DMM7510-3Y-EW [TEKTRONIX]
DMM 7510 7½-Digit Graphical Sampling Multimeter;型号: | DMM7510-3Y-EW |
厂家: | TEKTRONIX, INC. |
描述: | DMM 7510 7½-Digit Graphical Sampling Multimeter |
文件: | 总27页 (文件大小:1316K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Datasheet
DMM 7510 7½-Digit Graphical
Sampling Multimeter
The DMM7510 combines all the advantages of a precision
digital multimeter, a graphical touchscreen display, and a
high speed, high resolution digitizer to create an industry
first: a graphical sampling multimeter. The digitizer gives
the DMM7510 unprecedented signal analysis flexibility; the
five-inch capacitive touchscreen display makes it easy to
observe, interact with, and explore measurements with
“pinch and zoom” simplicity. This combination of high
performance and high ease of use offers unparalleled
insight into your test results.
A Tektronix Company
Capture Waveforms with the Built-in
1 MS/sec Digitizer
Key Features
• Precision multimeter with 3½- to 7½-digit resolution
Capturing and displaying waveforms and transient events
just got easier with the DMM7510’s voltage or current
digitizing function. The built-in 1 MS/sec, 18-bit digitizer
makes it possible to acquire waveforms without the need
to use a separate instrument. The digitizing functions
employ the same ranges that the DC voltage and current
functions use to deliver exceptional dynamic measurement
range. In addition, the voltage digitizing function uses the
same DC voltage input impedance (10 GΩ or 10 MΩ)
levels to reduce loading significantly on the DUT.
• Capture and display waveforms or transients with
1 MS/sec digitizer
• Large internal memory buffer; store over 11 million
readings in standard mode or 27.5 million in
compact mode
• 14 PPM basic one-year DCV accuracy
• 100 mV, 1 Ω, and 10 µA ranges offer the sensitivity
needed for measuring low level signals such as
portable device sleep mode currents
• Make accurate low resistance measurements
with offset compensated ohms, four-wire, and dry
circuit functions
• Auto-calibration feature improves accuracy and
stability by minimizing temperature and time drift
• Display more with five-inch, high resolution
touchscreen interface
The built-in graphing utility supports displaying and comparing
measurements or waveforms from up to four reading buffers at once.
• Readings and screen images can be saved quickly via
the front panel USB memory port
• Multiple connectivity options: GPIB, USB, and LXI-
compliant LAN interfaces
Advanced triggering
options make it possible
to capture a signal at
precisely the right point.
• Two-year specifications enable longer
calibration cycles
Datasheet
Accurately Measure
Make Demanding Measurements
and Visualize Ultra-Low with Confidence
Current Drain Levels
The DMM7510’s design makes the most of Keithley’s low level measurement
expertise. Features like the low noise input stage and the 32-bit A-to-D converter
allow this instrument to deliver DC accuracies typically only found in metrology-
grade instrumentation—but at about half the price of those solutions. The
DMM7510’s 100 mV, 10 Ω, and 10 µA ranges deliver the sensitivity needed to
measure low signals with confidence when characterizing today’s demanding
electronic designs. In addition to one- and two-year accuracy specifications, an
auto-calibration function ensures greater accuracy between calibration cycles.
Determine the current drain of
the components such as the
microcontroller (MCU) in your low-
power, battery-operated product as
well as the product’s total current
draw. In addition, profile the current
drain in all of the product’s operating
states from its sleep mode to its
transmit mode. Using the enhanced
accuracy DC current function, the
DMM7510 can measure a 1 µA sleep
mode current with 1 pA resolution
and with 0.375 nA tolerance.
Furthermore, using the digitizing
current function, the DMM7510 can
capture the current wave shapes as
the product transitions from sleep
mode to transmit mode.
The DMM7510 provides noise performance equivalent to
or better than many 8½-digit DMMs.
One Power Line Cycle
Noise Performance
2µV
1µV
0µV
–1µV
–2µV
6½ Digit
8½ Digit
DMM7510
Comparison of the DMM7510’s 1 VDC noise performance with that of typical 6½- and 8½-digit
multimeters. All data was taken at 1 NPLC with a low thermal short applied to the input.
Capture the current drain from all the operating
states – sleep mode to active transmit mode – of
a component or a product with the DMM7510’s
digitizing function. Focus in on characteristics of
the wave shapes with the touchscreen pinch and
zoom features.
15 Measurement Functions
The DMM7510 provides 15 basic measurement functions. In addition to the
digitizing voltage and current functions, it includes capacitance, ACV and ACI,
temperature (RTD, thermistor, and thermocouple), 2- and 4-wire resistance,
dry circuit ohms, period, frequency, diode test, and DC voltage ratio. The
instrument’s flat menu structure allows for fast configuration and improves
usability. Its intuitive design lets you to learn how to operate the instrument and
begin making device measurements faster and with greater confidence.
RTD, Thermistor, Thermocouple
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TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Five-inch touchscreen displays more
information simultaneously
Rotary control knob offers an
alternative to touchscreen navigation
Online HELP is just a
button press away
Store test results
and screen images
quickly via the USB 2.0
memory port
Lower swipe screen speeds
access to often-used features
Front/rear input selector
Designed for Higher
Testing Productivity
DMM7510 Measurement Capabilities
Logarithmic Scale
1f
1p
1n
1µ
1m
1
1k
1M
1010V
1G
In addition to its advanced
DC Voltage
10nV
touchscreen, the DMM7510’s front
panel offers a variety of features that
enhance its speed, user-friendliness,
and learnability, including a USB 2.0
memory I/O port, a HELP key, a rotary
navigation/control knob, and front/
rear input selector button. All front-
panel buttons are backlit to enhance
visibility.
AC Voltage
DC Current
AC Current
100nV
707VRMS
1pA
10.1A
10.1A
1nA
Resistance (2-wire)
Resistance (4-wire)
Dry Circuit Resistance
Capacitance
1µΩ
100nΩ
1µΩ
1.2GΩ
1.2GΩ
2.4kΩ
0.1pF
1.2mF
Period
Frequency
2µs
330ms
3Hz
500kHz
1010V
Digitize Voltage
Digitize Current
1µV
0.1nA
10.1A
Linear Scale
The rear panel of the DMM7510
provides connections and controls
that simplify configuring multi-
Thermocouple –200°C
Thermistor –80°C
3-Wire RTD –200°C
4-Wire RTD –200°C
1820°C
150°C
850°C
850°C
instrument test solutions, including
input connectors, remote control
interfaces (GPIB, USB 2.0 and LXI/
Ethernet), a D-sub 9-pin digital I/O
port (for internal/external trigger
signals and handler control), and TSP-
Link® jacks for connecting to other
TSP-enabled instruments.
–500°
0°
500°
1000°
1500°
2000°
Easily accessible
current fuses
Measure Complete and External Trigger
(8503 BNC Accessory Available)
LAN/LXI interface
USB 2.0
interface
Six user-defined
digital I/Os
GPIB interface
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Datasheet
SourceMeter SMU instruments, and the Series 3700A Switch/Multimeter
systems. TSP-Link supports up to 32 units per GPIB or IP address, so it’s easy
to scale a system to fit the requirements of an application.
Flexible System
Integration and
Programming
To offer users maximum programming
flexibility and simplify configuring
multi-instrument test systems,
the DMM7510 includes Keithley’s
powerful Test Script Processor (TSP®)
system and SCPI programming
mode. The embedded scripting
capability allows running powerful
test scripts directly on the instrument,
without the need for an external PC
controller. These test scripts are
complete test programs based on an
easy-to-use yet highly efficient and
compact scripting language, Lua
(www.lua.org). Scripts are a collection
of instrument control commands
and/or program statements.
A standard SCPI programming mode supports taking advantage of all of
the DMM7510’s new features when programming remotely. In addition, the
instrument is code-compatible with the SCPI language, which many other DMMs
use. This code compatibility avoids the need to rewrite code that is normally
associated with upgrading to a new instrument with new capabilities.
Free Instrument Control Startup Software
Program statements control script
execution and provide facilities such
as variables, functions, branching,
and loop control. This allows you
to create powerful measurement
applications with significantly reduced
development times. Test scripts can
contain any sequence of routines
that are executable by conventional
programming languages (including
decision-making algorithms), so
the instrument can manage every
facet of the test without the need to
communicate with a PC for decision-
making. This eliminates delays due
to GPIB, Ethernet or USB traffic
congestion and greatly improves
overall test times.
Keithley’s KickStart instrument control startup software lets you begin taking measurements
in minutes.
KickStart combines a wide range of functions to enhance
testing productivity:
• Instrument-specific UI panel
• Manual instrument configuration
• Basic reading display and tabular viewing of data
• Datalogging
• Native X-Y data graphing
• Panning and zooming
• Basic statistics (native to instrument, mX+b)
• Saving/exporting data
TSP technology also offers
• Connect using any remote interface (GPIB, USB, LAN)
• Saving instrument setups
“mainframe-less channel expansion.”
The TSP-Link® channel expansion
bus and a 100 Base T Ethernet cable
allow connecting multiple DMM7510s
with other TSP-enabled instruments
in a master-slave configuration so they
operate as a single integrated system.
These instruments include the 2450
and 2460 Graphical SourceMeter®
SMU instruments, Series 2600B
• Screenshot capture
• Command line dialog box
Ready-to-use Instrument Drivers Simplify
Programming
Need to create your own customized application software? Native National
Instruments LabVIEW®, IVI-C, and IVI-COM drivers are available for downloading
at www.tek.com to simplify the programming process.
