E5052A

December 21, 2023

Recovery E5052A Signal Source Analyzer

Recycling used equipment, recycling imported instruments and meters!
Mobile phone 13510508612, contact person: Chen Xiping (sir)
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E5052B SSA Source Analyzer 10MHz to 7GHz, 26.5GHz or 110GHz Key Features and Specifications
Frequency Range RF Input Frequency Range: 10 MHz to 110 GHz (SSA Frequency Selection Guide) Analyze offset frequency range: 1 Hz to 100 MHz Ultra-low noise floor and cross-correlation method to measure phase noise frequency Instantaneous acquisition range: narrowband up to 80 MHz, wideband up to 4.8 GHz noise measurement function uses ultra-low noise floor and cross-correlation method to measure phase noise AM noise and phase noise can be measured without changing the RF connection. Baseband noise measurement from 1 Hz to 100 MHz in real-time mode Spectral monitoring and analysis capabilities up to 15MHz allow instantaneous measurement of frequency, phase, and power at the same time. Use video triggering to capture unpredictable frequency changes. Full VCO characterization with excellent low-noise DC power supply (frequency/power/DC supply current Relationship between Vc and Vs changes) Clock jitter measurement with fs resolution
description

The E5052B 10 MHz to 7 GHz Source Analyzer features a number of enhanced performance features (some of which have been included in the above key features). And it can provide the world's highest throughput, best availability for characterizing VCOs or other types of high frequency sources, and evaluation of clock jitter in high-speed data communication systems.

Used with the E5053A, the E5052B has a frequency range up to 26.5 GHz; it can be used with the E5053A plus a Keysight 11970 Series mixer up to 110 GHz.

The E5052B SSA has a wide range of applications including: RF/uW/mmW oscillators, VCOs, system reference clocks, LAN modules, high-speed timing modules, SerDes chips, and high-speed data converters (ADC/DAC).

Glass Tube

glass tubes are utilized for various purposes like holding and mixing chemicals, conducting experiments, and storing samples. The transparency of glass allows researchers to observe reactions and changes inside the tube easily. Glass tubes are also resistant to chemical corrosion, ensuring the integrity of the substances being handled.
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The material used to manufacture glass tubes is primarily borosilicate glass. Borosilicate glass is composed of silica and boron trioxide, which gives it unique properties such as high resistance to thermal shock, chemical inertness, and low coefficient of thermal expansion. These characteristics make borosilicate glass ideal for applications that involve extreme temperatures and corrosive substances.
Overall, glass tubes are essential components in various industries due to their transparency, resistance to chemicals and thermal shock, and their ability to provide a sterile environment.

tempered sight glass, redline glass tube, glass pipe, borosilicate glass tube

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