Used EG&G 5210 #9328886 for sale

Manufacturer
EG&G
Model
5210
ID: 9328886
Two phase lock-in amplifier.
EG&G 5210 is a multichannel amplifier and filter equipment designed for precise, high-speed signal processing. Using a variety of signal source options, 5210 allows users to configure the system's selectable channels in a single unit, which is ideal for precise signal processing applications such as LIDAR, high-speed optical modulation, music synthesis, and more. At the core of EG&G 5210 is its powerful amplifier/filter unit designed to provide accurate signal amplification, filter, and control over wide frequency and magnitude ranges. The machine supports two-channel and four-channel configurations, with each channel independently adjustable. 5210 also boasts a wide range of input and output options. It supports both analog and digital inputs as well as a variety of different output formats, including balanced, unbalanced, and optical. The tool also supports a range of sample rates, from 8 kHz to 62 kHz (4-channel), depending on the user's needs. EG&G 5210 is a highly configurable asset, allowing users to customize it according to their needs. The model is capable of producing signals with an amplitude range of -120 dBm to +20 dBm, with a total harmonic distortion of 0.1 percent or less. The equipment also supports a range of voltage sources, including AC, DC, and pulse sources. Finally, 5210 boasts a high-efficiency design and is constructed with a robust and durable chassis. It utilizes low noise, low-power components and has been designed to operate at temperatures ranging from minus-20 to plus-60 degrees Celsius. Overall, EG&G 5210 is a powerful, configurable electronic test equipment perfect for applications requiring high-precision, wide amplitude and frequency range signal processing. With its extensive range of input and output options, users can configure the system to meet their specific needs. With its rugged construction, high performance, and reliability, 5210 is an excellent choice for high-speed, accurate electronic signal processing.
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