Specifications
64
Two power ranges deliver a large
amount of power in a small
test-system footprint:
• 1 kW models have a 1U full-rack
footprint
• 2 kW models have a 2U full-rack
footprint
• Built-inparallelingcapability
up to 10 kW
Choose the APS model with the
voltage and current you need
BoththeN6900SeriesDCpower
supplies and the N7900 Series
dynamic DC power supplies provide
five voltage and current combina-
tions at the 1 kW power range and
seven voltage and current combina-
tions at the 2 kW power range.
How the APS Can Help You Overcome
Your Power Test Challenges
Accelerate test throughput with
industry-leading specifications
Shaving seconds or even millisec-
onds off a test time can lead to
significant savings for high-volume
manufacturers, making throughput
gains a never-ending quest for test
system designers. The APS is a
valuable tool for increasing throughput.
It provides a number of industry
leading specifications and innovative
features that can help you achieve
significant throughput gains in your
testing.
Some examples:
• Industry-leading command
processing time (<2 ms)
• Fast up and down programming
speeds (up to 500 µs)
• Adjustable measurement times
for optimum measurements in
minimum time
• Seamless ranging capability
for fast current measurements
without sacrificing accuracy
• Output lists that allow you to
step through timed or triggered
voltage or current levels that can
also generate triggers for tightly
synchronized measurements
Single Output: 1 & 2 KW GPIB, LAN (LXI Core), USB
(Continued)
Specifications
(at 0° to 55°C unless
otherwise specified)
More detailed specifications at
www.agilent.com/find/N6900
Advanced Power System DC power supplies overcome the toughest power test challenges
N6950A N6951A N6952A N6953A N6954A
Supplemental Characteristics (Non-warranted characteristics determined by design
that are useful in applying the product)
Programming range
Voltage
9 mV to 9.18 V 0.02 to 20.4 V 0.04 to 40.8 V 0.06 to 61.2 V 0.08 to 81.6 V
Current (no dissipator)
-10.2 to 102 A -5.1 to 51 A -2.55 to 25.5 A -1.7 to 17 A
-1.275 to 12.75 A
Current (with dissipator)
-102 to 102 A -51 to 51 A -25.5 to 25.5 A -17 to 17 A
-12.75 to 12.75 A
Programming resolution
Voltage 0.84 mV 1.7 mV 3.5 mV 5 mV 6.7 mV
Current 30 mA 15 mA 8 mA 5 mA 4 mA
Measurement range
Current
-225 to 225 A
-112.5 to 112.5 A
-56.2 to 56.2 A -37.6 to 37.6 A -28.1 to 28.1 A
Resistance programming
Range 0 to 0.1 Ω 0 to 0.4 Ω 0 to 1.6 Ω 0 to 3.4 Ω 0 to 6.4 Ω
Accuracy
1
0.12% + 0.12% + 0.1% + 0.1% + 0.1% +
1.6 mΩ*A 3.2 mΩ*A 6.4 mΩ*A 8.8 mΩ*A 12.8 mΩ*A
Resolution 0.8 µΩ 3.4 µΩ 13 µΩ 30 µΩ 54 µΩ
TempCo 0.0068% 0.0070% 0.0070% 0.0070% 0.0070%
Programming & measurement temperature coefficient
Voltage
2
0.0022% + 30 µV 60 µV 120 µV 180 µV 220 µV
Current
2
0.0057% + 0.0058% + 0.0058% + 0.0058% + 0.0058% +
250 µA 125 µA 60 µA 40 µA 30 µA
Over-voltage protection
Maximum setting 10.8 V 24 V 48 V 72 V 96 V
Accuracy 0.03% + 1.5 mV 3 mV 6 mV 9 mV 12 mV
Response time
3
<30 µs <30 µs <30 µs <30 µs <30 µs
Measurement noise (peak)
Voltage 2 mV 3.5 mV 7 mV 10 mV 14 mV
Current 45 mA 22 mA 10 mA 6 mA 4 mA
Output current noise
CC rms 15 mA 15 mA 15 mA 15 mA 15 mA
Common mode current
CC rms 2 mA 1 mA 1 mA 1 mA 1.5 mA
CC peak-to-peak 10 mA 10 mA 10 mA 10 mA 10 mA
Notes:
1
Resistance programming accuracy varies with output current. For example, for an N7970A unit at 0.1 Ω with a
50 A transient, accuracy is: (0.1 Ω*0.06%) + (1.6 mΩ*A/50 A) = 92 µΩ.
2
Per degree C
3
From occurrence of over-voltage to start of shutdown