Motorola MC10E150FNR2, MC10E150FN, MC100E150FN, MC100E150FNR2 Datasheet

NC Q1Q1V

CCO

Q

5

Q

5

V

CCO

NCLEN1LEN2MR

LOGIC DIAGRAM

D

5

D

4

D

3

V

EE

D

2

D

1

D

0

26

27

28

2

3

4

25 24 23 22 21 20 19

18

17

16

15

14

13

12

115 6 7 8 9 10

Q

4

Q

4

V

CC

Q

3

Q

3

Q

2

Q

2

V

CCOQ0

Q

0

D

0

D

1

D

2

D

3

D

4

D

5

LEN1
LEN2

MR

Q

0

Q

0

Q

1

Q

1

Q

2

Q

2

Q

3

Q

3

Q

4

Q

4

Q

5

Q

5

D

R

D

R

D

R

D

R

D

R

D

R

1

Pinout: 28-Lead PLCC (Top View)

* All VCC and V

CCO

pins are tied together on the die.



SEMICONDUCTOR TECHNICAL DATA

2–1

REV 2

 Motorola, Inc. 1996

12/93

  

The MC10E/100E150 contains six D-type latches with differential
outputs. When both Latch Enables (LEN1, LEN2) are LOW, the latch is
transparent and input data transitions propagate through to the output. A
logic HIGH on either LEN1 or LEN2 (or both) latches the data. The Master
Reset (MR) overrides all other controls to set the Q outputs low.

• 800ps Max. Propagation Delay

• Extended 100E V

EE

Range of – 4.2V to – 5.46V

• 75kΩ Input Pulldown Resistors

PIN NAMES

Pin Function

D0– D

5

Data Inputs

LEN1, LEN2 Latch Enables
MR Master Reset
Q0– Q

5

True Outputs

Q0– Q

5

Inverting Outputs





6-BIT D LATCH

FN SUFFIX

PLASTIC PACKAGE

CASE 776-02

MC10E150 MC100E150

MOTOROLA ECLinPS and ECLinPS Lite

DL140 — Rev 4

2–2

DC CHARACTERISTICS (VEE = VEE(min) to VEE(max); VCC = V

CCO

= GND)

0°C 25°C 85°C

Symbol Characteristic min typ max min typ max min typ max Unit Condition

I

IH

Input HIGH Current µA

D 200 200 200
LEN, MR 150 150 150

I

EE

Power Supply Current mA

10E 52 62 52 62 52 62
100E 52 62 52 62 60 72

AC CHARACTERISTICS (VEE = VEE(min) to VEE(max); VCC = V

CCO

= GND)

0°C 25°C 85°C

Symbol Characteristic min typ max min typ max min typ max Unit Condition

t

PLH

Propagation Delay to Output ps

t

PHL

D 250 375 550 250 375 550 250 375 550
LEN 375 500 700 375 500 700 375 500 700

MR 450 625 750 450 625 750 450 625 750

t

s

Setup Time ps

D 200 50 200 50 200 50

t

h

Hold Time ps

D 200 – 50 200 – 50 200 – 50

t

RR

Reset Recovery Time 750 650 750 650 750 650 ps ps

t

PW

Minimum Pulse Width ps

MR 400 400 400

t

SKEW

Within-Device Skew 50 50 50 ps 1

t

r

Rise/Fall Times ps

t

f

20 - 80% 300 450 650 300 450 650 300 450 650

1. Within-device skew is defined as identical transitions on similar paths through a device.