mm74hc4538 Fairchild Semiconductor, mm74hc4538 Datasheet - Page 3

mm74hc4538

Manufacturer Part Number

mm74hc4538

Description

Dual Retriggerable Monostable Multivibrator

Manufacturer

Fairchild Semiconductor

Datasheet

1.MM74HC4538.pdf (10 pages)

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Timing Diagram

Circuit Operation

The MM74HC4538 operates as follows (refer to logic dia-

gram). In the quiescent state, the external timing capacitor,

goes HIGH and C

ence voltage (V

through R

Upper

and the Q output goes LOW.

The following, more detailed description of the circuit oper-

ation refers to both the logic diagram and the timing dia-

gram.

QUIESCENT STATE

In the quiescent state, before an input trigger appears, the

output latch is HIGH and the reset latch is HIGH (#1 in logic

diagram).

Thus the Q output (pin 6 or 10) of the monostable multivi-

brator is LOW (#2, timing diagram).

The output of the trigger-control circuit is LOW (#3), and

transistors M1, M2, and M3 are turned off. The external

timing capacitor, C

reference circuit has a LOW output (#5). Transistor M4 is

turned ON and transmission gate T1 is turned OFF. Thus

the lower reference circuit has V

input and a resulting LOW output (#6).

In addition, the output of the trigger-control reset circuit is

LOW.

, is charged to V

, back up to the upper reference voltage (V

), at which point the one-shot has timed out

REF

, is charged to V

discharges quickly to the lower refer-

Lower

. When a trigger occurs, the Q output

). C

at the noninverting

(#4), and the upper

then charges,

REF

TRIGGER OPERATION

The MM74HC4538 is triggered by either a rising-edge sig-

nal at input A (#7) or a falling-edge signal at input B (#8),

with the unused trigger input and the Reset input held at

the voltage levels shown in the Truth Table. Either trigger

signal will cause the output of the trigger-control circuit to

go HIGH (#9).

The trigger-control circuit going HIGH simultaneously ini-

tiates three events. First, the output latch goes LOW, thus

taking the Q output of the HC4538 to a HIGH State (#10).

Second, transistor M3 is turned on, which allows the exter-

nal timing capacitor, C

ground (#11). (Note that the voltage across C

the input of the upper reference circuit comparator.) Third,

transistor M4 is turned off and transmission gate T1 is

turned ON, thus allowing the voltage across C

appear at the input of the lower reference circuit compara-

tor.

When C

reference circuit (#12), the outputs of both reference cir-

cuits will be HIGH (#13). The trigger-control reset circuit

goes HIGH, resetting the trigger-control circuit flip-flop to a

LOW State (#14). This turns transistor M3 OFF again,

allowing C

time constant t

turned ON and transmission gate T1 is turned OFF. Thus a

high voltage level is applied to the input of the lower refer-

ence circuit comparator, causing its output to go LOW

(#16). The monostable multivibrator may be retriggered at

any time after the trigger-control circuit goes LOW.

When C

reference circuit (#17), the output of the upper reference

circuit goes LOW (#18). This causes the output latch to

charges up to the reference voltage of the upper

discharges to the reference voltage of the lower

to begin to charge back up toward V

(#15). In addition, transistor M4 is

, to rapidly discharge toward

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mm74hc4538 Fairchild Semiconductor, mm74hc4538 Datasheet - Page 3

mm74hc4538

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