72001-0101 - FLIR Systems, Inc

T3DMM6-5/T3DMM6-5-SC Data Sheet

6.5 Digit Digital Multimeter with optional Scanner capability

Broad Measurement Range

DC: 1000 Volts

AC: 750 Volts

Current: 10A

Tools for Improved Debugging

 Wide range of measurements – DC/AC voltage and

Current, Resistance, Capacitance, Frequency, Period,

Temperature, and more.

More application coverage from a single Digital

multimeter.

 True-RMS measurements – All AC Voltage and

Current ranges give True-RMS readings.

Excellent accuracy regardless of the waveform shape.

 Low level measurement, high sensitivity ranges –

Voltage ranges as low as 200 mV full scale, DC Current

200 µA, AC Current 200 µA full scale.

High sensitivity ranges give greater accuracy of

small signal measurements.

 Advanced measurement features – Min, Max,

Average, Standard Deviation dBm/dB, Pass/fail,

Histogram, Trend, Relative measurements.

Advanced features for today’s measurement needs.

 Built-in cold terminal thermocouple compensation –

4.3 inch (10.92 cm) color TFT-LCD 480 x 272 display.

Accurate Temperature measurements.

 USB Device, USB Host and LAN support Remote control your measurements.

Key Specications

DC Voltage 200 mV to 1000 V

DC Current 200 µA to 10 A

True RMS AC Voltage 200 mV to 750 V

True RMS AC Current 200 µA to 10 A

2/4 Wire Resistance 200 Ohms to 100 MOhms

Connectivity USB Device, LAN

Remote Control SCPI, LabView Driver

PRODUCT OVERVIEW

Teledyne Test Tools T3DMM6-5 is a 6½ digit digital multimeter incorporating the latest 4.3 inch (10.92cm) dual-

display technology which can be congured to show data histograms, Data fluctuation Trends, Bar Graph, Statistics

or the traditional Number mode, all in an easy to use interface.

A great feature of the Teledyne Test Tools T3DMM6-5 is it’s ability to made highly accurate True RMS AC Voltage and

Current measurements, meaning no loss of accuracy even when measuring complex voltage and current waveforms.

The T3DMM6-5 is especially well suited for the needs of High precision multifunctional environments, as well as

supporting a full range of automatic measurements.

Main Functions

Basic Measurement Function

 DC Voltage: 200 mV ~ 1000 V

 DCCurrent:200μA~10A

 AC Voltage: True-RMS, 200 mV ~ 750 V

 AC Current: True-RMS, 200 µA ~ 10 A

 2/4-WireResistance:200Ω~100MΩ

 Capacitance: 2 nF ~ 100 mF

 ContinuityTest:Rangeisxedat2kΩ

 Diode Test: Adjustable range is 0 ~ 4 V.

 Frequency Measurement: 3 Hz ~ 1 MHz

 PeriodMeasurement:1μs~333ms

 Temperature: Support for TC and RTD sensor

 Max, Min, Average, Standard Deviation,

dBm/dB, Relative Measurement, Pass/Fail

Histogram,TrendChart,BarGraph

User-friendly Design

 4.3” TFT-LCD, 480*272

 Dual display, Chinese and English Menu

 Built-in front panel accessible help system

 File management (support for U-disc and local storage)

Application elds

 Research Laboratory

 Development Laboratory

 Repair and Maintenance

 Calibration Laboratory

 Automatic Production Test

 Generalbench-topuse

Main Features

 Real 6½ digit (2,200,000 count) readings resolution

 Up to 10,000 rdgs/s measurement speed

 True-RMS AC Voltage and AC Current measuring

 1Gbflashmemoryformassstoragecongurationles

anddatales

 Built-in cold terminal compensation for thermocouple

 T3DMM6-5-SC: Includes Scanner with 16 inputs

(12generalpurpose,4currentchannels)

 Standard interface: USB Device, USB Host, LAN

 USB & LAN remote interfaces support common SCPI

command set. Compatible with other popular DMMs

onthemarket.

SPECIAL FEATURES

Dual Display

Statistics

Trend Chart

dBm Hold Measurement

Bar Chart

Histogram

Hold Measurement

Rear Panel Interfaces

The Scanner Module is only included with the

T3DMM6-5-SC DMM, it is not included with the

T3DMM6-5

SPECIFICATIONS

DC Characteristics Accuracy ± (% of reading + % of range)1)

Function Range2) Test Current

Or Shunt

Voltage

24 Hour3)

TCAL °C ± 1°C

90 day

TCAL °C ± 5°C

1 Year

TCAL °C ± 5°C

Temperature

coefcient 0°C to

(TCAL °C - 5°C)

