MICREL SY10E136, SY100E136 Datasheet

6-BIT UNIVERSAL

K

UP/DOWN COUNTER

SY10E136

SY100E136

FEATURES

■ 550MHz count frequency

■ Extended 100E VEE range of –4.2V to –5.5V

■ Look-ahead-carry input and output

■ Fully synchronous up and down counting

■ Asynchronous Master Reset

■ Internal 75KΩ input pull-down resistors

■ Available in 28-pin PLCC package

PIN CONFIGURATION

CCO

V

Q4

Q5

18

Q3

17

Q2

16

VCC

15

VCCO
COUT

14

COUT

13
12

CLOUT

Q0

Q1

VCCO

D2

S2

S1

VEE

CL

CIN

CLIN

VCCO

D5

D4

D3

25 24 23 22 21 20 19
26
27
28

1
2
3
4

567891011

MR

PLCC

TOP VIEW

J28-1

D1

D0

VCCO

PIN NAMES

Pin Function

D0–D5 Preset Data Inputs
Q0–Q5 Differential Data Outputs
S1, S2 Mode Control Pins
MR Master Reset
CLK Clock Input
COUT, COUT Carry Out Output (Active LOW)
CLOUT Look-Ahead-Carry Output
CIN Carry-In Input (Active LOW)
CLIN Look-Ahead-Carry Input

CCO VCC to Output

V

DESCRIPTION

The SY10/100E136 are 6-bit synchronous, presettable,
cascadable universal counters. These devices generate
a look-ahead-carry output and accept a look-ahead-carry
input. These two features allow for the cascading of
multiple E136s for wider bit width counters that operate
at very nearly the same frequency as the stand-alone
counter.

The CLOUT output will pulse LOW for one clock cycle
one count before the E136 reaches terminal count. The
COUT output will pulse LOW for one clock cycle when
the counter reaches terminal count. For more information
on utilizing the look-ahead-carry features of the device,
please refer to the applications section of this data sheet.
The differential COUT output facilitates the E136's use in
programmable divider and self-stopping counter
applications.

Unlike the H136 and other similar universal counter
designs, the E136 carry-out and look-ahead-carry-out
signals are registered on chip. This design alleviates the
glitch problem seen on many counters where the carry­out signals are merely gated. Because of this architecture,
there are some minor functional differences between the
E136 and H136 counters. The user, regardless of
familiarity with the H136, should read this data sheet
carefully. Note specifically (see block diagram) the
operation of the carry-out outputs and the look-ahead­carry-in input when utilizing the Master Reset.

When left open, all of the input pins will be pulled
LOW via an input pulldown resistor. The Master Reset is
an asynchronous signal which, when asserted, will force
the Q outputs LOW.

The Q outputs need not be terminated for the E136 to
function properly. In fact, if these outputs will not be
used in a system, it is recommended that they be left
open to save power and minimize noise. This practice
will minimize switching noise which can reduce the
maximum count frequency of the device, or significantly
reduce margins against other noise in the system.

Rev.: C Amendment: /1

1

Issue Date: February, 1998

Micrel

SY10E136

SY100E136

LOGIC DIAGRAM

BLOCK DIAGRAM

(1)

QM0

OUT

C

Q
D

OUT

C

Q
S

OUT

CL

Q

S

D

QM0

QM1

Q

5

Q

Q

R

D

D

5

Q2 – Q

5

BITS 2 – 4

Q

Q

R

D

Q

Q

R

D

Q

S

D

D2 – D

Q

1

D

1

Q

0

D

0

4

S1

S2

IN

C

IN

CL

MR

CLK

E136 Universal Up/Down Counter Logic Diagram

NOTE:

1. This diagram is provided for understanding of logic operation only. It should not be used for propagation delays as many gate functions are achieved
internally without incurring a full gate delay.

2

Micrel

SY10E136

SY100E136

LOGIC DIAGRAM

TRUTH TABLE

S1 S2 CIN MR CLK Function

L L X L Z Preset Parallel Data Inputs
L H L L Z Increment (Count Up)

L H H L Z Hold Count
H L L L Z Decrement (Count Down)
H L H L Z Hold Count
H H X L Z Hold Count
X X X H X Reset (Qn = LOW; COUT = HIGH)

NOTE:

1. Expanded truth table included on following pages.

LOGIC DIAGRAM

EXPANDED TRUTH TABLE

Function S1 S2 MR CIN CLIN CLK D5 D4 D3 D2 D1 D0 Q5 Q4 Q3 Q2 Q1 Q0 COUT CLOUT

Preset L L L X X Z LLLLHHLLLLHHH H
Down H LLLLZXXXXXXLLLLHLH H

HLLLLZXXXXXXLLLLLHH L
HLLLLZXXXXXXLLLLLLL H

HLLLLZXXXXXXHHHHHHH H
Preset L L L X X Z HHHHLLHHHHL LH H
Up LHLLLZXXXXXXHHHHLHH H

LHLLLZXXXXXXHHHHHLH L
LHLLLZXXXXXXHHHHHHL H
LHLLLZXXXXXXLLLLLLH H
LHLLLZXXXXXXLLLLLHH H
LHLLLZXXXXXXLLLLHLH H

Hold HHLXXZXXXXXXLLLLHLH H

HHLXXZXXXXXXLLLLHLH H
Down H LLLLZXXXXXXLLLLLHH L

Hold HLLHLZXXXXXXLLLLLHH H
Down H LLLLZXXXXXXLLLLLLL H
Hold HLLHLZXXXXXXLLLLLLH H

HLLHLZXXXXXXLLLLLLH H

HLLHHZXXXXXXLLLLLLH H
Hold HLLLHZXXXXXXLLLLLLL H

HLLLLZXXXXXXLLLLLLL H
Hold HHLLLZXXXXXXLLLLLLL H

Preset L L L X X Z HHHHLLHHHHL LH H
Up LHLLLZXXXXXXHHHHLHH H

LHLLLZXXXXXXHHHHHLH L
Hold LHLHLZXXXXXXHHHHHLH H
Up LHLLLZXXXXXXHHHHHHL H
Hold LHLHLZXXXXXXHHHHHHH H

LHLHHZXXXXXXHHHHHHH H
Hold LHLLLZXXXXXXHHHHHHL H

Up LHLLLZXXXXXXLLLLLLH H

LHLLLZXXXXXXLLLLLHH H

LHLLLZXXXXXXLLLLHLH H

LHLLLZXXXXXXLLLLHHH H
Reset X X H XXXXXXXXXLLLLLLH H

NOTE:

1. Z = LOW-to-HIGH transition

(1)

(1)

3