元器件交易网www.cecb2b.comwww.ti.com SN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002HIGH OUTPUT RS-485 TRANSCEIVERSFEATURESDMinimum Differential Output Voltage of 2.5 VDDDDDDDDInto a 54-Ω LoadOpen-Circuit and Idle-Bus Failsafe Receiver1/8th Unit-Load Option Available (Up to 256Nodes on the Bus)Bus-Pin ESD Protection Exceeds 16 kV HBMDriver Output Slew Rate Control OptionsElectrically Compatible With ANSITIA/EIA-485-A StandardLow-Current Standby Mode...1 µA TypicalGlitch-Free Power-Up and Power-DownProtection for Hot-Plugging ApplicationsPin Compatible With Industry StandardSN75176DESCRIPTIONThe SN65HVD05, SN75HVD05, SN65HVD06,SN75HVD06, SN65HVD07, and SN75HVD07 combinea 3-state differential line driver and differential linereceiver. They are designed for balanced datatransmission and interoperate with ANSITIA/EIA-485-A and ISO 8482E standard-compliantdevices. The driver is designed to provide a differentialoutput voltage greater than that required by thesestandards for increased noise margin. The drivers andreceivers have active-high and active-low enablesrespectively, which can be externally connectedtogether to function as direction control.The driver differential outputs and receiver differentialinputs connect internally to form a differential input/output (I/O) bus port that is designed to offer minimumloading to the bus whenever the driver is disabled or notpowered. These devices feature wide positive andnegative common-mode voltage ranges, making themsuitable for party-line applications.D OR P PACKAGE(TOP VIEW)APPLICATIONSDData Transmission Over Long or Lossy LinesDDDDDDor Electrically Noisy EnvironmentsProfibus Line InterfaceIndustrial Process Control NetworksPoint-of-Sale (POS) NetworksElectric Utility MeteringBuilding AutomationDigital Motor ControlRREDED12348765VCCBAGNDDIFFERENTIAL OUTPUT VOLTAGEvsDIFFERENTIAL OUTPUT CURRENT5VO– Differential Output Voltage – V4.543.532.521.510.50020406080100120IOD – Differential Output Current – mA60 Ω LoadLineTA = 25°CDE at VCCD at VCCVCC = 5 V30 Ω LoadLineLOGIC DIAGRAM(POSITIVE LOGIC)RRE12DED3647ABPlease be aware that an important notice concerning availability, standard warranty, and use in critical applications of TexasInstrumentssemiconductor products and disclaimers thereto appears at the end of this data sheet.PRODUCTION DATA information is current as of publication date. Productsconform to specifications per the terms of Texas Instruments standard warranty.Production processing does not necessarily include testing of all parameters.Copyright 2002, Texas Instruments Incorporated元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comThese devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam duringstorage or handling to prevent electrostatic damage to the MOS gates.ORDERING INFORMATION(1)MARKED ASSIGNALINGRATEUNITLOADDRIVEROUTPUT SLOPECONTROLNoYesYesNoYesYes–0°C to 70°C–40°C to 85°CTAPART NUMBER(2)PLASTICDUAL-IN-LINEPACKAGE(PDIP)65HVD0565HVD0665HVD0775HVD0575HVD0675HVD07SMALL OUTLINEIC (SOIC)PACKAGEVP05VP06VP07VN05VN06VN0740 Mbps10 Mbps1 Mbps40 Mbps10 Mbps1 Mbps1/21/81/81/21/81/8SN65HVD05DSN65HVD06DSN65HVD07DSN75HVD05DSN75HVD06DSN75HVD07DSN65HVD05PSN65HVD06PSN65HVD07PSN75HVD05PSN75HVD06PSN75HVD07P(1)For the most current specification and package information, refer to our web site at www.ti.com.