MOTOROLA MC100SX1230FN, MC100SX1230FNR2 Datasheet

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MOTOROLA

SEMICONDUCTOR TECHNICAL DATA

 Motorola, Inc. 1994

4/94

REV 0

Advance Information

CMI Coder/Decoder

The MC100SX1230 device consists of a Binary to CMI Coder and CMI
to Binary Decoder with integrated loop back capability. The device is
designed for CMI (Code Mark Inversion) interfaces in transmission
applications supporting either 139.26 Mbit/s E4 or 155.52 Mbit/s STM1
line rates.

• Binary-to-CMI Coder and CMI-to-Binary Decoder

• Internal Loop Back Test Capability

• Supports SDH or PDH Applications

• Low Power

• Fully Differential 100K Compatible I/O

• V

BB

Reference Available

• 75kΩ Input Pulldown Resistors

• +5V PECL or –5V ECL Operation

• 28-Pin Surface Mount PLCC Package

• Asynchronous Reset

In normal operation, the coder and decoder operate independently.
Both the coder and decoder operate from a 2X line rate clock. The device
incorporates test circuitry to support loop back bypass so either the coder
input can be routed to the decoder output or the decoder input can be
routed to the coder output. The part is fabricated using Motorola’s proven
MOSAIC III advanced bipolar process.

The device provides a VBB output for accepting single-ended inputs.
The VBB pin should only be used as a bias for the

MC100SX1230 as its
current sink/source capability is limited. Whenever used, the VBB pin
should be bypassed to ground via a 0.01µF capacitor.

1

DCLK

out

V

CC

V

CC

V

CCO

V

CCO

N/C

N/C

RESET

V

BB

DCLK

in

DCLK

in

V

EE

V

EE

LBIN

LCMI

4

3

2

28

27

26

25

24

23

22

21

20

19

18

17

16

15

14

13

12

11109

7

8

6

5

Pinout: 28-Lead PLCC

(Top View)

CMI

in

CCLK

out

CMI

in

QCMI

BIN

in

QCMI

BIN

in

QBIN

CCLK

in

QBIN

CCLK

in

DCLK

out

CCLK

out

MOSAIC III is a trademark of Motorola, Inc.

This document contains information on a new product. Specifications and information herein are subject to
change without notice.

MC100SX1230

CMI CODER/DECODER

FN SUFFIX

PLASTIC PLCC PACKAGE

CASE 776-02

PIN NAMES

Function

CMI Input to Decoder
Decoder Clock Input
Binary Output From Decoder
Decoder Clock Output

Binary Input to Coder
Coder Clock Input
CMI Output from Coder
Coder Clock Output

Asynchronous Reset
Control Input for Binary
Loop Back
Control Input for CMI
Loop Back

Pins

CMIin, CMI

in

DCLKin, DCLK

in

QBIN, QBIN
DCLK

out

, DCLK

out

BINin, BIN

in

CCLKin, CCLK

in

QCMI, QCMI
CCLK

out

, CCLK

out

RESET
LBIN

LCMI

MC100SX1230

2

MOTOROLA High Performance Frequency

Control Products — BR1334

BLOCK DIAGRAM

CMI

in

CMI

in

DCLK

in

DCLK

in

DECODER

÷2

LBIN

QBIN
QBIN

DCLK

out

DCLK

out

D

C

R

CODER

÷2

R

CMI
CMI

H

LCMI

D

C

R

BIN

in

BIN

in

RESET

DELAY

CCLK

in

CCLK

in

÷2

CCLK

out

CCLK

out

FUNCTION TABLE

RESET LBIN LCMI

Function

H X X Reset, All Output Pairs Set to Logic Low State
L L L Independent Coder and Decoder Operation
L L H CMI Input Routed to Coder Output
L H L Binary Input and Clock Routed to Decoder Outputs

Alarm Indication Signal Output from Coder

L H H Illegal, Undefined Operation

MC100SX1230

3

MOTOROLAHigh Performance Frequency

Control Products — BR1334

ABSOLUTE MAXIMUM RATINGS

1

Symbol Parameter Value Unit

V

EE

Power Supply (VCC = 0V) –8 to 0 Vdc

V

I

Input Voltage (VCC = 0V) 0 to –6 Vdc

I

OUT

Output Current Continuous

Surge

50

100

mA

T

A

Operating Temperature Range 0 to +85 °C

V

EE

Operating Range

2

–5.7 to 4.2 V

1 Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation should be restricted to the

Recommended Operating Conditions.

