DAQ6510 Data Acquisition
and Logging, Multimeter System
Datasheet
Key Features
• Large, 5-inch (12.7 cm) multi-touch capacitive
touchscreen with graphical display
• 2-year specified, full featured, traceable 6½-digit
multimeter with 0.0025% DCV (1 V, 10 V ranges)
basic accuracy
• Standard LAN/LXI and USB-TMC communication
interfaces
• Optional interfaces include GPIB, RS-232, and
TSP-Link® Technology
• 12 different switch, RF, and control modules to
connect to as many as 80 DUTs in one test setup
The DAQ6510 is a precision data acquisition and logging
system that creates a new level of simplicity compared with
the often complicated configuration and control found in many
stand-alone solutions. A large 5-inch (12.7 cm) multi-touch
display will guide users through set-up, data visualization,
and analysis, removing the necessity of a PC and custom
software for many applications. If you prefer or require a PC,
a complement of IVI and Labview drivers and the Keithley
KickStart Instrument Control Software are available to help
with any application.
Using Keithley’s newest 6½-digit multimeter technology,
you will find even greater accuracy, functionality, and speed.
Two-year accuracy specifications are included, so you can
be assured your critical measurements remain accurate and
fully traceable.
With 12 plug-in switching and control modules available
and two module slots, you can build a test system that can
measure or control up to 80 devices-under-test (DUTs) in a
multiplexing configuration. With two 6×8 matrix modules, a
total of 96 crosspoints, the DAQ6510 can test one or multiple
ICs. For high volume production testing, select a solid
state multiplexer module to maximize throughput with 800
channels/s scanning speed and minimize downtime compared
with fixed life, electro-mechanical relays. A number of modules
have cold junction compensation, temperature references
for thermocouple temperature monitoring of devices during
environmental testing, and HALT and HASS accelerated life
testing. Even switch signals from wireless devices with RF
modules having a maximum switching frequency of 3.5 GHz.
• Up to 80 2-pole channels of thermocouple, RTD, or
thermistor temperature measurements
• Scanning speeds as high as 800 channels/second
with the solid state relay module
• Front panel jacks for stand-alone DMM operation
• KickStart coding-free instrument control software with
a data acquisition and logging application
• Three-year warranty
Visualize, Execute, and Debug
Your Test Setup in Minutes
Build a test sequence and define the required
measurements from one setup screen. First, select the
channels that will be used. Next, assign a measurement
Datasheet
function to a channel or a group of channels. Then define both the time interval between measurements and scans if
multiple scans are required. That is the minimum set of parameters needed to run a test. There are additional optional
parameters to adjust the measurements and the switching to meet a specific application. One option eases the
identification of channels by allowing the creation of a name for each channel. Do all this from two menus and see – on one
screen – how each channel is configured. The touchscreen, graphic display shows the channel setup and the measurement
programmed for each channel.
To test channels during setup, manually close channels on the setup screen. The measurement on that channel is
displayed next to the closed channel. Thus, channel performance can be verified during set up or debugged if the
measurement is out of the expected range before the test is executed.
Maximize the Range of Tests with an Extensive Array of Plug-In
Switch Modules
Build a DAQ6510 test system with a selection of 12 plug-in switch modules with a wide range of functionality. Select from
high-density, 40-channel multiplexer modules, a 6×8 matrix module, and multiplexer modules with digital I/O and analog
output. Also select a control module and two RF modules with 2 GHz and 3.5 GHz bandwidths. Thus, the DAQ6510 with its
12 switch modules provides an extensive range of flexibility to build a wide range of data acquisition or test systems.
Channels can be configured for any DMM measurement.
For example, measure the temperature of devices in an
environmental chamber with thermocouples using the plug-in
switch modules that have automatic cold reference junction
compensation for thermocouple measurements. Measure up
to 80 devices with two switch modules. Also measure other
parameters in addition to temperature. The low frequency,
multiple pole switch modules can allow measurement of
voltage, 2-wire- and 4-wire resistance, and frequency. In
addition, two modules have current measurement channels.
Series 7700 Plug-in Switch Modules.
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DAQ6510 Data Acquisition and Logging, Multimeter System
DAQ6510 Touchscreen Display Front Panel
5-inch (12.7 cm) touchscreen allows
access to more setup, monitoring, and
analysis data
One button access
for easier navigation
Apps key for
quick access
to customized
programs
Front panel
inputs allow
you to use
the DAQ6510
as a digital
multimeter
Online HELP
is just a button
press away
Store test results
and screen images
quickly via the USB
2.0 Host Port
Lower swipe screen speeds up access
to often-used features such as function
selection, statistics, and plotting
Front/rear input selector pushbutton
with LED to easily identify position
DAQ6510 Rear Panel
User-installable communication accessory.
