Texas Instruments Network Card 4Q 2006 User Manual

Technology for Innovators

Interface Selection Guide

4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

Interface Selection Guide

Introduction

Texas Instruments (TI) provides complete interface solutions that empower you to differentiate your products and accelerate time-to-market.

Our expertise in high-speed, mixed-signal circuits, system-on-a-chip integration and advanced product development processes ensures you will

receive the silicon, support tools, software and technical documentation to create and deliver the best products on time and at competitive prices.

Included in this selection guide you will find design considerations, technical overviews, graphic representation of portfolios, parametric tables

and resource information on the following families of devices:

LVDS: (p. 4) TIA/EIA-644A specification

designed for differential transmission

delivering signaling rates into the Gbps range

and power in the mW range with low EMI to

the telecommunication and consumer markets.

FlatLink™ 3G: (p. 19) A new family of serial-

izers and deserializers designed for mobile

phone displays.

CardBus Power Switches: (p. 34) The

CardBus controller uses the card detect and

voltage sense pins to determine a PC card’s

voltage requirements and then directs the

PCMCIA power switch to enable the proper

SerDes: (p. 20) Serializers and deserializers

in the gigabit range designed to bridge large

numbers of data bits over a small number of

data lines in telecommunication applications.

voltages. Standard PC cards require that V

xECL: (p. 4) Emitter coupled logic (xECL),

high-speed differential interface technology

designed for low jitter and skew.

be switched between ground, 3.3 V, and 5 V,

while VPP is switched between ground, 3.3 V,

5 V, and 12 V. CardBay sockets have the stan-

DVI/PanelBus™: (p. 22) The Digital Visual

Interface Specification, DVI, is an industry

standard developed by the Digital Display

Working Group (DDWG) for high-speed digital

connection to digital displays. DVI uses

transition-minimized DC balanced (TMDS)

data signaling.

dard requirements for V , but require ground,

3.3 V, and 5 V to VPP, and ground, 1.8 V, or 3.3

CML: (p. 4) Current-mode logic (CML), high

speed differential interface technology.

V to V

. Other PC card applications may

CORE

simply not need 12 V or VPP while still having

M-LVDS: (p. 8) TIA/EIA-899 specification with

all the benefits of LVDS applicable to multi-

point bus architecture in backplanes. Used

often for clock distribution, e.g. AdvancedTCA.

the standard requirements for V . Therefore,

consider the voltage requirements of the

application when selecting a PCMCIA

power switch.

TMDS: (p. 24) Transition minimized differential

signaling is the electrical interface used by DVI

and HDMI.

Digital Isolators: (p. 10) The new ISO72x

high-speed digital isolators use state-of-the-art

integrated capacitive coupling and silicon-

dioxide isolation barrier to provide up to

150-Mbps signaling rate with only 1-ns jitter,

best-of-class noise immunity and high reliability.

1394: (p. 36) IEEE 1394 (FireWire ) high-speed

interconnection enables simple, low-cost,

high-bandwidth, real-time data connectivity

between computers, peripherals and consumer

electronics.

USB Hub Controllers and Peripheral

Devices: (p. 25) The USB standard was

established to make connecting PCs, peripher-

als and consumer electronics flexible and easy.

The hub controller manages USB port connect/

disconnect activities and a peripheral controller

enables USB connectivity of a peripheral

device to either a host or hub.

GTLP: (p. 39) Gunning transceiver logic plus

(GTLP) derived from the JEDEC JESD8-3 GTL

standard is a reduced-voltage-swing

technology designed for high-speed interface

between cards operating at LVTTL logic levels

and backplanes operating at GTLP signal levels.

RS-485/422: (p. 11) Robust TIA/EIA-485 and

TIA/ EIA-422 specifications specially designed

for harsh, industrial environments transmitting

a differential signal up to 50 Mbps or 1.2 km.

RS-232: (p. 13) TIA/EIA-232 specification

defining single-ended interface between data

terminal equipment (DTE) and data circuit-

terminating equipment (DCE).

USB Port Protection: (p. 26) Transient voltage

suppressor protects USB 1.1 devices from ESD

and electrical noise transients.

VME: (p. 41) The VMEbus™ is a standardized,

64-bit, backplane architecture that is coordi-

nated and controlled by VITA. VME is used

extensively in military, industrial and aerospace

applications.

USB Power Managers: (p. 27) TI products,

like TPS204xA and TPS205xA, are designed to

meet all the USB 1.0 and 2.0 requirements for

current-limiting and power switching to reliably

control the power on the voltage bus.

UARTs: (p. 16) Universal Asynchronous

Receiver/Transmitters are the key logic compo-

nent of serial communication utilizing RS232,

RS485/422 or LVDS transceivers to transmit or

receive between remote devices performing

parallel to serial conversion in the transmit

process and serial to parallel conversion in the

receive process.

Clock Distribution Circuits: (p. 42)

TI offers both single-ended and differential

clock buffers that perform from below 200 MHz

up to 3.5 GHz in a variety of fan-out options. In

addition to simple option for customers needing

differential signals (LVPECL) and single-ended

signals (LVTTL/LVCMOS) from the same device.

PCI Express : (p. 29) A robust, scalable,

flexible and cost-effective I/O interconnect.

PCI Bridges: (p. 33) A peripheral component

interconnect (PCI) bridge provides a high-

performance connection path between either

two PCI buses or a PCI component and one or

more DSP devices.

CAN: (p. 18) Controller Area Network

(ISO11898) specification commonly used in

automotive and industrial applications describes

differential signaling at a rate up to 1 Mbps on

a 40-meter bus with multipoint topology.

Texas Instruments 4Q 2006

Interface Selection Guide

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LVDS, xECL, CML

time of a clock signal, can limit the maximum

bandwidth performance and lead to data

sampling errors. Low skew specifications

make high-speed interconnect devices

excellent for signal buffering.

constant current driver delivers about 3.5 mA

to a 100-W load.

Design Considerations

Signaling Rate — TI offers repeaters/transla-

tors and crosspoint switches with signaling

rates up to 4.0 Gbps.

Technical Information

• LVDS is based on the TIA/EIA-644A

standard conceived to provide a general-

purpose electrical-layer specification for

drivers and receivers connected in a

point-to-point or multidrop interface.

Jitter — Reducing jitter, the deviation of a

signal timing event from its ideal position,

has become a priority for ensuring reliability

in high-speed data buses.

Power Consumption — Low-voltage

differential signaling (LVDS) offers a low-power

alternative to ECL and PECL devices. Current-

mode drivers in LVDS produce a constant

current, which allows power consumption to

be relatively independent of frequency. The

Skew — Excessive skew, the time delta

between the actual and expected arrival

LVDS Family of Products

LVDS117

16 Channels

10 Channels

LVDS387

LVDS389

LVDS386

LVDS116

Up to 400 Mbps

Up to 630 Mbps

≥ 1 Gbps

Clock Distribution Devices

(See pg. 42 for table)

CDCLVD110

8 Channels

Quads

LVDS388A

LVDS108

LVDS109

LVDS104

LVDS105

LVDS047

LVDS31

LVDS3487

LVDS391

LVDS048A/348

LVDS32/33

LVDS3486

LVDS250

LVDS390

Duals

LVDS9637

LVDS34

LVDS22

LVCP22

LVCP23

LVDS122

LVDS9638

LVDS1

LVDS049

LVDS050

LVDS051

LVDS1050

CML100

LVDS100

Singles

LVDS2

LVDS179

LVDS180

LVDS101

LVDS16 LVP16

LVDS17 LVP17

LVDS18 LVP18

LVDS19 LVP19

LVDS20 LVP20

Transmitters

Receivers

Transceivers

Repeaters/

Translators

Crosspoint

Switches

Resources For a complete list of resources (evaluation modules, data sheets and application notes), visit interface.ti.com

Literature

Number

Description

Number

Description

Application Notes

SLLA014A

SLLA030C

SLLA031A

SLLA034A

SLLA038B

SLLA053B

SLLA054A

SLLA065

SLLA082B

SLLA100

SLLA101

SLLA103

SLLA104

SLLA105

SLLA107

SLLA147

Low-Voltage Differential Signaling (LVDS) Design Notes (Rev. A)

SCAA059

SCAA062

Part Number

AC-Coupling Between Differential LVPECL, LVDS, HSTL, and CML

DC-Coupling Between Differential LVPECL, LVDS, HSTL, and CML

Description

Reducing Electromagnetic Interference with LVDS (Rev. C)

Using an LVDS Receiver with TIA/EIA-422 Data (Rev. A)

Slew Rate Control of LVDS Circuits (Rev. A)

Interface Circuits for TIA/EIA-644 (LVDS) (Rev. B)

Performance of LVDS with Different Cables (Rev. B)

LVDS Multidrop Connections (Rev. A)

A Comparison of LinBiCMOS and CMOS Process Technologies in LVDS ICs

Active Fail-Safe in TI's LVDS Receivers (Rev. B)

Increase Current Drive Using LVDS

Interfacing Different Logic with LVDS Receivers

LVPECL and LVDS Power Comparison

Suggestions for LVDS Connections

DSP to DSP Link Using LVDS

Live Insertion with Differential Interface Products

Suitable LVDS Architectures

Price*

Evaluation Modules (EVMs)

SN65LVDS31-32EVM

SN65LVDS31-32BEVM Evaluation Module for LVDS31 and LVDS32B

Evaluation Module for LVDS31 and LVDS32

49.00

99.00

49.00

25.00

49.00

SN65LVDS31-33EVM

SN65LVDS386EVM

SN65LVDS387EVM

SN65LVDS100EVM

SN65LVDS20EVM

SN65CML20EVM

SN65LVCP22-23EVM

SN65LVDS122EVM

SN65LVDS250EVM

Evaluation Module for LVDS31 and LVDS33

SN65LVDS386 Evaluation Module

SN65LVDS387 Evaluation Module

SN65LVDS100 Evaluation Module

SN65LVDS20 Evaluation Module

SN65CML20 Evaluation Module

SN65LVCP22 Evaluation Module

SN65LVDS122 Evaluation Module

SN65LVDS250 Evaluation Module

Note: IBIS models are available at interface.ti.com

^*Suggested resale price in U.S. dollars.

Interface Selection Guide

Texas Instruments 4Q 2006

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LVDS, xECL, CML

LVDS/LVPECL/CML Repeaters/Translators and Crosspoints Selection Guide

No. No.

of of

Tx Rx

Signaling Jitter Part-to- Tx tpd

ESD

HBM

Input

Signal

Output

Rate

Max

Part

Typ tpd Typ

Pin/

Device

Description

Signal (Mbps) (ps) Skew Max (ns)

(ns) Max (mA) (kV) Package(s) Price*

Crosspoint Switch Family

SN65LVCP22

SN65LVCP23

SN65LVCP40

2X2 Crosspoint Switch:

LVDS Outputs

2X2 Crosspoint Switch:

LVPECL Outputs

Dual 1:2 Mux with Equalizer and

Pre-Emphasis

LVPECL,

LVDS, CML

LVDS

1000

105

100

500

150

0.65

16SOIC,

16TSSOP

16SOIC,

16TSSOP

48QFN

2.70

5.20

LVPECL, LVPECL 1300

LVDS, CML

LVPECL,

LVDS, CML

LVPECL,

LVDS, CML

LVPECL,

LVDS, CML

CML

LVDS

4000

1500

2000

254

100

145

17.40

4.75

SN65LVDS122²2X2 Crosspoint Switch:

LVDS Output

0.9

16SOIC,

16TSSOP

TSSOP

SN65LVDS250²4X4 Crosspoint Switch:

LVDS Output

7.75

Repeaters/Translators

SN65CML100

LVDS/LVPECL/CML-to-CML

Repeater/Translator

LVPECL,

LVDS, CML

LVPECL,

LVDS, CML

LVPECL, LVPECL 2000

LVDS, CML

CML

1500

2000

100

130

0.8

—

8SOIC,

8VSSOP

8SOIC,

8VSSOP

8SOIC,

8VSSOP

8QFN

2.55

SN65LVDS100²LVDS/LVPECL/CML

LVDS

to LVDS Repeater/Translator

SN65LVDS101²LVDS/LVPECL/CML-to-LVPECL

Repeater/Translator

0.9

SN65LVDS16/17 2.5-V/3.3-V Oscillator Gain

Stage/Buffer (single ended/diff inputs)

SN65LVDS18/19 2.5-V/3.3-V Oscillator Gain

Stage/Buffer (single ended/diff inputs)

LVPECL

LVDS

2000

1000

4000

0.63

LVPECL

130

0.63

—

8QFN

1.95

3.30

2.55

1.95

4.40

SN65LVDS20

2.5-V/3.3-V LVDS repeater with enable

LVPECL

LVDS, CML

LVPECL LVPECL 2000

LVPECL LVPECL 1000

SN65LVP16/17 2.5-V/3.3-V Oscillator Gain Stage/Buffer

(single ended/diff inputs)

SN65LVP18/19 2.5-V/3.3-V Oscillator Gain Stage/Buffer

(single ended/diff inputs)

SN65LVP20

—

2.5-V/3.3-V LVPECL

LVPECL LVPECL 4000

LVDS, CML

¹Supply voltage for all devices listed above is 3.3 V. ²Integrated termination available (100-Ω)-SN65LVDTxxx.

New products are listed in bold red.

*Suggested resale price in U.S. dollars in quantities of 1,000.

PECL Selection Guide

Signaling tpd

tpd

Typ

(ns)

—

No. No.

of of

Tx Rx

ESD Supply

Max HBM Voltage

Input

Signal

TTL

Output

Rate

Signal (Mbps)

Typ

(ns)

1.2

Device

Description

Replacement for Agere BDG1A & BPNGA,

built-in surge protection

(mA) (kV)

(V)

3.3, 5

Pin/Package(s) Price*

TB5D1M

—

PECL

TTL

400

340

400

560

16SOIC gull-wing,

16SOIC

16SOIC gull-wing,

16SOIC

16SOIC gull-wing,

16SOIC

16SOIC gull-wing,

16SOIC

7.20

8.65

7.20

TB5D2H

TB5R1

Replacement for Agere BDG1A & BDGLA,

power down open circuit o/p

Replacement for Agere BRF1A & BRF2A,

8KΩ Input Impedance

TTL

1.2

—

1.2

—

2.5

2.6

—

2.5

3.3, 5

—

PECL

TB5R2

Replacement for Agere BRS2A & BRS2B

PECL

TTL

TB5R3

Replacement for Agere BRF1A

LVPECL

TTL

16SOIC gull-wing,

16SOIC

TB3R1

3.3-V supply alternative to Agere

BRF1A & BRF2A

3.3-V supply alternative to Agere

BRS2A & BRS2B

Dual differential transceiver

LVTTL

3.3

16SOIC

TB3R2

16SOIC

TB5T1

LVPECL,

LVTTL

LVDS, LVPECL, LVTTL

PECL, LVECL, ECL

LVDS, LVPECL, LVTTL

PECL, LVECL, ECL

LVDS, LVPECL, LVTTL

PECL, LVECL, ECL

LVPECL,

LVTTL

8SOIC gull-wing,

8SOIC

16SOIC, 16TSSOP 1.60

SN65LVDS33

Receiver with –4 V to 5 V

Common-Mode Range, LVDS32 Footprint

—

3.3

SN65LVDS348¹Receiver with –4 V to 5 V

16SOIC, 16TSSOP 1.60

Common-Mode Range, LVDS48 Footprint

SN65LVDS34¹Receiver with –4 V to 5 V

Common-Mode Range

8SOIC

1.15

1.80

SN65LVDS352¹Receiver with –4 V to 5 V

Common-Mode Range

LVDS, LVPECL, LVTTL

PECL, LVECL, ECL

24TSSOP

¹Integrated Termination Available (100-Ω)-SN65LVDTxxx.

*Suggested resale price in U.S. dollars in quantities of 1,000.

Texas Instruments 4Q 2006

Interface Selection Guide

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LVDS, xECL, CML

LVDS Selection Guide

Signaling

Rate

(Mbps)

Part-to-Part

Skew Max

(ps)

Tx tpd

Typ

(ns)

No. of No. of

Device

Single

Description

Input Signal

Output Signal

SN65LVDS1

SN65LVDS2¹

SN65LVDS179

Driver

—

LVTTL

LVDS

630

400

—

1.7

Receiver

LVTTL

Full-Duplex Transceiver, No Enables

Full-Duplex Transceiver, with Enables

LVDS, LVTTL

LVTTL, LVDS

SN65LVDS180

Dual

SN65LVDS9638

SN65LVDS9637

SN65LVDS049

SN65LVDS050

SN65LVDS051

SN65LVDS1050

Driver

—

LVTTL

LVDS

400

250

800

1000

100

—

1.7

—

1.3

1.7

Receiver

LVTTL

Transceiver, Driver and Receiver Enable

Transceiver, Driver Enable Only

Transceiver with 2.7-V Supply

Multiplexed LVDS Repeater

LVDS, LVTTL

LVDS

LVTTL, LVDS

LVDS, LVTTL

LVTTL, LVDS

LVDS

—

SN65LVDS22

—

Quad

SN65LVDS047

SN65LVDS31

Driver with Flow-Through Pinout

Driver, AM26LS31 Footprint

—

LVTTL

LVDS

LVTTL

400

630

400

630

1000

800

1.8

1.7

—

SN65LVDS3487

SN65LVDS391

SN65LVDS048A

SN65LVDS32

Driver, MC34987 Footprint

800

Driver with Flow-Through Pinout

Receiver with Flow-Through Pinout

Receiver, AM26LS32 Footprint

Receiver, MC3486 Footprint

1500

1000

—

SN65LVDS3486

SN65LVDS390¹

Receiver with Flow-Through Pinout

8-Channel

SN65LVDS389

SN65LVDS388A¹

Driver

—

LVTTL

LVDS

630

1500

1000

1.7

Receiver

—

LVTTL

16-Channel

SN65LVDS387

SN65LVDS386¹

Driver

—

LVTTL

LVDS

630

1500

1000

1.7

—

Receiver

—

LVTTL

¹Integrated termination available (100-Ω) - SN65LVDTx.

Interface Selection Guide

Texas Instruments 4Q 2006

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LVDS, xECL, CML

LVDS Selection Guide

tpd Typ

(ns)

ESD

HBM

(kV)

Supply

Voltage

(V)

Max

(mA)

Device

Pin/Package(s)

Price

Single Family

SN65LVDS1

SN65LVDS2¹

SN65LVDS179

—

2.6

3.7

3.3

8SOIC, 5SOP

0.47

1.35

8SOIC, 8VSSOP

14SOIC, 14TSSOP

SN65LVDS180

Dual Family

SN65LVDS9638

SN65LVDS9637

SN65LVDS049

SN65LVDS050

SN65LVDS051

SN65LVDS1050

—

2.1

1.9

3.7

3.3

2.7

3.3

8HTSSOP, 8SOIC, 8VSSOP

16TSSOP

1.15

1.00

2.00

2.80

16SOIC, 16TSSOP

16TSSOP

SN65LVDS22

16SOIC, 16TSSOP

Quad Family

SN65LVDS047

SN65LVDS31

—

2.4

2.1

2.5

3.3

16SOIC, 16TSSOP

16SOIC, 16TSSOP, 16SOP

16SOIC

1.30

1.50

1.30

1.50

SN65LVDS3487

SN65LVDS391

SN65LVDS048A

SN65LVDS32

16SOIC, 16TSSOP

16SOIC, 16TSSOP, 16SOP

16SOIC

SN65LVDS3486

SN65LVDS390¹

16SOIC, 16TSSOP

8-Channel Family

SN65LVDS389

SN65LVDS388A¹

—

3.3

38TSSOP

2.90

2.5

16-Channel Family

SN65LVDS387

SN65LVDS386¹

—

3.3

64TSSOP

5.55

2.5

¹Integrated termination available (100-Ω)-SN65LVDTx

*Suggested resale price in U.S. dollars in quantities of 1,000.

Texas Instruments 4Q 2006

Interface Selection Guide

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Multipoint-LVDS (M-LVDS)

Type 1

High

Type 2

High

M-LVDS Devices from TI

• TIA/EIA-899 standard compliant

guarantees true multipoint

M-LVDS Features

• TIA/EIA-899 standard

• Driver output current

2.4 V

• Type 1 receivers: 25-mV hysteresis

to prevent oscillation

150 mV

50 mV

• 11.3 mA vs. 3.5 mA (LVDS)

• Receiver thresholds

• Type 2 receivers: internal failsafe

(no external bias network)

• –1-V to 3.4-V common mode

• 3.3-V supply operation

0 mV

• 50 mV vs. 100 mV (LVDS)

• Driver edge rate control

• 1 ns min allows ease-of-stub design

• Contention provisions

–50 mV

Low

• Driver short circuit limited to 43 mA

• Drivers, receivers and disabled devices

must limit their bus voltage from

0 to 2.4 V

• Drivers are tested with 32 contending

nodes

2.4 V

Transition Region

M-LVDS for ATCA

• Synchronous ATCA clock signals

(8 kHz, 19.22 MHz and user defined

<100 MHz) use M-LVDS.

Receiver types.

Multipoint LVDS

700 Mbps

600 Mbps

LVDM1676

LVDM1677

500 Mbps

LVDM050

LVDM179

LVDM180

LVDM320

LVDM051

LVDM176

M-LVDS Receivers

400 Mbps

M-LVDS Transceivers

M-LVDS Clock Distribution

(see p.42 for table)

300 Mbps

200 Mbps

LVDM: a version of LVDS with

double the output current

LVDM22

MLVD080

MLVD082

MLVD128

MLVD047

MLVD129

MLVD201

MLVD203

MLVD206

MLVD207

MLVD2

MLVD3

LVDM31

100 Mbps

MLVD200A

MLVD202A

MLVD204A

MLVD205A

Single

Dual

Quad

8-Channel

16-Channel

Interface Selection Guide

Texas Instruments 4Q 2006

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Multipoint-LVDS (M-LVDS)

M-LVDS Selection Guide

I_CC

No. No.

