2001/MEM1 - KEITHLEY - Datasheet.Live

DIGITAL MULTIMETERS & SYSTEMS

A Greater Measure of Conﬁdence

www.keithley.com

1.888.KEITHLEY (U.S. only)

DMM users whose applications demand exceptional resolution, accuracy,

and sensitivity combined with high throughput now have two attractive

alternatives to high priced, high end DMMs. Keithley’s 7½-digit Model 2001

and 8½-digit Model 2002 High Performance Digital Multimeters not only

deliver performance specifications usually associated with instruments that

cost thousands more, but they also offer a broad range of functions not

typically available from DMMs. The 2002 is based on the same superior

measurement technology as the 2001, and the front panels of both instru-

ments have the same look, feel, and response.

True 7½- (or 8½-) Digit Resolution

While other DMMs may claim 7½- or 8½-digit resolution, they must aver-

age multiple readings to extend their resolution. The resolution speci-

fications of the 2001 and 2002 are based on a 28-bit A/D converter that

provides the resolution needed to discern smaller changes. This higher

resolution also provides greater dynamic range, making it possible to

measure from 1µV to 20V on a single range, thus avoiding range-shift

errors and delays.

Built-In Scanner (Multiplexer) Options

With the addition of a plug-in scanner card, the 2001 or 2002 becomes a

complete scan and measure system for applications involving up to ten

measurement points. The additional

resolution and measurement ranges pro-

vided by the 2002 make it an excellent

choice for production test, design verifi-

cation, and metrology applications where high accuracy is critical.

High Accuracy ACV Measurements

A patented circuit design makes the 2001 and 2002’s AC measurements several times more accurate

than competitive DMMs. In this circuit, the signal bypasses the prime error-contributing section of

conventional rms converters. This increases the accuracy at almost any voltage level, and also increas-

es sensitivity down to a guaranteed 1% of the selected range, compared to 5–10% for most other

DMMs. The result is highly accurate measurements over a broad range of inputs.

Applications involving vibration, servo, guidance, shock, and control systems often require accu-

rate low frequency ACV measurements. The 2001 and 2002 maintain very good accuracy (better

than 0.1%) down to 1Hz. The wide bandwidth of these DMMs allows for accurate measurements of

high frequency AC signals without the need for a special AC meter. Both the 2001 and 2002 feature

TRMS AC, average AC, peak AC, AC+DC, and crest factor measurement capability for a wide variety

of applications.

High Speed for High Throughput

In applications where high throughput is critical, both the 2001 and 2002 provide more than 2000

readings per second at 4½-digit resolution. At 7½ digits, the 2002 maintains full rated accuracy at

reading rates up to 44/second on DCV and ohms.

High Speed, High Precision Resistance Measurements

The Model 2002 uses a unique single-phase method for 4-wire ohms measurements. This makes it

twice as fast for a given power line cycle rate. This also eliminates errors due to changing lead resis-

tances that can result from fast test handlers. A built-in open-lead detection circuit also eliminates

many production test problems.

Fast, Flexible Triggering

Trigger latency—the delay between trigger and measurement—is often a barrier to higher throughput.

Also, variability in latency can complicate predicting measurement timing. The 2001 and 2002 trigger

is less than 2µs±1µs, which is much faster than typical system DMMs.

•True 7½- (Model 2001)

or 8½-digit (Model 2002)

resolution

•Exceptional measurement

integrity with high speed

•High speed function and range

changing

•Broad range of built-in

measurement functions

•Multiple measurement display

•Built-in 10 channel scanner

option

•GPIB interface

•HP3458A emulation mode

(Model 2002)

2001

7½-Digit High Performance Multimeter

2002

8½-Digit High Performance Multimeter

High resolution, high accuracy DMMs

DIGITAL MULTIMETERS & SYSTEMS

www.keithley.com

1.888.KEITHLEY (U.S. only)

A Greater Measure of Conﬁdence

Ordering Information

2001 High Performance 7½-Digit

DMM with 8K Memory

2002 High Performance 8½-Digit

DMM with 8K Memory

2000-SCAN

10-channel Scanner Card

2001-SCAN

10-channel Scanner

Card with two high-

speed channels

2001-TCSCAN

9-channel Thermocouple

Scanner Card

2001/MEM1

High Performance 7½-Digit

DMM with 32K Memory

2001/MEM2

High Performance 7½-Digit

DMM with 128K Memory

2002/MEM1

High Performance 8½-Digit

DMM with 32K Memory

2002/MEM2

High Performance 8½-Digit

DMM with 128K Memory

Accessories Supplied

Model 8605 High Performance

Modular Test Leads, user’s

manual, option slot cover,

and full calibration data.

