100 kW L-Band CW Magnetron Tube CWM-100 - Machlett Microwave
Circulators

100 kW L-Band CW Magnetron Tube CWM-100 - Machlett Microwave

In Stock — Just a few left

Machlett Microwave CWM-100kW Magnetron – Unmatched Power & Efficiency for Industrial Processing


The Machlett Microwave CWM-100kW is a state-of-the-art, fixed-tuned magnetron tube designed to meet the demanding requirements of industrial processing applications.

This powerful L-band magnetron delivers a continuous 100 kW of output power at 915 MHz, with exceptional efficiency.

Key Features:
High Power Output: 100 kW continuous wave (CW) power for demanding industrial processes
L-Band Frequency: Operates at 915 MHz, ideal for a wide range of applications
Exceptional Efficiency: Up to 90% efficiency for reduced energy consumption
Fixed-Tuned Design: Stable and reliable frequency output
Magnetically Focused: Precise electron beam control for optimal performance
Air & Liquid Cooled: Robust cooling system for extended operation in demanding environments
Ceramic-Metal Construction: Durable and reliable for long service life

Applications by Industry:

Food Processing
Thawing: Frozen meats, poultry, etc.
Cooking: Bacon, pre-cooked meals, etc.
Preservation: Sterilization, pasteurization, drying (bakery, foodstuffs)
Industrial Materials
Drying & Curing: Carbon black, clay, ceramics, wood, composites, filter materials, casting molds, etc.
Chemical & Thermal Processes: Polymer curing, metal sintering, rubber vulcanization
Advanced Materials
Synthesis & Conversion: CVD diamond, gas reforming, waste pyrolysis
Semiconductor: Annealing, doping
Mining & Minerals
Ore Beneficiation: Selective fracturing

Magnetron Core Exchange Refurbishment Program

Penta Labs provides RF Core Exchange Refurbishment Capability to extend the service life of your Machlett Microwave Continuous Wave Magnetron. Please contact us for information about refurbished Machlett Microwave CWM-75kW & 100kW Magnetron Tube options.

 

Get in Touch with us

Be the First to Know. Sign up to newsletter today.