LMH0024 Datasheet, PDF(3/8 Page) National Semiconductor (TI) – 3.3V SMPTE 259M / 344M Adaptive Cable Equalizer

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LMH0024 Datasheet, PDF (3/8 Pages) National Semiconductor (TI) – 3.3V SMPTE 259M / 344M Adaptive Cable Equalizer

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AC Electrical Characteristics

Over Supply Voltage and Operating Temperature ranges, unless otherwise specified (Note 3).

Symbol Parameter

Conditions

Reference

Min

Typ

Max Units

BRSDI

Input Data Rate

Maximum Equalized Cable

Length (with equalizer

pathological)

270 Mbps, Belden 1694A,

0.2UI output jitter, (Note 4)

270 Mbps, Belden 8281,

0.2UI output jitter, (Note 4)

SDI, SDI

143

540 Mbps

350

280

540 Mbps, Belden 1694A,

0.2UI output jitter, (Note 4)

250

540 Mbps, Belden 8281,

0.2UI output jitter, (Note 4)

180

tr,tf

Output Rise Time, Fall Time

20% â 80%, (Note 4)

Mismatch in Rise/Fall Time

(Note 4)

SDO, SDO

100

220

tOS

ROUT

RLIN

RIN

CIN

Output Overshoot

Output Resistance

Input Return Loss

Input Resistance

Input Capacitance

(Note 4)

single-ended, (Note 5)

(Note 8)

single-ended

single-ended, (Note 5)

SDI, SDI

â¦

18-20

1.3

kâ¦

Note 1: "Absolute Maximum Ratings" are those parameter values beyond which the life and operation of the device cannot be guaranteed. The stating herein of

these maximums shall not be construed to imply that the device can or should be operated at or beyond these values. The table of "Electrical Characteristics"

specifies acceptable device operating conditions.

Note 2: Current flow into device pins is defined as positive. Current flow out of device pins is defined as negative. All voltages are stated referenced to VEE = 0

Volts.

Note 3: Typical values are stated for VCC = +3.3V and TA = +25Â°C.

Note 4: Specification is guaranteed by characterization.

Note 5: Specification is guaranteed by design.

Note 6: The maximum input voltage swing assumes a nonstressing, DC-balance signal; specifically, the SMPTE-recommended color bar test signal. Pathological

or other stressing signals may not be used. This specification is for 0m cable only.

Note 7: Supply current depends on the amount of cable being equalized. The current is highest for short cable and decreases as the cable length is increased.

Refer to Figure 1.

Note 8: Input return loss is dependent on board design. The LMH0024 meets this specification on the SD024 evaluation board from 5MHz to 1.5GHz.

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