Half/

Full

Signaling Part-to-

Rate Part Skew Typ

(Mbps) Max (ps) (ns)

tpd

Typ

ESD

TIA/EIA-899

—

Max HBM

(mA) (kV)

Pin/

Package(s)

—

8SOIC

Standard

Compliance Price*

Device

Rx Type Duplex

Input Signal

M-LVDS

Output Signal

LVTTL

(ns)

—

3.6

SN65MLVD2

SN65MLVD3

—

200

100

200

100

200

100

200

—

2.5

1.5

2.5

1.5

2.5

1.5

—

ꢀ

Web

1.55

1.85

1.55

1.85

1.55

1.85

1.45

LVTTL

SN65MLVD200A

SN65MLVD201

SN65MLVD202A

SN65MLVD203

SN65MLVD204A

SN65MLVD205A

SN65MLVD206

SN65MLVD207

SN65MLVD047

Half

Full

Half

Full

Half

Full

Half

LVTTL, M-LVDS LVTTL, M-LVDS

1000

8SOIC

14SOIC

8SOIC

14SOIC

8SOIC

14SOIC

16SOIC,

16TSSOP

48TSSOP

64TSSOP

8SOIC,

—

LVTTL

M-LVDS

—

SN65MLVD128

SN65MLVD129

SN65MLVD080

SN65MLVD082

SN65LVDM179

—

Half

Full

LVTTL

LVTTL, LVDS

LVTTL, LVDM

M-LVDS

LVTTL, M-LVDS

LVTTL, LVDM

200

250

500

800

1000

1.5

2.4

1.7

1.5

3.7

140

180

ꢀ

—

3.80

4.75

1.70

8VSSOP

16SOIC,

16TSSOP

16SOIC,

16TSSOP

16SOIC

SN65LVDM050²

SN65LVDM22

SN65LVDM31

SN65LVDM1676

—

Full

—

LVTTL, LVDM

LVDM

LVTTL, LVDM

LVDM

500

250

150

630

1000

—

1.7

3.7

—

2.20

2.50

1.55

7.75

—

LVCMOS

LVDM

1000

2.3

2.5

—

Half

LVTTL, LVDM

175

64TSSOP

¹Supply voltage for all devices listed above is 3.3 V and temperature range is –40 to 85°C.

²Automotive version available, temperature range of –40 to 125°C

*Suggested resale price in U.S. dollars in quantities of 1,000.

New products are listed in bold red.

Preview products are listed in bold blue.

Resources For a complete list of resources (evaluation modules, data sheets and application notes), visit interface.ti.com

Literature Number

Application Notes

SLLA106

SLLA088A

SLLA108

Description

TIA/EIA-485 and M-LVDS, Power and Speed Comparison

Transmission at 200 Mbps in VME Card Cage Using LVDM (Rev. A)

Introduction to M-LVDS (TIA/EIA-899)

SLLA121

SLLA119

Interoperability of M-LVDS and BusLVDS

Wired-Logic Signaling with M-LVDS

SLLA127

SLLA067A

M-LVDS Signaling Rate Versus Distance

Comparing Bus Solutions

Price

Part Number

Description

Evaluation Modules (EVMs)

MLVD20xEVM

SN65LVDM31-32BEVM

M-LVDS Evaluation Module

SN65LVDM31-32BEVM Evaluation Module

99.00

49.00

Note: IBIS models are available at interface.ti.com

*Suggested resale price in U.S. dollars.

Texas Instruments 4Q 2006

Interface Selection Guide

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Digital Isolators

Recently introduced alternative isolation

techniques that use magnetic coupling may

still share the deficiencies of the older opto-

coupler solutions such as a restricted operating

temperature along with new concerns such as

the absence of a fail-safe output, an inability to

operate with DC-only signals and concerns

associated with susceptibility to external

magnetic fields and operating life under high-

voltage conditions. TI isolation solutions are

designed to eliminate such problems.

Technical Information

Design Considerations

The ISO72xx is a family of digital isolators

using the industry’s first application of digital

capacitive isolation technology. Digital buffers

capacitively couple data signals through a

Reliability — Best-in-class, high voltage

and functional reliability with > 25 years.

Magnetic Immunity — Immunity from

external magnetic fields to prevent data

corruption is a critical consideration for

industrial applications. 1E6 times higher

magnetic immunity than inductive couplers.

silicone-dioxide (SiO ) insulation barrier which

provides galvanic isolation of up to 4000 V.

The device receives digital inputs and provides

clean digital outputs while preventing noise

currents and/or excessive voltages from

entering the local ground.

Signaling rate — TI offers digital isolators

with the highest signaling rates of up to

150 Mbps.

Magnetic Flux Density vs. Frequency

Jitter — To ensure signal integrity,

jitter reduction is a priority. ISO72xx products

offer the lowest jitter with 1-ns jitter at

150-Mbps PRBS NRZ data input.

ISO721

Inductive

IEC61000-4-9

IEC61000-4-8

100E+6

100E+0

100E-6

Key Features

• 4000-V

isolation

peak

• UL 1577, IEC 60747-5-2

(VDE 0884, Rev. 2)

• IEC 61010-1 and CSA approved

• 50-kV/µs transient immunity

• Signaling rate 0 Mbps to 150 Mbps

• Low propagation delay

100E-12

100E-18

• Low pulse skew

0.001

0.01

0.1

100

(pulse-width distortion)

MHz

• Low-power sleep mode

• High-electromagnetic immunity

• Low-input current requirement of 10 µA

• Fail-safe output

Digital Isolators Selection Guide

Low-Power

Sleep

Mode

Transient

Immunity

(Min)

Isolation

Rating (UL)

Data Rate

(Max)

Supply

Price

Device

ISO721

ISO721M

ISO722

ISO722M

ISO150

Description

Single channel (TTL)

Single channel (CMOS)

Single channel OUT EN (TTL)

Single channel OUT EN (CMOS)

Dual channel bi-directional

Dual channel uni-directional (TTL)

Voltage

3.3 V, 5 V

5 V

3.3 V, 5 V

2500 V

1500 V

2500 V

100 Mbps

150 Mbps

100 Mbps

150 Mbps

80 Mbps

1 Mbps

25 Mbps

150 Mbps

1 Mbps

25 kV/µs

1.6 kV/µs

25 kV/µs

1.65

1.75

8.10

1.10

2.00

2.50

1.10

2.00

2.50

RMS

Yes

ISO7220A

ISO7220C

ISO7220M Dual channel uni-directional (CMOS)

ISO7221A

ISO7221C

Dual channel bi-directional (TTL)

25 Mbps

150 Mbps

ISO7221M Dual channel bi-directional (CMOS)

*Suggested resale price in U.S. dollars in quantities of 1,000.

New products are listed in bold red.

Preview products are listed in bold blue.

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

RS-485/422

range allows data exchange at signaling rates

of up to 50 Mbps or to distances of several

kilometers at lower rates.

20 percent of the characteristic impedance

of the cable and can vary from 90 Ω to 120 Ω.

Design Considerations

Interoperability — In general, RS-485 is a

superset of RS-422. Compliance with the

TIA/EIA standard will ensure reliable data

communication in a variety of networks,

including Modbus, INTERBUS, PROFIBUS,

BACnet and a variety of proprietary protocols.

Technical Information

Line Loading — RS-422 is capable of support-

ing one driver and up to 10 receivers on the bus

line. Standard RS-485 is capable of supporting

up to 32 unit loads or nodes on the bus line.

However, there are reduced unit load devices

available that can support up to 256 devices.

• The main difference between RS-422 and

RS-485 is the multidrop and multipoint

bus architecture—that is, one driver to

many receivers and many drivers to many

receivers, respectively.

Robustness — RS-485 is a robust interface

standard for use in industrial environments.

It features a wide common mode range of

–7 V to 12 V. Parts from TI are available with

ESD protection up to 30 kV.

• Typical signaling rates and distances for

these standards are up to 10 Mbps or up

to 1.2 km. TI offers devices capable of

reaching signaling rates of up to 50 Mbps.

Termination — A multipoint bus architecture

requires termination at both ends of the bus

line. The termination resistors must be within

Reliability — Integrated fail-safe circuitry

protects the bus from interpreting noise as

valid data when short-circuit, open-circuit or

idle line fault conditions occur.

Resources For a complete list of resources (evaluation modules, data sheets and application notes), visit interface.ti.com

Literature Number

Application Notes

SLLA036B

Description

Interface Circuits for TIA/EIA-485 (RS-485)

SLLA070C

SLLA112

422 and 485 Standards Overview and System Configurations

RS-485 for E-Meter Applications

Speed and Distance — Low noise coupling

of differential signaling with twisted-pair

cabling and wide common-mode voltage

SLLA177

SLLA169

SLLA143

PROFIBUS Electrical-Layer Solutions

Use Receiver Equalization to Extend RS-485 Data Communications

RS-485 for Digital Motor Control Applications

Note: IBIS models are available at interface.ti.com

RS-485/422 Family of Products

Texas Instruments 4Q 2006

Interface Selection Guide

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RS-485/422

RS-485/422 Selection Guide

Signaling

Rate

No. of

Dr/Rx

Supply

(V)

ESD

(kV)

Receiver

Fail-Safe

Device¹

HVD12

HVD11

HVD10

HVD08

HVD3082E

HVD3085E

HVD3088E

HVD485E

HVD1176

HVD22

HVD21

HVD20

HVD23

HVD24

HVD07

HVD06

HVD05

Features

(Mbps)

Nodes

256

160

256

Package(s)

8-PDIP, 8-SOIC

8-PDIP, 8-SOIC, 8-MSOP

8-SOIC

Price

1.75

1.80

1.85

1.90

0.90

1.00

0.70

1.55

1.65

1.80

1.50

1.55

1.60

0.90

1.20

1.30

1.05

1.26

0.44

1.80

1.95

1.85

1.70

1.85

0.85

1.10

1.60

1.05

1.71

3.24

4.10

1.80

2.40

1.90

2.50

1.15

1.50

1.10

1.40

2.70

Enables

DE, RE

3.3V Supply – Low-Speed Slew-Rate Control

3.3V Supply – High-Speed Signaling

Wide Supply Range: 3 to 5.5V

Low Power Mode, Optimized for Low-Speed

Low Power Mode, Optimized for Mid-Speed

Low Power Mode, Optimized for High-Speed

Half Duplex Transceiver

PROFIBUS Transceiver, EN 50170

–20V to 25V Common Mode Operation

–20V to 25V Common Mode, 5Mbps

–20V to 25V Common Mode, 25Mbps

Receiver Equalization, 160 Meters at 25 Mbps

Receiver Equalization, 500 Meters at 3 Mbps

Strong Driver Outputs – Low Signal Rate

Strong Driver Outputs – Mid Signal Rate

Strong Driver Outputs – Fast Signal Rate

Low Power

0.2

0.5

Short, Open, Idle

Open

Short, Open, Idle

Open

3.3

3 to 5

8-PDIP, 8-SOIC

8-SOIC

256

128

256

0.25

LBC176

LBC176A

LBC184

LBC182

ALS176

176B

Low Power, Fast Signaling, ESD Protection

Transient Protection, IEC Air, Contact, Surge

IEC ESD Protection, Air and Contact Tests

Fast Signaling, Skew: 15ns

Open

Cost Effective

None

8-PDIP, 8-SOIC, 8-SOP

8-SOIC

HVD30

3.3V Supply, no Enables, 25Mbps

3.3V Supply, no Enables, 5Mbps

3.3V Supply, no Enables, 1Mbps

Balanced Receivers, Ideal for Interbus

3.3V Supply, with Enables, 25Mbps

3.3V Supply, with Enables, 5Mbps

3.3V Supply, with Enables, 1Mbps

Strong Bus Outputs, no Enables, 25Mbps

Strong Bus Outputs, no Enables, 5Mbps

Strong Bus Outputs, no Enables, 1Mbps

Balanced Receivers, Ideal for Interbus

Low Power, without Enable

High Signaling Rate, High ESD w/o Enables

Strong Bus Outputs, with Enables, 25Mbps

Strong Bus Outputs, with Enables, 5Mbps

Strong Bus Outputs, with Enables, 1Mbps

Low Power, with Enables

High Signaling Rate, with Enables

Dual full-duplex drivers/receivers

FAST-20 SCSI, Skew: 3ns

Low Power

High Signaling Rate, High ESD

Low Power

High Signaling Rate, High ESD

Low Power

High Signaling Rate, High ESD, Low Power

Low Power

High Signaling Rate, High ESD, Low Power

Standard

Short, Open, Idle

None

Short, Open, Idle

None

Open

Short, Open, Idle

Open

HVD31

8-SOIC

14-SOIC

8-SOIC

8-PDIP, 8-SOIC

14-SOIC

HVD32

HVD379

HVD33

HVD34

HVD35

HVD50

3.3

DE, RE

HVD51

HVD52

HVD179

LBC179

LBC179A

HVD53

DE, RE

1DE, 2DE

Separate DIR

DE, Triple RE

Complementary

Pairwise

Complementary

Pairwise

HVD54

HVD55

14-SOIC

14-PDIP, 14-SOIC, 16-QFN

14-SOIC

LBC180

ALS180

ALS1177

ALS1178

LBC170

LBC171

LBC172

LBC172A

LBC174

LBC174A

LBC173

LBC173A

LBC175

LBC175A

175

Open

—

16-PDIP, 16-SOIC

20-SOIC, 16-SSOP

20-SOIC, 20-SSOP

16-PDIP, 20-SOIC

16-PDIP, 16-SOIC, 20-SOIC

16-PDIP, 20-SOIC

16-PDIP, 16-SOIC, 20-SOIC

16-PDIP, 16-SOIC

16-PDIP, 16-SOIC, 16-SOP

3/3

4/0

—

Open

0/4

Short, Open, Idle

Open

Short, Open, Idle

None

¹These devices use the temperature prefixes: SN55 = military (–55° C to 125° C); SN65 = industrial (–40° C to 85° C); SN75 = commercial (0° C to 70° C).

*Suggested resale price in U.S. dollars in quantities of 1,000.

Interface Selection Guide

Texas Instruments 4Q 2006

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RS-232

RS232: IEC6100-4-2 (Level 4)

ESD-Protected Devices

Key Features

Applications

• No external ESD device needed with

these system-level ESD ratings:

• The three-driver, five-receiver MAX3243E

is most popular in applications like PCs,

notebooks and servers.

TI offers new RS-232 devices with system-

level IEC61000-4-2 electrostatic discharge

(ESD) protection. This protection makes the

RS-232 interface immune to damage from

ESD strikes that may occur while the system

is up and running, such as when a connection

to the RS-232 cable is made. These devices

are drop-in replacements and are functionally

identical to the existing industry-standard

solutions, providing a seamless transition in

the qualification process. These devices meet

the requirements for low-power, high-speed

applications such as portable/consumer,

telecom and computing equipment.

–

15-kV human-body model (HBM)

8-kV IEC61000-4-2, contact

discharge

15-kV IEC61000-4-2, air-gap

discharge

• The MAX3238E/37E offer

complementary five-driver, three-

receiver solutions. These two devices

are popular in PC peripheral

applications like data cables, printers,

modems, industrial control, etc.

• The MAX3227E/23E/22E/21E are

popular in portable handheld

applications due to their reduced bit

count, package size and low power

consumption.

• Higher-speed versions like the

SNx5C3232E/23E/22E/21E meet today’s

higher throughput needs through the

serial interface.

–

• Improved drop-in replacement of

popular RS-232 devices

• Data rates meet or exceed today’s

high-speed-application requirements

• Flexible power-saving options enable

longer battery life

• Wide portfolio permits selection of the

right form, fit and functionality

• Industry-leading interface product

space with assured source of supply

• NiPdAu Pb-Free solution provides

whisker-free, reliable package options

• Space-saving QFN package options for

portable applications

TI offers these new devices in the NiPdAu

Pb-Free finish, which eliminates tin whiskers

that might compromise long-term system reli-

ability. TI offers the space-saving QFN pack-

age on select devices in addition to its

• The MAX232E and MAX213 provide a

higher noise margin for more rugged

environments such as industrial control.

already extensive RS-232 portfolio.

TS5V330

TS3V330

Analog MUX

SDRAM

Flash

EMIF

Video

Video DAC

THS8200

THS8135

TVP5146

or 5150A

Video

Out

AMP

TMS320DM64x™

forTHS8135 only

ADSL

Volume

Control

EMAC

McASP

Audio DAC

TLV320DAC26

Cable

Modem

JTAG

PCI

Bus

Head-

phone

TS5A23157

Analog

MUX

Host CPU

RS-232

Speaker

Modem

USB

DVI

802.11

1284

1394

Personal video recorder application block diagram.

Texas Instruments 4Q 2006

Interface Selection Guide

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RS-232

RS232 Selection Guide

Data Rate

(kbps)

500

ESD

HBM (kV)

Supply

Voltage(s) (V)

3.3, 5

Dual 3.3V, 12V

I_CC

(max) (mA)

Device

Drivers

Receivers

Pin/Package(s)

Price*

MAX3223E

MAX3222E

SN75C3222E

SN65C3222E

SN75C3223E

SN65C3223E

MAX3238E

MAX3221E

SN65C3221E

SN75C3221E

MAX3237E

ADM2209E

MAX232E

IEC61000-4-2

20SOIC, 20SSOP, 20TSSOP, 24QFN

28SSOP, 28TSSOP, 32RHB

16SSOP, 16TSSOP

28SSOP, 28TSSOP, 32RHB

38TSSOP

38TSSOP, 16PDIP, 16SOIC, 16SSOP

16SOIC, 16TSSOP

0.84

1.00

2.50

2.88

2.11

2.50

0.87

0.88

3.10

2.50

0.87

TBD

0.39

TBD

1.92

500

1000

400

250

1000

960

120

250

MAX202E

MAX207E

MAX208E

MAX3386E

24SOIC, 24SSOP

24PDIP, 24SOIC, 24SSOP

20SOIC, 20TSSOP

VL 1.65V to V_CC

V_CC3V to 5.5V

3.3, 5

SN65C3232E

SN75C3232E

MAX211E

MAX3227E

MAX3232E

MAX3243E

MAX3318E

MAX213

MAX202

MAX207

MAX208

MAX211

1000

120

1000

250

500

460

120

250

IEC61000-4-2

15KV HBM

10KV HBM

4KV HBM

16SOIC, 16SSOP, 16TSSOP

20SOIC, 20SSOP, 28SOIC, 28SSOP

16SSOP

16SOIC, 16SSOP, 16TSSOP

28SOIC, 28SSOP, 28TSSOP, 32QFN

20SSOP, 20TSSOP

28SOIC, 28SSOP

16SOIC, 16TSSOP

24SOIC, 24SSOP

24PDIP, 24SOIC, 24SSOP

28SOIC, 28SSOP

3.92

3.22

TBD

1.20

0.68

0.63

1.10

1.08

0.51

0.63

0.96

0.63

0.74

0.88

1.12

0.96

1.20

0.88

1.58

4.32

2.38

2.50

3.02

3.24

3.46

3.42

1.94

2.38

2.79

2.81

1.51

1.78

1.89

0.45

0.68

2.61

0.48

0.72

0.22

3.3, 5

2.25, 3

0.02

20.7

MAX222

18PDIP, 18SOIC

16SSOP, 16TSSOP

MAX3221

MAX3223

MAX3232

MAX3238

MAX3243

MAX3318

SN65C23243

SN65C3221

SN65C3223

SN65C3232

SN65C3238

SN65C3243

SN75C23243

SN75C3221

SN75C3223

SN75C3232

SN75C3238

SN75C3243

SN75LP1185

SN75LP196

SN75LPE185

SN75185

3.3, 5

2.25, 3

3.3, 5

3.3 or 5

3.3, 5

3.3 or 5

3.5 or 5

3.3 or 5

5, 12

12, 5

20SOIC, 20SSOP, 20TSSOP

16SOIC, 16SSOP, 16TSSOP

28SSOP, 28TSSOP

28SOIC, 28SSOP, 28TSSOP

20SSOP, 20TSSOP

250

460

250

48SSOP, 48TSSOP

1000

250

1000

256

120

128

120

16SOIC, 16SSOP, 16TSSOP

20SOIC, 20SSOP, 20TSSOP

16SOIC, 16SSOP, 16TSSOP

28SOIC, 28SSOP, 28TSSOP

48SSOP, 48TSSOP

16SOIC, 16SSOP, 16TSSOP

20SOIC, 20SSOP, 20TSSOP

16SOIC, 16SSOP, 16TSSOP

28SOIC, 28SSOP, 28TSSOP

20PDIP, 20SOIC, 20SSOP

20PDIP, 20SOIC, 20SSOP, 20TSSOP

24PDIP, 24SOIC, 24SSOP, 24TSSOP

20PDIP, 20SOIC, 20SSOP, 20TSSOP

20PDIP, 20SOIC

SN75196

SN75LV4737A

MAX232

SN75150

SN75155

12, 5

3 or 5

–12

28SSOP

16PDIP, 16SO, 16SOIC

8PDIP, 8SOIC

14PDIP, 14SO, 14SOIC

2KV HBM

SN75188

120

–9

*Suggested resale price in U.S. dollars in quantities of 1,000.

New products are listed in bold red.

Preview products are listed in bold blue.

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

RS-232

RS-232 Selection Guide (Continued)

Data Rate

ESD

HBM (kV)

2KV HBM

—

Supply

Voltage(s) (V)

I_CC

(max) (mA)

0.45

0.75

0.16

Device

(kbps)

120

Drivers

—

Receivers

Pin/Package

Price*

SN75C1406

SN75C185

SN75C188

TL145406

GD65232

GD75232

GD75323

LT1030

MAX3222

MC1488

—

12, 5

–12

12, 5

9, 5

12, 5

–5

3.3, 5

–9

—

12, 5

3.3 or 5

5 or 12

16PDIP, 16SO, 16SOIC

20PDIP, 20SOIC

0.86

1.08

0.31

0.94

0.29

0.27

0.41

1.44

1.36

0.20

0.25

0.29

3.42

1.80

3.24

0.72

1.30

1.80

0.22

0.90

0.76

0.31

2.25

2.81

3.60

2.16

0.36

3.15

3.00

3.15

14PDIP, 14SO, 14SOIC, 14SSOP

16PDIP, 16SOIC

20PDIP, 20SOIC, 20SSOP, 20TSSOP

20SOIC

14PDIP, 14SOIC

20SOIC, 20SSOP, 20TSSOP

14PDIP

20PDIP

16SOIC

—

11.9

—

+/-50

—

0.7

0.32

—

MC1489

MC1489A

SN65C1154

SN65C1406

SN65C3222

SN75154

SN751701

SN75186

SN75189

SN75189A

SN752232

SN75C1154

SN75C189

SN75C189A

SN75C198

SN75C3222

SN75LBC187

SN75LBC241

UA9636A

UC5170C

UC5180C

UC5181C

20SOIC, 20SSOP, 20TSSOP

16PDIP, 16SO, 16SOIC

8SO

5, 9, 12

12, 5

24SOIC

—

14PDIP, 14SO, 14SOIC

48SSOP, 48TSSOP

20PDIP, 20SO, 20SOIC

14PDIP, 14SO, 14SOIC

14PDIP, 14SO, 14SOIC, 14SSOP

14PDIP, 14SOIC

20SOIC, 20SSOP, 20TSSOP

28SSOP

28SOIC

8PDIP, 8SOIC

28PLCC

12, 5

–12

3.3 or 5

–12

—

4.75 to 5.25

28PLCC

*Suggested resale price in U.S. dollars in quantities of 1,000.