Provides connectivity options for GPIB, TSP-Link,
or RS-232 and each with 6 programmable
digital I/O ports
LAN / LXI
Interface
BNC input/output triggers
for external control and
synchronization
USB-TMC
Interface
Line power
inlet
Slots for 2 plug-in switch modules provide flexibility
for numerous switching and control configuration
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Datasheet
Test a Wide Range of Devices and Components with
6½-digit DMM High Performance Measurements
Make your measurements with instrument-grade quality. The DAQ6510 is a fully-featured 6½-digit DMM. The chart
below shows all of the DAQ6510’s 15 measurement functions and ranges. All these measurement functions can be
used with the various plug-in switch modules. Furthermore, a channel can be programmed for enhanced measurement
features to address requirements for tighter tolerance or higher speed.
For maximum accuracy, measurements can be filtered and integrated over a range of time intervals. Low resistance
readings can be improved with a thermal offset compensation measurement technique. The DAQ6510 excels in low
resistance measurement with 1 µΩ sensitivity.
For maximizing measurement speed, make measurements as short as 0.0005 power line cycles (PLCs) or 8.3 µs for
60 Hz power lines (10 µs for 50 Hz power lines). To analyze transient signals, use the DAQ6510’s digitizing function to
sample a voltage or current waveform at up to 1M sample/s.
DAQ6510 MEASUREMENT CAPABILITIES
Logarithmic Scale
DC Voltage
AC Voltage
DC Current
AC Current
Resistance (2-wire)
Resistance (4-wire)
Capacitance
Period
Frequency
Diode
1f
1p
1n
1µ
1m
1
100 nV
100 nV
1k
1M
1G
1010 V
750 VRMS
10.1 A
10.1 A
10 pA
100 pA
10 µΩ
1 µΩ
120 MΩ
120 MΩ
0.1 pF
120 µF
3.3 µs
333 ms
3 Hz
12 V
10 µV
300 kHz
(Selectable: 10 µA / 100 µA / 1 mA / 10 mA source)
Digitize Voltage
Digitize Current
10 µV
1010 V
10.1 A
10 nA
Linear Scale
Thermocouple –200°C
Thermistor
–80°C
2-, 3-, 4-Wire RTD –200°C
–500°
DAQ6510’s 15 measurement functions and ranges.
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1820°C
150°C
850°C
0°
500°
1000°
1500°
2000°
DAQ6510 Data Acquisition and Logging, Multimeter System
Monitor Any Temperature Range and
Select Optimal Accuracy Using a
Wide Range of Temperature Sensors
The DAQ6510 can process signals from any of eight
thermocouple types to test over an extreme range of
temperatures, –200°C to 1820°C. For more accurate
temperature readings over a more narrow temperature
range, the DAQ6510 can measure temperature from
–80°C to 150°C with a 2-year accuracy of 0.08°C using
2.5 kΩ, 5 kΩ, and 10 kΩ thermistors. Alternatively, the
DAQ6510 can measure temperature between –200°C
and 850°C using resistance temperature detectors
(RTDs) with 2-wire, 3-wire, and 4-wire configurations.
Using a 4-wire RTD, temperature can be measured with
with an excellent 2-year accuracy of 0.06°C.
The Series 7700 plug-in switch modules have multiple cold
junction compensation (CJC) circuits. The CJC circuits are
spaced around the module to ensure maximum accuracy
for all channels measuring thermocouples.
monitoring, and whether any measurements are out of
range. A quick view of the display can give an indication
of the status of the test at any time during the test. In
addition to an indication of measurements in an overflow
condition, limit settings can be programmed for any
channel. The Status screen will display an out-of-limit
indication when any channel’s measurement is outside
the channel’s limit settings.
Quickly and easily monitor the status of a test using the DAQ6510 scan
status screen.
Maintain an Automated Test while
Interacting with the Instrument
Need to perform a quick check to ensure there are no
problems with the measurements that the DAQ6510
is taking? Want to review the trend of the data? The
DAQ6510 can be operated from the front panel while
a test is in progress. Data can be viewed in a table or
displayed on a plot without interrupting an automated
scan sequence.