2001

2002

7½-Digit High Performance Multimeter

8½-Digit High Performance Multimeter

The unique Trigger-Link feature included in the Model 2001 and 2002 and most Keithley test and

measurement products can be used to coordinate the operation of two or more instruments.

Trigger-Link combines six independent software selectable trigger lines on a single connector for

simple, direct control over all instruments in a system.

Spot Trends with the Bar-Graph Display

The ability to track reading trends around a target value easily can be just as important as the abso-

lute readings. A unique bar-graph display function in the 2001 and 2002 indicates data as a percent-

age of the selected range from ±0.01% to ±100%. Whether adjusting about zero or any other desired

value, this display can replace a nulling differential voltmeter.

Capture Spikes Down to 1µs

Both the 2001 and 2002 have internal peak detectors that can catch 1µs spikes such as power supply

spikes and transients, AC line power surges, and short-duration dropouts on components. These peak

detectors operate up to 1MHz for repetitive signals or down to 1µs for single spikes, so there is no

need for a separate scope. The DMMs can automatically display and store the highest value or display

the maximum and minimum values of spikes.

Built-in Features and Capabilities

The 2001 and 2002 offer many built-in measurements that are typically unavailable in instruments

of this type, including in-circuit current, temperature with thermocouples or RTDs, and peak spikes.

Four separate outputs linked to limits simplify configuring the DMMs for use in binning operations.

DC Voltage 1nV 1100V

10nV 1100V

AC Voltage 100nV 775Vrms

AC Voltage Bandwidth 1Hz 2MHz

DC Current 10pA 2.1A

DC In-Circuit Current 100µA 12A

AC Current 100pA 2.1A

Frequency 1Hz 15MHz

Frequency Sensitivity 60mV 775Vrms

Period 67ns 1s

Crest Factor 20Hz 1MHz

Peak Spikes–Repetitive 500ns 16s

Peak Spikes–Single 2µs 16s

Resistance 2-Wire 100nΩ 1GΩ

1µΩ 1GΩ

Resistance 4-Wire 100nΩ 2.1MΩ

1µΩ 210kΩ

Temperature–RTD –200° 630°C

Temperature–TC –200° 1820°C

Model 2002 Model 2001

Logarithmic scale

1p 1n 1µ 1m 1 1k 1M 1G

10–12 10–9 10–6 10–3 100 103 106 109

Linear scale

—500 0500 1000 1500 2000

Both the 2001 and 2002 provide exceptional measurement range. In addition, the 2002 offers

extended DCV and resistance measurement capabilities.

For more information, request

the Model 2001 and 2002

Technical Specifications books.

High resolution, high accuracy DMMs

DIGITAL MULTIMETERS & SYSTEMS

A Greater Measure of Conﬁdence

www.keithley.com

1.888.KEITHLEY (U.S. only)

2001

2002 7½-Digit High Performance Multimeter

8½-Digit High Performance Multimeter

SERVICES AVAILABLE

2000-SCAN-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2001/MEM1-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2001/MEM2-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2001-SCAN-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2001-TCSCAN-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2001-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2002/MEM1-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2002/MEM2-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

2002-3Y-EW 1-year factory warranty extended to 3 years

from date of shipment

C/2000-3Y-ISO 3 (ISO-17025 accredited) calibrations within

3 years of purchase for Model 2000-SCAN*

C/2001-3Y-ISO 3 (ISO-17025 accredited) calibrations

within 3 years of purchase for Models 2001,

2001/MEM1, 2001/MEM2, 2001-SCAN,

2001-TCSCAN*

C/2002-3Y-ISO 3 (ISO-17025 accredited) calibrations

within 3 years of purchase for Models 2002,

2002/MEM1, 2002/MEM2*

*Not available in all countries

The built-in AC crest factor measurement helps

ensure the accuracy of AC measurements. Other

DMMs typically perform AC measurements for

signals without excessive crest factor—the ratio

of peak value to rms values. However, when

crest factor rises, measurements may not meet

specs. With a 2001 or 2002, there is no need for

an oscilloscope to determine if the crest factor is

acceptable—the DMM measures it directly.

