The devices, a Cascade MEMS-based Clock-System-on-a-Chip (ClkSoC) and an Emerald OCXO or Elite X Super-TCXO, are to be incorporated into Lattice’s new synchronisation hardware development platform.
“At Lattice, delivering customer-centric, power-efficient FPGA innovation with flexibility, scalability, and security is a top priority,” said Matt Dobrodziej, Vice President of Segment Marketing and Business Development, Lattice Semiconductor. “Our collaboration with SiTime demonstrates the precision timing capabilities of the Lattice FPGA solutions. This innovation will enable our customers with more ways to develop and deploy low latency, secure, and synchronised solutions powered by our FPGA technology.”
“Lattice and SiTime share a common objective – using the power of programmability to solve customer problems and accelerate network deployment,” added Lionel Bonnot, EVP Worldwide Sales and Business Development at SiTime. “Higher speeds, lower latency and distributed computing are driving new deployment architectures where equipment is subjected to environmental stressors such as shock, vibration, and temperature changes. These deployments require a new timing technology paradigm, and SiTime delivers.”
Key features of the Cascade SiT95141 Clock-System-on-Chip Family include:
Integrated MEMS resonator, enabling designers to create a clock-system-on-chip and eliminate quality and reliability issues associated with traditional quartz-based clocks
- 4 PLLs (clock domains) and 11 outputs
- DCO mode with 0.005-ppb resolution
- 4 inputs, up to 10 outputs
- Wide frequency range from 8 kHz to 2.1 GHz
- Support for IEEE 1588, ITU-T G.8262.1 and JESD204B
- Rich set of programmable features in a small 9 x 9 mm package