SiTime’s MEMS oscillators simplify system designs and open the door to new applications. Though an LC oscillator will operate at any frequency within its range, they do not operate beyond approximately 200 MHz. SiTime’s single-ended LVTTL/CMOS compatible MEMS oscillators operate at any frequency up to 220 MHz and the differential oscillator family expands the frequency to 800 MHz.
The Codex of Business Writing Software for Real-World Solutions 2.pptx
Mems oscillators outperform lc oscillators
1. MEMS Oscillators Outperform LC Oscillators
Precision clock sources such as a XTAL, XO, Voltage Controlled Oscillator - VCXO, or TCXO require
some type of resonator in order to supply an accurate, specific frequency. For decades, cost-effective
clock sources have been manufactured with a quartz-crystal slice as the resonator element. However,
over the past five years, there has been significant progress in the all-silicon clock timing alternative
aimed at replacing the traditional quartz-crystal oscillator, especially in two technologies; MEMS (Micro-
Electromechanical Systems) oscillators and the compensated LC oscillator. Both solutions are 100%
silicon alternatives to the traditional quartz-crystal oscillators. With frequency stability of 100ppm over a
relatively narrow 0°C to 70°C temperature range, the LC oscillator has been able to gain limited market
share in some low-end consumer and computing applications where price dominates and stability and
jitter performance is not critical. For all other applications where stability and jitter performance is critical,
the MEMS oscillator is successfully taking more significant market share from the quartz-crystal
incumbent. Once MEMS start-up innovator making an impact in the precision timing space is SiTime
Corporation.
SiTime’s all-silicon MEMS oscillators exceed all performance parameters compared to the LC oscillator .A
basic key feature of any oscillator is frequency stability. When comparing standard oscillators, also called
XO, the SiTime SiT8208 and SiT8209 guarantees less than 10 ppm (parts-per-million) over the -40°C to
+85°C operating temperature range. This represents a 10x performance improvement compared to the
LC oscillator’s 100 ppm alternative. Furthermore, the SiTime SiT5001 TCXO family features 0.5 stability
over the -40°C to +85°C operating temperature range. This represents a level of performance that cannot
be achieved by an LC oscillator.
SiTime’s MEMS oscillators simplify system designs and open the door to new applications. Though an
LC oscillator will operate at any frequency within its range, they do not operate beyond approximately 200
MHz. SiTime’s single-ended LVTTL/CMOS compatible MEMS oscillators operate at any frequency up to
220 MHz and the differential oscillator family expands the frequency to 800 MHz. SiTime’s oscillators are
all programmable to any frequency within their operating range as previously described.
In summary, the SiTime’s MEMS-based oscillators are optimized for applications that require some level
of precision. They far exceed the performance of any LC oscillator and meet or exceed the performance
of crystal-based oscillators.
Silicon Oscillator , Clock Generator & VCXO