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TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Specification Conditions
This document contains specifications and supplemental information for the DMM7510 7½-Digit Graphical Sampling Multimeter instrument.
Specifications are the standards against which the DMM7510 is tested. Upon leaving the factory, the Model DMM7510 meets these
specifications. Supplemental and typical values are nonwarranted, apply at 23°C (73°F), and are provided solely as useful information.
Measurement accuracies are specified at the DMM7510 terminals under these conditions:
• Temperature 23° 5°C, 5% to 80% relative humidity, noncondensing.
• After a 90-minute warmup period.
• 1 PLC or 5 PLC; for NPLC settings less than 1 PLC, add appropriate ppm of range for peak noise uncertainty from the RMS noise table.
• Autozero enabled unless otherwise noted.
• Remote sense operation or properly zeroed local operation.
• Calibration period: One year or two years (calibration period may vary depending on customer requirements).
• TACAL = Ambient temperature of last automatic calibration.
• TCAL = Ambient temperature of last external calibration; factory calibration performed at 23° 1°C.
DC Voltage
Accuracy (Input impedance AUTO)
Accuracy (ppm of reading + ppm of range)
Input
24 Hour
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 3
Range 1
Resolution
Impedance 2
TCAL 1°C 2
>10 GΩ or
100.00000 mV 4
10 nV
6 + 9
4 + 1
12 + 9
9 + 2
18 + 9
15+ 2
29 + 9
26 + 2
0.1 + 2.5
0.1 + 0.5
0.1 + 0.05
10 MΩ 1 %
>10 GΩ or
10 MΩ 1 %
1.0000000 V 4
10.000000 V 4
100 nV
1 µV
>10 GΩ or
10 MΩ 1 %
2 + 0.7
9 + 1.2
14 + 1.2
22 + 1.2
(18 + 5) 5
35 + 5
(19 + 5) 5
(22 + 5) 5
40 + 5
(23 + 5) 5
(30 + 5) 5
45 + 5
(31 + 5) 5
(0.15 + 0.05) 5
2.0 + 0.5
(0.15 + 0.05) 5
100.00000 V 4
10 µV
10 MΩ 1 %
10 MΩ 1 %
8 + 3
8 + 3
1000.0000 V 4, 6
100 µV
35 + 5
40 + 5
45 + 4
2.0 + 0.5
RMS Noise (additional peak noise uncertainty) 7
Applies to ppm of range.
Peak noise uncertainty is included in DC specifications for ≥1 PLC.
Add peak noise uncertainty to measurements for <1 PLC.
Input impedance set to Auto.
NOTES
1. 20% overrange on all ranges except 1% for 1000 V range.
2. Relative to calibration accuracy.
3. Add per degree from TCAL 5°C.
4. When properly zeroed using the Rel function with external cables.
5. Specified within 30 days of autocalibration, TOPER 5°C from TACAL
6. For signal levels greater than 500 V, add 0.02 ppm/V to the ppm of the readings specification for measurements exceeding 500 V.
7. Noise values are based on 1000 readings with autozero on and using low thermal 4-wire short. VRMS noise is typical. Additional peak noise is guaranteed.
.
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5
Datasheet
Examples:
10 V at 0.006 PLC: 1.2 (from Accuracy table) + 11 (additional peak noise uncertainty) = 12.2 ppm of range.
10 V at 1 PLC: 1.2 + 0 = 1.2 ppm of range.
NPLC
5
Digits
7½
100 mV
0.5
1 V
10 V
0.06
100 V
0.3
1000 V
0.06
0.08
1
7½
0.5
0.09
0.07
0.4
0.07
0.2 8
6½
2 (10)
2 (12)
3 (17)
6 (42)
30 (220)
0.2 (1.6)
0.2 (1.6)
0.4 (2.7)
3 (18)
0.1 (1.1)
0.1 (1)
0.3 (2.1)
1 (11)
1.1 (9.4)
1.1 (8.9)
3 (17)
0.1 (1)
0.2
6½
0.2 (1.1)
0.3 (2.4)
3 (18)
0.06
0.006
0.0005
5½
4½
20 (100)
120 (690)
3½
20 (150)
20 (130)
20 (150)
DC Voltage Sense Accuracy
Accuracy (ppm of reading + ppm of range)
24 Hour
TCAL 1°C
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 9
Range
100.00000 mV
1.0000000 V
10.00000 V
6 + 14
12 + 14
9 + 3
18 + 14
15 + 3
29 + 14
26 + 3
0.1 + 2.5
0.1 + 0.5
0.1 + 0.05
4 + 1.5
2 + 1.0
9 + 1.8
14 + 1.8
22 + 1.8
DC Voltage Ratio
For input signals ≥1% of the range, ratio accuracy = [[VINPUT ppm of reading + VINPUT ppm of range * (VINPUT range/VINPUT input)] + [VSENSE ppm of
reading + VSENSE ppm of range * (VSENSE range/VSENSE input)]].
DC Voltage Characteristics
ADC Linearity
1.0 ppm of reading + 1.0 ppm of range.
Input Impedance
100 mV to 10 V Ranges: Selectable >10 GΩ || <400 pF (auto) or 10 MΩ 1% (10 MΩ).
100 V to 1000 V Ranges: 10 MΩ 1%.
Input Bias Current
<50 pA at 23°C under the following conditions: Autozero off or input impedance 10 MΩ.
Common Mode Current
<2.1 µA peak-peak in 1 MHz bandwidth.
<100 nA peak-peak in 1 kHz bandwidth.
Common Mode Voltage
500 Vpeak LO terminal to chassis maximum.
DC Voltage Autozero Off Error
For 1°C and ≤10 minutes, add (8 ppm of reading + 15 µV).
Normal Mode Rejection
For DC voltage, line frequency 0.1%.
5 PLC
110 dB
60 dB
1 PLC
90 dB
60 dB
≤0.2 PLC
45 dB
—
≤0.01 PLC
Line Sync On
Line Sync Off
—
—
NOTES
8. With line sync on.
9. Add per degree from TCAL 5°C.
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TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Common Mode Rejection
For DC voltage and 1kΩ unbalanced in LO terminal; AC CMRR is 70 dB.
NPLC
Line Sync
CMRR
5
1
0.2
On
≤ 0.2
Off
On
On
140 dB
140 dB
120 dB
80 dB
Resistance
10
Enhanced Accuracy (within 30 days of autocalibration, TOPER 5°C from TACAL
)
Accuracy (ppm of reading + ppm of range)
Test Current 12
( 5%)
24 Hour
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 14
Range 11
Resolution
0.1 µΩ
1 µΩ
TCAL 1°C 13
1.0000000 Ω
10 mA
10 mA
1 mA
15 + 50
15 + 5
30 + 50
30 + 5
30 + 50
30 + 5
30 + 50
30 + 5
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
70 + 1
10.000000 Ω
100.00000 Ω
10 µΩ
100 µΩ
1 mΩ
12 + 4
27 + 4
27 + 4
27 + 4
1.0000000 kΩ
10.000000 kΩ 15
100.00000 kΩ 15, 16
1.0000000 MΩ 15, 17
10.000000 MΩ 18
100.00000 MΩ 18
1.0000000 GΩ 18
1 mA
12 + 3
24 + 3
24 + 3
24 + 3
100 µA
10 µA
10 µA
13 + 3
30 + 3
30 + 3
30 + 3
10 mΩ
100 mΩ
1 Ω
13 + 3
30 + 3
30 + 3
30 + 3
14 + 3
30 + 4
30 + 4
30 + 4
||
0.69 µA 10 MΩ
150 + 6
800 + 30
9000 + 100
200 + 10
2000 + 30
9000 + 100
200 + 10
2000 + 30
9000 + 100
200 + 10
2000 + 30
9000 + 100
||
10 Ω
0.69 µA 10 MΩ
385 + 1
||
100 Ω
0.69 µA 10 MΩ
3000 + 1
Accuracy 19
Accuracy (ppm of reading + ppm of range)
Test Current 21
( 5%)
24 Hour
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 23
Range 20
1 Ω
Resolution
TCAL 1°C 22
0.1 µΩ
1 µΩ
10 mA
10 mA
1 mA
15 + 50
15 + 5
40 + 50
40 + 5
50 + 50
50 + 5
70 + 50
70 + 5
2.5 + 5
2.5 + 0.5
5 + 0.25
5 + 0.25
2.5 + 0.25
5 + 1
10 Ω
100 Ω
10 µΩ
100 µΩ
1 mΩ
10 mΩ
100 mΩ
1 Ω
12 + 4
35 + 4
47 + 4
65 + 4
1 kΩ
1 mA
12 + 3
30 + 3
41 + 3
65 + 3
10 kΩ 24
100 kΩ 24, 25
1 MΩ 24, 26
10 MΩ 27
100 MΩ 27
1 GΩ 27
100 µA
10 µA
10 µA
10 + 3
30 + 3
42 + 3
65 + 3
13 + 3
38 + 3
50 + 3
65 + 3
14 + 3
38 + 5
50 + 5
65 + 5
5 + 1
||
0.69 µA 10 MΩ
150 + 6
800 + 30
9000 + 200
200 + 10
2000 + 30
9000 + 200
400 + 10
2000 + 30
13000 + 200
600 + 12
2600 + 30
14000 + 200
70 + 1
||
10 Ω
0.69 µA 10 MΩ
385 + 1
3000 + 1
||
100 Ω
0.69 µA 10 MΩ
NOTES
10. Specifications are for 4-wire resistance, offset compensation on for ≤10 kΩ measurements, and offset compensation off for ≥10 kΩ measurements. 1 Ω range is 4-wire only. For 2-wire,
with Rel, add 50 mΩ to ppm of range uncertainty. Without Rel and with 1756 test leads, add 100 mΩ to ppm of range uncertainty.
