The AS21011J 10GBase-T Ethernet PHY is a multi-rate PHY that utilizes ChronoPHY™ technology to provide <1ns PTP time stamping resolution, a 25MHz to 250MHz SyncE output clock, and extended cable drive.
The AS21010J 10GBase-T Ethernet PHY is a multi-rate PHY that utilizes ChronoPHY™ technology to provide <1ns PTP time stamping resolution, a 25MHz to 250MHz SyncE output clock, and extended cable drive.
The AS5001 silicon oscillator utilizes proprietary frequency synthesis and sensor technologies to provide a quartz-free, MEMS-free, clock with a typical phase jitter of 350 fs that supports frequencies between 0.01 and 350 MHz with programmable universal differential driver format.
The AS5002 silicon oscillator utilizes proprietary frequency synthesis and sensor technologies to provide a quartz-free, MEMS-free, clock with a typical phase jitter of 350 fs that supports frequencies between 0.01 and 350 MHz with programmable universal differential driver format. It supports 3 configurations with combinations of frequencies and output formats which can be selected by GPIO level.
The AS5003 silicon oscillator utilizes proprietary frequency synthesis and sensor technologies to provide a quartz-free, MEMS-free, clock with a typical phase jitter of 350 fs that supports frequencies between 0.01 and 350 MHz with programmable universal differential driver format. It supports programmability of frequency by 0.026ppb resolution and all output formats thourgh I2C interface.
The AS511 silicon oscillator utilizes proprietary frequency synthesis and sensor technologies to provide a quartz-free, MEMS-free, LVCMOS clock with a typical phase jitter of 350 fs that supports frequencies between 0.01 and 212.5 MHz.
The AS512 silicon oscillator utilizes proprietary frequency synthesis and sensor technologies to provide a quartz-free, MEMS-free, LVCMOS clock with a typical phase jitter of 350 fs that supports frequencies between 0.01 and 212.5 MHz. It supports 3 configurations with different frequencies which can be selected by GPIO level.