Use a pinch and zoom display feature for detailed study of test data.
Save Valuable Time with Continuous
Monitoring of Scan Test Status
Never lose time with a test in which a problem such as
a broken wire, a mis-wired connection, or a defective
DUT can invalidate days of data. Use the scan status,
swipe screen to continuously monitor channels. The
status screen shows the percentage of the test that has
been completed, the number of scans that have been
completed, measurements on channels selected for
Graphically view data during or at the end of a test. Display up to 20
channels on one plot.
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Datasheet
Never Lose Data and Test Time
Data can be stored to an external USB memory stick to prevent data loss in the event of interruption of line power.
The DAQ6510 also has an option to automatically restart scanning after a power interruption. If main power is lost,
the DAQ6510 will re-start the scan when the power is restored. The new data will be stored in a separate data buffer
with time-stamped measured data so that the lost time due to the power failure can be noted. Of most importance,
there is no lost test time due to the instrument sitting idle following a power outage.
Select how you want to store data in the Scan menu.
Choose to automatically restart a test after a power loss.
Save Test Time in Automated Test Systems
To maximize throughput and minimize total test time, use the reed relay or the solid state relay multiplexer module to
achieve scanning speeds up to 800 channels/s. Also save test time by reducing communication with the test controller.
The DAQ6510 has the built-in intelligence to execute a test script, make decisions, and control other instruments. The
DAQ6510 has Keithley’s Test Script Processor (TSP®) measurement and control language that the user can use to either
execute existing scripts or write custom scripts to run tests. TSP® scripting 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. Program statements control script execution and provide facilities such
as variables, functions, branching, and loop control. This allows you to create powerful measurement applications without
an integrated development environment (IDE). 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 test times.
DAQ6510 with
KTTI-TSP Option
2450 SourceMeter®
TSP® Script
TSP-Link®
2460 SourceMeter®
TSP-Link®
Conditional
branching
Calculations
Pass/Fail test
Prober/Handler
control
Datalogging/
Formatting
I/O Control
(Triggering/
Handler)
Device
Under Test
Use a TSP script and the TSP-Link interface to execute a test for instrument-to-instrument communication without interaction with a computer.
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DAQ6510 Data Acquisition and Logging, Multimeter System
TSP® technology also offers mainframe-less channel expansion.
The KTTI-TSP is a user installable accessory card offering
connectivity to TSP-Link technology. This channel expansion
bus allows connecting multiple DMM6510’s, other TSP-enabled
instruments, and any LAN-based instruments together to form a
tightly-synchronized instrument system. Connection is provided
with simple low cost Category 5 Ethernet cabling. The system
is organized in a master-subordinate configuration, essentially
allowing the connected instruments to act as one. Other Keithley
TSP-enabled instruments include the 2450, 2460, and 2461
Graphical SourceMeter® Source Measure Unit (SMU) Instruments,
Series 2600B SourceMeter® (SMU) Instruments, DMM7510,
DMM6500, and Series 3700A Switch/Multimeter systems. TSPLink technology supports up to 32 instruments, so it’s easy to
scale a system to fit the requirements of an application.
With the TSP-Link interface option, the KTTI-TSP, the DAQ6510
can control other Keithley TSP instruments or control any
instrument with a LAN interface. For example, the DAQ6510 can
send commands to a temperature chamber to operate at specific
temperatures and execute a scan when the chamber has reached
TSP scripting example.
the programmed temperatures. In fact, the DAQ6510 can execute an
automated sequence entirely without a PC thus saving test time and reducing the capital cost of the system. Using the TSP
language to create a script, the user can display messages for an operator in an automated or a semi-automated test system.
Data Logging Software Simplifies PC Control, Acquisition, and Analysis
KickStart allows you to configure, test, and collect data from multiple instruments, including DMMs, power supplies, SMU
instruments, and dataloggers. You can control up to eight instruments at the same time and retrieve millions of readings
from each instrument. This makes KickStart a great solution for your datalogging needs and for capturing lots of data from
transient events with a digitizing DMM.
Getting insights quickly is important, so KickStart plots your data immediately and dedicates a large portion of the viewing
area to the graph, while also allowing you to view and edit the most essential parameters of other instruments in your test
setup. Kickstart also includes comparison tools to allow you to plot and overlay data from the run history of each test.
KICKSTART DATA LOGGING APPLICATION
Use the datalogger application to set up, program, and control the DAQ6510. Within minutes, configure channels, set
measurement parameters such as limits and trigger sources, and view results in real time.
