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Texas Instruments 4Q User's Manual

1. 39 UNS 41 n DPP sn 42 NE E 43 47 48 Check interface ti com for the latest IBIS Models and evaluation modules EVMs Interface Selection Guide Texas Instruments 40 2006 Interface Selection Guide 3 Introduction Texas Instruments 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 4 Emitter coupled logic xECL high speed differential interface technology designed for low jitter and skew CML p 4 Current mo
2. 29 30 02200 29 31 03130 i i 29 31 Interface Selection Guide Texas Instruments 40 2006 Texas INSTRUMENTS Technology for Innovators Worldwide Technical Support Internet Semiconductor Product Information Center Home Page support ti com Semiconductor KnowledgeBase Home Page support ti com sc knowledgebase Product Information Centers Americas Phone 1 972 644 5580 Fax 1 972 927 6377 Internet support ti com sc pic americas htm Japan Fax International Domestic Internet International Domestic 81 3 3344 5317 0120 81 0036 support ti com sc pic japan htm www tij co jp pic Europe Middle East and Africa Phone Belgium English Finland English 32 0 27 45 54 32 358 0 9 25173948 France 33 0 1 30 70 11 64 Germany 49 0 8161 80 33 11 Israel English 180 949 0107 Italy 800 79 11 37 Netherlands English 31 0 546 87 95 45 Russia 7 4 95 98 10 701 Spain 34 902 35 40 28 Sweden English 46 0 8587 555 22 United Kingdom 44 0 1604 66 33 99 Fax 49 0 8161 80 2045 Internet support ti com sc pic euro htm Texas Instruments Incorporated 14950 FAA Blvd Fort Worth TX 76155 9950 Address service requested Asia Phone International 886 2 23786800 Domestic Toll Free Number Australia 1 800 999 084 China 800 820 8682 Hong Kong 800 96 5941 India 91 80 41381665 Toll Fax Email Inter
3. PCI Express Link Serial EEPROM Miscellaneous PCI Bus functions CLR_RUN PWR_OVRD LOCK M6 6EN PME External Arbiter PCI Bus 32 bit 33 66 MHz Key Benefits Built in adaptive receiver equalizer o Improves jitter tolerance thereby reliably increasing PCB trace or cable length supported by the XI02000 e Seven buffered PCI clock outputs 33 MHz or 66 MHz o Reduces external components costs and premium board space 32 bit secondary PCI bus with 33 MHz or 66 MHz clocking option o Customizes to meet the needs of high performance or low power applications Proven compatibility with various PCI Express chipsets and PCI add in cards o Rigorous field testing with major root complex device and numerous PCI add in cards Compact footprint o Allows placement in ExpressCard and mini PCI cards in limited board space Advanced power management features o Software programmable and hardware autonomous power management features for low power applications such as ExpressCard Target Markets The XI02000A meets the needs of multiple market segments including desktop and mobile PC server storage PC add in cards and embedded systems Interface Selection Guide Texas Instruments 40 2006 PCI Express x1 Express to 1394 Bridge X102200A Get samples datasheets EVMs and app reports at www ti com sc device Xl02200A Key Features e x1 PCI Express Primary Interf
4. LVPECL LVDS 1000 10 130 36 2 80FN 1 95 Stage Buffer single ended diff inputs SN65LVDS20 2 5 V 3 3 V LVDS repeater with enable 1 1 LVPECL LVDS 4000 45 130 0 63 45 3 80FN 3 30 LVDS CML 651 16 17 2 5 V 3 3 V Oscillator Gain Stage Buffer 1 LVPECL LVPECL 2000 10 130 0 63 30 2 80FN 2 55 single ended diff inputs SN651VP18 19 2 5 V 3 3 V Oscillator Gain Stage Buffer 1 LVPECL 1000 10 130 0 63 20 2 80FN 1 95 single ended diff inputs SN65LVP20 2 5 3 3 LVPECL LVPECL 4000 10 130 0 63 45 3 80FN 4 40 LVDS CML Supply voltage for all devices listed above is 3 3 V Integrated termination available 100 Q SN65LVDTxxx New products are listed in bold red Suggested resale price in U S dollars in quantities of 1 000 PECL Selection Guide TB5DIM Replacement for Agere BDG1A amp BPNGA 16SOIC gull wing built in surge protection 16SOIC TB5D2H Replacement for Agere BDG1A amp BDGLA 4 PECL 400 2 40 3 33 5 16501 gull wing 7 20 power down open circuit 16501 TB5R1 Replacement for Agere amp BRF2A 4 PECL TTL 400 2 5 32 9 5 165016 gull wing 7 20 8KQ Input Impedance 16501 5 2 Replacement for Agere BRS2A amp BRS2B PECL TTL 400 25 32 3 5 1685016 gull wing 7 20 165012 TB5R3 Replacement for Agere 4 LVPECL 400 2 6 50 3 5 16501 gull wing 8 65 16SOIC TB3R1 3 3 V supply alternative to
5. and CML SLLAO31A Using an LVDS Receiver with TIA EIA 422 Data Rev A Part Number Description Price SLLA034A Slew Rate Control of LVDS Circuits Rev Evaluation Modules EVMs SLLAO38B Interface Circuits for TIA EIA 644 LVDS Rev SN65LVDS31 32EVM Evaluation Module for LVDS31 LVDS32 49 00 SLLA053B Performance of LVDS with Different Cables Rev SN65LVDS31 32BEVM_ Evaluation Module for LVDS31 and LVDS32B 49 00 SLLA054A LVDS Multidrop Connections Rev A SN65LVDS31 33EVM X Evaluation Module for LVDS31 and LVDS33 49 00 065 Comparison of LinBiCMOS and CMOS Process Technologies LVDS ICs SN65LVDS386EVM SN65LVDS386 Evaluation Module 49 00 SLLA082B Active Fail Safe in TI s LVDS Receivers Rev SN65LVDS387EVM SN65LVDS387 Evaluation Module 49 00 SLLA100 Increase Current Drive Using LVDS SN65LVDS100EVM SN65LVDS100 Evaluation Module 99 00 SLLA101 Interfacing Different Logic with LVDS Receivers SN65LVDS20EVM SN65LVDS20 Evaluation Module 49 00 SLLA103 LVPECL and LVDS Power Comparison SN65CML20EVM SN65CML20 Evaluation Module 49 00 SLLA104 Suggestions for LVDS Connections SN65LVCP22 23EVM SN65LVCP22 Evaluation Module 25 00 SLLA105 DSP to DSP Link Using LVDS SN65LVDS122EVM SN65LVDS122 Evaluation Module 49 00 SLLA107 Live Insertion with Differential Interface Products SN65LVDS250EVM SN65LVDS250 Evaluation Module 49 00 SLLAI47 Suitable LVDS Architectures Note IBIS models are available at interface ti com Suggested resale pr
6. wip TEXAS INSTRUMENTS f Interface Texas Instruments FFFFFFFFFFFE 312111111711 Los en ABIININD mun 40 2006 171711771273 LVDS EU innui Digital Isolators Lo 3 imm 5 485 422 RS 232 E MH diet E B ondes GTLP 1394 m CardBus M PCle PCI i A E E EB Interface Selection Guide Table of Contents Introduction 3 VSS Set UE 4 Imm mrs ST MHDS 222222222 lt lt 8 10 BS 485742 2 11 5 292 13 16 AN AAA IE TT TN 18 rr C RM abba sh 19 SerDes Serial Gigabit Transceivers and LVDS 20 san m y yp sys 22 aaa SB ya 24 USB Hub Controllers and Peripheral Devices 25 USB tocar UTEM ME 26 SB Power Managers acs erie U ES 2 PL ps 29 T 33 aD RE ETT T 34 ede HU ene 36
7. 20 21 6065232 15 6075732 5 6075373 15 HVDOb Lecce tete 2 HVDOD 2 a ka 2 08 2 2 HVD1 2 ee 2 snes 2 HVDTIO aaa atas 2 HVD20 2 HVU21 2 HVD22 2 2040 PC12050B PCI2060 PCI2250 CO CO CO CO CO CO CO CO 65220 65240 6501154 6521406 65 23243 6503221 65 3221 6563222 65 3222 65C3223 65C3223E 65C3232 65C3232E 6503238 6503243 65CML100 4 5 4 65HVD1050 65HVD230 65HVD231 65HVD232 65HVD233 65HVD234 65HVD235 65HVD251 65LV1023A 1024B 65L VCP22 65LVDM1676 65LVDM179 65LVDM22 65LVDM31 65LVDS047 65LVDS048A 65LVDS250 5 42 65LVDS301 65LVDS302 65LVDS303 65LVDS304 65LVDS305 65LVDS306 65LVDS31 65LVDS32 651053486 65LVDS3487 _ 651005357 65LVDS388A 6 7 65LVDS389
8. 3 50 550 5 128TQFP Web 2 48TSSOP 2 00 48TVSOP 2 56Q0FN 2 97 New products are listed in bold red Preview products are listed in bold blue Interface Selection Guide Texas Instruments 40 2006 Universal Serial Bus USB 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 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 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 opera
9. 52216 16 2 10 52206 3 line Serial 2 85 95 1 TPS2206 TPS2216 16A 2 10 TPS2205 8 line Parallel 2 70 100 1 52201 2 90 52211 4 line Parallel 1 70 57 1 TPS2211 0 75 TPS2212 4 line Parallel 1 160 160 0 3 1 45 TPS2231 4 line Parallel 1 68 2 5 1 00 TPS2044B or 54B Parallel 10r2 80 80 0 7 TPS2044 44A TPS2054 54A 1 00 TPS2221 Interface Parallel 1 72 97 1 1 85 TPS2228 Interface Serial 2 72 97 1 310 Number IN1 Output IN2 Output IN1 Supply IN2 Supply of Current Current Current Current Input Voltage IN1 to IN2 IN2 to IN1 Device Inputs mA mA pA pA Range V Transition Power MUX ICs 0301 2 3 400 310 5 5 Autoswitch 1 60 0303 3 250 250 2500 250 3 to 5 5 Autoswitch 1 07 TPS2100 1 2 250 1300 500 10 10 0 75 2 7 to 4 0 4 900 L H enable 0 59 TPS2102 3 2 250 1300 500 100 14 0 75 2 7 to 4 0 3 700 UH enable 0 69 TPS2104 5 2 250 1300 500 100 18 0 75 2 7 to 5 5 9 700 L H enable 0 85 TPS2110A 2A 4A 2 120 120 312 10 750 31210 750 85 85 2 8 to 5 5 40 40 Autoswitch 0 70 TPS2111A 3A 5A 2 84 84 625 to 1250 625 to 1250 85 85 2 8 to 5 5 40 40 Autoswitch 0 70 Can 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 40 2006 Interface Selection Guide 1394 FireWire Overview IEEE 1394 high speed interconnection enables simple low cost high bandwidth real time da
10. TPS221 1A TPS2211A e Fully integrated Voc ies and Vpp switching for Ros single slot PC card interface Low rpsron e 3 3 V low voltage mode e Short circuit and thermal protection e Compatible with 3 3 5 V and 12 V PC cards Shutdown Signal From CPU ic ges Typical PC card power distribution application Power Distribution Devices Family of Products Current Limiting Power Switch ICs Fault Reporting Quad TPS2048A 58A TPS2048 58 TPS2044 54 TPS2044A 54A TPS2044B 54B TPS2085 6 7 TPS2043 532 TPS2043A 53A TPS2043B 53B TPS2042 52 TPS2042A 52A TPS2042B 52B TPS2080 1 2 Single TPS2020 30 TPS2045A 55A 52045 55 TPS2021 31 TPS2041 51 TPS2041A 51A TPS2041B 51B TPS2095 6 7 TPS2047B 57A TPS2047 57 Triple TPS2046B 56A TPS2046 560 TPS2090 1 2 Dual 52022 32 TPS2023 33 TPS2024 34 No Fault Reporting Single TPS2010A 52011 Nemko recognized 2UL and Nemko recognized PCMCIA CardBus Power Switch Matrix ICs TPS2012A TPS2013A to 0 7 1 0 25 3 3 5 V 12 Vpp Dual Single TPS2212 TPS2224 A TPS2226 A TPS2204A TPS2206A TPS2205 TPS2204A TPS2210A TPS2211 A TPS2220A TPS2220B 52231 Dual TPS2223A TPS2236 Single TPS2044B 54B Dual TPS2044B 54B Power MUX ICs lout Configuration Transition IN1 500 IN2 10 Manual SOT 23 0 to 70 C TPS2100 1 TPS2102
11. 52042 52 2 0 7 70 2 7 to 5 5 50 Each Yes L H TPS2042 52 42A 52A 0 70 52043 53 3 0 7 70 2 7 to 5 5 65 Each Yes L H TPS2043 53 43A 53A 0 90 TPS2044B 54B 4 0 7 70 2 7 to 5 5 75 Each Yes L H TPS2044 54 44A 54A 1 00 TPS2045A 55A 1 0 3 80 2 7 to 5 5 80 Yes Yes L H TPS2045 55 0 60 TPS2046B 56A 2 0 3 80 2 7 to 5 5 80 Each Yes L H TPS2046 46A 56 0 65 TPS2047B 57A 3 0 3 80 2 7 to 5 5 160 Each Yes L H TPS2047 47A 57 0 90 TPS2060 4 2 1 5 70 2 7 to 5 5 50 Each Yes L H 1 20 52061 5 1 70 2 7 to 5 5 43 Yes Yes L H 0 60 TPS2062 6 2 1 1 ea 70 2 7 to 5 5 50 Each Yes L H 0 75 52063 7 3 1 1 70 2 7 to 5 5 65 Each Yes L H 0 90 TPS2048A 58A 4 0 3 ea 80 2 7 to 5 5 160 Each Yes L H TPS2048 58 1 20 52080 1 2 2 0 7 80 2 7 to 5 5 85 Yes Yes 2H 1L 1H 2L 0 65 TPS2085 6 7 4 0 7 ea 80 2 7 to 5 5 85 Yes Yes 4H 2L 2H 4L 1 05 TPS2090 1 2 2 0 3 ea 80 2 7 to 5 5 85 Yes Yes 2H 1L 1H 2L 0 65 52095 6 7 4 0 3 80 2 7 to 5 5 85 Yes Yes 4H 2L 2H 4L 1 05 Number 3 3 V 5 0 V lt Device Interface of Ports typ mQ typ mQ min A Predecessor PCMCIA CardBus Switch Matrix ICs TPS2210A 3 line Serial 1 85 95 1 0 85 TPS2204A 3 line Serial 2 85 95 1 TPS2214 14A 1 95 TPS2220B 3 line Serial 1 85 95 1 TPS2220A 0 85 TPS2223A 3 line Serial 2 85 95 1 1 80 TPS2224A 3 line Serial 2 85 95 1 TPS2214 14A 1 95 TPS2226A 3 line Serial 2 85 95 1 52206
12. 0 gt 15 Full Duplex Transceivers ALS172A 173 ALS174A 175 LBC172A 173A LBS174A 175A mum 5 V Supply Voltage mum 3 3 V Supply Voltage gt 30 Mbps gt 32 Nodes On Bus Drivers Receivers Texas Instruments 40 2006 Interface Selection Guide RS 485 422 RS 485 422 Selection Guide Signaling No of Rate Receiver Dr Rx Mbps Fail Safe Package s 3 3V Supply Low Speed Slew Rate Control 1 Short Open Idle 8 PDIP 8 SOIC 33 z 3 3V Supply Low Speed Slew Rate Control 10 Short Open Idle 8 PDIP 8 SOIC a DE RE HVD10 3 3V Supply High Speed Signaling 25 Short Open Idle M 8 PDIP 8 SOIC 1 85 3t05 DE RE HVD08 Wide Supply Range 3 to 5 5V 10 15 Short Open Idle 256 8 PDIP 8 SOIC 1 90 DE RE HVD3082E Low Power Mode Optimized for Low Speed 0 2 15 Short Open Idle 256 8 8 SOIC 8 MSOP 0 90 HVD3085E Low Power Mode Optimized for Mid Speed 1 15 Short Open Idle 256 8 PDIP 8 SOIC 8 MSOP 0 90 DE RE HVD3088E Low Power Mode Optimized for High Speed 10 15 Short Open Idle 256 8 PDIP 8 SOIC 8 MSOP 1 00 DE RE HVD485E Half Duplex Transceiver 10 15 Open 64 8 PDIP 8 SOIC 8 MSOP 0 70 DE RE HVD1176 PROFIBUS Transceiver EN 50170 40 10 Short Open Idle 160 8 SOIC 1 55 DE RE HVD22 20 to 25V Common Mode Operation 0 5 16 Short Open Idle 256 8 PDIP 8 SOIC 1 65 DE RE HVD21 20 to 25V Common Mode 5Mbps 5 16 Short Open Idle 256 8 PDIP 8 SOI
13. Register Functional block diagram Texas Instruments 40 2006 Interface Selection Guide CAN 3 3 V and 5 V High Speed CAN Transceivers 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 CAN Transceiver Selection Guide 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 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 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 Technical Information e 5011898 specifies the physical layer implementation of CAN e This specification describes a twisted wire pai
14. 65LVDS390 65LVDS381 651 0593 94 Device Page SN65LVDS95 96 20 21 SN65LVDS9637 6 7 SN65LVDS9638 6 7 SN65MLVD047 SN65MLVDO080 SN65MLVD082 SN65MLVD128 SN65MLVD129 SN65MLVD2 SN65MLVD200A nr SN65MLVD201 9 4 SN65MLVD202A SN65MLVD203 SN65MLVD204A SN65MLVD205A SN65MLVD206 SN65MLVD207 SN65MLVD3 SN65MLVDS201 SN74GTLP1394 40 SN74GTLP1395 40 SN74GTLP2033 40 SN74GTLP2034 40 SN74GTLP21395 40 SN74GTLP22033 40 SN74GTLP22034 40 SN74GTLP817 240 SN74GTLPH1612 40 SN74GTLPH1616 40 SN74GTLPH1627 40 SN74GTLPH1645 40 SN74GTLPH1655 40 SN74GTLPH16612 40 SN74GTLPH16912 40 SN74GTLPH16916 40 SN74GTLPH16927 40 SN74GTLPH16945 40 GTLPH306 40 61 SN74GTLPH32912 40 SN74GTLPH32916 40 SN74GTLPH32945 40 V 4 14 5 75 188 5 756189 SN75C189A ah 9 750198 15 SN75C23243 4 SN75C3221 14 SN75C3221E 14 SN75C3222 5 SN75C3222E 4 SN75C3223 14 SN75C3223E 14 SN75C3232 44 SN75C3232E 14 SN75C3238 14 SN75C3243 14 SN75LBC187 15 5 751 241 5 SN75LP1185 4 SN75LP196 14 SN75LPE185