(2)The D package is available taped and reeled. Add an R suffix to the device type (i.e., SN65HVD05DR).PACKAGE DISSIPATION RATINGS (SEE FIGURES 12 & 13)PACKAGED(2)D(3)PTA≤ 25°CPOWER RATING710 mW1282 mW1000 mWDERATING FACTOR(1)ABOVE TA = 25°C5.7 mW/°C10.3 mW/°C8.0 mW/°CTA = 70°CPOWER RATING455 mW821 mW640 mWTA = 85°C POWERRATING369 mW667 mW520 mW(1)This is the inverse of the junction-to-ambient thermal resistance when board-mounted and with no air flow.(2)Tested in accordance with the Low-K thermal metric definitions of EIA/JESD51-3(3)Tested in accordance with the High-K thermal metric definitions of EIA/JESD51-7ABSOLUTE MAXIMUM RATINGSover operating free-air temperature range unless otherwise noted(1) (2)SN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07Supply voltage range, VCCVoltage range at A or BInput voltage range at D, DE, R or REVoltage input range, transient pulse, A and B, through 100 Ω (see Figure 11)Electrostatic dischargeElectrostatic dischargeHuman body modelHbddl(3)Charged-device model(4)Continuous total power dissipationA, B, and GNDAll pinsAll pins–0.3 V to 6 V–9 V to 14 V–0.5 V to VCC + 0.5 V–50 V to 50 V16 kV4 kV1 kVSee Dissipation Rating TableStorage temperature range, Tstg–65°C to 150°CLead temperature 1,6 mm (1/16 inch) from case for 10 seconds260°C(1)Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, andfunctional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is notimplied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)All voltage values, except differential I/O bus voltages, are with respect to network ground terminal.(3)Tested in accordance with JEDEC Standard 22, Test Method A114-A.(4)Tested in accordance with JEDEC Standard 22, Test Method C101.2元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002RECOMMENDED OPERATING CONDITIONSMINSupply voltage, VCCVoltage at any bus terminal (separately or common mode) VI or VICHigh-level input voltage, VIHLow-level input voltage, VILDifferential input voltage, VID (see Figure 7)High-level output current, IHighleveloutputcurrentIOHLow-level output current, ILowleveloutputcurrentIOLDriverReceiverDriverReceiverSN65HVD05SN65HVD06Operating free-air temperature, TOperatingfreeairtemperatureTASN65HVD07SN75HVD05SN75HVD06SN75HVD07(1)The algebraic convention, in which the least positive (most negative) limit is designated as minimum is used in this data sheet.070°C–4085°CD, DE, RED, DE, RE–12–100–810084.5–7(1)20.812NOMMAXUNIT5.512VVVVVmAmADRIVER ELECTRICAL CHARACTERISTICS PARAMETERVIK|VOD|∆|VOD|VOC(SS)∆VOC(SS)Input clamp voltageDifferential output voltageDifferential outut voltageChange in magnitude of differentialoutput voltageSteady-state common-mode outputvoltageChange in steady-statecommon-mode output voltagePeak-to-peak Pktkcommon-modeoutputvoltagemode output voltageHVD05HVD06HVD07II = –18 mANo Loadover operating free-air temperature range unless otherwise noted(1)TEST CONDITIONSMINTYP(1)–1.5VCC2.52.2–0.22.2SeeFigure3See Figure 3–0.1600See Figure 3See receiver input currents–1000–7 V≤ VO≤ 12 VVID = 0.4 sin (4E6πt) + 0.5 V, DE at 0 VRE at VCC, Receiver disabled andD & DE at VCC, No loaddriver enabledReceiver disabled andRE at VCC, D at VCCdriver disabledDE at 0 V, No load(standby)RE at 0 V, D & DE at VCC, No load(1)All typical values are at 25°C and with a 5-V supply.Receiver enabled anddriver enabled–25016919155150100250µAmApFmAµAmA500900mV0.1V0.23.3VVVMAXUNITVRL = 54 Ω, See Figure 1Vtest = –7 V to 12 V, See Figure 2See Figure 1 and Figure 2VOC(PP)IOZIIIOSC(diff)High-impedance output currentInputcurrentInput currentShort-circuit output currentDifferential output capacitanceDDEICCSupply current3元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comDRIVER