PI49FCT20807

Features:

· High Frequency >150 MHz
· High-speed, low-noise, non-inverting 1-10 buffer
· Low-skew (<150ps) between any two output clocks
· Low duty cycle distortion <300ps
· Low propagation delay <3.5ns
· Multiple V_DD, GND pins for noise reduction
· 2.5V supply voltage
· Available in SOIC, SSOP, and QSOP packages




Pinout






Specifications

Storage Temperature ......................................................-65 to +150
V_DD Voltage ...................................................................... -0.5V to +3.6V
Output Voltage⁽⁴⁾ ........................................................-0.5V to V_DD+0.5V
Input Voltage⁽⁴⁾ ..........................................................-0.5V to V_DD+0.5V
DC Output Current ........................................................ -60mA to +60mA
Power Dissipation ........................................................................ 500mW
Note:
Stresses greater than those listed under MAXIMUM RATINGS may cause permanent damage to the device.

This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.

Product Specs: Voltage: 2.5V Function: Buffer, Driver Jitter: - Skew: 150ps Speed: 150MHz I/O: TTL/CMOS Temp: Com Outputs: 10 Pins: 20 Packages: SSOP (H20)QSOP (Q20)SOIC (S20) Pb-Free and Green: Yes - Q - more info RoHS Material Declarations: PI49FCT20807HE MDR (pdf)PI49FCT20807QE MDR (pdf)PI49FCT20807SE MDR (pdf)




Description

The PI49FCT20807, a 2.5V compatible, high-speed, low-noise 1-10 non-inverting clock buffer, is designed to target networking applications that require low-skew, low-jitter, and high-frequency clock distribution. Providing output-to-output skew as low as 150ps, the PI49FCT20807 is an ideal clock distribution device for synchronous systems. Designing synchronous networking systems requires a tight level of skew from a large number of outputs.