MICREL SY100S838L, SY100S838 Datasheet

(÷1, ÷2/3) OR (÷2, ÷4/6)
CLOCK GENERATION CHIP

ClockWorks™

SY100S838

SY100S838L

FEATURES

■ 3.3V and 5V power supply options

■ 50ps output-to-output skew

■ Synchronous enable/disable

■ Master Reset for synchronization

■ Internal 75KΩ input pull-down resistors

■ Available in 20-pin SOIC package

PIN CONFIGURATION

Q

VCCQ0Q0Q

20 19

12345678910

VCCEN DIVSEL CLK CLK VBBMR V

18 17 16 15 14 13

1

TOP VIEW

1

SOIC
Z20-1

Q2Q

Q

3

2

Q3V

EE

12 11

CC

NC F

SEL

TRUTH TABLE

CLK EN MR Function

Z L L Divide

ZZ H L Hold Q0–3

X X H Reset Q0–3

NOTES:

Z = LOW-to-HIGH transition
ZZ = HIGH-to-LOW transition

FSEL DIVSEL Q0, Q1 OUTPUTS Q2, Q3 OUTPUTS

L L Divide by 2 Divide by 4

L H Divide by 2 Divide by 6
H L Divide by 1 Divide by 2
H H Divide by 1 Divide by 3

DESCRIPTION

The SY100S838/L is a low skew (÷1, ÷2/3) or (÷2, ÷4/

6) clock generation chip designed explicitly for low skew
clock generation applications. The internal dividers are
synchronous to each other, therefore, the common output
edges are all precisely aligned. The devices can be driven
by either a differential or single-ended ECL or, if positive
power supplies are used, PECL input signal. In addition,
by using the VBB output, a sinusoidal source can be AC­coupled into the device. If a single-ended input is to be
used, the VBB output should be connected to the CLK
input and bypassed to ground via a 0.01µF capacitor.
The VBB output is designed to act as the switching
reference for the input of the SY100S838/L under single­ended input conditions. As a result, this pin can only
source/sink up to 0.5mA of current.

The Function Select (FSEL) input is used to determine
what clock generation chip function is. When FSEL input
is LOW, SY100S838/L functions as a divide by 2 and by
4/6 clock generation chip. However, if FSEL input is HIGH,
it functions as a divide by 1 and by 2/3 clock chip.

The common enable (EN) is synchronous so that the
internal dividers will only be enabled/disabled when the
internal clock is already in the LOW state. This avoids
any chance of generating a runt clock pulse on the
internal clock when the device is enabled/disabled as
can happen with an asynchronous control. An internal
runt pulse could lead to losing synchronization between
the internal divider stages. The internal enable flip-flop is
clocked on the falling edge of the input clock, therefore,
all associated specification limits are referenced to the
negative edge of the clock input.

Upon start-up, the internal flip-flops will attain a random
state; the master reset (MR) input allows for the
synchronization of the internal dividers, as well as for
multiple SY100S838/Ls in a system.

PIN NAMES

Pin Function

CLK Differential Clock Inputs
FSEL Function Select Input
EN Synchronous Enable
MR Master Reset
VBB Reference Output
Q0, Q1 Differential ÷1 or ÷2 Outputs
Q2, Q3 Differential ÷2/3 or ÷4/6 Outputs
DIVSEL Frequency Select Input

Rev.: E Amendment: /1

1

Issue Date: August, 1998

Micrel

K

K

BLOCK DIAGRAM

ClockWorks™

SY100S838

SY100S838L

CL

CL

EN

MR

F

SEL

DIVSEL

R

DC ELECTRICAL CHARACTERISTICS

(1)

÷

1

Q

1

÷

2

÷

2

or

÷

3

÷

4

or

÷

6

0

1

0

0

Q

0

Q

1

Q

1

Q

2

Q

2

Q

3

Q

3

VEE = VEE (Min.) to VEE (Max.); VCC = GND

A = –40°CTA = 0°CTA = +25°CTA = +85°C

T

Symbol Parameter Min. Typ. Max. Min. Typ. Max. Min. Typ. Max. Min. Typ. Max. Unit

IEE Power Supply Current 35 50 65 35 50 65 35 50 65 35 54 75 mA
VBB Output Reference Voltage -1.38 — -1.26 -1.38 — -1.26 -1.38 — -1.26 -1.38 — -1.26 V
I

IH Input High Current ——150 ——150 ——150 ——150 µA

NOTE:

1. Parametric values specified at: 5 volt Power Supply Range 100S838 Series: -4.2V to -5.5V.
3 volt Power Supply Range 100S838L Series -3.0V to -3.8V.

2