SWITCHING CHARACTERISTICS over operating free-air temperature range unless otherwise notedPARAMETERHVD05tPLHPropagation delay time, low-to-high-level outputProagation delay time, lowtohighlevel oututHVD06HVD07HVD05tPHLPropagation delay time, high-to-low-level outputProagation delay time, hightolowlevel oututHVD06HVD07HVD05trDifferential output signal rise timeDifferential outut signal rise timeHVD06HVD07HVD05tfDifferential output signal fall timeDifferential outut signal fall timeHVD06HVD07HVD05tsk(sk(p))Pulse skew (|tPHL – tPLH|)HVD06HVD07HVD05tsk(sk(pp))(2)Part-to-part skewParttoart skewHVD06HVD07HVD05tPZH1Propagation delay time, high-impedance-to-high-level outputProagation delay time, highimedancetohighlevel oututHVD06HVD07HVD05tPHZPropagation delay time, high-level-to-high-impedance outputProagation delay time, highleveltohighimedance oututHVD06HVD07HVD05tPZL1Propagation delay time, high-impedance-to-low-level outputProagation delay time, highimedancetolowlevel oututHVD06HVD07HVD05tPLZPropagation delay time, low-level-to-high-impedance outputProagation delay time, lowleveltohighimedance oututHVD06HVD07tPZH2Propagation delay time, standby-to-high-level outputRL = 110 Ω,RE at 3 V, See Figure 5RL = 110 Ω,RE at 3 V, See Figure 6RE at 0 V,RL = 110 110Ω,ΩSee Figure 6RE at 0 V,RL = 110 110Ω,ΩSee Figure 5RL = 54 =54Ω,CL 50 F, = 50 pF,See Figure 42.7181502.718150TESTCONDITIONSMINTYP(1)6.5272506.5272503.6283003.628300MAX1140400114040065545065545022.5103.51410025452502560250154520014905506µsnsnsnsnsnsnsnsnsnsnsUNITtPZL2Propagation delay time, standby-to-low-level output6µs(1)All typical values are at 25°C and with a 5-V supply.(2)tsk(pp) is the magnitude of the difference in propagation delay times between any specified terminals of two devices when both devices operatewith the same supply voltages, at the same temperature, and have identical packages and test circuits.4元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002RECEIVER ELECTRICAL CHARACTERISTICS over operating free-air temperature range unless otherwise notedPARAMETERVIT+VIT–VhysVIKVOHVOLIOZPositive-going input thresholdvoltageNegative-going input thresholdvoltageHysteresis voltage (VIT+ – VIT–)Enable-input clamp voltageHigh-level output voltageLow-level output voltageHigh-impedance-state outputcurrentIO = –8 mAIO = 8 mA–0.235II = –18 mAVID = 200 mV,VID = –200 mV,VO = 0 or VCC–1.5IOH = –8 mA,IOL = 8 mA,RE at VCCVA or VB = 12 VVA or VB = 12 V,VA or VB = –7 VVA or VB = –7 V,VA or VB = 12 VVA or VB = 12 V,VA or VB = –7 VVA or VB = –7 V,VCC = 0 V–0.4VCC = 0 VVCC = 0 V–0.1VCC = 0 V–0.05–60–60–0.4See Figure 7See Figure 7–10.230.3–0.13–0.150.060.8–0.05–0.03–26.4–27.416510µAµApFmA0.10.13mA40.410.50.5mATEST CONDITIONSMINTYP(1)MAX–0.01UNITVVmVVVVµAHVD05IIBusinputcurrentBus input currentHVD06,HVD07IIHIILC(diff)High-level input current, RELow-level input current, REDifferential input capacitanceOther inutOther inputat 0 VOther inutOther inputat 0 VVIH = 2 VVIL = 0.8 VVI = 0.4 sin (4E6πt) + 0.5 V,DE at 0 VRE at 0 V,D & DE at 0 V,Receiver enabled and driver disabledNo loadRE at VCC,DE at 0 V,D at VCC,No loadRE at 0 V,D & DE at VCC,No loadReceiver disabled and driver disabled(standby)ICCSupply current15µAReceiver enabled and driver enabled915mA(1)All typical values are at 25°C and with a 5-V supply.5元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comRECEIVER SWITCHING CHARACTERISTICS over operating free-air temperature range unless otherwise