15. TPS2149 59 MSOP 8 LDO LDO_OUT LDO_OUT 0011 0011 0 0112 0072 Texas Instruments 40 2006 Interface Selection Guide 2 Universal Serial Bus USB Power Managers USB Power Managers Family of Products Continued USB High Power Peripheral Bus Switch LDO Device Switch Voltage Description 52140 33V 3 3 V 500 mA switch with active low enable 250 mA 100 LDO IN LDO OUT TPS2141 50V 5 0 V 500 mA switch with active low enable 250 mA LDO LDO EN amm ADJ TPS2150 3 3V 3 3 V 500 mA switch with active high enable 250 mA 100 lt 100_ 52151 5 0 V 5 0 V 500 mA switch with active high enable 250 mA LDO Dual Threshold SW_IN O SW_OUT SW EN SW PG GND USB Power Managers Selection Guide los Vin Range Supply Current OC Logic OT Logic Device of FETs min A mQ V pA Output Output Enable Predecessor USB Power Distribution Switches TPS2020 30 1 0 22 33 2 7 to 5 5 73 Yes Yes L H 1 05 52021 31 1 0 66 33 2 710 5 5 HS Yes Yes L H TPS2014 1 05 TPS2022 32 1 1 33 2 7 to 5 5 73 Yes Yes L H 52015 1 05 52023 33 1 1 65 33 2 7 to 5 5 73 L H 1 05 TPS2024 34 1 22 33 2 7 to 5 5 Yes Yes L H 1 05 TPS2041B 51B 1 0 7 70 2 7 to 5 5 40 Yes Yes L H TPS2041 51 41A 51A 0 50 TPS2042B 52B 2 0 7 70 2 7 to 5 5 53 Each Yes L H TPS2042 52 42A 52A 0 70 TPS2043B 53B S 0 7 70 2 7 to 5 5 65 Each Yes L H TPS2043 53 43
16. ing rate of 2 5GHz In the future Gen 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 Serves new and innovative hot plug hot swap add in card and module devices e Delivers unique advanced features such as Power Management Quality of Service and other native functions not available in other 1 0 architectures PCI Express gt Device A Device Device PCI Express Reference Clock PCI Express Endpoint Root Complex Express PCI Express Express Express Legacy Endpoint Legacy PCI Express Endpoint Endpoint PCI Express Endpoint PCI Express topology Express Portfolio PCI Express Bridge PCI Express Switch PCI Express Endpoint PCI Express PHY 02000 X103130 02200 01100 Current PCI Express portfolio Device Device Reference Clock Device Classifications Root Complex Switch e PCI PCI X e Bridge e Legacy Endpoint Endpoint Texas Instruments 40 2006 Interface Selection Guide 3 PCI Express PCI Express Bridge Chip 2000 Get samples datasheets EVMs and app reports at www ti com sc device X 02000A TI s
17. 1 1 12 5 245016 1 80 SN75189 120 4 5 26 14PDIP 1450 14S0IC 0 22 SN75189A 120 4 5 26 14PDIP 1450 14S0IC 0 22 SN752232 120 6 10 5 50 48SSOP 48TSSOP 0 90 SN75C1154 120 4 4 125 20PDIP 2050 20 01 0 76 SN75C189 120 4 5 0 7 14PDIP 1450 14S0IC 0 31 SN75C189A 120 4 5 0 7 14PDIP 1450 14501 14550 0 31 SN75C198 120 4 12 0 32 14PDIP 148016 2 25 57503222 120 2 2 3 3 or 5 1 20501 20SSOP 20TSSOP 2 81 SN75LBC187 120 3 5 5 30 28550 3 60 SN75LBC241 120 4 5 5 8 285016 2 16 UA9636A 120 2 12 36 8PDIP 85016 0 36 0651706 120 28PLCC 3 15 UC5180C 120 8 4 75 to 5 25 35 28PLCC 3 00 UC5181C 120 8 4 75 to 5 25 35 28PLCC 3 15 Suggested resale price in U S dollars in quantities of 1 000 2 to 4 Wire Interface LCD USB Plug Analog Display Phone Line SDRAM FLASH Antenna FE liner p gt h CPU ca rem E One FE gt Tuner gt lo Bluetooth Satellite T DEMOD pci MMC SD Camera Controller e FE Tuner Pod Interface Stereo Audio Line In gt 1 Video Processor DVI TMDS Plug PCI IF FLASH 1394 PHY LAN EMIF _____ Video Encoder ADSL Video Port Cable MODEM AC Adapter Video Input 7 Vi
18. 1 16SSOP 16TSSOP 0 88 SN65C3221E 1000 1 1 1 61000 4 2 335 1 16SSOP 16TSSOP 3 10 SN75C3221E 1000 1 1 1 61000 4 2 3 315 1 16SSOP 16TSSOP 2 50 MAX3237E 1000 5 3 1 61000 4 2 3 3 5 2 28SSOP 28TSSOP 32RHB 0 87 0 2209 960 10 6 1 61000 4 2 Dual 3 3V 12V 5 38TSSOP TBD MAX232E 120 2 2 1 61000 4 2 5 10 38TSSOP 16PDIP 16501 16SSOP 0 39 MAX202E 120 2 2 1 61000 4 2 5 15 165016 16TSSOP TBD MAX207E 120 5 3 1 61000 4 2 5 20 24501 24SSOP TBD MAX208E 120 4 4 1 61000 4 2 5 20 24PDIP 24501 24550 TBD MAX3386E 250 3 2 1 61000 4 2 VL 1 65 to Vec 1 20501 20TSSOP 1 92 Vec 3V to 5 5V SN65C3232E 1000 2 2 1 61000 4 2 3 3 5 1 16501 16SSOP 16TSSOP 3 92 SN75C3232E 1000 2 2 1 61000 4 2 3 3 5 1 16501 16550 16TSSOP 3 22 MAX211E 120 4 5 1 61000 4 2 5 20 20501 20SSOP 28501 28550 TBD MAX3227E 1000 1 1 1 61000 4 2 3975 1 16SSOP 1 20 MAX3232E 250 2 2 1 61000 4 2 3 3 5 1 16501 16SSOP 16TSSOP 0 68 MAX3243E 500 3 5 1 61000 4 2 3 3 5 1 285016 28SSOP 28TSSOP 320FN 0 63 MAX3318E 460 2 2 1 61000 4 2 725 9 1 20SSOP 20TSSOP 1 10 MAX213 120 4 5 15KV HBM 5 1 28501 28550 1 08 202 120 2 2 15KV HBM 5 15 16501 16TSSOP 0 51 MAX207 120 5 3 15KV HBM 5 20 245016 24550 0 63 208 120 4 4 15 5 20 24PDIP 245016 24550 0 96 211 120 4 5 15KV 5 20 285016 28SSOP 0 63 MAX222 120 2 2 15KV HBM 5 10 18PDIP 18S0IC 0 74 MAX3221 250 1 1 15KV HBM 3975 1 16SSOP 16TS
19. 27 12 16SOIC 2 20 16TSSOP SN65LVDM22 2 2 LVDM LVDM 250 4 4 27 12 16SOIC 2 50 16TSSOP SN65LVDM31 4 0 LVCMOS LVDM 150 1000 2 3 40 12 16SOIC 1 55 SN65LVDM1676 16 16 LVTTL LVDM LVTTL LVDM 630 1000 2 5 3 175 15 64TSSOP 7 15 Supply voltage for all devices listed above is 3 3 V and temperature range is 40 to 85 New products are listed in bold red version available temperature range of 40 to 125 C Preview products are listed in bold blue Suggested resale price in U S dollars in quantities of 1 000 Resources fora complete list of resources evaluation modules data sheets and application notes visit interface ti com Literature Number Description Application Notes SLLA106 TIA EIA 485 and M LVDS Power and Speed Comparison SLLA088A Transmission at 200 Mbps in VME Card Cage Using LVDM Rev A SLLA108 Introduction to M LVDS TIA EIA 899 SLLA121 Interoperability of M LVDS and BusLVDS SLLA119 Wired Logic Signaling with M LVDS SLLA127 M LVDS Signaling Rate Versus Distance SLLA067A Comparing Bus Solutions Part Number Description Price Evaluation Modules EVMs MLVD20xEVM M LVDS Evaluation Module 99 00 SN65LVDM31 32BEVM SN65LVDM31 32BEVM Evaluation Module 49 00 Note IBIS models are available at interface ti com Suggested resale price in U S dollars Texas Instruments 40 2006 Interface Selection Guide Design Considerations liability Best in class
20. Agere 4 LVPECL LVTTL 400 32 3 3 3 155016 8 65 amp BRF2A TB3R2 3 3 V supply alternative to Agere 4 LVPECL LVTTL 400 32 3 3 3 16501 8 65 BRS2A 8 BRS2B TB5T1 Dual differential transceiver 212 LVPECL 7100 12 25 35 3 5 85010 gull wing 7 20 LVTTL LVTTL 85010 SN65LVDS33 Receiver with 4 V to 5 V 4 LVDS LVPECL LVTTL 400 4 23 15 33 16SOIC 16TSSOP 1 60 Common Mode Range LVDS32 Footprint PECL LVECL ECL SN65LVDS348 Receiver with 4 V to 5 V 4 LVDS LVPECL LVTTL 340 6 20 15 33 16S0IC 16TSSOP 1 60 Common Mode Range LVDS48 Footprint PECL LVECL ECL SN65LVDS34 Receiver with 4 V to 5 V 2 LVDS LVPECL LVITL 400 4 12 15 33 8SOIC 1 15 Common Mode Range PECL LVECL ECL SN65LVDS352 Receiver with 4 V to 5 V 4 LVDS LVPECL LVITL 560 6 20 15 33 241550 1 80 Integrated Termination Available 100 Q SN65LVDTxxx Suggested resale price in U S dollars in quantities of 1 000 Texas Instruments 40 2006 Interface Selection Guide LVDS xECL CML LVDS Selection Guide Part to Part Skew Max Device Description Input Signal Output Signal ps Single SN65LVDS1 Driver 1 LVTTL LVDS 630 17 SN65LVDS2 Receiver 1 LVDS LVTTL 400 1 7 SN65LVDS179 Full Duplex Transceiver No Enables 1 1 LVDS LVTTL LVTTL LVDS 400 1 7 SN65LVDS180 Full Duplex Transceiver with Enables LVDS LVTT
21. CORP TTE ST16C552A TLI6C552 LT1030 5 16 552 TL16C552A T1081 MAX232 ST16C554D TL16C554 171381 MAX232 ST16C554D TL16C554A ST16C580 TL16C550C Drop in pin compatible devices Texas Instruments 40 2006 Interface Selection Guide 44 Cross Reference Guide The following products have similar functionality LINEAR TECHNOLOGY CORP LTC cont MAXIM cont MAXIM cont LT1785 SN75LBC184 MAX3044 SN75LBC172A 491 SN75LBC180 LTC1472 2211 3045 SN75LBC172A 9 SN75LBC180A LTC1480 SN75HVD11 MAX3050 SN65HVD251 MAX625 TPS2044A 54A LTC1481 SN75LBC176A MAX3053 SN65HVD251 MAX780 TPS2205 LTC1482 SN75LBC176A MAX3053 SN65HVD251 MAX869L TPS2024 34 LTC1483 SN75LBC176A MAX3057 SN65HVD251 MAX890L TPS2022 32 LTC1484 SN75LBC176A MAX3082 SN65HVD3082E MAX9110 SN65LVDS1 LTC1485 SN65LBC176A MAX3082E SN65HVD3082E MAX9111 SN65LVDS2 LTC 1487 SN65HVD3082E MAX3085 SN65HVD3085E MAX9112 SN65LVDS9638 LTC1487 SN75HVD07 MAX3085E SN65HVD3085E MAX9113 SN65LVDS9637 LTC1518 SN75LBC173A MAX3088 SN65HVD3088E MAX9115 SN65LVDS2 LTC1519 SN75LBC175A MAX3088E SN65HVD3088E MAX9121 SN65LVDS048A LTC1685 SN65HVD1176 MAX3093E SN75LBC173A MAX9122 SN65LVDT048A LTC 1686 SN75LBC179A MAX3095E SN75LBC175A MAX9123 SN65LVDS047 LTC1687 SN75LBC180A MAX3221 MAX3221 MAX9124 SN65LVDS31 LTC 1688 SN75LBC172A MAX3221E MAX3221 MAX9125 SN65LVDS32 LTC1689 SN75LBC174A MAX3222 MAX3222 MAX9126 SN65
22. MAX9320A NS65LVCP23 MAX1487E SN75HVD06 MAX483E SN75LBC176A MAX9321B SN65LVDS101 MAX1600 MAX1603 TPS2205 SN65HVD3085E MAX9374 SN65LVDS100 MAX1601 MAX1604 TPS2205 485 SN75LBC176 MAX9374A SN65LVDS100 TPS2211A MAX485E SN75LBC176A 9375 SN65LVDS101 1607 52041 MAXA8 SN75HVDO7 MAX202 487 SN75LBC182 211 211 MCP2551 SN65HVD251 487 SN65HVD3082E MAX232 MAX232 2120 1000 488 SN75LBC179 MAX241 SN75LBC241 MAX488E SN75LBC179A MAX3040 SN75LBC174A MAX489 SN75LBC180 MAX3041 SN75LBC174A MAX489E SN75LBC180A MAX3042B SN75LBC174A 3043 SN75LBC172A 490 SN75LBC179A Drop in pin compatible devices Interface Selection Guide Texas Instruments 40 2006 Cross Reference Guide 45 The following products have similar functionality MICREL MIC2505 TPS2024 34 MIC2506 TPS2042A 52A MIC2507 TPS2044A 54A MIC2514 TPS210x MIC2524 TPS2044A 54A MIC2525 TPS2041A 51A MIC2526 TPS2042A 52A MIC2527 TPS2044A 54A MIC2563A TPS2205 MIC2564A TPS2216A NATIONAL SEMICONDUCTOR 0514185 SN75185 DS14196 5 75196 051487 SN75HVD06 051488 5 75188 051489 5 75189 DS14C232 MAX232 DS14C88 SN75C188 DS14C89A SN75C189A DS36276 SN75HVD05 053695 SN65HVD3088E DS3695 SN75LBC176A DS3695 SN75ALS176 DS3695 SN75176B DS3697 SN75179 DS3697 SN75ALS179 DS3697 SN75LBC179 DS36C278 SN75HVD06 DS36C279 SN75HVD06 DS36C280 SN
23. MET TMDS for HDMI and DVI Transition Minimized Differential Signaling TMDS is the electrical level standard used to transmit Digital Visual Interface DVI and High Definition Multimedia Interface HDMI data TMDS341A 3 to 1 Mux Allows Distant Connection to Connector Socket TMDS141 HDMI Hider Design Considerations Intra Pair Skew The time difference between the true and complementary signals of a given differential pair should be kept as small as possible 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 TMDS442 4 to 2 Mux ESD External connectors being exposed to the outside world are especially susceptible to electrostatic discharge A higher ESD rating provides improved protection TV Picture in Picture Clock P P Data P P Description TMDS141 HDMI Hider 1 TMDS341A 3 1 DVI HDMI Switch 3 TMDS442 q to 2 DVI HDMI Switch 4 TS3DV416 4 1 Analog Switch 4 for DVI HMDI TS3DV520 4 to 1 Analog Switch 5 for DVI HMDI Suggested resale price in U S dollars in quantities of 1 000 Intra Pair ps Inter Pair Skew Skew Jitter Outputs max max ps max ps 1 50 100 30 1 50 100 30 2 50 100 30 1 Pin Package 150 5 400 Web 50 230 5 80
24. SN65HVD1176 FIN1031 SN65LVDS31 1CL3221 MAX3221 ADM3485E SN75HVD10 FIN1032 SN65LVDS32 3221 MAX3221 ADM483E SN65HVD3082E FIN1047 SN65LVDS047 1 13222 3222 483 SN75LBC176A FIN1048 SN65LVDS048A 1CL3222E MAX3222 ADM485 SN65HVD3085E FIN1049 SN65LVDS049 1CL3223 MAX3223 ADM485 SN65HVD485E FIN1101 SN65LVDS100 1CL3223E MAX3223 ADM485 SN75LBC176A FIN1102 SN65LVCP22 1CL3232 MAX3232 ADM485 SN75176B 1104 SN65LVDS125 ICL3232E MAX3232 ADM488 SN75LBC179A GTLP1616 SN74GTLPH1616 1CL3238 MAX3238 ADM489 SN75LBC180A GTLP16612 SN74GTLPH1612 1 13238 3238 GTLP16612 SN74GTLPH16612 1 13243 MAX3243 GTLP16T1655 SN74GTLPH1655 ICL3243E MAX3243 CMPWR025 TPS210x GTLP18T612 SN74GTLPH16912 1511482 SN65HVD3082E CYPRESS GTLP6C817 SN74GTLP817 1511483 SN65LBC184 AN 213x TUSB3410 GTLP8T306 SN74GTLPH306 1511487 SN65HVD06 EUREKA HANA 1487 5 EP600 TL16C550C 1511487 SN65HVD21 EXAR GOLDSTAR ISL1487L SN65HVD3082E ST16C2450 TL16C452 GM16C550 TL16C550B ISL1487L SN65LBC184 7162560 TL16C552A GM16C550 TL16C550C 1518483 SN65HVD3082E ST16C2550 116 752 HYNIX LG 4 ST16C2552 TL16C552A GD75232 GD75232 1518488 SN65LBC179A ST16C450 TL16C450 ST16C452 TL16CA52 IMP 1518489 SN65LBC180A ST16C550 TL16C550B Ei16C450 TL16C450 1518490 SN65LBC179A 16 550 TL16C550C Ei16C550 TL16C550C ISL8491 SN65LBC180A 57166552 1160592 Part Number TI Replacement IE de is MIR TETTE
25. U H cpcE7os cpc2351 0 286 cpca18A 906 CDCVF25084 CDC319 MENDA TED Clock Buffers woe CDC208 Zero Delay CDC328A CDC329A BR CDC337 Memory Clocks CDC391_ 2 Clock Generators CDC341 28 Phase Aligners 4 5 6 8 9 10 12 16 18 Number of Outputs Interface Selection Guide Texas Instruments 40 2006 Cross Reference Guide The following products have similar functionality AGERE EXAR cont IMPX BDG1A TB5D1M ST16C654 TL16C754B 2525 52051 BDG1A TB5D2H ST16C654D TL16C754B IMP2525A TPS2051A BDGLA TB5D2H ST68C554 TL16C554A 2526 52052 BPNGA TB5D1M XR16L2750 TL16C752B IWEREUN TBBR1 XR16L2751 TL16C752B TLE6250 2 TBBR1 XR16L2752 TL16C752B TEDS SNESHYD 1050 BRS2A TB5R2 XR16L651 TL16C750 BRS2B TB5R2 XR16L784 TL16C754B INTEL EIER Ud FAIRCHILD SEMICONDUCTOR gt AGILENT FIN1001 SN6BLVDS1 1636 1646 2201 1002 SN65LVDS2 FIN1017 SN65LVDS1 INTERSIL ed TUR FIN1018 SN65LVDS2 HIN211 SN75LBC241 A2526 TPS2052A FIN1019 211 SN75LBC241 2535 TPS2041A FIN1022 SN65LVCP22 HIN232 MAX232 2538 TPS2042A FIN1025 SN65LVDS9638 HIN232E MAX232 FIN1026 SN65LVDS9637 HIN241 SN75LBC241 ANALOG DEVICES FIN1027 SN65LVDS9638 HIN241E SN75LBC241 ADM1485 SN75LBC176A FIN1028 SN65LVDS9637 1 1232 232 ADM1486
