Features

High Precision
Resolution up to 100 fA/100 nV
High Range and High-speed Measurement
±200 V, ±1 A (DC), ±3 A (pulsed)
Up to 1M sampling rate can be supported
Adaptive PFC System
Leverages Adaptive PFC
(Precision Fast Control) system
Users can adjust relevant parameters according to load characteristics
Building Multi-channel Parallel Test System
Based on standard PXIe chassis
Easily implement multi-channel parallel testing

Functions and Advantages

5 Functions In One Card
Voltage source
Current source
Ammeter
Voltmeter
Electronic load
♦ The first and third quadrants are the source: the actual polarity of output V / I follows the source setting.
♦ The second and fourth quadrants are for load: CC and CV cooperate. When the load is used, the polarity of the load setting is opposite to the source polarity.
Can Test Various Equipment
Capture More Measurement Data
♦ 6.5-digit resolution: enjoy best-in-class 6.5-digit sourcing and measurement resolution.
♦ 100 fA / 100 nV resolution: excellent sensitivity for setting and measuring.
♦ 1M points / second: provide high-speed measurement, and can quickly set / digitize the rate to any waveform generator / list scan.
Rich Scanning Function
DC I-V Output Capacity
Pulse I-V Output Capacity

Voltage Programming and Measurement Specifications

Voltage Accuracy	Range	Programming Resolution	Accuracy (1 Year) ± (% reading+ offset)^[1]	Typical Noise(RMS) 0.1 Hz-10Hz
	±200 V^[2]	100 μV	0.03%+10 mV	400 μV
	±20 V	10 μV	0.03%+1 mV	50 μV
	±6 V	1 μV	0.03%+0.4 mV	12 μV
	±0.6 V	100 nV	0.03%+100 μV	3 μV
Temperature Coefficient	±(0.15 × accuracy)/°C (0℃-18℃, 28℃-50℃)
Overshoot	<±0.1% (typical.normal.step is 10% to 90% range, full range, resistive load)
Noise 10Hz-20MHz	<5 mVrms, (20V voltage source, 1A resistive load)

[1] Accuracy calculation example: To test the accuracy of a 600mV range with a 120mV output, the tolerance is:

[2] This instrument has a potentially dangerous high voltage (±210 V) output to the HI / Sense HI / Guard terminals. To prevent electric shock, relevant safety precautions must be taken before powering on. Do not connect the Guard terminal to any output, including shorting it to the chassis ground or output LO, as this will damage the instrument

Current Programming and Measurement Specifications

Current Accuracy	Range	Resolution	Accuracy (1 Year) ± (% reading+ offset)	Typical Noise (RMS) 0.1 Hz-10 Hz
	±3 A^[3]	1 μA	0.03% + 2 mA	40 μA
	±1 A	100 nA	0.03% + 90 μA	7 μA
	±100 mA	10 nA	0.03% + 9 μA	600 nA
	±10 mA	1 nA	0.03% + 900 nA	60 nA
	±1 mA	100 pA	0.03% + 90 nA	6 nA
	±100 μA	10 pA	0.03% + 9 nA	700 pA
	±10 μA	1 pA	0.03% +1 nA	80 pA
	±1 μA^[4]	100 fA	0.03% + 200 pA	20 pA
Temperature Coefficient	±(0.15 × accuracy)/℃ (0℃-18℃,28℃-50℃)
Overshoot	<±0.1% (typical. normal mode. step is 10% to 90% range, full range, resistive load)

[3] 3 A range is available only for pulse mode, with typical accuracy

[4] A triaxial cable connection is recommended for low current measurement: Hi to the center conductor, Guard to the inner shield, and the outer shield to protective ground; LO to the center conductor, with the inner shield unconnected, and the outer shield to protective ground. The rated insulation voltage of the triaxial cable must be a minimum of 250 V

Pulse Source Specifications

Minimum Programmable Pulse Width			100 μs
Pulse Width Programming Resolution			1 μs
Pulse Width Programming Accuracy			±10 μs
Pulse Width Jitter			2 μs
Pulse Width Definition			The time from 10% leading to 90% trailing edge as follows

Maximums	Maximum Pulse Width	Maximum Duty Cycle
0.1 A/200 V	DC, no limit	100%
1 A/20 V	DC, no limit	100%
3 A/66.6 V	1 ms	5%
3 A/160 V	400 μs	2%

Typical Pulse Performance

Source	Maximum Output	Typical Rise Time^[5]	Typical Settling Time^[6]	Test load
Voltage	160 V	800 μs	1.2 ms	No load
Voltage	5 V	50 μs	100 μs	No load
Current	3A~1 mA	90 μs	250 μs	Full load^[7]
	100μA ~10 μA	150 μs	400 μs	Full load^[7]
	1 μA	800 μs	1.2 ms	Full load^[7]

[5] Time required for the pulse leading edge to rise from 10% to 90%

[6] Time required for the pulse to reach within 1% of final value

[7] Test conditions: Normal mode, resistive full load, voltage rises to 6 V

Sampling Rate and NPLC Setting

Setting		Range
NPLC		0.00005 PLC ~ 10 PLC
Sampling Rate		5 sps ~ 1 Msps

Typical Output Settling Time

Source	Range	Output Settling Time^[8]			Condition
Source	Range	Fast^[9]	Normal	Slow	Condition
Voltage	200 V	<600 μs	<2 ms	<2 ms	Time required to reach within 0.1 % of final value at open load condition. Step is 10% to 90% range
	20 V	<80 μs	<150 μs	<800 μs
	6 V	<60 μs	<100 μs	<300 μs
	0.6 V	<60 μs	<60 μs	<60 μs
Current	3 A~1 mA	<100 μs	<180 μs	<0.8 ms	Time required to reach within 0.1% (0.3% for 3A range) of final value at short condition. Step is 10% to 90% range
	100μA~10 μA	<150 μs	<250 μs	<0.8 ms
	1 μA	<1 ms	<1 ms	<1 ms

[8] Output transition speed：Fast, Normal, Slow. Users can adjust the APFC parameters based on the load characteristics to obtain precision, and fast output characteristics

[9] Slow mode is recommended for overshoot sensitive equipment, Fast mode may have overshoot on output in some condition