Piyush Sevalia

Executive Vice President of Marketing

Piyush Sevalia has served as our Executive Vice President of Marketing since April 2012. Prior to joining SiTime, Mr. Sevalia held various marketing positions at Ikanos Communications and Cypress Semiconductor. Mr. Sevalia holds a bachelor’s degree in electrical engineering from the University of Mumbai, a master’s degree in electrical engineering from the University of Michigan, and a master’s degree in business administration from the University of California, Berkeley.

Articles

January 12, 2023

It’s All About Precision Timing: 7 Top Tech Trends for 2023

What megatrends will unfold in 2023? The world will get more connected with higher speeds, electronics will add more intelligence, and a new class of timing devices will play a key role in many of the market-moving tech trends for 2023 and beyond.

6 min read

Aerial View of Self Driving Autopilot Autonomous Cars

February 15, 2019

Autonomous vehicle timing means MEMS

Engineering is about tradeoffs, but autonomous driving is pushing that to the limit with conflicting requirements. With the constant transfer of huge amounts of mission-critical data, clock signals must operate without fail, even when operating in unforgiving automotive environments.

1508 Chip-Scale Package MEMS Oscillator (Angled)

August 30, 2017

Growing scope of radar sensors elevates the need for lower power and smaller size

As with many technologies, the growing ubiquity of radar-based detection systems mirrors the growth of silicon advances in integration, miniaturization, and lower power consumption. Rapid adoption of radar sensors in transportation and industrial applications is fueled by safety, efficiency, and automation trends on one side, and boosted by reductions in size, power, and costs on the systems side.

Robotic vision sensor camera system in intellegence factory

August 01, 2017

Low-Frequency µPower Oscillators for Industrial Applications

Looking for a low-power alternative to MHz oscillators? Now, system designers have new lower frequency options based on programmable MEMS timing technology. This technology is ideal for industrial sensor applications because of its low frequency range, low power consumption, and resilience to radio-frequency interference (RFI) and mechanical stressors.

July 17, 2017

µPower Oscillator Delivers Unique Frequencies in a 1.2 mm2 Footprint for Portable Medical

Optimized for ultra-low power, small form-factor applications, the new SiTime SiT1569 oscillator provides a new architectural alternative to legacy quartz technology or to power-consuming, internally generated clock sources that lack ppm-level accuracy.

Observations on the Unstoppable AI Train – Analyst Dave Altavilla on key technologies enabling AI platforms

SiTime CEO Rajesh Vashist shares market insights on Nasdaq TradeTalk with Jill Malandrino

Piyush Sevalia

Articles

It’s All About Precision Timing: 7 Top Tech Trends for 2023

Autonomous vehicle timing means MEMS

Growing scope of radar sensors elevates the need for lower power and smaller size

Low-Frequency µPower Oscillators for Industrial Applications

µPower Oscillator Delivers Unique Frequencies in a 1.2 mm2 Footprint for Portable Medical

Observations on the Unstoppable AI Train – Analyst Dave Altavilla on key technologies enabling AI platforms

SiTime CEO Rajesh Vashist shares market insights on Nasdaq TradeTalk with Jill Malandrino

Piyush Sevalia

Articles

It’s All About Precision Timing: 7 Top Tech Trends for 2023

Autonomous vehicle timing means MEMS

Growing scope of radar sensors elevates the need for lower power and smaller size

Low-Frequency µPower Oscillators for Industrial Applications

µPower Oscillator Delivers Unique Frequencies in a 1.2 mm2 Footprint for Portable Medical

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