Datalogger setup screen.
Datalogger multi-channel plot display screen.
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Datasheet
Key KickStart features:
• Automate data collection from up to eight instruments
• Replicate tests quickly using saved test configurations
• Use statistical summaries and built-in plotting and comparison tools to
quickly discover measurement anomalies and trends
• Export data in ready-to-use formats for additional analysis or to share test updates with your colleagues
Application Programs Expand DAQ6510 Utility
Add customized applications to the DAQ6510 to enhance the
instrument’s capability.
The DAQ6510 includes factory-installed applications that:
• Allow creation of a modified display to show data from
multiple channels.
• Report plug-in module relay closure counts that enable
determination of when a plug-in module needs to
be replaced.
These examples highlight the unique ability of the DAQ6510 to
run specialized applications that customize the user interface.
This can significantly change the way information is displayed
or even automated while running a test.
Ready to Use Instrument Drivers Simplify Programming
Prefer to create your own customized application software? Native National Instruments Labview®, IVI-C, and IVI-COM
drivers are available for downloading to simplify the programming process. For the DAQ6510 Labview driver, please
visit www.ni.com; for IVI drivers please visit www.tek.com.
Wide Range of PC Interfaces
You can choose the interface that is most suitable for your needs. Two PC interfaces, LAN LXI and USB, on the DAQ6510
are standard. In addition, field-installable interface options include a GPIB interface, an RS-232 interface, and the Keithley
TSP-Link interface. All these options include six digital I/O ports for direct instrument-instrument synchronization
and communication.
KTTI-TSP TSP-Link interface with 6 digital I/O ports.
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KTTI-RS232 RS-232 interface with 6 digital I/O ports.
KTTI-GPIB GPIB interface with 6 digital I/O ports.
DAQ6510 Data Acquisition and Logging, Multimeter System
Use as a DMM for Test and
Troubleshooting
Reduce Test System Downtime
and Save on Lifetime Costs
The DAQ6510 has front panel input terminals that enable
use of the DAQ6510 as a 6½-digit DMM. When multiple
channel measurements are not needed, the DAQ6510
functions as a DMM. Use the DAQ6510 with its front panel
terminals to troubleshoot a test setup, a circuit, or to verify
the value of a component. Save bench space and cost
with an instrument that performs like a DMM and a data
logger. The dual functionality enables maximized utilization
of your instrument.
Unplanned system downtime results in loss of
productivity and delayed product shipments or loss of
valuable development time during product audit testing,
accelerated life testing, and environmental testing. To
avoid unplanned downtime, the DAQ6510’s plug-in
switch modules have counters for each relay that monitor
the number of relay contact closures. Thus, when relay
switch closures approach the manufacturers’ relay life
specification, the switch card module can be replaced
during scheduled maintenance.
With its fron panel connections, the DAQ6510 can be used as a
6½-digit DMM.
Many of the plug-in switch modules have multi-pin D-sub
connectors to ensure secure, minimal maintenance
connections in automated test environments. The D-sub
connectors minimize downtime when changing plug-in
switch modules during system maintenance or during the
setup of a new test system.
The DAQ6510 is specified for both 1-year and 2-year
accuracy specifications with little difference between
the 1-year and 2-year specifications. Thus, for most
applications, the calibration cycle for the DAQ6510 can
be two years. This will reduce the life cycle costs on your
DAQ6510 by half.
The DAQ6510 will save on unplanned system
downtime, minimize planned downtime, and save on
lifetime calibration costs making the DAQ6510 a highly
economical asset in any test system.
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Datasheet
Plug-In Module Selector Guide
Module Details
Model Number
Description
No. Analog
Inputs
Configuration
Connector
Type
Max. Voltage
Max. Switched
Current
7700
7701
20 Channel,
32 Ch.
Differential Differential
Multiplexer Multiplexer
Module
Module
7702
7703
7705
7706
32 Ch. High
40 Ch.
40 Ch.
Speed,
Differential
Single-pole All-in-One
Differential
Multiplexer
Control
I/O Module.
Multiplexer
Module
Module
Module.
7707
7708
7709
32 Ch.
Digital I/O
Module
40 Ch.
Differential
Multiplexer
Module
6×8 Matrix
Module.
