DLA DSCC-VID-V62 05604 REV C-2010 MICROCIRCUIT DIGITAL-LINEAR 3 3 V RS-485 TRANSCEIVER MONOLITHIC SILICON.pdf

1、 REVISIONSLTR DESCRIPTION DATE APPROVEDA Under paragraph 6.3, delete CAGE 01295 as a source of supply for the 02XA device. - ro 05-06-17 R. MONNIN B Correct lead finishes on last page. Update boilerplate. - CFS 05-12-02 Thomas M. Hess C Add device type 04. Make a change to the symbol “c” min dimensi

2、on from 0.007 inch (0.17 mm) to 0.005 inch (0.13 mm). - ro 10-01-19 C. SAFFLE Prepared in accordance with ASME Y14.24 Vendor item drawing REV PAGE REV C C C C C C C C PAGE 18 19 20 21 22 23 24 25 REV STATUS OF PAGES REV C C C C C C C C C C C C C C C C C PAGE 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

3、 PMIC N/A PREPARED BY RICK OFFICER DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO 43218-3990 Original date of drawing YY MM DD CHECKED BY TOM HESS TITLE MICROCIRCUIT, DIGITAL-LINEAR, 3.3 V RS-485 TRANSCEIVER, MONOLITHIC SILICON 05-02-10 APPROVED BY RAYMOND MONNIN SIZE A CODE IDENT. NO. 16236 DWG NO.

4、 V62/05604 REV C PAGE 1 OF 25 AMSC N/A 5962-V001-10 .Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 16236 DWG NO. V62/05604 REV C PAGE 2 1. SCOPE 1.1 Scope. This drawing documents

5、the general requirements of a high performance 3.3 V RS-485 transceiver microcircuit, with device types 01 and 02 having a operating temperature range of -40C to +125C, device type 03 having a operating temperature range of -40C to +85C, and device type 04 having a operating temperature range of -55

6、C to +125C. 1.2 Vendor Item Drawing Administrative Control Number. The manufacturers PIN is the item of identification. The vendor item drawing establishes an administrative control number for identifying the item on the engineering documentation: V62/05604 - 01 X E Drawing Device type Case outline

7、Lead finish number (See 1.2.1) (See 1.2.2) (See 1.2.3) 1.2.1 Device type(s). Device type Generic Circuit function Signaling rate 01 SN65HVD10-EP 3.3 V RS-485 transceiver 25 Mbps 02 SN65HVD11-EP 3.3 V RS-485 transceiver 10 Mbps 03 SN65HVD12-EP 3.3 V RS-485 transceiver 1 Mbps 04 SN65HVD10-EP 3.3 V RS-

8、485 transceiver 25 Mbps 1.2.2 Case outline(s). The case outlines are as specified herein. Outline letter Number of pins JEDEC PUB 95 Package style X 8 MS-012 AA Plastic small outline 1.2.3 Lead finishes. The lead finishes are as specified below or other lead finishes as provided by the device manufa

9、cturer: Finish designator Material A Hot solder dip B Tin-lead plateC Gold plateD PalladiumE Gold flash palladium Z Other Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 16236 DWG N

10、O. V62/05604 REV C PAGE 3 1.3 Absolute maximum ratings. 1/ 2/ Supply voltage range (VCC) -0.3 V to 6 V Voltage range at A or B -9 V to 14 V Input voltage range at D, DE, R, or RE . -0.5 V to VCC+0.5 V Voltage input range, transient pulse, A and B through 100 (see figure 15) -50 V to 50 V Electrostat

11、ic discharge (ESD): Human body model: 3/ A, B, and GND 16 kV All pins 4 kV Charged device model: 4/ All pins charge 1 kV Continuous total power dissipation . See dissipation rating table Junction temperature (TJ) 170C Storage temperature range (TSTG) . -65C to +150C Lead temperature 1.6 mm (1/16 inc

12、h) from case for 10 seconds . 260C Thermal resistance, junction-to-ambient (JA) . 5/ 1.4 Recommended operating conditions. 6/ Supply voltage range (VCC) 3 V minimum to 3.6 V maximum Voltage at any bus terminal (separately or common mode) VIor VIC-7 V minimum to 12 V maximum 7/ High level input volta

13、ge (VIH) at D, DE, RE pins . 2 V minimum to VCCmaximum Low level input voltage (VIL) at D, DE, RE pins 0 V minimum to 0.8 V maximum Differential input voltage (VID) (see figure 11) -12 V minimum to 12 V maximum High level output current (IOH): Driver . -60 mA minimum Receiver . -8 mA minimum Low lev

14、el output current (IOL): Driver . 60 mA maximum Receiver . 8 mA maximum Differential load resistance (RL) . 54 minimum Differential load capacitance (CL) 50 pF nominal Signaling rate Device types 01 and 04 . 25 Mbps maximum Device type 02 . 10 Mbps maximum Device type 03 . 1 Mbps maximum Junction te

15、mperature (TJ) 145C maximum 5/ 1/ Stresses beyond those listed under “absolute maximum rating” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditio

16、ns” is not implied. 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/ Teste