11. 20% overrange on all ranges.
12. Test current with offset compensation off, 5%.
13. Relative to calibration accuracy.
14. Add per degree from TCAL 5°C.
15. Specifications are for external cable and load capacitance <1nF.
16. For offset compensation on, add 10ppm uncertainty to ppm of reading.
17. For 4-wire 1 MΩ, open lead detector on, add 10 ppm uncertainty to ppm of reading.
18. Specified for <10% lead resistance mismatch in HI and LO.
19. Specifications are for 4-wire resistance, offset compensation on for ≤10 kΩ measurements, and offset compensation off for ≥10 kΩ measurements. 1Ω range is 4-wire only. For 2-wire, with
Rel, add 50 mΩ to ppm of range uncertainty. Without Rel and with 1756 test leads, add 100 mΩ to ppm of range uncertainty.
20. 20% overrange on all ranges.
21. Test current with offset compensation off.
22. Relative to calibration accuracy.
23. Add per degree from TCAL 5°C.
24. Specifications are for external cable and load capacitance <1 nF.
25. For offset compensation on, add 10ppm of uncertainty to ppm of reading.
26. For 4-wire, 1 MΩ, open lead detection on, add 10ppm uncertainty to ppm of reading.
27. Specified for <10% lead resistance mismatch in HI and LO.
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Datasheet
Resistance Open Circuit DC Voltage 28
Offset Compensation Off
Offset Compensation On
Range 20
1 Ω
2-wire
–
4-wire
9.2 V
4-wire
9.5 V
10 Ω
9.2 V
14.0 V
9.5 V
12.7 V
6.9 V
9.2 V
9.5 V
100 Ω, 1 kΩ
10 kΩ
14.2 V
9.5 V
14.3 V
0.0 V
100 kΩ, 1 MΩ
10 MΩ to 1 GΩ
14.3 V
6.9 V
0.0 V (100 kΩ range only)
–
4-Wire Ohms (≤10kΩ) Offset Compensation On
RMS Noise (additional peak noise uncertainty) 29
Applies to ppm of range.
Peak noise uncertainty is included in DC specifications for ≥1 PLC.
Add peak noise uncertainty to measurements for <1 PLC.
Examples
1 kΩ at 0.006 PLC: 3 (from Accuracy table) + 26 (additional peak noise uncertainty) = 29 ppm of range.
1 kΩ at 1 PLC: 3 + 0 = 3 ppm of range.
NPLC
5
Digits
7½
1 Ω
2.8
10 Ω
0.3
100 Ω
0.3
1 kΩ
0.07
10 kΩ
0.3
1
7½
4.2
0.4
0.4
0.12
0.5
0.2 30
6½
30 (160)
50 (250)
110 (490)
110 (710)
520 (3420)
3 (13)
5 (22)
11 (47)
10 (70)
50 (340)
3 (13)
5 (22)
11 (46)
10 (70)
50 (340)
0.4 (2.6)
0.6 (3.2)
1.1 (6.6)
4 (26)
1.2 (8.2)
1.2 (8.3)
2 (16)
0.2
6½
0.06
0.006
0.0005
5½
4½
10 (60)
50 (300)
3½
40 (220)
2-Wire Ohms
RMS Noise (additional peak noise uncertainty) 29
Applies to ppm of range.
Peak noise uncertainty is included in DC specifications for ≥1 PLC.
Add peak noise uncertainty to measurements for <1 PLC.
Examples
10 kΩ at 0.006 PLC: 3 (from Accuracy table) + 5 (50 mΩ with Rel ) + 43 (additional peak noise uncertainty)
= 51 ppm of range.
10 kΩ at 1 PLC: 3 + 5 + 0 = 8 ppm of range.
NPLC
5
Digits
7½
10 Ω
1.1
100 Ω
0.8
1 kΩ
0.1
10 kΩ
0.2
1
7½
0.6
0.6
0.09
0.4
0.2 30
6½
2 (17)
2 (17)
3 (22)
6 (50)
30 (300)
2 (10)
2 (14)
3 (19)
6 (50)
30 (230)
0.2 (1.5)
0.3 (1.6)
0.4 (3.7)
3 (21)
0.8 (6.3)
0.8 (6.4)
2 (12)
0.2
6½
0.06
0.006
0.0005
5½
4½
6 (43)
30 (210)
3½
20 (150)
NOTES
28. Open circuit voltage is typical, measured from input HI to LO, SHI and SLO open. For 1 Ω to 1 MΩ ranges using an external digital multimeter (DMM) set to 10 MΩ input impedance; for
10 MΩ to 1 GΩ ranges, set external DMM to >10 GΩ input impedance.
29. Noise values are based on 1000 readings with autozero on and using low thermal 4-wire short. RMS noise is typical. Additional peak noise is guaranteed.
30. With line sync on.
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TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Resistance Characteristics
Maximum 4-Wire Ohms Lead Resistance
5 Ω per lead for 1Ω range, 10% of range per lead for 10 Ω to 1 kΩ ranges; 1 kΩ per lead for all other
ranges.
Offset Compensation
Open Lead Detector
Autozero Off Error
Selectable on 4-wire, 1 Ω to 100 kΩ ranges.
Default is off.
For 2-wire ohms, 1°C and ≤10 minutes, add (8ppm of reading) + 1.5 mΩ for 10 Ω, 15 mΩ for 100 Ω and
1 kΩ ranges, 150 mΩ for 10 kΩ range, 1.5 Ω for 100 kΩ range, and 15 Ω for all other ranges.
For 4-wire ohms, 1°C and ≤10 minutes, add (8 ppm of reading).
Input Current Limit
For signals with a magnitude of +12 V to +40 V or –12 V to –40 V: 13 mA source or sink, typical.
For signals with a magnitude of greater than +40 V or –40 V: 130 µA source or sink, typical.
Dry Circuit Resistance
Enhanced Accuracy (within 30 days of autocalibration, TOPER 5ºC from TACAL
)
Accuracy (ppm of reading + ppm of range)
Test
Current 35
( 5%)
Open Circuit
24 Hour
90 Day
1 Year
TCAL 5°C
2 years
TCAL 5°C
Temperature
Coefficient 34
Range 31
Resolution
1 µΩ
DUT Voltage 32 TCAL 1°C 33
TCAL 5°C
1.000000 Ω
10.00000 Ω
100.0000 Ω
1.000000 kΩ
10.00000 kΩ
10 mA
1 mA
25 mV
25 mV
25 mV
25 mV
25 mV
25 + 80
25 + 80
25 + 80
25 + 80
25 + 80
50 + 80
50 + 80
90 + 80
180 + 80
320 + 80
50 + 80
50 + 80
90 + 80
180 + 80
320 + 80
50 + 80
50 + 80
90 + 80
180 + 80
320 + 80
1.5 + 0.1
1.5 + 0.1
1.5 + 0.1
1.5 + 0.1
1.5 + 0.1
10 µΩ
100 µΩ
1 mΩ
100 µA
10 µA
5 µA
10 mΩ
Accuracy
Accuracy (ppm of reading + ppm of range)
Test
Current 35
( 5%)
Open Circuit
24 Hour
90 Day
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 34
Range 31
Resolution
1 µΩ
DUT Voltage 32 TCAL 1°C 33
TCAL °C
1.000000 Ω
10.00000 Ω
100.0000 Ω
1.000000 kΩ
10.00000 kΩ
10 mA
1 mA
25 mV
25 mV
25 mV
25 mV
25 mV
25 + 80
25 + 80
25 + 80
25 + 80
25 + 80
50 + 80
50 + 80
90 + 80
180 + 80
320 + 80
70 + 80
70 + 80
90 + 80
90 + 80
2.5 + 1
5 + 1
10 µΩ
100 µΩ
1 mΩ
100 µA
10 µA
5 µA
140 + 80
400 + 80
800 + 80
200 + 80
600 + 80
1300 + 80
2.5 + 1
5 + 1
10 mΩ
8 + 1
RMS Noise (additional peak noise uncertainty) 36
Applies to ppm of range.
Peak noise uncertainty is included in DC specifications for ≥1 PLC.
Add peak noise uncertainty to measurements when < 1 PLC.
NOTES
31. 20% overrange on all ranges, except 2.4 k for the 10 k range.
32. Maximum clamp voltages are DC, typical accuracy is 20%. Add 20% for offset compensation on.
33. Relative to calibration accuracy.
34. Add per degree from TCAL 5°C.
35. Test current with offset compensation off.
36. Noise values are based on 1000 readings with autozero on and using low thermal 4-wire short. RMS noise is typical. Additional peak noise is guaranteed.
TEK.COM
9
Datasheet
Examples:
10 Ω at 0.2 PLC: 80 (from Accuracy table) + 230 (additional peak noise uncertainty) = 310 ppm of range.