26. V 200 mA 1 15 52147 DSP PDA 2 L 218 55 340 0 2 3 3 V 200 mA 1 10 TPS2148 USB peripheral 2 L 219 5 5 340 0 2 3 3 V 200 mA 0 99 TPS2149 USB 2 port hub 2 L 20 55 340 0 2 3 3 V 200 0 95 52155 DSP PDA 2 H 2 9 5 5 340 0 2 3 3 V 200 mA 1 15 TPS2157 DSP PDA 2 H 24 55 340 0 2 3 3 V 200 mA 1 10 TPS2158 USB peripheral 2 H 2 9 5 5 340 0 2 3 3 V 200 mA 0 99 TPS2159 USB 2 port hub 2 H 29 5 5 340 0 2 3 3 V 200 mA 0 95 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 40 2006 Design Considerations 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 1 0 interconnect that will serve the industry for the next 10 15 years Key Features PCI Express architecture is an industry standard high performance general purpose serial 1 0 interconnect designed for use in enterprise desktop mobile communications and embedded platforms e t is PCl 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 has a scalable bandwidth of 16 Gigabytes per second at its initial signal
27. 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 True Live Insertion GTLP backplane drivers allow for Level 3 isolation and true live insertion capability Level 1 isolation partial power down loge circuitry within the device prevents damage by limiting the current flowing from an energized bus when the device Vcc goes to zero Level 2 isolation hot insertion both and power up 3 state PU3S circuitry allow insertion or removal of a board into a backplane without powering Single Bit Representation of a Multipoint Parallel Backplane Vit 220 025 Slot 1 Slot 2 Slot 3 Signal Integrity Tl vs Competition Slot 19 Slot 20 t Unloaded backplane trace natural impedance Zo is 45 60 with 60 Q being ideal stub natural impedance 20 is 60 Slot 18 down the host system and without suspending signaling Level 3 isolation live insertion for live insertion both lopp and PU3S circuitry are needed and the board 1 05 must be precharged to mid swing levels prior to connector insertion removal Secondary Compatibility GTLP provides an easy migration path from traditional backplane logic like ABT LVT ALVT LVC and Portfolio offers the broadest GTLP portfolio in the industry
28. 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 Dual Power Switch LDO for USB Bus Powered Peripherals and Hubs 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 Universal Serial Bus USB Power Managers 4 Port USB Hub Power Controllers 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 100 5 100 controller for self power TPS2070 TPS2071 and DPO line control to signal an attach to the host 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
29. 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 concems associated with susceptibility to external magnetic fields and operating life under high voltage conditions TI isolation solutions are designed to eliminate such problems Description 150721 Single channel IS0721M X Single channel CMOS 150722 Single channel OUT EN TTL 1S0722M Single channel OUT EN CMOS Dual channel bi directional 150150 Dual channel uni directional Dual channel uni directional TTL Dual channel uni directional CMOS Dual channel bi directional TTL 0 C channel bi directional 7221M Dual channel bi directional CMOS Suggested resale price in U S dollars in quantities of 1 000 Low Power Isolation Sleep Data Rate Rating UL Mode Max 2500 100 Mbps 2500 150 Mbps 2500 100 Mbps 2500 150 Mbps 1500 80 Mbps 2500 1 Mbps 2500 25 Mbps 2500 150 Mbps 2500 1 Mbps 2500 25 Mbps 2500 150 Mbps Transient Immunity Supply Min Voltage 25 kV us 33V 5V 1 65 25 kV us 33V 5V 1 65 25 kV us 33V 5V 1 75 25 kV us 33V 5V 1 75 1 6 kV us 5V 8 10 25 kV us 3 3V 5V 1 10 25 kV us 33V 5V 2 00 25 kV us 33V 5V 2 50 25 kV us 33V 5V 1 10 25 kV u
30. dealing with CAN specific details such as bit timing and implementation functions It provides standardized communication objects for real time data with Process Data Objects PDOs and Service Data Objects 5005 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 Among the most popular HLPs are CANopen CANkingdom and DeviceNet with applications ranging from medical equipment to process control and assembly line coordination Interface Selection Guide Texas Instruments 40 2006 Flatlink 3G FPC cabling typically interconnects the Serializer Transmitter with the display FlatLink 3G Display SerDes for Mobile Phones 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 SAE J1752 3 TEST 2 f PCLK 22MHz 320MHz 16dBuV 2 ChM 22 683MHz 12dBuV 3 65 TTTMHz 11dBuV T ChM fIPCUX 5MHz 960MHz baz RADIATED EMISSION dByV Resolution W x H XGA SVGA LVDS301 VGA LVDS303 LVDS302 HVGA Rx LVDS304 QVGA 3 Ch 2 Ch FlatLink 3G Selection Guide Parallel Parallel Throughout Description Outputs Inputs MB s SN65LVDS301 QVGA XGA S
31. loads or nodes on the bus line However there are reduced unit load devices available that can support up to 256 devices Termination A multipoint bus architecture requires termination at both ends of the bus line The termination resistors must be within RS 485422 20 percent of the characteristic impedance of the cable and can vary from 90 Q to 120 Q Technical Information e The main difference between RS 422 and RS 485 is the multidrop and multipoint bus architecture that 15 one driver to many receivers and many drivers to many receivers respectively Typical signaling rates and distances for these standards are up to 10 Mbps or up to 1 2 km Tl offers devices capable of reaching signaling rates of up to 50 Mbps Resources complete list of resources evaluation modules data sheets and application notes visit interface ti com Literature Number Application Notes Description SLLA036B Interface Circuits for TIA EIA 485 RS 485 SLLA070C 422 and 485 Standards Overview and System Configurations SLLA112 RS 485 for E Meter Applications SLLA177 PROFIBUS Electrical Layer Solutions SLLA169 Use Receiver Equalization to Extend RS 485 Data Communications SLLA143 RS 485 for Digital Motor Control Applications Note IBIS models are available at interface ti com ALS170 171A LBC170 171 ALS1177 ALS1178 ALS179 ALS180 ALS181 LBC179A LBC180A HDV308xE Toss
32. mV LVDS e Driver edge rate control 1 ns min allows ease of stub design Contention provisions o Driver short circuit limited to 43 mA o Drivers receivers and disabled devices must limit their bus voltage from 0 to 2 4 V Drivers are tested with 32 contending nodes Multipoint LVDS 700 Mbps 600 Mbps 500 Mbps LVDM179 LVDM180 400 Mbps 300 Mbps 200 Mbps MLVD201 MLVD2 MLVD203 MLVD3 MLVD206 MLVD207 100 Mbps TMA MLVD202A MLVD204A MLVD205A Single M LVDS Devices from TI e TIA EIA 899 standard compliant guarantees true multipoint 1 receivers 25 mV hysteresis to prevent oscillation 2 receivers internal failsafe no external bias network 1 V to 3 4 V common mode 3 3 V supply operation M LVDS for ATCA e Synchronous ATCA clock signals 8 kHz 19 22 MHz and user defined 100 MHz use M LVDS LVDM050 MLVD080 MLVD082 MLVD128 MLVD129 MLVD047 LVDM31 Dual Quad 8 Channel 1 Type 2 24 150 mV 50 mV 0 50 mV 24V Transition Region Receiver types LVDM1676 LVDM1677 mmm M LVDS Receivers WEN M LVDS Transceivers mmm M LVDS Clock Distribution see p 42 for table mmm VDM version of LVDS with double the output current 16 Channel Interface Selection Guide Texas Instruments 40 2006 Multipoint LVDS M LVDS Q M LVDS Selection Guide No Signaling Part
33. of serial izers and deserializers designed for mobile phone displays 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 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 TMDS p 24 Transition minimized differential signaling is the electrical interface used by DVI and HDMI 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 USB Port Protection p 26 Transient voltage suppressor protects USB 1 1 devices from ESD and electrical noise transients USB Power Managers 27 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 PCI Express p 29 A robust scalable flexible and cost effective 1 0 interconnect PCI Bridges p 33 A peripheral component
34. receiver MAX3243E is most popular in applications like PCs notebooks and servers 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 The MAX232E and MAX213 provide a higher noise margin for more rugged environments such as industrial control 1 Volume Control 1 1 1 Head phone 2 1 Texas Instruments 40 2006 Interface Selection Guide 8 222 RS232 Selection Guide Data Rate Supply ri v Pin Package s MAX3223E 2 1 61000 4 2 1 20501 20SSOP 20TSSOP 240FN 0 84 MAX3222E e 2 1 61000 4 2 1 20501 20550 20TSSOP 240FN 1 00 SN75C3222E 1000 2 2 1 61000 4 2 3 3 5 1 20501 20550 20TSSOP 240FN 2 50 SN65C3222E 1000 2 2 1 61000 4 2 33 5 1 20501 20550 20TSSOP 240FN 2 88 SN75C3223E 1000 2 2 1 61000 4 2 33 5 1 20501 20SSOP 20TSSOP 240FN 2 11 SN65C3223E 1000 2 2 1 61000 4 2 33 5 1 20501 20550 20TSSOP 240FN 2 50 MAX3238E 400 5 3 1 61000 4 2 3 3 5 2 28SSOP 28TSSOP 32RHB 0 87 MAX3221E 250 1 1 1 61000 4 2 3 3 5
35. to Txtpd Rx tpd TIA EIA 899 of Rx Typ Typ Pin Standard Tx Type Duplex Output Signal ns ns Package s Compliance SN65MLVD2 1 1 M LVDS LVTTL 200 SN65MLVD3 1 2 M LVDS LVTTL 200 Web SN65MLVD200A 1 1 1 LVTTL 05 LVTTL M LVDS 100 1000 25 3 6 24 8 8501 1 55 SN65MLVD201 1 1 1 LVTTL 05 LVTTL M LVDS 200 1000 15 4 24 8 85012 1 85 SN65MLVD202A 1 1 1 Full LVTTL M LVDS LVTTL M LVDS 100 1000 215 3 6 24 8 145016 1 55 SN65MLVD203 1 1 1 Full LVTTL 05 LVTTL M LVDS 200 1000 4 24 8 14501 1 85 SN65MLVD204A 1 1 7 LVTTL 05 LVTTL M LVDS 100 1000 215 3 6 24 8 8SOIC 1 55 SN65MLVD205A 1 1 2 Full LVTTL 05 LVTTL M LVDS 100 1000 25 3 6 24 8 145016 1 55 SN65MLVD206 1 1 2 LVTTL 05 LVTTL M LVDS 200 1000 1 5 4 24 8 8501 1 85 SN65MLVD207 1 1 2 Full LVTTL 05 LVTTL M LVDS 200 1000 15 4 24 8 145016 1 85 SN65MLVD047 4 0 Half LVTTL M LVDS 200 1000 185 60 12 16SOIC 1 45 16TSSOP SN65MLVD128 8 1 LVTTL M LVDS 200 800 15 15 140 8 48TSSOP 3 80 SN65MLVD129 8 2 LVTTL M LVDS 200 800 15 159 140 8 48TSSOP 3 80 SN65MLVD080 8 8 Half LVTTL LVDS LVTTL M LVDS 250 1000 2 4 6 180 8 64TSSOP 4 75 SN65MLVD082 8 8 2 Half LVTTL LVDS LVTTL M LVDS 250 1000 24 6 180 8 64TSSOP 4 75 SN65LVDM179 1 1 Full LVTTL LVDM LVTTL LVDM 500 1000 ir 87 15 12 8SOIC 1 70 8 550 SN65LVD M0502 2 Full LVTTL LVDM LVTTL LVDM 500 1000 1 7 3 7
36. 0 4 10 2 Complementary LBC172 Low Power 10 2 32 16 PDIP 20 5010 1 80 Complementary LBC172A High Signaling Rate High ESD 30 13 32 16 PDIP 16 5010 20 5016 2 40 Pairwise LBC174 Low Power 10 2 32 16 PDIP 20 5016 1 90 Pairwise LBC174A High Signaling Rate High ESD 30 13 32 16 PDIP 16 5010 20 5016 2 50 2 Complementary LBC173 Low Power 10 2 Open 32 16 PDIP 16 5016 115 2 Complementary LBC173A High Signaling Rate High ESD Low Power 50 6 Short Open Idle 32 16 PDIP 16 5010 1 50 8 Pairwise LBC175 Low Power 10 2 Open 32 16 PDIP 16 SOIC 1 10 Pairwise LBC175A High Signaling Rate High ESD Low Power 50 6 Short Open Idle 32 16 PDIP 16 SOIC 1 40 Pairwise 175 Standard 10 2 None 32 16 PDIP 16 5010 16 SOP 2 70 These 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 40 2006 RS232 IEC6100 4 2 Level 4 ESD Protected Devices 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 indus
37. 2 2 319 eus 42 2 CDC328A 42 2 42 2 337 42 2 006339 1 osse 42 2 00340 cse ei 42 42 51 42 2063914 42 606536 gies 42 CDC5801A 42 5072206 0 2065806 42 507220 0 0582525 42 507221 0 86 2 22 2 42 CDC7005 42 606930 42 0 42 scis eei 42 CDCD5704 42 CDCD5804 42 CDCE700 42 CD GESOG mete 42 CDCF5801A 42 CDCFR83A 42 68010 42 CDCLVD110 4 42 42 CDCM1802 42 CDCM1804 42 CDCM7005 42 CDCP1802 42 CDCP1803 42 unen eei 42 CDCR83A ees 42 CDCU2A877 42 CDQUBbb 42 CDCU877A 42 CDCUAB55 42 CDQUAST ized 42 42 0 850 42 CDCVESS cse 42 CDCV857B 42 CDCV877 A 42 CDOVEIMT inte 42 CDCVE2310 22 ed 42 CDCVF2505 42 CDCVF25081 42 CDCVF25084 42 CDCVF2509A 42 CDCVF2510A 42 CDGVF8BZ 1 2 eee 42
38. 2 27 28 34 35 PS2043B 53B 27 28 35 PS2044B 54B 27 28 34 35 52045 5 27 28 34 35 PS2046B 56A 27 28 34 35 52047 57 21 28 34 35 PS2048A 58A 27 28 34 35 52060 4 28 35 PS2061 5 28 35 52062 6 28 35 Device Page 52063 7 28 35 1 52070 27 28 TPS2071 27 28 TPS2074 27 28 152075 27 28 TPS2080 1 2 34 35 52085 6 7 52090 1 2 52095 6 7 TPS2100 1 TPS2102 3 TPS2104 5 TPS2110A 2A 4A TPS2111A 3A 5A TPS2 TPS2 TPS2 TPS2 TPS2 TPS2 TPS2 TPS2 TPS2 TPS2 TPS2 TPS2 TPS2204A TPS2205 TPS2206A TPS2210A TPS2211A 2212 52220 TPS2221 252291 TS3DV416 TS3DV520 TSB14AA1A anaana 37 TSB41AB1 37 TSB41AB2 37 TSB41AB3 37 TSB41BA3B 37 TSBATIVOAA 37 TSB41LVOBA 37 TSB81BA3D 37 38 TUSBTIOS 26 TUSBT106 26 TUSB2036 26 TUSB2048B 26 TUSB2077A 26 TUSB2136 7 26 1058255 26 10583210 nen 26 TUSB3410 25 26 10585052 26 10586020 26 TUSB06250 26 UA9638A 15 51706 15 UC5180C 15 15 29 32 02000
39. 2 14 5 751 4737 4 Device Page SN75LVDS82 83 SN75LVDS84A 86 SN75LVDT1422 17 7 17 17 17 17 me 7 17 17 11605500 1160750 1 coins 6 17 LI6C752B 16 17 116 754 6 17 LIGPC564B BLV 7 552 17 IK10021 20 2 LKI201Al 20 2 20 21 IK1B0T 22s eet 20 2 1 1521 20 2 1 2201 20 2 2201 20 21 1 2208 20 2 IK2228 2 20 21 IK250 ice 20 2 1 2521 20 2 IK2701 20 21 IK2711 20 2 LK3101 20 2 LK3104SA 20 2 1310456 20 2 11456 20 2 8 20 2 IK4015 20 2 LK4120 20 2 1 42 0 20 2 0 141 24 MDS341A 24 MDS442 24 35 0303 35 PS2000A 2 34 35 PSZ01 34 35 52012 34 35 PS2019A os caret 34 35 52020 30 27 28 34 35 52021 31 27 28 34 35 52022 32 28 35 52022 32 61 65 27 52023 33 27 28 34 35 52024 34 27 28 35 PS2041B 51B 27 28 35 52042 5
