Most of us know that a quartz clock uses a higher frequency crystal oscillator and a chain of divider circuits to generate a 1 Hz pulse train. It’s usual to have a 32.768 kHz crystal and a 15-stage ...

It is often necessary for designers to implement a digital clock divider where the output frequency is not an integer factor of the reference clock. Today's newer FPGA technologies usually contain ...

A common challenge facing many semiconductor companies is the push for higher data transmission speeds to drive ever higher system performance. When dealing with clock circuitry in processor and bus ...

Most electronic clocks, be they analog or digital, use a crystal oscillator (XO) based on a 32.768 kHz crystal for their reference. In fact, it is same crystal that’s commonly used as a real-time ...

Most of us know that a quartz clock uses a higher frequency crystal oscillator and a chain of divider circuits to generate a 1 Hz pulse train. It’s usual to have a 32.768 kHz crystal and a 15-stage ...

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 ...

With shrinking technologies, rapid multiplication of clock frequencies, and increasing emphasis on power reduction, low-power design is taking on a vital role. Design teams can no longer afford to ...