SN65LVDS390 Datasheet, PDF(1/19 Page) Texas Instruments – HIGH-SPEED DIFFERENTIAL LINE RECEIVERS

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SN65LVDS390 Datasheet, PDF (1/19 Pages) Texas Instruments – HIGH-SPEED DIFFERENTIAL LINE RECEIVERS

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SN65LVDS386/388A/390, SN65LVDT386/388A/390

SN75LVDS386/388A/390, SN75LVDT386/388A/390

SLLS394G â SEPTEMBER 1999 â REVISED NOVEMBER 2004

HIGH-SPEED DIFFERENTIAL LINE RECEIVERS

FEATURES

â¢ Four- ('390), Eight- ('388A), or Sixteen- ('386)

Line Receivers Meet or Exceed the

Requirements of ANSI TIA/EIA-644 Standard

â¢ Integrated 110-â¦ Line Termination Resistors

on LVDT Products

â¢ Designed for Signaling Rates (1) Up To

630 Mbps

â¢ SN65 Version's Bus-Terminal ESD Exceeds

15 kV

â¢ Operates From a Single 3.3-V Supply

â¢ Typical Propagation Delay Time of 2.6 ns

â¢ Output Skew 100 ps (Typ) Part-To-Part Skew

Is Less Than 1 ns

â¢ LVTTL Levels Are 5-V Tolerant

â¢ Open-Circuit Fail Safe

â¢ Flow-Through Pinout

â¢ Packaged in Thin Shrink Small-Outline

Package With 20-mil Terminal Pitch

DESCRIPTION

This family of four-, eight-, or sixteen-, differential line

receivers (with optional integrated termination) im-

plements the electrical characteristics of low-voltage

differential signaling (LVDS). This signaling technique

lowers the output voltage levels of 5-V differential

standard levels (such as EIA/TIA-422B) to reduce the

power, increase the switching speeds, and allow

operation with a 3-V supply rail. Any of the eight or

sixteen differential receivers provides a valid logical

output state with a Â±100-mV differential input voltage

within the input common-mode voltage range. The

input common-mode voltage range allows 1 V of

ground potential difference between two LVDS

nodes. Additionally, the high-speed switching of

LVDS signals almost always requires the use of a line

impedance matching resistor at the receiving end of

the cable or transmission media. The LVDT products

eliminate this external resistor by integrating it with

the receiver.

(1) Signaling Rate, 1/t, where t is the minimum unit interval and is

expressed in the units bits/s (bits per second)

âLVDS388A, âLVDT388A

DBT PACKAGE

(TOP VIEW)

A1A 1

A1B 2

A2A 3

A2B 4

AGND 5

B1A 6

B1B 7

B2A 8

B2B 9

AGND 10

C1A 11

C1B 12

C2A 13

C2B 14

AGND 15

D1A 16

D1B 17

D2A 18

D2B 19

38 GND

37 VCC

36 ENA

35 A1Y

34 A2Y

33 ENB

32 B1Y

31 B2Y

30 DGND

29 DVCC

28 DGND

27 C1Y

26 C2Y

25 ENC

24 D1Y

23 D2Y

22 END

21 VCC

20 GND

See application section for VCC

and GND description.

âLVDS390, âLVDT390

D OR PW PACKAGE

(TOP VIEW)

1A 1

1B 2

2A 3

2B 4

3A 5

3B 6

4A 7

4B 8

16 EN1,2

15 1Y

14 2Y

13 VCC

12 GND

11 3Y

10 4Y

9 EN3,4

âLVDS386, âLVDT386

DGG PACKAGE

(TOP VIEW)

A1A 1

A1B 2

A2A 3

A2B 4

A3A 5

A3B 6

A4A 7

A4B 8

B1A 9

B1B 10

B2A 11

B2B 12

B3A 13

B3B 14

B4A 15

B4B 16

C1A 17

C1B 18

C2A 19

C2B 20

C3A 21

C3B 22

C4A 23

C4B 24

D1A 25

D1B 26

D2A 27

D2B 28

D3A 29

D3B 30

D4A 31

D4B 32

64 GND

63 VCC

62 VCC

61 GND

60 ENA

59 A1Y

58 A2Y

57 A3Y

56 A4Y

55 ENB

54 B1Y

53 B2Y

52 B3Y

51 B4Y

50 GND

49 VCC

48 VCC

47 GND

46 C1Y

45 C2Y

44 C3Y

43 C4Y

42 ENC

41 D1Y

40 D2Y

39 D3Y

38 D4Y

37 END

36 GND

35 VCC

34 VCC

33 GND

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas

Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of the Texas

Instruments standard warranty. Production processing does not

necessarily include testing of all parameters.

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