While some DMMs calculate average AC from the

rms value, these calculations apply only to sine

wave inputs. The 2001 and 2002 measure peak

value, average and true rms directly to obtain

a complete characterization of the signal. This

capability makes these DMMs ideal for AC circuit

design or test applications and for verifying test

voltages specified only in averages.

When measuring AC or digital signals, frequency

is critical. The 2001 and 2002 accurately meas-

ure frequency up to 15MHz. Accurate triggering

on the signal is critical to measure frequency

reliably. The frequency counters in the 2001

and 2002 have a fully adjustable trigger level for

good measurements of noisy signals.

Multiple Measurement Display

The 2001 and 2002 can display DC and AC volts

and the AC frequency from a single measure-

ment connection simultaneously. Several other

multiple-measurement displays are available,

including crest factor and bar graph. By meas-

uring sequentially and displaying simultaneously,

the 2001/2002 operates as if three different

meters are working together.

Option Slot Extends

DMM Performance

An option slot in the back of the 2001 and 2002

opens the door to a wide range of measurement

capabilities. Choose a 10-channel general-pur-

pose scanner card or a 9-channel thermocouple

scanner card to make measurements on multiple

test points or devices. This can eliminate the

need for a separate scanner and significantly

reduce programming and setup time.

ACCESSORIES AVAILABLE

TEST LEADS AND PROBES

5805 Kelvin Probes, 0.9m (3ft)

5805-12 Kelvin Probes, 3.6m (12ft)

5808 Low Cost, Single Pin, Kelvin Probes

5809 Low Cost, Kelvin Clip Lead Set

8502 Micro-DIN to 6 BNCs Adapter Box with 8501-1 Cable

8530 Centronics Adapter

8605 High Performance 2-Wire Modular Test Leads

8606 High Performance Modular Probe Kit

8610 Low Thermal Shorting Plug

8680 RTD Probe Adapter

8681 Low Cost RTD

CABLES/ADAPTERS

7007-1 Shielded GPIB Cable, 1m (3.3 ft)

7007-2 Shielded GPIB Cable, 2m (6.6 ft)

8501-1 Trigger-Link Cable, 1m (3.3 ft)

8501-2 Trigger Link Cable, 2m (6.6 ft)

8502 Trigger Link Adapter Box

8610 Low Thermal Shorting Plug

8620 4-Wire DMM Shorting Plug

RACK MOUNT KITS

4288-1 Single Fixed Rack Mount Kit

4288-4 Side-by-Side Rack Mount Kit

GPIB INTERFACES

KPCI-488LPA IEEE-488 Interface Controller for the PCI Bus

KUSB-488B IEEE-488 USB-to-GPIB Interface Adapter

High resolution, high accuracy DMMs

DIGITAL MULTIMETERS & SYSTEMS

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

Minutes4

Hours1

Days2

Year2

Years2

200 mV 3 ±210.00000 mV 10 nV 100 nV >10 GW3 + 3 10 + 6 25 + 6 37 + 6 50 + 6

2 V ±2.1000000 V 100 nV 1 µV >10 GW2 + 1.5 7 + 2 18 + 2 25 + 2 32 + 2

20 V ±21.000000 V 1 µV 10 µV >10 GW2 + 1.5 7 + 4 18 + 4 24 + 4 32 + 4

200 V ±210.00000 V 10 µV 100 µV 10 MW ±1% 2 + 1.5 13 + 3 27 + 3 38 + 3 52 + 3

1000 V ±1100.0000 V 100 µV 1 mV 10 MW ±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 TCAL ±1°C, following 55-minute warm-up. TCAL is ambient tempera-

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

2. For TCAL ±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 TREF ±1°C (TREF 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 RMS1

90 Days, ±2°C from last AC self-cal for 1% to 100% of range2

±(% 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 0.03 + 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 0.03 + 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 4

200 V 3 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 4 + 0.2 4

750 V 3 0.25 + 0.015 0.1 + 0.015 0.08 + 0.015 0.09 + 0.015 0.12 + 0.015 0.15 + 0.015 4 0.5 + 0.015 4

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 × (VIN/100V)2 additional uncertainty above 100V rms.

