As communication, sensing, and testing technologies accelerate toward higher frequency bands, the 130–220 GHz range is emerging as a crucial window for high-frequency innovation. From cutting-edge 6G validation to D-band test platforms, as well as high-resolution imaging, frequency extension systems, and local oscillator module development, the industry is demanding increasingly stringent requirements for high-frequency signal links: broader frequency bands, more stable power, more compact structures, and easier integration. Against this backdrop, a reliable, engineering-proven high-frequency multiplier often becomes the key factor in ensuring seamless system operation.

Talent Microwave's newly launched WR-5.1 ×2 passive frequency multiplier is designed to break through this bottleneck. The product achieves 130–220 GHz output with 65–110 GHz input, delivering a typical output power of 8 dBm. Featuring wideband coverage, compact structure, standard interfaces, and high engineering adaptability, it provides core support for frequency extension, terahertz systems, and source modules.

Core Highlights:

Broadband Coverage:
Continuous output capability from 130 to 220 GHz, meeting the needs of high-frequency testing, sweep testing, and broadband experiments.

Reliable Output:
Typical output power reaches 8 dBm, providing ample signal drive for downstream links and ensuring system-level performance.

Compact and Efficient Design:
The high-frequency module features a compact size and standardized interfaces, enabling seamless integration into complex platforms and significantly reducing the complexity of system upgrades and integration.

Versatile Applications:
Suitable for various applications such as frequency extenders, terahertz systems, and source modules, offering strong versatility and proven engineering maturity.

Mechanical Specifications:

Outline Drawing:

Typical Performance Data:

Typical Application Scenarios:

·High-Frequency Test Platform Upgrade: Facilitates the extension of existing millimeter-wave equipment to the terahertz band, enhancing test capability limits.

·Terahertz System Development: Serves as the core frequency conversion unit, supporting THz source modules and experimental prototype construction.

·6G Frontier Verification: Meets the needs for higher-band link research, front-end evaluation, and experimental platform construction.

·High-Frequency Sensing and Imaging: Enables resolution enhancement, target recognition, and precision detection.

Advancing from millimeter waves to terahertz frequencies is not merely an increase in frequency but a leap in system capabilities. Talent Microwave’s 130–220 GHz passive frequency multiplier serves as a critical module in high-frequency signal links and a vital foundational component for future high-frequency applications.