(TCAL °C + 5°C) to

50°C

DC Voltage

200.0000 mV 0.0020 + 0.0015 0.0030 + 0.0020 0.0040 + 0.0023 0.0005 + 0.0003

2.000000 V 0.0015 + 0.0004 0.0020 + 0.0004 0.0035 + 0.0006 0.0005 + 0.0001

20.00000 V 0.0020 + 0.0003 0.0030 + 0.0004 0.0040 + 0.0004 0.0005 + 0.0001

200.0000 V 0.0020 + 0.0005 0.0040 + 0.0004 0.0050 + 0.0005 0.0005 + 0.0001

1000.000 V4) 0.0020 + 0.0005 0.0040 + 0.0008 0.0055 + 0.0008 0.0005 + 0.0001

DC Current

200.0000μA < 0.03V 0.009 + 0.010 0.040 + 0.005 0.050 + 0.005 0.0020 + 0.0026

2.000000 mA < 0.25V 0.007 + 0.001 0.030 + 0.001 0.050 + 0.002 0.0020 + 0.0001

20.00000 mA < 0.07 V 0.006 + 0.008 0.030 + 0.005 0.050 + 0.005 0.0020 + 0.0015

200.0000 mA < 0.7V 0.009 + 0.001 0.030 + 0.001 0.050 + 0.002 0.0020 + 0.0001

2.000000 A < 0.12 V 0.045 + 0.015 0.080 + 0.005 0.100 + 0.012 0.0050 + 0.0008

10.00000 A5) < 0.6 V 0.090 + 0.002 0.120 + 0.005 0.150 + 0.005 0.0050 + 0.0018

Resistance6)

200.0000Ω 1 mA 0.0030 + 0.0031 0.008 + 0.005 0.010 + 0.004 0.0006 + 0.0006

2.000000KΩ 1 mA 0.0020 + 0.0005 0.008 + 0.001 0.010 + 0.001 0.0006 + 0.0001

20.00000KΩ 100μA 0.0020 + 0.0005 0.008 + 0.001 0.010 + 0.001 0.0006 + 0.0001

200.0000KΩ 10μA 0.0020 + 0.0005 0.008 + 0.001 0.010 + 0.001 0.0006 + 0.0001

1.000000MΩ 2μA 0.0020 + 0.0010 0.010 + 0.001 0.012 + 0.001 0.0010 + 0.0002

10.00000MΩ 200 nA 0.015 + 0.001 0.030 + 0.001 0.040 + 0.001 0.0030 + 0.0005

100.0000MΩ 200nA||10MΩ 0.300 + 0.010 0.800 + 0.010 0.800 + 0.010 0.1500 + 0.0002

Diode Test7) 0 ~ 2V 1 mA 0.002 + 0.009 0.008 + 0.020 0.010 + 0.020 0.0010 + 0.0020

2 ~ 4V 1 mA 0.002 + 0.010 0.008 + 0.020 0.010 + 0.020 0.0010 + 0.0020

Continuity Test 2000.0Ω 1 mA 0.002 + 0.010 0.008 + 0.020 0.010 + 0.020 0.0010 + 0.0020

Remarks:

1) Specicationsarefor90-minutewarm-upand100NPLCintegrationtime.Forintegrationtime<100NPLC,addtheappropriate“RMSNoiseAdder”listedinthefollowingtable.

2) 10 %overrangeonallrangesexceptDCV1000VandDCI10Arange.

3) Relative to calibration standards.

4) For each additional volt over ± 500 V, add 0.03 mV error.

5) For continuous current > 7A DC or 7A AC RMS, use 30 seconds ON followed by 30 seconds OFF.

6) Specicationsarefor4-wireresistancemeasurementor2-wireresistancemeasurementusingRELoperation.WithoutRELoperation,add0.2Ωadditionalerrorin2-wire

resistance measurement.

7) Accuracyspecicationsforthevoltagemeasuredattheinputterminalonly.1mAtestcurrentistypical.Variationinthecurrentsourcewillcreatesomevariationinthe

voltage drop across a diode junction. Adjustable voltage range: 0 ~ 4V.

SPECIFICATIONS

Function Range Spurious-Free Dynamic Range

(SFDR)

Signal-to-Noise-and-Distortion

(SINAD)

DCV

200 mV 80 75

2 V 76 80

20 V 78 72

200 V 80 78

1000 V 82 80

DCI

200 µA 90 70

2 mA 90 80

20 mA 85 70

200 mA 80 75

2 A 70 60

1) Typicalvalue.-1dBFS,1kHzsingletone.100µsaperturetimeandautozerooff.

Performance Versus Integration Time – 50 Hz (60 Hz) Power-line Frequency

SFDR & SINAD1)

Integration

Time

Resolution1) NMRR2) Readings/s3) RMS Noise Adder4) (% of Range)

Number of

Power line

Cycles5)

(NPLC)

(ppm Range) (dB) 50 Hz 60 Hz DCV 20 V DCV 2 V

200 V

Resistance

2KΩ20KΩ

DCV 1000 V

DCI 2 mA

200 mA

DCV 200 mV

Resistance

200Ω

DCI 10 A

0.005(0.006) 2.7 0 10000 10000 0.0006 0.0008 0.0015 0.0040

0.05 (0.06) 1.6 0 1000 1000 0.0004 0.0005 0.0008 0.0025

0.5 (0.6) 1 0 100 100 0.0003 0.0003 0.0006 0.0025

1 0.22 60 50 60 0 0.0001 0.0002 0.0005

10 0.08 60 5 6 0 0 0 0.0002

100 0.035 60 0.5 0.6 0 0 0 0

Remarks:

1) Typicalvalue.Resolutionisdenedasthetypical20VrangeRMSnoise.

