Keysight N8738A User Manual

Power Products Solutions

A guide to selecting power products to match your test and
measurement needs.

SELECTION GUIDE

November 2021

Introduction

Power your next insight -

Today, your products are changing the way we all work and play — wearables, electric vehicles,
and beyond. For more than 50 years, Keysight system and benchtop DC power supplies have
been changing the way engineers prove their design, understand the issues and ensure product
quality. On a bench or in a system, our supplies are ready for your application, offering optimal
choices in voltage, current, capability and performance. Test with confidence with Keysight —
and power your next insight.

Find us at www.keysight.com

Page 2

PathWave BenchVue Software: Control. Automate. Simplify.

Keysight PathWave BenchVue software for the PC eliminates many of the issues around
bench testing. By making it simple to connect, control instruments, and automate test
sequences, you can quickly move past the test development phase and access results
faster than ever before. Dedicated instrument apps allow you to quickly configure the
most commonly used measurements and setups for each instrument family. Rapidly build
custom test sequences with the integrated Test Flow app to automate and visualize test
results without the need for instrument programming. Powerful BenchVue apps enable
you to significantly reduce test development time.

Use PathWave BenchVue apps to:

– Configure the most commonly used controls and measurements from your Keysight

instruments
– Visualize multiple measurements simultaneously
– Easily log and export data and screen images in just a few clicks for faster analysis
– Quickly create automated test sequences with minimal instrument knowledge
– Access deeper instrument controls and measurement solutions
– Save time with software that offers multiple instrument apps in one platform

PathWave BenchVue sof tware works with hundreds of Keysight digital multimeters,
power supplies, function/waveform generators, spectrum analyzers, data acquisition
units, network analyzers, oscilloscopes, power meters, power sensors, electronic loads,
universal counters and more — look for the BenchVue enabled icon for compatible
products.

Star t accelerating your workflow today and download a 30-day trial version at

www.keysight.com/find/BenchVue

Look For This Icon

throughout the catalog to identify PathWave BenchVue software enabled products.

Find us at www.keysight.com

Page 3

Specific PathWave BenchVue software for power products

Software products Model number Key features Link

PathWave BenchVue
Power Supply App

PathWave BenchVue
Electronic Load App

PathWave BenchVue
Advanced Power Control
and Analysis – Single
Instrument Connection

PathWave BenchVue
Advanced Power Control
and Analysis for Multiple
Instrument Connections

PathWave BenchVue
Advanced Battery Test
And Emulation Software
for a Single Instrument

PathWave BenchVue
Advanced Battery Test
And Emulation Software
for Multiple Instruments

BV0003B Easily set parameters, build automated tests, and

visualize power output and voltage/current over
time.

BV0012B Easily set parameters, build automated tests, and

visualize power output and voltage/current over
time for better device characterization.

BV 9 2 0 1B Take full advantage of capabilities built-in to your

advance power supply. Characterize voltage and
current usage, even generate power arbitrary
waveforms. Supported N6705C, N7900 and
RP7900 series.

BV9200B Take full advantage of capabilities built-in to your

advance power supply. Characterize voltage and
current usage, even generate power arbitrary
waveforms. Control and analyze voltage and current
measurements from multiple N6705C, N7900 or
RP7900 Series.

BV 9211B Achieve higher accuracy, repeatability, and safety

with an emulation based on a unique battery model.
Your model will allow you to determine your device’s
power consumption, emulate an actual battery, and
import existing battery models.

BV9210B Achieve higher accuracy, repeatability, and safety

with an emulation based on a unique battery model.
Your model will allow you to determine your device’s
power consumption, emulate an actual battery, and
import existing battery models.

https://www.keysight.com/my/en/product/
BV0003B/pathwave-benchvue-power-supply-app.
html
https://www.keysight.com/my/en/product/
BV0012B/pathwave-benchvue-electronic-load­app.html
https://www.keysight.com/my/en/product/
BV9201B/benchvue-advanced-power-control­analysis-single-instrument-connection.html

https://www.keysight.com/my/en/product/
BV9200B/benchvue-advanced-power-control­analysis-for-multiple-instrument-connections.html

https://www.keysight.com/my/en/product/
BV9211B/advanced-battery-test-and-emulation­software-for-a-single-instrument.html

https://www.keysight.com/my/en/product/
BV9210B/advanced-battery-test-and-emulation­software-for-multiple-instru.html

Find us at www.keysight.com

Page 4

In This Guide:

