Some of the team's outstanding achievements

The team has successfully delivered Integer-N, Fractional-N, deskewing PLLs, and Spread Spectrum Clock Generators to a number of top-tier semiconductor companies.

Nanozeta's team has also developed a proprietary high level model for Phase Locked Loop optimization and accurate phase noise / jitter prediction.


NanoZeta’s team has successfully completed Design, Simulation and Characterization of RF, Microwave and Millimeter Wave integrated circuits for 5GHz, 60GHz and 80 GHz transceivers and sub-blocks (i.e. LNAs mixers, VCOs).


NanoZeta’s team has successfully completed Design, Development, Simulation and Characterization of Mixed Signal circuits for 5Gbit/s serial data communication interfaces such as: Equalizer - TX/RX, DFE (Decision Feedback Equalizer), CML Output driver, CML Buffer, Latch, MUX (Multiplexer Circuits), DFF (CML Based DFF), Phase Interpolator.


NanoZeta’s team has successfully completed in-lab projects for the measurement and characterization of analog, RF and microwave devices and systems.


NanoZeta’s team has successfully carried out the Design, Simulation and Characterization of Analog Integrated Circuits such as: Delay-Locked Loops (DLLs), Bandgap References, Analog Front-Ends, Analog Basebands, as well as subblocks such as: Programmable Variable Gain Amplifiers, Filters, Continuous Time Linear Equalizers (CTLEs), SSTL and LVDS High Speed IΟs, Operational Transconductance Amplifiers.


NanoZeta’s team has successfully carried out the Design of a low-power Bluetooth (BLE) transmitter including the PLL, the GFSK filter, and the pre-PA.


NanoZeta’s team has successfully carried out the Design of a 60GHz Radar-on-Chip, consisting by 8 RXs, 2 TXs, PLL, Analog Basedand and ADCs.


NZT just completed the design of an automotive G1, 8-bit, 2MS/s SAR ADC, Voltage Monitor, and Analog Baseband in GF 22FDX.


NZT’s engineers successfully designed an ultra-low power, low jitter 48/160MHz PLL in TSMC 55nm.


NanoZeta delivered an automotive G1, ultra-low noise, 10-GHz, fractional-N frequency synthesizer for very precise generation of linear frequency chirps in GF 22FDX.


NZT’s engineers successfully designed a sub-200fs jitterRMS, 37.5-GHz clock generator in TSMC 5nm (N5).