B2962A 6.5 Digit Low Noise Power Source

B2962A 6.5 Digit Low Noise Power Source

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B2962A 6.5 Digit Low Noise Power Source

Key Features & Specifications

• 6.5 digit 2-channel source
• Wide and bipolar voltage/current sourcing (100 nV - 210 V / 10 fA - 10.5 A, 31.8W)
• Best-in-class noise performance (10 µVrms, 1nVrms/√Hz) with external filter
• Precision arbitrary waveform capability with support for seven built-in functions and user defined waveforms (1 mHz - 10 kHz)
• 4.5 digit built-in voltage/current monitoring capability (minimum resolution: 10 µV / 1 pA)
• Programmable output resistance with voltage / current output characteristics emulation capability
• Intuitive graphical user interface on 4.3 inch wide color LCD supporting time domain voltage/current monitoring on the front panel
• LXI Core Conformant, USB 2.0, GPIB, LAN and digital I/O interface

World's only source with 6.5 digit resolution and a wide bipolar range of 100 nV - 210 V / 10 fA - 10.5 A
The Keysight B2961A/B2962A Power Sources have broad voltage (up to ±210 V) and current (up to ±3 A DC and ±10.5 A pulsed) sourcing ranges and excellent 6.5 digit resolution (minimum 100 nV/10 fA program resolution). This enables you to source voltage from 100 nV to 210 V and current from 10 fA to 3A DC / 10.5 A pulsed in a single box. Unlike a typical power supply/source, they support 4-quardant operation that gives you the freedom to accurately and precisely supply any voltage or current contained within their ranges and power limit (31.8W) regardless of polarity.

Best-in-class noise floor of 10 μVrms (1 nVrms / √Hz@10 kHz) outperforms that of even linear power supplies
Low noise performance is required for the development of noise sensitive applications such as VCOs (voltage controlled oscillators), ADC/DAC, new material evaluation, etc. However, conventional power supplies and sources have not been able to achieve the noise levels to meet these needs. The Keysight B2961A/B2962A supports an optional external filter that enables ultra-low noise output down to 10 µVrms and 1nVrms/√Hz (at 10 kHz), which has never before been possible on a low-cost bench-top source.