40. 22 PISOLV022 SN65LVDS122 PI90LV027A SN65LVDS9638 PI90LV028A SN65LVDS9637 901 031 SN65LVDS31 PI90LV032A SN65LVDS32 PI90LV047A SN65LVDS047 PI90LV048A SN65LVDS048 PI90LV050 SN65LVDS050 PISOLV386 SN65LVDS386 PISOLV387 SN65LVDS387 PISOLVB022 SN65LVDM22 PISOLVB047A SN65LVDM31 PISOLVB050 SN65LVDM050 PISOLVB051 SN65LVDM051 PI90LVB179 SN65LVDM179 PI90LVB180 SN65MLVD202 PISOLVB180 SN65MLVD203 PISOLVB180 SN65MLVD205 PISOLVB180 SN65MLVD207 PHILIPS PCA82C250 SN65HVD251 PCA82C251 SN65HVD251 SC16C550 TL16C55C SC16C554 TL16C554 SC16C554 TL16C554A SC16C650A TL16C550 SC16C652 TL16C752 SC16C654 TL16C754 SC16C752 TL16C752B C16C2550 TL16C752B SC16C2552 TL16C752B SC28L194 TL16C554A 5 28191 TL16C550C SC28L92 TL16C552A 5 68 562 1 TL16C552A 5 2691 TL16C450 SCC2692 TL16C452 SCC68692 TL16C452 PHILIPS cont SCN2681 TL16C452 TJA1040 SN65HVD1040 TJA1050 SN65HVD1050 PLX PCI6150 PCI2050 PCI6150 PCI12050B PCI6140 PCI2250 PROLIFIC PL 2303 TUSB3410 SEMTECH 505825 TPS2041A 51A 5 5826 TPS2042A 52A SILICON LABORATORIES CP2101 TUSB3410 CP2102 TUSB3410 SILICONIX VISHAY 19711 52211 519712 52211 SILICON SYSTEM 73M550 TL16C550C SIPEX SP211 SN75LBC241 SP232A MAX232 SP3222E MAX3222 SP3222EB MAX3222 SP3222EU SNx5C3222 SP3223E MAX3223 SP3223EB MAX3223 SP3223EU SNx5C3223 SP3232E MAX3232 SP3232EB MAX3232 SP3232EU SNx5C3232 SP3238E MAX3238 SP3243E MAX3243 SP3243EB MAX3243 SP3243
41. 3 IN1 500 IN2 100 Manual SOT 23 0 to 70 C TPS2104 5 IN1 500 IN2 100 Manual SOT 23 40 to 85 C TPS2110A Adj 310 to 750 Auto Manual TSSOP 2 TPS2111A Adj 630 to 1250 Auto Manual TSSOP TPS2112A Adj 310 to 750 Auto TSSOP Status pin TPS2113A Adj 630 to 1250 Auto TSSOP Status pin TPS2114A Adj 310 to 750 Auto Manual TSSOP Status pin TPS2115A Adj 630 to 1250 Auto Manual TSSOP Status pin ExpressCard Power Switch ICs rps on TPS2231 1 45 Parallel 25 TPS2236 2 45 Parallel 29 Interface Selection Guide Texas Instruments 40 2006 ower D 15 tr b t fon PCMCIA CardBus Power Switches Current Limiting Power Switches and Power MUX ICs Selection Guide Number los TpS on Vin Range Supply Current OT Logic of FETs min A mQ V Predecessor Current Limiting Power Switch ICs TPS2010A 2 7 to 5 5 TPS2010 0 75 52011 1 0 56 30 2 7 to 5 5 73 No No TPS2011 0 75 52012 1 fle 30 2 7 to 5 5 52012 0 75 TPS2013A 1 1 65 30 2 7 to 5 5 73 No No L 52013 0 75 52020 30 1 0 22 33 2 7 to 5 5 73 Yes Yes L H 1 05 TPS2021 31 1 0 66 33 2 7 to 5 5 73 Yes Yes L H TPS2014 1 05 TPS2022 32 1 33 2 7 to 5 5 73 Yes Yes L H 52015 1 05 52023 33 1 1 65 59 2 7 to 5 5 73 Yes Yes L H 1 05 TPS2024 34 1 2 2 33 2 7 to 5 5 73 Yes Yes L H 1 05 52041 51 1 0 7 70 2 7 to 5 5 43 Yes Yes L H TPS2041 51 41A 51A 0 50
42. 5 SN74GTLPH1616 17 Bit LVTTL to GTLP Adjustable Edge Rate Universal Bus Transceiver w Buffered Clock Outputs 5 25 SN74GTLPH1627 18 Bit LVTTL to GTLP Bus w Source Synchronous Clock Outputs 5 63 SN74GTLPH1645 16 Bit LVTTL to GTLP Adjustable Edge Rate Bus Transceiver 3 30 SN74GTLPH1655 16 Bit LVTTL to GTLP Adjustable Edge Rate Universal Bus Transceiver 5 25 SN74GTLPH16612 18 Bit LVTTL to GTLP Universal Bus Transceiver 4 58 SN74GTLPH16912 18 Bit LVTTL to GTLP Universal Bus Transceiver 4 88 SN74GTLPH16916 17 Bit LVTTL to GTLP Universal Bus Transceiver w Buffered Clock Outputs 4 88 SN74GTLPH16927 18 Bit LVTTL to GTLP Bus Transceiver w Source Synchronous Clock Outputs 7 10 SN74GTLPH16945 16 Bit LVTTL to GTLP Bus Transceiver 2 15 SN74GTLPH306 8 Bit LVTTL to GTLP Bus Transceiver 242 SN74GTLPH3245 32 Bit LVTTL to GTLP Adjustable Edge Rate Bus Transceiver 5 83 SN74GTLPH32912 36 Bit LVTTL to GTLP Universal Bus Transceiver 7 50 SN74GTLPH32916 34 Bit LVTTL to GTLP Universal Bus Transceiver w Buffered Clock Outputs 7 50 SN74GTLPH32945 32 Bit LVTTL to GTLP Bus Transceiver 4 29 Suggested resale price in U S dollars in quantities of 1 000 Resources complete list of resources evaluation modules data sheets and application notes visit interface ti com Literature Number Description Application Notes 5 017 GTLP BTL Applications 5 019 Texas Instruments GTLP Frequently Asked Questions SCEA026 Logic in Live Insertion Applicatio
43. 75HVD06 DS36F95 SN75LBC176 DS485 SN65HVD3088E DS485 SN75LBC176A DS485 SN75ALS176 DS485 SN75176B DS75176B SN75LBC176A DS75176B SN75ALS176 DS75176B SN75176B DS90CP04 SN65LVDS250 DS90CP22 SN65LVCP22 DS90CR215 SN65LVDS95 DS90CR216 SN65LVDS96 DS90CR283 SN65LVDS93 DS90CR284 SN65LVDS94 DS90LT012A SN65LVDT2 05901001 SN65LVDS100 DS90LV0101A SN65MLVD201 DS90LV011A SN65LVDS1 DS90LV012A SN65LVDS2 DS90LV017 SN65LVDS1 DS90LV017A SN65LVDS1 DS90LV018A SN65LVDS2 DS90LV018A SN65LVDT2 DS90LV019 SN65LVDS179 DS90LV027A SN65LVDS9638 NATIONAL SEMICONDUCTOR cont NATIONAL SEMICONDUCTOR cont DS90LV028A SN65LVDS9637 DS96F174C SN75174 05901031 SN65LVDM31 DS96F174C SN75ALS174A 05901031 SN65LVDS31 DS96F174C SN75LBC174A DS90LV031A SN65LVDM31 DS96F175C SN75175 DS90LV031A SN65LVDS31 DS96F175C SN75ALS175 DS90LV031B SN65LVDM31 DS96F175C SN75LBC175A DS90LV031B SN65LVDS31 PC16550D TL16C550B DS90LV032 SN65LVDS32 PC16550D TL16C550C DS90LV032A SN65LVDS32 PC16552D TL16C552A DS90LV047 SN65LVDS047 SC28L194 TL16C554A DS90LV047A SN65LVDS047 SC28L92 TL16C552A DS90LV048 SN65LVDS048A SC68C562C1A TL16C552A DS90LV048A SN65LVDS048A DS90LV049 SN65LVDSO49 ON SEMI DS90LV1021 SN65LV1021 MC100EP16 SN65LVDS100 DS90LV1023 SN65LV1023 100 16 SN65LVDS101 DS90LV1023 SN65LV1023A MC1488 SN75188 DS90LV1212A SN65LV1212 MC1489 SN75189 DS90LV1224 SN65LV1224A MC1489A SN75189A DS92LV010A SN65MLVD200 MC14C89AB SN75C189
44. 8 3 5 4KV HBM 3or5 20 7 28550 2 61 232 120 2 2 2KV 5 10 16PDIP 1650 16501 0 48 SN75150 120 2 2KV HBM 12 22 8PDIP 8SOIC 0 72 SN75155 120 1 1 2KV HBM 12 14 8PDIP 8SOIC 0 72 SN75188 120 4 2KV HBM 9 25 14PDIP 1450 14S0IC 0 22 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 40 2006 15 232 RS 232 Selection Guide Continued Data Rate ESD Supply lec Device kbps Drivers Receivers HBM kV Voltage s V max mA Pin Package SN75C1406 120 3 3 2KV HBM 12 5 16PDIP 1650 16SOIC SN75C185 120 3 5 2KV HBM E1245 0 75 20PDIP 205016 1 08 SN75C188 120 4 2KV HBM 12 0 16 14PDIP 1450 14501 145 0 31 TL145406 120 3 3 2KV HBM 12 5 20 16PDIP 165010 0 94 6065232 120 3 9 2985 38 20PDIP 20501 20SSOP 20TSSOP 0 29 GD75232 120 3 5 20 15 30 20PDIP 20SOIC 20SSOP 20TSSOP 0 27 GD75323 120 5 3 12 5 32 205016 0 41 11030 120 4 1 14PDIP 14S0IC 144 MAX3222 120 2 2 3 3 5 1 20501 20SSOP 20TSSOP 1 36 MC1488 120 4 25 14PDIP 0 20 MC1489 120 4 5 26 14PDIP 0 25 MC1489A 120 4 5 26 14PDIP 0 29 SN65C1154 120 4 4 20PDIP 3 42 SN65C1406 120 3 3 12 5 165010 1 80 SN65C3222 120 2 2 3 3 or 5 1 20501 20SSOP 20TSSOP 3 24 SN75154 120 4 4 5 12 35 16PDIP 1650 165010 0 72 SN751701 120 1 1 00012 11 9 850 1 30 SN75186 120
45. 85 32 QFN 44 PLCC Dual UART with Programmable Auto RTS and 5 2 80 48 TOFP TL16C2552 2 16 Byte 1 8 2 5 3 3 5 40 to 85 32 QFN 44 PLCC Dual UART with Programmable Auto RTS and Auto CTS 3 00 TL16C2752 2 64 Byte 1 8 2 5 3 3 5 44 PLCC Dual UART with Customizable Trigger Levels Call TL16C450 1 None 5 0 to 70 40 DIP 44 PLCC Single UART 1 50 TL16C451 1 None 5 0 to 70 68 PLCC Single UART with Parallel Port 2 50 TL16C452 2 None 5 01070 68 PLCC Dual UART with Parallel Port 2 55 TL16C550C 1 16 Byte 3 3 5 40 to 85 40 DIP 44 PLCC Single UART with Hardware Autoflow Control 1 75 48 LOFP 48 TOFP TL16C550D 1 16 Byte 2 5 3 3 5 40 to 85 32 QFN Single UART with Hardware Autoflow Control 1 75 48 LOFP 48 TOFP TL16C552A 2 16 Byte 5 40 to 85 68 PLCC 80 TOFP Dual UART with Parallel Port 3 85 TL16C554A 4 16 Byte 5 40 to 85 68 PLCC 80 LOFP Quad UART with Hardware Autoflow Control 6 00 TL16C750 1 16 64 Byte 5 40 to 85 44 64 LQFP Single UART with Hardware Autoflow Control Low Power Modes 3 70 TL16C752B 2 64 Byte 3 3 40 to 85 48 LQFP 48 Dual UART with Hardware Autoflow Control Low Power Modes 3 10 TL16C754B 4 64 Byte 3 3 5 40 to 85 68 PLCC 80 LQFP Dual UART with Hardware Autoflow Control Low Power Modes 8 35 TL16PC564B BLV 1 16 64 Byte 3 3 5 0 to 70 100 BGA 100 LOFP Single UART with PCMCIA Interface 5 90 6 10 TL16PIR552 2 16 Byte 5 0 to 70 80 QFP Dual UART with Selectable IR amp 1284 Modes 6 10 Suggested resale pric
46. A DS92LV010A SN65MLVD201 MC3488A UA9636A DS92LV010A SN65MLVD204 OXFORD DS92LV010A SN65MLVD206 OXCF950 TLIGPCSGAB 05921 090 SN65LVDM976 05921 090 SN65LVDM977 PERICOM DS92LVO90A SN65LVDM976 PI7C8150A PCI2050 05921 090 SN65LVDM977 PI7C8150A PCI2050B DS92LV1010 SN65MLVD201 7 8152 PCI2250 DS92LV1021 SN65LV1021 PI90LVOO1 SN65LVDS1 DS92LV1021 SN65LVDS151 PI90LV02 SN65LVDS2 DS92LV1212A SN65LV1212 PISOLV051 SN65LVDS051 DS921V16 TLK2521 PI90LV180 SN65LVDS180 DS921V18 TLK2521 PI90LV3486 SN65LVDS3486 DS921V222 SN65LVCP22 PI90LV3487 SN65LVDS3487 DS921V222 SN65LVDM22 PI90LV3487 SN65LVDS3487 DS921 V222A SN65LVCP22 PI90LV9637 SN65LVDS9637 DS921V222A SN65LVDM22 PI90LV9638 SN65LVDS9638 DS96173 SN75ALS173 901 010 SN65MLVD201 0596174 SN75ALS174A PI90LVB180 SN65LVDM180 0596175 SN75LBC175A PI90LVB9638 SN65LVDS9638 0596175 SN75ALS175 PI90LVTO2 SN65LVDS2 DS96176 SN65HVD3088E 901 048 SN65LVDT348 DS96176 SN75ALS176 PI90LVT3486 SN65LVDT3486B DS96176 SN75176B PI90LVT386 SN65LVDT386 DS9636 059636 PI90LVT9637 SN65LVDT9637 Drop in pin compatible devices Texas Instruments 40 2006 Interface Selection Guide 46 Cross Reference Guide following products have similar functionality PERICOM cont PI90LVT9637 SN65LVDT9637B 901 017 SN65LVDS1 901 018 SN65LVDS2 PI90LVO19 SN65MLVD200 PI90LV019 SN65MLVD201 PI90LVO19 SN65MLVD204 PI90LV019 SN65MLVD206 9017 022 SN65LVCP
47. A 53A 0 90 TPS2044B 54B 4 0 7 70 2 7 to 5 5 75 Each Yes L H TPS2044 54 44A 54A 1 00 TPS2045A 55A 1 0 3 80 2 7 to 5 5 80 Yes Yes L H TPS2045 55 0 60 TPS2046B 56A 2 0 3 80 2 710 5 5 80 UH TPS2046 46A 56 0 65 TPS2047B 57A 5 0 3 80 2 110 5 5 160 Yes L H TPS2047 47A 57 0 90 TPS2048A 58A 4 0 3 80 2 7 to 5 5 160 Each Yes L H 52048 58 1 20 52060 4 2 1 70 2 7 to 5 5 50 Each Yes L H 1 20 52061 5 1 11 70 2 7 to 5 5 43 Yes Yes L H 0 60 TPS2062 6 2 11 70 2 7 to 5 5 50 Each Yes L H 0 75 TPS2063 7 9 11 70 2 7 to 5 5 65 Each Yes L H 0 90 Bus Power lo sion Current sion Current Switch Indicator per FET Limit per FET Limit Device Application Enable BPMODE typ min A typ min A USB Power Controllers TPS2070 USB 4 port hub 8 L 1L 4 5 5 5 560 0 12 107 0 6 3 3 100 mA 2 55 TPS2071 USB 4 port hub 8 1 4 5 55 560 0 12 107 0 6 5 3 3 V 100 mA 2 55 TPS2074 USB 4 port hub 8 11 4 5 5 5 500 0 12 100 0 6 3 3 V 100 mA 255 TPS2075 USB 4 port hub 8 L 1H 45 5 5 500 0 12 100 0 6 3 3 V 100 mA 2 55 TPS2140 USB peripheral 1 L 2 5 5 70 0 1 amp 1 2 Adj 0 9 3 3 250 mA 1 10 TPS2141 USB peripheral 1 L 4 5 5 70 0 1 amp 12 Adj 0 9 to 3 3V 250mA 1 10 TPS2150 USB peripheral 1 H 2 55 70 0 1 amp 1 2 Adj 0 9 to 3 3 250 mA 1 10 TPS2151 USB peripheral 1 H 4 5 5 70 0 1 amp 12 Adj 0 9 to 3 3 V 250mA 1 10 52145 DSP PDA 2 L 2 9 5 5 340 0 2 3 3
48. C 1 65 5 HVD20 20V to 25V Common Mode 25Mbps 25 16 Short Open Idle 64 8 PDIP 8 SOIC 1 65 HVD23 Receiver Equalization 160 Meters at25Mbps 25 16 Short Open Idle 64 8 PDIP 8 SOIC 1 80 E 5 DE RE HVD24 Receiver Equalization 500 Meters at 3 Mbps 3 16 Short Open Idle 256 8 PDIP 8 SOIC 1 80 DE RE HVD07 Strong Driver Outputs Low Signal Rate 1 16 Short Open Idle 256 8 PDIP 8 5010 150 DE RE HVD06 Strong Driver Outputs Mid Signal Rate 10 16 Short Open Idle 256 8 PDIP 8 SOIC 1 55 DE RE HVD05 Strong Driver Outputs Fast Signal Rate 40 16 Short Open Idle 04 8 PDIP 8 SOIC 1 60 DE RE LBC176 Low Power 10 2 Open 32 8 PDIP 8 SOIC 0 90 DE RE LBC176A Low Power Fast Signaling ESD Protection 30 12 Open 32 8 PDIP 8 SOIC 1 20 DE RE LBC184 Transient Protection Air Contact Surge 0 25 30 Open 128 8 PDIP 8 SOIC 1 30 DE RE LBC182 IEC ESD Protection Air and Contact Tests 0 25 15 Open 128 8 PDIP 8 SOIC 1 05 DE RE ALS176 Fast Signaling Skew 15ns 35 2 Open 32 8 SOIC 1 26 DE RE 176B Cost Effective 10 2 None 32 8 PDIP 8 SOIC 8 SOP 0 44 No HVD30 3 3V Supply no Enables 25Mbps 25 15 Short Open Idle 64 8 SOIC 1 80 No HVD31 3 3V Supply no Enables 5Mbps 5 15 Short Open Idle 256 8 SOIC 1 80 No HVD32 3 3V Supply no Enables 1Mbps 1 15 Short Open Idle 256 8 SOIC 1 80 33 No HVD379 Balanced Receivers Ideal for Interbus 25 15 None 256 8 SOIC 1 95 DE RE HVD33 3 3V Supply with Enables 25Mbps 25 15 Short Open
49. EE 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 Applications of the cable version are the integration of 1 0 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 1 0 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 Interface Selection Guide Texas Instruments 40 2006 1394 FireWire Q Technical Information Key Features 1394b Advantages Continued e Real time streaming of audio and video Faster speeds from 800 Mbps to Applications of the cable version are the
50. EU SNx5C3243 SP3481 SN75HVD11 SP3483 SN75HVD12 SP3485 SN75HVD11 SP3494 SN75HVD10 SP481 SN65HVD3088E SP481 SN75LBC176 SP481 SN75ALS176 SP481 SN75176B SP481E SN65HVD3088E SIPEX cont SP481E SN75LBC176A SP481R SN65HVD3088E SP483 SN65HVD3082E SP483 SN75LBC176 SP483 SN75ALS176 SP483 SN75176B SP483E SN65HVD3085E SP483E SN65HVD485E SP485 SN65HVD3088E SP485 SN75LBC176 SP485 SN75ALS176 SP485 SN75176B SP485E SN65HVD3088E SP485E SN75LBC176A SP486 SN75LBC172 SP486E SN75LBC172A SP487 SN75LBC174 SP487E SN75LBC174A SP488 SN75LBC173 SP488A SN75LBC173A SP488E SN75LBC173A SP489 SN75LBC175 SP489A SN75LBC175A SP489E SN75LBC175A 5 490 SN75LBC179 SP490E SN75LBC179A 5 491 SN75LBC180 SP491E SN75LBC180A STM ST232 232 573222 3222 ST3222E MAX3222 ST3232 3232 5 3232 3232 5173243 MAX3243 ST3243E MAX3243 ST75185 SN75185 ST75C185 SN75C185 Drop in pin compatible devices Interface Selection Guide Texas Instruments 40 2006 Device Index Device Page Device Page 9 12 42 2 12 2 ADM2208E 14 2 2 2 ALS1178 2 2 ALS178 nete 2 2 2 2 CDC208 42 2 CDG2351 42 2 002536 42 2 002582 42 HVI 2 002586 42 2 286 ssa enne 42 2 cer sess tei 4