Power Supply Categories / 6

Selecting the Right System and Benchtop DC Power Supply For Your Application / 7 - 10

DC Voltage and Current At a Glance / 11 - 12

DC Power Supply Details /13 - 20

– E36300, E36100, E3600 and U8000 Series Bench Power Supplies / 13
– E36100B Series Bench Power Supplies / 13
– N5700 and N8700 Series ATE System DC Power Supplies / 14
– N8900 Series Autoranging System DC Power Supplies / 15

– NEW EDU36311A Smart Bench Essentials DC Power Supply / 16

– B2960 Series 6.5 Digit Low Noise Source Power Supplies / 17
– N6900 and N7900 Advanced Power System (APS) / 18
– N6700 Low-Profile Modular Power System / 19
– N6705C DC Power Analyzer / 20

DC Electronic Load Details / 21 - 22

– N6790 Series DC Electronic Loads / 21

– NEW EL30000 Series Electronic Loads / 22

– N3300 Series DC Electronic Loads / 23

AC Power Sources / 24 - 25

– AC6800B Series Basic AC Power Sources / 24
– 6800C Series Performance AC Power Sources/Analyzers / 24

– NEW AC6900 Series Three-Phase AC Power Sources / 25

Application-Specific Power Products / 26 - 38

– RP7900 Series Regenerative Power System / 26
– N6780 Series Source Measure Units (SMUs) / 27
– B2900A Series Precision Source/Measure Units (SMU) / 28
– U2720 USB Modular Source Measure Units / 29
– E5260A/E5270B Precision IV Analyzer/Source Monitor Unit Mainframe Series / 30
– B1500A Semiconductor Device Analyzer / 31
– B1505A Power Device Analyzer/Curve Tracer / 32
– B1506A Power Device Analyzer for Circuit Design / 33
– N6783A Application-Specific Modules / 34
– 66300 Mobile Communications DC Sources / 35

– NEW PV8900 Series Photovoltaic Array Simulator / 36

– E4360 Modular Solar Array Simulators / 37
– PA2201A and PA2203A IntegraVision Power Analyzers / 39
– CX3300A Series Device Current Waveform Analyzers / 39

DC Power Supply Discontinuance and Replacement Products / 40 - 42

– 6600 Series High-Performance DC Power Supplies / 40
– 66000 Modular Power System / 42

Find us at www.keysight.com

Page 5

Power Supply Categories

Basic

Affordable, quiet and stable power supplies for both manual and simple computer­controlled operation. The Keysight line of basic bench power supplies is optimized to
provide DC power in applications where speed and accuracy are a low consideration.
These power supplies are a high-value fit for the bench and in a system rack.

Performance

E36340 DC power supply

N6705C DC power analyzer

6811C AC power source/analyzer

Speed, precision and advanced programming features make the performance power
supplies the right choice when the DC power supply is a factor in test performance.
With features such as DUT protection, fast programming times and downloadable
V and I sequences, these DC power supplies can reduce your risk during test and
system development.

Specialty

Sometimes it is best to have a power supply with unique capabilities that are tailored to a
specific application. For example, the Keysight 66300 Mobile Communications DC Sources
are designed to emulate the unique characteristics of a battery for mobile device testing
and maintain those characteristics even when using long load leads, such as in an ATE
system. The Keysight E4360 Solar Array Simulator simulates solar panel I-V characteristics
for satellite development and testing.

Modular

Keysight offers fully programmable power supplies in a modular format: the N6700 low­profile modular power system, N6705C DC power analyzer, and 66000 modular power
system series. With this feature, you now have an extensive choice of power options—from
basic through performance. Additionally, all modules interact in the same way at a single
interface node, which simplifies system architecture and reduces cost when the test
system inevitably changes.

AC sources

DC electronic load mainframe

N6790 Series DC Electronic Loads

Find us at www.keysight.com

Keysight provides a full line of basic and performance AC sources to help you test a variety
of AC-powered devices. Basic sources provide reliable power while performance sources
provide advanced measurements and waveform generation.

DC electronic loads

Electronic loads sink current and dissipate power in an accurate and controlled manner.
Connected to circuit under test, an electronic load provides a convenient way to vary the
load on the circuit’s output in order to understand the circuit’s performance.

Keysight of fers two families of electronic loads, the N3300 family which is a modular,
multiple output family; and the new N6790 Series DC Electronic Load. The N6790A
Series is available in the N6700C, N6701C, N6702C low profile modular mainframe
system and the N6705C DC Power Analyzer mainframe for bench use.