17、d in accordance with JEDEC standard 22, test method C101. 5/ See thermal characteristics section in 1.5. 6/ Use of this product beyond the manufacturers design rules or stated parameters is done at the users risk. The manufacturer and/or distributor maintain no responsibility or liability for produc

18、t used beyond the stated limits. 7/ The algebraic convention, in which the least positive (most negative) limit is designated as minimum in this data sheet. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHI

19、O SIZE A CODE IDENT NO. 16236 DWG NO. V62/05604 REV C PAGE 4 1.5 Thermal characteristics. Junction-to-ambient thermal resistance (JA) (high K board, no airflow) 121C/W typical 8/ 9/ Junction-to-board thermal resistance (JB) (high K board) 67C/W typical Junction-to-case thermal resistance (JC) . 41C/

20、W typical Device power dissipation (PD): (RL= 60 , CL= 50 pF, DE at VCCRE at 0 V, input to D a 50% duty cycle square wave at indicated signaling rate) Device types 01 and 04 (25 Mbps) . 233 mW maximum Device type 02 (10 Mbps) . 176 mW maximum Device type 03 (500 kbps) 161 mW maximum Ambient air temp

21、erature (TA) ( high K board, no airflow ) . -40C to +116C Thermal shutdown junction temperature (TJSD) . 165C typical Package dissipation ratings table. Package TA 25C Derating factor 1/ TA= 70C TA= 85C TA= 125C power rating above TA= 25C power rating power rating power rating X 2/ 597 mW 4.97 mW/C

22、373 mV 298 mW 100 mW X 3/ 990 mW 8.26 mW/C 620 mW 496 mW 165 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 t

23、hermal metric definitions of EIA/JESD51-7. _ 8/ The intent of JAspecification is solely for thermal performance comparison of one package to another in a standardized environment. This methodology is not meant to and will not predict the performance of a package in an application specific environmen

24、t. 9/ JESD51-7, high effective thermal conductivity test board for leaded surface mount packages. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 16236 DWG NO. V62/05604 REV C PAGE

25、5 2. APPLICABLE DOCUMENTS JEDEC PUB 95 Registered and Standard Outlines for Semiconductor Devices JESD22-A114 Electrostatic Discharge Sensitivity Testing Human Body Model JESD22-C101 Field Induced Charged Device Model Test Method for Electrostatic Discharge Withstand Thresholds of Microelectronic Co

26、mponents EIA/JEDEC 51-3 Low Effective Thermal Conductivity Test Board for Leaded Surface Mount Packages EIA/JEDEC 51-7 High Effective Thermal Conductivity Test Board for Leaded Surface Mount Packages (Applications for copies should be addressed to the Electronic Industries Alliance, 2500 Wilson Boul

27、evard, Arlington, VA 22201-3834 or online at http:/www.jedec.org) 3. REQUIREMENTS 3.1 Marking. Parts shall be permanently and legibly marked with the manufacturers part number as shown in 6.3 herein and as follows: A. Manufacturers name, CAGE code, or logo B. Pin 1 identifier C. ESDS identification

28、(optional) 3.2 Unit container. The unit container shall be marked with the manufacturers part number and with items A and C (if applicable) above. 3.3 Electrical characteristics. The maximum and recommended operating conditions and electrical performance characteristics are as specified in 1.3, 1.4,

29、 1.5, and table I herein. 3.4 Design, construction, and physical dimension. The design, construction, and physical dimensions are as specified herein. 3.5 Diagrams. 3.5.1 Case outline. The case outline shall be as shown in 1.2.2 and figure 1. 3.5.2 Terminal connections. The terminal connections shal

30、l be as shown in figure 2. 3.5.3 Truth tables. The truth tables shall be as shown in figure 3. 3.5.4 Logic diagram. The logic diagram shall be as shown in figure 4. 3.5.5 Timing waveforms and test circuits. The timing waveforms and test circuits shall be as shown in figures 5 through 15. Provided by

31、 IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 16236 DWG NO. V62/05604 REV C PAGE 6 TABLE I. Electrical performance characteristics. 1/ Test Symbol ConditionsTemperature, TADevice type Limits

32、 Unit Min Max Driver electrical characteristics section. Input clamp voltage VIKII= -18 mA -40C to +125C 01,02 -1.5 V -40C to +85C 03 -1.5 -55C to +125C 04 -1.5 Differential output 2/ voltage |VOD| IO= 0 -40C to +125C 01,02 2 VCCV -40C to +85C 03 2 VCC-55C to +125C 04 2 VCCRL= 54 , see figure 5 -40C

33、 to +125C 01,02 1.5 -40C to +85C 03 1.5 -55C to +125C 04 1.5 Vtest= -7 V to 12 V, see figure 6 -40C to +125C 01,02 1.5 -40C to +85C 03 1.5 -55C to +125C 04 1.5 Change in magnitude of differential output voltage |VOD| See figures 5 and 6 -40C to +125C 01,02 -0.2 0.2 V -40C to +85C 03 -0.2 0.2 -55C to

