EVAL-RS485HDEBZ

Evaluation Board User Guide UG-543 One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com Evaluation Boards for Full-Duplex and Half-Duplex RS-485 Transceivers in 8-Lead/14-Lead SOIC Packages EVAL-RS485HDEBZ Easy evaluation of half- and full-duplex RS-485 transceivers Board layouts for standard RS-485 SOIC footprints 8-lead, SOIC, half-duplex RS-485 (EVAL-RS485HDEBZ) 8-lead, SOIC, full-duplex RS-485 (EVAL-RS485FD8EBZ) 14-lead, SOIC, full-duplex RS-485 (EVAL-RS485FDEBZ) Power/ground connections through screw terminal blocks Screw terminal blocks for logic I/O and RS-485 signals Jumper selectable enable/disable for RE and DE Test points for measuring all signals Resistors and footprints for termination and biasing networks 11390-001 FEATURES Figure 1. EVAL-RS485FD8EBZ APPLICATIONS Full- and half-duplex RS-485 transceiver evaluation EVALUATION KIT CONTENTS 11390-002 1 EVAL-RS485HDEBZ or 1 EVAL-RS485FD8EBZ or 1 EVAL-RS485FDEBZ (Main device available separately when ordering) GENERAL DESCRIPTION The EVAL-RS485HDEBZ, EVAL-RS485FD8EBZ, and EVAL-RS485FDEBZ allow quick and easy evaluation of RS-485 transceivers with standard SOIC footprints. The evaluation board allows all of the input and output functions to be exercised without the need for external components. Screw terminal blocks provide convenient connections for power and ground, digital I/O, and RS-485 signals. Figure 2. EVAL-RS485FDEBZ 11390-003 The EVAL-RS485HDEBZ evaluation board has a footprint for a half-duplex RS-485 transceiver in an 8-lead SOIC package. The EVAL-RS485FD8EBZ evaluation board has a footprint for a full-duplex RS-485 transceiver in an 8-lead SOIC package. The EVAL-RS485FDEBZ evaluation board has a footprint for a full-duplex RS-485 transceiver in a 14-lead SOIC package. Figure 3. PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. Rev. A | Page 1 of 16 UG-543 Evaluation Board User Guide TABLE OF CONTENTS Features .............................................................................................. 1  Other Board Components............................................................4  Applications ....................................................................................... 1  Evaluation with Applications .......................................................4  Evaluation Kit Contents ................................................................... 1  Evaluation Board Schematics and Layouts ....................................7  General Description ......................................................................... 1  EVAL-RS485HDEBZ ....................................................................7  EVAL-RS485HDEBZ ....................................................................... 1  EVAL-RS485FD8EBZ ...................................................................9  EVAL-RS485FD8EBZ ...................................................................... 1  EVAL-RS485FDEBZ .................................................................. 11  EVAL-RS485FDEBZ......................................................................... 1  Ordering Information .................................................................... 13  Revision History ............................................................................... 2  EVAL-RS485HDEBZ Bill of Materials .................................... 13  Evaluation Board Configuration .................................................... 3  EVAL-RS485FD8EBZ Bill of Materials ................................... 