Specifications
102
Connectivity
The N6700 offers many system
oriented features to simplify and
accelerate test system development.
They support the industry standard
SCPI commands and come standard
with software drivers.
The N6700 MPS comes standard with
GPIB,USB2.0,and10/100Base-T
Ethernet LAN interfaces. While
GPIBisbestsuitedforusewith
existing systems, Agilent offers
USBandLANtoallowyoutotake
advantage of the availability, speed,
and ease-of-use of common computer
industry standard interfaces.
The N6700 is designed to comply
withtheLXICorespecification.
The N6700 contains a Web server
that provides Web pages for monitor,
control and setup of the MPS.
Output sequencing
Each DC power module can be
individually set to turn on or to
turnoffwithadelay.Byadjust-
ing the delay times and then com-
manding the N6700 to turn on/off,
you can set the N6700 modules to
sequence on/off in a particular order.
Programmable voltage slew
For some applications, like inrush
limiting or powering rate-sensitive
devices, it is necessary to slow down
and control the speed of the power
supply to maintain a specific voltage
slew rate. The N6700 provides
programmable voltage slew rate,
so that with a single command,
you can generate a zero to full-scale
voltage change controllable from
1 millisecond to 10 seconds.
Low-Profile Modular Power System
20-300 W GPIB (Continued)
M
ore detailed specifications at
www.agilent.com/find/N6700
High Performance DC Power Supplies speed and accuracy for test optimization
Specifications
(at 0° to 55°C, and
derated above 40°C)
N6751A N6752A N6753A N6754A N6755A N6756A
Supplemental Characteristics
(Non-warranted characteristics determined by design
that are useful in applying the product)
Programming range
Voltage 20 mV - 20 mV - 10 mV - 25 mV - 10 mV - 25 mV -
51 V 51 V 20.4 V 61.2 V 20.4 V 61.2 V
Current 10 mA - 10 mA - 50 mA - 20 mA - 50 mA - 20 mA -
5.1 A 10.2 A 51 A 20.4 A 51 A 17.3 A
Programming resolution
Voltage 3.5 mV 3.5 mV 1.5 mV 4.2 mV 1.5 mV 4.2 mV
Current 3.25 mA 3.25 mA 16.3 mA 6.5 mA 16.3 mA 6.5 mA
Measurement resolution
Voltage 1.8 mV 1.8 mV 0.8 mV 2.2 mV 0.8 mV 2.2 mV
Current 410 A 410 A 2.05 mA 0.82 mA 2.05 mA 0.82 mA
Programming temperature coefficient per °C
Voltage 18 ppm + 18 ppm + 35 ppm + 35 ppm + 35 ppm + 35 ppm +
160 V 160 V 100 V 170 V 100 V 170 V
Current 100 ppm + 100 ppm + 60 ppm + 60 ppm + 60 ppm + 60 ppm +
45 A 45 A 500 A 200 A 500 A 200 A
Measurement temperature coefficient per °C
Voltage 25 ppm + 25 ppm + 50 ppm + 50 ppm + 50 ppm + 50 ppm +
35 V 35 V 85 V 100 V 85 V 100 V
Current 60 ppm + 3 A 3 A 30 A 12 A 30 A 12 A
N6705 mainframe oscilloscope measurement accuracy:
(at 23°C ±5°C, accuracy of any individual point in the trace)
Voltage 0.05% + 32 mV 32 mV 15 mV 37 mV 15 mV 37 mV
Current - with correction on
1
0.1% + 0.1% + N/A N/A N/A N/A
14 mA 14 mA
Current 0.1% + 8 mA 8 mA 52 mA 17 mA 52 mA 17 mA
Up-programming time with full resistive load:
(Time from 10% to 90% of total voltage excursion)
Small voltage step
0 V to 10 V 0 V to 10 V 0 V to 6 V 0 V to 15 V 0 V to 10 V 0 V to 29 V
Time 0.2 ms 0.2 ms 0.4 ms 0.35 ms 0.5 ms 0.7 ms
Large voltage step
0 V to 50 V 0 V to 50 V 0 V to 20 V 0 V to 60 V 0 V to 20 V 0 V to 60 V
Time 1.5 ms 1.5 ms 1.5 ms 2 ms 1.5 ms 2 ms
Up-programming settling time with full resistive load:
(Time from start of voltage change to within 0.1% of full scale value)
Small voltage step
0 V to 10 V 0 V to 10 V 0 V to 6 V 0 V to 15 V 0 V to 10 V 0 V to 29 V
Time 0.5 ms 0.5 ms 0.8 ms 0.8 ms 1.0 ms 1.4 ms
Large voltage step
0 V to 50 V 0 V to 50 V 0 V to 20 V 0 V to 60 V 0 V to 20 V 0 V to 60 V
Time 4 ms 4 ms 3 ms 4.2 ms 3 ms 4.2 ms
Down-programming time with no load:
(Time from start of voltage change to output voltge <0.5 V)
Small voltage step
10 V to 0 V 10 V to 0 V 6 V to 0 V 15 V to 0 V 10 V to 0 V 29 V to 0 V
Time 0.3 ms 0.3 ms 0.55 ms 0.6 ms 1.0 ms 1.2 ms
Large voltage step
50 V to 0 V 50 V to 0 V 20 V to 0 V 60 V to 0 V 20 V to 0 V 60 V to 0 V
Time 1.3 ms 1.3 ms 1.8 ms 2.2 ms 1.8 ms 2.2 ms
1
Correction On compensates for current flowing into the output capacitor during voltage transients