Voice

CODEX

2-to-4 Wire

Interface

Keypad

LCD

Display

USB Plug

LED

IrDA

Analog

Phone Line

RS-232

SDRAM

FLASH

Tuner

ADC

Antenna

CATV

CPU

OFDM

QAM

QPSK

Tuner

ADC

Bluetooth^®

Controller

Smart Card

MMC SD

DEMOD

Camera

Satellite

PCI

Interface

Stereo Audio Line In

Stereo Audio

CODEC

803.11

Video Processor

DVI TMDS

PCI IF

SDRAM

FLASH

TV CH3-4 MOD

Plug

1394 PHY

LAN

Port

EMIF

3-Ch

Amp

3-Ch

DAC

Video

Encoder

Video Port

ADSL

EMAC

Cable MODEM

Adapter

Video

Decoder

3-Ch

Amp

3-Ch

DAC

Video Input

Video Port

PDA interface application block diagram.

Texas Instruments 4Q 2006

Interface Selection Guide

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UARTs (Universal Asynchronous Receiver/Transmitters)

preventing system bottlenecks. When a fast

external modem is used, designers should be

sure the computer’s UART can handle the

modem’s maximum transmission rate. For

example, the TL16C550D UART contains a

16-byte buffer, enabling it to support higher

sustained transmission rates than the older

8250 UART. To reduce software buffering

and data overruns, TI has added its patented

hardware autoflow control to all new

To accommodate the requirements of diverse

applications, TI offers a wide portfolio of

parallel-to-serial and serial-to-parallel UARTs

in highly integrated, space-saving configura-

tions that allow designers to increase system

performance while decreasing space

requirements.

Design Considerations

The UART is a key component of an

asynchronous serial communications system.

For example, all internal modems have their

own UARTs. In this application, parallel data

within the computer is converted by the

UART to serial data before being transferred

to the modem. In addition to PC/peripheral

communication, UARTs can be used for

chip-to-chip communications.

As one of the world’s leading high-volume

semiconductor manufacturers, TI offers

designers and OEMs the satisfaction of

knowing they are backed by a supplier with

the resources to meet their needs. These

include a dedicated marketing and technical

support team to assist with any issues.

designs and most existing UARTs. Most

UARTs allow the divisor to be programmed

from 1 to 65,535 and sometimes with an

added predivisor factor of 1, 4, 16 or 64.

As data transfer speeds have increased to

support applications such as telecommunica-

tion base stations, cell phones, PCs, fax

servers and rack modems, the transmission

rate of the UART has become critical to

UART Family of Products

Key Features

• Single-, dual- and quad-channel devices

TL16C754B

• 16- and 64-byte FIFOs available

• 5-, 3.3-, 2.5- and 1.8-V supply

TL16C554A

• Clock rates up to 24/20/16-MHz for

1.5/1.25/1.0-Mbps data transfer rates

TL16C2552

TL16C2752

TL16C752B

TL16C2550

TL16C552A

TL16C452

• Hardware and software autoflow control

• Programmable sleep mode and

low-power mode

TL16PC564B

TL16PIR552A

• Industrial temperature characterization

TL16C451

TL16C450

TL16C550D

TL16C550C

TL16C750

TIR1000

No FIFO

16-Byte

64-Byte

Special

Functions

FIFO Memory Size

Interface Selection Guide

Texas Instruments 4Q 2006

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UARTs (Universal Asynchronous Receiver/Transmitters)

UART Selection Guide

Voltage

(V)

Characterized

Temp. (°C)

Device

Channel(s)

FIFOs

Package(s)

Description

Price

Universal Asynchronous Receiver/Transmitters (UARTs)

TL16C2550

16-Byte

1.8/2.5/3.3/5

–40 to 85

32 QFN, 44 PLCC,

48 TQFP

Dual UART with Programmable Auto-RTS and Auto-CTS

2.80

TL16C2552

TL16C2752

TL16C450

TL16C451

TL16C452

TL16C550C

16-Byte

64-Byte

None

1.8/2.5/3.3/5

–40 to 85

—

0 to 70

–40 to 85

32 QFN, 44 PLCC

44 PLCC

40 DIP, 44 PLCC

68 PLCC

Dual UART with Programmable Auto-RTS and Auto-CTS

Dual UART with Customizable Trigger Levels

Single UART

3.00

Call

1.50

2.50

2.55

1.75

Single UART with Parallel Port

Dual UART with Parallel Port

Single UART with Hardware Autoflow Control

68 PLCC

16-Byte

3.3/5

40 DIP, 44 PLCC,

48 LQFP, 48 TQFP

32 QFN

TL16C550D

16-Byte

2.5/3.3/5

–40 to 85

Single UART with Hardware Autoflow Control

1.75

48 LQFP, 48 TQFP

68 PLCC, 80 TQFP

68 PLCC, 80 LQFP

TL16C552A

TL16C554A

TL16C750

TL16C752B

TL16C754B

TL16PC564B/BLV

TL16PIR552

16-Byte

16/64-Byte

64-Byte

16/64-Byte

16-Byte

–40 to 85

0 to 70

Dual UART with Parallel Port

Quad UART with Hardware Autoflow Control

3.85

6.00

3.70

3.10

8.35

44 PLCC, 64 LQFP Single UART with Hardware Autoflow Control, Low-Power Modes

3.3

3.3/5

48 LQFP, 48 TQFP

68 PLCC, 80 LQFP

100 BGA, 100 LQFP

80 QFP

Dual UART with Hardware Autoflow Control, Low-Power Modes

Single UART with PCMCIA Interface

5.90/6.10

6.10

0 to 70

Dual UART with Selectable IR & 1284 Modes

*Suggested resale price in U.S. dollars in quantities of 1,000.

TL16C550D Asynchronous Communications Element

Get samples, datasheets, EVMs and reports at: www.ti.com/sc/device/TL16C550D

Receiver

FIFO

Internal

Data Bus

Asynchronous Communications Element

with Autoflow Control

• Up to 24/20/16-MHz clock rates for

up to 1.5/1.25/1-Mbps operation

• Programmable baud-rate generator

allows division to generate internal

16x clock

• Independent clock input receiver

• Fully programmable serial interface

characteristics

Receiver

Shift

4–2

SIN

47–43

Data

Bus

Buffer

Receiver

Buffer

D(7–0)

The TL16C550D is a performance-enhanced

version of TI’s industry-standard TL16C550C

single-channel UART with 16-byte FIFO. The

TL16C550D can support voltages of down to

2.5 V and data transfer rates of up to 1.5

Mbps. Combining these features with an

ultra-small 32-pin QFN package, the

TL16C550D is ideal for a variety of portable

applications.

RCLK

Receiver

Timing and

Control

Line

Control

RTS

Divisor

Latch (LS)

Baud

Generator

BAUDOUT

Divisor

Latch (MS)

CS0

CS1

Autoflow

Control

(AFE)

Transmitter

Timing and

Control

Line

CS2

ADS

Status

Select

and

Control

Logic

Transmitter

FIFO

• Available packages: DIP, PLCC,

TQFP and QFN

RD1

RD2

Transmitter

Shift

Transmitter

Holding

SOUT

WR1

WR2

DDIS

Modem

Control

TXRDY

XIN

Applications

CTS

DTR

DSR

DCD

XOUT

RXRDY

Modem

Control

Logic

Modem

Status

• PDAs

Key Features

• MP3 players

• Gaming systems

• Modems

• Serial ports

• Telecom

OUT1

• Expanded voltage and package options

ideal for small form factors

• Lower voltage and higher frequency than

TL16C550C

• Pin-for-pin replacement for TL16C550C

• Programmable auto-RTS and auto-CTS

(autoflow)

Power

Supply

OUT2

INTRPT

Interrupt

Enable

Interrupt

Control

Logic

Interrupt

Identification

FIFO

Control

Functional block diagram.

Texas Instruments 4Q 2006

Interface Selection Guide

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CAN (3.3-V and 5-V High-Speed CAN Transceivers)

Electromagnetic Compatibility — An

important requirement for products intended

for networking applications is that they

behave in a way that does not interfere with

the operation of other nearby components or

systems. TI offers specially designed and

tested transceivers for EM compatibility

without malfunction or degradation of

performance in rugged EM environments.

Compatibility in this definition means both

immunity to external EM fields, and the

limited strength of generated EM fields.

Supply Voltage — In addition to 5-V

transceivers, TI offers 3.3-V transceivers

that accomplish the same tasks with less

than half the power and save on the cost of

an additional voltage regulator in 3.3-V

powered applications.

Design Considerations

Bus Protection — Features such as

short-circuit protection, thermal shutdown

protection, glitch-free power-up and power-

down protection, high-ESD protection,

wide common-mode range that provides for

common-mode noise rejection, and current-

limiting circuitry to protect the transceivers

and system from damage during a fault

condition have been incorporated into

these devices.

Technical Information

• ISO11898 specifies the physical-layer

implementation of CAN.

• This specification describes a twisted

wire pair bus with 120-W characteristic

impedance (Zo) and differential signaling

rate of up to 1 Mbps on a 40-meter bus

with multi-drop topology.

CAN Transceiver Selection Guide

Supply

Voltage

ESD

(kV)

Bus Fault

Protection (V)

–27 to 40

–4 to 16

Operating

Temp Range

–40 to 125° C

–40 to 85° C

–40 to 125° C

Device

Description

Max (mA)

Price*

5.0

SN65HVD251

SN65HVD1050

SN65HVD230

SN65HVD231

SN65HVD232

SN65HVD233

SN65HVD234

SN65HVD235

Improved Drop-In Replacement for the PCA82C250 and PCA82C251

Improved Drop-In Replacement for the TJA1050 with Better ESD

3.3-V CAN Bus Transceiver, Standby Mode

3.3-V CAN Bus Transceiver, Sleep Mode

3.3-V CAN Bus Transceiver, Cost Effective

3.3-V CAN Bus Transceiver, Standby Mode, Diagnostic Loop-back

3.3-V CAN Bus Transceiver, Standby Mode, Sleep Mode

3.3-V CAN Bus Transceiver, Standby Mode, Autobaud Loop-back

0.90

0.55

1.35

1.30

1.50

1.45

1.50

5.0

3.3

All devices have a signaling rate of 1 Mbps.

New products are listed in bold red.

*Suggested resale price in U.S. dollars in quantities of 1,000.

Selection Guide

Device

DSPs with CAN Controllers (3.3-V Supply Voltage)

TMS320LF2403A

TMS320LF2407A

TMS320F2801-60

TMS320F2802-60

TMS320F2810

TMS320C2811

TMS320LC2403A

TMS320LF2407A

TMS320F28016

TMS320F2806

TMS320C2810

TMS320F2812

TMS320LF2406A

TMS320F2801

TMS320C2802

TMS320F2808

TMS320F2811

TMS320C2812

TMS320LC2406A

TMS320F2801-100

TMS320F2802-100

TMS320F2809

TMS320R2811

TMS320R2812

ARM7 Microprocessors with CAN Controllers (3.3-V Supply Voltage)

TMS470R1A64 TMS470R1A384 TMS470R1A128

TMS470R1B512

TMS470R1A256

TMS470R1B768

TMS470R1A288

TMS470R1B1M

Besides CAN’s high reliability, another of the

main advantages of CAN when compared to

alternative networks, is the availability of

higher layer protocols (HLPs). There are many

CAN-related system development packages

prepared for these HLPs – hardware interface

cards and easy-to-use software packages that

provide system designers with a wide range of

design and diagnostic tools. These compo-

nents provide for the rapid development of

complex control applications without building

each node of a system network from scratch.

bit-timing and implementation functions. It

provides standardized communication objects

for real-time data with Process Data Objects

(PDOs) and Service Data Objects (SDOs), and

provides special functions such as a time

stamp, a sync message, and emergency

shut-down procedures as well as network

management, boot-up commands, and error

management.

Standard Compliant Protocols

CAN is a serial communications bus for robust

real-time control applications that is rapidly

gaining the attention of industrial process,

test, measurement and control engineers

worldwide. It has excellent error detection

and confinement capabilities, and has the

flexibility to operate either as a primary

backbone data communications network, as a

secondary local embedded system, or as both.

The engineering community is just now

exploring the limits of what this bus can do

when coupled with newly developed intelligent

sensing technologies.

Among the most popular HLPs are CANopen,

CANkingdom and DeviceNet with applications

ranging from medical equipment to process

control and assembly line coordination.

The HLP relieves a developer from the burden

of dealing with CAN-specific details such as

Interface Selection Guide

Texas Instruments 4Q 2006

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Flatlink^™3G

FPC cabling typically interconnects the

Serializer-Transmitter with the display.

FlatLink 3G – Display SerDes

for Mobile Phones

Compared to parallel signaling, FlatLink 3G

outputs significantly reducing the EMI of the

interconnect by over 20 dB. The electromag-

netic emission of the device itself is very low

and meets the SAE J1752/3 ‘M’-specification.

FlatLink 3G uses low EMI subLVDS to carry

24-bit color RGB data from applications

processors, such as OMAP™ from TI, to the

LCD Driver. It caters to screen resolutions

from QVGA to XGA.

LCD

Driver

Flatlink™ 3G

LVDS302

CLK DATA

LVDS301

Application

Processor

with

RGB

Video

Interface

Resolution (W x H)

XGA

SVGA

QVGA

CIF+

240

640

352

320

800

640

480

1024

480

800

1024

320

200

416

440

480

250

320

640

320

800

600

768

LVDS301

VGA

LVDS303

LVDS302

HVGA

LVDS305

LVDS304

HVGA

QVGA

VGA

LVDS306

WVGA

SVGA

XGA

3-Ch

2-Ch

1-Ch

FlatLink™ 3G Selection Guide

Number of

Parallel

Outputs

Number of

Parallel

Inputs

Data

Throughout

(MB/s)

Serial Data

Receiver

Channels

Serial Data

Transmitter

Channels

PLL Frequency

(MHz)

Device

Description

Price

SN65LVDS301

SN65LVDS302

SN65LVDS303

SN65LVDS304

SN65LVDS305

SN65LVDS306

QVGA-XGA Serializer Transmitter

QVGA-XGA Deserializer Receiver

QVGA-VGA Serializer Transmitter

QVGA-VGA Deserializer Receiver

QVGA-HVGA Serializer Transmitter

QVGA-HVGA Deserializer Receiver

—

1755

810

405

4-65

4-30

4-15

—

2.10

Web

405

—

^*Suggested resale price in U.S. dollars in quantities of 1,000.

New products are listed in bold red.

Preview products are listed in bold blue.

Texas Instruments 4Q 2006

Interface Selection Guide

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SerDes (Serial Gigabit Transceivers and LVDS)

The serial gigabit transceiver family of

devices from TI provides low power dissipa-

tion while enabling multigigabit transmission

over copper backplanes, cable and optical

links. The transceivers can be used in a

variety of applications, including Gigabit

Ethernet, 10-Gigabit Ethernet modules,

synchronous optical network (SONET) OC-48

and OC-192 based equipment, wireless

infrastructure backplanes and general-purpose

backplane applications.

SerDes

Portfolio

Gigabit

Ethernet/FC

10 Gigabit

Ethernet

General

Purpose

EPON

LVDS

TLK3101

TLK2711

TLK2701

TLK2501

TLK1501

TLK4015

TLK2521

TLK1521

TLK4120

TLK4250

TLK1211

TLK1201AI

TNETE2201

TLK2208B

TLK2226

TLK2201BI

TLK2201AJR

TLK3114SC

TLK3104SA

TLK3104SC

TLK3118

SN65LVDS93/94

SN65LVDS95/96

SN65LV1023A/1224B

SN75LVDS82/83

SN75LVDS84A/86

SN75LVDT1422

TLK10021

SerDes Solutions—Frontplane/Backplane

TLK1201AI/TLK2226/TLK2208B

Low-Power 1 GbE Transceiver

1 to 1.6 Gbps

(Backplane/Frontplane)

DSP

Controller

Power

Management

Clock

Buffer

Line Module

Memory

Photo-

TIA*

PA*

diode

MAC

Framer/

Mapper

Frontplane

SerDes

Backplane

SerDes

NPU/

ASICs

Laser

LD*

Diode

Reference

PLL Multiplier

Clock

Buffer

*TIA, PA and LD are in development and not currrently available.

TLK3114SC—10-Gigabit Ethernet Backplane Device XAUI (4 x 3.125 Gbps)

TLK2208B—8-Channel Gigabit Ethernet Xcvr (8 x 1-1.3-Gbps)

TLK2226—6-Channel Gigabit Ethernet Xcvr (6 x 1-1.3 Gbps)

TLK1201AI—1- to 1.6-Gbps Gigabit Ethernet-Compliant SerDes

TLK3101/TLK2501/TLK1501—600-Mbps to 3.2-Gbps General-Purpose Backplane SerDes

SN65LV1023A/1224B—100 to 660 Mbps—10:1 LVDS SerDes

Interface Selection Guide

Texas Instruments 4Q 2006

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SerDes (Serial Gigabit Transceivers and LVDS)

SerDes (Serial Gigabit Transceivers) Selection Guide

Device

Function

Data Rate

Serial I/F¹

Parallel I/F

Power

Special Features

Price*

General Purpose

TLK1501

TLK2501

Single-Ch. 16:1 SerDes

Single-Ch.

0.6-1.5 Gbps

1.6-2.5 Gbps

1 CML

16 LVTTL

200 mW

300 mW

Built-In Testability

8.40

12.60

TLK2701

16:1 SerDes

Single-Ch.

and K Character Control

MicroStar Junior BGA

™

TLK2711

1.6-2.5 Gbps

1 VML

16 LVTTL

350 mW

10.50

16:1 SerDes

Single-Ch. 16:1 SerDes

Single-Ch.

Packaging

Built-In Testability

Low Power and

TLK3101

TLK2521

2.5-3.125 Gbps

1.0-2.5 Gbps

1 VML

16 LVTTL

18 LVTTL

350 mW

<550 mW

16.85

12.60

18:1 SerDes

Single-Ch.

Built-In Equalization

Low Power and

TLK1521

0.6-1.3 Gbps

1 VML

18 LVTTL

<350 mW

10.50

18:1 SerDes

Built-In Equalization

Four-Channel Version of TLK1521

Four-Channel Version of TLK2521

TLK4120

TLK4250

TLK4015

EPON

Four-Ch. 18:1 Serdes

Four-Ch. of 16:1 Xcvr

0.5-1.3 Gbps

1.0-2.5 Gbps

0.6-1.5 Gbps/Ch.

4 VML

4X CML

18 LVTTL

16 LVTTL/Ch.

<350 mW

<550 mW

1 W

24.00

32.00

Four-Channel Version of TLK1501 29.40

TLK1211

Gigabit Ethernet/FibreChannel

TLK1201AI

Single-Ch. 10:1 Gigabit Ethernet

0.6-1.3 Gbps

0.6-1.3

1 LVPECL

10 LVTTL

200 mW

Fast Relock for PON

Web

4.85

4.65

Single-Ch. 10:1 Gigabit

Ethernet Xcvr Gbps

Single-Ch.

Industrial Temperature

TLK2201BI

1.2-1.6 Gbps

JTAG; 5-Bit DDR Mode,

Industrial Temperature

Qualified

MicroStar Junior

5 mm x 5 mm LGA

10:1 Gigabit

Ethernet Xcvr

Single-Ch.

TLK2201AJR

TLK2208B

TLK2226

1.0-1.6 Gbps

1.0-1.3 Gbps

1 LVPECL

8 VML

10 LVTTL

200 mW

1 W

4.25

31.50

19.65

10:1 Gigabit

Ethernet Xcvr

Eight-Ch. of 10:1 Gigabit

Ethernet Xcvr

4/5-Bit/Ch. (Nibble

DDR Mode), 8/10-Bit/Ch.

(Multiplex Ch. Mode)

4/5-Bit RTBI or RGMII

JTAG, MDIO Supported

Six-Ch. 16:1 Gigabit

Ethernet Xcvr

6 VML

<1.5 W

MDIO Supported

100-FX mode support

10 Gigabit (XAUI) Ethernet

TLK3104SA

Four-Ch. of

10/8:1 Xcvr

Four-Ch. of

4.1: Xcvr

Four-Ch. of

10/8:1: Xcvr

2.5-3.125 Gbps

3.0-3.125 Gbps

2.5-3.125 Gbps

4X 3.125 Gbps

LVPECL (XAUI)

LVPECL

4X 3.125 Gbps

LVPECL (XAUI)

4X 10/8-Bit

SSTL/HSTL

20X622

LVDS Lines

4X 10/8-Bit

SSTL/HSTL

(XGMII)

700 mW/Ch.

600 mW/Ch.

JTAG; Programmable

Pre-Emphasis and XAUI I/F

JTAG, 8b/10b On/Off

69.30

126.00

57.75

TLK3104SC

TLK3114SC

IEEE 802.3ae

Backplane Transceiver

Compliant

TLK3118

Four-Ch. 10/8:1 Xcvr w/

(XAUI) Full Redundancy

Four XAUI to XFI

2.5-3.125 Gbps/Ch.

10 Gbps

4X 3.125

LVPECL (XAUI)

1 XFI

8/10 HSTLx4

(XGMII)

4 XAUI

<2 W

Full Redundancy for

Four Channels (XAUI)

Built-In Testability

80.00

Web

3.45

4.60

3.70

TLK10021

LVDS Serdes

SN65LVDS93/94

800 mW

Four-Ch. 28:4 TX/RX

Chipset

Three-Ch. 21:3 TX/RX

Chipset

Single-Ch. 10:1 TX/RX

Chipset

14:1 Xcvr SerDes

140-455 Mbps/Ch.