14  Setting Up the Evaluation Board ................................................ 3  EVAL-RS485FDEBZ Bill of Materials ..................................... 15  Input/Output Connections ......................................................... 3  Related Links ............................................................................... 16  REVISION HISTORY 3/2019—Rev. 0 to Rev. A Changes to Table 1 ............................................................................ 3 Changes to Table 4 .......................................................................... 13 Changes to Table 6 .......................................................................... 14 Changes to Table 8 .......................................................................... 15 4/2013—Revision 0: Initial Version Rev. A | Page 2 of 16 Evaluation Board User Guide UG-543 EVALUATION BOARD CONFIGURATION SETTING UP THE EVALUATION BOARD INPUT/OUTPUT CONNECTIONS In order to allow evaluation of any one of over 40 RS-485 transceivers, the evaluation boards are supplied with an unpopulated footprint for the RS-485 transceiver. The evaluation board allows all of the input and output functions to be exercised without the need for additional external components. Jumper configurations are shown in Table 2. Digital I/O is connected via a screw terminal block on the left of the board, allowing wire connections to equipment or a UART. All boards include connections for data input (DI) and receiver output (RO). The half-duplex and 14-lead SOIC fullduplex evaluation boards also have connections for receiver enable (RE) and driver enable (DE). Alternatively, these inputs can be driven by jumper connections to VCC and GND and/or connected together (see Table 2). To use the EVAL-RS485HDEBZ, fit an 8-lead SOIC half-duplex transceiver to the footprint in the center of the board. For the EVAL-RS485FD8EBZ, fit an 8-lead SOIC full-duplex transceiver to the footprint, and for the EVAL-RS485FDEBZ, a 14-lead SOIC full-duplex transceiver. Refer to Table 1 for a list of parts available for each board. The board is powered by connecting a 3.3 V or 5 V power supply (refer to Table 1) to the screw terminals for VCC and GND at the top of the evaluation board. A 22 µF or 10 µF decoupling capacitor, C1, is fitted at the connector between VCC and GND. The VCC pin of the RS-485 transceiver is fitted with a decoupling capacitor of 100 nF, with a second footprint for an optional additional capacitor. Correspondingly labeled test points allow monitoring of the power supply to the board and probe reference to ground. Connections to an RS-485 bus are made via a screw terminal block on the right of the board. For the half-duplex board, there are two bus I/O signals, A and B, for noninverting and inverting signals, respectively. For full-duplex boards, there are two input bus signals, A and B, for noninverting and inverting signals, respectively, and two corresponding output signals, Y and Z. The bus cable may also include a common ground connection or shield. These may also be connected to the screw terminal block on the right of the board. Test points are available on the board and appropriately labeled for all digital and bus I/O signals. Table 1. RS-485 Device and Board Cross Reference Power Supply Enhanced ESD, 3.3 V Supply Enhanced ESD, 5 V Supply Enhanced ESD, 3.3 V to 5 V Supply Half Duplex, 8-Lead EVAL-RS485HDEBZ ADM3072E ADM3075E ADM3078E ADM3483E ADM3485E ADM3486E LTC2850 ADM483E ADM485E ADM487E ADM1487E LT1785 LT1785A LTC1481 LTC1482 LTC1483 LTC1484 LTC1485 LTC1487 