2 Parametric values specified at: –4.2 to 5.46V

DC CHARACTERISTICS (VCC = V

CCO

= GND; VEE = –4.2 to 5.46V)

0°C 25°C 85°C

Symbol Characteristic Min Typ Max Min Typ Max Min Typ Max Unit Condition

V

OH

Output HIGH Voltage –1025 –955 –880 –1025 –955 –880 –1025 –955 –880 mV Vin = V

IH(max)

or V

IL(min)

V

OL

Output LOW Voltage –1810 –1705 –1620 –1810 –1705 –1620 –1810 –1705 –1620 mV Vin = V

IH(max)

or V

IL(min)

V

OHA

Output HIGH Voltage –1035 –1035 –1035 mV Vin = V

IH(max)

or V

IL(min)

V

OLA

Output LOW Voltage –1610 –1610 –1610 mV Vin = V

IH(max)

or V

IL(min)

V

IH

Input HIGH Voltage –1165 –880 –1165 –880 –1165 –880 mV

V

IL

Input LOW Voltage –1810 –1475 –1810 –1475 –1810 –1475 mV

V

BB

Reference Voltage –1380 –1260 –1380 –1260 –1380 –1260 V

I

IH

Input HIGH Current 200 200 200 µA

I

IL

Input LOW Current 0.5 0.5 0.5 µA

I

EE

Supply Current 61 122 61 122 70 141 mA

1. 100SX circuits are designed to meet the DC specifications shown in the table after thermal equilibrium has been established. The circuit is mounted in a test socket

or mounted on a printed circuit board and transverse air greater than 500lfm is maintained.

2. All outputs are loaded with 50Ω to VCC – 2V.

AC CHARACTERISTICS (VCC = V

CCO

= GND; VEE = –4.2 to 5.46V)

0 to 85°C

Symbol Characteristic Min Typ Max Unit Condition Notes

F

max

700 MHz

t

pd

Propagation CCLKin to CCLK

out

Delay CCLKin to QCMI

DCLKin to DCLK

out

DCLKin to QBIN

CCLKin to DCLK

out

CCLKin to QBIN

DCLKin to QCMI

650

1000

550

1000

1100

800

1550
1750
1700
1800

2700
1700

ps

LCMI=LBIN=‘L’
LCMI=LBIN=‘L’
LCMI=LBIN=‘L’
LCMI=‘L’, LBIN=‘H’
LCMI=‘L’, LBIN=‘L’
LCMI=‘H’, LBIN=‘L’

Add 3 CCLKin-Cycles to Delay

Add 4 DCLKin-Cycles to Delay

Add 3 CCLKin-Cycles to Delay
Add 5 DCLKin-Cycles to Delay

t

s

Setup Time BINin to CCLK

in

CMIin to DCLK

in

–375

140

ps

t

h

Hold Time CCLKin to BIN

in

DCLKin to CMI

in

1000

120

ps

V

PP

Minimum Input Swing 250 mV

V

CMR

Common Mode Range –0.4 Note V

tr, t

f

Rise/Fall Times 150 700 ps 20% – 80%

1. 100SX circuits are designed to meet the AC specifications shown in the table after thermal equilibrium has been established. The circuit is mounted in a test socket

or mounted on a printed circuit board and transverse air greater than 500lfm is maintained.

2. The CMR range is referenced to the most positive side of the differential input signal. Normal operation is obtained if the HIGH level falls within the specified range

and the peak-to-peak voltage lies between VPPmin and 1V. The lower end of the CMR range is dependent on VEE and is equal to VEE + 3.0V.