MPC9109 Datasheet | Motorola Semiconductor

features the capability to select either a differential LVPECL or an LVCMOS patible input. The 18 outputs are 2.5V or 3.3V LVCMOS patible and feature the drive strength to drive 50Ω series or parallel terminated transmission lines. With output- to- output skews of 200ps, the MPC9109 is ideal as a clock distribution chip for the most demanding of synchronous systems. The 2.5V outputs also make the device ideal for supplying clocks for a high .. performance Pentium II™ microprocessor based design. For a higher performance version of the 9109 refer to the MPC940L data sheet. LOW VOLTAGE 1:18 CLOCK DISTRIBUTION CHIP - - - - - - LVPECL or LVCMOS Clock Input 2.5V LVCMOS Outputs for Pentium II Microprocessor Support 200ps Maximum Output- to- Output Skew @ 3.3V Output Maximum Output Frequency of 250MHz @ 3.3V Core 32- Lead QFP Packaging Dual or Single Supply Device: - Dual VCC Supply Voltage, 3.3V Core and 2.5V Output - Single 3.3V VCC Supply Voltage for 3.3V Outputs - Single 2.5V VCC Supply Voltage for 2.5V I/O FA SUFFIX 32- LEAD QFP PACKAGE CASE 873A- 02 With a low output impedance (≈20Ω), in both the HIGH and LOW logic states, the output buffers of the MPC9109 are ideal for driving series terminated transmission lines. With a 20Ω output impedance the 9109 has the capability of driving two series terminated lines from each output. This gives the device an effective fanout of 1:36. If a lower output impedance is desired please see the MPC942 data sheet. If better performance is desired please see the MPC940L data sheet. The differential LVPECL inputs of the MPC9109 allow the device to interface directly with a LVPECL fanout buffer like the MC100EP111 to build very wide clock fanout trees or to couple to a high frequency clock source. The LVCMOS input provides a more standard interface for applications requiring only a single clock distribution chip at relatively low frequencies. In addition, the two clock sources can be used to provide for a test clock interface as well as...