2) Normalmoderejectionratioforpower-linefrequency±0.1 %.Forpower-linefrequency± 1%,subtract20dB.For±3 %,subtract30dB.

3) Maximum rate for DCV, DCI, 2-wire resistance and 4-wire resistance functions.

4) ThebasicDCaccuracyspecicationsincludeRMSnoiseat100NPLC.For<100NPLC,add“RMSNoiseAdder”tothebasicDCaccuracyspecications.

5) When the power line frequency is 60 Hz, the cycles are 0.006, 0.06, 0.6, 1, 10, 100 NPLC.

SPECIFICATIONS

AC Characteristics Accuracy ± (% of reading + % of range)1)

Function Range2) Frequency

Range

24 Hour3)

TCAL °C ± 1°C

90 day

TCAL °C ± 5°C

1 Year

TCAL °C ± 5°C

Temperature

coefcient 0°C to

(TCAL °C - 5°C)

(TCAL °C + 5°C) to

50°C

True-RMS

AC Voltage4)

200.0000 mV

3Hz – 5Hz 1.00 + 0.03 1.00 + 0.04 1.00 + 0.04 0.100 + 0.004

5Hz – 10Hz 0.35 + 0.03 0.35 + 0.04 0.35 + 0.04 0.035 + 0.005

10Hz – 20kHz 0.04 + 0.03 0.05 + 0.04 0.06 + 0.04 0.005 + 0.004

20kHz – 50kHz 0.10 + 0.05 0.11 + 0.05 0.12 + 0.05 0.011 + 0.005

50kHz – 100kHz 0.55 + 0.08 0.60 + 0.08 0.60 + 0.08 0.060 + 0.008

100kHz – 300kHz 4.00 + 0.50 4.00 + 0.50 4.00 + 0.50 0.20 + 0.02

2.000000 V

3Hz – 5Hz 1.00 + 0.02 1.00 + 0.03 1.00 + 0.03 0.100 + 0.003

5Hz – 10Hz 0.35 + 0.02 0.35 + 0.03 0.35 + 0.03 0.035 + 0.003

10Hz – 20kHz 0.04 + 0.02 0.05 + 0.03 0.06 + 0.03 0.005 + 0.003

20kHz – 50kHz 0.10 + 0.04 0.11 + 0.05 0.12 + 0.05 0.011 + 0.005

50kHz – 100kHz 0.55 + 0.08 0.60 + 0.08 0.60 + 0.08 0.060 + 0.008

100kHz – 300kHz 4.00 + 0.50 4.00 + 0.50 4.00 + 0.50 0.20 + 0.02

20.00000 V

3Hz – 5Hz 1.00 + 0.03 1.00 + 0.04 1.00 + 0.04 0.100 + 0.004

5Hz – 10Hz 0.35 + 0.03 0.35 + 0.04 0.35 + 0.04 0.035 + 0.004

10Hz – 20kHz 0.04 + 0.04 0.07 + 0.04 0.08 + 0.04 0.008 + 0.004

20kHz – 50kHz 0.10 + 0.05 0.12+ 0.05 0.15 + 0.05 0.012 + 0.005

50kHz – 100kHz 0.55 + 0.08 0.60 + 0.08 0.60 + 0.08 0.060 + 0.008

100kHz – 300kHz 4.00 + 0.50 4.00 + 0.50 4.00 + 0.50 0.20 + 0.02

200.0000 V

3Hz – 5Hz 1.00 + 0.02 1.00 + 0.03 1.00 + 0.03 0.100 + 0.003

5Hz – 10Hz 0.35 + 0.02 0.35 + 0.03 0.35 + 0.03 0.035 + 0.003

10Hz – 20kHz 0.04 + 0.02 0.07 + 0.03 0.08 + 0.03 0.008 + 0.003

20kHz – 50kHz 0.10 + 0.04 0.12+ 0.05 0.15 + 0.05 0.012 + 0.005

50kHz – 100kHz 0.55 + 0.08 0.60 + 0.08 0.60 + 0.08 0.060 + 0.008

100kHz – 300kHz 4.00 + 0.50 4.00 + 0.50 4.00 + 0.50 0.20 + 0.02

750.0000 V5)

3Hz – 5Hz 1.00 + 0.02 1.00 + 0.03 1.00 + 0.03 0.100 + 0.003

5Hz – 10Hz 0.35 + 0.02 0.35 + 0.03 0.35 + 0.03 0.035 + 0.003

10Hz – 20kHz 0.04 + 0.02 0.07 + 0.03 0.08 + 0.03 0.008 + 0.003

20kHz – 50kHz 0.10 + 0.04 0.12+ 0.05 0.15 + 0.05 0.012 + 0.005

50kHz – 100kHz 0.55 + 0.08 0.60 + 0.08 0.60 + 0.08 0.060 + 0.008

100kHz – 300kHz 4.00 + 0.50 4.00 + 0.50 4.00 + 0.50 0.20 + 0.02

Remarks:

1) Specicationsarefor90-minutewarm-up,>3Hzaclterandsinewaveinput.