51. F111 CDCF5801A CDC5801A CDCM1804 B CDCVF2509A CDCVF2505 1802 CDCVF2510A 25081 5 C CDC536 5203 CDC582 8 CDC950 x coeze CDC960 CDCVF25084 CDC351 CDC2351 cpc319 CDCVF2310 coo a CDCV304 U Clock Buffers 77 Zero Delay CDC329A CDC337 CMOS TTL 3 CDC340 CDC391 CDC341 nese CDC208 9 80 100 Memory Clocks Clock Generators Phase Aligners 175 200 300 400 500 533 Maximum Speed MHz Clock Selection by Number of Outputs and Signaling Type Signal Type M CDCR671A d SSTL 2 RSL DDR Rambus SN65LVP20 LVPECL LVDS MLVDS CML SN65MLVDS201 LVTTL HCMOS CMOS TTL cpcvsss CDC5801A CDCIM1804 MU NES 3 CDCF5801A CDCM1802 CDC536 CDCVF2505 CDC2536 CDCV857B CDCVF857 CDCV850 CDCU877 A CDCUA877 CDCU2A877 CDCUA845 SN65LVDS108 CDCL6010 U U SN65LVDS109 lt 5116 CDCVF111 SN65LVDS117 CDCLVD110 CDC7005 CDCM7005 U ZI U SN65LVDS105 MLVD129 CDCLVP110 CDC930 CDC2582 CDCVF25081 CDCVF2510A CDCVF2509A gt U CDC960 DCV304 1 3 CDC2586 5 d EXE 2
52. High speed up to 400 Mbps with IEEE 3200 Mbps integration of 1 0 connectivity of personal 1394 1995 and 1394a 2000 up to 1 2 Longer distances 100 meters with GOF computers peripherals and consumer and 4 Gbps with 1394b and CAT5 50 meters with POF electronics using a low cost scalable Plug and play hot pluggable 111394 is bi lingual communicates in high speed serial interface The 1394 Peer to peer communication 1394a and 1394b modes standard provides services such as real Small durable and flexible cable and More cabling options STP POF GOF time 1 0 and live connect disconnect connectors More efficient BOSS arbitration capability for devices including storage e Memory mapped architecture More user friendly loop free build allows HDD CD ROM CDRW MO ZIP RAID Seamless 1 0 interconnect any topology and redundancy SAN etc printers scanners cameras set top boxes HDTVs and camcorders Selection Guide Voltage Data Rate V Mbps Package s Description TSBI4AA1A 1 33 up to 100 48 TOFP IEEE 1394 1995 3 3 V 1 port 50 100 Mbps backplane PHY controller 5 90 TSB41AB1 1 3 3 up to 400 48 64 IEEE 1394a 1 port cable transceiver arbiter 1 50 TSB41AB2 2 33 up to 400 64 IEEE 1394a 2 port cable transceiver arbiter 1 85 TSB41AB3 3 39 up to 400 80 IEEE 1394 3 cable transceiver arbiter 3 00 TSB41BA3B 3 3 3 up to 400 80 TOFP 1394b 2002 3 port physical laye
53. Idle 04 14 SOIC 1 85 DE RE HVD34 3 3V Supply with Enables 5Mbps 5 15 Short Open Idle 256 14 SOIC 1 85 DE RE HVD35 3 3V Supply with Enables 1Mbps 1 15 Short Open Idle 256 14 SOIC 1 85 No HVD50 Strong Bus Outputs no Enables 25Mbps 25 15 Short Open Idle 04 8 SOIC 1 70 No HVD51 Strong Bus Outputs no Enables 5Mbps 5 15 Short Open Idle 256 8 SOIC 1 70 5 HVD52 Strong Bus Outputs no Enables 1Mbps 1 15 Short Open Idle 256 8 SOIC 1 70 HVD179 Balanced Receivers Ideal for Interbus 25 15 None 256 8 SOIC 1 85 No LBC179 Low Power without Enable 10 2 32 8 PDIP 8 SOIC 0 85 No LBC179A High Signaling Rate High ESD w o Enables 30 10 Open 32 8 PDIP 8 SOIC 1 10 DE RE HVD53 Strong Bus Outputs with Enables 25Mbps 25 15 Short Open Idle 64 14 SOIC 1 60 DE RE HVD54 Strong Bus Outputs with Enables 5Mbps 5 15 Short Open Idle 256 14 SOIC 1 60 DE RE HVD55 Strong Bus Outputs with Enables 1Mbps 1 15 Short Open Idle 256 14 SOIC 1 60 DE RE LBC180 Low Power with Enables 10 2 Open 32 14 PDIP 14 5010 16 1 05 DE RE ALS180 High Signaling Rate with Enables 25 2 Open 32 14 SOIC 1 71 5 ALS1177 Dual full duplex drivers receivers 10 2 Open 32 16 PDIP 16 SOIC 3 24 em 1DE 2DE ALS1178 Dual full duplex drivers receivers 10 2 Open 32 16 PDIP 16 SOIC 3 24 2 2 Separate DIR LBC170 FAST 20 SCSI Skew 3ns 30 12 Open 32 20 SOIC 16 SSOP 4 10 DE Triple RE LBC171 FAST 20 SCSI Skew 3ns 30 12 Open 32 20 SOIC 20 55
54. L LVTTL LVDS 400 SN65LVDS9638 Driver 2 LVTTL LVDS 400 800 17 SN65LVDS9637 Receiver 2 LVDS LVTTL 400 1000 SN65LVDS049 Transceiver Driver and Receiver Enable 2 2 LVDS LVTTL LVTTL LVDS 400 100 SN65LVDS050 Transceiver Driver and Receiver Enable 2 2 LVDS LVTTL LVDS LVTTL 400 1 7 SN65LVDS051 Transceiver Driver Enable Only 2 2 LVDS LVTTL LVDS LVTTL 400 lod SN65LVDS1050 Transceiver with 2 7 V Supply 2 2 LVDS LVTTL LVTTL LVDS 400 1 7 SN65LVDS22 Multiplexed LVDS Repeater 2 2 LVDS LVDS 250 4 C SN65LVDS047 Driver with Flow Through Pinout 4 LVTTL LVDS 400 1000 1 8 SN65LVDS31 Driver AM26LS31 Footprint 4 LVTTL LVDS 400 800 17 SN65LVDS3487 Driver MC34987 Footprint 4 LVTTL LVDS 400 800 17 SN65LVDS391 Driver with Flow Through Pinout 4 LVTTL LVDS 630 1500 SN65LVDS048A Receiver with Flow Through Pinout 4 LVDS LVTTL 400 1000 5651 0932 Receiver AM26LS32 Footprint 4 LVDS LVTTL 400 1000 SN65LVDS3486 Receiver MC3486 Footprint 4 LVDS LVTTL 400 1000 SN65LVDS390 Receiver with Flow Through Pinout 4 LVDS LVTTL 630 1000 SN65LVDS389 Driver 8 LVTTL LVDS 630 1500 17 SN65LVDS388A Receiver 8 LVDS LVTTL 630 1000 16 Channel rrr SN65LVDS387 Driver 6 LVTTL LVDS 630 1500 17 SN65LVDS386 Receiver 16 LVDS LVTTL 630 1000 Integrated termination available 100 Q SN65LVDTx Interface Selection Guide Texas Instruments 40 2006 LVDS xECL CML LVDS Sele
55. LVDT32 LTC1690 SN75LBC179A MAX3222E MAX3222 MAX9130 SN65LVDS2 LTC1796 SN65HVD251 MAX3223 MAX3223 9152 SN65LVCP22 LTC485 SN65HVD3085E MAX3223E MAX3223 MAX9155 SN65LVDS100 LTC485 SN65HVD485E MAX3232 MAX3232 MAX9156 SN65LVDS100 LTC485 SN75LBC176A MAX3232E MAX3232 9159 SN65LVDS9637 LTC485 SN75176B MAX3238 MAX3238 MAX9163 SN65MLVD201 LTC486 SN75172 MAX3238E MAX3238 9164 SN65LVDS180 LTC486 SN75ALS172A MAX3243 MAX3243 9169 SN65LVDS104 LTC486 SN75LBC172A MAX3243E MAX3243 MAX9170 SN65LVDS105 LTC487 SN75174 MAX3362 SN75HVD10 MAX9171 SN65LVDS2 LTC487 SN75ALS174A MAX3443E SN75LBC184 MAX9172 SN65LVDS9637 LTC487 SN75LBC174A MAX3463 SN65HVD1176 9173 65105048 LTC488 SN75173 MAX3464 SN65HVD3082E 9174 SN65LVDS122 LTC488 SN75ALS173 MAX3464 SN75HVD05 9175 SN65LVDS122 LTC488 SN75LBC173A MAX3483 SN75HVD12 9177 SN65LVCP22 LTC489 SN75175 MAX3483E SN75HVD12 9178 SN65LVDS047 LTC489 SN75ALS175 MAX3485 SN75HVD11 9179 SN65LVDS348 LTC489 SN75LBC175A MAX3485E SN75HVD11 MAX9180 SN65LVDS100 LTC490 SN75LBC179A MAX3486 SN75HVD12 9181 SN65LVDS100 LTC491 SN75LBC180A MAX3486E SN75HVD12 9205 SN65LV1023 MAX481 E SN65HVD3088E MAX9206 SN65LV1021 MAXIM MAX481 SN75LBC176 9207 SN65LV1224 MAX1487 SN65HVD3082E SN75LBC176A 9208 SN65LV1212 1487 SN65HVD3082E 9320 SN65LVCP23 MAX1487E SN65HVD3082E MAX483 SN75LBC176
56. MPEG 2 transport and some are designed as general purpose What is being interfaced to 1394 If the system has PCI consider one of the 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 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 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 Technical Information e 1394 1995 is an IEEE designation for high performance serial bus A revision to this standard has been published as IE
57. PCI Express bridge chip the 02000 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 2000 fully supports PCI Express rates of 2 5 Gbps Its architecture supports the 2 3 interface The chip s design enables PC and 1 0 add on card manufacturers to begin transitioning to native PCI Express technology while preserving compatibility with existing PCI system software and firmware PCI Express Transmitter Configuration and Clock Generator Reset Controller B Memory Register Key Features Compliant with Express to PCI PCI X Bridge Specification Revision 1 0 Compliant with Express Base Specification 1 0a Compliant with PCI Local Bus Specification rev 2 3 Utilizes 100 MHz differential 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 PCI Express Receiver Serial EEPROM Serial IRQ PCI Bus Interface XI02000A functional block diagram lock System Side GPIO Serial Interrupt Controller Typical system implementation 2000 Upstream Auxilliary Express Express Power Reference Device
58. PECL 10 LVTTL 200 mW MicroStar Junior 4 25 10 1 Gigabit 5mm x5 mm LGA Ethernet Xcvr TLK2208B Eight Ch of 10 1 Gigabit 1 0 1 3 Gbps 8 VML 4 5 Bit Ch Nibble 1W JTAG MDIO Supported 31 50 Ethernet Xcvr DDR Mode 8 10 Bit Ch Multiplex Ch Mode TLK2226 Six Ch 16 1 Gigabit 1 0 1 3 Gbps 6 VML 4 5 Bit or RGMII lt 1 5W MDIO Supported 19 65 Ethernet Xcvr 100 FX mode support 10 Gigabit Ethernet TLK3104SA Four Ch of 2 5 3 125 Gbps 4 3 125 Gbps 4X 10 8 Bit 700 mW Ch JTAG Programmable 69 30 10 8 1 LVPECL XAUI SSTL HSTL Pre Emphasis and XAUI TLK3104SC Four Ch of 3 0 3 125 Gbps 4X 20X622 700 mW Ch JTAG 8b 10b On Off 126 00 4 1 Xcvr LVPECL LVDS Lines TLK3114SC Four Ch of 2 5 3 125 Gbps 4X 3 125 Gbps 4X 10 8 Bit 600 mW Ch IEEE 802 3ae 51 15 10 8 1 Xcvr LVPECL XAUI SSTL HSTL Backplane Transceiver XGMII Compliant TLK3118 Four Ch 10 8 1 Xcvr w 2 5 3 125 Gbps Ch 4X 3 125 8 10 HSTLx4 lt 2 W Full Redundancy for 80 00 XAUI Full Redundancy LVPECL XAUI XGMII Four Channels XAUI TLK10021 Four XAUI to 10 Gbps XH 4 XAUI 800 mW Built In Testabili Web LVDS Serdes 3 45 SN65LVDS93 94 Four Ch 28 4 TX RX 140 455 Mbps Ch 5 LVDS 28 LVTTL 250 mW Chip Supports Up to 1 82 Gbps Chipset Throughout SN65LVDS95 96 Three Ch 21 3 TX RX 140 455 Mbps Ch 4 LVDS 28 LVTTL 250 mW Chip Supports Up to 1 82 Gbps 3 45 Chipset Throughout SN65LV1023A 1224B Single Ch 10 1 TX RX 100 660 Mbps 1LVDS 10 LVTTL lt 400 mW L
59. SOP 0 88 3223 250 2 2 15KV HBM 385 20501 20SSOP 20TSSOP 1 12 3232 250 2 2 15KV HBM 3 915 1 16501 16SSOP 16TSSOP 0 96 MAX3238 250 5 3 15KV HBM 3 375 2 28SSOP 28TSSOP 1 20 MAX3243 250 3 5 15KV HBM 3 375 1 285016 28SSOP 28TSSOP 0 88 MAX3318 460 2 2 15KV HBM 225 3 2 20SSOP 20TSSOP 1 58 SN65C23243 250 6 10 15KV HBM 3345 0 02 48SSOP 48TSSOP 4 32 65 3221 1000 1 1 15KV HBM 3 3 or 5 1 16SOIC 16SSOP 16TSSOP 2 38 SN65C3223 1000 2 2 15KV HBM 3 3 or 5 1 20501 20SSOP 20TSSOP 2 50 SN65C3232 1000 2 2 15KV HBM 3 3 or 5 1 16SOIC 16SSOP 16TSSOP 3 02 SN65C3238 1000 5 3 15KV HBM 3 3 or 5 2 285016 28SSOP 28TSSOP 3 24 SN65C3243 1000 3 5 15KV HBM 3 3 or 5 1 285016 28SSOP 28TSSOP 3 46 SN75C23243 250 6 10 15KV HBM 3 315 0 02 48SSOP 48TSSOP 3 42 SN75C3221 1000 1 1 15KV HBM 3 3 or 5 1 16501 16SSOP 16TSSOP 1 94 SN75C3223 1000 2 2 15KV HBM 3 5 or 5 1 20501 20SSOP 20TSSOP 2 38 SN75C3232 1000 2 2 15KV HBM 3 3 or 5 1 16501 16SSOP 16TSSOP 2 79 SN75C3238 1000 5 3 15KV HBM 3 3 5 2 285016 28SSOP 28TSSOP 2 81 SN75C3243 1000 3 5 15KV HBM 3 3 or 5 1 285016 28SSOP 28TSSOP SN75LP1185 256 3 5 15KV HBM 5 12 1 20PDIP 20SOIC 20550 1 78 SN75LP196 256 5 3 15KV HBM 5 12 1 20PDIP 20SOIC 20SSOP 20TSSOP 1 78 SN75LPE185 256 3 5 15KV HBM 52 312 1 24PDIP 24501 24SSOP 24TSSOP 1 89 SN75185 120 3 5 10KV HBM 12 5 30 20PDIP 20SOIC 20SSOP 20TSSOP 0 45 SN75196 120 5 3 10KV HBM 12 5 20 20PDIP 205016 0 68 SN75LV4737A 12
60. ace e Supports two 1394a ports Fully Compliant with 1394 Open Host Controller Interface Specification Revision 1 1 ExpressCard Reference Design supports two 1394a ports nternal dedicated PCI bus operates at 32 bit 66 MHz Compact Footprint 176 Ball GGW MicroStar M BGA or Lead Free 176 Ball ZGW MicroStar BGA Key Benefits One chip solution for 1394a ExpressCards Advanced power management features e Software programmable and hardware autonomous power management e 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 Target Market ExpressCards PC Add In Cards PC Motherboards 2 5Gbps XMT 2 5Gbps x1 Express Upstream PHY Interface Digital Link Layer Transaction Layer PCI Bridge Core 32 Bit 66 MHz Internal PCI Bus PCI to 1394a Core an an PHY Port 0 PHY Port x1 PCI Express 2 5 Gbps ExpressCard reference design South Bridge 2200 Q 4 Lane 4 Port PCI Express Switch XIO3130 2 www ti com sc pcl e Expected release 10 2007 15 03130 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 refe
61. allas Texas 75265 Copyright 2006 Texas Instruments Incorporated
62. ator 5 N Bilingual Cable Port 0 Bilingual Cable Port 1 Bilingual Cable Port 2 Crystal Oscillator PLL System and Transmit Clock Generator RO R1 TPBIASO TPBIAS1 TPBIAS2 0 0 TPBO 0 TPA1 1 TPB1 1 2 2 2 2 Interface Selection Guide Texas Instruments 40 2006 Design Considerations Primary 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 Voltage Range 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 Drive The GTLP family provides 24 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 Gunning Transceiver Logic Plus 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
63. ction Guide Supply Voltage Device V Pin Package s Single Family SN65LVDS1 8 15 99 8 01 5SOP 0 47 651 0 21 2 6 7 15 DIO 8 01 5SOP 0 47 SN65LVDS179 3 7 12 12 39 8 01 8VSSOP 1 35 SN65LVDS180 e 12 12 33 14501 14TSSOP 1 35 NENNEN I 0000 sss Sg gs SN65LVDS9638 13 8 99 8HTSSOP 8501 8VSSOP 1 15 SN65LVDS9637 21 10 8 99 8HTSSOP 8501 8VSSOP 1 15 SN65LVDS049 1 9 35 10 3 9 16TSSOP 1 00 SN65LVDS050 ou 20 12 33 16501 16TSSOP 2 00 SN65LVDS051 317 20 12 3 3 16501 16TSSOP 2 00 5651051050 20 12 21 16TSSOP 2 00 SN65LVDS22 4 20 12 39 16501 16TSSOP 2 80 SN65LVDS047 26 8 8 9 16501 16TSSOP 1 30 SN65LVDS31 35 8 33 16SOIC 16TSSOP 16SOP 1 50 SN65LVDS3487 35 8 9 9 16501 1 50 SN65LVDS391 26 15 33 16S01C 16TSSOP 1 50 SN65LVDS048A 24 15 10 99 16501 16TSSOP 1 30 5651 0932 21 18 8 BIO 16501 16TSSOP 16SOP 1 50 SN65LVDS3486 21 18 8 99 16SOIC 1 50 SN65LVDS390 2 5 18 15 33 16501 16TSSOP 1 50 SN65LVDS389 70 15 33 38TSSOP 2 90 SN65LVDS388A 25 40 15 3 3 38TSSOP 2 90 SN65LVDS387 95 15 3 3 6475 5 55 SN65LVDS386 2 5 70 15 3 3 64TSSOP 5 55 Integrated termination available 100 Q SN65LVDTx Suggested resale price in U S dollars in quantities of 1 000 Texas Instruments 40 2006 Interface Selection Guide Multipoint LVDS M LVDS M LVDS Features e TIA EIA 899 standard Driver output current 11 3 mA vs 3 5 mA LVDS Receiver thresholds 50 mV vs 100
64. d 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 PCMCIA CardBus Power Switches Standard PC cards require that 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 standard requirements for but require ground 3 3 V and 5 V to Vpp and ground 1 8 V or 3 3 V to Other PC card applications may simply not need 12 V or Vpp while still having the standard requirements for Voc Therefore consider the voltage requirements of the application when select ing a PCMCIA power switch 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 To minimize voltage drop select devices with the lowest or Drain to Source on resistance 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