4. Typical values.

OHMS

TWO-WIRE AND FOUR-WIRE OHMS (2W and 4W Ohms Functions) 6

Default

Resolution

Current

Source 1

Resistance Accuracy 3

±(ppm of reading + ppm of range)

Range Full Scale Resolution 24 Hours 4 90 Days 5 1 Year 5 2 Years 5

20 W21.000000 W1 µW10 µW9.2 mA 29 + 7 52 + 7 72 + 7 110 + 7

200 W210.00000 W10 µW100 µW0.98 mA 24 + 7 36 + 7 56 + 7 90 + 7

2 kW2100.0000 kW100 µW1 mW0.98 m A 22 + 4 33 + 4 50 + 4 80 + 4.5

20 kW21.000000 kW1 mW10 mW 89 µA 19 + 4 32 + 4 50 + 4 80 + 4.5

200 kW210.00000 kW10 mW100 mW 7 µA 20 + 4.5 72 + 4.5 90 + 4.5 130 + 5

2 MW 2 2.1000000 MW100 mW 1 W 770 nA 50 + 4.5 110 + 4.5 160 + 4.5 230 + 5

20 MW 2 21.000000 MW 1 W 10 W 70 nA 160 + 4.5 560 + 4.5 900 + 4.5 1100 + 5

200 MW 2 210.00000 MW 10 W 100 W 4.4 nA 3000 + 100 10000 +100 20000 + 100 30000 + 100

1 GW 2 1.0500000 GW 100 W1 kW 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 20W to

20kW ranges).

4. For TCAL ±1°C, following 55 minute warm-up. TCAL is ambient tempera-

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

5. For TCAL ±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 ACCURACY4

Range Full Scale Resolution

Default

Resolution

Maximum

Burden

Voltage6

Accuracy1

±(ppm of reading + ppm of range)

24 Hours290 Days31 Year32 Years3

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 TCAL ±1°C, following 55 minute warm-up.

3. For TCAL ±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) ×

(IMEASURED/IFULL SCALE).

Model 2001 and 2002 specifications

DIGITAL MULTIMETERS & SYSTEMS

A Greater Measure of Conﬁdence

www.keithley.com

1.888.KEITHLEY (U.S. only)

2001

2002 7½-Digit High Performance Multimeter

8½-Digit High Performance Multimeter

2001 Condensed Specifications (continued)

AC AMPS

ACI ACCURACY1, 2

90 Days, 1 Year or 2 Years, TCAL ±5°C, for 5% to 100% of range, ±(% of reading + % of range)

RANGE

20Hz–

50Hz

50Hz–

200Hz

200Hz–

1kHz

1kHz–

10kHz

10kHz–

30kHz3

30kHz–

50kHz3

50kHz–

100kHz3

200 µA 0.35 + 0.015 0.2 + 0.015 0.4 + 0.015 0.5 + 0.015

2 mA 0.3 + 0.015 0.15 + 0.015 0.12 + 0.015 0.12 + 0.015 0.25 + 0.015 0.3 + 0.015 0.5 + 0.015

20 mA 0.3 + 0.015 0.15 + 0.015 0.12 + 0.015 0.12 + 0.015 0.25 + 0.015 0.3 + 0.015 0.5 + 0.015

200 mA 0.3 + 0.015 0.15 + 0.015 0.12 + 0.015 0.15 + 0.015 0.5 + 0.015 1 + 0.015 3 + 0.015

2 A 0.35 + 0.015 0.2 + 0.015 0.3 + 0.015 0.45 + 0.015 1.5 + 0.015 4 + 0.015

AC AMPS NOTES

1. Specifications apply for sinewave input, AC+DC coupling, 1 power line

cycle, digital filter off, following 55 minute warm-up.

2. Add 0.005% of range uncertainty for current above 0.5A rms for self-

heating.

3. Typical values.

FREQUENCY COUNTER

AC VOLTAGE INPUT: 1Hz–15MHz.

ACCURACY: ±(0.03% of reading).

DC IN-CIRCUIT CURRENT

TYPICAL RANGES: Current: 100µA to 12A. Trace Resistance: 1mW to 10W typical.

ACCURACY: ±(5% + 2 counts). For 1 power line cycle, Auto Zero on, 10 reading digital filter,

TCAL ±5°C, after being properly zeroed. 90 days, 1 year or 2 years.

TEMPERATURE

Built-in linearization for J, K, N, T, E, R, S, B thermocouple types to ITS-90 and 100W platinum

RTDs DIN 43 760 or IPTS-68.