notedPARAMETERtPLHtPHLtPLHtPHLPropagation delay time, low-to-high-level output 1/2 ULPropagation delay time, high-to-low-level output 1/2 ULPropagationdelaytimelowtohighleveloutput1/8ULPropagation delay time, low-to-high-level output 1/8 ULPropagationdelaytimehightolowleveloutput1/8ULPropagation delay time, high-to-low-level output 1/8 ULHVD05HVD05HVD06HVD07HVD06HVD07HVD05tsk(sk(p))Pulse skew (|tPHL – tPLH|)HVD06HVD07HVD05(2))tsk(sk(pp))(trtftPZH1tPZL1tPHZtPLZPart-to-part skewParttoart skewOutput signal rise timeOutput signal fall timeOutput enable time to high levelOutput enable time to low levelOutput disable time from high levelOutput disable time from low levelCL = 15 pF, DEat3VDE at 3 V,See Figure 9HVD06HVD07CL = 15 = 15 pF,F,See Figure 822VID = =–1.5 V to 1.5 V,1.5Vto1.5V,CL = 15 pF, 15 F,See Figure 8TEST CONDITIONSMINTYP(1)14.614.655555555MAX25257070707024.54.56.514143310101515nsnsnsnsUNITnsnsnsnstPZH2Propagation delay time, standby-to-high-level output6CL = 15 = 15 pFF, DE at 0,µsSee Figure 10tPZL2Propagation delay time, standby-to-low-level output6(1)All typical values are at 25°C and with a 5-V supply.(2)tsk(pp) is the magnitude of the difference in propagation delay times between any specified terminals of two devices when both devices operatewith the same supply voltages, at the same temperature, and have identical packages and test circuits.6元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002PARAMETER MEASUREMENT INFORMATIONVCCII0 or 3 VBVIVOBVOA375 Ω ±1%IOBDEAIOAVOD54 Ω ±1%0 or 3 VDVCCDEAVODB60 Ω ±1%+_–7 V < V(test) < 12 V375 Ω ±1%Figure 1. Driver VOD Test Circuitand Voltage and Current DefinitionsVCCDEInputDAB27 Ω ± 1%CL = 50 pF ±20%VOCFigure 2. Driver VOD With Common-ModeLoading Test CircuitAVAVBVOC(PP)VOC∆VOC(SS)27 Ω ± 1%BCL Includes Fixture andInstrumentation CapacitanceInput: PRR = 500 kHz, 50% Duty Cycle,tr<6ns, tf<6ns, ZO = 50 ΩFigure 3. Test Circuit and Definitions for the Driver Common-Mode Output VoltageVCCDEDInputGeneratorVI50 ΩABCL = 50 pF ±20%VODRL = 54 Ω± 1%CL Includes Fixtureand InstrumentationCapacitanceVItPLHVOD0 V10%trGenerator: PRR = 500 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω3 V1.5 VtPHL90%90%1.5 V0 V≈2 V0 V10%≈–2 VtfFigure 4. Driver Switching Test Circuit and Voltage Waveforms7元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comPARAMETER MEASUREMENT INFORMATIONA3 VDDEInputGeneratorVIBCL = 50 pF ±20%RL = 110 Ω ± 1%tPZH(1 & 2)VO2.3 VtPHZGenerator: PRR = 100 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω≈ 0 V0.5 V3 VS1VOVI1.5 V1.5 V0 VVOH50 ΩCL Includes Fixtureand InstrumentationCapacitanceFigure 5. Driver High-Level Enable and Disable Time Test Circuit and Voltage WaveformsVCCRL = 110 Ω ± 1%VODEInputGeneratorVI50 ΩBCL = 50 pF ±20%CL Includes Fixtureand InstrumentationCapacitanceVO2.3 VVOL≈3 VVItPZL(1 & 2)1.5 VtPLZVCC0.5 V1.5 V0 VA3 VDS1Generator: PRR = 100 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 ΩFigure 6. Driver Low-Level Output Enable and Disable Time Test Circuit and Voltage WaveformsIAVAVA + VB2VICVBVIDIBARBVOIOFigure 7. Receiver Voltage and Current Definitions8元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002PARAMETER MEASUREMENT INFORMATIONAInputGeneratorRVI50 Ω1.5 V0 VBREVOVICL = 15 pF ±20%CL Includes Fixtureand InstrumentationCapacitancetPLHVO1.5 V10%tr1.5 VtPHL90%90%1.5 V0 VVOH1.5 V10%VOL3 VGenerator: PRR = 100 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 ΩtfFigure 8. Receiver Switching Test Circuit and Voltage WaveformsA0 V or 3 VGenerator: