54AC161DMQB. - NATIONAL SEMICONDUCTOR

54AC161 •54ACT161

Synchronous Presettable Binary Counter

General Description

The ’AC/’ACT161 are high-speed synchronous modulo-16

binary counters. They are synchronously presettable for ap-

plication in programmable dividers and have two types of

Count Enable inputs plus a Terminal Count output for versa-

tility in forming synchronous multistage counters. The ’AC/

’ACT161 has an asynchronous Master Reset input that over-

rides all other inputs and forces the outputs LOW.

Features

reduced by 50%

nSynchronous counting and loading

nHigh-speed synchronous expansion

nTypical count rate of 125 MHz

nOutputs source/sink 24 mA

n’ACT161 has TTL-compatible inputs

nStandard Microcircuit Drawing (SMD)

— ’AC161: 5962-89561

— ’ACT161: 5962-91722

Logic Symbols Pin Names Description

CEP Count Enable Parallel Input

CET Count Enable Trickle Input

CP Clock Pulse Input

MR Asynchronous Master Reset Input

–P

Parallel Data Inputs

PE Parallel Enable Inputs

–Q

Flip-Flop Outputs

TC Terminal Count Output

TRI-STATE®is a registered trademark of National Semiconductor Corporation.

FACT™is a trademark of Fairchild Semiconductor Corporation.

DS100274-1

IEEE/IEC

DS100274-2

November 1998

54AC161

•

54ACT161 Synchronous Presettable Binary Counter

Connection Diagrams

Functional Description

The ’AC/’ACT161 count in modulo-16 binary sequence.

From state 15 (HHHH) they increment to state 0 (LLLL). The

clock inputs of all flip-flops are driven in parallel through a

clock buffer. Thus all changes of the Q outputs (except due

to Master Reset of the ’161) occur as a result of, and syn-

chronous with, the LOW-to-HIGH transition of the CP input

signal. The circuits have four fundamental modes of opera-

tion, in order of precedence: asynchronous reset, parallel

load, count-up and hold. Five control inputs—Master Reset,

Parallel Enable (PE), Count Enable Parallel (CEP) and

Count Enable Trickle (CET)—determine the mode of opera-

tion, as shown in the Mode Select Table. A LOW signal on

MR overrides all other inputs and asynchronously forces all

outputs LOW. A LOW signal on PE overrides counting and

allows information on the Parallel Data (P

) inputs to be

loaded into the flip-flops on the next rising edge of CP. With

PE and MR HIGH, CEP and CET permit counting when both

are HIGH. Conversely, a LOW signal on either CEP or CET

inhibits counting.

The ’AC/’ACT161 use D-type edge-triggered flip-flops and

changing the PE, CEP and CET inputs when the CP is in ei-

ther state does not cause errors, provided that the recom-

mended setup and hold times, with respect to the rising edge

of CP, are observed.

The Terminal Count (TC) output is HIGH when CET is HIGH

and counter is in state 15. To implement synchronous multi-

stage counters, the TC outputs can be used with the CEP

and CET inputs in two different ways.

Figure 1

shows the connections for simple ripple carry, in

which the clock period must be longer than the CP to TC de-

lay of the first stage, plus the cumulative CET to TC delays of

the intermediate stages, plus the CET to CP setup time of

the last stage. This total delay plus setup time sets the upper

limit on clock frequency. For faster clock rates, the carry loo-

kahead connections shown in

Figure 2

are recommended. In

this scheme the ripple delay through the intermediate stages

commences with the same clock that causes the first stage

to tick over from max to min in the Up mode, or min to max

in the Down mode, to start its final cycle. Since this final

cycle requires 16 clocks to complete, there is plenty of time

for the ripple to progress through the intermediate stages.

The critical timing that limits the clock period is the CP to TC

delay of the first stage plus the CEP to CP setup time of the

last stage. The TC output is subject to decoding spikes due

to internal race conditions and is therefore not recom-

mended for use as a clock or asynchronous reset for

flip-flops, registers or counters.