GENERAL

POWER: Voltage: 90–134V and 180–250V, universal self-selecting. Frequency: 50Hz, 60Hz,

or 400Hz self-identifying. Consumption: <55VA.

ENVIRONMENTAL: Operating Temperature: 0° to 50°C. Storage Temperature: –40° to

70°C. Humidity: 80% R.H., 0° to 35°C, per MIL-T-28800E1 Para 4.5.5.1.2.

PHYSICAL: Case Dimensions: 90mm high × 214mm wide × 369mm deep (3½ in. × 8½ in.

× 14½ in.). Net Weight: <4.2kg (<9.2 lbs.). Shipping Weight: <9.1kg (<20 lbs.).

STANDARDS

EMI/RFI: Conforms to VDE 0871B (per Vfg 1046/1984), IEC 801-2. Meets FCC part 15 Class

B, CISPR-22 (EN55022).

Safety: Conforms to IEC348, CAN/CSA-C22.2. No. 231, MIL-T-28800E1. Designed to

UL1244.

Note 1: For MIL-T-28800E, applies to Type III, Class 5, Style E.

For complete specifications, refer to the 2001 Technical Data book.

2002 Condensed Specifications

DC VOLTS

DCV INPUT CHARACTERISTICS AND ACCURACY

Enhanced Accuracy 1 – 10PLC, DFILT 10 Relative Accuracy ±(ppm of reading + ppm of range)

Range Full Scale Resolution

Input

Resistance Transfer 5 24 Hours 2 90 Days 3 1 Year 3 2 Years 3

20 0 mV 4 ±210.000000 mV 1 nV >10 0 GW0.4 + 1.5 3.5 + 3 15 + 8 19 + 9 23 + 10

2 V 4 ±2.10000000 V 10 nV >10 0 G W0.2 + 0.15 1.2 + 0.3 6 + 0.8 10 + 0.9 14 + 1

20 V ±21.0000000 V 100 nV >10 0 G W0.1 + 0.05 1.2 + 0.1 6 + 0.15 10 + 0.15 14 + 0.15

200 V ±210.000000 V 1 µV 10 MW ±1% 0.5 + 0.08 5 + 0.4 14 + 2 22 + 2 30 + 2

1000 V 6 ±1100.00000 V 10 µV 10 MW ±1% 1 + 0.05 5 + 0.08 14 + 0.4 22 + 0.4 30 + 0.4

Normal Accuracy 7 – 1PLC, DFILT off

Relative Accuracy

±(ppm of reading + ppm of range)

Range Full Scale Resolution

Input

Resistance 24 Hours290 Days31 Year32 Years3

20 0 mV 4 ±210.00000 mV 10 nV >10 0 G W3.5 + 6 15 + 11 19 + 12 23 + 13

2 V 4 ±2.1000000 V 100 nV >10 0 G W1.2 + 0.6 6 + 1.1 10 + 1.2 14 + 1.3

20 V ±21.000000 V 1 µV >10 0 GW3.2 + 0.35 8 + 0.4 12 + 0.4 16 + 0.4

200 V ±210.00000 V 10 µV 10 MW ±1% 5 + 1.2 14 + 2.8 22 + 2.8 30 + 2.8

1000 V 6 ±1100.0000 V 100 µV 10 MW ±1% 5 + 0.4 14 + 0.7 22 + 0.7 30 + 0.7

DC VOLTS NOTES

1. Specifications are for 10 power line cycles, synchronous autozero,

10-reading repeat digital filter, autorange off, except as noted.

2. For TCAL ±1°C, following 4-hour warm-up. TCAL is ambient temperature

at calibration (23°C at the factory). Add 0.5ppm of reading uncertainty

if the unit is power cycled during this interval.

3. For TCAL ±5°C, following 4-hour warm-up.

4. Care must be taken to minimize thermal offsets due to operator cables.

5. Specifications apply for 20-reading repeat digital filter, TREF ±0.5°C

(TREF is the initial ambient temperature), and for measurements within

10% of the initial measurement value and within 10 minutes of the

initial measurement time.

6. Add 20ppm × (VIN/1000V)2 additional uncertainty for inputs above

200V, except in transfer accuracy specifications.

7. Specifications are for 1 power line cycle, normal autozero, digital filter

off, autorange off.

