Philips 74hc hct9323a DATASHEETS

INTEGRATED CIRCUITS

74HC/HCT9323A

Programmable ripple counter with
oscillator (3-State)

Objective specification 1995 Oct 27
IC06 Data Handbook

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Philips Semiconductors Objective specification

Programmable ripple counter with oscillator
(3-State)

FEATURES

•8-pin space saving package

•Programmable 3-stage ripple counter

•Suitable for over-tone crystal application up to 85MHz

(V

= 5V10%)

CC

•3-State output buffer

•Two internal capacitors

•Recommended operating range for use with third overtone

crystals 3V to 6V

•Oscillator stop function (MR)

•Output capability:

bus driver  (15 LSTTL)

•I

category: MSI

CC

APPLICATIONS

•Control counters

•Timers

•Frequency dividers

•Time-delay circuits

•CIO (Compact Integrated Oscillator)

•Third-overtone crystal operation

DESCRIPTION

The 74HC/HCT9323A are high-speed Si-gate CMOS devices. They
are specified in compliance with JEDEC standard no. 7A.

The HC/HCT 9323A are oscillators designed for quartz crystal
combined with a programmable 3-State counter, a 3-State output
buffer and an overriding asynchronous master reset (MR
two select inputs S1 and S2 the counter can be switched in the
divide-1, 2, 4 or 8 mode. If left floating the clock is divided by 8. The
oscillator is designed to operate either in the fundamental or third
overtone mode depending on the crystal and external components
applied. On-chip capacitors minimize external component count for
third overtone crystal applications.

The oscillator may be replaced by an external clock signal at input
X1. In this event the other oscillator pin (X2) must be floating. The
counter advances on the negative-going transition of X1. A LOW
level on MR
output buffer in the 3-State condition. MR
an internal pull-up resistor will make the MR
version, the MR
TTL compatible, but the X1 input has CMOS input switching levels
and may be driven by a TTL output using a pull-up resistor
connected to V

74HC/HCT9323A

). With the

resets the counter, stops the oscillator and sets the

can be left floating since

input and the two mode select pins S1 and S2 are

.

CC

inactive. In the HCT

QUICK REFERENCE DATA

GND = 0V; T

SYMBOL

t

PLH

t

PHL

f

max

C

I

C

PD

NOTES:

is used to determine the dynamic power dissipation (PD in µW):

C

PD

P

D

where:
f

I

f

O

V

CC

C

L

I

pull-up

For HC and HCT an external clock is applied to X1 with:

= tf  6ns, VI is GND to VCC, MR = HIGH.

t

r

I

pull-up

= 25°C, tr = tf = 6ns

amb

PARAMETER

Propagation delay
X1 to OUT (S1 = S2 = LOW)

Maximum clock frequency 150 150 MHz
Input capacitance except X1 and X2 3.5 3.5 pF
Power dissipation

capacitance per package

=(CPD  V
= inputfrequency in MHz..

= output frequency in MHz.
= Supply voltage in V .
= Output load capacitance in pF.
= Pull-up currents in µA.

is the summation of –II (µA) of S1 and S2 inputs at the LOW state.

2

 fI) + (CL + V

CC

2

 fO) + (I

CC

pull-up

 VCC)

CONDITIONS
= 25°C; GND = 0V

T

amb

CL = 50pF; VCC = 5V 8 8 ns

TYPICAL UNIT

HC HCT

ORDERING INFORMATION

PACKAGES TEMPERATURE RANGE ORDER NUMBER DWG NUMBER

8-Pin Plastic SO 0°C to +70°C 74HC/HCT9323A D SOT96-1

pF

1995 Oct 27

2