Page 6

Selecting the Right System and Benchtop DC Power Supply For Your Application

We have designed the selection guide to make easy to pick the correct power supply based on your requirements. If your selection is
driven by voltage and current requirements, please visit the tables found on pages 11 and 12. From there you can go to the product
page(s) for more detail.

When you have specialized requirements that need features such as source and measure, it is quite easy to select from a set of power
supplies that are designed exactly for those requirements. Refer to page 23 for specialty power products.

But when you have more complex requirements and you know the power supply is an important part of your test bench, where do you
start and what do you need to consider?

Of course you need to select the right voltage and current, but there are other factors to consider when selecting a benchtop DC power
supply for your applications. This guide gives a definition of the feature, states why it’s important, and tells you how to use that feature
when specifying the right power supply. In addition, the product families are listed so you can quickly see which product best fits your
application. With that information, you can go to the product pages for detailed specifications.

Use the following information to help select the features you need in a DC power supply.
Then go to the product page(s) for more detail.

Output characteristics

Ripple and noise

Use the ripple and noise specification
to determine what, if any, affects these
variations will have on your circuit or
device.

Programming accuracy

Use programming accuracy to
determine if the power supply can
produce a voltage and current within
the precision needed by your device.

Ideally, an output is free from any
variations in voltage. In practice, there
are periodic variations, called ripple,
and random variations, called noise.
Typically specified as either Vrms or
Vp-p, the most useful spec is Vp-p.
With Vp-p you will know the maximum
variation away from the DC setpoint.

Programming accuracy is a measure
of how closely the output will be to
the setpoint. Specified as a percent
of output plus an offset, you can
calculate whether or not the power
supply has the precision required. In
addition, many power supplies have
built-in voltmeters and ammeters to
measure its output.

Ripple and noise
< 10 mVp-p

66309B-32A
B2 9 6 1B- 62B
E3600 Series
E36300 Series
N6751A-66A
N6781A-84A
N6900 Series
N7900 Series
U8031A-32A

Accuracy < 0.03% Accuracy > 0.05%

B2 9 6 1B- 62B
E36300 Series
N6751A-66A
N6781A-82A
N6784A-86A
N6900 Series
N7900 Series

p35
p17
p13
p13
p19
p27
p18
p18
p13

p17
p13
p19
p27
p35
p18
p18

Ripple and noise
10 to 500 mVp-p

E36100 Series
N5700 Series
N6731B-46B
N6773A-77A
N6785A-86A
N8700 Series
N8900 Series
RP7900 Series
U8001A-02A

E3600 Series
E36100 Series
N5700 Series
N6731B-46B
N6773A-77A
N6783A
N8700 Series
N8900 Series
RP7900 Series
U8000 Series

p13
p14
p19
p19
p35
p14
p15
p26
p13

p13
p13
p14
p19
p19
p35
p15
p15
p26
p13

Find us at www.keysight.com

Page 7

Selecting the Right System and Benchtop DC Power Supply For Your Application
(Continued)

Output characteristics (Continued)

Output response

Use this specification to select the
power supply that is fast enough for
your application.

Control

Computer interface

Specify power supplies with the
appropriate hardware and software
interface for computer control.

When the setpoint changes it will take
some time before the output reaches
the setting. How fast it reaches the
setpoint is a result of its regulation
design and the output bandwidth.
The specifications are typically for a
voltage change from 10 to 90% of its
rated output or a load change of 50 to
100 %.

Many DC power supplies have both
manual and computer control.
Some are only manually controlled.
Hardware interfaces for DC power
supplies include GPIB, USB, and LAN
(LXI Core). Software interfaces include
the SCPI language and drivers such as
IVI-C, IVI-COM, and VXI plug&play.

FAST
output response
< 15 ms

66300 Series
B2 9 6 1B- 62B
N6751A-66A
N6781A-86A
N6900 Series
N7900 Series

Manual only Computer and manual

E3620A-30A
U8000 Series

p35
p17
p19
p27
p18
p18

p13
p13

MEDIUM
output response
< 200 ms

E36100 Series
E36300 Series
N5700 Series
N6731B-46B
N6773A-77A
N8700 Series
N8900 Series
RP7900 Series
U8001A-02A

control

All others

p13
p13
p14
p19
p19
p14
p15
p25
p13

Analog voltage control signal

Specify a power supply with an analog
input whenever you need to amplify
the power or need to track an analog
voltage.

