Multipliers

Multipliers

The HMC8342 is a gallium arsenide (GaAs), monolithic microware integrated circuit (MMIC), ×2 active broadband frequency multiplier. When driven by a 5 dBm signal, the multiplier provides 15 dBm typical output power. 

SAGE Millimeter offers the Model SFA-713863415-12SF-S1 active X4 frequency multiplier with output frequencies of 71 to 86 GHz for use in frequency extenders, source modules, and communication systems. Features include an input frequency of 17.75 to 21.50 GHz, a typical harmonic suppression of -20 dBc, and a nominal output power of +15 dBm.

The BXMF1033 by API Technologies is a Multiplied Phase Locked Oscillator that features multiple RF outputs, DC voltage regulation, low current consumption, automatic reference sensing, ultra-low -151 dBc/Hz phase noise, and more. This oscillator is fully customizable.

The HAFM Series of active multipliers is available in models ranging from 18 to 140 GHz. A wide variety of multiplication factors from X2 up to X12 provide the customer with design flexibility for many applications. These multipliers can be cascaded to achieve higher order multiplication factors

Microsemi-RFIS’s frequency multipliers scale up the operating signal frequency by an integer multiple, “N”. Microsemi-RFIS specializes in multipliers with minimal noise degradation, low spurious and harmonic output, with consistent performance over drive level and operating temperature.

The X-MWsystem from X-Microwave is a complete modular building block eco-system including a broad offering of RF and microwave components, an innovative Prototype Station and a FREE online System Simulator.  The X-MWsystem can be used to seamlessly navigate thru the product development process from simulation to prototype to production hardware.

The HAFM Series of active multipliers is available in models ranging from 18 to 140 GHz. A wide variety of multiplication factors from X2 up to X12 provide the customer with design flexibility for many applications. These multipliers can be cascaded to achieve higher order multiplication factors