Keithley 2601B Series Source Meter, 100 mV → 40 V, 1-Channel, 100 nA - 10 A, 40.4 W Output
- RS Stock No.:
- 201-7019
- Mfr. Part No.:
- 2601B-Pulse
- Brand:
- Keithley
Subtotal (1 unit)*
£15,554.00
(exc. VAT)
£18,664.80
(inc. VAT)
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- Shipping from 17 December 2025
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Units | Per unit |
|---|---|
| 1 + | £15,554.00 |
*price indicative
- RS Stock No.:
- 201-7019
- Mfr. Part No.:
- 2601B-Pulse
- Brand:
- Keithley
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Keithley | |
| Series | 2601B | |
| Source Meter Function | Pulser, Source Measure Unit | |
| Number of Channels | 1 | |
| Source Voltage Range | 100 mV → 40 V | |
| Source Current Range | 100 nA - 10 A | |
| Output Power | 40.4 W | |
| Resistance Measurement Range | 0.5 Ω → 100 Ω, SMU : 1 kΩ | |
Select all | ||
|---|---|---|
Brand Keithley | ||
Series 2601B | ||
Source Meter Function Pulser, Source Measure Unit | ||
Number of Channels 1 | ||
Source Voltage Range 100 mV → 40 V | ||
Source Current Range 100 nA - 10 A | ||
Output Power 40.4 W | ||
Resistance Measurement Range 0.5 Ω → 100 Ω, SMU : 1 kΩ | ||
- COO (Country of Origin):
- CN
The Keithley instrument 10 μsec Pulsar or can be called as a source measure unit (SMU) instrument is a high current/high speed pulsar with measure and also the full functionality of a traditional SMU. It offers leading 10 A current pulse output at 10 V with a pulse width minimum of 10 μs. It has built-in dual 1 Mega sample/second (MS/s), 18-bit digitizers which obtains both pulse current and voltage waveforms simultaneously without using any separate instrument.
For inductive loads up to 3 μH tuning is not necessary
It has TSP (Test Script Processing) technology which embeds complete test programs inside the instrument
Self-heating of the instrument is minimum also it minimizes the effect of burned probe tips
It has TSP (Test Script Processing) technology which embeds complete test programs inside the instrument
Self-heating of the instrument is minimum also it minimizes the effect of burned probe tips