Description: Millimeter-Wave Source Module with +8 dBm output power
|Series||835xx Signal Generators|
Keysight 83554A Millimeter-Wave Source Module
The 83554A is the high output power wave source module from Keysight Technologies. The 83554A offers high-performance standards. The frequency range is from 26.5 GHz to 40 GHz. It offers millimeter-wave signals for various testing requirements. The source module implements the mechanism to level the signals internally. The 83554A offers amazing flexibility in terms of various option selection. The user can easily set the control options for specific testing environments. The millimeter-wave source module is compatible with many other microwave sources.
The Keysight 83554A enables the user to perform measurements accurately. The device also offers a high resolution and different power levels at different frequency ranges. The user can get a maximum power level of 8 dBm from 26.6 to 37.2 GHz or 7 dBm at 37.2 to 40 GHz. These output power signals are already leveled. The 83554A comes with the highest level of spectral purity. It has the capability to suppress harmonics in the output signals, which enables the user to meet quality standards at the industrial level. These features make the 83554A suitable for design applications.
The 83554A millimeter-wave source module also incorporates a digital display, which enables the user to view values and measurements for active functions. It can also display sweep frequency, sweep time, and output power. This helps improve the speed and simplicity of testing procedures. This model comes with a GPIB interface, which permits flexible programming capabilities. The GPIB interface complies with the IEEE-488 and international specification standards. The 83554A wave source module has a user manual available for download on the apexwaves.com
|Type||Millimeter-wave Source Module|
|Frequency Range||26.5 to 40 GHz|
|Leveled Output Power||+8 dBm|
|CW Resolution||52 kHz|
|83554A Manual||User Manual and Maintenance Manual Available for Download|