AC VOLTS Normal Mode RMS1

90 Days, 1 Year or 2 Years, ±2°C from last AC self-cal, for 1% to 100% of range 2

±(% 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 0.02 + 0.02 0.02 + 0.02 0.025 + 0.02 0.05 + 0.01 0.3 + 0.015 0.75 + 0.025 2 + 0.1 5 + 0.2

2 V 0.25 + 0.015 0.07 + 0.015 0.02 + 0.02 0.02 + 0.02 0.025 + 0.02 0.05 + 0.01 0.3 + 0.015 0.75 + 0.025 2 + 0.1 5 + 0.2

20 V 0.25 + 0.015 0.07 + 0.015 0.03 + 0.015 0.04 + 0.015 0.05 + 0.015 0.07 + 0.015 0.3 + 0.015 0.75 + 0.025 4 + 0.2 7 + 0.2 4

200 V 3 0.25 + 0.015 0.07 + 0.015 0.03 + 0.015 0.04 + 0.015 0.05 + 0.015 0.07 + 0.015 0.3 + 0.015 0.75 + 0.025 4 4 + 0.2 4

750 V 3 0.25 + 0.015 0.1 + 0.015 0.05 + 0.015 0.06 + 0.015 0.08 + 0.015 0.1 + 0.015 4 0.5 + 0.015 4

AC VOLTS NOTES

1. Specifications apply for sinewave input, AC +

DC coupling, 1 power line cycle, autozero on,

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% of

range uncertainty. For inputs from 200kHz

to 2MHz, specifications apply above 10% of

range.

3. Add 0.001% of reading × (VIN/100V)2 addi-

tional uncertainty for inputs above 100V rms.

4. Typical values.

Model 2001 and 2002 specifications

DIGITAL MULTIMETERS & SYSTEMS

www.keithley.com

1.888.KEITHLEY (U.S. only)

A Greater Measure of Conﬁdence

2002 Condensed Specifications (continued)

OHMS

TWO-WIRE AND FOUR-WIRE OHMS

Range Full Scale Resolution

Current

Source 1

Relative Accuracy 3

±(ppm of reading + ppm of range)

Transfer 7 24 Hours 4 90 Days 5 1 Year 5 2 Years 5

20 W21.000000 W 100 nW7.2 m A 2.5 + 3 5 + 4.5 15 + 6 17 + 6 20 + 6

20 0 W210.00000 W1 µW960 µA 2.5 + 2 5 + 3 15 + 4 17 + 4 20 + 4

2 kW2100.0000 kW10 µW960 µA 1.3 + 0.2 2.5 + 0.3 7 + 0.4 9 + 0.4 11 + 0.4

20 kW21.000000 kW 100 µW96 µA 1.3 + 0.2 2.5 + 0.3 7 + 0.4 9 + 0.4 11 + 0.4

20 0 k W210.00000 kW1 mW9.6 µA 2.5 + 0.4 5.5 + 0.5 29 + 0.8 35 + 0.9 40 + 1

2 MW 2.1000000 MW10 mW1.9 µA 5 + 0.2 12 + 0.3 53 + 0.5 65 + 0.5 75 + 0.5

20 MW 2 21.000000 MW 100 mW1.4 µA 615 + 0.1 50 + 0.2 175 + 0.6 250 + 0.6 300 + 0.6

20 0 M W 2 210.00000 MW 1 W1.4 µA 650 + 0.5 150 + 1 500 + 3 550 + 3 600 + 3

1 GW 2 1.0500000 GW 10 W1.4 µA 6250 + 2.5 750 + 5 2000 + 15 2050 + 15 2100 + 15

2001

2002 7½-Digit High Performance Multimeter

8½-Digit High Performance Multimeter

OHMS NOTES

1. Current source has an absolute accuracy of ±5%.

2. For 2-wire mode.

3. Specifications are for 10 power line cycles, 10-reading repeat digital

filter, synchronous autozero, autorange off, 4-wire mode, offset com-

pensation on (for 20W to 20kW ranges), except as noted.

4. For TCAL ±1°C, following 4-hour warm-up. TCAL is ambient temperature

at calibration (23°C at the factory).

5. For TCAL ±5°C, following 4-hour warm-up.

6. Current source is paralleled with a 10MW resistance.

7. Specifications apply for 20-reading repeat digital filter, TREF ±0.5°C

(TREF is the initial ambient temperature), and for measurements within

10% of the initial measurement value and within 10 minutes of the

initial measurement time.