65. d to USB Texas Instruments 40 2006 Interface Selection Guide USB Hub Controllers and Peripheral Devices USB Family of Products USB Devices Po USB PHY USB Hub Controllers USB Peripherals USB OTG TUSB2036 TUSB3210 TUSB6020 TUSB1105 TUSB2046B TUSB3410 TUSB1106 TUSB2077A TUSB6250 TUSB2551 TUSB2136 TUSB5052 Selection Guide Voltage Device V Package Description USB Hub Controllers TUSB2036 Full 1 1 2 3 No 93 32 LOFP 2 3 port hub for USB with optional serial EEPROM interface 1 15 TUSB2046B Full 1 1 4 No 93 32 LOFP 4 hub for USB with optional serial EEPROM interface 1 20 TUSB2077A Full 1 1 7 33 48 LOFP 7 port USB hub with optional serial EEPROM interface 1 95 TUSB2136 Full 1 1 1 2 Yes 93 64 LOFP 2 port hub with integrated general purpose function controller 3 25 TUSB5052 Full 1 1 1 5 Yes 33 100 LOFP 5 port hub with integrated bridge to two serial ports 5 10 Voltage Remote Device Speed V Wakeup Package Description USB Peripherals TUSB3210 Full 3 3 Yes 64 LOFP USB full speed general purpose device controller 2 50 TUSB3410 Full 3 3 Yes 32 LOFP USB to serial converter RS 232 RS 485 2 25 TUSB6250 Full High 3 3 Yes 80 TOFP USB 2 0 high speed low power ATA ATAPI bridge solution 2 80 Voltage Local Bus Device V Package Interface Description USB On The Go OTG TUSB6020 High 1 5 19 99 80 VLYNO USB 2 0 High Speed On The Go to Local Bus Interface Cont
66. de logic CML high speed differential interface technology 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 Digital Isolators p 10 The new 5072 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 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 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 CAN p 18 Controller Area Network 15011898 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 FlatLink 3G p 19 A new family
67. deo Port Video Port PDA interface application block diagram Texas Instruments 40 2006 Interface Selection Guide UARTs Universal Asynchronous Receiver Transmitters Design Considerations The UART 15 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 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 Key Features Single dual and quad channel devices 16 and 64 byte FIFOs available e 5 3 3 2 5 and 1 8 V supply Clock rates up to 24 20 16 MHz for 1 5 1 25 1 0 Mbps data transfer rates Hardware and software autoflow control e Programmable sleep mode and low power mode ndustrial temperature characterization Channels 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 bu
68. duct 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 1 0 cells that allow for capacitive coupling of the PHY link signals 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 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 Link Layer Selection Issues 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
69. e 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 Asynchronous Communications Element Up to 24 20 16 MHz clock rates for ul with Autoflow Control up to 1 5 1 25 1 Mbps operation IET The TL16C550D is a performance enhanced Programmable baud rate generator version of TI s industry standard TL16C550C allows division to generate internal single channel UART with 16 byte FIFO 16x clock TL16C550D can support voltages of down to Independent clock input receiver DAE 2 5 V and data transfer rates of up to 1 5 Fully programmable serial interface P Mbps Combining these features with an characteristics T ome Et ultra small 32 pin OFN package the Available packages DIF PLCC mon TEES TL16C550D is ideal for a variety of portable TOFP and QFN EAH icon sor applications m Applications e PDAs 2 Expanded voltage and package options MP3 players ideal for small form factors Gaming systems Vss c Sony osr 3 amer Lower voltage and higher frequency than Modems TL16C550C e Serial ports mu e Telecom contre Pin for pin replacement for TL16C550C e Programmable auto RTS and auto CTS autoflow
70. ected content Encryption prevents eavesdropping of protected content Renewability enables revocation of compromised devices Controller PanelBus DVI Transmitters and Receivers Voltage Recvr Trans Parallel Data Speed Mbps Package Description TFP401 495 100 DVI receiver 165 MHz 4 00 TFP401A 495 100 HTQFP DVI receiver 165 MHz HSYNC jitter immunity 4 00 TFP403 3 3 3 48 495 400 100 DVI receiver 5 45 TFP410 3 3 3 6 495 250 64 DVI transmitter 165 MHz 3 00 TFP501 33 3 48 495 400 100 DVI receiver 165 MHz plus HDCP Call 503 33 3 48 495 400 100 DVI receiver 165 MHz plus HDCP embedded HDCP keys Call TFP510 33 3 6 495 250 64 HTOFP DVI transmitter 165 MHz plus HDCP Call TFP513 3 3 3 6 495 250 64 DVI transmitter 165 MHz plus HDCP and embedded HDCP keys Call Suggested resale price in U S dollars in quantities of 1 000 Interface Selection Guide Texas Instruments 40 2006 DVI PanelBus 2 PanelBus HDCP Digital Receiver TFP501 TFP503 Q TI PanelBus Digital Transmitters TFP510 TFP513 Get datasheets at www ti com TFP501 or www ti com TFP503 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 pix
71. ection Guide Intel Compatible Speed Expansion MicroStar BGA Voltage Device Package s Description PCI Bridges PCI2040 33 Yes 33 5 144 BGA PCI to DSP bridge controller compliant with 10 55 144 LOFP Compact PCI Hot Swap Specification 1 00 PCI2050B 21150bc 66 32 Yes Yes 335 208 LOFP 32 bit 66 MHz 9 master PCI to PCI bridge 9 50 208 QFP 257 BGA 12250 21152ab 33 32 Friendly No 335 176 LOFP 32 bit 33 MHz PCI to PCI bridge Compact 6 10 160 PCI hot swap friendly 4 master PCI2060 66 32 Yes Yes SOME 257 BGA 32 bit 66 MHz 9 master asynchronous 9 50 PCI to PCI bridae Suggested resale price in U S dollars in quantities of 1 000 Resources fora complete list of resources evaluation modules data sheets and application notes visit interface ti com Literature Number Description Application Notes SCPA029A Adding Debounce Logic to HSSwitch Terminal SLLA067 Comparing Bus Solutions 5 027 Connecting ENUM Terminal to an External Open Drain Buffer 5 030 Interfacing the PCI2040 to the TMS320VC5420 DSP SPRA679 Texas Instruments TMS320VC5409 5421 DSP to PCI Bus Texas Instruments 40 2006 Interface Selection Guide CardBus Power Switches Design Considerations ExpressCard Power Switches The TPS2231 and TPS2236 ExpressCard power interface switches provide the total power management solution required by the ExpressCard specification The TPS2231 and TPS2236 ExpressCar
72. el 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 Key Features e 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 e True color 24 bits pixel 48 bit dual pixel output mode 16 7 M colors at one or two pixels per clock e 4x oversampling for reduced bit error rates and better performance over longer cables Embedded HDCP keys TFP503 only Supports hot plug detection Packaging 100 pin TOFP PowerPAD Applications e Desktop LCD monitors DLP and LCD projectors e Digital TVs Internal 50 Q Termination Data Recovery and Synchronization RxC gt 123 0 00123 0 SCL DE SCDT Decryption Interface CTL2 CTL1 VSYNC HSYNC DDC_SCL DDC_SDA DDC Slave Decryption RAM Block Control Registers TFP501 block diagram Get the datasheets and app reports at www ti com sc device TFP510 or www ti com sc device TFP513 The TFP510 and TFP513 provide a universal interface allowing a glue less connection to most commonly available graphics controllers Some of t
73. erializer Transmitter 1755 SN65LVDS302 QVGA XGA Deserializer Receiver 2 1755 SN65LVDS303 QVGA VGA Serializer Transmitter 27 810 SN65LVDS304 QVGA VGA Deserializer Receiver 27 810 SN65LVDS305 QVGA HVGA Serializer Transmitter 2 405 SN65LVDS306 QVGA HVGA Deserializer Receiver 27 405 Suggested resale price U S dollars quantities of 1 000 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 Application Processor with RGB Video Interface Tx LVDS305 Rx LVDS306 1 Ch Serial Data Serial Data F PLL Frequency Receiver Transmitter MHz Channels Channels 4 65 2 10 4 65 3 210 4 30 2 Web 4 30 2 Web 4 15 1 Web 4 15 1 Web New products are listed in bold red Preview products are listed in bold blue Texas Instruments 40 2006 Interface Selection Guide SerDes Serial Gigabit Transceivers and LVDS The serial gigabit transceiver family of devices from provides low power dissipa tion while enabling multigigabit transmission over copper backplanes cable and optical links The transceivers can be used in a SerDes Portfolio Gigabit Ethernet FC variety of applications including Gigabit Ether
74. ffering data overruns has added its patented hardware autoflow control to all new 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 UART Family of Products TL16C554A To accommodate the requirements of diverse applications 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 As one of the world s leading high volume semiconductor manufacturers 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 TL16C754B TL16C2552 TL16C2550 TL16C452 N TL16C552A TL16C2752 TL16C752B TL16C451 TL16C450 TL16C550D TL16C550C No FIFO 16 Byte TL16PC564B TL16PIR552A TIR1000 64 Byte Special Functions FIFO Memory Size Interface Selection Guide Texas Instruments 40 2006 UARTs Universal Asynchronous Receiver Transmitters Q UART Selection Guide Voltage Characterized Device V Temp Package s Description Universal Asynchronous Receiver Transmitters UARTs TL16C2550 2 16 Byte 1 8 2 5 3 3 5 40 10
75. g at 125 MHz the interface must be tuned to the center capture window Painful and not robust 01100 is SS in BOTH RX and TX directions which makes positioning 1 0 capture window easy to identify and robust e 55 approach works great from design without need for experimental tuning Hexible MAC Interface o Selectable 8 bit or 16 bit Parallel Interface 16 bit 125MHz rising edge clocked use low cost FPGAs 8 bit 125MHz rising and falling edge clocked DDR No need for extra clock buffer needed to generate 250MHz e Flexible Digital 1 0 Power Supply o 1 5V or 1 8V o Only two supply voltages needed 3 3V and 1 5V e Support for two PCI Express Reference Clocks o 100 MHz differential for normal system clock designs o 125 MHz single ended for asynchronous clocking designs REFCLK TX_DATA 16 8 TXP TXN TX Block TX_DATAK 1 0 STATUS COMMAND RX_DATA 16 8 RXP RXN RX Block RX_DATAK 1 0 XIO1100 functional block diagram Interface Selection Guide Texas Instruments 40 2006 PCI Bridges gt Technical Information Design Considerations the new serial Express architecture TI is Peripheral Component Interconnect is actively developing a portfolio of Express Capabilities an interconnection system between a micro products to address this new market TI s PCI2050B is 32 bit 66 MHz bridge processor and attached devices in which with i
76. he 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 Digital visual interface DVI compliant Supports resolutions from VGA to UXGA 25 MHz to 165 MHz pixel rates Universal graphics controller interface o 12 bit dual edge and 24 bit single edge input modes o Adjustable 1 1 V to 1 8 V and standard 3 3 V CMOS input signal levels o Fully differential and single ended input clocking modes o Standard Intel 12 bit digital video port compatible as on Intel 81x chipsets Programmable using serial interface Monitor detection through hot plug and receiver detection Embedded HDCP keys TFP513 only Packaging 64 pin TOFP PowerPAD Applications e Set top boxes DVD recorders players IDCK Universal Input DATA 23 0 Encryption 12 24 Bi HDCP 24 Bit Data m Format Cipher HSYNC VREF EDGE PD gt T M D S Transmitter ISEL RST __ I gt Encoder Serializer gt 5 Y Encoder erializer mi Control gt BSEL SCL Slave I F DSEL SDA For DDC 1 8 V Regulat MDA DK2 Master with pue MCL DK1 for EEPROM Capacitors TFP510 block diagram Texas Instruments 40 2006 Interface Selection Guide 2
77. high voltage and functional reliability with gt 25 years Magnetic Immu external magnetic fields to prevent data corruption is a critical consideration for industrial applications 1E6 times higher magnetic immunity than inductive couplers rate offers digital isolators with the highest signaling rates of up to 150 Mbps Jitter To ensure signal integrity jitter reduction is a priority 15072 products offer the lowest jitter with 1 ns jitter at 150 Mbps PRBS NRZ data input 4000 Vpeak isolation UL 1577 IEC 60747 5 2 VDE 0884 Rev 2 o 61010 1 and CSA approved o 50 kV us transient immunity e Signaling rate 0 Mbps to 150 Mbps Low propagation delay Low pulse skew pulse width distortion e Low power sleep mode High electromagnetic immunity Low input current requirement of 10 pA e Fail safe output Technical Information 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 silicone dioxide 5102 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 Recently introduced alternative isolation techniques that use magnetic coupling may still share the deficiencies of the older opto
78. ice in U S dollars Interface Selection Guide Texas Instruments 40 2006 LVDS xECL CML LVDS LVPECL CML Repeaters Translators and Crosspoints Selection Guide Part to Part Description ps Skew Max kV Package s Price Crosspoint Switch Family SN65LVCP22 2X2 Crosspoint Switch LVPECL LVDS 1000 16SOIC 2 70 LVDS Outputs LVDS CML 16TSSOP SN65LVCP23 2 2 Crosspoint Switch 2 LVPECL LVPECL 1300 100 100 0 65 0 65 65 16SOIC 5 20 LVPECL Outputs LVDS CML 16TSSOP SN65LVCP40 Dual 1 2 Mux with Equalizer and 0 9 LVPECL CML 4000 30 500 1 1 254 4 480FN 17 40 Pre Emphasis LVDS CML SN65LVDS122 2X2 Crosspoint Switch 2 LVPECL LVDS 1500 65 150 0 9 0 9 100 4 16SOIC 4 75 LVDS Output LVDS CML 16TSSOP SN65LVDS250 4X4 Crosspoint Switch 4 4 LVPECL LVDS 2000 50 150 0 9 0 9 145 9 TSSOP 7 15 LVDS Output LVDS CML Repeaters Translators SN65CML100 LVDS LVPECL CML to CML 1 i LVPECL CML 1500 70 100 0 8 12 5 8501 2 55 Repeater Translator LVDS CML 8VSSOP SN65LVDS100 LVDS LVPECL CML LVPECL LVDS 2000 65 100 0 8 30 5 8 01 2 55 to LVDS Repeater Translator LVDS CML 8VSSOP SN65LVDS101 LVDS LVPECL CML to LVPECL il i LVPECL LVPECL 2000 65 100 0 9 90 5 85010 2 55 Repeater Translator LVDS CML 8VSSOP SN65LVDS16 17 2 5 V 3 3 V Oscillator Gain TN NT LVPECL LVDS 2000 10 130 0635 48 2 80FN 2 55 Stage Buffer single ended diff inputs SN65LVDS18 19 2 5 V 3 3 V Oscillator Gain