100-660 Mbps

5 LVDS

4 LVDS

1 LVDS

28 LVTTL

250 mW/Chip

<400 mW

Supports Up to 1.82 Gbps

Throughout

Supports Up to 1.82 Gbps

Throughout

SN65LVDS95/96

SN65LV1023A/1224B

SN75LVDT1422

10 LVTTL

Low Power Solution

140 Mbps-1.4 Gbps

14-Bit LVTTL

<300 mW

Supports Spread Spectrum

Clocking

SN75LVDS82/83

SN75LVDS84A/86

Four-Ch. 28:4 TX/RX Chipset 0.651-1.428 Gbps

Three-Ch. 21:3 TX/RX Chipset 0.42-1.428 Gbps

4 LVDS

3 LVDS

28 LVTTL

21 LVTTL

250 mW/Chip

Commercial Temp

New products are listed in bold red.

2.25

2.10

¹CML = Current Mode Logic; VML = Voltage Mode Logic.

^*Suggested resale price in U.S. dollars in quantities of 1,000.

Preview products are listed in bold blue.

Texas Instruments 4Q 2006

Interface Selection Guide

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DVI/PanelBus^™

Design Considerations

Keys

The Digital Visual Interface (DVI)

Specification, is an industry standard devel-

oped by the Digital Display Working Group

(DDWG) for high-speed digital connection to

digital displays. DVI uses Transition-minimized

DC balanced (TMDS) data signaling. Single

link supports up to 165Mpixels/s – UXGA

FPDs, SXGA DCRTs, 720p and 1080i HDTVs.

I C

TMDS

Decode

TMDS

Content

DVI Link

Content

Decode

Application

Program

HDCP

Encrypt

HDCP

Encrypt

I C

Slave IF

High Bandwidth Digital Content

Protection (HDCP)

• Content protection for video sent over DVI

• Implementation of HDCP requires a

license from the Digital Content

Protection Licensing, L.L.C.

Controller

EDID

PROM

DVI TX

(PC’s DVI Output)

DVI RX

(Displays DVI Input)

I C Master

(www.digital-cp.com)

Driver

HDCP Elements

• Authentication is a process for verifying

that a device is authorized (e.g. licensed)

to handle protected content.

• Encryption prevents eavesdropping of

protected content.

DVI-HDCP implementation.

• Renewability enables revocation of

compromised devices.

PanelBus™ (DVI) Transmitters and Receivers

Voltage

(V)

3.3

Recvr./Trans.

Channels

Parallel

Outputs

Data Speed

(Mbps)

495

I_CC

(mA)

400

250

400

250

Device

TFP401

TFP401A

TFP403

TFP410

TFP501

TFP503

TFP510

TFP513

Package

Description

DVI receiver, 165 MHz

DVI receiver, 165 MHz, HSYNC jitter immunity

DVI receiver

DVI transmitter, 165 MHz

DVI receiver, 165 MHz plus HDCP

DVI receiver, 165 MHz plus HDCP and embedded HDCP keys

DVI transmitter, 165 MHz plus HDCP

DVI transmitter, 165 MHz plus HDCP and embedded HDCP keys

Price^*

100 HTQFP

64 HTQFP

100 HTQFP

64 HTQFP

4.00

5.45

3.00

Call

495

3.3

*Suggested resale price in U.S. dollars in quantities of 1,000.

Interface Selection Guide

Texas Instruments 4Q 2006

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DVI/PanelBus^™

PanelBus™ HDCP Digital Receiver

TFP501, TFP503

TI PanelBus™ Digital Transmitters

TFP510, TFP513

Get datasheets at: www.ti.com/TFP501 or www.ti.com/TFP503

Get the datasheets and app reports at: www.ti.com/sc/device/TFP510 or

www.ti.com/sc/device/TFP513

The TFP501 and TFP503 are TI PanelBus flat panel display products,

part of a comprehensive family of end-to-end DVI 1.0-compliant

solutions. The TFP501/TFP503 support display resolutions up to UXGA,

including the standard HDTV formats, in 24-bit true-color pixel format.

The TFP501/TFP503 offer design flexibility to drive one or two pixels

per clock, support TFT or DSTN panels and provide an option for

time-staggered pixel outputs for reduced ground-bounce.

The TFP510 and TFP513 provide a universal interface allowing a glue-

less connection to most commonly available graphics controllers. Some

of the advantages of this universal interface include selectable bus

widths, adjustable signal levels and differential and single-ended

clocking. The DVI interface supports flat panel display resolutions up

to UXGA at 165 MHz in 24-bit true color pixel format.

Key Features

• Supports UXGA resolution (output pixel rates up to 165 MHz)

• Digital visual interface (DVI) and high-bandwidth digital content

protection (HDCP) specification compliant

• Encrypted external HDCP device key storage for exceptional security

and ease of implementation

• True color, 24 bits/pixel, 48-bit dual-pixel output mode;

16.7/M colors at one or two pixels per clock

• 4x oversampling for reduced bit-error rates and better performance

over longer cables

• Digital visual interface (DVI) compliant

• Supports resolutions from VGA to UXGA

(25-MHz to 165-MHz pixel rates)

• Universal graphics controller interface

• 12-bit, dual-edge and 24-bit, single-edge input modes

• Adjustable 1.1-V to 1.8-V and standard 3.3-V CMOS input signal

levels

• Fully differential and single-ended input clocking modes

• Standard Intel^®12-bit digital video port compatible as on Intel

81x chipsets

• Embedded HDCP keys (TFP503 only)

• Supports hot-plug detection

• Programmable using I C serial interface

• Packaging: 100-pin TQFP PowerPAD™

• Monitor detection through hot-plug and receiver detection

• Embedded HDCP keys (TFP513 only)

• Packaging: 64-pin TQFP PowerPAD™

Applications

• Desktop LCD monitors

• DLP^®and LCD projectors

• Digital TVs

Applications

• Set-top boxes

• DVD recorders/players

IDCK

DATA[23:0]

HDCP

Encryption

Universal Input

VSYNC

HSYNC

HDCP

Cipher

12-/24-Bit

I/F

Data

Format

REF

EDGE/

HTPLG

MSEN

T.M.D.S.Transmitter

ISEL/RST

Encoder

Serializer

Control

TX2

TX1

TX0

TXC

Encoder

TFADJ

BSEL/SCL

DSEL/SDA

I C Slave I/F

For DDC

PLL

1.8-V Regulators

with Bypass

Capacitors

MDA/DK2

MCL/DK1

I C Master I/F

for EEPROM

TFP510 block diagram.

TFP501 block diagram.

Texas Instruments 4Q 2006

Interface Selection Guide

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TMDS

TMDS (for HDMI and DVI)

Design Considerations

Transition Minimized Differential Signaling

(TMDS) is the electrical level standard used

to transmit Digital Visual Interface (DVI) and

High-Definition Multimedia Interface

(HDMI) data.

Intra-Pair Skew – The time difference

between the true and complementary signals

of a given differential pair should be kept as

small as possible.

ESD – External connectors being exposed

to the outside world are especially susceptible

to electrostatic discharge. A higher ESD

rating provides improved protection.

Residual Jitter – The difference in the

amount of measured jitter between the test

point and the signal source. It is the allowable

maximum residual jitter is equivalent to the

minimum jitter budget between transmitter

and receiver.

Game

Console

Rx1

STB

Main Picture

Rx1

Rx2

STB

Picture

DVD

TMDS341A 3-to-1 Mux.

TMDS442 4-to-2 Mux.

Allows Distant Connection

to Connector Socket

TMDS141 HDMI Hider.

Intra-Pair (ps) Inter-Pair Clock P-P Data P-P

No. of No. of

Inputs Outputs

Skew

(max)

Skew

Jitter

ICC (max) ESD HBM

Pin/

Package Price*

Device

TMDS141

Description

HDMI Hider

(max) (ps) (max) (ps) (max) (ps)

(mA)

150

230

550

—

(kV)

100

—

40QFN

80TQFP

128TQFP

48TSSOP,

48TVSOP

56QFN

Web

3.50

Web

2.00

TMDS341A 3-to-1 DVI/HDMI Switch

TMDS442

TS3DV416

4-to-2 DVI/HDMI Switch

4-to-1 Analog Switch

for DVI/HMDI

4-to-1 Analog Switch

for DVI/HMDI

—

TS3DV520

—

2.97

*Suggested resale price in U.S. dollars in quantities of 1,000.

New products are listed in bold red.

Preview products are listed in bold blue.

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

USB Hub Controllers and Peripheral Devices

The USB On-The-Go (OTG) supplement to USB

2.0 specifies a new class of devices aimed at

the portable market. USB OTG defines devices

that can operate as standard USB peripherals

when connected to a standard USB host

controller.

cables. All three modes offer both asyn-

Universal Serial Bus (USB)

chronous and isochronous (real-time) data

transmission over a simple and inexpensive

4-wire cable to meet requirements of

peripherals including keyboards, mice,

printers, speakers, scanners, external

storage devices and digital still cameras.

The USB standard defines a bus product that

requires a host controller and enables plug-

and-play connectivity. The most recently

released final specification, USB 2.0, defines

high speed and allows complete backward

compatibility with USB 1.1.

However, these same devices can operate

as reduced-function host controllers to

support selected USB OTG peripheral

devices. End-equipment manufacturers

can specify what type of peripherals their

devices will support when in OTG host

mode. This new specification allows easy

sharing of contact information between

USB OTG PDAs and cell phones or printing

of photographs directly from an OTG-

enabled digital still camera without a PC.

Transfer Type

USB products fall into three categories: hubs,

host controllers and peripherals. USB 1.1 sup-

ported speeds of up to 12 Mbps and cables

up to 5 meters long for these devices. USB

2.0 extends the connection speed to 480

Mbps to support next-generation peripherals

of higher-performance PCs and applications.

USB 2.0 officially defines three speeds: low

(1.5 Mbps), full (12 Mbps) and high (480

Mbps). The lowest speed is ideal for human

interface devices such as a mouse, game pad

or keyboard; while full speed is well suited

for “data dumps” to the PC via digital still

cameras, PDA cradles and flash-card readers.

Modems, printers, scanners and storage

drives are just a few of the items that can

take advantage of USB’s highest speed

specification.

• USB 2.0 defines four types of transfers:

bulk, control, interrupt and isochronous.

Bulk transfer is intended for applications

such as printers, scanners and mass

storage, where latency isn’t critical but

accuracy is. All devices must include

control transfers for configuration.

Interrupt transfer is for devices such as

mice, keyboards and game pads that must

receive the host’s or device’s attention

periodically. Isochronous transfer offers

guaranteed delivery time but no error-

checking or automatic retransmission of

data received with errors, making it the

better choice for audio or video applications.

Technical Information

Speed

• The USB 2.0 standard defines three

speeds: low speed (LS) 1.5 Mbps, full

speed (FS) 12 Mbps and high speed (HS)

480 Mbps. It requires full backward and

forward compatibility for devices and

RS232/IrDA Serial-to-USB Converter

TUSB3410

Get samples, datasheets, EVMs and app reports at: www.ti.com/sc/device/TUSB3410

USB-to-Serial Bridge

Key Features

• USB full-speed-compliant: data rate of

12 Mbps

• 8052 microcontroller with 16 Kbytes of

RAM that can be loaded from the host

or from external onboard memory via an

I²C bus

• Integrated, enhanced UART features

including:

• Programmable software/hardware flow

control

• Automatic RS-485 bus transceiver

control, with and without echo

• Software-selectable baud rate from

50 to 921.6 kbaud

• Built-in, two-channel DMA

controller for USB/UART bulk I/O

• Evaluation module to jump-start USB

development or for use as a complete

USB-to-RS-232 converter

The TUSB3410 provides an easy way to move a

serial-based legacy device to a fast, flexible

USB interface by bridging between a USB port

and an enhanced UART serial port. The

TUSB3410 contains all the necessary logic to

communicate with the host computer using the

USB bus.

Out

S_OUT

Legacy

Serial

Peripheral

Applications

• Handheld meters

• Health metrics/monitors

• Any legacy serial device that needs

to be upgraded to USB

Host

(PC or OTG DRD)

USB

TUSB3410

S_IN

TUSB3410 data flow.

Texas Instruments 4Q 2006

Interface Selection Guide

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USB Hub Controllers and Peripheral Devices

USB Family of Products

USB Devices

USB Hub Controllers

USB Peripherals

USB OTG

TUSB6020

USB PHY

TUSB2036

TUSB2046B

TUSB2077A

TUSB2136

TUSB5052

TUSB3210

TUSB3410

TUSB6250

TUSB1105

TUSB1106

TUSB2551

Selection Guide

Voltage

(V)

I²C

Package

Description

Price

Device Speed

USB Hub Controllers

Ports

TUSB2036

TUSB2046B

TUSB2077A

TUSB2136

TUSB5052

Full (1.1)

2/3

1/2

1-5

Yes

3.3

32 LQFP

48 LQFP

64 LQFP

100 LQFP

2/3-port hub for USB with optional serial EEPROM interface

4-port hub for USB with optional serial EEPROM interface

7-port USB hub with optional serial EEPROM interface

2-port hub with integrated general-purpose function controller

5-port hub with integrated bridge to two serial ports

1.15

1.20

1.95

3.25

5.10

Full (1.1)

Voltage

(V)

Remote

Wakeup

Device

Speed

Package

Description

Price

USB Peripherals

TUSB3210

TUSB3410

TUSB6250

Full

Full, High

3.3

Yes

64 LQFP

32 LQFP

80 TQFP

USB full-speed general-purpose device controller

USB-to-serial converter (RS-232, RS-485)

USB 2.0 high-speed, low-power ATA/ATAPI bridge solution

2.50

2.25

2.80

Voltage

(V)

Local Bus

Interface

Device

USB On-The-Go (OTG)

TUSB6020

Speed

Package

80 QFP

Description

Price

High

1.5, 1.8, 3.3

VLYNQ™

USB 2.0 High-Speed On-The-Go to Local Bus Interface Controller

Call

Voltage

Single ended

Device

Speed

(V)

Package

Input

Description

Price

USB Transceivers

TUSB1105

TUSB1106

Full, Low

1.6, 3.6

16RTZ, 16RGT

16RTZ, 16PW

14PW, 16RGT

Yes

USB Transceivers

Call

TUSB2551

*Suggested resale price in U.S. dollars in quantities of 1,000.

Preview products are listed in bold blue.

USB Port Protection—Transient voltage suppressor protects USB 1.1

Resources For a complete list of resources

(evaluation modules, data sheets and application notes), visit interface.ti.com

devices from ESD and electrical noise transients.

Literature Number Description

Application Notes

Temp Range

Price

Device

Description

°C

SLLA122

Selection and Specification of

Crystals for Texas Instruments

USB 2.0 Devices

USB Transceivers

SN65220

SN65240

Single suppressor

Dual suppressor

–40 to 85

0 to 70

0.33

0.41

0.38

SLLA154

VIDs, PIDs and Firmware:

Design Decisions When Using

TI USB Device Controllers

TUSB3410 UART Evaluation Board

USB/Serial Applications Using

TUSB3410/5052 and the VCP

Software

SN75240

*Suggested resale price in U.S. dollars in quantities of 1,000.

SLLU043

SLLA170B

SLLAA276

MSP430 USB Connectivity Using

TUSB3410

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

Universal Serial Bus (USB) Power Managers

Design Considerations

USB High-Power Peripheral Switch With

Dual Current Limit + LDO

Power Distribution Switches

4-Port USB Hub Power Controllers

TPS2140/41/50/51—The TPS2140/41/50/51

target high-power USB peripherals such as

ADSL modems. The devices contain a power

switch and an LDO. The dual-current-limiting

switch allows the use of high-value capaci-

tance to stabilize the voltage from the USB bus.

TPS207x—The TPS207x family provides the

complete power solution for 4-port self-

powered, bus-powered or hybrid USB hubs by

incorporating current-limited switches for four

ports, a 3.3-V 100-mA LDO, a 5-V LDO

controller for self power (TPS2070, TPS2071)

and a DP0 line control to signal an attach to

the host.

TPS204xB/5xB—The TPS204xB/5xB families

of 80-mΩ current-limiting power switches

meet all the USB power management

requirements for controlling downstream

ports, and include additional features to

improve the design reliability. For example,

when an over-current condition exists, the

device intelligently shuts down only the port

that sees the fault.

Dual Power Switch + LDO for USB

Bus-Powered Peripherals and Hubs

Ease of Use—USB allows simplified installa-

tion and improved performance for peripheral

devices by eliminating the need to repeatedly

load new drivers and establish individual set-

tings. USB combines a multitude of existing

interfaces into a single easy-to-use connector,

greatly reducing system complexity and offer-

ing manufacturers the ability to develop highly

integrated products.

TPS2148/49—TPS2148 is a complete power

management solution for USB bus-powered

peripherals such as zip drives, while TPS2149 is

for USB bus-powered hubs, such as keyboards

with integrated hubs. TPS2148/9 each combine

a 3.3-V LDO and dual power switch in a single

MSOP package. The TPS2148 switch configura-

tion allows power and board capacitance

segmentation to meet USB system current

requirements. The TPS2149 switches manage

two independent or four ganged USB ports.

TPS202x/3x/6x—The TPS202x/3x/6x families

of low on-resistance current-limiting power

switches allow ganging of multiple ports to

a single switch, as described in Application

Note SLVA049. Though ganging can be cost-

effective, all ports are affected by a fault.

USB Power Managers Family of Products

Current Limit (min) (A)

Bus Power

5-V LDO

Mode

0.22

0.3

0.66

0.7

1.1

1.5

1.65

2.2

Device Controller Indicator

Pins Package

USB Power Distribution Switches

4-Port USB Hub Power Controllers

Quad

Triple

Dual

—

TPS2048A/58A

TPS2047B/57A

TPS2046B/56A

—

TPS2044B/54B

TPS2043B/53B

TPS2042B/52B

—

TPS2070

TPS2071

TPS2074

TPS2075

Yes

Active Low

Active High

Active Low

Active High

HTSSOP

SSOP

TPS2063/67

TPS2062/66

TPS2060/64

—

Single

TPS2020/30 TPS2045A/55A TPS2021/31 TPS2041B/51B TPS2022/32/61/65

TPS2023/33 TPS2024/34

SSOP

Dual Power Switch + LDO for USB Bus-Powered Peripherals and Hubs

TPS2145/55

TSSOP-14

TPS2148/58

MSOP-8

TPS2147/57

MSOP-10

TPS2149/59

MSOP-8

LDO_OUT

LDO_ADJ

OC1

VIN/SW1

LDO_EN

EN1

LDO_OUT

VIN

EN1

LDO_OUT

VIN/SW1

LDO_EN

LDO

OC1

OUT1

OUT2

OUT1

EN1

SW2

EN2

EN1

SW2

EN2

OUT2

OC2

OUT2

OC2

OUT2

EN2

GND

Texas Instruments 4Q 2006

Interface Selection Guide

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Universal Serial Bus (USB) Power Managers

USB Power Managers Family of Products (Continued)

USB High-Power Peripheral Bus Switch + LDO

TPS2140/41/50/51

TSSOP-14

Device

TPS2140

TPS2141

TPS2150

TPS2151

Switch Voltage

Description

3.3 V

5.0 V

3.3 V

5.0 V

3.3-V, 500-mA switch with active-low enable, 250-mA LDO

5.0-V, 500-mA switch with active-low enable, 250-mA LDO

3.3-V, 500-mA switch with active-high enable, 250-mA LDO

5.0-V, 500-mA switch with active-high enable, 250-mA LDO

LDO_OUT

ADJ

LDO_PG

LDO_IN

LDO_EN

LDO

Dual

Threshold

LIMIT

SW_IN

SW_EN

GND

SW_OUT

SW_PG

USB Power Managers Selection Guide

Number

of FETs

I_OS

(min) (A)

r_DS(on)

(mΩ)

V_INRange

(V)

Supply Current

(µA)

OC Logic

Output

OT Logic

Output

Price

Device

Enable

Predecessor

USB Power Distribution Switches

TPS2020/30

TPS2021/31

TPS2022/32

TPS2023/33

0.22

0.66

1.1

1.65

2.2

0.7

0.3

1.5

1.1

2.7 to 5.5

160

Yes

L/H

—

TPS2014

TPS2015

—

1.05

0.50

0.70

0.90

1.00

0.60

0.65

0.90

1.20

0.60

0.75

0.90

TPS2024/34

TPS2041B/51B

TPS2042B/52B

TPS2043B/53B

TPS2044B/54B

TPS2045A/55A

TPS2046B/56A

TPS2047B/57A

TPS2048A/58A

TPS2060/4

Yes

TPS2041/51/41A/51A

TPS2042/52/42A/52A

TPS2043/53/43A/53A

TPS2044/54/44A/54A

TPS2045/55

TPS2046/46A/56

TPS2047/47A/57

TPS2048/58

—

Each

Yes

Each

Yes

TPS2061/5

TPS2062/6

TPS2063/7

—

Each

Bus Powered

Self Powered

Number

Bus Power

Switch Indicator (min) (max)

V_IN

r_DS(on)

per FET

Current

Limit

r_DS(on)

per FET

Current

Limit Controller

LDO

Device

Application

FETs

Enable (BPMODE)

(V)

( V)

(typ) (mΩ) (min) (A) (typ) (mΩ) (min) (A)

(A)

LDO

Price

USB Power Controllers

TPS2070

TPS2071

TPS2074

TPS2075

TPS2140

TPS2141

TPS2150

TPS2151

TPS2145

TPS2147

TPS2148

TPS2149

TPS2155

TPS2157

TPS2158

TPS2159

USB 4-port hub

USB peripheral

DSP, PDA

4.5

2.7

5.5

560

500

340

0.12

107

100

—

0.6

—

5 V, 3 A

—

3.3 V, 100 mA

2.55

1.10

1.15

1.10

0.99

0.95

1.15

1.10

0.99

0.95

—

0.12

3.3 V, 100 mA

0.1 & 1.2

0.2

Adj. 0.9 to 3.3 V, 250 mA

3.3 V, 200 mA

2.7

2.9

DSP, PDA

3.3 V, 200 mA

USB peripheral

USB 2-port hub

DSP, PDA

USB peripheral

USB 2-port hub

0.2

*Suggested resale price in U.S. dollars in quantities of 1,000. Please check www.ti.com for the most current pricing information.

