WR6 D-Band Waveguide Multiplier 110-170 GHz
The AT-AM12-110170L is a high-performance WR6 waveguide multiplier operating across the D-Band frequency spectrum from 110 to 170 GHz. This x12 multiplier device delivers efficient signal multiplication for advanced RF and mmWave systems requiring precise frequency conversion and reliable harmonic generation in the D-Band range.
Designed for integration into complex signal chains, the AT-AM12-110170L provides robust performance characteristics with minimal signal distortion and excellent harmonic suppression, making it suitable for demanding measurement and communication applications.
Technical Specifications
- Frequency Range: 110–170 GHz (D-Band)
- Multiplication Factor: x12
- Input Power: +3 dBm typical, +8 dBm maximum
- Output Power: −3 dBm minimum, +0 dBm maximum
- Harmonic Suppression (X11/X13): −20 dBc
- Operating Voltage: +5 V drain
- Current Consumption: 0.5 A
- Input Connector: SMA-female
- Output Connector: WR-06 UG-387U/M with anti-cocking flange
Applications
- SATCOM & Space: Frequency multiplication for satellite communication systems and space-based instrumentation operating in D-Band
- Radar & Defense: Stable harmonic generation for advanced radar architectures, FOD detection and military RF systems
- 6G Research: Next-generation wireless system prototyping and measurement in the mmWave spectrum
- D-Band Imaging: High-resolution imaging applications requiring precise frequency generation from 110–170 GHz
- Test & Measurement: Core component in laboratory instruments requiring precise D-Band signal generation
The AT-AM12-110170L combines compact design with efficient power consumption, making it suitable for both benchtop and integrated system deployments. Its −20 dBc harmonic suppression ensures minimal spurious content in multiplied output signals.
bq-microwave distributes AT Microwave waveguide multipliers with rapid availability across Europe. For technical specifications, availability, or application support for the AT-AM12-110170L, contact our team directly.