Output measurements

Measure V & I output

Specify power supplies with built-in
measurements whenever you need to
check the actual voltage and current.

Some power supplies provide an
analog voltage control input to cause
the voltage output to follow this input.
Essentially, it amplifies the power
since the power supply can provide
current up to its rated maximum.

Many power supplies have a built in
voltmeter and ammeter to read back
their own output. The measurements
can be displayed on the front panel or
queried by a computer connected to
the interface. These measurements
are particularly useful in computer­controlled systems. Measurement (or
read back) accuracy is specified as a
percent of full scale plus an offset.

WITH
analog input

N5700 Series
N8700 Series
N8900 Series

p14
p14
p15

WITHOUT
analog input

All others

Built-in measurement

All others

Find us at www.keysight.com

Page 8

Selecting the Right System and Benchtop DC Power Supply For Your Application
(Continued)

Packaging

Physical size

Use the size specification to match
bench or system use.

Front or rear output terminals

Select the model with its output
terminals in the best location for your
application on either the bench or in
a system rack.

Number of outputs

Specify multiple outputs per unit
when you need to save space on the
bench or in a system rack.

Keysight power supplies have standard
EIA 19-inch rack dimensions. The width
is either half rack width or full rack
width while the height ranges from 1U
to 5U (1.75 to 8.57 in). While any size
can be used on the bench or in a system
rack, the half rack width is generally
better for bench applications while the
full rack width works well in system
racks. Of special note is the 1U height of
the N5700 and N6700 Series.

The output terminals can be located
on the front of the power supply or the
rear. System and high-current power
supplies have their outputs located
on the rear panel while bench and
some low current power supplies have
outputs on the front.

Keysight power supplies are configured
with 1 to 8 outputs per unit. Multiple
output power supplies can save space
on the bench or in a rack. Of special
note are the 66000 and N6700 modular
mainframes that can hold up to 8 and 4
modules respectively.

QUARTER
rack

E36100 Series p13 B2 9 6 1B- 62B

FRONT
terminals

B2 9 6 1B- 62B
E3620A-30A
E36100 Series
N6705C
U8000 Series

SINGLE
outputs

All others B2 9 6 1B- 62B

p17
p13
p13
p20
p13

HALF
rack

E3600 Series
E36300 Series
U8000 Series

REAR
terminals

All others

MULTIPLE
outputs

E3620-31A
E3646A-49A
E36300 Series
E4360 mfg
N6700 mfr
N6705C
U8031A-32A

p17
p13
p13
p13

p17
p13
p13
p13
p36
p19
p20
p13

FULL
rack

All others

Find us at www.keysight.com

mfr = mainframes for the E4360, N6700, N6707C, N6705C and
66000 modular power supplies

Page 9

Selecting the Right System and Benchtop DC Power Supply For Your Application
(Continued)

Specialty

DUT protection

Select power supplies with DUT
protection whenever your load may
be damaged by over voltage or over
current.

Computer Interface

Specify power supplies with the
appropriate hardware and software
interface for computer control.

Output disconnect or polarity
reversal

Select power supplies with optional
output relays when your application
requires power to be physically
disconnected from the device.

Many power supplies can be set for
a maximum voltage and current to
protect the device under test (DUT).
When set, the power supply will limit
the voltage and/or current regardless
of the load. This feature provides a
margin of safety when something goes
wrong.

Many DC power supplies have both
manual and computer control.
Some are only manually controlled.
Hardware interfaces for DC power
supplies include GPIB, USB, and LAN
(LXI Core). Software interfaces include
the SCPI language and drivers such as
IVI-C, IVI-COM, and VXI plug&play.

Automatic connect, disconnect, and
polarity reversal can be accomplished
with programmable output relays. By
doing so, you will eliminate an external
relay and have an easy method to
programmatically actuate the relay.

WITH DUT
protection

All others E3620A-31A p13

WITH LIST
memory

B2 9 6 1B- 62B
E4360 Series
N6700 Series
N6705C
N6900 Series
N7900 Series
RP7900 Series

WITH
optional relays

66300 Series
N6700 Series
N7900 Series

p17
p37
p19
p20
p18
p18
p26

p35
p19
p18

WITHOUT DUT
protection

WITHOUT LIST
memory

All others

WITHOUT
optional relays

All others

Find us at www.keysight.com

Page 10

DC Voltage and Current At a Glance

Voltage ranges: 5 to 40 V

Model numbers Page Outputs 5 to 9 V 12 to 20 V 21 to 40 V

66309B-32A 35 1 to 2 0 to 15 V, 3 A (all 663xx)
E36102B- 06B 13 1 0 to 6 V, 5 A (E36102B) 0 to 20 V, 2 A (E36103B) 0 to 35 V, 1A (E36104B)
E3620A 13 2 0 to 25 V, 1 A (E3620A x2)
E36311A-13A 13 3 0 to 6 V, 5 A (E36311A-12A)