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

PCI Express

Design Considerations

Device A

Device B

Device C

PCI Express takes the best features and

ideas behind PCI and combines them with

more than 10 years of industry “lessons

learned.” The result is a robust, scalable,

flexible, cost-effective I/O interconnect that

will serve the industry for the next 10-15 years.

Key Features

PCI Express^®

Device

Device B

• PCI Express architecture is an industry

standard high-performance, general-

purpose serial I/O interconnect designed

for use in enterprise, desktop, mobile,

communications and embedded platforms.

• It is PCI-compatible by using the estab-

lished PCI software programming models.

PCI Express facilitates a smooth transition

to new hardware and allows software to

evolve and leverage the advantages of

PCI Express features.

• Gen I has a scalable bandwidth of 16

Gigabytes-per-second at its initial signal-

ing rate of 2.5GHz. In the future, Gen II

promises much higher transfer rates using

higher frequency signaling technologies.

• Supports multiple interconnect widths via

1, 2, 4, 8, 12, 16 and 32 lane configura-

tions aggregated to match application

bandwidth needs.

Reference Clock

CPU

PCI Express

Endpoint

Device

Classifications

Root

Complex

Memory

PCI Express-PCI

Bridge

• Root Complex

• Switch

PCI Express

Switch

• PCI/PCI-X

• Bridge

PCI/PCI-X

• Legacy Endpoint

• Endpoint

PCI

Express

PCI

• Serves new and innovative, hot-plug/

hot-swap add-in card and module devices.

• Delivers unique, advanced features such

as Power Management, Quality of Service

and other native functions not available in

other I/O architectures.

Express

PCI

Express

PCI

Express

Legacy

Endpoint

Legacy

Endpoint

PCI Express

Endpoint

PCI Express

Endpoint

PCI Express topology.

PCI Express

Portfolio

PCI Express

Bridge

PCI Express

Switch

PCI Express

Endpoint

PCI Express

PHY

XIO2000A

XIO3130

XIO2200A

XIO1100

Current TI PCI Express portfolio.

Texas Instruments 4Q 2006

Interface Selection Guide

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PCI Express

PCI Express Bridge Chip

XIO2000A

Get samples, datasheets, EVMs and app reports at: www.ti.com/sc/device/XIO2000A

TI’s PCI Express bridge chip, the XIO2000A, is

an industry first. It is designed for seamless

migration from the legacy PCI to the PCI

Express interface. It bridges an x1 PCI Express

bus to a 32-bit, 33/66-MHz PCI bus capable of

supporting up to six PCI devices downstream.

The XIO2000A fully supports PCI Express rates

of 2.5 Gbps. Its architecture supports the PCI

2.3 interface. The chip’s design enables PC

and I/O add-on card manufacturers to begin

transitioning to native PCI Express technology

while preserving compatibility with existing

PCI system software and firmware.

Key Features

Key Benefits

• Compliant with PCI Express to PCI/PCI-X

Bridge Specification Revision 1.0

• Compliant with PCI Express Base

Specification 1.0a

• Compliant with PCI Local Bus Specification

rev 2.3

• Utilizes 100 MHz differential PCI Express

Common Reference Clock or 125 MHz

Single-Ended Reference Clock

• Full PCI Local Bus 66 MHz/32-bit Throughput

• Wake/Beacon Event Support

• Robust Architecture to Minimize Latency

• Built-in adaptive receiver equalizer

• Improves jitter tolerance thereby

reliably increasing PCB trace, or cable

length, supported by the XIO2000

• Seven buffered PCI clock outputs

(33 MHz or 66 MHz)

• Reduces external components, costs

and premium board space

• 32-bit secondary PCI bus with 33-MHz or

66-MHz clocking option

• Customizes to meet the needs of high-

performance or low-power applications

• Proven compatibility with various PCI

Express chipsets and PCI add-in cards

• Rigorous field testing with major root

complex device and numerous PCI

add-in cards

PCI Express

Transmitter

PCI Express

Receiver

• Compact footprint

Power

Mgmt

GPIO

• Allows placement in ExpressCard and

mini-PCI cards in limited board space

• Advanced power management

features

Configuration and

Memory Register

Clock

Generator

Serial

EEPROM

• Software programmable and hardware

autonomous power management

features for low-power applications

such as ExpressCard

Reset

Controller

Serial IRQ

PCI Bus Interface

Target Markets

XIO2000A functional block diagram.

The XIO2000A meets the needs of multiple

market segments, including desktop and

mobile PC, server, storage, PC add-in cards

and embedded systems.

Vaux

Auxilliary

Power

PCI

Upstream

PCI Express

Device

Express

Reference

Clock

System Side

PCI Express

Link

Serial

EEPROM

XIO2000A

GPIO

Miscellaneous

PCI Bus functions:

CLR_RUN, PWR_OVRD,

LOCK, M6 6EN,

Serial

Interrupt

Controller

PME, External Arbiter

PCI Bus—32 bit, 33/66 MHz

Typical system implementation.

Interface Selection Guide

Texas Instruments 4Q 2006

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PCI Express

4-Lane, 4-Port PCI Express Switch

x1 PCI Express to 1394a OHCI Bridge

XIO3130

XIO2200A

www.ti.com/sc/pcl-e

*Expected release 1Q 2007

Get samples, datasheets, EVMs and app reports at:

www.ti.com/sc/device/XIO2200A

TI’s XIO3130 is an integrated PCI Express fan-out switch solution

with one upstream x1 port and three downstream x1 ports. This high-

performance, integrated solution provides the latest in PCI Express

switch technology. It features cut-through architecture and integrated

reference clock buffers for downstream ports. The XIO3130 is fully-

compliant with the PCI Express Base Specification Rev. 1.1. It supports

Advanced Error Reporting as defined in the PCI Express base specifica-

tions and is backwards-compatible with the PCI Local Bus

Specification, Rev. 2.3.

Key Features

• x1 PCI Express Primary Interface

• Supports two 1394a ports

• Fully-Compliant with 1394 Open Host Controller Interface

Specification, Revision 1.1

• ExpressCard Reference Design supports two 1394a ports

• Internal dedicated PCI bus operates at 32-bit, 66 MHz

• Compact Footprint, 176-Ball, GGW MicroStar™ BGA or Lead-Free

176-Ball, ZGW MicroStar BGA

Key Features

• PCI Express fan-out switch with x1 upstream port and three x1

downstream ports

• Fully compliant with PCI Express Base Specification, Rev. 1.1

• Cut-through architecture

• Built-in Adaptive Equalizer in each of the four ports

• Wake-event and Beacon support

• Support for D1, D2, D3hot, and D3cold

• Active State Power Management (ASPM)

• Uses both L0s and L1

Key Benefits

• One-chip solution for 1394a ExpressCards

• Advanced power management features

• Software-programmable and hardware-autonomous power

management

• Supports low-power applications such as ExpressCard

• Compact footprint, 176-ball MicroStar BGA

• EEPROM configuration allows a global unique ID for the 1394

fabric to load

• Low power PCI Express transmitter mode (pre-emphasis disabled)

• Integrated AUX Power Switch drains VAUX power only when main

power is “off”

Target Market

• ExpressCards

• Integrated Hot-Plug Support

• PC Add-In Cards

• PC Motherboards

• Integrated REFCLK Buffers for Switch Downstream Ports

• Advanced Error Reporting to assist with System Debug Tools

• 3.3V Multifunction I/O pins (e.g. for Hot-Plug status-and-control, or

General Purpose I/Os)

2.5Gbps XMT

2.5Gbps

x1 PCI Express Upstream PHY Interface

Digital Link Layer

• Listed in PCI-SIG Compliance List

Transaction Layer:

PCI Bridge Core (32 Bit, 66 MHz)

Target Market

The primary purpose of the XIO3130 as a fan-out device is efficiently

expanding the chipset’s computing resources to multiple I/O ports and

enhancing system functionality and flexibility. Target applications for the

XIO3130 include PCs, servers, storage, industrial control and backplane.

Internal PCI Bus

PCI to 1394a Core

PHY Port 0

PHY Port

2.5Gbps

1394a

x1 PCI Express Upstream PHY Interface

Digital Link Layer

South Bridge

x1 PCI Express 2.5 Gbps

XIO2200A

Transaction Layer:

Crossbar Switch & Packet Control

ExpressCard reference design.

Port Logic

PHY Port 1

Port Logic

PHY Port 0

PHY Port 2

Texas Instruments 4Q 2006

Interface Selection Guide

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PCI Express

PCI Express PHY

XIO1100

Get samples, datasheets, EVMs and app reports at: www.ti.com/sc/device/XIO1100

The XIO1100 is a PCI Express PHY, compliant with the PCI Express Base

Specification Revision 1.1 that interfaces the PCI Express Media Access

Layer (MAC) to a PCI Express serial link. It uses a modified version of

the “PHY Interface for the PCI Express” (PIPE) interface also referred to

as a TI-PIPE interface. The TI-PIPE interface is a pin-configurable

interface that can be configured as either a 16-bit or an 8-bit interface.

• The 16-bit TI-PIPE interface is a 125 MHz 16-bit parallel interface,

a 16 bits output bus (RXDATA) being clocked by the RXCLK output

clock, and a 16-bits Input bus (TXDATA) being clocked by the TXCLK

input clock. Both buses are clocked using Single Data Rate (SDR)

clocking in which the data transitions are on the rising-edge of the

associated clock.

• The 8-bit TI-PIPE interface is a 250 MHz 8-bit parallel interface, an

8-bit output bus (RXDATA) being clocked by the RXCLK output clock,

and an 8-bit input bus (TXDATA) being clocked by the TXCLK input

clock. Both buses are clocked using Double Data Rate (DDR) clocking

where the data transitions on both the clock’s rising-edge and

falling-edge.

Key Benefits

• XIO1100 is TI’s Third-Generation PHY

• Passed PCI SIG Workshop #49

• v1.0a and v1.1 compliant

• Proven PCI Express Compatibility and Interoperability

• Source-Synchronous (SS) Clocking

• Without SS clocking and running at 125 MHz the interface

must be tuned to the center capture window

• Painful and not robust

• XIO1100 is SS in BOTH RX and TX directions which makes

positioning I/O capture window easy to identify and robust

• SS approach works great from design without need for

experimental tuning

• Flexible MAC Interface

• Selectable 8-bit or 16-bit Parallel Interface

• 16-bit: 125MHz rising-edge clocked

• Can use low-cost FPGAs

• 8-bit: 125MHz rising-and-falling edge clocked (DDR)

• No need for extra clock buffer needed to generate 250MHz

• Flexible Digital I/O Power Supply

The XIO1100 PHY interfaces to a 2.5Gbps PCI Express serial link with a

transmit differential pair (TXP and TXN) and a receive differential pair

(RXP and RXN). Incoming data at the XIO1100 PHY receive differential

pair (RXP and RXN) is forwarded to the MAC on the RXDATA output

bus. Data received from the MAC on the TXDATA input bus is forwarded

to the XIO1100 PHY transfer differential pair (TXP and TXN).

• 1.5V or 1.8V

• Only two supply voltages needed: 3.3V and 1.5V

• Support for two PCI Express Reference Clocks

• 100 MHz differential for normal system clock designs

• 125 MHz single-ended for asynchronous clocking designs

The XIO1100 is also responsible for handling the 8B/10B encoding/

decoding of the outgoing data. In addition, XIO1100 can recover/

interpolate the clock on the receiver side based on the transitions

guaranteed by the use of the 8B/10B mechanism and supply this to

the receive side of the data link layer logic. In addition to the TI-PIPE

Interface, the XIO1100 has some TI proprietary side-band signals some

customers may wish to use to take advantage of additional low-power

state features (for example, disabling the PLL during the L1 power

state) of the XIO1100.

REFCLK

PLL

TX_DATA 16/8

TX_CLK

TXP/TXN

TX Block

TX_DATAK [1:0]

STATUS

COMMAND

FPGA

TI XIO1100

2.5

Gbps

PCIe x1 IP Core

RX_DATA 16/8

User

Application

Layer

RXP/RXN

Enhanced

PIPE

Transaction Data Link

RX_CLK

PCS

PMA

MAC

Layer

RX Block

RX_DATAK [1:0]

2.5

Gbps

REF CLK

Low-cost FPGA-based PCI Express solution.

XIO1100 functional block diagram.

Interface Selection Guide

Texas Instruments 4Q 2006

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PCI Bridges

Technical Information

Design Considerations

the new serial PCI Express architecture. TI is

actively developing a portfolio of PCI Express

products to address this new market.

Capabilities

Peripheral Component Interconnect (PCI) is

an interconnection system between a micro-

processor and attached devices in which

expansion slots are spaced closely for high-

speed operation. A PCI-to-PCI bridge is a

high-performance connection path between

two PCI buses that allows bridge transactions

to occur concurrently on both buses. Burst-

mode transfers maximize data throughput

while the two bus traffic paths through the

bridge act independently. In future systems,

many PCI bus structures will be replaced by

• TI’s PCI2050B is a 32-bit, 66-MHz bridge

with internal two-tier arbitration for up to

9 secondary bus masters and support for

an external secondary bus. There are

independent read/write buffers for each

Key Features

• Two 32-bit, 33- or 66-MHz buses

• Configurable for PCI power-management

interface specification

direction and 10 secondary PCI clock outputs.

• CompactPCI hot-swap functionality

• 3.3-V core logic with 3.3- to 5-V PCI

signaling compatibility

Functionality

• The PCI2250 is a 33-MHz bridge similar to

the PCI2050B but supports 4 secondary bus

masters and 5 secondary PCI clock outputs.

• Intel bridge compatibility

• Transparent bridging

Host Bus

Memory

CPU

PCI Bridges

PCI2040

PCI2050B

PCI2250

PCI2060

Host

PCI

Device

Bridge

PCI Bus 0

PCI Option Card

PCI2050B

PCI bridge family of products.

PCI Bus 2

PCI Bus 1

PCI

Device

PCI2050B

(Option)

Device

PCI Option Slot

Typical PCI-to-PCI bridge system application.

Selection Guide

Intel-Compatible Speed

Expansion

MicroStar BGA™ Voltage

Price

Device

Part No.

(MHz) Interface (bits) Hot-Swap

Packaging

(V)

Package(s)

Description

PCI Bridges

PCI2040

—

Yes

3.3, 5

144 BGA,

144 LQFP

208 LQFP,

PCI-to-DSP bridge controller, compliant with 10.55

Compact PCI Hot-Swap Specification

32-bit, 66-MHz, 9-master PCI-to-PCI bridge

1.00

9.50

PCI2050B

PCI2250

PCI2060

21150bc

21152ab

—

Yes

208 QFP, 257 BGA

176 LQFP,

Friendly

Yes

32-bit, 33-MHz PCI-to-PCI bridge, Compact

PCI hot-swap friendly, 4-master

32-bit, 66-MHz, 9-master, asynchronous

PCI-to-PCI bridge

6.10

9.50

160 QFP

257 BGA

Yes

¹Suggested resale price in U.S. dollars in quantities of 1,000.

Resources For a complete list of resources (evaluation modules, data sheets and application notes), visit interface.ti.com

Literature Number

Application Notes

SCPA029A

Description

Adding Debounce Logic to /HSSwitch Terminal

Comparing Bus Solutions

SLLA067

SCPA027

SCPA030

SPRA679

Connecting ENUM Terminal to an External Open-Drain Buffer

Interfacing the PCI2040 to the TMS320VC5420 DSP

Texas Instruments TMS320VC5409/5421 DSP to PCI Bus

Texas Instruments 4Q 2006

Interface Selection Guide

Download from Www.Somanuals.com. All Manuals Search And Download.

CardBus Power Switches

TPS2211A

AVCC

TPS2211A

Design Considerations

12 V

• Fully integrated V_CC

and V_PPswitching for

single-slot PC card

interface

• Low r_DS(on)

• 3.3-V low-voltage

mode

• Short-circuit and

thermal protection

• Compatible with

3.3-V, 5-V and 12-V

PC cards

AVCC

0.1 µF

ExpressCard Power Switches

CC1

CC2

0.1 µF

PC Card

Connector

The TPS2231 and TPS2236 ExpressCard

power interface switches provide the total

power management solution required by the

ExpressCard specification. The TPS2231 and

TPS2236 ExpressCard power interface

switches distribute 3.3 V, AUX and 1.5 V to

the ExpressCard socket. Each voltage rail is

protected with integrated current-limiting

circuitry. The TPS2231 supports systems with

single-slot ExpressCardj34 or ExpressCardj54

sockets. The TPS2236 supports systems with

dual-slot ExpressCard sockets.

pp1

pp2

AVPP

5 V

0.1 µF

PCMCIA

Controller

3.3 V

VCC_EN0

VCC_EN1

VPP_EN0

VPP_EN1

VCCD0

VCCD1

VPPD0

VPPD1

0.1 µF

To CPU

GND SHDN

Shutdown Signal From CPU

Typical PC card power-distribution application.

Power Distribution Devices Family of Products

Current-Limiting Power Switch ICs

Current Limit (min) (A)

PCMCIA/CardBus Power Switches

Standard PC cards require that V be

switched between ground, 3.3 V and 5 V,

0.22

0.3

0.345

0.66

0.7

1.1

—

1.65

2.2

—

Fault Reporting

Quad

—

TPS2048A/58A TPS2048/58¹

TPS2095/6/7

—

TPS2044/54²

TPS2044A/54A

TPS2044B/54B

TPS2085/6/7

—

while V is switched between ground, 3.3 V,

5 V and 12 V. CardBay sockets have the

Triple

Dual

—

TPS2047B/57A TPS2047/57¹

—

TPS2043/53²

TPS2043A/53A

TPS2043B/53B

TPS2042/52²

TPS2042A/52A

TPS2042B/52B

TPS2080/1/2

standard requirements for V , but require

ground, 3.3 V and 5 V to V , and ground,

TPS2046B/56A TPS2046/56¹

TPS2090/1/2

1.8 V or 3.3 V to V

. Other PC card

CORE

applications may simply not need 12 V or V

while still having the standard requirements

Single TPS2020/30¹TPS2045A/55A TPS2045/55¹TPS2021/31¹TPS2041/51²

TPS2022/32 TPS2023/33 TPS2024/34

for V . Therefore, consider the voltage

TPS2041A/51A

TPS2041B/51B

requirements of the application when select-

ing a PCMCIA power switch.

No Fault Reporting

Single TPS2010A

—

TPS2011A

—

TPS2012A TPS2013A

—

¹Nemko recognized.

²UL and Nemko recognized.

Current-Limiting Power Switches

Power switches are used to intelligently

turn power on and off, while providing fault

protection. They are useful anywhere controlled

allocation of power is needed to circuit

blocks, modules, add-in cards or cabled

connections. They are ideal for power

sequencing or segmentation.

PCMCIA/CardBus Power Switch Matrix ICs

Current Limit (min) (A)

0.3

0.7

1.0

2.5

3.3 V, 5 V, 12 V, V_PP

Dual

—

TPS2224(A), TPS2226(A), TPS2204A, TPS2206A, TPS2205

TPS2204A, TPS2210A, TPS2211(A), TPS2220A, TPS2220B

—

TPS2231

Single

No 12 V

Dual

TPS2212

—

TPS2223A

—

TPS2236

—

Single

No V_PP

Dual

TPS2044B/54B

—

TPS2044B/54B

—

To minimize voltage drop, select devices

Power MUX ICs

Configuration

with the lowest r

on-resistance.

or Drain to Source

DS(on)

I_OUT

(mA)

Device

Transition

Manual

Auto/Manual

Auto

Auto/Manual

Comments

TPS2100/1

TPS2102/3

TPS2104/5

TPS2110A

TPS2111A

TPS2112A

TPS2113A

TPS2114A

TPS2115A

IN1: 500, IN2: 10

IN1: 500, IN2: 100

Adj. 310 to 750

Adj. 630 to 1250

Adj. 310 to 750

Adj. 630 to 1250

Adj. 310 to 750

Adj. 630 to 1250

SOT-23, 0 to 70°C

SOT-23, –40 to 85°C

TSSOP

Power MUX ICs

Power MUX ICs are designed to transition

from a main power supply to an auxiliary

source when the main supply shuts down

(e.g. switching from battery operation to a

wall adapter).