PRR = 100 kHz,50% Duty Cycle,tr <6 ns, tf <6 ns, Zo = 50 ΩInputGeneratorVIDBDERE50 Ω3 VVCCAS1B1 kΩ ± 1%VORCL = 15 pF ±20%CL Includes Fixture andInstrumentation Capacitance3 VVI1.5 V1.5 V0 VtPZH(1)tPHZVOH –0.5 VVO1.5 V≈ 0 VtPZL(1)tPLZVCCVO1.5 VVOL +0.5 VD at 0 VS1 to AVOHD at 3 VS1 to BVOLFigure 9. Receiver Enable and Disable Time Test Circuit and Voltage Waveforms With Drivers Enabled9元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comPARAMETER MEASUREMENT INFORMATIONGenerator: PRR = 100 kHz,50% Duty Cycle,tr <6 ns, tf <6 ns, Zo = 50 ΩInputGeneratorVI0 VDERE50 ΩVCCAS1B1 kΩ ± 1%AVORBCL = 15 pF ±20%CL Includes Fixture andInstrumentation Capacitance0 V or 1.5 V1.5 V or 0 V3 VVI1.5 V0 VtPZH(2)A at 1.5 VB at 0 VS1 to BVOHVO1.5 VGNDtPZL(2)A at 0 VB at 1.5 VS1 to AVCCVO1.5 VVOLFigure 10. Receiver Enable Time From Standby (Driver Disabled)0 V or 3 VABPulse Generator,15 µs Duration,1% Duty Cycletr, tf ≤ 100 ns100 Ω± 1%+_DE3 V or 0 VNOTE:This test is conducted to test survivability only. Data stability at the R output is not specified.DRERFigure 11. Test Circuit, Transient Over Voltage Test10元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002Function TablesDRIVERINPUTDHLXOpenXENABLEDEHHLHOpenOUTPUTSAHLZHZBLHZLZRECEIVERDIFFERENTIAL INPUTSVID = VA – VBVID ≤ –0.2 V–0.2 V < VID < –0.01 V–0.01 V ≤ VIDXOpen CircuitShort CircuitXENABLERELLLHLLOpenOUTPUTRL?HZHHZH = high level; L = low level; Z = high impedance; X = irrelevant;? = indeterminate11元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comEQUIVALENT INPUT AND OUTPUT SCHEMATIC DIAGRAMSD and RE InputsVCC100 kΩInput1 kΩ9 VInput1 kΩ100 kΩ9 VDE InputVCCA InputVCC16 V100 kΩInput16 VR2R1Input16 VB InputVCCR1R3R3100 kΩ16 VR2A and B OutputsVCC16 VVCCR Output5 ΩOutput16 VOutput9 VSN65HVD05SN65HVD06SN65HVD07R1/R29 kΩ36 kΩ36 kΩR345 kΩ180 kΩ180 kΩ12元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002TYPICAL CHARACTERISTICSHVD05HVD06MAXIMUM RECOMMENDED STILL-AIROPERATING TEMPERATUREvsSIGNALING RATE(D – PACKAGE)MAXIMUM RECOMMENDED STILL-AIROPERATING TEMPERATUREvsSIGNALING RATE(D – PACKAGE)Maximum Recommended Still-AirOperating Temperature –TA(°C)Maximum Recommended Still-AirOperating Temperature –TA(°C)8585High K BoardHigh K Board25Low K Board25Low K Board110Signaling Rate – Mbps401Signaling Rate – Mbps10Figure 12HVD05Figure 13HVD06RMS SUPPLY CURRENTvsSIGNALING RATE120110ICC– RMS Supply Current – mA100908070605040304005101520253035400TA = 25°CRE at VCCDE at VCCRL = 54 ΩCL = 50 pFVCC = 5 VICC– RMS Supply Current – mA120RMS SUPPLY CURRENTvsSIGNALING RATETA = 25°CRE at VCCDE at VCCRL = 54 ΩCL = 50 pFVCC = 5 V10080602.557.510Signaling Rate – MbpsSignaling Rate – MbpsFigure 14Figure 1513元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comTYPICAL CHARACTERISTICSHVD07RMS SUPPLY CURRENTvsSIGNALING RATE110100908070605040100TA = 25°CRE at VCCDE at VCCRL = 54 ΩCL = 50 pFVCC = 5 VII– Bus Input Current –µA250200150100500–50–100–150TA = 25°CDE at 0 VVCC = 5 VBUS INPUT CURRENTvsBUS INPUT VOLTAGEICC– RMS Supply Current – mAHVD05HVD06HVD07400700Signaling Rate – kbps1000–200–7–6–5–4–3–2–10123456789101112VI – Bus Input Voltage – VFigure 16DRIVER HIGH-LEVEL OUTPUT CURRENTvsHIGH-LEVEL OUTPUT VOLTAGE0IOH – Driver High-Level Output Current – mAIOL – Driver Low-Level Output Current – mA–20–40–60–80–100–120–140–160TA = 25°CDE at VCCD at VCCVCC = 5 V16014012010080604020000.511.522.533.544.55VO – High-Level Output Voltage – VFigure 17DRIVER LOW-LEVEL OUTPUT CURRENTvsLOW-LEVEL OUTPUT VOLTAGETA = 25°CDE at