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MC88916DWMOTN/a22avaiLOW SKEW CMOS PLL CLOCK DRIVER WITH PROCESSOR RESET


MC88916DW ,LOW SKEW CMOS PLL CLOCK DRIVER WITH PROCESSOR RESET**Order this documentfrom Logic MarketingSEMICONDUCTOR TECHNICAL DATA * * * * ** **The MC88916 Cl ..
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MC88916DW
LOW SKEW CMOS PLL CLOCK DRIVER WITH PROCESSOR RESET
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SEMICONDUCTOR TECHNICAL DATA
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The MC88916 Clock Driver utilizes phase–locked loop technology to
lock its low skew outputs’ frequency and phase onto an input reference
clock. It is designed to provide clock distribution for CISC microprocessor
or single processor RISC systems. The RST_IN/RST_OUT(LOCK) pins
provide a processor reset function designed specifically for the
MC68/EC/LC030/040 microprocessor family. The 88916 comes in two
speed grades: 70 and 80MHz. These frequencies correspond to the
2X_Q maximum output frequency. The two grades should be ordered as
the MC88916DW70 and MC88916DW80, respectively. Provides Performance Required to Drive 68030 Microprocessor Family
as well as the 33 and 40MHz 68040 Microprocessors Three Outputs (Q0–Q2) With Output–Output Skew <500ps and Six
Outputs Total (Q0–Q2, Q3, 2X_Q,) With <1ns Skew Each Being Phase
and Frequency Locked to the SYNC Input The Phase Variation From Part–to–Part Between SYNC and the ‘Q’
Outputs Is Less Than 600ps (Derived From the TPD Specification,
Which Defines the Part–to–Part Skew) SYNC Input Frequency Range From 5MHZ to 2X_Q FMax/4 Additional Outputs Available at 2X and ÷2 the System ‘Q’ Frequency.
Also a Q (180° Phase Shift) Output Available. All Outputs Have ±36mA Drive (Equal High and Low) CMOS Levels.
Can Drive Either CMOS or TTL Inputs. All Inputs Are TTL–Level
Compatible Test Mode Pin (PLL_EN) Provided for Low Frequency Testing
The PLL allows the high current, low skew outputs to lock onto a single clock input and distribute it with essentially zero delay
to multiple locations on a board. The PLL also allows the MC88916 to multiply a low frequency input clock and distribute it locally
at a higher (2X) system frequency.
Three ‘Q’ outputs (Q0–Q2) are provided with less than 500ps skew between their rising edges. The Q3 output is inverted (180°
phase shift) from the ‘Q’ outputs. A 2X_Q output runs at twice the ‘Q’ output frequency. The 2X_Q output does not meet the
stringent duty cycle requirement of the 20 and 25Mhz 68040 microprocessor PCLK input. The 88920 has been designed
specifically to provide the 68040 PCLK and BCLK inputs for the low frequency 68040 microprocessor. 68040 designers should
refer to the 88920 data sheet for more details. For the 33 and 40MHz 68040, the 2X_Q output will meet the duty cycle
requirements of the PCLK input. The Q/2 output runs at 1/2 the ‘Q’ frequency. This output is fed back internally, providing a fixed
2X multiplication from the ‘Q’ outputs to the SYNC input. Since the feedback is done internally (no external feedback pin is
provided) the input/output frequency relationships are fixed.
In normal phase–locked operation the PLL_EN pin is held high. Pulling the PLL_EN pin low disables the VCO and puts the
88916 in a static ‘test mode’. In this mode there is no frequency limitation on the input clock, which is necessary for a low
frequency board test environment.
The RST_OUT(LOCK) pin doubles as a phase–lock indicator. When the RST_IN pin is held high, the open drain RST_OUT
pin will be pulled actively low until phase–lock is achieved. When phase–lock occurs, the RST_OUT(LOCK) is released and a
pull–up resistor will pull the signal high. To give a processor reset signal, the RST_IN pin is toggled low, and the
RST_OUT(LOCK) pin will stay low for 1024 cycles of the ‘Q’ output frequency after the RST_IN pin is brought back high.
Description of the RST_IN/RST_OUT(LOCK) Functionality

The RST_IN and RST_OUT(LOCK) pins provide a 68030/040 processor reset function, with the RST_OUT pin also acting as
a lock indicator. If the RST_IN pin is held high during system power–up, the RST_OUT pin will be in the low state until steady
state phase/frequency lock to the input reference is achieved. 1024 ‘Q’ output cycles after phase–lock is achieved the
RST_OUT(LOCK) pin will go into a high impedance state, allowing it to be pulled high by an external pull–up resistor (see the
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