34、 +125C 04 -0.2 0.2 Peak-to-peak common mode output voltage VOC(PP) See figure 7 3/ +25C 01,02,03,04 400 typical mV Steady state common mode output voltage VOC(SS) See figure 7 -40C to +125C 01,02 1.4 2.5 V -40C to +85C 03 1.4 2.5 -55C to +125C 04 1.4 2.5 Change in steady state common mode output vol

35、tage VOC(SS) See figure 7 -40C to +125C 01,02 -0.05 0.05 V -40C to +85C 03 -0.05 0.05 -55C to +125C 04 -0.05 0.05 See footnotes at end of Driver electrical characteristics section. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER

36、, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 16236 DWG NO. V62/05604 REV C PAGE 7 TABLE I. Electrical performance characteristics Continued. 1/ Test Symbol ConditionsTemperature, TADevice type Limits Unit Min Max Driver electrical characteristics section - continued. High impedance output current

37、 IOZSee receiver input currents -40C to +125C 01,02 -40C to +85C 03 -55C to +125C 04 Input current IID pin -40C to +125C 01,02 -100 0 A -40C to +85C 03 -100 0 -55C to +125C 04 -100 0 DE pin -40C to +125C 01,02 0 100 -40C to +85C 03 0 100 -55C to +125C 04 0 100 Short circuit output current IOS-7 V VO

38、 12 V -40C to +125C 01,02 -250 250 mA -40C to +85C 03 -250 250 -55C to +125C 04 -250 250 Differential output 3/ capacitance C(OD) VOD= 0.4 sin ( 4E6t ) + 0.5 V, DE at 0 V +25C 01,02,03,04 16 typical pF Supply current ICCRE at VCC, D and DE at VCC, no load, receiver disabled and driver enabled -40C t

39、o +125C 01,02 15.5 mA -40C to +85C 03 15.5 -55C to +125C 04 15.5 RE at VCC, D at VCC, DE at 0 V, no load, receiver disabled and driver disabled (standby) -40C to +125C 01,02 5 A -40C to +85C 03 5 -55C to +125C 04 5 RE at 0 V, D and DE at VCC, no load, receiver enabled and driver enabled -40C to +125

40、C 01,02 15.5 mA -40C to +85C 03 15.5 -55C to +125C 04 15.5 1/ Testing and other quality control techniques are used to the extent deemed necessary to assure product performance over the specified temperature range. Product may not necessarily be tested across the full temperature range and all param

41、eters may not necessarily be tested. In the absence of specific parametric testing, product performance is assured by characterization and/or design. 2/ For TA 85C, VCCis 5 %. 3/ All typical values are at 25C and with a 3.3 V supply. Provided by IHSNot for ResaleNo reproduction or networking permitt

42、ed without license from IHS-,-,-DEFENSE SUPPLY CENTER, COLUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 16236 DWG NO. V62/05604 REV C PAGE 8 TABLE I. Electrical performance characteristics Continued. 1/ Test Symbol ConditionsTemperature, TADevice type Limits Unit Min Max Driver switching characteristic

43、s section. Propagation delay time, low to high level output tPLHRL= 54 , CL= 50 pF, -40C to +125C 01 5 16 ns see figure 8 -40C to +125C 02 18 40 -40C to +85C 03 135 330 -55C to +125C 04 5 16 Propagation delay time, high to low level output tPHLRL= 54 , CL= 50 pF, -40C to +125C 01 5 16 ns see figure

44、8 -40C to +125C 02 18 40 -40C to +85C 03 135 330 -55C to +125C 04 5 16 Differential output signal rise time trRL= 54 , CL= 50 pF, -40C to +125C 01 3 11.5 ns see figure 8 -40C to +125C 02 10 30 -40C to +85C 03 100 330 -55C to +125C 04 3 11.5 Differential output signal fall time trRL= 54 , CL= 50 pF,

45、-40C to +125C 01 3 11.5 ns see figure 8 -40C to +125C 02 10 30 -40C to +85C 03 100 330 -55C to +125C 04 3 11.5 See footnotes at end of Driver switching characteristics section. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-DEFENSE SUPPLY CENTER, CO

46、LUMBUS COLUMBUS, OHIO SIZE A CODE IDENT NO. 16236 DWG NO. V62/05604 REV C PAGE 9 TABLE I. Electrical performance characteristics Continued. 1/ Test Symbol ConditionsTemperature, TA Device type Limits Unit Min Max Driver switching characteristics section continued. Pulse skew tsk(p) RL= 54 , CL= 50 p

47、F, -40C to +125C 01 1.5 ns ( tPHL tPLH) see figure 8 -40C to +125C 02 2.5 -40C to +85C 03 9 -55C to +125C 04 1.5 Part to part skew 2/ tsk(pp) -40C to +125C 01 6 ns -40C to +125C 02 11 -40C to +85C 03 100 -55C to +125C 04 6 Propagation delay time, high impedance to high level output tPZHRL= 110 , RE at 0 V, -40C to +125C 01 33 ns see figure 9 -40C to +125C 02 55 -40C to +85C 03 320 -55C to +125C 04 33 Propagation delay time, high level to high impedance output tPHZRL= 110 , RE at 0 V, -40C to +125C 01 26 ns see figure 9 -4