2) 10 %overrangeonallrangesexceptACV750VandACI10Aranges.

3) Relative to calibration standards.

4) Specicationsareforsinewaveinput> 5 %ofrange.Forinputswithin1 %and5 %ofrangeand< 50kHz,add0.1%ofrangeadditionalerror.

For50kHzto100kHz,add0.13 %ofrangeadditionalerror.

5) ACV 750 range limited to 8 x 107 Volt-Hz. For input over 300 V rms, add 0.7 mV error for each additional volt.

AC Characteristics Accuracy ± (% of reading + % of range)1)

Function Range2) Frequency

Range

24 Hour3)

TCAL °C ± 1°C

90 day

TCAL °C ± 5°C

1 Year

TCAL °C ± 5°C

Temperature

coefcient 0°C to

(TCAL °C - 5°C)

(TCAL °C + 5°C) to

50°C

True-RMS

AC Current8)

200.0000 µA

3Hz – 5Hz 1.10 + 0.06 1.10 + 0.06 1.10 + 0.06 0.200 + 0.005

5Hz – 10Hz 0.35 + 0.06 0.35 + 0.06 0.35 + 0.06 0.100 + 0.005

10Hz – 5kHz 0.15 + 0.06 0.15 + 0.06 0.15 + 0.06 0.015 + 0.005

5kHz – 10kHz 0.35 + 0.70 0.35 + 0.70 0.35 + 0.70 0.030 + 0.005

2.000000 mA

3Hz – 5Hz 1.00 + 0.04 1.00 + 0.04 1.00 + 0.04 0.100 + 0.005

5Hz – 10Hz 0.30 + 0.04 0.30 + 0.04 0.30 + 0.04 0.035 + 0.005

10Hz – 5kHz 0.12 + 0.04 0.12 + 0.04 0.12 + 0.04 0.015 + 0.005

5kHz – 10kHz 0.20 + 0.25 0.20 + 0.25 0.20 + 0.25 0.030 + 0.005

20.00000 mA

3Hz – 5Hz 1.10 + 0.06 1.10 + 0.06 1.10 + 0.06 0.200 + 0.005

5Hz – 10Hz 0.35 + 0.06 0.35 + 0.06 0.35 + 0.06 0.100 + 0.005

10Hz – 5kHz 0.15 + 0.06 0.15 + 0.06 0.15 + 0.06 0.015 + 0.005

5kHz – 10kHz 0.35 + 0.70 0.35 + 0.70 0.35 + 0.70 0.030 + 0.005

200.0000 mA

3Hz – 5Hz 1.00 + 0.04 1.00 + 0.04 1.00 + 0.04 0.100 + 0.006

5Hz – 10Hz 0.30 + 0.04 0.30 + 0.04 0.30 + 0.04 0.035 + 0.006

10Hz – 5kHz 0.10 + 0.04 0.10 + 0.04 0.10 + 0.04 0.015 + 0.006

5kHz – 10kHz 0.20 + 0.25 0.20 + 0.25 0.20 + 0.25 0.030 + 0.006

2.000000 A

3Hz – 5Hz 1.10 + 0.06 1.10 + 0.06 1.10 + 0.06 0.100 + 0.006

5Hz – 10Hz 0.35 + 0.06 0.35 + 0.06 0.35 + 0.06 0.035 + 0.006

10Hz – 5kHz 0.15 + 0.06 0.15 + 0.06 0.15 + 0.06 0.015 + 0.006

5kHz – 10kHz 0.35 + 0.70 0.35 + 0.70 0.35 + 0.70 0.030 + 0.006

10.00000A6)

3Hz – 5Hz 1.10 + 0.08 1.10 + 0.10 1.10 + 0.10 0.100 + 0.008

5Hz – 10Hz 0.35 + 0.08 0.35 + 0.10 0.35 + 0.10 0.035 + 0.008

10Hz – 5kHz 0.15 + 0.08 0.15 + 0.10 0.15 + 0.10 0.015 + 0.008

Additional Low Frequency Errors (% of reading) Additional Crest Factor Errors (non-sine wave)7)

Frequency AC Filter

> 3 Hz

AC Filter

> 20 Hz

AC Filter

> 200 Hz

Crest Factor error (% of reading)

10Hz – 20Hz 0 0.74 – 1 – 2 0.05

20Hz – 40Hz 0 0.22 – 2 – 3 0.2

40Hz – 100Hz 0 0.06 0.73 3 – 4 0.4

100Hz – 200Hz 0 0.01 0.22 4 – 5 0.5

200Hz – 1kHz 0 0 0.18

>1kHz 000

Remarks:

1) Specicationsarefor90-minutewarm-up,>3Hzaclterandsinewaveinput.