10 Ω at 1 PLC: 80 + 0 = 80 ppm of range.
NPLC
5
Digits
7½
1 Ω
10
10 Ω
11
100 Ω
6
1 kΩ
5
10 kΩ
0.9
1
7½
9
9
7
7
0.8
0.2 37
6½
30 (130)
60 (220)
70 (350)
130 (750)
520 (3550)
30 (120)
60 (230)
70 (350)
120 (830)
530 (3520)
30 (120)
50 (190)
50 (290)
110 (700)
530 (3380)
30 (120)
50 (190)
50 (280)
100 (690)
500 (3370)
3 (16)
0.2
6½
9 (35)
20 (90)
20 (110)
100 (670)
0.06
0.006
0.0005
5½
4½
3½
Dry Circuit Resistance Characteristics
Maximum 4-Wire Ohms Lead Resistance
0.5 Ω per lead for 1 Ω range.
10% of range per lead for 10 Ω to 100 Ω ranges.
50 Ω per lead for 1 kΩ to 10 kΩ ranges.
Input Current Limit
Offset Compensation
Autozero Off Error
For signals greater than 20 mV, current limited, 13 mA typical.
Selectable on 1 Ω to 10 kΩ ranges.
For 1°C and ≤10 minutes, add 8 ppm of reading.
DC Current
Enhanced Accuracy (within 30 days of autocalibration, TOPER 5°C from TACAL
)
Accuracy (ppm of reading + ppm of range)
Maximum
Burden Voltage
24 Hour
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 40
Range 38
Resolution
1 pA
TCAL 1°C 39
10.000000 µA
100.00000 µA
1.0000000 mA
10.000000 mA
100.00000 mA
1.0000000 A
3.000000 A
15 mV
15 mV
30 + 30
20 + 5
75 + 30
60 + 9
75 + 30
60 + 9
75 + 30
60 + 9
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
0.15 + 0.1
50 + 10
10 pA
100 pA
1 nA
15 mV
30 + 5
60 + 9
60 + 9
60 + 9
20 mV
40 + 5
60 + 9
60 + 9
60 + 9
10 nA
100 nA
1 µA
200 mV
400 mV
1300 mV
650 mV
50 + 18
150 + 50
200 + 40
700 + 275
150 + 30
400 + 50
400 + 40
800 + 275
150 + 30
400 + 50
400 + 40
1500 + 275
150 + 30
400 + 50
400 + 40
2000 + 275
10.000000A 41
1 µA
NOTES
37. With line sync on.
38. 20% overrange supported for all ranges except for 3 A and 10 A, which are 1% supported.
39. Relative to calibration accuracy.
40. Add per degree from TCAL 5°C.
41. Rear input terminals only.
10 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Accuracy
Accuracy (ppm of reading + ppm of range)
Maximum
Burden Voltage
24 Hour
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 40
Range 38
Resolution
1 pA
TCAL 1°C 39
10.000000 µA
100.00000 µA
1.0000000 mA
10.000000 mA
100.00000 mA
1.0000000 A
3.000000 A
15 mV
15 mV
30 + 30
20 + 5
100 + 30
75 + 12
125 + 40
100 + 15
100 + 15
100 + 15
400 + 30
450 + 50
450 + 40
1500 + 275
175 + 50
150 + 20
150 + 20
150 + 20
500 + 30
500 + 50
500 + 40
2000 + 275
10 + 8
10 + 3
10 + 3
10 + 3
50 + 5
10 + 10
10 + 10
50 + 10
10 pA
100 pA
1 nA
15 mV
30 + 5
75 + 12
20 mV
40 + 5
75 + 12
10 nA
100 nA
1 µA
200 mV
400 mV
1300 mV
650 mV
50 + 18
150 + 50
200 + 40
700 + 275
300 + 30
400 + 50
400 + 40
800 + 275
10.000000 A 41
1 µA
RMS Noise (additional peak noise uncertainty) 42
Applies to ppm of range.
Peak noise uncertainty is included in DC specifications for ≥1 PLC.
Add peak noise uncertainty to measurements when <1 PLC.
Examples
1 mA at 0.006 PLC: 9 (from Accuracy table) + 20 (additional peak noise uncertainty) = 29 ppm of range.
1 mA at 1 PLC: 9 +0 = 9 ppm of range.
NPLC
5
Digits
7½
10 µA
0.15
100 µA
0.14
1 mA
0.09
10 mA
0.1
100 mA
0.3
1A
0.3
3A
0.2
10A 43
0.8
1
7½
0.4
0.13
0.1
0.1
0.5
0.5
0.3
1.2
0.2
6½
0 (220)
0 (23)
0.2 (3.4)
1.2 (3.8)
1.3 (5.6)
3 (20)
0.2 (1.6)
0.3 (1.8)
0.4 (3.9)
2 (20)
2 (10)
1.9 (9.8)
2 (14)
2 (11)
2 (10)
2 (14)
4 (31)
30 (190)
0.7 (4.6)
0.8 (5)
1.2 (7.7)
7 (51)
4 (32)
8 (37)
10 (59)
20 (110)
60 (420)
0.2 44
0.06
0.006
0.0005
6½
120 (260)
130 (280)
130 (350)
260 (2110)
12 (26)
12 (29)
14 (42)
30 (300)
5½
4½
4 (30)
30 (190)
3½
20 (150)
20 (160)
70 (510)
DC Current Characteristics
Range
10 µA
100 µA
1 mA
10 mA
100 mA
1 A
3 A
10 A 43
Effective Internal Shunt Value 45
1 kΩ
100 Ω
10 Ω
1 Ω
0.1 Ω
0.1 Ω
0.1 Ω
0.005 Ω
Autozero Off Error: For 1°C and ≤10 minutes add
(8 ppm of reading + range error)
150 pA
1.5 nA
15 nA
150 nA
15 µA
150 µA
150 µA
3 mA
Overload Recovery: For each additional sustained amp
beyond 1.5 A, add the following initial ppm of range
error until thermally settled after overload recovery
15500
1800
150
150
6500
200
—
—
NOTES
42. Noise values are based on 1000 readings with autozero on and AMPS terminal open. RMS noise is typical. Additional peak noise is guaranteed.
43. Rear input terminals only.
44. With line sync on.
45. Values are typical and guaranteed by design.
TEK.COM 11
Datasheet
Temperature
4-Wire RTD or 3-Wire RTD
Types: 100 Ω platinum PT100, D100, F100, PT385, PT3916; or user-configurable 0 Ω to 10 kΩ.
Accuracy °C
Temperature Coefficient 46
Type
Range
Resolution
0.01 °C
2 Year, TCAL 5°C
0.06 °C
4-Wire RTD
3-Wire RTD 47 –200 to 850 °C
–200 to 850 °C
0.003 °C/°C
0.003 °C/°C
0.01 °C
0.75 °C
Thermistor
Types: 2.252 kΩ, 5 kΩ, and 10 kΩ.
Accuracy °C
Type
Range
Resolution
2 Year, TCAL 5°C
Temperature Coefficient 46
Thermistor
–80 to +150 °C
0.01 °C
0.08 °C
0.002 °C/°C
Thermocouple
Types: B, E, J, K, N, R, S, T
Accuracy °C
2 Year, TCAL 5°C 48
Simulated
Reference Junction
Temperature
Coefficient 46
Type
Range
Resolution
0.1 °C
B
E
J
350 to +1820 °C
−200 to +1000 °C
−200 to +760 °C
−200 to +1372 °C
−200 to +1300 °C
0 to +1768 °C
0.6 °C
0.03 °C/°C
0.03 °C/°C
0.03 °C/°C
0.03 °C/°C
0.03 °C/°C
0.03 °C/°C
0.03 °C/°C
0.03 °C/°C
0.001 °C
0.001 °C
0.001 °C
0.001 °C
0.1 °C
0.2 °C
0.2 °C
K
N
R
S
T
0.2 °C
0.2 °C
0.6 °C
0 to +1768 °C
0.1 °C
0.6 °C
−100 to +400 °C
0.001 °C
0.2 °C
Continuity
Accuracy (ppm of reading + ppm of range)
Range 49
Resolution
Test Current
Open Circuit Voltage
14.0 V
2 Year, TCAL 5°C
100 + 100
Temperature Coefficient 50
1.0000 kΩ
100 mΩ
1 mA
2.5 + 1
Continuity Characteristics
Continuity High Limit
User-selectable; default 10 Ω.
NOTES
46. Add per degree from TCAL 5°C; specifications without autocalibration.
47. For 3-wire RTD, accuracy is for <0.1 Ω lead resistance mismatch for input HI and LO. Add 0.25°C/0.1 Ω of HI-LO lead resistance mismatch.
48. Exclusive of cold-junction errors.
49. Specifications exclude lead resistance.
50. Add per degree from TCAL 5°C; specifications without autocalibration.
12 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Capacitance
Accuracies specified for additional cable and stray capacitance properly zeroed with the Rel function.