IN1

IN2

TSSOP

TSSOP, Status pin

ExpressCard Power Switch ICs

Device

TPS2231

TPS2236

Ports

3V r_DS(on) (m

)

Interface

Parallel

Current Limit (Min) (A)

Ω

2.5

Interface Selection Guide

Texas Instruments 4Q 2006

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Power Distribution

(PCMCIA/CardBus Power Switches, Current-Limiting Power Switches and Power MUX ICs)

Selection Guide

Number

of FETs

I_OS

(min) (A)

r_DS(on)

(mΩ)

V_INRange

(V)

Supply Current

(µA)

OC Logic

Output

OT Logic

Output

Price

Device

Enable

Predecessor

Current-Limiting Power Switch ICs

TPS2010A

0.22

0.66

2.7 to 5.5

160

Yes

L/H

TPS2010

TPS2011

TPS2012

TPS2013

—

TPS2014

TPS2015

—

0.75

1.05

0.50

0.70

0.90

1.00

0.60

0.65

0.90

1.20

0.60

0.75

0.90

1.20

0.65

1.05

0.65

1.05

TPS2011A

TPS2012A

1.1

TPS2013A

1.65

TPS2020/30

TPS2021/31

TPS2022/32

TPS2023/33

TPS2024/34

TPS2041B/51B

TPS2042B/52B

TPS2043B/53B

TPS2044B/54B

TPS2045A/55A

TPS2046B/56A

TPS2047B/57A

TPS2060/4

0.22

0.66

1.1

1.65

2.2

0.7

0.7 ea

0.3

0.3 ea

1.5 ea

1.1

Yes

—

Yes

TPS2041/51/41A/51A

TPS2042/52/42A/52A

TPS2043/53/43A/53A

TPS2044/54/44A/54A

TPS2045/55

TPS2046/46A/56

TPS2047/47A/57

Each

Yes

Each

Yes

Each

Yes

—

TPS2061/5

L/H

TPS2062/6

TPS2063/7

1.1 ea

0.3 ea

0.7 ea

0.3 ea

TPS2048A/58A

TPS2080/1/2¹

TPS2085/6/7¹

TPS2090/1/2¹

TPS2095/6/7¹

TPS2048/58

2H, 1L/1H, 2L

4H, 2L/2H, 4L

2H, 1L/1H, 2L

4H, 2L/2H, 4L

—

Yes

Number

3.3-V r_DS(on)

5.0-V r_DS(on)

I_OS

Price

Device

Interface

of Ports

(typ) (mΩ)

(min) (A)

Predecessor

PCMCIA/CardBus Switch Matrix ICs

TPS2210A

TPS2204A

TPS2220B

TPS2223A

TPS2224A

TPS2226A

TPS2206A

TPS2205

TPS2211A

TPS2212

TPS2231

TPS2044B or 54B

TPS2221

3-line Serial

8-line Parallel

4-line Parallel

Parallel

160

100

160

—

0.3

2.5

0.7

—

0.85

1.95

0.85

1.80

1.95

2.10

2.90

0.75

1.45

1.00

1.85

3.10

TPS2214/14A

TPS2220A

—

TPS2214/14A

TPS2206, TPS2216/16A

TPS2201

TPS2211

—

1 or 2

TPS2044/44A, TPS2054/54A

Interface Parallel

Interface Serial

—

TPS2228

Number

IN1

IN2

IN1 Output IN2 Output IN1 Supply IN2 Supply

Transition Time

Inputs

r_DS(on)

(mΩ)

r_DS(on)

(mΩ)

Current

(mA)

Current

(mA)

Current

(µA)

Current

(µA)

Input Voltage IN1 to IN2

IN2 to IN1

(µs)

Transition Price

Device

Range (V)

(µs)

Power MUX ICs

TPPM0301/2

TPPM0303

TPS2100/1

TPS2102/3

TPS2104/5

TPS2110A/2A/4A

TPS2111A/3A/5A

—

400

250

500

400

250

100

2500

250

0.75

3 to 5.5

—

900

700

Autoswitch

L/H enable

Autoswitch

1.60

1.07

0.59

0.69

0.85

0.70

250

120

1300

120

2.7 to 4.0

2.7 to 5.5

2.8 to 5.5

312 to 750

625 to 1250 625 to 1250

312 to 750

¹Can be configured as power MUX ICs.

New products are listed in bold red.

*Suggested resale price in U.S. dollars in quantities of 1,000.

Texas Instruments 4Q 2006

Interface Selection Guide

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1394 (FireWire )

Overview

IEEE 1394 high-speed interconnection enables simple, low-cost, high-bandwidth real-time data connectivity between many types of electronic equip-

ment. As a multimedia network standard, 1394 is ideally suited for consumer electronics, computers and peripherals. It is also ideal for situations that

benefit from true peer-to-peer operation and maximum flexibility. 1394 is self-configuring, has strong power management/distribution capabilities and

robust error-detection that make it a leading choice in control applications, especially those that also need to accommodate streaming multimedia.

The new 1394b technology enables higher performance (up to 3.2 Gbps), longer distance (up to 100 meters) and a variety of cable media to fit any

application (STP, UTP, POF and GOF), making it ideal for home networking and high-speed data transfer applications. For example, in long-haul applica-

tions such as home networking, 1394b is capable of 100 Mbps over 100 meters of unshielded twisted pair Category 5 cable (called CAT5 or UTP5).

For high-speed applications, TI offers a 1394b chip set that enable speeds up to 800 Mbps for applications such as video-on-demand or backing up a

RAID array. TI 1394b is backward compatible to 1394a.

Link-Layer Selection Issues

• As the number of simultaneous isochro-

nous channels present goes up, or the bit

rate of an individual stream increases, the

receive buffer needs to be larger.

Design Considerations

Physical-Layer Selection Issues

• The 1394 PHY layer should support the

minimum number of nodes or ports

required by the end product. Having two

ports permits spanning to other devices

on the bus through daisy-chaining. Three

or more nodes enable branching or hub

capabilities.

• What kind of data needs to be transferred?

Some link controllers are designed to

implement specific data protocols over

1394, such as the serial bus protocol

2 (SBP-2) for mass storage or IEC 61883-4

for MPEG-2 transport, and some are

designed as general purpose.

Technical Information

• 1394-1995 is an IEEE designation for a

high-performance serial bus. A revision to

this standard has been published as IEEE

1394a-2000, and clarifies and adds to

portions of the IEEE 1394-1995 standard.

The 1394b standard increases the speed

of 1394 to 800, 1600 and 3200 Mbps, as

well as providing new connection options

such as plastic optical fiber (POF), glass

optical fiber (GOF) and UTP-5. This serial

bus defines both a backplane (for exam-

ple, VME, FB+) physical layer and a point-

to-point, cable-connected virtual bus. The

backplane version operates at 12.5, 25 or

50 Mbps, whereas the cable version

supports data rates of 100, 200, 400, 800

and 1,600 Mbps across the cable medium

supported in the current standard. Both

versions are totally compatible at the link

layer and above. The interface standard

defines transmission method, media and

protocol.

• What is being interfaced to 1394? If the

system has PCI, consider one of the

• Will the end product need DC isolation at

the 1394 interface? The cable doesn’t

provide a DC-isolated path from node to

node. In cases where there’s a possibility

for the various equipment connected

across 1394 to be at different ground

potentials or different power domains,

the grounds may need to be isolated from

each other to prevent excessive currents

and noise. However, the ground signal on

the 1394 cable must not be DC-isolated

from the PHY power-distribution ground

plane. Thus when DC isolation between

units is required at the 1394 interface, it

is frequently performed at the PHY- and

link-layer interfaces—often through the

use of special I/O cells that allow for

capacitive coupling of the PHY-link signals.

PCI/OHCI links. Applications involving

streaming compressed audio/video most

likely need a link from the iceLynx family.

Other TI links have interfaces for external

processors/memory or are dedicated for a

peripheral function (camera/storage).

• For audio/visual (A/V) applications,

different types of A/V data require different

formatting and transmission methods on

1394. Specifically identifying which types

of A/V to be supported is fundamental to

choosing the right 1394 chip set for the

digital set-top box (DSTB) or digital TV

(DTV) design. Standards define how to

carry MPEG-2 transport streams in both

digital video broadcasting (DVB) format

and in DirecTV format, which have different

packetization schemes.

• Applications of the cable version are the

integration of I/O connectivity of personal

computers, peripherals, and consumer

electronics using a low-cost, scalable,

high-speed serial interface. The 1394

standard provides services such as

real-time I/O and live connect/disconnect

capability for devices including storage

(HDD, CD-ROM, CDRW, MO, ZIP, RAID,

SAN, etc.), printers, scanners, cameras,

set-top boxes, HDTVs and camcorders.

• While the EIA-775 specification requires

a minimum speed of 200 Mbps at the

1394 interface, using 400-Mbps PHYs is

recommended. Slower nodes present on

the bus can be a source of speed traps.

Almost all 1394 silicon available today is

already 400-Mbps capable.

• Another aspect of the link layer that

should be considered is the amount of

data-buffer memory supported. Typically,

the more bandwidth an application

requires, or the more simultaneous

isochronous/asynchronous traffic that

needs to be supported, the larger the

buffer memories must be.

• The suspend/resume feature of the PHY

layer lets two currently inactive ports

achieve low-power states while maintain-

ing their connection status. It also permits

them to quickly resume operation as soon

as they detect an applied port bias voltage.

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

1394 (FireWire )

Key Features

Technical Information

(Continued)

1394b Advantages

• Real-time streaming of audio and video

• High-speed: up to 400 Mbps with IEEE

1394-1995 and 1394a-2000, up to 1, 2

and 4 Gbps with 1394b

• Plug-and-play hot pluggable

• Peer-to-peer communication

• Small, durable and flexible cable and

connectors

• Faster: speeds from 800 Mbps to

3200 Mbps

• Longer distances: 100 meters with GOF

and CAT5; 50 meters with POF

• TI1394b is bi-lingual: communicates in

1394a and 1394b modes

• More cabling options: STP, CAT5, POF, GOF

• More efficient: BOSS arbitration

• More user-friendly: loop-free build allows

any topology and redundancy

• Applications of the cable version are the

integration of I/O connectivity of personal

computers, peripherals, and consumer

electronics using a low-cost, scalable,

high-speed serial interface. The 1394

standard provides services such as real-

time I/O and live connect/disconnect

capability for devices including storage

(HDD, CD-ROM, CDRW, MO, ZIP, RAID,

SAN, etc.), printers, scanners, cameras,

set-top boxes, HDTVs and camcorders.

• Memory-mapped architecture

• Seamless I/O interconnect

Selection Guide

Voltage

(V)

Data Rate

(Mbps)

Price

Device

Ports

Package(s)

Description

1394 Physical Layer Controllers

TSB14AA1A

TSB41AB1

TSB41AB2

3.3

1.8, 3.3

up to 100

up to 400

up to 800

48 TQFP

48/64 HTQFP,

64 HTQFP

80 HTQFP

80 TQFP

80 HTQFP

100 HTQFP

80 HTQFP

IEEE 1394-1995, 3.3-V, 1-port, 50/100-Mbps, backplane PHY controller

IEEE 1394a 1-port cable transceiver/arbiter

IEEE 1394a 2-port cable transceiver/arbiter

IEEE 1394a 3-port cable transceiver/arbiter

1394b-2002 3-port physical layer device

IEEE 1394a 4-port cable transceiver/arbiter

IEEE 1394a 6-port cable transceiver/arbiter

High-performance 1394b s800 3-port cable transceiver/arbiter

5.90

1.50

1.85

3.00

6.50

6.40

5.55

TSB41AB3

TSB41BA3B

TSB41LV04A

TSB41LV06A

TSB81BA3D

^*Suggested resale price in U.S. dollars in quantities of 1,000.

Texas Instruments 4Q 2006

Interface Selection Guide

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1394 (FireWire )

IEEE 1394b 3-Port Cable Transceiver/Arbiter

TSB81BA3D

Get samples, datasheets and app reports at: www.ti.com/sc/device/TSB81BA3D

Key Features

Applications

• Compliant with IEEE 1394b-2002, IEEE

1394a-2000 and 1394-1995 standards

• 3 Bilingual 1394 Ports

• Storage devices

• Consumer electronics

• 1394B PC ports

• 1394b (Beta) Mode at s400 and s800

• 1394a (Data Strobe -DS) Mode at s100,

s200 and s400

• Interoperable with link layer controllers using

3.3-V supplies and other 1394 PHYs using

1.8-V, 3.3-V and 5-V supplies

CPS

LPS

CNA

PINT

PCLK

Bias Voltage

and

Current

Received Data

Decoder/Retimer

TPBIAS0

TPBIAS1

TPBIAS2

Generator

LCLK

LREQ

Link

Interface

CTL0

TPA0+

TPA0−

CTL1

I/O

Bilingual

Cable Port 0

TPB0+

TPB0−

Arbitration

and Control

State Machine

Logic

RESETz

LKON/DS2

BMODE

TPA1+

TPA1−

PC0

Bilingual

Cable Port 1

PC1

TPB1+

TPB1−

PC2

TPA2+

TPA2−

DS0

Bilingual

Cable Port 2

DS1

TESTM

TESTW

TPB2+

TPB2−

Crystal Oscillator,

PLL System,

and Transmit

Clock Generator

Transmit

Data

Encoder

Voltage

Regulator

TSB81BA3D block diagram.

Interface Selection Guide

Texas Instruments 4Q 2006

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GTLP (Gunning Transceiver Logic Plus)

Design Considerations

Primary

™

down the host system and without suspending

signaling. Level 3 isolation, live insertion: for

live insertion both I_OFFand PU3S circuitry are

needed and the board I/Os must be precharged

to mid-swing levels prior to connector insertion/

removal.

Speed — The speed of the GTLP family in

parallel backplanes is 4x that of traditional

logic. Optimized output edge-rate control

(OEC™) circuitry allows clock frequencies in

excess of 100 MHz in high-performance

system backplane applications.

Signal Integrity–TI-OPC — Overshoot pro-

tection circuitry was designed specifically for

the GTLP family and incorporated into the

GTLP outputs. TI-OPC actively clamps any

overshoots that are caused by improperly

terminated backplanes, unevenly distributed

cards or empty slots. OEC on the rising and

falling edge of the GTLP outputs reduces line

reflections and extra EMI, improving overall

signal integrity.

Secondary

Voltage Range — The GTLP family operates

at 3.3 V and with 5-V tolerant LVTTL inputs/

outputs and can operate in a mixed-voltage

environment. GTLP acts as LVTTL -to-GTLP

bi-directional translators with 5 V tolerance

on the LVTTL port.

Compatibility — GTLP provides an easy

migration path from traditional backplane logic

like ABT, FCT, LVT, ALVT, LVC and FB+.

True Live Insertion — GTLP backplane drivers

allow for Level 3 isolation and true live-

insertion capability. Level 1 isolation, partial

power-down: I_OFFcircuitry within the device

prevents damage by limiting the current

flowing from an energized bus when the

device V_CCgoes to zero. Level 2 isolation,

hot insertion: both I_OFFand power-up 3-state

(PU3S) circuitry allow insertion or removal of

a board into a backplane without powering

Portfolio — TI offers the broadest GTLP

portfolio in the industry, with both high-drive

(100 mA) and medium-drive (50 mA) devices.

Drive — The GTLP family provides 24-mA

drive on the A-Port (LVTTL side) and the

choice of medium (50 mA) or high (100 mA)

drive on the B-Port (GTLP side). This offers

flexibility in matching the device to backplane

length, slot spacing and termination resistance.

Packaging — TI offers GTLP in a low-profile,

fine-pitch BGA package (LFBGA) and in a quad

flat no-lead package (QFN) for higher

performance and the ultimate reduction in

board-space requirements.

Single Bit Representation of a Multipoint Parallel Backplane

V_TT

22 Ω

0.25"

9. 4"

Z₀†

02. 5"

Conn.

Z₀¥

Conn.

Rcvr

Slot 1

Slot 2

Slot 3

Slot 18

Slot 19 Slot 20

† Unloaded backplane trace natural impedance (Z ) is 45 Ω to 60 Ω, with 60 Ω being ideal.

¥ Card stub natural impedance (Z ) is 60 Ω.

Signal Integrity: TI vs Competition

Competitor A

1.5

0.5

1.98E-08

4.48E-08

Time

6.98E-08

Texas Instruments 4Q 2006

Interface Selection Guide

Download from Www.Somanuals.com. All Manuals Search And Download.

GTLP (Gunning Transceiver Logic Plus)

GTLP Selection Guide

Device

Description

Price*

2.09

5.17

2.09

5.17

1.95

5.25

5.63

3.30

5.25

4.58

4.88

7.70

2.75

2.42

5.83

7.50

4.29

SN74GTLP1394

SN74GTLP1395

SN74GTLP2033

SN74GTLP2034

SN74GTLP21395

SN74GTLP22033

SN74GTLP22034

SN74GTLP817

SN74GTLPH1612

SN74GTLPH1616

SN74GTLPH1627

SN74GTLPH1645

SN74GTLPH1655

SN74GTLPH16612

SN74GTLPH16912

SN74GTLPH16916

SN74GTLPH16927

SN74GTLPH16945

SN74GTLPH306

SN74GTLPH3245

SN74GTLPH32912

SN74GTLPH32916

SN74GTLPH32945

2-Bit LVTTL-to-GTLP Adjustable-Edge-Rate Bus Xcvr w/ Split LVTTL Port, Feedback Path and Selectable Polarity

Two 1-Bit LVTTL/GTLP Adjustable-Edge-Rate Bus Xcvrs w/ Split LVTTL Port, Feedback Path and Selectable Polarity

8-Bit LVTTL-GTLP Adjustable-Edge-Rate Registered Transceiver w/ Split LVTTL Port and Feedback Path

Two 1-Bit LVTTL/GTLP Adjustable-Edge-Rate Bus Xcvrs w/ Split LVTTL Port, Feedback Path and Selectable Polarity

8-Bit LVTTL-GTLP Adjustable-Edge-Rate Registered Transceiver w/ Split LVTTL Port and Feedback Path

8-Bit LVTTL-GTLP Adjustable-Edge-Rate Registered Transceiver with Split LVTTL Port and Feedback Path

GTLP-to-LVTTL 1-to-6 Fanout Driver

18-Bit LVTTL-to-GTLP Adjustable-Edge-Rate Universal Bus Transceiver

17-Bit LVTTL-to-GTLP Adjustable-Edge-Rate Universal Bus Transceiver w/ Buffered Clock Outputs

18-Bit LVTTL-to-GTLP Bus Xcvr w/Source Synchronous Clock Outputs

16-Bit LVTTL-to-GTLP Adjustable-Edge-Rate Bus Transceiver

16-Bit LVTTL-to-GTLP Adjustable-Edge-Rate Universal Bus Transceiver

18-Bit LVTTL-to-GTLP Universal Bus Transceiver

17-Bit LVTTL-to-GTLP Universal Bus Transceiver w/ Buffered Clock Outputs

18-Bit LVTTL-to-GTLP Bus Transceiver w/Source Synchronous Clock Outputs

16-Bit LVTTL-to-GTLP Bus Transceiver

8-Bit LVTTL-to-GTLP Bus Transceiver

32-Bit LVTTL-to-GTLP Adjustable-Edge-Rate Bus Transceiver

36-Bit LVTTL-to-GTLP Universal Bus Transceiver

34-Bit LVTTL-to-GTLP Universal Bus Transceiver w/ Buffered Clock Outputs

32-Bit LVTTL-to-GTLP Bus Transceiver

*Suggested resale price in U.S. dollars in quantities of 1,000.

Resources For a complete list of resources (evaluation modules, data sheets and application notes), visit interface.ti.com

Literature Number

Application Notes

SCEA017

Description

GTLP in BTL Applications

SCEA019

SCEA026

SCEA022

SCBA015A

Texas Instruments GTLP Frequently Asked Questions

Logic in Live-Insertion Applications With a Focus on GTLP

Achieving Maximum Speed on Parallel Buses With Gunning Transceiver Logic

Fast GTLP Backplanes With the GTLPH1655

Other Literature

SCYT126

Advanced Bus Interface Logic Selection Guide

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

VME

Design Considerations

Technical Information

Backward compatibility — The VMEH22501/A

improves the performance up to 8X of the

VMEbus™ without making changes to

existing hardware.

• TI’s SN74VMEH22501/A are specifically

designed for the VMEbus technology. The

device is an 8-bit universal bus transceiver

(UBT) with two bus transceivers. It

Full Live Insertion—This device is fully

specified for live-insertion applications using

_OFF, power-up 3-state and BIAS V_CC

provides incident switching on the 21-slot

VMEbus backplane, thus providing data

signaling rates of up to 40 Mbps-—an 8X

improvement over the VME64 standard.

Speed/Signal Integrity—High-speed

backplane operation is a direct result of the

improved OEC circuitry that has been tested

on the standard VME backplane. Furthermore,

signal integrity is not compromised with

higher speed operation.

Standard Specification — The VMEH22501/A

are referenced by the 2eSST VITA 1.5 spec

as a device that provides excellent signaling

at 40-Mbps data rate.

Highlights

• Ability to transmit data on the VMEbus

up to 2eSST protocol speed is an

improvement over VME64.

Increased Noise Immunity — The 50-mV input

threshold allows the VMEH22501/A to provide

clean signaling under harsh environments.

• Incident wave switching allows for higher

performance on the VMEbus compared to

conventional logic that depends on

reflective wave switching.

VME Parametric Table

Parameter Name

Voltage Nodes (V)

V_CCRange (V)

Input Level

Output Level

Output Drive (mA)

No. of Outputs

Logic

SN74VMEH22501

SN74VMEH2501A

3.3

3.15 to 3.45

LVTTL

–48/64

3.15 to 3.45

LVTTL

–48/64

True

Static Current (mA)

t_pdmax (ns)

8.9

T_A

0° C to 85° C

–40° C to 85° C

Resources For a complete list of resources (evaluation modules, data sheets and application notes), visit interface.ti.com

Literature Number

Application Notes

SCEA028

Description

VMEH22501 in 2eSST and Conventional VME Backplane Applications

VME Application Clip

Other Literature

SCYB009

Texas Instruments 4Q 2006

Interface Selection Guide

Download from Www.Somanuals.com. All Manuals Search And Download.

Clock Distribution Circuits

Clock Selection by Speed and Signaling Type

Clock Selection by Number of Outputs and Signaling Type

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

Cross-Reference Guide

The following products have similar functionality:

Part Number

TI Replacement

Part Number

TI Replacement

Part Number

TI Replacement

AGERE

BDG1A

BDGLA

BPNGA

BRF1A

BRF2A

BRS2A

BRS2B

BTF1A

EXAR (cont.)