2) 10 %overrangeonallrangesexceptACV750VandACI10Aranges.

3) Relative to calibration standards.

Specicationsareforsinewaveinput> 5 %ofrange.Forinputswithin1 %and5 %ofrangeand< 50kHz,add0.1%ofrangeadditionalerror.

For50kHzto100kHz,add0.13 %ofrangeadditionalerror.

5) ACV 750 range limited to 8 x 107 Volt-Hz. For input over 300 V rms, add 0.7 mV error for each additional volt.

6) For continuous current > DC 7A or AC RMS 7A, use 30 seconds ON followed by 30 seconds OFF.

7) Forfrequencyblow100Hz,thespecicationofthelowfrequencyltersisforsinewaveonly.

8) Specicationsareforsinewaveinput> 5 %ofrange.Forinputswithin1 %to5 %ofrange,add0.1%ofrangeadditionalerror.

Specicationsaretypicalvaluesfor200µA,2mA,2Aand10Arangeswhenfrequency> 1kHz.

SPECIFICATIONS

Function Range Frequency

Range

24 Hour3)

TCAL °C ± 1°C

90 day

TCAL °C ± 5°C

1 Year

TCAL °C ± 5°C

Temperature

coefcient

0°C to (TCAL °C - 5°C)

(TCAL °C + 5°C) to 50°C

Frequency,

Period

200 mV to

750 V

3 Hz – 5 Hz 0.07 0.07 0.07 0.005

5 Hz – 10 Hz 0.04 0.04 0.04 0.005

10 Hz – 40 Hz 0.02 0.02 0.02 0.001

40 Hz –300 KHz 0.005 0.006 0.007 0.001

300 KHz – 1 MHz 0.005 0.006 0.007 0.001

Frequency and Period Characteristics Accuracy± (% of Reading)1) 2)

Function Range2) Test Current 1 Year

TCAL °C ± 5°C

Temperature

coefcient

0°C to (TCAL °C - 5°C)

(TCAL °C + 5°C) to 50°C

Capacitance

2.0000 nF 10μA 2 + 2.4 0.05 + 0.06

20.000 nF 10μA 1 + 0.1 0.05 + 0.01

200.00 nF 100μA 1 + 0.1 0.01 + 0.01

2.0000μF 100μA 1 + 0.1 0.01 + 0.01

20.000μF 1 mA 1 + 0.1 0.01 + 0.01

200.00μF 1 mA 1 + 0.1 0.01 + 0.01

2.0000 mF 1 mA 1 + 0.1 0.01 + 0.01

20.000 mF 1 mA 1 + 0.1 0.01 + 0.01

100.00 mF 1 mA 3 + 0.1 0.05 + 0.02

Remarks:

1) Specicationsarefor90minuteswarm-upandusingRELoperation.Additionalerrorsmaybecausedbynon-lmcapacitors.

2) Specicationsarethe1%to110 %ofrangeon2nFrangeand10 %to110 %ofrangeonallotherranges.

Capacitance Characteristic Accuracy± (% of Reading + % of Range)1)

Frequency Gate Time (Resolution)

1 s (0.1 ppm) 0.1 s (1 ppm) 0.01 s (10 ppm) 0.001 s (100 ppm)

3 Hz– 5Hz 0 0.12 0.12 0.12

5 Hz– 10 Hz 0 0.17 0.17 0.17

10 Hz–40 Hz 0 0.20 0.20 0.20

40 Hz–100 Hz 0 0.06 0.21 0.21

100 Hz–300 Hz 0 0.03 0.21 0.21

300Hz–1 KHz 0 0.01 0.07 0.07

> 1 K Hz 0 0 0.02 0.02

Remarks:

1) Specicationsarefor90minuteswarm-up,using1sgatetime.

2) Forfrequency≤300kHz,thespecicationisthe10 %to110 %ofrangeoftheACinputvoltage.Forfrequency>300kHz,thespecicationisthe20 %to110 %ofrangeof

the AC input voltage. The maximum input is limited to 750 V rms or 8 × 107 Volts-Hz (whichever is less). The 200 mV range is full range input or input that is larger than the

fullrange.For20mVto200mV,multiply%ofreadingerror×10.

3) Relative to calibration standards.

Function Probe

Type

Type Optimum

Range

1 Year

TCAL °C ± 5°C

Temperature

coefcient

0°C to (TCAL °C - 5°C)

(TCAL °C + 5°C) to 50°C

Temperature

RTD 2)

(R0is49Ωto2.1kΩ)

α=0.00385 -200°C ~ 660°C 0.16°C 0.01°C

Thermocouple3)

B 0°C ~ 1820°C 0.76°C 0.14°C

E -270°C ~ 1000°C 0.5°C 0.02°C

J -210°C ~ 1200°C 0.5°C 0.02°C

K -270°C ~ 1370°C 0.5°C 0.03°C

N -270°C ~ 1300°C 0.5°C 0.04°C

R -270°C ~ 1760°C 0.5°C 0.09°C

S -270°C ~ 1760°C 0.6°C 0.11°C

T -270°C ~ 400°C 0.5°C 0.03°C

Remarks:

1) Specicationsarefor90minuteswarm-up.Exclusiveofsensorerror.