Accuracy
Accuracy
(% of reading + % of range)
Charge
Maximum
Circuit Voltage
2 years
TCAL 5°C
Temperature
Coefficient 50
Range 51
1.0000 nF
10.000 nF
100.00 nF
1.0000 µF
10.000 µF
100.00 µF
1000.0 µF
Resolution
0.1 pF
1 pF
Current 52, 53
1.1 µA
1.1 µA
10 µA
100 µA
100 µA
1 mA
2.8 V
2.8 V
3 V
1 + 0.2
1 + 0.1
0.15 + 0.05
0.15 + 0.01
0.01 + 0.01
0.01 + 0.01
0.01 + 0.01
0.01 + 0.01
0.01 + 0.01
10 pF
0.4 + 0.1
0.4 + 0.1
0.4 + 0.1
0.4 + 0.1
0.5 + 0.1
0.1 nF
1 nF
3 V
3 V
10 nF
3 V
0.1 µF
10 mA
3 V
Diode
Accuracy (ppm of reading + ppm of range)
Voltage
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 50
Measure Range 51
Resolution
Bias Level (Selectable)
10.000000 V
1 µV
10 µA / 100 µA / 1 mA
20 + 5
30 + 5
45 + 5
2.5 + 1
Digitize Voltage
Accuracy (Input Impedance AUTO)
Accuracy (ppm of reading + ppm of range)
90 Day
TCAL 5°C
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 58
Range 54, 55
100.000 mV
1.00000 V
Resolution 56
1 µV
Input Impedance 57
>10 GΩ or 10 MΩ 1%
>10 GΩ or 10 MΩ 1%
>10 GΩ or 10 MΩ 1%
10 MΩ 1%
210 + 100
110 + 75
110 + 75
110 + 75
110 + 75
220 + 100
120 + 75
120 + 75
120 + 75
120 + 75
230 + 100
130 + 75
130 + 75
130 + 75
130 + 75
15 + 20
15 + 20
10 + 20
15 + 20
10 + 20
10 µV
10.0000 V
0.1 mV
1 mV
100.000 V 59
1000.00 V 60
10 mV
10 MΩ 1%
NOTES
51. 20% overrange on all ranges.
52. Charging current values are typical, guaranteed by design.
53. Discharge current limited to <13 mA.
54. For DC coupling, 20% overrange for 100 mV to 100 V. For AC coupling, 500% overrange 100 mV to 100 V. 1% for 1000 V range DC and AC coupling.
55. Accuracy with sample rate 1k per second, aperture auto, and 100 reading buffer average.
56. Power up default is 4½ digits.
57. User-selectable.
58. Add per degree from TCAL 5%.
59. For 100 V range, input impedance auto and without ACAL, add 100ppm of range additional uncertainty and 15 ppm/°C additional uncertainty for “of range” temperature coefficient for
operation outside of TCAL 5°C.
60. For signal levels greater than 500 V, add 0.02 ppm/V to the ppm of the readings specification for measurements exceeding 500 V.
TEK.COM 13
Datasheet
Signal Characteristics 61, 62, 63
Typical AC and DC Coupled
Analog
Maximum
THD
DC-coupled AC-coupled Filter AC-coupled Filter
AC Coupling
Bandwidth Flatness Error 20 kHz Signal
Settling
FAST Settling
Time (0.5%)
SLOW Settling Time Low Frequency
Range
(–3dB)
600 kHz
600 kHz
600 kHz
3 Hz to 20 kHz 64 (–1dB FS) 65
Time (0.5%)
(0.5%)
2.3 s
2.5 s
2.5 s
(–3dB) point 66
1 Hz
100.000 mV
1.00000 V
10.0000 V
0.015 dB
0.01 dB
0.01 dB
0.04 %
0.03 %
0.01 %
5 µs
6 µs
4 µs
80 ms
80 ms
80 ms
1 Hz
1 Hz
Typical DC Coupled
Total Harmonic
Distortion (THD)
1 kHz Signal
Maximum
Analog Bandwidth
(–3dB)
Flatness Error
Settling Time
(0.5%)
Range
3 Hz to 1 kHz 64
(–1dB FS) 65
100.000 V
1000.00 V
20 kHz 67
0.1 dB
0.1 dB
1.3 %
1.8 %
160 µs
80 µs
20 kHz
Typical AC Coupled
Analog
Bandwidth
(–3dB)
Maximum
Flatness Error
3 Hz to 20 kHz
Filter FAST
Filter SLOW
Low Frequency
Settling Time Settling Time Coupling Point 66
Range
(0.5%)
80 ms
80 ms
(0.5%)
(–3dB)
100.000 V
1000.00 V
600 kHz
600 kHz
0.1 dB
0.1 dB
2.3 s
1 Hz
2.3 s
1 Hz
DC-Coupled Additional Noise Uncertainty,
Typical 68
DC-coupled Total Harmonic Distortion (THD),
Typical 69
Total Harmonic Distortion, Digitize Voltage
RMS Noise, Digitize Voltage
1000
-50
-60
-70
100
100mV
100mV
1V
-80
1V
10
1
-90
-100
-110
-120
10V
10V
100V
1000V
100V
1000V
0.1
1k
2k
5k 10k 20k 50k 100k 200k 500k 1M
1k
2k
5k
10k
20k
50k
100k
200k
Samples per Second
Samples per Second
NOTES
61. Accuracy with sample rate 1M per second and aperture 1 µs.
62. Verified with sine wave input and DC content ≤3% of range.
63. For AC coupling, maximum crest factor of 5.
64. For DC coupled, 0dB reference frequency is 3 Hz. For AC coupled, 0dB reference frequency is 1 kHz. For AC coupled operation below 1 kHz, add 0.1 dB.
65. Exclusive of source input noise.
66. With AC coupling frequency = 3 Hz and AC coupling filter = Slow.
67. For input impedance auto, bandwidth is 6 kHz.
68. Specified with aperture auto and 4-wire short on input terminals. For 100 V range, input impedance 10 M , multiply by 2.5. For all ranges and sample rate >1 k, add an additional 3× RMS
noise uncertainty to ppm of range.
69. Specified with aperture auto and 1 kHz sine wave input. Distortion is calculated using first five harmonics.
14 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
DC-Coupled Effective Number Of Bits (ENOB), Typical 70
Effective Number of Bits (ENOB), Digitize Voltage
18
16
14
12
10
8
100mV
1V
10V
1k
2k
5k
10k
20k
50k
100k
200k
Samples per Second
Digitize Current
DC Accuracy 71
Accuracy (ppm of reading + ppm of range)
90 Day
1 Year
TCAL 5°C
2 Year
TCAL 5°C
Temperature
Coefficient 74
Range 72
10.0000 µA
100.000 µA
1.00000 mA
10.0000 mA
100.000 mA
1.00000 A
Resolution 73
Burden Voltage
15 mV
TCAL 5°C
150 + 75
150 + 75
150 + 75
150 + 75
340 + 100
400 + 110
650 + 150
950 + 350
0.1 nA
1 nA
160 + 75
160 + 75
170 + 75
170 + 75
30 + 15
30 + 15
30 + 15
30 + 15
50 + 20
50 + 25
50 + 25
50 + 25
15 mV
10 nA
100 nA
1 µA
15 mV
160 + 75
170 + 75
20 mV
160 + 75
170 + 75
200 mV
400 mV
1300 mV
650 mV
450 + 100
500 + 110
900 + 150
1500 + 350
560 + 100
600 + 110
900 + 150
2000 + 350
10 µA
100 µA
100 µA
3.00000 A
10.0000 A 75
NOTES
70. Specified with aperture Auto, 100Hz sine wave for sample rate ≤5k, and 1kHz sine wave for sample rate ≥10k. For the 100V and 1000V ranges, use the 1V and 10V range ENOB,
respectively; guaranteed by design.
71. Accuracy with sample rate 1k per second, aperture auto, and 100 reading buffer average.
72. 20% overrange on all ranges except 3.3% for 3A and 10A ranges.
73. Power up default is 4½ digits.
74. Add per degree from TCAL 5°C.
75. Rear input terminals only.
TEK.COM 15
Datasheet
Signal Characteristics, Typical 76
Total Harmonic
Distortion (THD)
20 kHz Signal
(–1dB FS)
DC-coupled
Settling Time
(0.5%)
Maximum Flatness Error
Analog Bandwidth
(–3dB)
Range 72
10.0000 µA
100.000 µA
1.00000 mA
10.0000 mA
100.000 mA
1.00000 A 77
3.0000 A 77
3 Hz to 20 kHz
0.15 dB
0.15 dB
0.1 dB
100 kHz
100 kHz
100 kHz
100 kHz
100 kHz
100 kHz
100 kHz
100 kHz
0.02 %
0.01 %
0.01 %
0.01 %
0.02 %
0.02 %
0.02 %
0.02 %
8 µs
7 µs
3 µs
8 µs
5 µs
6 µs
6 µs
6 µs
0.1 dB
0.1 dB
0.1 dB
0.1 dB
10.0000 A 75, 77, 78
0.1 dB
Additional Noise Uncertainty, Typical 79
Total Harmonic Distortion (THD), Typical 80
RMS Noise, Digitize Current
Total Harmonic Distortion, Digitize Current
1000
-70
-80
100
10
1
10µA
100µA
1mA
-90
-100
-110
-120
10µA
100µA
1mA
10mA
100mA, 1A
3A
10mA
100mA
10A
1k
2k
5k
10k
20k
50k
100k 200k
1k
2k 5k 10k 20k 50k 100k 200k 500k 1M
Samples per Second
Samples per Second
NOTES
76. Verified with sine wave input and DC content ≤3% of range.
77. 10A range is available only on the rear input terminals.
78. 10A flatness verified to 10kHz; 100kHz guaranteed by design.