0 to 6 V, 10 A (E36313A)

E3630A-31A 13 3 0 to 6 V, 2.5 (E3630A x1)

0 to ± 20 V, 0.5 A (E3630A x2) 0 to ± 25 V, 1 A (E3631A x2)

0 to 6 V, 5 A (E3631A x1)

E3632A-34A

2

13 1 0 to 8 V, 20 A (E3633A r1) 0 to 15 V, 7 A (E3632A r1)

0 to 20 V, 10 A (E3633A r2)

E3640A-45A

E3646A-49A

N5741A-52 A 14 1 0 to 6 V, 100 A (N5741A)

N5761A-72A 14 1 0 to 6 V, 180 A (N5761A)

N6731B-36B 19 1 to 4 10 to 5 V, 10 A (N6731B)

2

2

13 1 0 to 8 V, 3 A (E3640A r1)

0 to 8 V, 5 A (E3642A r1)
0 to 8 V, 8 A (E3644A r1)

13 2 0 to 8 V, 3 A (E3646A r1)

0 to 8 V, 5 A (E3648A r1)

0 to 20 V, 1.5 A (E3640A r2)
0 to 20 V, 2.5 A (E3642A r2)
0 to 20 V, 4 A (E3644A r2)

0 to 20 V, 1.5 A (E3646A r2)
0 to 20 V, 2.5 A (E3648A r2)

0 to 12.5 V, 60 A (N5743A)

0 to 8 V, 90 A (N5742A)

0 to 20 V, 38 A (N5744A)
0 to 12.5 V, 120 A (N5763A)

0 to 8 V, 165 A (N5762A)

0 to 20 V, 76 A (N5764A)
0 to 20 V, 2.5 A (N6733B) 0 to 35 V, 1.5 A (N6734B)

0 to 8 V, 6.25 A (N6732B)

N6 741B - 4 6B 19 1 to 4 10 to 5 V, 20 A (N6741B)

0 to 20 V, 5 A (N6743B) 0 to 35 V, 3 A (N6744B)

0 to 8 V, 12.5 A (N6742B)

N6751A-52A

19 1 to 4

1

0 to 20 V, 15 A (N6773A) 0 to 35 V, 8.5 A (N6774A)
N6761A-62A
N6773A-77A

N6753A-56A
N6763A-66A

19 2

1

0 to 20 V, 50 A (N6753A)

0 to 20 V, 50 A (N6755A)

0 to 20 V, 50 A (N6763A)

0 to 20 V, 50 A (N6765A)
N6781A-86A 26 1 to 4 10 to 6 V, +3 to-2 A

(N6783A-MFG)
0 to 8 V, +3 to-2 A

0 to 20 V, ± 3 A (N6781A-82A)

0 to ±20 V, ± 3 A (N6784A)

0 to 20V, ± 8 A (N6785-86A)

(N6783A-BAT)

N6950A-52A, N6970A-72A
N7950A-52A, N7970A-72A181811

0 to 9 V, 100 A (N69/N7950A)
0 to 9 V, 200 A (N69/N7970A)

0 to 20 V, 50 A (N69/N7951A)

0 to 20 V, 100 A (N69/N7971A)
N8731A-42A 14 1 0 to 8 V, 400 A (N8771A) 0 to 10 V, 300 A (N8732A)

0 to 15 V, 220 A (N8733A)

0 to 20 V, 165 A (N8734A)
N8754A-62A 14 1 0 to 20 V, 250 A (N8754A) 0 to 30 V, 170 A (N8755A)

RP7931A-36A 26 21 0-20 V, ± 400 A (RP7931A/41A)
RP7941A- 4 6 A 26 21 0-20 V, ± 800 A (RP7933A/43A)
U8001A 13 1 0 to 30 V, 3 A
U8002A 13 1 0 to 30 V, 5 A
U8031A 13 3 0 to 30 V, 6 A (Output 1 and 2); 5 V,

