MC10H642 Datasheet, PDF(1/9 Page) ON Semiconductor – 68030/040 PECL-TTL CLOCK DRIVER

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MC10H642 Datasheet, PDF (1/9 Pages) ON Semiconductor – 68030/040 PECL-TTL CLOCK DRIVER

MOTOROLA

SEMICONDUCTOR TECHNICAL DATA

68030/040 PECL-TTL Clock Driver

The MC10H/100H642 generates the necessary clocks for the 68030,

68040 and similar microprocessors. It is guaranteed to meet the clock

specifications required by the 68030 and 68040 in terms of partâtoâpart

skew, withinâpart skew and also duty cycle skew.

The user has a choice of using either TTL or PECL (ECL referenced to

+5.0V) for the input clock. TTL clocks are typically used in present MPU

systems. However, as clock speeds increase to 50MHz and beyond, the

inherent superiority of ECL (particularly differential ECL) as a means of

clock signal distribution becomes increasingly evident. The H642 also

uses differential PECL internally to achieve its superior skew

characteristic.

The H642 includes divideâbyâtwo and divideâbyâfour stages, both to

achieve the necessary duty cycle skew and to generate MPU clocks as

required. A typical 50MHz processor application would use an input clock

running at 100MHz, thus obtaining output clocks at 50MHz and 25MHz

(see Logic Diagram).

The 10H version is compatible with MECL 10Hâ¢ ECL logic levels,

while the 100H version is compatible with 100K levels (referenced to

+5.0V).

â¢ Generates Clocks for 68030/040

â¢ Meets 030/040 Skew Requirements

â¢ TTL or PECL Input Clock

â¢ Extra TTL and PECL Power/Ground Pins

â¢ Asynchronous Reset

â¢ Single +5.0V Supply

MC10H642

MC100H642

68030/040

PECLâTTL CLOCK

DRIVER

FN SUFFIX

PLASTIC PACKAGE

CASE 776â02

Function

Reset(R): LOW on RESET forces all Q outputs LOW.

Select(SEL): LOW selects the ECL input source (DE/DE).

HIGH selects the TTL input source (DT).

The H642 also contains circuitry to force a stable input state of the ECL differential input pair, should both sides be left open. In

this Case, the DE side of the input is pulled LOW, and DE goes HIGH.

Power Up: The device is designed to have positive edges of the Ã·2 and Ã·4 outputs synchronized at Power Up.

VT VT Q1 GT GT Q0 VT

25 24 23 22 21 20 19

Q2 26

18 VBB

GT 27

17 DE

GT 28

Q3 1

VT 2

16 DE

Pinout: 28âLead PLCC

(Top View)

15 VE

14 R

VT 3

13 GE

Q4 4

12 DT

5 6 7 8 9 10 11

Q5 GT GT Q6 Q7 VT SEL

9/96

2â1

REV 4

▷