79. Specified with aperture Auto and open input terminals. For all ranges and for ≥1k sample rate, add an additional 3× RMS noise uncertainty to ppm of range.
80. Specified with aperture Auto and 1kHz sine wave input. Distortion is calculated using first five harmonics. For the 1A, 3A, and 10A ranges, use the 100mA range accuracy; guaranteed
by design.
16 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Effective Number Of Bits (ENOB), Typical 81
Effective Number of Bits (ENOB), Digitize Current
18
16
14
10uA
100uA
1mA
12
10
8
10mA
100mA
1k
2k
5k
10k
20k
50k
100k
200k
Samples per Second
Digitizer Characteristics
Maximum Resolution
Measurement Input Coupling
Sampling Rate 82
18 bits.
DC or AC (voltage only).
Programmable 1 k through 1 million.
Volatile Sample Memory with Timestamp
27.5 million.
Minimum Record Time
Timestamp Resolution
Timestamp Accuracy
1 µs.
1 ns with standard or full buffer style. 1 µs with compact buffer style.
With standard or full buffer style, 20 ns between adjacent readings, with total buffer time <2 s.
With compact buffer style, 2 µs adjacent readings, with total buffer buffer time <2 s.
Maximum Record Length
8 million.
NOTES
81. Specified with aperture Auto, 100 Hz sine wave for sample rate ≤5 k, and 1 kHz sine wave for sample rate ≥10 k. For the 1 A, 3 A, and 10 A ranges, use the 100 mA ENOB; guaranteed
by design.
82. Sample rate is not continuously adjustable. For valid discrete settings, see the DMM7510 Reference Manual.
TEK.COM 17
Datasheet
True RMS AC Voltage and AC Current
1-Year Accuracy: (% of reading + % of range) TCAL 5°C
3 Hz to
5 Hz
5 Hz to
10 Hz
10 Hz to
20 kHz
20 kHz to
50 kHz
50 kHz to
100 kHz
100 kHz to
300 kHz
Function
Range 83
100.0000 mV
1.000000 V
10.00000 V
100.0000 V
700.000 V
Resolution
0.1 µV
1 µV
1.0 + 0.03
1.0 + 0.03
1.0 + 0.03
1.0 + 0.03
1.0 + 0.03
0.30 + 0.03
0.30 + 0.03
0.30 + 0.03
0.30 + 0.03
0.30 + 0.03
0.06 + 0.03
0.06 + 0.03
0.06 + 0.03
0.06 + 0.03
0.06 + 0.03
0.14 + 0.05
0.14 + 0.05
0.14 + 0.05
0.14 + 0.05
0.14 + 0.05
0.6 + 0.08
0.6 + 0.08
0.6 + 0.08
0.6 + 0.08
0.6 + 0.08
4.0 + 0.5
4.0 + 0.5
4.0 + 0.5
4.0 + 0.5
4.0 + 0.5
Voltage 84
10 µV
100 µV
1 mV
Temperature
Coefficient/°C
(all ranges)
–
–
0.01 + 0.003 0.03 + 0.003 0.005 + 0.003 0.006 + 0.005 0.01 + 0.006
0.03 + 0.01
1-Year Accuracy: (% of reading + % of range) TCAL 5°C
Function
Range 83
Resolution 3 Hz to 5 Hz 5 Hz to 10 Hz
10 Hz to 2 kHz
0.08 + 0.03
0.08 + 0.03
0.08 + 0.03
0.20 + 0.04
0.20 + 0.05
0.40 + 0.05
2 kHz to 5 kHz
0.09 + 0.03
0.09 + 0.03
0.09 + 0.03
0.88 + 0.04
0. 88 + 0.05
0. 88 + 0.05
5 kHz to 10 kHz
0.09 + 0.03
0.09 + 0.03
0.01 + 0.006
0.01 + 0.006
2.0 + 0.04
1.000000 mA
10.00000 mA
100.0000 mA
1.000000 A
3.000000 A
10.00000 A 85
1 nA
10 nA
100 nA
1 µA
1.0 + 0.04
1.0 + 0.04
1.0 + 0.04
1.0 + 0.04
1.0 + 0.05
1.0 + 0.05
0.30 + 0.04
0.30 + 0.04
0.30 + 0.04
0.30 + 0.04
0.30 + 0.05
0.40 + 0.05
Current 84
1 µA
10 µA
2.0 + 0.05
Temperature
Coefficient/°C
(all ranges)
–
–
0.10 + 0.004 0.030 + 0.004
0.005 + 0.003
0.006 + 0.005
0.006 + 0.005
Additional AC Uncertainties – Low Frequency Uncertainty
Detector Bandwidth (BW)
Additional Uncertainty
(% of reading), Lower
Frequency Uncertainty
3 BW
(3 Hz to 300 kHz)
30 BW
(30 Hz to 300 kHz)
300 BW
(300 Hz to 300 kHz)
20 Hz to 30 Hz
30 Hz to 50 Hz
50 Hz to 100 Hz
100 Hz to 200 Hz
200 Hz to 300 Hz
300 Hz to 500 Hz
> 500 Hz
0
0
0
0
0
0
0
0.3
0
—
—
0
4.0
0.72
0.18
0.07
0
0
0
0
0
NOTES
83. 20% overrange on AC functions except 1% on 700 V, 3.33% on 3 A, and 1% on 10 A. Default resolution is 6½ digits.
84. Specifications are for detector bandwidth of 3Hz and sine wave inputs >5% of range. Detector bandwidth of 3 Hz and 30 Hz are multisample A/D conversions. Detector bandwidth of
300 Hz is a single A/D conversion, programmable from 0.0005 PLC to 15 PLC (60 Hz), 12 PLC (50 Hz). Default condition set to 1 PLC.
85. Rear terminals only.
18 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Additional AC Voltage Crest Factor Uncertainties 86
Additional Uncertainty
(% of reading)
Maximum Crest Factor:
5 at Range Full Scale
Input Signal Frequency Detector Bandwidth
1 to 2
1.00
0.50
0.20
0.20
0.05
0.50
0.05
2 to 3
4.00
1.20
0.30
0.30
0.15
3 to 4
4.80
1.30
0.60
0.60
0.30
1.30
0.30
4 to 5
5.00
1.40
0.90
0.90
0.40
1.50
1.20
3 Hz to 5 Hz
5 Hz to 10 Hz
3 Hz
3 Hz
10 Hz to 30 Hz
5 Hz to 100 Hz
100 Hz to 300 Hz
100 Hz to 300 Hz
500 Hz to 10 kHz
3 Hz
30 Hz
30 Hz
300 Hz
300 Hz
1.20
0.15
AC Voltage Characteristics
Measurement Method
AC-coupled, true RMS.
Input Impedance
1 MΩ 2% || <150 pF.
Volt*Hertz Product
<2.1 × 107 V*Hz verified; input frequency verified for <300 kHz.
AC Current Characteristics
Measurement Method
AC-coupled, true RMS.
Range
1 mA
10 mA 100 mA
1 A
3 A
10 A 87
Burden Voltage (RMS)
<16 mV <20 mV <0.2 V
<0.4 V
<1.3 V <0.65 V
Overload Recovery: For each additional
sustained ampere beyond 1.5 A, add
the following initial % of range error until
thermally settled after overload recovery
0.006
0.006
0.12
0.05
—
—
Frequency and Period
Measurement Accuracy 88
Accuracy, (ppm of reading + ppm of aperture time)
Frequency: 3 Hz to 500 kHz
Period: 333 ms to 2 µs
Measurement
Resolution
Aperture
250 ms
100 ms
10 ms
1 Year, TCAL 5°C
80 + 0.333
80 + 3.33
2 Year, TCAL 5°C
160 + 0.333
160 + 3.33
0.1 ppm
0.1 ppm
0.1 ppm
80 + 33.3
160 + 33.3
NOTES
86. Applies for non-sine wave inputs, DC content ≤3% of range, maximum crest factor ≤5.0. For bandwidth 30Hz, autozero off, 6½ digits at 1 PLC, 3½ digits at 0.0005 PLC.
87. Rear input terminals only.
88. Specified for square wave inputs. Input signal must be >10% of ACV range. If input is <20 mV on the 100 mV range, then the frequency must be >10 Hz. For sine wave inputs, frequency
must be >100 Hz. For frequencies ≤100 Hz, threshold level ≤50% of input signal and ≤7 Hz, threshold level ≤3% of range.
TEK.COM 19
Datasheet
Threshold Level Accuracy 89
Accuracy (% of reading)
2 Year, TCAL 5°C
Threshold Range
Threshold Resolution
100 mV to 700 V
0.05%
1.0%
Frequency and Period Characteristics
Measurement Method
Reciprocal counting technique.
Aperture
10 ms to 273 ms; default is 10 ms.