Logic Equations: Count Enable =CEP •CET •PE

TC =Q

•Q

•CET

Mode Select Table

PE CET CEP Action on the Rising

Clock Edge (N)

X X X Reset (Clear)

L X X Load (P

→Q

)

H H H Count (Increment)

H L X No Change (Hold)

H X L No Change (Hold)

H=HIGH Voltage Level

L=LOW Voltage Level

X=Immaterial

State Diagram

Pin Assignment

for DIP and Flatpak

DS100274-3

Pin Assignment

for LCC

DS100274-4

DS100274-5

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State Diagram (Continued)

DS100274-8

FIGURE 1. Multistage Counter with Ripple Carry

DS100274-9

FIGURE 2. Multistage Counter with Lookahead Carry

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Block Diagram

DS100274-6

Please note that this diagram is provided only for the understanding of logic operations and should not be used to estimate propagation delays.

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Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales Office/

Distributors for availability and specifications.

Supply Voltage (V

) −0.5V to +7.0V

DC Input Diode Current (I

)

=−0.5V −20 mA

+ 0.5V +20 mA

DC Input Voltage (V

) −0.5V to V

+ 0.5V

DC Output Diode Current (I

)

=−0.5V −20 mA

+ 0.5V +20 mA

DC Output Voltage (V

) −0.5V to V

+ 0.5V

DC Output Source

or Sink Current (I

)±50 mA

DC V

or Ground Current

per Output Pin (I

or I

GND

)±50 mA

Storage Temperature (T

STG

) −65˚C to +150˚C

Junction Temperature (T

)

CDIP 175˚C

Recommended Operating

Conditions

Supply Voltage (V

)

’AC 2.0V to 6.0V

’ACT 4.5V to 5.5V

Input Voltage (V

) 0VtoV

Output Voltage (V

) 0VtoV

Operating Temperature (T

)

54AC/ACT −55˚C to +125˚C

Minimum Input Edge Rate (∆V/∆t)

’AC Devices

from 30%to 70%of V

@3.3V, 4.5V, 5.5V 125 mV/ns

Minimum Input Edge Rate (∆V/∆t)

’ACT Devices

from 0.8V to 2.0V

@4.5V, 5.5V 125 mV/ns

Note 1: Absolute maximum ratings are those values beyond which damage

to the device may occur. The databook specifications should be met, without

exception, to ensure that the system design is reliable over its power supply,

temperature, and output/input loading variables. National does not recom-

mend operation of FACT™circuits outside databook specifications.

DC Characteristics for ’AC Family Devices

54AC

Symbol Parameter V

=Units Conditions

(V) −55˚C to +125˚C

Guaranteed Limits

Minimum High Level 3.0 2.1 V

OUT

=0.1V

Input Voltage 4.5 3.15 V or V

− 0.1V

5.5 3.85

Maximum Low Level 3.0 0.9 V

OUT

=0.1V

Input Voltage 4.5 1.35 V or V

− 0.1V

5.5 1.65

Minimum High Level 3.0 2.9 I

OUT

=−50 µA

Output Voltage 4.5 4.4 V

5.5 5.4 (Note 2)

or V

3.0 2.4 I

= −12 mA

4.5 3.7 V I

= −24 mA

5.5 4.7 I

= −24 mA

Maximum Low Level 3.0 0.1 I

OUT

=50 µA

Output Voltage 4.5 0.1 V

5.5 0.1 (Note 2)

or V

3.0 0.5 I

=12mA

4.5 0.5 V I

=24mA

5.5 0.5 I

=24mA

Maximum Input 5.5 ±1.0 µA V

, GND

Leakage Current

OLD

Minimum Dynamic

Output Current (Note 3) 5.5 50 mA V

OLD

=1.65V Max

OHD

5.5 −50 mA V

OHD

=3.85V Min

Maximum Quiescent 5.5 160 µA V

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DC Characteristics for ’AC Family Devices (Continued)

54AC

Symbol Parameter V

=Units Conditions

(V) −55˚C to +125˚C

Guaranteed Limits

Supply Current or GND

Note 2: All outputs loaded; thresholds on input associated with output under test.

