

FULL SCALE

) .

ode

l 2

1 a

nd 2

2 s

fic

ode

l 2

1 a

nd 2

2 s

fic