DC AMPS

DCI INPUT CHARACTERISTICS AND ACCURACY

Range Full Scale Resolution

Maximum

Burden Voltage 3

Relative Accuracy

±(ppm of reading + ppm of range)

24 Hours 1 90 Days 2 1 Year 2 2 Years 2

200 µA 210.00000 µA 10 pA 0.25 V 50 + 6 275 + 25 350 + 25 500 + 25

2 mA 2.1000000 mA 100 pA 0.3 V 50 + 5 275 + 20 350 + 20 500 + 20

20 mA 21.000000 mA 1 nA 0.35 V 50 + 5 275 + 20 350 + 20 500 + 20

200 mA 210.00000 mA 10 nA 0.35 V 75 + 5 300 + 20 375 + 20 525 + 20

2 A 2.1000000 A 100 nA 1.1 V 350 + 5 600 + 20 750 + 20 1000 + 20

DC AMPS NOTES

1. For TCAL ±1°C, following 55-minute warm-up. TCAL is ambient tempera-

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

2. For TCAL ±5°C, following 55-minute warm-up.

3. Actual maximum burden voltage = (maximum burden voltage) ×

(I MEASURED/I FULL SCALE).

AC AMPS

ACI Accuracy 1, 2

90 Days, 1 Year or 2 Years, TCAL ±5°C, for 5% to 100% of range, ±(% of reading + % of range)

Range

20Hz–

50Hz

50Hz–

200Hz

200Hz–

1kHz

1kHz–

10kHz

10kHz–

30kHz3

30kHz–

50kHz3

50kHz–

100kHz3

200 µA 0.35 + 0.015 0.2 + 0.015 0.4 + 0.015 0.5 + 0.015

2 mA 0.3 + 0.015 0.15 + 0.015 0.12 + 0.015 0.12 + 0.015 0.25 + 0.015 0.3 + 0.015 0.5 + 0.015

20 mA 0.3 + 0.015 0.15 + 0.015 0.12 + 0.015 0.12 + 0.015 0.25 + 0.015 0.3 + 0.015 0.5 + 0.015

200 mA 0.3 + 0.015 0.15 + 0.015 0.12 + 0.015 0.15 + 0.015 0.5 + 0.015 1 + 0.015 3 + 0.015

2 A 0.35 + 0.015 0.2 + 0.015 0.3 + 0.015 0.45 + 0.015 1.5 + 0.015 4 + 0.015

AC AMPS NOTES

1 Specifications apply for sinewave input, AC+DC coupling, 1 power line

cycle, autozero on, digital filter off, following 55-minute warm-up.

2 Add 0.005% of range uncertainty for current above 0.5A rms for

self-heating.

3. Typical values.

FREQUENCY COUNTER

AC VOLTAGE INPUT: 1Hz–15 MHz.

ACCURACY: ±(0.03% of reading).

DC IN-CIRCUIT CURRENT

TYPICAL RANGES: Current: 100µA to 12A. Trace Resistance: 1mW to 10W.

ACCURACY: ±(5% + 500µA). For 1 power line cycle, autozero on, 10-reading digital filter,

TCAL ±5°C, 90 days, 1 year or 2 years.

TEMPERATURE

Built-in linearization for J, K, N, T, E, R, S, B thermocouple types to ITS-90 and 100W platinum

RTDs DIN 43760, IPTS-68, and ITS-90.

GENERAL

POWER: Voltage: 90–134V and 180–250V, universal self-selecting. Frequency: 50Hz, 60Hz,

or 400Hz self-identifying at power-up. Consumption: <55VA.

ENVIRONMENTAL: Operating Temperature: 0° to 50°C. Storage Temperature: –40° to

70°C. Humidity: 80% R.H., 0° to 35°C.

PHYSICAL: Case Dimensions: 90mm high × 214mm wide × 369mm deep (3½ in. × 8½ in.

× 14½ in.). Net Weight: <4.2kg (<9.2 lbs.). Shipping Weight: <9.1kg (<20 lbs.).

STANDARDS

EMI/RFI: Conforms to European Union EMC directive.

Safety: Conforms to European Union Low Voltage directive.

Note 1: For MIL-T-28800E, applies to Type III, Class 5, Style E.

Model 2001 and 2002 specifications