ST16C654

ST16C654D

ST68C554

XR16L2750

XR16L2751

XR16L2752

XR16L651

IMPX

TB5D1M

TB5D2H

TB5D1M

TB5R1

TB5R2

TL16C754B

TL16C554A

TL16C752B

TL16C750

IMP2525

IMP2525A

IMP2526

TPS2051A

TPS2052A

INFINEON

TLE6250

SN65HVD251

SN65HVD1050

TB5R2

TB5T1

XR16L784

TL16C754B

INTEL

21150AB/AC

21150BC

21152

PCI2050*

PCI2050B*

PCI2250*

FAIRCHILD SEMICONDUCTOR

FIN1001

FIN1002

AGILENT

HDMP1636/1646

SN65LVDS1*

SN65LVDS2*

TNETE2201B

FIN1017

FIN1018

FIN1019

FIN1022

FIN1025

FIN1026

FIN1027

FIN1028

FIN1031

FIN1032

FIN1047

FIN1048

FIN1049

FIN1101

FIN1102

FIN1104

GTLP1616

GTLP16612

GTLP16T1655

GTLP18T612

GTLP6C817

GTLP8T306

SN65LVDS1*

SN65LVDS2*

INTERSIL

HIN211

HIN211E

HIN232

HIN232E

HIN241

HIN241E

ICL232

ALLEGRO

A2525

A2526

A2535

A2536

SN75LBC241

MAX232*

TPS2051A

TPS2052A

TPS2041A

TPS2042A

SN65LVDS180

SN65LVCP22*

SN65LVDS9638

SN65LVDS9637

SN65LVDS9638*

SN65LVDS9637*

SN65LVDS31*

SN65LVDS32*

SN65LVDS047*

SN65LVDS048A*

SN65LVDS049

SN65LVDS100

SN65LVCP22

SN65LVDS125

SN74GTLPH1616

SN74GTLPH1612

SN74GTLPH16612

SN74GTLPH1655

SN74GTLPH16912

SN74GTLP817

SN74GTLPH306

MAX232

SN75LBC241

MAX232*

MAX3221*

MAX3221

MAX3222*

MAX3222

MAX3223*

MAX3223

MAX3232*

MAX3232

MAX3238*

MAX3238

MAX3243*

MAX3243

SN65HVD3082E*

SN65LBC184*

SN65HVD06*

SN65HVD21*

SN65HVD06*

SN65HVD21*

SN65HVD3082E*

SN65LBC184*

SN65HVD3082E*

SN65HVD06*

SN65HVD21*

SN65LBC179A*

SN65LBC180A*

SN65LBC179A*

SN65LBC180A*

ANALOG DEVICES (ADI)

ADM1485

ADM1486

ADM3485E

ADM483E

ADM485

ADM488

SN75LBC176A*

SN65HVD1176*

SN75HVD10*

SN65HVD3082E

SN75LBC176A*

SN65HVD3085E*

SN65HVD485E*

SN75LBC176A*

SN75176B*

ICL3221

ICL3221E

ICL3222

ICL3222E

ICL3223

ICL3223E

ICL3232

ICL3232E

ICL3238

ICL3238E

ICL3243

ICL3243E

ISL1483

ISL1487

ISL1487E

ISL1487L

ISL8483

ISL8485

ISL8488

ISL8489

ISL8490

ISL8491

SN75LBC179A*

SN75LBC180A*

ADM489

CMP

CMPWR025

TPS210x

CYPRESS

AN-213x

TUSB3410

FTDI

FT232BM

EUREKA

EP600

TUSB3410

TL16C550C

GOLDSTAR

GM16C550

EXAR

TL16C550B*

TL16C550C*

ST16C2450

ST16C2550

ST16C2552

ST16C450

ST16C452

ST16C550

ST16C552

ST16C552A

ST16C554

ST16C554D

ST16C580

TL16C452

TL16C552A

TL16C752B*

TL16C552A*

TL16C450*

TL16C452*

TL16C550B

TL16C550C

TL16C552

TL16C552A

TL16C552

TL16C552A

TL16C554A

TL16C554

HYNIX (LG)

GD75232

GD75232*

IMP

Ei16C450

Ei16C550

Ei16C552

Ei16C554

TL16C450

TL16C550C

TL16C552

TL16C552A

TL16C554

TL16C554A

Part Number

LINEAR TECHNOLOGY CORP. (LTC)

LT1030

LT1081

LT1181A

LT1381

TI Replacement

LT1030

MAX232

TL16C554A

TL16C550C

Part Number

TI Replacement

* Drop-in, pin-compatible devices

Texas Instruments 4Q 2006

Interface Selection Guide

Download from Www.Somanuals.com. All Manuals Search And Download.

Cross-Reference Guide

The following products have similar functionality:

Part Number

TI Replacement

Part Number

TI Replacement

Part Number

TI Replacement

LINEAR TECHNOLOGY CORP. (LTC) (cont.)

MAXIM (cont.)

MAX3044

MAX3045B

MAX3050

MAX3053

MAXIM (cont.)

MAX491

MAX491E

MAX625

LT1785

SN75LBC184*

TPS2211A

SN75HVD11*

SN75LBC172A*

SN65HVD251*

SN65HVD251

SN65HVD251*

SN65HVD3082E*

SN65HVD3085E*

SN65HVD3088E*

SN75LBC173A*

SN75LBC175A*

MAX3221*

MAX3221

MAX3222*

MAX3222

MAX3223*

MAX3223

MAX3232*

MAX3232

MAX3238*

SN75LBC180*

SN75LBC180A*

TPS2044A/54A

TPS2205

TPS2024/34

TPS2022/32

LTC1472

LTC1480

LTC1481

LTC1482

LTC1483

LTC1484

LTC1485

LTC1487

LTC1518

LTC1519

LTC1685

LTC1686

LTC1687

LTC1688

LTC1689

SN75LBC176A*

SN65LBC176A*

SN65HVD3082E*

SN75HVD07*

SN75LBC173A*

SN75LBC175A*

SN65HVD1176*

SN75LBC179A*

SN75LBC180A*

SN75LBC172A*

SN75LBC174A*

MAX780

MAX869L

MAX890L

MAX9110

MAX9111

MAX9112

MAX9113

MAX9115

MAX9121

MAX9122

MAX9123

MAX9124

MAX9125

MAX9126

MAX9130

MAX9152

MAX9155

MAX9156

MAX9159

MAX9163

MAX9164

MAX9169

MAX9170

MAX9171

MAX9172

MAX9173

MAX9174

MAX9175

MAX9177

MAX9178

MAX9179

MAX9180

MAX9181

MAX9205

MAX9206

MAX9207

MAX9208

MAX9320

MAX9320A

MAX9321B

MAX9374

MAX9374A

MAX9375

MAX3057

SN65LVDS1*

SN65LVDS2*

SN65LVDS9638*

SN65LVDS9637*

SN65LVDS2

SN65LVDS048A*

SN65LVDT048A*

SN65LVDS047*

SN65LVDS31*

SN65LVDS32*

SN65LVDT32*

SN65LVDS2

SN65LVCP22

SN65LVDS100

SN65LVDS9637*

SN65MLVD201

SN65LVDS180

SN65LVDS104*

SN65LVDS105*

SN65LVDS2*

SN65LVDS9637

SN65LVDS048A

SN65LVDS122

SN65LVCP22

SN65LVDS047*

SN65LVDS348*

SN65LVDS100

SN65LV1023*

SN65LV1021*

SN65LV1224*

SN65LV1212*

SN65LVCP23

NS65LVCP23

SN65LVDS101

SN65LVDS100

SN65LVDS101

MAX3082

MAX3082E

MAX3085

MAX3085E

MAX3088

MAX3088E

MAX3093E

MAX3095E

MAX3221

MAX3221E

MAX3222

MAX3222E

MAX3223

MAX3223E

MAX3232

MAX3232E

MAX3238

MAX3238E

MAX3243

MAX3243E

MAX3362

MAX3443E

MAX3463

MAX3464

MAX3483

MAX3483E

MAX3485

MAX3485E

MAX3486

MAX3486E

MAX481/E

MAX481

MAX481E

MAX483/E

MAX483

MAX483E

MAX485/E

MAX485

MAX485E

MAX487

MAX487E

MAX488

MAX488E

MAX489

MAX489E

MAX490

MAX490E

LTC1690

LTC1796

LTC485

LTC486

LTC487

LTC488

LTC489

LTC490

LTC491

SN75LBC179A*

SN65HVD251*

SN65HVD3085E*

SN65HVD485E*

SN75LBC176A*

SN75176B*

SN75172*

MAX3238

MAX3243*

MAX3243

SN75ALS172A*

SN75LBC172A*

SN75174*

SN75ALS174A*

SN75LBC174A*

SN75173*

SN75ALS173*

SN75LBC173A*

SN75175*

SN75ALS175*

SN75LBC175A*

SN75LBC179A*

SN75LBC180A*

SN75HVD10*

SN75LBC184*

SN65HVD1176*

SN65HVD3082E*

SN75HVD05*

SN75HVD12*

SN75HVD11*

SN75HVD12*

SN65HVD3088E*

SN75LBC176*

SN75LBC176A*

SN65HVD3082E*

SN75LBC176*

SN75LBC176A*

SN65HVD3085E*

SN75LBC176*

SN75LBC176A*

SN75HVD07*

SN75LBC182*

SN65HVD3082E*

SN75LBC179*

SN75LBC179A*

SN75LBC180*

SN75LBC180A*

SN75LBC179*

SN75LBC179A*

MAXIM

MAX1487

MAX1487E

MAX1600/MAX1603

MAX1601/MAX1604

MAX1602

SN65HVD3082E*

SN75HVD06*

SN65HVD3082E*

SN75HVD06*

TPS2205

TPS2211A

MAX1607

MAX202

TPS2041A

MAX202*

MICROCHIP

MCP2551

MCP2120

SN65HVD251*

TIR1000

MAX211

MAX232

MAX211*

MAX232*

MAX241

MAX3040

MAX3041

MAX3042B

MAX3043

SN75LBC241

SN75LBC174A*

SN75LBC172A*

* Drop-in, pin-compatible devices

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

Cross-Reference Guide

The following products have similar functionality:

Part Number

TI Replacement

Part Number

TI Replacement

Part Number

TI Replacement

MICREL

MIC2505

MIC2506

MIC2507

MIC2514

MIC2524

MIC2525

MIC2526

MIC2527

MIC2563A

MIC2564A

NATIONAL SEMICONDUCTOR (cont.)

TPS2024/34

TPS2042A/52A

TPS2044A/54A

TPS210x

TPS2044A/54A

TPS2041A/51A

TPS2042A/52A

TPS2044A/54A

TPS2205

DS90LV028A

DS90LV031

DS90LV031A

DS90LV031B

DS90LV032

DS90LV032A

DS90LV047

DS90LV047A

DS90LV048

DS90LV048A

DS90LV049

DS90LV1021

DS90LV1023

DS90LV1212A

DS90LV1224

DS92LV010A

DS92LV090

DS92LV090A

DS92LV1010

DS92LV1021

DS92LV1023

DS92LV1212A

DS92LV1224

DS92LV16

SN65LVDS9637*

SN65LVDM31*

SN65LVDS31*

SN65LVDM31*

SN65LVDS31*

SN65LVDM31*

SN65LVDS31*

SN65LVDS32*

SN65LVDS047*

SN65LVDS048A*

SN65LVDS049*

SN65LV1021*

SN65LV1023*

SN65LV1023A*

SN65LV1212*

SN65LV1224A*

SN65MLVD200*

SN65MLVD201*

SN65MLVD204*

SN65MLVD206*

SN65LVDM976

SN65LVDM977

SN65LVDM976

SN65LVDM977

SN65MLVD201

SN65LV1021*

SN65LV1023A*

SN65LVDS151

SN65LV1023A*

SN65LV1212*

SN65LV1224B*

TLK2521

DS96F174C

DS96F175C

PC16550D

PC16552D

SC28L194

SN75174*

SN75ALS174A*

SN75LBC174A*

SN75175*

SN75ALS175*

SN75LBC175A*

TL16C550B

TL16C550C*

TL16C552A

TL16C554A*

TL16C552A*

TPS2216A

SC28L92

SC68C562C1A

NATIONAL SEMICONDUCTOR

DS14185

DS14196

DS1487

DS1488

DS1489

DS14C232

DS14C88

DS14C89A

DS36276

DS3695

DS3697

SN75185*

SN75196

SN75HVD06*

SN75188

SN75189

MAX232

SN75C188

SN75C189A

SN75HVD05*

SN65HVD3088E*

SN75LBC176A*

SN75ALS176*

SN75176B*

ON SEMI

MC100EP16

MC1488

SN65LVDS100

SN65LVDS101

SN75188*

MC1489

SN75189*

MC1489A

MC14C89AB

MC3488A

SN75189A*

SN75C189A

UA9636A

OXFORD

OXCF950

TL16PC564B

PERICOM

SN75179*

PI7C8150A

PI7C8152A

PI90LV001

PI90LV019

PI90LV02

PCI2050*

PCI2050B*

PCI2250*

SN65LVDS1*

SN65LVDS180

SN65LVDS2*

SN75ALS179*

SN75LBC179*

SN75HVD06*

SN75LBC176*

SN65HVD3088E*

SN75LBC176A*

SN75ALS176*

SN75176B*

DS36C278

DS36C279

DS36C280

DS36F95

DS485

PI190LV03

PI90LV051

PI90LV179

PI90LV180

PI90LV3486

PI90LV3487

PI90LV9637

PI90LV9638

PI90LVB001

PI90LVB010

PI90LVB03

PI90LVB047A

PI90LVB180

PI90LVB387

PI90LVB9638

PI90LVT02

PI90LVT048A

PI90LVT3486

PI90LVT386

PI90LVT9637

SN65LVDS100

SN65LVDS051*

SN65LVDS179*

SN65LVDS180*

SN65LVDS3486*

SN65LVDS3487

SN65LVDS3487*

SN65LVDS9637*

SN65LVDS9638*

SN65LVDS1

SN65MLVD201

SN65LVDS100

SN65LVDS047

SN65LVDM180*

SN65LVDS387

SN65LVDS9638

SN65LVDS2*

DS485

DS92LV18

TLK2521

DS75176B

DS90CP04

DS90CP22

DS90CR215

DS90CR216

DS90CR283

DS90CR284

DS90LT012A

DS90LV001

DS90LV0101A

DS90LV011A

DS90LV012A

DS90LV017

DS90LV017A

DS90LV018A

DS90LV019

DS90LV027A

SN75LBC176A*

SN75ALS176*

SN75176B*

DS92LV222

DS92LV222A

DS96173

SN65LVCP22

SN65LVDM22

SN65LVCP22

SN65LVDM22

SN75173*

SN75ALS173*

SN75LBC173A*

SN75174*

SN65LVDS250

SN65LVCP22*

SN65LVDS95*

SN65LVDS96*

SN65LVDS93*

SN65LVDS94*

SN65LVDT2*

SN65LVDS100*

SN65MLVD201

SN65LVDS1*

SN65LVDS2*

SN65LVDS1*

SN65LVDS2*

SN65LVDT2*

SN65LVDS179

SN65LVDS9638*

DS96174

DS96175

SN75ALS174A*

SN75LBC174A*

SN75LBC175A*

SN75ALS175*

SN75175*

SN65LVDT2*

DS96175

SN65LVDT348

SN65LVDT3486*

SN65LVDT3486B*

SN65LVDT386*

SN65LVDT9637*

DS96176

SN65HVD3088E*

SN75LBC176A*

SN75ALS176*

SN75176B*

DS9636

* Drop-in, pin-compatible devices

Texas Instruments 4Q 2006

Interface Selection Guide

Download from Www.Somanuals.com. All Manuals Search And Download.

Cross-Reference Guide

The following products have similar functionality:

Part Number

TI Replacement

Part Number

TI Replacement

Part Number

TI Replacement

PERICOM (cont.)

PI90LVT9637

PI90LV017A

PI90LV018A

PI90LV019

PI90LV022

PI90LV027A

PI90LV028A

PI90LV031A

PI90LV032A

PI90LV047A

PI90LV048A

PI90LV050

PHILIPS (cont.)

SCN2681

TJA1040

SIPEX (cont.)

SP481E

SP481R

SP483

SN65LVDT9637B*

SN65LVDS1*

SN65LVDS2*

TL16C452*

SN65HVD1040*

SN65HVD1050*

SN75LBC176A*

SN65HVD3088E*

SN65HVD3082E*

SN75LBC176*

SN75ALS176*

SN75176B*

SN65HVD3085E*

SN65HVD485E*

SN65HVD3088E*

SN75LBC176*

SN75ALS176*

SN75176B*

TJA1050

SN65MLVD200*

SN65MLVD201*

SN65MLVD204*

SN65MLVD206*

SN65LVCP22

SN65LVDS122

SN65LVDS9638*

SN65LVDS9637*

SN65LVDS31*

SN65LVDS32*

SN65LVDS047*

SN65LVDS048*

SN65LVDS050*

SN65LVDS386*

SN65LVDS387*

SN65LVDM22

PLX

PCI6150

PCI6140

PCI2050*

PCI12050B*

PCI2250*

SP483

SP483E

SP485

SP485E

SP486

SP486E

SP487

SP487E

SP488

SP488A

SP488E

SP489

SP489A

SP489E

SP490

PROLIFIC

PL-2303

TUSB3410

SEMTECH

SC5825

SC5826

TPS2041A/51A

TPS2042A/52A

SN65HVD3088E*

SN75LBC176A*

SN75LBC172*

SILICON LABORATORIES

CP2101

CP2102

SN75LBC172A*

SN75LBC174*

SN75LBC174A*

SN75LBC173*

SN75LBC173A*

SN75LBC175*

SN75LBC175A*

SN75LBC179*

SN75LBC179A*

SN75LBC180*

SN75LBC180A*

TUSB3410

PI90LV386

PI90LV387

SILICONIX/VISHAY

Si9711

Si9712

PI90LVB022

PI90LVB047A

PI90LVB050

PI90LVB051

PI90LVB179

PI90LVB180

TPS2211A

SN65LVDM31

SN65LVDM050*

SN65LVDM051*

SN65LVDM179*

SN65MLVD202*

SN65MLVD203*

SN65MLVD205*

SN65MLVD207*

SILICON SYSTEM

73M550

TL16C550C*

SIPEX

SP211

SP490E

SP491

SP491E

SN75LBC241

MAX232

MAX3222

SNx5C3222

MAX3223

SNx5C3223

MAX3232

SNx5C3232

MAX3238

SP232A

SP3222E

SP3222EB

SP3222EU

SP3223E

SP3223EB

SP3223EU

SP3232E

SP3232EB

SP3232EU

SP3238E

SP3243E

SP3243EB

SP3243EU

SP3481

SP3483

SP3485

SP3494

SP481

SP481E

PHILIPS

Part Number

STM

ST232

TI Replacement

PCA82C250

PCA82C251

SC16C550

SC16C554

SC16C650A

SC16C652

SC16C654

SC16C752

SC16C2550

SC16C2552

SC28L194

SC28L91

SN65HVD251*

TL16C55C*

TL16C554*

TL16C554A*

TL16C550

MAX232*

MAX3222*

MAX3222

MAX3232*

MAX3232

MAX3243*

MAX3243

SN75185

ST3222

ST3222E

ST3232

ST3232E

ST3243

ST3243E

ST75185

ST75C185

TL16C752

TL16C754

TL16C752B*

TL16C752B

TL16C554A

TL16C550C

TL16C552A

TL16C450

MAX3243

SN75C185*

SNx5C3243

SN75HVD11*

SN75HVD12*

SN75HVD11*

SN75HVD10*

SN65HVD3088E*

SN75LBC176*

SN75ALS176*

SN75176B*

SN65HVD3088E*

SC28L92

SC68C562C1A

SCC2691

SCC2692

SCC68692

TL16C452*

* Drop-in, pin-compatible devices

Interface Selection Guide

Texas Instruments 4Q 2006

Download from Www.Somanuals.com. All Manuals Search And Download.