79. integrated products USB Power Managers Family of Products Power Distribution Switches TPS204xB 5xB The TPS204xB 5xB families of 80 mQ 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 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 Bus Power 5 V LDO Mode Device Indicator Package 4 Port USB Hub Power Controllers Quad TPS2048A 58A TPS2044B 54B TET nem z es ctive Low Triple TPS2047B 57A TPS2043B 53B TPS2063 67 TPS2071 vm 32 HTSSOP Dual TPS2046B 56A TPS2042B 52B TPS2062 66 TPS2060 64 TPS2074 No 24 SSOP Single 52020 30 TPS2045A 55A 52021 31 TPS2041B 51B TPS2022 32 61 65 TPS2023 33 TPS2024 34 TPS2075 No Active High 24 lt lt 0 Dual Power Switch 100 for USB Bus Powered Peripherals and Hubs VIN SW1 VIN SW1 LDO_EN sw2 sw2 2 2 GND GND LDO OUT VIN SWI 100 EN OUTI OUT2 062 2 GND
80. interconnect PCI bridge provides a high performance connection path between either two PCI buses or a PCI component and one or more DSP devices 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 voltages Standard PC cards require that Vcc 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 dard requirements for Vcc but require ground 3 3 V and 5 V to VPP and ground 1 8 V or 3 3 V to Vcore Other PC card applications may simply not need 12 V or VPP while still having the standard requirements for Therefore consider the voltage requirements of the application when selecting a PCMCIA power switch 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 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 VME 41 The VMEbus is a standardized 64 bit backplane architecture that is coordi nated and controlled by VITA VME is used extensivel
81. must receive the host s or device s attention periodically 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 Get samples datasheets EVMs and app reports at www ti com sc device TUSB3410 USB to Serial Bridge 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 Host or OTG TUSB3410 data flow TUSB3410 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 bus Integrated enhanced UART features including Legacy Serial Peripheral 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 1 0 Evaluation module to jump start USB development or for use as a complete USB to RS 232 converter Applications Handheld meters e Health metrics monitors e Any legacy serial device that needs to be upgrade
82. net Indonesia 001 803 8861 1006 Korea 080 551 2804 Malaysia 1 800 80 3973 New Zealand 0800 446 934 Philippines 1 800 765 7404 Singapore 800 886 1028 Taiwan 0800 006800 Thailand 001 800 886 0010 886 2 2378 6808 tiasia ti com or ti china ti com support ti com sc pic asia htm D062706 Safe Harbor Statement This publication may contain forward looking statements that involve a number of risks and uncertainties These forward looking statements are intended to qualify for the safe harbor from liability established by the Private Securities Litigation Reform Act of 1995 These forward looking statements generally can be identified by phrases such as or its management believes expects anticipates foresees forecasts estimates or other words or phrases of similar import Similarly such state ments herein that describe the company s products business strategy outlook objectives plans intentions or goals also are forward looking statements All such forward looking state ments are subject to certain risks and uncertainties that could cause actual results to differ materially from those in forward looking statements Please refer to 5 most recent Form 10 K for more information on the risks and uncertainties that could materi ally affect future results of operations We disclaim any intention or obligation to update any forward looking statements as a result of devel
83. net 10 Gigabit Ethernet modules synchronous optical network SONET 0 48 TLK1501 TLK2201BI and 0 192 based equipment wireless ipsis TLK2201AJR infrastructure backplanes and general purpose TLK1521 icati TLK4120 backplane applications SerDes Solutions Frontplane Backplane TLK1201AI TLK2226 TLK2208B Low Power 1 GbE Transceiver 1 to 1 6 Gbps Backplane Frontplane Line Module Controller Reference Clock PLL Multiplier Frontplane SerDes 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 6 x 1 1 3 Gbps TLK1201AI 1 to 1 6 Gbps Gigabit Ethernet Compli ant SerDes 10 Gigabit Ethernet TLK3114SC TLK3104SA TLK3104SC TLK3118 TLK10021 TLK3101 TLK2501 TLK1501 600 Mbps to 3 2 Gbps General Purpose Backplane SerDes SN65LV1023A 1224B 100 to 660 Mbps 10 1 LVDS SerDes SN65LVDS93 94 SN65LVDS95 96 SN65LV1023A 1224B SN75LVDS82 83 SN75LVDS84A 86 SN75LVDT1422 DSP Clock Power Buffer Management Backplane SerDes Interface Selection Guide Texas Instruments 40 2006 SerDes Serial Gigabit Transceivers and LVDS 2 Q SerDes Serial Gigabit Transceivers Selection Guide Device Function Data Rate Serial I F Parallel I F Power Special Features Price General Purp
84. ns With a Focus on GTLP SCEA022 Achieving Maximum Speed on Parallel Buses With Gunning Transceiver Logic 5 015 Fast GTLP Backplanes With the GTLPH1655 Other Literature SCYT126 Advanced Bus Interface Logic Selection Guide Interface Selection Guide Texas Instruments 40 2006 Design Considerations Backward compatibility The VMEH22501 A improves the performance up to 8X of the VMEbus without making changes to existing hardware 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 Increased Noise Immunity The 50 mV input threshold allows the VMEH22501 A to provide clean signaling under harsh environments VME Parametric Table Full Live Insertion This device is fully specified for live insertion applications using lore power up 3 state and BIAS Vec 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 Voltage Nodes V 33 Range V 3 15 to 3 45 Input Level LVTTL Output Level LVTTL Output Drive mA 48 64 No of Outputs 10 Logic True Static Current mA 30 tpa max ns 8 9 0 to 85 C 3 3 3 15 3 45 8 9 40 85 Resources complete list of resources evalua
85. nternal two tier arbitration for up to Key Features Two 32 bit 33 or 66 MHz buses Configurable for power management interface specification 9 secondary bus masters and support for an external secondary bus There are independent read write buffers for each direction and 10 secondary clock outputs expansion slots are spaced closely for high speed operation PCI to PCI bridge is a high performance connection path between two PCI buses that allows bridge transactions ee CompactPCI hot swap functionality to occur concurrently on both buses Burst e 3 3 V core logic with 3 3 to 5 V PCI mode transfers maximize data throughput REA M n Functionality while the two bus traffic paths through the ied n he PCI2250 is a 33 MHz bridge similar to bridge act independently In future systems Y the PCI2050B but supports 4 secondary bus many PCI bus structures will be replaced by masters and 5 secondary PCI clock outputs PCI Bridges CPU Host Bus Memory 2040 Host PCI PCI 2050 Device Device 2250 PCI Bus 0 12060 5 PCI bridge family of products PCI Bus 2 PCI Option Card PCI Bus 1 1 I PCI Option Slot Typical PCI to PCI bridge system application Sel
86. on both the clock s rising edge and falling edge 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 and RXN Incoming data at the 01100 PHY receive differential pair and is forwarded to the MAC on the RXDATA output bus Data received from the MAC on the TXDATA input bus is forwarded to the 01100 PHY transfer differential pair TXP and TXN 01100 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 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 01100 TI 01100 PCle 1 IP Core 1 1 User Application Transaction Data Link Layer Layer Layer l l i Low cost FPGA based Express solution Key Benefits 01100 is 5 Third Generation PHY Passed PCI SIG Workshop 49 v1 0a and v1 1 compliant o Proven PCI Express Compatibility and Interoperability e Source Synchronous SS Clocking o Without SS clocking and runnin
87. opments occurring after the date of this publication Important Notice The products and services of Texas Instruments Incorporated and its subsidiaries described herein are sold subject to 5 standard terms and conditions of sale Customers are advised to obtain the most current and complete information about products and services before placing orders assumes no liability for applications assistance customer s applications or product designs software performance or infringement of patents The publication of information regarding any other company s products or services does not constitute TI s approval warranty or endorsement thereof Technology for Innovators the black red banner PanelBus FlatLink MicroStar Junior PowerPAD DLP MicroStar OEC and TI OPC are trademarks of Texas Instruments All other trademarks are the property of their respective owners 2006 Texas Instruments Incorporated e Printed in U S A by Printer City State on recycled paper PRSRT STD U S POSTAGE PAID DALLAS TEXAS PERMIT NO 2758 SSZT009C IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries 1 reserve the right to make corrections modifications enhancements improvements and other changes to its products and services at any time and to discontinue any product or service without notice Customers should obtain the latest relevant information before placing orders and should verify that such inf
88. ormation is current and complete All products are sold subject to TI s terms and conditions of sale supplied at the time of order acknowledgment TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with 5 standard warranty Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty Except where mandated by government requirements testing of all parameters of each product is not necessarily performed TI assumes no liability for applications assistance or customer product design Customers are responsible for their products and applications using components To minimize the risks associated with customer products and applications customers should provide adequate design and operating safeguards TI does not warrant or represent that any license either express or implied is granted under any TI patent right copyright mask work right or other TI intellectual property right relating to any combination machine or process in which TI products or services are used Information published by TI regarding third party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement thereof Use of such information may require a license from a third party under the patents or other intellectual property of the third party or a license from TI under the patents or other intellec
89. ose TLK1501 Single Ch 16 1 SerDes 0 6 1 5 Gbps 1 CML 16 LVTTL 200 mW Built In Testability 8 40 TLK2501 Single Ch 16 1 SerDes 1 6 2 5 Gbps 1 CML 16 LVTTL 300 mW Built In Testability 12 60 TLK2701 Single Ch 1 6 2 5 Gbps 1 16 LVTTL 300 mW Built In Testability 12 60 16 1 SerDes and K Character Control TLK2711 Single Ch 1 6 2 5 Gbps 1VML 16 LVTTL 350 mW MicroStar Junior BGA 10 50 16 1 SerDes Packaging TLK3101 Single Ch 16 1 SerDes 2 5 3 125 Gbps 1VML 16 LVTTL 350 mW Built In Testability 16 85 TLK2521 Single Ch 1 0 2 5 Gbps 1VML 18 LVTTL 550 mW Low Power and 12 60 18 1 SerDes Built In Equalization TLK1521 Single Ch 0 6 1 3 Gbps 1VML 18 LVTTL 350 mW Low Power and 10 50 18 1 SerDes Built In Equalization TLK4120 Four Ch 18 1 Serdes 0 5 1 3 Gbps 4VML 18 LVTTL 350 mW Four Channel Version of TLK1521 24 00 TLK4250 Four Ch 18 1 Serdes 1 0 2 5 Gbps 4VML 18 LVTTL 550 mW Four Channel Version of TLK2521 32 00 TLK4015 Four Ch of 16 1 Xcvr 0 6 1 5 mum 4X CML 16 LVTTL Ch 1W Four Channel Version of TLK1501 29 40 TLK1211 Single Ch 10 1 Gigabit Ethernet _ 0 6 1 3 Gbps 1 LVPECL 10 LVTTL 200 mW Fast Relock for PON Web Gigabit Ethernet FibreChannel TLK1201AI Single Ch 10 1 Gigabit 0 6 1 3 1 LVPECL 10 LVTTL 200 mW Industrial Temperature Ethernet Xcvr Gbps TLK2201BI Single Ch 1 2 1 6 Gbps 1 LVPECL 10 LVTTL 200 mW JTAG 5 Bit DDR Mode 4 65 10 1 Gigabit Industrial Temperature Ethernet Xcvr Qualified TLK2201AJR Single Ch 1 0 1 6 Gbps 1 LV
90. ow Power Solution 4 60 Chipset SN75LVDT1422 14 1 Xcvr SerDes 140 Mbps 1 4 Gbps 1LVDS 14 Bit LVTTL 300 mW Supports Spread Spectrum 3 70 Clocking SN75LVDS82 83 Four Ch 28 4 TX RX Chipset 0 651 1 428 Gbps 41 05 28 LVTTL 250 mW Chip Commercial Temp 2 25 SN75LVDS84A 86 21 3 TX RX Chipset 0 42 1 428 Gbps 3 LVDS 21 LVTTL 250 mW Chip Commercial Temp 2 10 CML Current Mode Logic Voltage Mode Logic Suggested resale price U S dollars in quantities of 1 000 New products are listed in bold red Preview products are listed in bold blue Texas Instruments 40 2006 Interface Selection Guide DVI PanelBus Design Considerations 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 720p and 10801 HDTVs Content DVI Link High Bandwidth Digital Content Protection HDCP Content protection for video sent over DVI mplementation of HDCP requires license from the Digital Content Master T d th Protection Licensing L L C www digital cp com HDCP Elements Authentication is a process for verifying that a device is authorized e g licensed DVI HDCP implementation to handle prot