B150 0A 31 1 to 10 350 to 80 V: 0 to ± 200 V, ± 0.1

A to ± 1 A

100 to 210 A: 0 to ± 200 V,

± 0.1 A to ± 1 A
B2901A/02A/11A/12A 28 1 to 2 0 to ± 210 V, ± 0.105 A to ± 3 A 0 to ± 210 V, ± 0.105 A to ± 3 A
B2 9 0 1BL 28 1 0 to 21 V, 0 to ±1.5 A
B2910BL 28 1 0 to ±210 V, 0 to ±1.5 A 0 to ±210 V, 0 to ±1.5 A
B2901B/02B/11B/12B 28 1 to 2 0 to ±210 V, 0 to ±3 A 0 to ±210 V, 0 to ±3 A

0 to ± 25 V, 1 A (E36311A x 2)
0 to 25 V, 1 A (E36312A x 2)
0 to 25 V, 2 A (E36313A x 2)

0 to 30 V, 4 A (E3632A r2)
0 to 25 V, 7 A (E3634A r1)

0 to 35 V, 0.8 A (E3641A r1)
0 to 35 V,1.4 A (E3643A r1)
0 to 35 V, 2.2 A (E3645A r1)

0 to 35 V, 0.8 A (E3647A r1)
0 to 35 V, 1.4 A (E3649A r1)

0 to 30 V, 25 A (N5745A)
0 to 40 V, 19 A (N5746A)

0 to 30 V, 50 A (N5765A)
0 to 40 V, 38 A (N5766A)

0 to 40 V, 25 A (N69/N7952A)
0 to 40 V, 50 A (N69/N7972A)

0 to 30 V, 110 A (N8735A)
0 to 40 V, 85 A (N8736A)

0 to 40 V, 125 A (N8756A)

3 A (Output 3)

1. Power modules that require a modular mainframe (66000 Series, N670 0 Series, N6705).

2. Dual range power supplies; r1 denotes range 1; r2 denotes range 2.

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Page 11

DC Voltage and Current At a Glance (Continued)

Voltage ranges: 50 to 1500 V

Model numbers Page Outputs 30 to 80 V 100 to 210 V 1500 to 2000 V

EDU36311A 16 3 0 - 6 V, 5 A 0 - 30 V, 1 A 0 - 30 V, 1 A
B2 9 61B-62B 17 1 to 2 0 to ±210 V, 0 to ±3 A 0 to ±210 V, 0 to ±3 A
B29 61A-62A 17 1 to 2 0 to ± 210 V, ± 0.105 A to ± 3 A 0 to ± 210 V, ± 0.105 A to ± 3 A
E36102B-06B 13 1 0 to 60 V, 0.6A (E36105B) 0 to 100 V, 0.4 A (E36106B)
E3632A-34A
E3640A-45A

E3646A-49A

E4361A-62A 37 1 to 2 10 to 65 V, 8.5 A (E4361A) 0 to 130 V, 5 A (E4362A)
E5260/70 30 1 to 8 150 to 80V: 0 to ± 200 V, ± 0.1 A

E5262/63 30 2 50 to 80 V 0 to ± 200 V, ± 0.2 A (E5262A); 0 to ± 200 V, ± 0.2 A to ± 1 A (E5263A)

N5741A -52A 14 1 0 to 60 V, 12.5 A (N5747A)

N576 1A-72A 14 1 0 to 60 V, 25 A (N5767A)

N6731B-36B 19 1 to 4 10 to 60 V, 0.8 A (N6735B) 0 to 100 V, 0.5 A (N6736B)
N6 741B - 4 6B 19 1 to 4 10 to 60 V, 1.6 A (N6745B) 0 to 100 V, 1 A (N6746B)
N6751A-52 A

N6761A-62A
N6773A-77A

N6753A-56A
N6763A-66A

N6953A-54A
N6 973A-77A
N7953A-54A
N7973A-7 7A

N8731A-42A 14 1 0 to 60 V, 55 A (N8737A)

N8754-62A 14 1 0 to 60 V, 85 A (N8757A)

N8 920 A-57A
N8 937A P V/57APV

RP7931A-36A
RP7941A-46A
RP7951A-53A
RP7961A-63A
RP7951A-53A
RP7961A-63A

RP7972A
RP7982A
RP7983ARP7985A

U8032A 13 3 0 to 60 V, 3 A (Output 1 and 2);

1. Power modules that require a modular mainframe (66000 Series, N670 0 Series, N6705).

2. Dual range power supplies; r1 denotes range 1; r2 denotes range 2.

3. Maximum number of modules depends on the configuration.

2

2

13 1 0 to 50 V, 4 A (E3634A r2)
13 1 0 to 60 V, 0.5 A (E3641A r2)

