Stable, accurate reference frequencies are basic to almost all digital electronics. The most common references combine quartz crystals with clock-generator circuits, often employing a PLL ...

In our modern era, digital logic has become the core of all the electronics circuits either in the form of an FPGA, microcontroller, microprocessor, or discreet logic. Digital systems use many ...

Touted as the industry's first 1.8V HCMOS crystal clock oscillator, the NTH through-hole-mount metal package and S1612 surface-mount ceramic package oscillators allow designers the opportunity to work ...

Sponsored by: Texas Instruments Clock stability is more crucial than ever in high-speed timing circuits—and low-noise oscillators and phase-locked loops play key roles in achieving that goal. Clock ...

At 40.0MHz the phase noise performance of IQD’s CFPS-115 crystal clock oscillator is -80dBc/Hz at 10Hz offset and -145dBc/Hz at 1kHz offset. Low power consumption is specified at 7mA. The device is ...

The crystals you’ll find attached to microcontrollers or RTCs are usually accurate to 100 parts per million at most, but that still means if you’re using one of these crystals as a clock’s time base, ...

To ensure the authenticity of the Galileo navigation messages, the Open Service navigation message authentication (OSNMA) mechanism requires a loose synchronization between the receiver clock and the ...

The global crystal oscillator market size is estimated to reach $3.2 billion by 2022, growing at a CAGR of 5.8% from 2016 to 2022. Crystal oscillator circuit is a resonating device that uses a ...