DS89C386TMEA National Semiconductor, DS89C386TMEA Datasheet - Page 6

DS89C386TMEA

Manufacturer Part Number

DS89C386TMEA

Description

Line Receiver IC

Manufacturer

National Semiconductor

Datasheets

1.DS89C386TMEAX.pdf (10 pages)

2.DS89C386TMEA.pdf (10 pages)

3.DS89C386TMEA.pdf (10 pages)

Specifications of DS89C386TMEA

Termination Type

SMD

Driver Case Style

SSOP

No. Of Pins

Mounting Type

Surface Mount

Operating Temperature Range

-40Â°C To +85Â°C

Supply Voltage Min

4.5V

Output Current Max

25mA

No. Of Driver/receivers

0/1

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Application Information

In Figure 6 , VX, where X is a number, is the waveform volt-

age level at which the propagation delay measurement ei-

ther starts or stops. Furthermore, V1 and V2 are normally

identical. The same is true for V3 and V4. However, as men-

tioned before, these levels are not standardized and may

vary, even with similar devices from other companies. Also

note, V

The single-ended skew provides information about the pulse

width distortion of the output waveform. The lower the skew,

the less the output waveform will be distorted. For best case,

skew would be zero, and the output duty cycle would be

50%, assuming the input has a 50% duty cycle.

FIGURE 7. Circuit for Measuring Differential

REF

in Figure 1 should equal V1 and V2 in Figure 6 .

Propagation Delays (See Figure 8 )

Waveforms for Circuit 1

FIGURE 5. Circuits for Measuring Single-Ended Propagation Delays (See Figure 6 )

FIGURE 6. Propagation Delay Waveforms for Circuit 1 and Circuit 2 (See Figure 5 )

(Circuit 1)

(Circuit 3)

DS012085-12

DS012085-8

(Continued)

DS012085-10

For differential propagation delays, V1 may not equal V2.

Furthermore, the crossing point of RI and RI

zero volts on the differential waveform. (See middle wave-

form in Figure 8 .) This is true whether V1 equals V2 or not.

However, if V1 and V2 are specified voltages, then V1 and

V2 are less likely to be equal to the crossing point voltage.

Thus, the differential propagation delays will not be mea-

sured from zero volts on the differential waveform.

The differential skew also provides information about the

pulse width distortion of the output waveform relative to the

differential input waveform. The higher the skew, the greater

the distortion of the output waveform. Assuming the differen-

tial input has a 50% duty cycle, the output will have a 50%

duty cycle if skew equals zero and less than a 50% duty

cycle if skew is greater than zero.

Only t

is measured singIe-endedly but corresponds to differential

FIGURE 8. Propagation Delay Waveforms

is specified in this datasheet for the DS89C386. t

Waveforms for Circuit 2

for Circuit 3 (see Figure 7 )

Waveforms for Circuit 3

(Circuit 2)

DS012085-9

corresponds to

DS012085-11

DS012085-13

DS89C386TMEA National Semiconductor, DS89C386TMEA Datasheet - Page 6

DS89C386TMEA

Specifications of DS89C386TMEA

Available stocks

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