Analogue, Mixed-Signal and RF ASIC Design and IP Development

DESIGN SERVICES

Tetrivis provides design services of virtually any analogue and mixed-signal subsystem from DC to 15GHz in Bipolar, BiCMOS and CMOS process technologies ranging from 0.5um to 40nm nodes.

CONSULTING

With extensive experience in the latest IC tear-down and debug methodologies including Focused-Ion-Beam (FIB) debugging, Tetrivis can help you track down and repair problems on your designs.

ANALOGUE IP

Tetrivis is putting together an IP portfolio in a variety of nanometer-CMOS process nodes. It encompasses high-performance and low-power data converter, clock synthesis, RF, baseband and power management functions.

DESIGN SERVICES

Tetrivis provides design services of virtually any analogue and mixed-signal subsystem from DC to 15GHz in Bipolar, BiCMOS and CMOS process technologies ranging from 0.5um to 40nm nodes.

Enjoy the best design and functions combined together

Tetrivis provides analogue, mixed-signal and RF Integrated Circuit design and consulting services With cumulative 50-year experience, Tetrivis is well positioned to meet your various high-performance integrated circuit design needs. Tetrivis past and present direct and indirect customers and collaborators include:            

LATEST INTELLECTUAL PROPERTY

Tetrivis has added some new IP designs to its Portfolio suitable for use in various integrated circuit subsystems (WSN, BAN, LTE, WiFi, IoT, WiMAX, DAB, DAB+, FM, HDFM, DRM etc).

 

The TRV107TSM180BCD IP is a 1.8V low-power 32MHz single-bit switched-capacitor ∆Σ Modulator (7.8125kHz-to-62.5kHz-Nyquist-rate) implemented in TSMC Low-Power 180nm CMOS process technology. Its 13-bit performance makes it suitable for use in high-performance wireless/wireline sensor interface, fine-line Instrumentation and Internet-of-Things integrated circuit subsystems (WSN, BAN, IoT).

Datasheet

 

The TRV106TSM180BCD IP is a 1.8V low-power 32MHz single-bit switched-capacitor ∆Σ Modulator based 7.8125kHz-to-62.5kHz-Nyquist-rate ADC with programmable Decimation Rate and implemented in TSMC Low-Power 180nm CMOS process technology. Its 13-bit performance makes it suitable for use in high-performance wireless/wireline sensor interface, fine-line Instrumentation and Internet-of-Things integrated circuit subsystems

Datasheet

 

The  TRV302TSM40LP IP is a 1.1V low-power, low-silicon-area and high-performance 2.0GHz-to-4.7GHz Fractional-N RF PLL with Quadrature outputs implemented in TSMC Low-Power 40nm CMOS process technology. It’s low loop-filter bandwidth and low phase-noise characteristics makes it especially suitable for use in on-chip Quadrature Local Oscillator References for Tx and Rx up/down-converters.

Datasheet

  

The  TRV303TSM40LP IP is a 1.1V low-power, low-silicon-area and high-performance 6.0GHz-to- 9.4GHz Fractional-N RF PLL with Buffered VCO outputs implemented in TSMC Low-Power 40nm CMOS process technology. It’s low loop-filter bandwidth and low phase-noise characteristics makes it especially suitable for use in on-chip Local Oscillator References for Tx and Rx up/down-converters.

Datasheet

Latest News

Check out what Tetrivis has been up to these past weeks.

The Solar-Frame

Tetrivis’ take on sleek and affordable indoor Solar illumination The TRVSLR102 Solar-FrameTM from Tetrivis-Solar is a compact A5-size solar lamp that combines 2W solar panel with 9Wh-capacity energy storage batteries.[…]

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Tetrivis Transmit and Receive LEOSAT chipsets back from fabrication

Tetrivis TRV003 and TRV004, the first chipsets in the KuKa family of Phased Array ASICs are now back from fabrication. The hard work (of testing) begins!

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Magnetrons, mm-Wave, Diathermy and Oncology

The Microwave oven was an accidental invention. Percy Spencer, an American Engineer developing Magnetrons for short-wavelength Radar transmitters at Raytheron, noticed that microwave radiation from a Radar set he was[…]

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Our Team

Tetrivis has a small and diverse team of very experienced senior and creative junior engineers working together towards the same goal. We also regularly employ some bright interns.

Jide Adeniran

 Managing Partner and Chief RFIC Design Engineer

Dave Smith

 EDA Consultant and Layout Designer

           

Santiago Rubio

 Software and Digital IC Design

Engineer

Funmi Adeniran

 Operations Partner and Test Engineer