HCTL-2032 Avago Technologies US Inc., HCTL-2032 Datasheet - Page 13

HCTL-2032

Manufacturer Part Number

HCTL-2032

Description

IC QUAD DECODER/COUNTER 32DIP

Manufacturer

Avago Technologies US Inc.

Datasheets

1.HCTL-2032-SC.pdf (21 pages)

2.HCTL-2032.pdf (6 pages)

Specifications of HCTL-2032

Applications

Encoder to Microprocessor

Interface

8-Bit Tristate

Voltage - Supply

4.5 V ~ 5.5 V

Package / Case

32-DIP (0.600", 15.24mm)

Mounting Type

Through Hole

Current, Supply

1 μA

Function Type

32-Bits

Logic Function

Counter/Decoder

Logic Type

CMOS/LSTLL

Number Of Circuits

Dual

Package Type

PDIP-32

Special Features

Binary, Bus, Schmitt-Trigger, Tri-State

Temperature, Operating, Range

-40 to +100 °C

Voltage, Supply

4.5 to 5.5 V

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

Q2414340

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Current page: 13 of 21
Download datasheet (384Kb)

Digital Noise Filter

The digital noise filter section is responsible for rejecting

noise on the incoming quadrature signals. The input sec-

tion uses two techniques to implement improved noise

rejection. Schmitt-trigger inputs and a three-clock-cycle

delay filter combine to reject low level noise and large,

short duration noise spikes that typically occur in mo-

tor system applications. Both common mode and dif-

ferential mode noise are rejected. The user benefits from

these techniques by improved integrity of the data in the

counter. False counts triggered by noise are avoided.

Figure 11 shows the simplified schematic of the input sec-

tion. The signals are first passed through a Schmitt-trig-

ger buffer to address the problem of input signals with

Figure 11. Simplified Digital Noise Filter Logic

CHA

CHB

CHI

slow rise times and low-level noise (approximately < 1V).

The cleaned up signals are then passed to a four-bit delay

filter. The signals on each channel are sampled on rising

clock edges. A time history of the signals is stored in the

four-bit shift register. Any change on the input is tested

for a stable level being present for three consecutive ris-

ing clock edges. Therefore, the filtered output waveforms

can change only after an input level has the same value

for three consecutive rising clock edges.

Refer to Figure 12, which shows the timing diagram. The

result of this circuitry is that short noise spikes between

rising clock edges are ignored and pulses shorter than

two clock periods are rejected.

filtered

CHA

CHB

CHI

HCTL-2032 Avago Technologies US Inc., HCTL-2032 Datasheet - Page 13

HCTL-2032

Specifications of HCTL-2032

Available stocks

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