0 to 60 V, 0.8 A (E3643A r2)
0 to 60 V, 1.3 A (E3645A r2)

2

13 2 0 to 60 V, 0.5 A (E3647A r2)

0 to 60 V, 0.8 A (E3649A r2)

100 to 210 A: 0 to ± 200 V, ± 0.1 A to ± 1 A

to ± 1 A

100 to 210 A 0 to ± 200 V, + 0.2 A to 1 A

0 to ± 200 V, ± 0.2 A (E5262A); 0 to ± 200 V, ± 0.2 A to ± 1 A (E5263A)

0 to 80 V, 9.5 A (N5748A)

0 to 80 V, 19 A (N5768A)

19 1 to 4 10 to 50 V, 5 A (N6751A)

0 to 50 V, 10 A (N6752A)

0 to 100 V, 7.5 A (N5749A)
0 to 150 V, 5 A (N5750A)

0 to 100 V, 15 A (N5769A)
0 to 150 V, 10 A (N5770A)

0 to 100 V, 3 A (N6776A)
0 to 150 V, 2 A (N6777A)

0 to 300 V, 2.5 A (N5751A)
0 to 600 V, 1.3 A (N5752A)

0 to 300 V, 5 A (N5771A)
0 to 600 V, 2.6 A (N5772A)

0 to 50 V, 1.5 A (N6761A)
0 to 50 V, 3 A (N6762A)
0 to 60 V, 5 A (N6775A)

19 2

1

0 to 60 V, 20 A (N6754A)
0 to 60 V, 17 A (N6756A)
0 to 60 V, 20 A (N6764A)
0 to 60 V, 17 A (N6766A)

18
18
18
18

15151

1
1
1
1

1

0 to 60 V, 16.7 A (N69/N7953A)
0 to 60 V, 33.3 A (N69/N7973A)
0 to 80 V, 12.5 A (N69/N7954A)
0 to 80 V, 25 A (N69/N7974A)

0 to 80 V, 42 A (N8738A)

0 to 80 V, 42 A (N8738A)
0 to 80 V, 170 A (N8920A/40A)

0 to 80 V, 340 A (N8925A/45A)
0 to 80 V, 510 A (N8931A/51A)

0 to 120 V, 16.7 A (N69/N7976A)
0 to 160 V, 12.5 A (N69/N7977A)

0 to 100 V, 33 A (N8739A)
0 to 150 V, 22 A (N8740A)

0 to 100 V, 50 A (N8759A)
0 to 150 V, 34 A (N8760A)

0 to 200 V, 70 A (N8921A/41A)
0 to 200 V, 140 A (N8926A /46A)
0 to 200 V, 210 A (N8932A/52A)

0 to 300 V, 11 A (N8741A)
0 to 600 V, 5.5 A (N8742A)

0 to 300 V, 17 A (N8761A)
0 to 600 V, 8.5 A (N8762A)

0 to 500 V, 30 A (N8923A/43A)
0 to 500 V, 60 A (N8928A/48A)
0 to 500 V, 90 A (N8934A/54A)
0 to 750 V, 20 A (N8924A/44A)
0 to 750 V, 40 A (N8929A/49A)
0 to 750 V, 60 A (N8935A/55A)
0 to 1000 V, 30 A (N8930A/50A)
0 to 1500 V, 30 A (N8937A/57A/APV)

26
26
26
26
26
26

1
1
1
1
1
1

0-80 V, ± 125 A (RP7932A/42A)
0-80 V, ± 250 A (RP7935A/45A)

0-160 V, ± 125 A (RP7936A/46A) 0-500 V, ± 20 A (RP7951A/61A)

0-500 V, ± 40 A (RP7952A/62A)

0-950 V, ± 20 A (RP7953A/63A)
0 to 500 V, ± 20 A (RP7951A/61A)
0 to 500 V, ± 40 A (RP7952A/62A)

0 to 950 V, ± 20 A (RP7953A /63A)
26
26
26
26

1
1
1
1

0 to 1000 V ± 60A

0 to 1000 V ± 90 A

0 to 2000 V ± 30 A

0 to 2000 V ± 30 A

5 V, 3 A (Output 3)

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Page 12

E36300, E36200, E36100, E3600 and U8000 Series Bench Power Supplies

E36100B Series (Link)

The E36100B series will impress you from
every angle, size, display and I/O.