2) Specicationisfor4WRsensormeasurementor2WRmeasurementusingRELoperation.

3) Relativetocoldjunctiontemperature,accuracyisbasedonITS-90.Built-incoldjunctiontemperaturereferstothetemperatureinsidethebananajack

and its accuracy is ± 2.5 .

Function Setting Integration Readings/s 50 Hz (60 Hz)

DC Voltage

DC Current

2-wire Resistance

4-wire Resistance

0.005 (0.006) NPLC 100 (100) µs 10000 (10000)

0.05 (0.06) NPLC 1 (1) ms 1000 (1000)

0.5 (0.5) NPLC 4 (4) ms 100 (100)

1 NPLC 20 (16.7) ms 50 (60)

10 NPLC 200 (167) ms 5 (6)

100 NPLC 2 (1.67) s 0.5 (0.6)

AC Voltage

AC Current

3 Hz AC Filter 0.5

20 Hz 2

200 Hz 50

Frequency and Period1)

1sGatetime 1

0.1 s 10

0.01 s 100

0.001 s 500

Capacitance2) 100 mF Range 0.5

Remarks:

1) 20Vrange,1kHzinput.

2) The measurement period changes with the capacitance under test.

3) Auto zero off, auto range off.

Temperature Characteristics Accuracy± (% of Reading)1)

Measurement Rate Measurement rate3)

DC Voltage

Input Resistance 200mV,2V,20Vranges:Selectable10MΩor>10GΩ

(Fortheseranges,inputbeyond±26Vareclampedthrough106kΩ(typical)

200Vand1000Vranges;10MΩ±1%

Input Offset Current 50 pA, 25°C, typical

Input Protection 1000 V

CMRR (common mode rejection ratio) 140dBfor1kΩunbalanceinLOlead,±500VDCpeakmaximum

Resistance

Measurement Method Selectable 4-wire or 2-wire resistance

Current source referenced to LO input

Open-circuit Voltage Limited to <10 V

Max. Lead Resistance (4-wire) 10 %ofrangeperleadfor200Ω,2kΩranges,1kΩperleadonallotherranges

Offset Compensation Availableon200Ω,2kΩand20kΩranges

Input Protection 1000 V on all ranges

DC Current

Shunt Resistor 100Ωfor200µA,2mA

1Ωfor20mA,200mA

0.01Ωfor2A,10A

Input Protection Rear panel: accessible 10 A, 250 V fast-melt fuse

Internal 10 A, 250 V slow blow fuse for 2 A and 10 A ranges

Continuity/Diode Test

Measurement Method 1mA± 5 %constant-currentsourceoropen-circuitvoltage

Response Time 300 samples/sec, with audible tone

Beeper Yes

Diode Threshold Adjustable from 0 to 4 V

Continuity Threshold Adjustablefrom1Ωto2KΩ

Input Protection 1000 V

Settling Time Considerations

Reading settling times are affected by source impedance, cable dielectric characteristics and input signal changes.

The default measurement delay is selected to the correct reading for most measurements.

Measurement Considerations

Teflon or other high-impedance, low-dielectric absorption wire insulation is recommended for these measurements.

True RMS AC Voltage

Measurement Method AC-coupled True-RMS measurement with up to 400 V DC bias on any range.

Crest Factor ≤5atfullrange

Input Impedance 1MΩ±2 %inparallelwith<150pFcapacitanceonanyrange

Input Protection 750V rms on all ranges

AC Filter Bandwidth Slow: 3 Hz ~ 300 KHz

Medium: 20 Hz ~ 300 KHz

Fast: 200 Hz ~ 300 KHz

CMRR (common mode rejection ratio) 70dB,forthe1kΩunbalanceinLOlead,<60Hz,±500VDCpeakmaximum

MEASURING METHOD AND OTHER CHARACTERISTICS

True RMS AC Current

Measurement Method Direct coupled to the fuse and shunt; AC-coupled True RMS measurement

(Measure the AC component only).

Crest Factor ≤3atfullrange

Max. Input DC+ACcurrentpeakvalue<300 %ofrange.

The RMS current < 10 A rms including the DC component.

Shunt Resistor 100Ωfor200uA,2mA

1Ωfor20mA,200mA

0.01Ωfor2A,10A

Input Protection Externally accessible 500 mA, 250 V fast blow fuse

Internal 12 A, 250 V slow blow fuse

Settling Time Considerations

Thedefaultmeasurementdelayisselectedtogivethecorrectreadingformostmeasurements.MakesuretheRCcircuitofthe

inputterminalhasfullysettled(about1s)beforetakinghigheraccuracymeasurements.