91. press Upstream PHY Interface Digital Link Layer Transaction Layer Crossbar Switch amp Packet Control Port Logic Port Logic Port Logic PHY Port 0 PHY Port 1 PHY Port 2 Texas Instruments 40 2006 Interface Selection Guide PCI Express PCI Express PHY XIO1100 Get samples datasheets EVMs and app reports at www ti com sc device X101100 The 01100 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 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 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
92. ption to be relatively independent of frequency The LVDS386 LVDS388A LVDS048A 348 LVDS32 33 LVDS3486 LVDS390 LVDS9637 LVDS34 LVDS2 Receivers LVDS049 LVDS050 LVDS051 LVDS1050 LVDS179 LVDS180 Transceivers LVDS117 LVDS116 CDCLVD110 LVDS108 LVDS109 LVDS104 LVDS105 CML100 LVDS100 LVDS101 1 0816 LVP16 0517 LVP17 LVDS18 LVP18 0519 19 1 0820 LVP20 Repeaters Translators Resources fora complete list of resources evaluation modules data sheets and application notes visit interface ti com Literature Number Description Application Notes SLLAO14A Low Voltage Differential Signaling LVDS Design Notes Rev A Literature Number Description Application Notes SCAA059 LVCP23 LVDS122 AC Coupling Between Differential LVPECL LVDS HSTL and CML constant current driver delivers about 3 5 mA to a 100 W load Technical Information e LVDS is based on the TIA EIA 644A standard conceived to provide a general purpose electrical layer specification for drivers and receivers connected point to point or multidrop interface mum Up to 400 Mbps mum Up to 630 Mbps mm gt 1 Gbps mum Clock Distribution Devices See pg 42 for table LVDS250 LVDS22 LVCP22 Crosspoint Switches SLLAO30C Reducing Electromagnetic Interference with LVDS Rev C SCAA062 DC Coupling Between Differential LVPECL LVDS
93. r 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 Supply Bus Fault Operating Voltage Description Protection V Temp Range SN65HVD251 Improved Drop In Replacement for the PCA82C250 and PCA82C251 36 40 to 125 C SN65HVD1050 Improved Drop In Replacement for the TJA1050 with Better ESD 21 to 40 40 to 125 C SN65HVD230 3 3 V CAN Bus Transceiver Standby Mode 7 4 to 16 40 to 85 1 35 SN65HVD231 3 3 V CAN Bus Transceiver Sleep Mode 67 16 4 to 16 40 to 85 1 35 33 SN65HVD232 3 3 V CAN Bus Transceiver Cost Effective 67 16 4 to 16 40 to 85 1 30 SN65HVD233 3 3 V CAN Bus Transceiver Standby Mode Diagnostic Loop back 56 16 36 40 to 125 C 1 50 SN65HVD234 3 3 V CAN Bus Transceiver Standby Mode Sleep Mode 56 16 36 40 to 125 C 1 45 SN65HVD235 3 3 V CAN Bus Transceiver Standby Mode Autobaud Loop back 56 16 36 40 to 125 1 50 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 5320 2802 60 TMS320F2810 TMS320C2811 TMS320LC2403A TMS320LF2407A TMS320F28016 5320 2806 TMS320C2810 TMS320F2812 TMS320LF2406A TMS320F2801 TMS320C2802 ARM Microprocessor
94. r device 6 50 5 411 04 4 33 up to 400 80 IEEE 1394 4 cable transceiver arbiter 6 50 5 411 06 6 33 up to 400 100 IEEE 1394a 6 port cable transceiver arbiter 6 40 TSB81BA3D 3 18 33 up to 800 80 High performance 13946 800 3 port cable transceiver arbiter 5 55 Suggested resale price U S dollars in quantities of 1 000 Texas Instruments 40 2006 Interface Selection Guide 38 1394 FireWire IEEE 13946 3 Port Cable Transceiver Arbiter TSB81BA3D Get samples datasheets and app reports at www ti com sc device TSB81BA3D Key Features Compliant with IEEE 1394b 2002 IEEE 1394a 2000 and 1394 1995 standards 3 Bilingual 1394 Ports 1394b Beta Mode at s400 and s800 1394 Data Strobe DS Mode at 100 s200 and s400 e 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 LCLK LREO CTLO Link Interface 1 0 01 02 03 04 05 D6 D7 RESETz LKON DS2 BMODE PD PCO PC1 PC2 SE SM 050 051 5 TESTW EE m Applications Storage devices Consumer electronics 1394 PC ports Received Data 1 Arbitration and Control State Machine Logic Voltage Regulator TSB81BA3D block diagram Decoder Retimer Transmit Bias Voltage and Current Gener
95. rence clock buffers for downstream ports The 03130 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 PCI Express fan out switch with x1 upstream port and three x1 downstream ports Fully compliant with Express Base Specification Rev 1 1 Cut through architecture Built in Adaptive Equalizer in each of the four ports e Wake event and Beacon support Support for D1 D2 D3hot and D3cold Active State Power Management ASPM e Uses both LOs and L1 Low power PCI Express transmitter mode pre emphasis disabled Integrated AUX Power Switch drains VAUX power only when main power is off Integrated Hot Plug Support Integrated REFCLK Buffers for Switch Downstream Ports e Advanced Error Reporting to assist with System Debug Tools 3 3V Multifunction 1 0 pins e g for Hot Plug status and control General Purpose 1 05 Listed in PCI SIG Compliance List Target Market The primary purpose of the 03130 as a fan out device is efficiently expanding the chipset s computing resources to multiple 1 0 ports and enhancing system functionality and flexibility Target applications for the 03130 include PCs servers storage industrial control and backplane 2 5Gbps 2 5Gbps x1 Ex
96. roller Call Voltage Single ended Device Speed V Package Input Description USB Transceivers TUSB1105 Full Low 1 6 3 6 16RTZ 16RGT Yes USB Transceivers Call TUSB1106 Full Low 1 6 3 6 16RTZ 16PW No USB Transceivers Call TUSB2551 Full Low 1 6 3 6 14PW 16RGT No USB Transceivers Call 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 devices from ESD and electrical noise transients evaluation modules data sheets and application notes visit interface ti com Temp Range Literature Number Description Device Description Application Notes USB Transceivers SLLA122 Selection and Specification of Crystals for Texas Instruments SN65220 Single suppressor 40 to 85 0 33 USB 2 0 Devices SN65240 Dual suppressor 40 to 85 0 41 SLLA154 VIDs PIDs and Firmware SN75240 Dual suppressor 010 70 0 38 Design Decisions When Using Suggested resale price in U S dollars in quantities of 1 000 SLLU043 BoA SLLA170B USB Serial Applications Using TUSB3410 5052 and the VCP Software SLLAA276 MSP430 USB Connectivity Using TUSB3410 Interface Selection Guide Texas Instruments 4Q 2006 Design Considerations USB High Power Peripheral Switch With Dual Current Limit LDO TPS2140 41 50 51 The TPS2140 41 50 51 target high power USB peripherals such as ADSL modems The devices
97. s 33V 5V 2 00 25 kV us 33V 5V 2 50 New products are listed in bold red Interface Selection Guide Texas Instruments 40 2006 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 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 are available with ESD protection up to 30 kV 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 Speed and Distance Low noise coupling of differential signaling with twisted pair cabling and wide common mode voltage RS 485 422 Family of Products Quads Triples Duals ALS176B LBC176A HVD1176 Singles ESD 50 gt 15 Half Duplex Transceivers Profibus IEC Transient Voltage Suppression Increased Noise Margin Longer Distances range allows data exchange at signaling rates of up to 50 Mbps or to distances of several kilometers at lower rates 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
98. s with CAN Controllers 3 3 V Supply Voltage TMS470R1A64 TMS470R1A384 TMS470R1A128 TMS470R1B512 TMS470R1A256 TMS320F2808 TMS320F2811 TMS320C2812 TMS470R1B768 5320 2809 TMS320R2811 TMS320R2812 TMS320LC2406A TMS320F2801 100 5320 2802 100 TMS470R1A288 TMS470R1B1M 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 Besides 5 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 The HLP relieves a developer from the burden of
99. ta 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 UTP5 For high speed applications offers 1394b chip set that enable speeds up to 800 Mbps for applications such as video on demand or backing up a RAID array 1394b is backward compatible to 1394a Design Considerations Physical Layer Selection Issues e 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 e Will the end pro
100. te as standard USB peripherals when connected to a standard USB host controller 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 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 requires full backward and forward compatibility for devices and RS232 IrDA Serial to USB Converter TUSB3410 Q cables All three modes offer both asyn 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 Transfer Type e 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 15 All devices must include control transfers for configuration Interrupt transfer is for devices such as mice keyboards and game pads that
101. tion modules data sheets and application notes visit interface ti com Literature Number Description Application Notes SCEA028 22501 in 2eSST and Conventional VME Backplane Applications 5 009 VME Application Clip Technical Information 115 SN74VMEH22501 A are specifically designed for the VMEbus technology The device is an 8 bit universal bus transceiver UBT with two bus transceivers It 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 Highlights e Ability to transmit data on the VMEbus up to 2eSST protocol speed is an improvement over e Incident wave switching allows for higher performance on the VMEbus compared to conventional logic that depends on reflective wave switching Texas Instruments 40 2006 Interface Selection Guide Clock Distribution Circuits Clock Selection by Speed and Signaling Type Signal Type SSTL 2 RSL DDR Rambus MLVD128 MLVD129 LVPECL LVDS MLVDS CML SN65MLVD201 CDC5806 CDC2536 t CDC2582 2586 CDCUAS77 4 CDCU2A877 CDCU877 A CDCUA845 50 55 SUC CDCR61A E CDCR83A 54651 05104 cpc7005 CDCL6010 SN65LVDS105 CDCM7005 SN65LVDS108 757 SN65LVDS109 1503 SNG5LVDS250 SN65CML100 SN65LVDS116 SN65LVDS117 5 CDCV
102. try 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 offers these new devices in the NiPdAu Pb Free finish which eliminates tin whiskers that might compromise long term system reli ability offers the space saving OFN pack age on select devices in addition to its already extensive RS 232 portfolio TS5V330 TS3V330 Analog MUX TVP5146 or 5150A Key Features e No external ESD device needed with these system level ESD ratings 15 human body model HBM 8 kV IEC61000 4 2 contact discharge 15 1 61000 4 2 air gap discharge 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 Video THS8200 Out THS8135 TMS320DM64x McASP Audio DAC TLV320DAC26 Analog Personal video recorder application block diagram Video DAC TS5A23157 13 Applications e The three driver five
103. tual property of TI Reproduction of information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties conditions limitations and notices Reproduction of this information with alteration is an unfair and deceptive business practice TI is not responsible or liable for such altered documentation Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated product or service and is an unfair and deceptive business practice Tl is not responsible or liable for any such statements Following are URLs where you can obtain information on other Texas Instruments products and application solutions Products Applications Amplifiers amplifier ti com Audio www ti com audio Data Converters dataconverter ti com Automotive www ti com automotive DSP dsp ti com Broadband www ti com broadband Interface interface ti com Digital Control www ti com digitalcontrol Logic logic ti com Military www ti com military Power Mgmt power ti com Optical Networking www ti com opticalnetwork Microcontrollers microcontroller ti com Security www ti com security Low Power Wireless www ti com lpw Telephony www ti com telephony Video amp Imaging www ti com video Wireless www ti com wireless Mailing Address Texas Instruments Post Office Box 655303 D
104. with both high drive 100 mA and medium drive 50 mA devices Packaging 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 Competitor 1 5 2 T 5 0 5 0 1 98 08 4 48 08 6 98E 08 Time Texas Instruments 40 2006 Interface Selection Guide Transceiver Logic Plus Selection Guide O SN74GTLP1394 2 Bit LVTTL to GTLP Adjustable Edge Rate Bus Xcvr w Split LVTTL Port Feedback Path and Selectable Polarity 2 09 SN74GTLP1395 Two 1 Bit LVTTL GTLP Adjustable Edge Rate Bus Xcvrs w Split LVTTL Port Feedback Path and Selectable Polarity 2 09 SN74GTLP2033 8 Bit LVTTL GTLP Adjustable Edge Rate Registered Transceiver w Split LVTTL Port and Feedback Path 5 17 SN74GTLP2034 8 Bit LVTTL GTLP Adjustable Edge Rate Registered Transceiver w Split LVTTL Port and Feedback Path bm SN74GTLP21395 Two 1 Bit LVTTL GTLP Adjustable Edge Rate Bus Xcvrs w Split LVTTL Port Feedback Path and Selectable Polarity 2 09 SN74GTLP22033 8 Bit LVTTL GTLP Adjustable Edge Rate Registered Transceiver w Split LVTTL Port and Feedback Path 5 17 SN74GTLP22034 8 Bit LVTTL GTLP Adjustable Edge Rate Registered Transceiver with Split LVTTL Port and Feedback Path 5 17 SN74GTLP817 GTLP to LVTTL 1 to 6 Fanout Driver 1595 SN74GTLPH1612 18 Bit LVTTL to GTLP Adjustable Edge Rate Universal Bus Transceiver 5 2
105. y in military industrial and aerospace applications Clock Distribution Circuits p 42 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 Texas Instruments 40 2006 Interface Selection Guide LVDS xECL CML Design Considerations Signaling Rate offers repeaters transla tors and crosspoint switches with signaling rates up to 4 0 Gbps 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 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 Skew Excessive skew the time delta between the actual and expected arrival LVDS Family of Products 16 Channels 10 Channels 8 Channels Quads Duals Singles 1705387 1708389 1708047 1708381 LVDS3487 LVDS391 LVDS9638 LVDS1 Transmitters 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 consum

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