Typical Reading Rates, 60 Hz (50 Hz) Operation 90, 91, 92, 93
Functions:
DC Voltage (10 V),
2-wire Ohms (≤10 kΩ),
DC Current (1 mA)
Functions:
4-wire ohms (≤1 kΩ),
4-wire/3-wire RTD
Functions:
Thermistor
Functions:
Dry Circuit (≤1 kΩ)
Measurements Measurements Measurements Measurements Measurements Measurements Measurements Measurements
NPLC
1
Digits
7½
Into Buffer
59.8 (49.8)
295 (240)
Into Computer
Into Buffer
Into Computer
Into Buffer
Into Computer
Into Buffer
Into Computer
58 (48)
29 (24)
28 (24)
57 (48)
57 (48)
27 (23)
26 (22)
0.2
6½
250 (210)
128 (109)
310 (280)
750 (730)
860 (860)
119 (100)
230 (200)
230 (200)
100 (89)
96 (85)
0.06
0.006
0.0005
5½
965 (810)
950 (800)
315 (280)
740 (720)
860 (860)
900 (750)
900 (750)
190 (180)
295 (290)
310 (310)
190 (180)
295 (290)
310 (310)
4½
7500 (6700)
26000 (26000)
7300 (6500)
24000 (24000)
6800 (6000)
18000 (18000)
6800 (6000)
18000 (18000)
3½
Functions: ACV, ACI
Measurements Measurements
Detector
Bandwidth (Hz)
Digits
6½
Into Buffer
Into Computer
3
0.5 (0.5)
0.5 (0.5)
30
6½
3.3 (3.3)
3.3 (3.3)
300 94
300 94
6½
59.8 (49.8)
26200 (26200)
55 (46)
3½
24500 (24500)
Digitize, Typical
Measurements Into
Computer 93
Sampling Rate
10 kS/s
Digits
5½
Resolution
18
16
16
15
12
9700
19000
44400
80000
108000
20 kS/s
4½
50 kS/s
4½
100 kS/s
1 MS/s
4½
3½
NOTES
89. Threshold range is voltage RMS and threshold level voltage peak. Specified with 1kHz square wave. 100V and 700V threshold ranges guaranteed by design.
90. Reading speeds for autozero off, fixed range, autodelay off. Offset compensation off and open lead detector off where applicable.
91. Buffer measurements: For <0.2 PLC, multisample, single buffer transfer binary reading only.
92. PC measurements: For 1 and 0.2 PLC single reading and single transfer to computer (USB).
93. Reading rates using factory default operating conditions and autorange off, autodelay off. Speeds include measurement and data transfer out of the USB. ≥1000 readings with binary
transfer over USB.
94. For bandwidth 300Hz, autozero off, 6½ digits at 1 PLC, 3½ digits at 0.0005 PLC.
20 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
System Performance, Typical
Mode
3½-digit, autozero off, 0.0005 PLC, excludes measurement time.
Time includes function change from DC voltage or 2-wire ohms to listed function.
Function
DC Voltage or 2-wire ohms (<10 kΩ)
4-wire ohms (<10 kΩ)
DC Current
Function Change (ms)
Range Change (ms)
6
7
7
7
7
7
1.3
1.3
1.3
1.3
1.3
1.3
Frequency or Period 95
AC Voltage or AC Current
Digitize Voltage or Current
Ranges for Function Change Times
Function change times apply to the ranges listed in the table below.
Function
DC Voltage
Range
10 V
2-wire or 4-wire Ohms
DC Current
1 kΩ
1 mA
Dry-circuit Ohms
Thermocouple
Thermistor
10 Ω
Use DC Voltage rates
Use 2-wire Ohms rates
1 mA
AC Current
AC Voltage
1 V
Measurements into Computer (per second)
Buffer Transfer Speed (Binary)
USB
LAN
GPIB
Average for 1000 readings
280000
170000
270000
140000
190000
100000
Average for 1000 readings with timestamp
Triggering
Time Base Accuracy
25ppm.
Trigger Source
Analog DCV, DCI, or any system trigger.
Trigger Coupling
DC or AC (DCV function only).
Input Trigger Latency 96, 97, 98
Input Trigger Jitter 96, 97
Sample period Jitter 96, 97
<225 ns.
<50 ns.
<1 ns.
DMM Rear-Panel Triggers
EXT TRIG IN and OUT
0 V to 5 V logic signal input and output, TTL compatible.
EXT trigger latency (IN and OUT) <400 ns.
EXT trigger latency (IN or OUT)
<200 ns (guaranteed by design).
NOTES
95. For DC voltage or 2-wire ohms to frequency or period, 10ms aperture. For AC current or AC voltage, detector bandwidth is 300 Hz.
96. Guaranteed by design; for digital I/O only.
97. Stimulus command required to meet specifications.
98. If using trigger model, add 200 ns uncertainty.
TEK.COM 21
Datasheet
Analog Triggering 99
Analog Level, Edge, Or Window Trigger Types100
Trigger Characteristics
Voltage Input
100 mV to 1000 V
0.05%
Current Input
10 µA to 10 A
0.05%
Input
Resolution
Basic Accuracy (TACAL 5°C) 101, 102
1%
1%
Analog Trigger Latencies
Digital I/O
External
Positive Logic
Negative Logic
800 ns + 40 ns jitter
800 ns + 40 ns jitter
930 ns + 40 ns jitter
840 ns + 40 ns jitter
Window Filter and Memory (buffer)
Window Filter Size
0 to 10% of reading, where 0 averages all readings.
Memory
Up to 27.5 million timestamped readings with the compact buffer style, with additional memory available
using an external USB flash drive.
Maximum Internal Memory (Buffer) 27.5 million readings with the compact buffer style (6½-digit without formatting), 11 million readings with
the standard or full buffer style.
NOTES
99. For DC or AC coupled, the trigger level can be set up to 100% of measure range.
100. Rising or falling edge triggering supported. Window trigger requires setting two independent levels.
101. Trigger event occurs after the threshold crossing at a time determined by total trigger latencies.
102. Accuracy specifications require user ACAL and are verified with level trigger amplitude set to 50% of range with a 100 Hz sine wave at 100% full scale of range. High frequency rejection is
off. NPLC 0.0005 (DC voltage/DC current) or aperture 1 µs for digitize voltage or digitize current. Specified for fixed range, autozero off. For digitized DC voltage AC coupled, add 0.5%.
For DC current and digitized DC current 3 A or 10 A ranges, add an additional 2%.
General Instrument Specifications
Specification Conditions
This document contains specifications and supplemental information for the DMM7510 Precision Sampling
Digital Multimeter instrument. Specifications are the standards against which the DMM7510 is tested. Upon
leaving the factory, the DMM7510 meets these specifications. Supplemental, typical, and characteristic
values are non-warranted, apply at 23°C, and are provided solely as useful information. All specifications
apply to front or rear terminal inputs, except 10 A specifications (rear terminals only).
Input Protection
1010 V DC (715 VRMS V AC) all ranges and functions on HI and LO terminals; 350 V all ranges and functions
on sense HI, sense LO terminals; 250 V rated current input terminal; fused 3 A and 10 A ranges; current
input terminals protected to 1 kV.
3 A Input Fuse Protection
10 A Input Fuse Protection
AC Voltage input
Common Mode Isolation
Power Line
3.5 A, 1 kV fast blow type; Keithley part number DMM7510-FUSE-3A.
11 A, 1 kV fast blow type; Keithley part number DMM7510-FUSE-10A.
Maximum DCV: 1000V on any AC voltage range.
500 VDC or ACVpeak LO to chassis. All terminals >10 GΩ, <350 pF any terminal to chassis.
Universal input, 100 V to 240 V.
Line Frequency
50 Hz or 60 Hz, automatically sensed at power-up.
60 VA.
Power Consumption
Operating Environment
Storage Environment
Real Time Clock
EMC
Specified for 0° to 50°C, ≤80% relative humidity at 35°C, altitude up to 2000 meters.
–30° to 70°C.
Lithium battery backup (3+ years battery life).
Conforms to European Union EMC Directive.
Safety
NRTL listed to UL61010-1, and CSA C22.2 No 61010-1; conforms with European Union Low
Voltage Directive.
22 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Vibration
MIL-PRF-28800F Class 3, Random.
90 minutes to rated accuracy.
Front and rear safety banana jacks.
Forced air, fixed speed.
Warm-up
Input Signal Connections
Cooling
Dimensions
Without handle and bumpers: 88 mm high × 213 mm wide × 410 mm deep (3.46 in. × 8.39 in. ×
16.13 in.).
With handle and bumpers (bench configuration): 106 mm high × 255 mm wide × 425 mm deep (4.18 in.
× 10.05 in. × 16.75 in.).
Shipping weight (with bumpers and handle)
4.08 kg (9.0 lb.).
Shipping weight (without bumpers and handle)
3.63 kg (8.0 lb.).
Digital I/O:
Connector
9-pin female D.
5V Power Supply Pin
Lines
Limited to 500 mA at > 4 V (solidstate fuse protected).
Six input/output, user-defined, for digital I/O or triggering.
Input Signal Levels:
0.7 V (maximum logic low)
3.7 V (minimum logic high).
Input Voltage Limits:
–0.25 V (absolute minimum)
+5.25 V (absolute maximum).
Maximum Source Current
Maximum Sink Current
Handler
+2.0 mA at >2.7 V (per pin).
–50 mA at 0.7 V (per pin, solid-state fuse protected).
User-defined start of test, end of test, four category bits
Rel, dB, Limit Test, Percentage, 1/x, and mX + b.
Math Functions
Remote Interface:
LAN
RJ-45 connector, 10/100BT; Virtual Front Panel.
Static or DHCP.
IP Configuration
GPIB
USB Device (rear panel, type B)
IEEE-488.1 compliant. Supports IEEE-488.2 common commands and status model topology.
2.0 full speed, USBTMC compliant.
USB Host (front panel, type A)
USB 2.0, support for flash drives, FAT 32.
LXI version 1.4 Core 2011.
