Who owns SiTime?

Who owns SiTime?

SiTime to be Acquired by MegaChips for $200M.

What does Sitime Corp do?

Sitime Corporation develops silicon-based timing solutions. The Company manufacturers oscillators, clock generators, and embedded resonators used for ethernet switches, computing devices, graphics cards, disk drives, mobile phones, and subscriber identity module cards. Sitime serves customers worldwide.

Where is SiTime located?

SANTA CLARA, Calif. – October 24, 2016 – SiTime Corporation, the leader in MEMS-based timing solutions and a wholly owned subsidiary of MegaChips Corporation (Tokyo Stock Exchange: 6875), today announced the company has relocated its headquarters to 5451 Patrick Henry Drive, Santa Clara, California 95054.

What is MEMS timing?

Microelectromechanical system oscillators (MEMS oscillators) Devices that generate highly stable reference frequencies (used to sequence electronic systems, manage data transfer, define radio frequencies, and measure elapsed time) to measure time.

How many employees does Sitime have?

187 total
Company Description: Sitime Corporation is located in Santa Clara, CA, United States and is part of the Semiconductor and Other Electronic Component Manufacturing Industry. Sitime Corporation has 187 total employees across all of its locations and generates $218.81 million in sales (USD).

What are MEMS resonators?

MEMS resonators are small electromechanical structures that vibrate at high frequencies. They are used for timing references, signal filtering, mass sensing, biological sensing, motion sensing, and other diverse applications. This article concerns their application in frequency and timing references.

Who are the competitors of SiTime?

SiTime’s competitors SiTime’s top competitors include Summit Interconnect, Tronics Microsystems, Integrated Micro-Electronics and San’an Optoelectronics. SiTime Corporation is a semiconductor company that provides MEMS-based silicon timing solutions.

How does a MEMS resonator work?

Hence, such a MEMS resonator essentially consists of the following three components: (1) an input-transducer which converts the input electrical signal into a mechanical signal i.e., an electrostatic force (alternatively piezoelectric, magnetostatic etc.), (2) a mechanical resonant structure which can vibrate in one or …