– Small footprint 2U 1/4 rack
– Up to 100V, up to 5A
– Clean and stable DC power
– Excellent programming and readback

accuracy
– LAN (LXI Core), and USB
– Rack mount up to 4 units

E36200 Series (Link)

The Keysight E36200 Series autoranging
bench power supply can power devices
that typically require higher- output power
supplies with larger watt ratings.

– Autoranging outputs to provide

maximum current at all voltages.
– 4.3-inch LCD color display
– Intuitive, easy-to-use front panel

interface
– Auto series/parallel connection

E36300 Series (Link)

The triple output E36300 Series gives you
the performance of system power supplies
at an affordable price.

– 4.3” color LCD Display
– Intuitive, easy-to-use front panel

interface
– Meter view to display more info on a

selected channel
– Auto series/parallel connection

E3630 (Link), E3640 (Link) and
U8000 (Link) Series

The E3630 and E3640 Series offers
an extensive choice of voltages,
programmability, and number of outputs.

The U8000 Series offers more affordable
DC power and provides features typical
only found in programmable power
supplies (like output sequencing,
save/recall, and more).

BenchVue software enabled

1. Output 1 / Output 2 / Output 3.

2. NOTE: RU refers to rack unit of a standard 19” EIA equipment rack. The width is either 1/2 or full The

Model

E36 311A
E3 6 312A 80 6 V/25 V/25 V 5 A/1 A/1 A 3 1 LAN,
E36313A 16 0 6 V/25 V/25 V 10 A/2 A/2 A 3 1 2 1

E36102B 30 6 5 1 1 LAN,
E36103B 40 20 2 1 1 30 1
E36104B 35 35 1 1 1 60 2
E36105B 36 60 0.6 1 1 100 3
E36106B 40 100 0.4 1 1 150 6
E36231A 200 30 20 1 1 LAN,
E36232A 200 60 10 1 1 3 3
E36233A
E36234A 400 60 10 2 1 3 3
E3632A 120 15 V r1 / 30 V r2 7 A r1 / 4 A r2 1 2 GPIB 2 1 ½ RU w
E3633A 200 8 V r1 / 20 V r2 20 A r1 / 10 A r2 1 2 3 1

Basic

E3634A 200 25 V r1 / 50 V r2 7 A r1 / 4 A r2 1 2 3 3
E3640A 30 8 V r1 / 20 V r2 3 A r1 / 1.5 A r2 1 2 GPIB 5 5 ½ RU w
E36 41A 30 35 V r1 / 60 V r2 0.8 A r1 / 0.5 A r2 1 2 8 5
E3642A 50 8 V r1 / 20 V r2 5 A r1 / 2.5 A r2 1 2 5 5
E3643A 50 35 V r1 / 60 V r2 1.4 A r1 / 0.8 A r2 1 2 8 5
E3644A 80 8 V r1 / 20 V r2 8 A r1 / 4 A r2 1 2 5 5
E3645A 80 35 V r1 / 60 V r2 2.2 A r1 / 1.3 A r2 1 2 8 5
E3646A 60 8 V r1 / 20 V r2 3 A r1 / 1.5 A r2 2 2 GPIB 5 5 ½ RU w
E3647A 60 35 V r1 / 60 V r2 0.8 A r1 / 0.5 A r2 2 2 8 5
E3648A 100 8 V r1 / 20 V r2 5 A r1 / 2.5 A r2 2 2 5 5
E3649A 100 35 V r1 / 60 V r2 1.4 A r1 / 0.8 A r2 2 2 8 5
U8001A 90 30 3 1 1 No 12 10 ½ RU w
U8002A 150 30 5 1 1 12 10
U8031A 375 30 6 3 1 No 10 10 ½ RU w
U8032A 375 60 3 3 1 10 10

height is in number of rack units which are 1.75” (44.4 mm) each. For example: a 3 RU h has a height
of 5.25” (133.3 mm).

Power (W)

80 6 V/+25 V/-25 V

400 30 20 2 1 4 1

Maximum V (V)

5 A/1 A/1 A

Maximum I (A)

Number of outputs

3 1

Number of ranges

USB 2

USB,
GPIB

USB

USB,
GPIB

Computer interface

Ripple and noise mVp-p

2 1

10 1 ¼ RU w

4 1 ½ RU w

1

Program. or meter res. mV

2

Size

½ RU w
x 3 RU h

x 2 RU h

x 3 RU h

x 3 RU h

x 2 RU h

x 3 RU h

x 2 RU h

x 4 RU h

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Page 13