7710
7711
20 Ch.
Solid-state
2 GHz 50 Ω RF
Differential
Module
Multiplexer
Module
7712
3.5 GHz 50 Ω
RF Module
20
32
40
32
40
20
10
40
48
20
8
8
Multiplexer
w/CJC
Multiplexer
Multiplexer
Multiplexer
Indepen
dent SPST
Multiplexer
w/CJC
Digital I/O/
Multiplexer
Multiplexer
w/CJC
Matrix
Multiplexer
w/CJC
Multiplexer
Multiplexer
1×20 or
two 1×10
1×32 or
two 1×16
1×40 or
two 1×20
1×32 or
two 1×16
1×20 or two
1×10
1×10 or
two 1×5
1×40 or
two 1×20
6×8
1×20 or
two 1×10
Dual 1×4
Dual 1×4
Oversized
screw
terminal
50 pin
female
D-sub
and 25
pin female
D-sub
Oversized
screw
terminal
Two 50
pin female
D-sub
Two 50
pin female
D-sub
Screw
terminal
50 pin
male D-sub
and 25
pin female
D-sub
Oversized
screw
terminal
50 pin
female
D-sub
and 25
pin female
D-sub
Quick
disconnect
screw
terminal
SMA
SMA
300 V
150 V
300 V
300 V
300 V
300 V
300 V
300 V
300 V
60 V
60 V
42 V
1A
1A
1A
500 mA
2A
1A
1A
1A
1A
0.1 A
0.5 A
0.5 A
3.5 GHz
50 MHz
2 MHz
2 MHz
2 MHz
10 MHz
2 MHz
2 MHz
2 MHz
2 MHz
2 MHz
2 GHz
Contact Life 1
108
108
108
108
108
108
108
108
108
1010
106
106
Switch Speed
3 ms
3 ms
3 ms
1 ms
3 ms
3 ms
3 ms
3 ms
3 ms
0.5 ms
10 ms
10 ms
32 digital
I/O. Max.
power =
125 VA
Max. power
= 125 VA
Insertion loss
10 GΩ or 10 MΩ ±1% 0.0010 + 0.0004
0.0020 + 0.0005
0.0025 + 0.0005
0.0030 + 0.0005 0.0001 + 0.0001
100 V
100 μV
10 MΩ ±1%
0.0015 + 0.0006
0.0035 + 0.0006
0.0040 + 0.0006
0.0050 + 0.0006 0.0006 + 0.0001
1000 V 1
1 mV
10 MΩ ±1%
0.0020 + 0.0006
0.0035 + 0.0006
0.0040 + 0.0006
0.0050 + 0.0006 0.0006 + 0.0001
Measurement Noise Characteristics and Rejection Ratios
Measurement Rate
in NPLCs
5
Digits
DCV RMS Noise Uncertainty
(in % of range + fixed base) 2
NMRR 3
CMRR 3
0
100 dB
140 dB
0
60 dB
140 dB
0
90 dB
140 dB
4
5
14
6.5
1
0
60 dB
140 dB
0.1 4
0.00015 + 1 µV
40 dB
120 dB
0.1
0.00015 + 4 µV
—
120 dB
0.01
0.0005
5.5
4.5
0.00030 + 6 µV
—
80 dB
0.00500 + 40 µV
—
80 dB
DC Voltage Characteristics
Overrange
20% on 100 mV, 1 V, 10 V, and 100 V ranges. 1% on 1000 V range.
ADC Linearity (10 V range)
0.0001% of 10 V range
Input Impedance
100 mV to 10 V Ranges: Selectable, >10 GΩ or 10 MΩ ±1%)in parallel with 600° to 850°C
0.12
0.003
Thermistor Accuracy ±°C
Types: 2.2 kΩ, 5 kΩ, and 10 kΩ
Measurement
Method
Resolution
Range
2 Year Accuracy
TCAL ±5°C
Temperature Coefficient
in°C/°C
2-wire
0.01°C
–80° to 150°C
0.08
0.002
For readings >70°C, add this additional uncertainty per Ω of lead, channel, and contact resistance
Thermistor Type
Common Model Number
70° to 100°C
2.2 kΩ
44004
0.22°C per Ω
>100° to 150°C
1.11°C per Ω
5 kΩ
44007
0.10°C per Ω
0.46°C per Ω
10 kΩ
44006
0.04°C per Ω
0.19°C per Ω
Notes
17. Accuracy excludes probe errors.
18. Specifications do not include errors that may arise from user’s cable or terminal resistance.
19. 3-wire RTD accuracy is for 130 kΩ; default on.