ADM3061E LTC2862-1 LTC2862A-1 ADM3065E LTC2862-2 LTC2862A-2 Rev. A | Page 3 of 16 Full-Duplex, 8-Lead EVAL-RS485FD8EBZ ADM3071E ADM3074E ADM3077E ADM3488E ADM3490E LTC2851 Full-Duplex, 14-Lead EVAL-RS485FDEBZ ADM3070E ADM3073E ADM3076E ADM3491E LTC2852 ADM1490E LTC1690 ADM1491E LT1791 LT1791A LTC2863-1 LTC2863-2 LTC2864-1 LTC2864-2 UG-543 Evaluation Board User Guide Power Supply Standard, 3.3 V Supply Standard, 5 V Supply Half Duplex, 8-Lead EVAL-RS485HDEBZ ADM3483 ADM3485 ADM3493 ADM1485 ADM1486 ADM4850 ADM4851 ADM4852 ADM4853 ADM483 ADM485 LTC1480 LTC1685 LTC485 Full-Duplex, 8-Lead EVAL-RS485FD8EBZ ADM3488 ADM3490 Full-Duplex, 14-Lead EVAL-RS485FDEBZ ADM3491 ADM488 ADM488A ADM4854 ADM4855 ADM4856 ADM4857 LTC1686 LTC490 ADM489 ADM489A LTC1687 LTC491 Table 2. Jumper Configuration Purpose Select RE Input Half-Duplex Board LK1 Full-Duplex (8-Lead) Board N/A Full-Duplex (14-Lead) Board LK2 Select DE Input LK2 N/A LK3 Connect RT1 LK3 N/A N/A Connect RT2 LK4 N/A N/A Connect A to Y N/A LK1 LK5 Connect B to Z N/A LK2 LK6 OTHER BOARD COMPONENTS All three boards include footprints for termination resistors (RT1 and/or RT2) as well as pull-up and pull-down resistors. Termination resistors of 120 Ω are fitted to the board; these may be removed or replaced with a different value resistor as needed. Full-duplex boards can be evaluated with A connected to Y and B connected to Z (see Table 2). In this configuration, the two termination resistors are in parallel, so the driver can be evaluated with a load equivalent to a bus terminated at both ends. For the half-duplex board, the same effect is achieved by connecting in two parallel termination resistors using jumpers on the board. Refer to Table 2 for jumper connections. Biasing Resistors for Bus-Idle Failsafe Pull-up and pull-down resistors are not fitted by default, but may be required to provide an external biasing network for an idle bus failsafe. These resistors are usually only connected at one position on the bus and selected to provide a minimum Connection A B C D Description Connects RE to VCC (disables receiver output). Connects RE to GND (enables receiver output). Allows RE input from screw terminal block. Connects RE to DE input source. A B C Closed Open Closed Open Closed Open Closed Open Connects DE to VCC (enables driver outputs). Connects DE to GND (disables driver outputs). Allows DE input from screw terminal block. RT1 is connected across A and B. RT1 is disconnected. RT2 is connected across A and B. RT2 is disconnected. A is connected to Y. A is not connected to Y. B is connected to Z. B is not connected to Z. differential input voltage (VID) between A and B of 200 mV. Different resistor values are required depending on whether a 3.3 V or 5 V supply is used, and how much noise margin is required (that is, VID > 200 mV). ADM3070E to ADM3078E and ADM4850 to ADM4857 have built-in failsafe for the bus idle condition. For guidelines, refer to AN-960 Application Note, RS-485/RS-422 Circuit Implementation Guide. EVALUATION WITH APPLICATIONS Full-Duplex RS-485 Transceiver Loopback For full-duplex transceivers using the EVAL-RS485FDEBZ or EVAL-RS485FD8EBZ boards, a loopback test can be set up by closing LK5 and LK6 or LK1 and LK2, respectively. This test is shown in Figure 4. A signal generator is connected to DI and this allows verification of the bus signals and the receiver output. Note the jumper positions of LK3 (A) and LK2 (B) for the EVALRS485FDEBZ board. In this configuration, the default Rev. A | Page 4 of 16 Evaluation Board User Guide UG-543 Connecting