Note 3: Maximum test duration 2.0 ms, one output loaded at a time.

Note 4: IIN and ICC @3.0V are guaranteed to be less than or equal to the respective limit @5.5V VCC.

ICC for 54AC @25˚C is identical to 74AC @25˚C.

DC Characteristics for ’ACT Family Devices

54ACT

Symbol Parameter V

=Units Conditions

(V) −55˚C to +125˚C

Guaranteed Limits

Minimum High Level 4.5 3.0 V V

OUT

=0.1V

Input Voltage (Note 7) 5.5 3.0 or V

− 0.1V

Maximum Low Level 4.5 0.8 V V

OUT

=0.1V

Input Voltage 5.5 0.8 or V

− 0.1V

Minimum High Level 4.5 4.4 V I

OUT

=−50 µA

Output Voltage 5.5 5.4 (Note 5)

or 3.0V

4.5 3.70 V I

= −24 mA

5.5 4.70 I

= −24 mA

Maximum Low Level 4.5 0.1 V I

OUT

=50 µA

Output Voltage 5.5 0.1 (Note 5)

or V

4.5 0.50 V I

=24mA

5.5 0.50 I

=24mA

Maximum Input 5.5 ±1.0 µA V

, GND

Leakage Current

CCT

Maximum 5.5 1.6 mA V

− 2.1V

/Input

OLD

Minimum Dynamic

Output Current (Note 6) 5.5 50 mA V

OLD

=1.65V Max

OHD

5.5 −50 mA V

OHD

=3.85V Min

Maximum Quiescent 5.5 160 µA V

Supply Current or GND

Note 5: All outputs loaded; thresholds on input associated with output under test.

Note 6: Maximum test duration 2.0 ms, one output loaded at a time.

Note 7: For dynamic operation, a VIH level between 2.0 and 3.0V may be recognized by this device as a high logic level input. For static operation, a VIH ≥2.0V will

be recognized by this device as a high logic level input. Users are cautioned to verify that this will not affect their system.

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AC Electrical Characteristics

54AC

=−55˚C Fig.

Symbol Parameter (V) to +125˚C Units No.

(Note 8) C

=50 pF

Min Max

max

Maximum Count 3.3 55 MHz

Frequency 5.0 80

PLH

Propagation Delay CP to Q

3.3 1.0 14.0 ns

(PE Input HIGH or LOW) 5.0 1.0 10.0

PHL

Propagation Delay CP to Q

3.3 1.0 14.0 ns

(PE Input HIGH or LOW) 5.0 1.0 10.0

PLH

Propagation Delay 3.3 3.0 18.0 ns

CP to TC 5.0 3.0 13.0

PHL

Propagation Delay 3.3 1.0 17.5 ns

CP to TC 5.0 1.0 13.0

PLH

Propagation Delay 3.3 1.0 13.0 ns

CET to TC 5.0 1.0 8.5

PHL

Propagation Delay 3.3 1.0 13.5 ns

CET to TC 5.0 1.0 10.5

PHL

Propagation Delay 3.3 1.0 14.5 ns

MR to Q

5.0 1.0 10.5

PHL

Propagation Delay 3.3 1.0 18.5 ns

MR to TC 5.0 1.0 14.0

Note 8: Voltage Range 3.3 is 3.3V ±0.3V

Range 5.0 is 5.0V ±0.5V

AC Operating Requirements

54AC

=−55˚C Fig.

Symbol Parameter (V) to +125˚C Units No.

(Note 9) C

=50 pF

Guaranteed Minimum

Setup Time, HIGH or LOW 3.3 16.0 ns

to CP 5.0 10.5

Hold Time, HIGH or LOW 3.3 0.5 ns

to CP 5.0 1.5

Setup Time, HIGH or LOW 3.3 15.0 ns

PE to CP 5.0 10.5

Hold Time, HIGH or LOW 3.3 −1.0 ns

PE to CP 5.0 0.0

Setup Time, HIGH or LOW 3.3 7.5 ns

CEP or CET to CP 5.0 5.5

Hold Time, HIGH or LOW 3.3 2.0 ns

CEP or CET to CP 5.0 2.0

Clock Pulse Width 3.3 5.0 ns

(Load) HIGH or LOW 5.0 5.0

Clock Pulse Width 3.3 5.0 ns

(Count) HIGH or LOW 5.0 5.0

MR Pulse Width, 3.3 5.0 ns

LOW 5.0 5.0

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AC Operating Requirements (Continued)

54AC

=−55˚C Fig.