Earth Isolation
500 VPEAK > 0 GΩ and 70 dB, for 1 kΩ unbalance in LO lead
Detector Bandwidth
Setting of 3 Hz, 30 Hz, or 300 Hz sets maximum measurement aperture of 200 ms, 20 ms, or 2 ms,
respectively; only signals with frequency greater than the detector bandwidth are measured.
Input Impedance
1.1 MΩ ±2%, in parallel with 5% of range.
21. Guaranteed by design.
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Module
Maximum Input Signal Level
7700, 7702, 7703, 7706, 7707, 7708, 7709
300 VRMS / 425 VPEAK
7701
150 VRMS / 212 VPEAK
7710
42 VRMS / 60 VPEAK
DAQ6510 Data Acquisition and Logging, Multimeter System
AC Current
AC Current Accuracy ± (% of reading + % of range) 22
Range
Resolution
Burden
Voltage
100 µA 23
100 pA
5 kHz – 10 kHz 24
AC Current Characteristics
Overrange
20% on 100 µA, 1 mA, 10 mA, 100 mA, and 1 A ranges
1% on 3 A range
AC Measurement Type
AC-coupled true RMS; measures the AC component of the input
Digital sampling with anti-alias filter.
Input Protection
See DC Current Characteristics
Crest Factor
27
(excludes sine wave) 10:1 maximum crest factor (1.75:1 at full-scale)
Autorange selects optimum range for crest factor up to 10:1
Accuracy specifications apply to all crest factors less than 5 and are limited to the product of
(crest factor) × (fundamental frequency) ≤ 200 Hz
ACI Frequency
Frequency readings are automatically returned in the reading buffer when in full buffer mode.
Frequency values are typical.
Nominal Shunt Resistance 28
100 μA
1 mA
10 mA
100 mA
1A
3A
1 kΩ
100 Ω
10 Ω
1Ω
100 mΩ
100 mΩ
Notes
22. Specifications are for sine wave inputs > 5% of range and > 10 µARMS.
23. The 100 µA range is only specified for front-panel inputs.
24. Typical performance for the indicated frequency ranges.
25. Add 1.5 V for the 1 A and 3 A ranges when used with a plug-in module.
26. For signals of < 5 Hz, add 0.2% of reading uncertainty.
27. 100 µA range is specified only for crest factors < 3.
28. Guaranteed by design.
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Datasheet
Frequency and Period
Frequency and Period Accuracy ± (% of reading) 29
Range
100 mV to 750 V
(For signals >5% of range
and >10 mVRMS)
Resolution
0.0001% ppm
of reading
Frequency
Period
2 Year Accuracy
TCAL ±5°C
Temperature
Coefficient in°C/°C
3 Hz to 10 Hz
333 ms to 100 ms
0.100
0.0002
>10 Hz to 100 Hz
100 Hz to 1 kHz
1 kHz to 300 kHz
10 GΩ or 10 MΩ ±1%
0.040 + 0.020
0.0025 + 0.0030
1V
100 µV
>10 GΩ or 10 MΩ ±1%
0.030 + 0.010
0.0025 + 0.0010
10 V
1 mV
>10 GΩ or 10 MΩ ±1%
0.030 + 0.010
0.0025 + 0.0010
100 V
10 mV
10 MΩ ±1%
0.030 + 0.010
0.0025 + 0.0010
1000 V
100 mV
10 MΩ ±1%
0.030 + 0.010
0.0025 + 0.0010
Digitize DC Current Accuracy ±(% of reading + % of range) 36
Range
Resolution
Burden Voltage
2 Year Accuracy
TCAL ±5°C
Temperature Coefficient
100 µA
10 nA
900 with 7710 plug-in module
Scanning 4-wire Ω and 3- or 4-wire RTD
>80 with 7700 plug-in module
>300 with 7703 plug-in module
>400 with 7710 plug-in module
Scanning ACV 45
>60 with 7700 plug-in module
>170 with 7703 plug-in module
>220 with 7710 plug-in module
Scanning Alternating DCV and 2-wire Ω
>90 with 7700 plug-in module
>430 with 7703 plug-in module
>430 with 7710 plug-in module
DIGITAL I/O READ/WRITE, TOTALIZER READ SPEED
Read Digital Input
7707 plug-in module > 200
Write Digital Output
7706 plug-in module > 1400
7707 plug-in module > 500
Read Totalizer
7706 plug-in module > 100
Notes
41. Reading speeds for autozero off, fixed range, autodelay off, offset compensation off, and open lead detector off where applicable.
42. Buffer measurements: For