Device Index

Device

Page

Device

Page

Device

Page

Device

Page

Device

Page

Device

Page

175 . . . . . . . . . . . . . . .9, 12, 42

176B . . . . . . . . . . . . . . . . . .12

ADM2209E . . . . . . . . . . . . .14

ALS1177 . . . . . . . . . . . . . . .12

ALS1178 . . . . . . . . . . . . . . .12

ALS176 . . . . . . . . . . . . . . . .12

ALS180 . . . . . . . . . . . . . . . .12

CDC208 . . . . . . . . . . . . . . . .42

CDC2351 . . . . . . . . . . . . . . .42

CDC2536 . . . . . . . . . . . . . . .42

CDC2582 . . . . . . . . . . . . . . .42

CDC2586 . . . . . . . . . . . . . . .42

CDC286 . . . . . . . . . . . . . . . .42

CDC318A . . . . . . . . . . . . . . .42

CDC319 . . . . . . . . . . . . . . . .42

CDC328A . . . . . . . . . . . . . . .42

CDC329A . . . . . . . . . . . . . . .42

CDC337 . . . . . . . . . . . . . . . .42

CDC339 . . . . . . . . . . . . . . . .42

CDC340 . . . . . . . . . . . . . . . .42

CDC341 . . . . . . . . . . . . . . . .42

CDC351 . . . . . . . . . . . . . . . .42

CDC391 . . . . . . . . . . . . . . . .42

CDC536 . . . . . . . . . . . . . . . .42

CDC5801A . . . . . . . . . . . . . .42

CDC5806 . . . . . . . . . . . . . . .42

CDC582 . . . . . . . . . . . . . . . .42

CDC586 . . . . . . . . . . . . . . . .42

CDC7005 . . . . . . . . . . . . . . .42

CDC930 . . . . . . . . . . . . . . . .42

CDC950 . . . . . . . . . . . . . . . .42

CDC960 . . . . . . . . . . . . . . . .42

CDCD5704 . . . . . . . . . . . . . .42

CDCD5804 . . . . . . . . . . . . . .42

CDCE706 . . . . . . . . . . . . . . .42

CDCE906 . . . . . . . . . . . . . . .42

CDCF5801A . . . . . . . . . . . . .42

CDCFR83A . . . . . . . . . . . . . .42

CDCL6010 . . . . . . . . . . . . . .42

CDCLVD110 . . . . . . . . . . .4, 42

CDCLVP110 . . . . . . . . . . . . .42

CDCM1802 . . . . . . . . . . . . .42

CDCM1804 . . . . . . . . . . . . .42

CDCM7005 . . . . . . . . . . . . .42

CDCP1802 . . . . . . . . . . . . . .42

CDCP1803 . . . . . . . . . . . . . .42

CDCR61A . . . . . . . . . . . . . . .42

CDCR83A . . . . . . . . . . . . . . .42

CDCU2A877 . . . . . . . . . . . . .42

CDCU855 . . . . . . . . . . . . . . .42

CDCU877A . . . . . . . . . . . . . .42

CDCUA855 . . . . . . . . . . . . . .42

CDCUA877 . . . . . . . . . . . . . .42

CDCV304 . . . . . . . . . . . . . . .42

CDCV850 . . . . . . . . . . . . . . .42

CDCV855 . . . . . . . . . . . . . . .42

CDCV857B . . . . . . . . . . . . . .42

CDCV877/A . . . . . . . . . . . . .42

CDCVF111 . . . . . . . . . . . . . .42

CDCVF2310 . . . . . . . . . . . . .42

CDCVF2505 . . . . . . . . . . . . .42

CDCVF25081 . . . . . . . . . . . .42

CDCVF25084 . . . . . . . . . . . .42

CDCVF2509A . . . . . . . . . . . .42

CDCVF2510A . . . . . . . . . . . .42

CDCVF857 . . . . . . . . . . . . . .42

EPON . . . . . . . . . . . . . . .20-21

GD65232 . . . . . . . . . . . . . . .15

GD75232 . . . . . . . . . . . . . . .15

GD75323 . . . . . . . . . . . . . . .15

HVD05 . . . . . . . . . . . . . . . . .12

HVD06 . . . . . . . . . . . . . . . . .12

HVD07 . . . . . . . . . . . . . . . . .12

HVD08 . . . . . . . . . . . . . . . . .12

HVD10 . . . . . . . . . . . . . . . . .12

HVD11 . . . . . . . . . . . . . . . . .12

HVD1176 . . . . . . . . . . . . . . .12

HVD12 . . . . . . . . . . . . . . . . .12

HVD179 . . . . . . . . . . . . . . . .12

HVD20 . . . . . . . . . . . . . . . . .12

HVD21 . . . . . . . . . . . . . . . . .12

HVD22 . . . . . . . . . . . . . . . . .12

HVD23 . . . . . . . . . . . . . . . . .12

HVD24 . . . . . . . . . . . . . . . . .12

HVD30 . . . . . . . . . . . . . . . . .12

HVD3082E . . . . . . . . . . . . . .12

HVD3085E . . . . . . . . . . . . . .12

HVD3088E . . . . . . . . . . . . . .12

HVD31 . . . . . . . . . . . . . . . . .12

HVD32 . . . . . . . . . . . . . . . . .12

HVD33 . . . . . . . . . . . . . . . . .12

HVD34 . . . . . . . . . . . . . . . . .12

HVD35 . . . . . . . . . . . . . . . . .12

HVD379 . . . . . . . . . . . . . . . .12

HVD485E . . . . . . . . . . . . . . .12

HVD50 . . . . . . . . . . . . . . . . .12

HVD51 . . . . . . . . . . . . . . . . .12

HVD52 . . . . . . . . . . . . . . . . .12

HVD53 . . . . . . . . . . . . . . . . .12

HVD54 . . . . . . . . . . . . . . . . .12

HVD55 . . . . . . . . . . . . . . . . .12

ISO150 . . . . . . . . . . . . . . . . .10

ISO721 . . . . . . . . . . . . . . . . .10

ISO721M . . . . . . . . . . . . . . .10

ISO722 . . . . . . . . . . . . . . . . .10

ISO7220A . . . . . . . . . . . . . .10

ISO7220C . . . . . . . . . . . . . . .10

ISO7220M . . . . . . . . . . . . . .10

ISO7221A . . . . . . . . . . . . . .10

ISO7221C . . . . . . . . . . . . . . .10

ISO7221M . . . . . . . . . . . . . .10

ISO722M . . . . . . . . . . . . . . .10

LBC170 . . . . . . . . . . . . . . . .12

LBC171 . . . . . . . . . . . . . . . .12

LBC172 . . . . . . . . . . . . . . . .12

LBC172A . . . . . . . . . . . . . . .12

LBC173 . . . . . . . . . . . . . . . .12

LBC173A . . . . . . . . . . . . . . .12

LBC174 . . . . . . . . . . . . . . . .12

LBC174A . . . . . . . . . . . . . . .12

LBC175 . . . . . . . . . . . . . . . .12

LBC175A . . . . . . . . . . . . . . .12

LBC176 . . . . . . . . . . . . . . . .12

LBC176A . . . . . . . . . . . . . . .12

LBC179 . . . . . . . . . . . . . . . .12

LBC179A . . . . . . . . . . . . . . .12

LBC180 . . . . . . . . . . . . . . . .12

LBC182 . . . . . . . . . . . . . . . .12

LBC184 . . . . . . . . . . . . . . . .12

LT1030 . . . . . . . . . . . . . . . . .15

MAX202 . . . . . . . . . . . . . . .14

MAX202E . . . . . . . . . . . . . .14

MAX207 . . . . . . . . . . . . . . .14

MAX207E . . . . . . . . . . . . . .14

MAX208 . . . . . . . . . . . . . . .14

MAX208E . . . . . . . . . . . . . .14

MAX211 . . . . . . . . . . . . . . .14

MAX211E . . . . . . . . . . . . . .14

MAX213 . . . . . . . . . . . . .13-14

MAX222 . . . . . . . . . . . . . . .14

MAX232 . . . . . . . . . . . . . . .14

MAX232E . . . . . . . . . . . .13-14

MAX3221 . . . . . . . . . . . . . .14

MAX3221E . . . . . . . . . . . . .14

MAX3222 . . . . . . . . . . . . . .15

MAX3222E . . . . . . . . . . . . .14

MAX3223 . . . . . . . . . . . . . .14

MAX3223E . . . . . . . . . . . . .14

MAX3227E . . . . . . . . . . . . .14

MAX3232 . . . . . . . . . . . . . .14

MAX3232E . . . . . . . . . . . . .14

MAX3237E . . . . . . . . . . . . .14

MAX3238 . . . . . . . . . . . . . .14

MAX3238E . . . . . . . . . . . . .14

MAX3243 . . . . . . . . . . . . . .14

MAX3243E . . . . . . . . . . .13-14

MAX3318 . . . . . . . . . . . . . .14

MAX3318E . . . . . . . . . . . . .14

MAX3386E . . . . . . . . . . . . .14

MC1488 . . . . . . . . . . . . . . . .15

MC1489 . . . . . . . . . . . . . . . .15

MC1489A . . . . . . . . . . . . . .15

MLVD128 . . . . . . . . . . . . .8, 42

MLVD129 . . . . . . . . . . . . . . .42

PCI2040 . . . . . . . . . . . . . . . .33

PCI2050B . . . . . . . . . . . . . . .33

PCI2060 . . . . . . . . . . . . . . . .33

PCI2250 . . . . . . . . . . . . . . . .33

SN65220 . . . . . . . . . . . . . . .26

SN65240 . . . . . . . . . . . . . . .26

SN65C1154 . . . . . . . . . . . . .15

SN65C1406 . . . . . . . . . . . . .15

SN65C23243 . . . . . . . . . . . .14

SN65C3221 . . . . . . . . . . . . .14

SN65C3221E . . . . . . . . . . . .14

SN65C3222 . . . . . . . . . . . . .15

SN65C3222E . . . . . . . . . . . .14

SN65C3223 . . . . . . . . . . . . .14

SN65C3223E . . . . . . . . . . . .14

SN65C3232 . . . . . . . . . . . . .14

SN65C3232E . . . . . . . . . . . .14

SN65C3238 . . . . . . . . . . . . .14

SN65C3243 . . . . . . . . . . . . .14

SN65CML100 . . . . . . . .4-5, 42

SN65HVD1050 . . . . . . . . . .18

SN65HVD230 . . . . . . . . . . .18

SN65HVD231 . . . . . . . . . . .18

SN65HVD232 . . . . . . . . . . .18

SN65HVD233 . . . . . . . . . . .18

SN65HVD234 . . . . . . . . . . .18

SN65HVD235 . . . . . . . . . . .18

SN65HVD251 . . . . . . . . . . .18

SN65LV1023A/1024B . . . . .21

SN65LVCP22 . . . . . . . . . . .4-5

SN65LVCP23 . . . . . . . . . . . . .5

SN65LVCP40 . . . . . . . . . . . . .5

SN65LVDM050 . . . . . . . . . . .9

SN65LVDM1676 . . . . . . . . . .9

SN65LVDM179 . . . . . . . . . . .9

SN65LVDM22 . . . . . . . . . . . .9

SN65LVDM31 . . . . . . . . . . . .9

SN65LVDS047 . . . . . . . . . .6-7

SN65LVDS048A . . . . . . . . .6-7

SN65LVDS049 . . . . . . . . . .6-7

SN65LVDS050 . . . . . . . . . .6-7

SN65LVDS051 . . . . . . . . . .6-7

SN65LVDS1 . . . . . . . . . . . .6-7

SN65LVDS100 . . . . . . . . . .4-5

SN65LVDS101 . . . . . . . . . .4-5

SN65LVDS104 . . . . . . . . . . .42

SN65LVDS105 . . . . . . . . . . .42

SN65LVDS1050 . . . . . . . . .6-7

SN65LVDS108 . . . . . . . . . . .42

SN65LVDS109 . . . . . . . . . . .42

SN65LVDS116 . . . . . . . . . . .42

SN65LVDS117 . . . . . . . . . . .42

SN65LVDS122 . . . . . . . . . .4-5

SN65LVDS16/17 . . . . . . . . . .5

SN65LVDS179 . . . . . . . . . .6-7

SN65LVDS18/19 . . . . . . . . . .5

SN65LVDS180 . . . . . . . . . .6-7

SN65LVDS2 . . . . . . . . . . . .6-7

SN65LVDS20 . . . . . . . . . . . . .5

SN65LVDS22 . . . . . . . . . . .6-7

SN65LVDS250 . . . . . . . . .5, 42

SN65LVDS301 . . . . . . . . . . .19

SN65LVDS302 . . . . . . . . . . .19

SN65LVDS303 . . . . . . . . . . .19

SN65LVDS304 . . . . . . . . . . .19

SN65LVDS305 . . . . . . . . . . .19

SN65LVDS306 . . . . . . . . . . .19

SN65LVDS31 . . . . . . . . . . .6-7

SN65LVDS32 . . . . . . . . . . .6-7

SN65LVDS33 . . . . . . . . . . . . .5

SN65LVDS34 . . . . . . . . . . . . .5

SN65LVDS348 . . . . . . . . . . . .5

SN65LVDS3486 . . . . . . . . .6-7

SN65LVDS3487 . . . . . . . . .6-7

SN65LVDS352 . . . . . . . . . . . .5

SN65LVDS386 . . . . . . . .4, 6-7

SN65LVDS387 . . . . . . . .4, 6-7

SN65LVDS388A . . . . . . . . .6-7

SN65LVDS389 . . . . . . . . . .6-7

SN65LVDS390 . . . . . . . . . .6-7

SN65LVDS391 . . . . . . . . . .6-7

SN65LVDS93/94 . . . . . .20-21

SN65LVDS95/96 . . . . . .20-21

SN65LVDS9637 . . . . . . . . .6-7

SN65LVDS9638 . . . . . . . . .6-7

SN65LVP16/17 . . . . . . . . . . .5

SN65LVP18/19 . . . . . . . . . . .5

SN65LVP20 . . . . . . . . . . .5, 42

SN65MLVD047 . . . . . . . . . . .9

SN65MLVD080 . . . . . . . . . . .9

SN65MLVD082 . . . . . . . . . . .9

SN65MLVD128 . . . . . . . . . . .9

SN65MLVD129 . . . . . . . . . . .9

SN65MLVD2 . . . . . . . . . . . . .9

SN65MLVD200A . . . . . . . . . .9

SN65MLVD201 . . . . . . . .9, 42

SN65MLVD202A . . . . . . . . . .9

SN65MLVD203 . . . . . . . . . . .9

SN65MLVD204A . . . . . . . . . .9

SN65MLVD205A . . . . . . . . . .9

SN65MLVD206 . . . . . . . . . . .9

SN65MLVD207 . . . . . . . . . . .9

SN65MLVD3 . . . . . . . . . . . . .9

SN65MLVDS201 . . . . . . . . .42

SN74GTLP1394 . . . . . . . . . .40

SN74GTLP1395 . . . . . . . . . .40

SN74GTLP2033 . . . . . . . . . .40

SN74GTLP2034 . . . . . . . . . .40

SN74GTLP21395 . . . . . . . . .40

SN74GTLP22033 . . . . . . . . .40

SN74GTLP22034 . . . . . . . . .40

SN74GTLP817 . . . . . . . . . . .40

SN74GTLPH1612 . . . . . . . . .40

SN74GTLPH1616 . . . . . . . . .40

SN74GTLPH1627 . . . . . . . . .40

SN74GTLPH1645 . . . . . . . . .40

SN74GTLPH1655 . . . . . . . . .40

SN74GTLPH16612 . . . . . . . .40

SN74GTLPH16912 . . . . . . . .40

SN74GTLPH16916 . . . . . . . .40

SN74GTLPH16927 . . . . . . . .40

SN74GTLPH16945 . . . . . . . .40

SN74GTLPH306 . . . . . . . . . .40

SN74GTLPH3245 . . . . . . . . .40

SN74GTLPH32912 . . . . . . . .40

SN74GTLPH32916 . . . . . . . .40

SN74GTLPH32945 . . . . . . . .40

SN74VMEH22501 . . . . . . . .41

SN75150 . . . . . . . . . . . . . . .14

SN75154 . . . . . . . . . . . . . . .15

SN75155 . . . . . . . . . . . . . . .14

SN751701 . . . . . . . . . . . . . .15

SN75185 . . . . . . . . . . . . . . .14

SN75186 . . . . . . . . . . . . . . .15

SN75188 . . . . . . . . . . . . . . .14

SN75189 . . . . . . . . . . . . . . .15

SN75189A . . . . . . . . . . . . . .15

SN75196 . . . . . . . . . . . . . . .14

SN752232 . . . . . . . . . . . . . .15

SN75240 . . . . . . . . . . . . . . .26

SN75C1154 . . . . . . . . . . . . .15

SN75C1406 . . . . . . . . . . . . .15

SN75C185 . . . . . . . . . . . . . .15

SN75C188 . . . . . . . . . . . . . .15

SN75C189 . . . . . . . . . . . . . .15

SN75C189A . . . . . . . . . . . . .15

SN75C198 . . . . . . . . . . . . . .15

SN75C23243 . . . . . . . . . . . .14

SN75C3221 . . . . . . . . . . . . .14

SN75C3221E . . . . . . . . . . . .14

SN75C3222 . . . . . . . . . . . . .15

SN75C3222E . . . . . . . . . . . .14

SN75C3223 . . . . . . . . . . . . .14

SN75C3223E . . . . . . . . . . . .14

SN75C3232 . . . . . . . . . . . . .14

SN75C3232E . . . . . . . . . . . .14

SN75C3238 . . . . . . . . . . . . .14

SN75C3243 . . . . . . . . . . . . .14

SN75LBC187 . . . . . . . . . . . .15

SN75LBC241 . . . . . . . . . . . .15

SN75LP1185 . . . . . . . . . . . .14

SN75LP196 . . . . . . . . . . . . .14

SN75LPE185 . . . . . . . . . . . .14

SN75LV4737A . . . . . . . . . . .14

SN75LVDS82/83 . . . . . .20-21

SN75LVDS84A/86 . . . . .20-21

SN75LVDT1422 . . . . . . .20-21

TB3R1 . . . . . . . . . . . . . . . . . .5

TB3R2 . . . . . . . . . . . . . . . . . .5

TB5D1M . . . . . . . . . . . . . . . .5

TB5D2H . . . . . . . . . . . . . . . . .5

TB5R1 . . . . . . . . . . . . . . . . . .5

TB5R2 . . . . . . . . . . . . . . . . . .5

TB5R3 . . . . . . . . . . . . . . . . . .5

TB5T1 . . . . . . . . . . . . . . . . . .5

TFP401 . . . . . . . . . . . . . . . . .22

TFP401A . . . . . . . . . . . . . . .22

TFP403 . . . . . . . . . . . . . . . . .22

TFP410 . . . . . . . . . . . . . . . . .22

TFP501 . . . . . . . . . . . . . .22-23

TFP503 . . . . . . . . . . . . . .22-23

TFP510 . . . . . . . . . . . . . .22-23

TFP513 . . . . . . . . . . . . . .22-23

TL145406 . . . . . . . . . . . . . . .15

TL16C2550 . . . . . . . . . . .16-17

TL16C2552 . . . . . . . . . . .16-17

TL16C2752 . . . . . . . . . . .16-17

TL16C450 . . . . . . . . . . . .16-17

TL16C451 . . . . . . . . . . . .16-17

TL16C452 . . . . . . . . . . . .16-17

TL16C550C . . . . . . . . . . .16-17

TL16C552A . . . . . . . . . . .16-17

TL16C554A . . . . . . . . . . .16-17

TL16C550D . . . . . . . . . . . . .17

TL16C750 . . . . . . . . . . . .16-17

TL16C752B . . . . . . . . . . .16-17

TL16C754B . . . . . . . . . . .16-17

TL16PC564B/BLV . . . . . . . . .17

TL16PIR552 . . . . . . . . . . . . .17

TLK10021 . . . . . . . . . . . .20-21

TLK1201AI . . . . . . . . . . .20-21

TLK1211 . . . . . . . . . . . . .20-21

TLK1501 . . . . . . . . . . . . .20-21

TLK1521 . . . . . . . . . . . . .20-21

TLK2201AJR . . . . . . . . . .20-21

TLK2201BI . . . . . . . . . . .20-21

TLK2208B . . . . . . . . . . . .20-21

TLK2226 . . . . . . . . . . . . .20-21

TLK2501 . . . . . . . . . . . . .20-21

TLK2521 . . . . . . . . . . . . .20-21

TLK2701 . . . . . . . . . . . . .20-21

TLK2711 . . . . . . . . . . . . .20-21

TLK3101 . . . . . . . . . . . . .20-21

TLK3104SA . . . . . . . . . . .20-21

TLK3104SC . . . . . . . . . . .20-21

TLK3114SC . . . . . . . . . . .20-21

TLK3118 . . . . . . . . . . . . .20-21

TLK4015 . . . . . . . . . . . . .20-21

TLK4120 . . . . . . . . . . . . .20-21

TLK4250 . . . . . . . . . . . . .20-21

TMDS141 . . . . . . . . . . . . . .24

TMDS341A . . . . . . . . . . . . .24

TMDS442 . . . . . . . . . . . . . .24

TPPM0301/2 . . . . . . . . . . . .35

TPPM0303 . . . . . . . . . . . . . .35

TPS2010A . . . . . . . . . . . .34-35

TPS2011A . . . . . . . . . . . .34-35

TPS2012A . . . . . . . . . . . .34-35

TPS2013A . . . . . . . . . . . .34-35

TPS2020/30 . . . .27-28, 34-35

TPS2021/31 . . . .27-28, 34-35

TPS2022/32 . . . . . . . . . .28, 35

TPS2022/32/61/65 . . . . . . .27

TPS2023/33 . . . .27-28, 34-35

TPS2024/34 . . . . . . .27-28, 35

TPS2041B/51B . . . . .27-28, 35

TPS2042B/52B . .27-28, 34-35

TPS2043B/53B . . . . .27-28, 35

TPS2044B/54B . .27-28, 34-35

TPS2045A/55A . .27-28, 34-35

TPS2046B/56A . .27-28, 34-35

TPS2047B/57A . .27-28, 34-35

TPS2048A/58A . .27-28, 34-35

TPS2060/4 . . . . . . . . . . .28, 35

TPS2061/5 . . . . . . . . . . .28, 35

TPS2062/6 . . . . . . . . . . .28, 35

TPS2063/7 . . . . . . . . . . .28, 35

TPS2070 . . . . . . . . . . . . .27-28

TPS2071 . . . . . . . . . . . . .27-28

TPS2074 . . . . . . . . . . . . .27-28

TPS2075 . . . . . . . . . . . . .27-28

TPS2080/1/2 . . . . . . . . .34-35

TPS2085/6/7 . . . . . . . . .34-35

TPS2090/1/2 . . . . . . . . .34-35

TPS2095/6/7 . . . . . . . . .34-35

TPS2100/1 . . . . . . . . . . .34-35

TPS2102/3 . . . . . . . . . . .34-35

TPS2104/5 . . . . . . . . . . .34-35

TPS2110A/2A/4A . . . . . . . .35

TPS2111A/3A/5A . . . . . . . .35

TPS2140 . . . . . . . . . . . . . . .28

TPS2141 . . . . . . . . . . . . . . .28

TPS2145 . . . . . . . . . . . . . . .28

TPS2147 . . . . . . . . . . . . . . .28

TPS2148 . . . . . . . . . . . . .27-28

TPS2149 . . . . . . . . . . . . .27-28

TPS2150 . . . . . . . . . . . . . . .28

TPS2151 . . . . . . . . . . . . . . .28

TPS2155 . . . . . . . . . . . . . . .28

TPS2157 . . . . . . . . . . . . . . .28

TPS2158 . . . . . . . . . . . . . . .28

TPS2159 . . . . . . . . . . . . . . .28

TPS2204A . . . . . . . . . . . .34-35

TPS2205 . . . . . . . . . . . . .34-35

TPS2206A . . . . . . . . . . . .34-35

TPS2210A . . . . . . . . . . . .34-35

TPS2211A . . . . . . . . . . . .34-35

TPS2212 . . . . . . . . . . . . .34-35

TPS2220B . . . . . . . . . . . .34-35

TPS2221 . . . . . . . . . . . . . . .35

TPS2223A . . . . . . . . . . . .34-35

TPS2224A . . . . . . . . . . . . . .35

TPS2226A . . . . . . . . . . . . . .35

TPS2228 . . . . . . . . . . . . . . .35

TPS2231 . . . . . . . . . . . . .34-35

TS3DV416 . . . . . . . . . . . . . .24

TS3DV520 . . . . . . . . . . . . . .24

TSB14AA1A . . . . . . . . . . . . .37

TSB41AB1 . . . . . . . . . . . . . .37

TSB41AB2 . . . . . . . . . . . . . .37

TSB41AB3 . . . . . . . . . . . . . .37

TSB41BA3B . . . . . . . . . . . . .37

TSB41LV04A . . . . . . . . . . . .37

TSB41LV06A . . . . . . . . . . . .37

TSB81BA3D . . . . . . . . . .37-38

TUSB1105 . . . . . . . . . . . . . .26

TUSB1106 . . . . . . . . . . . . . .26

TUSB2036 . . . . . . . . . . . . . .26

TUSB2046B . . . . . . . . . . . . .26

TUSB2077A . . . . . . . . . . . . .26

TUSB2136 . . . . . . . . . . . . . .26

TUSB2551 . . . . . . . . . . . . . .26

TUSB3210 . . . . . . . . . . . . . .26

TUSB3410 . . . . . . . . . . .25-26

TUSB5052 . . . . . . . . . . . . . .26

TUSB6020 . . . . . . . . . . . . . .26

TUSB6250 . . . . . . . . . . . . . .26

UA9636A . . . . . . . . . . . . . . .15

UC5170C . . . . . . . . . . . . . . .15

UC5180C . . . . . . . . . . . . . . .15

UC5181C . . . . . . . . . . . . . . .15

XIO1100 . . . . . . . . . . . . .29, 32

XIO2000A . . . . . . . . . . . .29-30

XIO2200A . . . . . . . . . . .29, 31

XIO3130 . . . . . . . . . . . . .29, 31

Interface Selection Guide

Texas Instruments 4Q 2006

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