Applying > 300 Vrms (or > 5 Arms) will cause self-heating of signal-conditioning components and these error are included in the

instrumentspecications.Internaltemperaturechangesduetoself-heatingmaycauseadditionalerroronloweracvoltageranges.

Theadditionalerrorwillbelowerthan0.02 %ofreadingandwillgenerallydissipatewithinafewminutesasthesignal-conditioning

components return to normal operating temperature.

Frequency and Period

Measurement Method Reciprocal-counting technique, AC-coupled input using the AC voltage function.

Input Impedance 1MΩ±2%inparallelwith<150pFcapacitanceonanyrange

Input Protection 750 V rms on all ranges

Measurement Considerations All frequency counters are susceptible to error when measuring low-voltage,

low-frequency signals. Shielding inputs from external noise is recommended.

Settling Time Considerations Errors will occur when attempting to measure the frequency or period of an input following

adcoffsetvoltagechange.MakesuretheRCinputcircuitattheinputterminalshasfully

settled(about1s)beforemakingaccuratemeasurements.

Capacitance Measurement

Measurement Method Apply constant current into the capacitance, and measure the rate of voltage change.

Connection Type 2-wire

Input Protection 1000 V on all ranges

Measurement considerations Since small capacitance measurements are susceptible to the external noise, shielding

inputsfromexternalnoisepickupiscriticalforminimizingmeasurementerrors.

Temperature Measurement

Measurement Method Support for TC and RTD types of sensor

Measurement considerations Thebuilt-incoldjunctiontemperaturetracksthetemperatureinsidethebananajack.

Thechangeofthetemperatureinthebananajackmaycauseadditionalerror.Whenusing

the built-in cold junction compensation, connect the sensor terminal of the thermocouple

tothebananajackandallowittowarmupforatleast3minutestominimizeerrors.

Triggering and Storage

Trigger Pre-trigger or Post-trigger, Internal Trigger or External Trigger,

Rising Edge Trigger or Falling Edge Trigger

Time Base Resolution 40 µs, 0.01% Accuracy

Trigger Delay 0 to 1000s

Reading Sensitivity 0.01%,0.1%,1%or10 %reading

Single Trigger Samples 1 to 599999999

External Trigger Input

Level: TTL compatible (High level when input terminal is disconnected)

Trigger: Selectable rising edge or falling edge

InputImpedance:≥30KΩ//500pF

Delay:<50μs

Maximum Rate: 300 per second

MinimumPulseWidth:2μs

VMC Output

Level: 5 V TTL Compatible

Output Polarity: Positive and negative optional

OutputImpedance:typically200Ω

PulseWidth:about2μs

History Records

Volatile Memory 10 K of history records

Nonvolatile Memory 1GbNandFlash,Massstoragecongurationlesanddatales,

SupportU-diskexternalstorage

Math Functions

Min/Max/Average, dBm, dB, Pass/Fail, Relative, Standard deviation, Hold, Histogram, Trend chart, Bar chart

MEASURING METHOD AND OTHER CHARACTERISTICS

T3DMM6-5-SC

Teledyne Test Tools T3DMM6-5-SC

(Scanner Capability)

The Teledyne Test Tools T3DMM6-5-SC Scanner capability is a ready

installed multiplexer that provides multi-point measurement capabilities

to the T3DMM6-5-SC. The scanner features 12 multi-purpose + 4 current

channels and supports the following measurement functions:

DCV, ACV, DCI, ACI, 2WR, 4WR, CAP, FREQ, DIODE, CONT and TEMP

(RTD and Thermocouple).

It provides a convenient and versatile solution for test applications that

require multiple measurement points or signals and is an ideal tool for

R&D burn-in and production testing.

The scanner option is not available separately for the T3DMM6-5 or

as an upgrade for the T3DMM6-5.

Specications

Pleaseobservethespecicationsbelowtoachievethebestperformance

from the T3DMM6-5-SC scanner capability.

Maximum Switching power 37.5 VA / 30 W

Maximum Switching voltage 250 V AC / 220 V DC

Maximum Switching Current 1 A

Contact Life > 100000 operations, at 1 A 30V DC (at 0.5 Hz)

> 100000 operations, at 0.3 A 125 V AC (at 0.5 Hz)

Contact Resistance 75mΩ(maximumat6VDC,1A)

Actuation Time 5 ms maximum on/off (channel to channel )

Insulation Resistance Minimum1GΩ(500VDC)

Connector Type Clampterminal,#24AWGwiresize

Remarks:Pleasedonotusethescannercapabilitytomeasuresignalsthatexceedthespecications

asthiscandamageorreducethelifeofthescannerandcauseelectricshockorpersonalinjury.

