Core & Metro Networks

GigPeak features a broad family of wideband optical modulator driver amplifiers and transimpedance amplifiers to serve the exploding fiber optic data transmission market. As the demand for bandwidth increases from service providers, datacenters, and enterprise networks, these power-efficient, small form factor, and cost-effective optical solutions will be required for use in metro, regional, and long-haul applications. GigPeak’ products includes a wide range of modulator drivers and transimpedance amplifiers (TIA) for line and client side 40G and 100G fiber optic transmitter and receivers. Our portfolio includes linear and limiting MZM drivers for long haul and metro transmission,  linear TIAs for long-haul coherent receivers, and limiting TIAs for shorter range receivers. These parts feature market-leading performance, such as lowest power consumption, gain, and linearity.

Optical Networking Drivers for Line & Client Side

 Optical Networking – Drivers for Line and Client SideLinear and limiting modulator driver solutions from GigPeak uniquely combine the attributes of compact size and reduced power dissipation, while addressing customer needs for advanced features and a selection of packaging formats. GigPeak offers both single-ended and differential modulator driver solutions to interface with the latest Lithium Niobate and Indium Phosphide based optical modulators. They are available in both GPPO module and surface mount packages. Using a combination of Indium Phosphide and Gallium Arsenide technologies, GigPeak can offer unparalleled performance in the smallest form factors.

Optical Networking TIAs for Line & Client Side

Linear TIA_PAGigPeak’s product portfolio also includes a wide range of transimpedance amplifiers (TIA) for line and client side 40G and 100G fiber optic receivers. We design and manufacture linear TIAs for long-haul coherent receivers and limiting TIAs for shorter range receivers. These TIAs have leading noise performance and power dissipation, and they are available in die form.