LXI Compliance
Language
Embedded Test Script Processor (TSP) accessible from any host interface; responds to high-speed
test scripts comprised of remote commands and statements (for example, branching, looping, math);
able to execute high-speed test scripts stored in memory without host intervention; also SCPI (default
command set).
Accessories Supplied
Accessories Available
Product Information CD-ROM, DMM7510 Quick Start Guide, Kickstart Software Quick Start Guide, power
cord, 1 m USB cable (type A to type B), 3 m LAN cable, and 1756 Standard Test Lead Kit.
(Calibration / Data / ISO 17025), software IVI/VISA drivers for Microsoft® Visual Basic®, Visual C/
C++®, National Instruments (NI™) LabVIEW™, Keithley Test Script Builder, Keithley KickStart, and NI
LabWindows™/CVI.
Display
Five-inch capacitive touch, color thin-film-transistor (TFT) WVGA (800×480) with LED backlight.
30 characters.
Password Protection
Expansion Interface
The TSP-Link® expansion interface allows TSP-enabled instruments to trigger and communicate with
each other.
IP configuration
Static or DHCP (manual or automatic).
TEK.COM 23
Datasheet
Supplied Accessories
1756
Test Leads
USB-B-1
CA-180-3A
USB Cable, Type A to Type B, 1 m (3.3 ft)
TSP-Link/Ethernet Cable Documentation CD
DMM7510 QuickStart Guide
Test Script Builder Software (available at www.keithley.com )
KickStart Startup Software (available at www.keithley.com)
LabVIEW and IVI Drivers (available at www.keithley.com)
Available Accessories
Test Leads and Probes
1752
1754
1756
5804
5805
5806
5808
5809
8606
8610
Premium Safety Test Lead Kit
2-Wire Universal 10-Piece Test Lead Kit
General Purpose Test Lead Kit
Kelvin (4-Wire) Universal 10-Piece Test Lead Kit
Kelvin (4-Wire) Spring-Loaded Probes
Kelvin Clip Lead Set
Low Cost Single-pin Kelvin Probe Set
Low Cost Kelvin Clip Lead Set
High Performance Modular Probe Kit
Low Thermal Shorting Plug
Replacement Fuses
DMM7510-FUSE-10A
DMM7510-FUSE-3A
11 A Current Fuse For DMM7510
3.5 A Current Fuse For DMM7510
Cables, Connectors, Adapters
CA-18-1
Shielded Dual Banana Cable, 1.2 m (4 ft.)
Communication Interfaces & Cables
KPCI-488LPA
KUSB-488B
7007-1
IEEE-488 Interface for PCI Bus
IEEE-488 USB-to-GPIB Interface Adapter
Shielded GPIB Cable, 1 m (3.2 ft)
7007-2
Shielded GPIB Cable, 2 m (6.5ft)
CA-180-3A
USB-B-1
CAT5 Crossover Cable for TSP-Link / Ethernet
USB Cable, Type A to Type B, 1 m (3.3 ft)
Triggering and Control
2450-TLINK
DB-9 to Trigger Link Connector Adapter
Trigger Link Cable, DIN-to-DIN, 1 m (3.2 ft.)
Trigger Link Cable, DIN-to-DIN, 2 m (6.5 ft.)
DIN-to-BNC Trigger Cable
8501-1
8501-2
8503
24 TEK.COM
DMM 7510 7½-Digit Graphical Sampling Multimeter
Rack Mount Kits
4299-8
Single Fixed Rack Mount Kit
Dual Fixed Rack Mount Kit
4299-9
4299-10
Dual Fixed Rack Mount Kit. Mount One DMM7510 and One Series 26xxB Instrument
Dual Fixed Rack Mount Kit. Mount One DMM7510 and One Instrument from Series 2400, Series 2000, etc.
Dual Fixed Rack Mount Kit. Mount One DMM7510 and One Keysight Instrument.
Ears and Handle for DMM7510-NFP-RACK and DMM7510-RACK Models
4299-11
4299-12
DMM7510-BenchKit
Available Services
Extended Warranties
DMM7510-EW
1 Year Factory Warranty Extended to 2 Years from Date of Shipment
1 Year Factory Warranty Extended to 3 Years from Date of Shipment
1 Year Factory Warranty Extended to 5 Years from Date of Shipment
1 Year Factory Warranty Extended to 2 Years from Date of Shipment
1 Year Factory Warranty Extended to 3 Years from Date of Shipment
1 Year Factory Warranty Extended to 5 Years from Date of Shipment
DMM7510-3Y-EW
DMM7510-5Y-EW
DMM7510-NFP-EW
DMM7510-NFP-3Y-EW
DMM7510-NFP-5Y-EW
Calibration Contracts
C/DMM7510-3Y-17025
C/DMM7510-3Y-DATA
C/DMM7510-3Y-STD
KeithleyCare 3 Year ISO-17025 Calibration Plan
KeithleyCare 3 Year Calibration w/Data Plan
KeithleyCare 3 Year Std Calibration Plan
KeithleyCare 5 Year ISO-17025 Calibration Plan
KeithleyCare 5 Year Calibration w/Data Plan
KeithleyCare 5 Year Std Calibration Plan
KeithleyCare 3 Year ISO-17025 Calibration Plan
KeithleyCare 3 Year Calibration w/Data Plan
KeithleyCare 3 Year Std Calibration Plan
KeithleyCare 5 Year ISO-17025 Calibration Plan
KeithleyCare 5 Year Calibration w/Data Plan
KeithleyCare 5 Year Std Calibration Plan
Calibration Data for New Units
C/DMM7510-5Y-17025
C/DMM7510-5Y-DATA
C/DMM7510-5Y-STD
C/DMM7510-NFP-3Y-17025
C/DMM7510-NFP-3Y-DATA
C/DMM7510-NFP-3Y-STD
C/DMM7510-NFP-5Y-17025
C/DMM7510-NFP-5Y-DATA
C/DMM7510-NFP-5Y-STD
C/NEW DATA
C/NEW DATA ISO
ISO-17025 Calibration Data for New Units
Ordering Information
DMM7510
7½-Digit Graphical Sampling Multimeter
DMM7510-NFP
DMM7510-RACK
DMM7510-NFP-RACK
7½-Digit Graphical Sampling Multimeter, with No Front Panel
7½-Digit Graphical Sampling Multimeter, with No Handle
7½-Digit Graphical Sampling Multimeter, with No Front Panel and No Handle
TEK.COM 25
Datasheet
Warranty Information
Warranty Summary
This section summarizes the warranties of the DMM7510. For complete warranty information, refer to
the DMM7510 Reference Manual. Any portion of the product that is not manufactured by Keithley is not
covered by this warranty and Keithley will have no duty to enforce any other manufacturer’s warranties.
Hardware Warranty
Software Warranty
Keithley Instruments, Inc. warrants the Keithley manufactured portion of the hardware for a period of one
year from defects in materials or workmanship; provided that such defect has not been caused by use of
the Keithley hardware which is not in accordance with the hardware instructions. The warranty does not
apply upon any modification of Keithley hardware made by the customer or operation of the hardware
outside the environmental specifications.
Keithley warrants for the Keithley produced portion of the software or firmware will conform in all material
respects with the published specifications for a period of ninety (90) days; provided the software is used on
the product for which it is intended in accordance with the software instructions. Keithley does not warrant
that operation of the software will be uninterrupted or error-free, or that the software will be adequate for
the customer’s intended application. The warranty does not apply upon any modification of the software
made by the customer.
26 TEK.COM
Contact Information:
Australia* 1 800 709 465
Austria 00800 2255 4835
Balkans, Israel, South Africa and other ISE Countries +41 52 675 3777
Belgium* 00800 2255 4835
Brazil +55 (11) 3759 7627
Canada 1 800 833 9200
Central East Europe / Baltics +41 52 675 3777
Central Europe / Greece +41 52 675 3777
Denmark +45 80 88 1401
Finland +41 52 675 3777
France* 00800 2255 4835
Germany* 00800 2255 4835
Hong Kong 400 820 5835
India 000 800 650 1835
Indonesia 007 803 601 5249
Italy 00800 2255 4835
Japan 81 (3) 6714 3010
Luxembourg +41 52 675 3777
Malaysia 1 800 22 55835
Mexico, Central/South America and Caribbean 52 (55) 56 04 50 90
Middle East, Asia, and North Africa +41 52 675 3777
The Netherlands* 00800 2255 4835
New Zealand 0800 800 238
Norway 800 16098
People’s Republic of China 400 820 5835
Philippines 1 800 1601 0077
Poland +41 52 675 3777
Portugal 80 08 12370
Republic of Korea +82 2 6917 5000
Russia / CIS +7 (495) 6647564
Singapore 800 6011 473
South Africa +41 52 675 3777
Spain* 00800 2255 4835
Sweden* 00800 2255 4835
Switzerland* 00800 2255 4835
Taiwan 886 (2) 2656 6688
Thailand 1 800 011 931
United Kingdom / Ireland* 00800 2255 4835
USA 1 800 833 9200
Vietnam 12060128
* European toll-free number. If not
accessible, call: +41 52 675 3777
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Copyright © Tektronix. All rights reserved. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supersedes that
in all previously published material. Specification and price change privileges reserved. TEKTRONIX and TEK are registered trademarks of Tektronix, Inc. All other trade names
referenced are the service marks, trademarks or registered trademarks of their respective companies.
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