S2012C Single-Channel PXIe Precision Source Meter-Semight Instruments

特点

high-precision
Resolution up to 10 fA/100 nV,
Voltage accuracy 100 μV，
Current accuracy 9 pA
High range and high-speed measurement
± 200 V, ± 1 A (DC)
± 3A (pulse)
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) function in one body
Voltage source
Current source
Ammeter
Voltmeter
Electronic load
1、 Three quadrants as the source: the actual polarity of output V / I follows the source setting；
2、 The four quadrants are loads: 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;
♦ 10 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)	Typical Noise(RMS) 0.1 Hz-10Hz
	±200 V	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	9 μV
	±0.6 V	100 nV	0.03%+100 μV	2 μV
Temperature coefficient	±(0.15 × accuracy)/°C (0℃-18℃,28℃-50℃)
Settling time	<50μs (typical)
Overshoot	<±0.1% (Typical.Normal.Step is 10 % to 90 % range, full range, resistive load)
Noise 10Hz-20MHz	20 V voltage source,1 A resistive load, <5 mVrms

Current Programming and Measurement specifications

Current accuracy	Range	Programming resolution	± (% reading+ offset)	Typical Noise(RMS) 0.1 Hz-10Hz
	±3 A¹	1 μA	0.03% + 2mA	20 μA
	±1 A	100 nA	0.03% + 90 μA	4 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	100 fA	0.03% + 200 pA	20 pA
	±100 nA²	100 fA	0.06% + 30 pA	3 pA
	±10 nA²	10 fA	0.06% + 9 pA	600 fA
Temperature coefficient	±(0.15 × accuracy)/°C (0℃-18℃,28℃-50℃)
Settling time	<100 μs (typical)
Overshoot	<±0.1% (Typical.Normal.Step is 10 % to 90 % range, full range, resistive load)

1、3 A range is available only for pulse mode, accuracy specifications for 3 A range are typical.

2、Additional specification conditions: 10 PLC setting

Pulse source specifications （4W）

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

Item	Maximums	Maximum pulse width	Maximum duty cycle
1	0.1 A/200 V	DC,no limit	100%
2	1 A/20 V	DC,no limit	100%
3	3 A/66.6 V	1 ms	5%
4	3 A/160 V	400 μs	2%

Typical Pulse Performance（4W）

Source	Maximum output	Typical rise time¹	Typical Settling Time²	Test load
Voltage	160 V	800 μs	1.2 ms	NO load
Voltage	5 V	40 μs	100 μs	NO load
Current	3A~1 mA	90 μs	250 μs	Full load
	100 μA~10 μA	120 μs	400 μs	Full load
	1 μA	800 μs	1.2 ms	Full load
	100 nA	2 ms	5 ms	Full load
	10 nA	5 ms	20 ms	Full load

1、Leading edge, the time from 10 % leading to 90 % leading

2、The time required from Pulse out 0 to reach within 1 % of final value

3、Test condition: Normal, resistive load 6V maximum output

Sampling rate and NPLC setting

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

Supplemental characteristics

Sensing Modes			2-wire or 4-wire (Remote-sensing) connections
Maximum sense lead resistance			1 KΩ for rated accuracy
Max voltage between Force and Sense			1V
Maximum output voltage in output connector			>range 105%
Sweep			Sweep step time: from 20μs to 16s, Max:8K point
Auto range			Support，turn off output is recommended for overshoot sensitive equipment before range change
Source delay			Support，It is recommended that users set appropriate source delay to obtain higher accuracy
Over temperature protection			The output will be turned off (also disable operation) when the SMU internal temperature is detected higher than 85 degrees. When the temperature returns to less than 65 degrees, operation recover
Other abnormal protection			Power reset，recover operation or hardware damage

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