Brochure
• Tightly integrated, 4-quadrant voltage/current source and measure instruments
offer best-in-class performance with 6½-digit resolution
• Family of models offers industry’s widest dynamic range:
• 10A pulse to 0.1fA and 200V to 100nV
• TSP technology embeds complete test programs inside the instrument
for best-in-class system-level throughput
• TSP-Link
®
expansion technology for multi-channel parallel test without a mainframe
• Complete production test without sacricing footprint
• USB 2.0, LXI-C, GPIB, RS-232, and digital I/O interfaces
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Model 2601B 2602B 2604B 2611B 2612B 2614B 2634B 2635B 2636B
Channels 1 2 2 1 2 2 2 1 2
Max Current
Source/Measure
Range
3 A DC/
10A Pulse
3 A DC/
10A Pulse
3 A DC/
10A Pulse
1.5A DC/
10A Pulse
1.5A DC/
10A Pulse
1.5A DC/
10A Pulse
1.5A DC/
10A Pulse
1.5A DC/
10A Pulse
1.5A DC/
10A Pulse
Max Voltage
Source/Measure
Range
40 V 40 V 40 V 200 V 200 V 200 V 200 V 200 V 200 V
Measurement
Resolution
(Current/Voltage)
100 fA /
100nV
100 fA /
100nV
100 fA /
100nV
100 fA /
100nV
100 fA /
100nV
100 fA /
100nV
1 fA / 100nV
0.1 fA /
100nV
0.1 fA /
100nV
Max Output Power
40 W DC/
200 W Pulse
40 W DC/
200 W Pulse
40 W DC/
200 W Pulse
30 W DC/
200 W Pulse
30 W DC/
200 W Pulse
30 WDC/
200 W Pulse
30 W DC/
200 W Pulse
30 W DC/
200 W Pulse
30 W DC/
200 W Pulse
HIGH SPEED SYSTEM
SMUS FOR DEMANDING
APPLICATIONS
Series 2600B System SourceMeter SMU Instruments
Run Production Tests 60% Faster and Gain Up to 10X More
Throughput
SMUs streamline production testing. The instruments source voltage or current
while making measurements — without needing to change connections. SMUs are designed for
reliable operation in non-stop production environments.
2600B
LEARN MORE
• Conditional branching
• Advanced calculations
and flow control
• Variables
• Pass/Fail test
• Prober/Handler control
• Datalogging/
Formatting
Test Script
DUT
Three-Point Diode Test
80
60
40
20
0
Avg. time per part (ms)
Without Scripting With Scripting
To provide the throughput demanded by production applications, embedded
test scripts can be uploaded into the SMU, enabling them to run complex test
sequences without computer control or communications slowing things down.