to an Existing RS-485 Network termination resistors can be used since both 120 Ω resistors on the board will be connected in parallel by the loop-back, ensuring the test is conducted with a standard RS-485 load of 60 Ω (bus terminated at both ends by 120 Ω). For a two-wire connection to an existing RS-485 network, driver enable (DE) should be disabled (LK2 for EVALRS485HDEBZ, LK3 for EVAL-RS485FDEBZ) by moving to Position B, or else should be controlled externally (Position C) based on received data. Half-Duplex RS-485 Transceivers Point-to-Point Test With two boards, a point-to-point test can be set up. Two halfduplex boards are shown in this configuration in Figure 5. Note the positions of LK1 and LK2 on each board to enable the driver on one board and the receiver on the other board. For EVAL-RS485FDEBZ, these correspond to LK2 and LK3, although in this case, both boards can have the driver and receiver enabled if LK5 and LK6 are open and a four-wire connection is used. For EVAL-RS485FD8EBZ boards, LK1 and LK2 must be open with a four-wire connection for the point-topoint link. For a four-wire connection using EVAL-RS485FDEBZ, the driver can be permanently enabled by placing LK3 in Position A, if the Y and Z connections are connected only to RS-485 receivers. Otherwise, LK3 should be in Position B or Position C. For a four-wire connection using EVAL-RS485FD8EBZ, the Y and Z connections should only be connected to other RS-485 receiver inputs, as shown in Figure 6 for a multinode bus. These full-duplex parts without driver or receiver enable inputs can also typically be used in point-to-point four-wire RS-485 bus connections. LK4 has been removed on each EVAL-RS485HDEBZ board in order to ensure both ends of the bus have only a 120 Ω load. For full-duplex boards with a four-wire connection, the correct termination is on each end of the bus. If EVAL-RS485FDEBZ boards are used with a two-wire connection and LK5 and LK6 are closed, then one termination resistor needs to be removed from each board. SIGNAL GENERATOR 3.3V OR 5V SUPPLY OSCILLOSCOPE J1 A B C D A B C RE DE DI A RE B DE Z Y DI A B Z Y SHIELD GND 11390-004 LK3 RO LK5 LK2 LK6 J2 J3 VCC GND RO EVAL-RS485FDEBZ Figure 4. Full-Duplex RS-485 Transceiver Loop Back Test Rev. A | Page 5 of 16 UG-543 Evaluation Board User Guide 3.3V OR 5V SUPPLY SIGNAL GENERATOR EVAL-RS485HDEBZ J1 GND RE DE DI A B C D A B C RO RE DE DI B A DE A DI SHIELD GND LK2 OSCILLOSCOPE VCC LK3 LK4 LK1 J5 B RE EVAL-RS485HDEBZ J1 GND J3 RO A B C D A B C RO 3.3V OR 5V SUPPLY VCC LK1 LK3 LK4 J3 RO RE DE J5 B B A A DI SHIELD GND 11390-005 LK2 Figure 5. Half-Duplex RS-485 Two Board Point-to-Point Test 3.3V OR 5V SUPPLY UART Rx MICROCONTROLLER/ PROCESSOR UART Tx RO GND J2 DI VCC A RO B DI Z Y EVAL-RS485FD8EBZ J3 RT1 RT2 LK2 LK1 J1 MASTER NODE A B Z Y SHIELD GND RT RT RT RT A B Z Y NODE 1 SLAVE A B Z Y SLAVE NODE 2 A B Z Y SLAVE NODE N 11390-006 NOTES 1.REMOVE 50Ω TERMINATION RESISTORS FROM EVALUATION BOARD 2.MAXIMUM NUMBER OF NODES: 32. 3.RT IS EQUAL TO THE CHARACTERISTIC IMPEDANCE OF THE CABLE USED. Figure 6. Full-Duplex (8-Lead SOIC) RS-485 Board Connected to Bus and Control Board Rev. A | Page 6 of 16 Evaluation Board User Guide UG-543 EVALUATION BOARD SCHEMATICS AND LAYOUTS EVAL-RS485HDEBZ 11390-007 Figure 7. EVAL-RS485HDEBZ Schematic Rev. A | Page 7 of 16 Evaluation Board User Guide 11390-008 UG-543 11390-009 Figure 8. EVAL-RS485HDEBZ Silkscreen 11390-010 Figure 9. EVAL-RS485HDEBZ Component Side Figure 10. EVAL-RS485HDEBZ Solder Side Rev. A | Page 8 of 16 Evaluation Board User Guide