Item No. of wires No. of channels

DCV, ACV 2 wires (H , L) 12 (CH1 ~ CH12)

DCI, ACI1) 2 wires (H , L) 4 (CH13 ~ CH16) (2A Range Only )

2W Resistance 2 wires (H , L) 12 (CH1 ~ CH12)

4W Resistance 4 wires (Input H , L + sense H, L) 6 pairs (CH1 [input] & CH7[sense], 2&8, •••, 6&12)

Capacitance 2 wires (H , L) 12 (CH1 ~ CH12)

Diode/Continuity 2 wires (H , L) 12 (CH1 ~ CH12)

Period/Frequency 2 wires (H , L) 12 (CH1 ~ CH12)

Temp (Thermocouple) 2 wires (H , L) 12 (CH1 ~ CH12)

Temp (RTD) 2 wires (H , L) 12 (CH1 ~ CH12)

Remarks:

1) Forcontinuouscurrent<2.2A,Accuracy±(%3(reading)+0.02 %(range)).

Channel Capabilities

GENERAL SPECIFICATIONS

Power Supply

AC 100 V ~ 120 V 45 Hz – 66 Hz

AC 200 V ~ 240 V 45 Hz – 66 Hz

Detect the power-line frequency automatically at power-on, 400 Hz defaults to 50 Hz

Power Consumption 25VA max

Mechanical

Dimension (length × width × height): 345.45 mm × 260.29 mm × 107.21 mm

Weight 3.377 Kg (Net weight)

Other characteristics

Display Screen 4.3 ”TFT-LCD with resolution 480*272

Environmental

OperatingTemperature:0 °Cto+40 °C

StorageTemperature:-10 °Cto+70 °C

Humidity:5 %to90 %relativehumidity(non-condensing)upto+30 °C.

Upperlimitderatesto50 %relativehumidity(non-condensing)at+40 °C

Operating Altitude: 2000 m (Max)

Indoor Use only

Pollution Degree 2 (per IEC61010-1:2010)

EMC Conforming to EMC (2004/108/EC) and EN 61326-1:2013

Safety IEC 61010-1; EN 61010-1; UL 61010-1; CAN/CSA-C22.2 No. 61010-1

Measurement CAT I 1000 V/CAT II 600 V

Remote Interface 10/100Mbit LAN, USB2.0 Full Speed Device, Host

Programming Language Standard SCPI

Warm Up Time 90 minutes

Ordering Information

Product Name Teledyne Test Tools T3DMM6-5 Digital Multimeter

Models T3DMM6-5 6.5 Digit Digital Multimeter

T3DMM6-5-SC 6.5 Digit Digital Multimeter including Scanner capability

Standard Accessories PowerCordthattsthedestinationcountry

Two Test Leads, Two Alligator Clips

USB Cable

QuickStartGuide

Warranty Card

Product brand or brand names are trademarks or requested trademarks of their respective holders.

T3 stands for Teledyne Test Tools.

teledynelecroy.com

Company Prole

Teledyne LeCroy is aleading provider of oscilloscopes, protocol

analyzers and related test and measurement solutions that

enable companies across awide range of industries to design

and test electronic devices of all types. Since our founding

in 1964, we have focused on creating products that improve

productivity by helping engineers resolve design issues

faster and more effectively. Oscilloscopes are tools used by

designers and engineers to measure and analyze complex

electronic signals in order to develop high-performance

systems and to validate electronic designs in order to improve

time to market.

The Teledyne Test Tools brand extends the Teledyne LeCroy

product portfolio with a comprehensive range of test

equipment solutions. This new range of products delivers

a broad range of quality test solutions that enable engineers

to rapidly validate product and design and reduce time-to-

market. Designers, engineers and educators rely on Teledyne

Test Tools solutions to meet their most challenging needs for

testing, education and electronics validation.

Location and Facilities

Headquartered in Chestnut Ridge, New York, Teledyne

Test Tools and Teledyne LeCroy has sales, service and

development subsidiaries in the US and throughout

Europe and Asia. Teledyne Test Tools and Teledyne LeCroy

products are employed across awide variety of industries,

including semiconductor, computer, consumer electronics,

education, military/aerospace, automotive/industrial, and

telecommunications.

Teledyne LeCroy

(US Headquarters)

700 Chestnut Ridge Road

Chestnut Ridge, NY. USA 10977-6499

Phone: 800-553-2769 or 845-425-2000

Fax Sales: 845-578-5985

Phone Support: 1-800-553-2769

Email Sales: contact.corp@teledynelecroy.com

Email Support: support@teledynelecroy.com

Web Site: http://teledynelecroy.com/

Teledyne LeCroy

(European Headquarters)

Teledyne LeCroy GmbH

Im Breitspiel 11c

D-69126 Heidelberg, Germany

Phone: +49 6221 82700

Fax: +49 6221 834655

Phone Service: +49 6221 8270 85

Phone Support: +49 6221 8270 28

Email Sales: contact.gmbh@teledynelecroy.com

Email Service: service.gmbh@teledynelecroy.com

Email Support: tlc.t3.appsupport.eu@teledyne.com

Web Site: http://teledynelecroy.com/germany

ABOUT TELEDYNE TEST TOOLS

Distributed by:

21sep18