Symbol Parameter (V) to +125˚C Units No.

(Note 9) C

=50 pF

Guaranteed Minimum

rec

Recovery Time 1.5 ns

MR to CP 2.0

Note 9: Voltage Range 3.3 is 3.3V ±0.3V

Voltage Range 5.0 is 5.0V ±0.5V

AC Electrical Characteristics

54ACT

=−55˚C Fig.

Symbol Parameter (V) to +125˚C Units No.

(Note 10) C

=50 pF

Min Max

max

Maximum Count 5.0 85 MHz

Frequency

PLH

Propagation Delay CP to Q

5.0 1.0 10.5 ns

(PE Input HIGH or LOW)

PHL

Propagation Delay CP to Q

5.0 1.0 10.5 ns

(PE Input HIGH or LOW)

PLH

Propagation Delay 5.0 1.0 14.0 ns

CP to TC

PHL

Propagation Delay 5.0 1.0 12.5 ns

CP to TC

PLH

Propagation Delay 5.0 1.0 9.5 ns

CET to TC

PHL

Propagation Delay 5.0 1.0 9.5 ns

CET to TC

PHL

Propagation Delay 5.0 1.0 10.0 ns

MR to Q

PHL

Propagation Delay 5.0 1.0 11.5 ns

MR to TC

Note 10: Voltage Range 5.0 is 5.0V ±0.5V

AC Operating Requirements

54ACT

=−55˚C Fig.

Symbol Parameter (V) to +125˚C Units No.

(Note

11) C

=50 pF

Guaranteed Minimum

Setup Time, HIGH or LOW 5.0 13.0 ns

to CP

Hold Time, HIGH or LOW 5.0 0 ns

to CP

Setup Time, HIGH or LOW 5.0 11.0 ns

PE to CP

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AC Operating Requirements (Continued)

54ACT

=−55˚C Fig.

Symbol Parameter (V) to +125˚C Units No.

(Note

11) C

=50 pF

Guaranteed Minimum

Hold Time, HIGH or LOW 5.0 0 ns

PE to CP

Setup Time, HIGH or LOW 5.0 7.0 ns

CEP or CET to CP

Hold Time, HIGH or LOW 5.0 0.5 ns

CEP or CET to CP

Clock Pulse Width, 5.0 5.0 ns

(Load) HIGH or LOW

Clock Pulse Width, 5.0 5.0 ns

(Count) HIGH or LOW

MR Pulse Width, LOW 5.0 6.5 ns

rec

Recovery Time 5.0 0.5 ns

MR to CP

Note 11: Voltage Range 5.0 is 5.0V ±0.5V

Capacitance

Symbol Parameter Typ Units Conditions

Input Capacitance 4.5 pF V

=OPEN

Power Dissipation Capacitance 45.0 pF V

=5.0V

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Physical Dimensions inches (millimeters) unless otherwise noted

20 Terminal Ceramic Leadless Chip Carrier (L)

NS Package Number E20A

16 Lead Ceramic Dual-In-Line Package (D)

NS Package Number J16A

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Physical Dimensions inches (millimeters) unless otherwise noted (Continued)

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ure to perform when properly used in accordance

with instructions for use provided in the labeling, can

be reasonably expected to result in a significant injury

to the user.

2. A critical component in any component of a life support

device or system whose failure to perform can be rea-

sonably expected to cause the failure of the life support

device or system, or to affect its safety or effectiveness.

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16 Lead Ceramic Flatpak (F)

NS Package Number W16A

54AC161

•

54ACT161 Synchronous Presettable Binary Counter

National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.