RM KLV 2000 is a high-performance linear amplifier, designed to work with any HF transceiver. With two 572B triodes, it operates in all bands from 160m to 10m, providing high output power while maintaining low distortion. The large indicator devices keep you informed of the basic parameters of the amplifier, including output power, SWR, grid current, anodic current, and anodic tension.
The automatic fan with variable speed ensures adequate cooling for the tubes, and the electronic bias circuit disconnects the tubes when receiving, preventing unnecessary heat dissipation and disturbances. A protection circuit is also in place to prevent the maximum grid current from being exceeded, protecting the tubes from overload in case of incorrect adjustment or excessive input power.
RM KLV 2000 is a high-performance linear amplifier, designed to work with any HF transceiver. With two 572B triodes, it operates in all bands from 160m to 10m, providing high output power while maintaining low distortion. The large indicator devices keep you informed of the basic parameters of the amplifier, including output power, SWR, grid current, anodic current, and anodic tension.
The automatic fan with variable speed ensures adequate cooling for the tubes, and the electronic bias circuit disconnects the tubes when receiving, preventing unnecessary heat dissipation and disturbances. A protection circuit is also in place to prevent the maximum grid current from being exceeded, protecting the tubes from overload in case of incorrect adjustment or excessive input power.
RM KLV 2000 is a high-performance linear amplifier, designed to work with any HF transceiver. With two 572B triodes, it operates in all bands from 160m to 10m, providing high output power while maintaining low distortion. The large indicator devices keep you informed of the basic parameters of the amplifier, including output power, SWR, grid current, anodic current, and anodic tension.
The automatic fan with variable speed ensures adequate cooling for the tubes, and the electronic bias circuit disconnects the tubes when receiving, preventing unnecessary heat dissipation and disturbances. A protection circuit is also in place to prevent the maximum grid current from being exceeded, protecting the tubes from overload in case of incorrect adjustment or excessive input power.
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