VCCD at 0 VVCC = 5 V00.511.522.533.544.5VO – Low-Level Output Voltage – V5Figure 18Figure 1914元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002TYPICAL CHARACTERISTICSDIFFERENTIAL OUTPUT VOLTAGEvsFREE-AIR TEMPERATURE43.8VOD– Differential Output Voltage – V3.63.43.232.82.62.42.22–40–15085103560TA – Free-Air Temperature – °C00.6DE at VCCD at VCCVCC = 5 VRL = 54 Ω7060IO– Driver Output Current – mADRIVER OUTPUT CURRENTvsSUPPLY VOLTAGETA = 25°CDE at VCCD at VCCRL = 54 Ω50403020101.21.82.433.64.2VCC – Supply Voltage – V4.85.4Figure 20Figure 21DIFFERENTIAL OUTPUT VOLTAGEvsDIFFERENTIAL OUTPUT CURRENT54.5VO– Differential Output Voltage – V43.532.521.510.50020406080100IOD – Differential Output Current – mA12060 Ω LoadLineTA = 25°CDE at VCCD at VCCVCC = 5 V30 Ω LoadLineFigure 2215元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comAPPLICATION INFORMATIONRTRTDeviceHVD05HVD06HVD07Number of Devices on Bus64256256NOTE:The line should be terminated at both ends with its characteristic impedance (RT = ZO).Stub lengths off the main line should be kept as short as possible.Figure 23. Typical Application Circuit16元器件交易网www.cecb2b.comwww.ti.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002MECHANICAL DATAD (R-PDSO-G**) 8 PINS SHOWN0.050 (1,27)850.020 (0,51)0.014 (0,35)0.010 (0,25)PLASTIC SMALL-OUTLINE PACKAGE0.244 (6,20)0.228 (5,80)0.157 (4,00)0.150 (3,81)0.008 (0,20) NOMGage Plane1A40°– 8°0.044 (1,12)0.016 (0,40)0.010 (0,25)Seating Plane0.069 (1,75) MAX0.010 (0,25)0.004 (0,10)0.004 (0,10)PINS **DIMA MAXA MIN80.197(5,00)0.189(4,80)140.344(8,75)0.337(8,55)160.394(10,00)0.386(9,80)4040047/E 09/01NOTES:A.B.C.D.All linear dimensions are in inches (millimeters).This drawing is subject to change without notice.Body dimensions do not include mold flash or protrusion, not to exceed 0.006 (0,15).Falls within JEDEC MS-01217元器件交易网www.cecb2b.comSN65HVD05, SN65HVD06, SN65HVD07SN75HVD05, SN75HVD06, SN75HVD07SLLS533A – MAY 2002 – REVISED AUGUST 2002www.ti.comMECHANICAL DATAP (R-PDIP-T8)0.400 (10,60)0.355 (9,02)85PLASTIC DUAL-IN-LINE0.260 (6,60)0.240 (6,10)140.070 (1,78) MAX0.325 (8,26)0.300 (7,62)0.015 (0,38)0.200 (5,08) MAXSeating Plane0.125 (3,18) MIN0.010 (0,25) NOMGage Plane0.020 (0,51) MIN0.100 (2,54)0.021 (0,53)0.015 (0,38)0.010 (0,25)M0.430 (10,92)MAX4040082/D 05/98NOTES:A.All linear dimensions are in inches (millimeters).B.This drawing is subject to change without notice.C.Falls within JEDEC MS-00118元器件交易网www.cecb2b.com
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TI warrants performance of its hardware products to the specifications applicable at the time of sale inaccordance with TI’s standard warranty. Testing and other quality control techniques are used to the extent TIdeems necessary to support this warranty. Except where mandated by government requirements, testing of allparameters of each product is not necessarily performed.
TI assumes no liability for applications assistance or customer product design. Customers are responsible fortheir products and applications using TI components. To minimize the risks associated with customer productsand 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 processin which TI products or services are used. Information published by TI regarding third–party products or servicesdoes 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 propertyof the third party, or a license from TI under the patents or other intellectual property of TI.
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