UG-543 EVAL-RS485FD8EBZ 11390-011 Figure 11. EVAL-RS485FD8EBZ Schematic Rev. A | Page 9 of 16 Evaluation Board User Guide 11390-012 UG-543 11390-013 Figure 12. EVAL-RS485FD8EBZ Silkscreen 11390-014 Figure 13. EVAL-RS485FD8EBZ Component Side Figure 14. EVAL-RS485FD8EBZ Solder Side Rev. A | Page 10 of 16 Evaluation Board User Guide UG-543 EVAL-RS485FDEBZ 11390-015 Figure 15. EVAL-RS485FDEBZ Schematic Rev. A | Page 11 of 16 Evaluation Board User Guide 11390-016 UG-543 11390-017 Figure 16. EVAL-RS485FDEBZ Silkscreen 11390-018 Figure 17. EVAL-RS485FDEBZ Component Side Figure 18. EVAL-RS485FDEBZ Solder Side Rev. A | Page 12 of 16 Evaluation Board User Guide UG-543 ORDERING INFORMATION EVAL-RS485HDEBZ BILL OF MATERIALS Table 3. Quantity 1 2 1 6 1 1 2 1 1 2 2 1 2 1 1 Reference Designator C1 C2, C4 C3 A, B, DE, DI, RE, RO GND J1 J3, J5 LK1 LK2 LK3, LK4 R1, R2 R3 RT1, RT2 U1 VCC Description Capacitor, 100 nF, 0805 Not placed/optional Capacitor, 10 µF, Case B Test point, yellow Test point, black 2-way terminal block 4-way terminal block 8-pin (4 × 2) 0.1" header and shorting block 6-pin (3 × 2) 0.1" header and shorting block Jumper Block, 2 pin, 0.1" spacing Not placed/optional Resistor, 0 Ω, 0805 Resistor, 120 Ω, 0805 8-lead SOIC (not placed) Test point, red Supplier/Part Number Multicomp/MCCA000274 Not applicable Kemet/B45196H3106K209 Vero Technologies/20-313140 Vero Technologies/20-2137 Lumberg/KRM 02 Lumberg/KRM 04 Harwin/M20-9953646 and Harwin/M7566-05 Harwin/M20-9953646 and Harwin/M7566-05 Harwin/M20-9990246 and Harwin/M7566-05 Not applicable Vishay Draloric/CRCW08050000Z0EA Multicomp/MC 0.1W 0805 1% 120R Analog Devices, Inc./see Table 4 Vero Technologies/20-313137 Table 4. EVAL-RS485HDEBZ Options for U1(Half-Duplex RS-485 Transceivers) Enhanced ESD, 3.3 V Supply ADM3072E ADM3075E ADM3078E LTC2850 ADM3483E ADM3485E ADM3486E Enhanced ESD, 5 V Supply ADM483E ADM485E ADM487E ADM1487E LT1785 LT1785A LTC1481 LTC1482 LTC1483 LTC1484 LTC1485 LTC1487 Enhanced ESD, 3.3 V to 5 V Supply ADM3061E ADM3065E LTC2862-1 LTC2862-2 LTC2862A-1 LTC2862A-2 Standard, 3.3 V Supply ADM3483 ADM3485 ADM3493 Standard, 5 V Supply ADM1485 ADM1486 ADM483 ADM485 LTC1480 LTC1685 ADM4850 ADM4851 ADM4852 ADM4853 LTC485 Select the appropriate U1 devices in addition to EVAL-RS485HDEBZ when ordering. Ensure that the device ordered includes an R in the part number for SOIC devices, for example, ADM3072EARZ. Rev. A | Page 13 of 16 UG-543 Evaluation Board User Guide EVAL-RS485FD8EBZ BILL OF MATERIALS Table 5. Quantity 1 2 1 6 1 2 1 2 2 1 2 1 1 Reference Designator C1 C2, C4 C3 A, B, DI, RO, Y, Z GND J1, J2 J3 LK1, LK2 R1, R2 R3 RT1, RT2 U1 VCC Description Capacitor, 100 nF, 0805 Not placed/optional Capacitor, 22 µF, Case C Test point, yellow Test point, black 2-way terminal block 6-way terminal block Jumper Block, 2 pin, 0.1" spacing Not placed/optional Resistor, 0 Ω, 0805 Resistor, 120 Ω, 0805 8-lead SOIC (not placed) Test point, red Supplier/Part Number Multicomp/MCCA000274 Not applicable AVX/TAJC226K016RNJ Vero Technologies/20-313140 Vero Technologies/20-2137 Lumberg/KRM 02 Lumberg/KRM 06 Harwin/M20-9990246 and Harwin/M7566-05 Not applicable Vishay Draloric/CRCW08050000Z0EA Multicomp/MC 0.1W 0805 1% 120R Analog Devices/see Table 6 Vero Technologies/20-313137 Table 6. EVAL-RS485FD8EBZ Options for U1(Full-Duplex RS-485 Transceivers, 8-Lead SOIC) Enhanced ESD, 3.3 V Supply ADM3071E ADM3074E ADM3077E ADM3488E ADM3490E LTC2851 Enhanced ESD, 5 V Supply ADM1490E LTC1690 Enhanced ESD, 3.3 V to 5 V Supply LTC2863-1 LTC2863-2 Standard, 3.3 V Supply ADM3488 ADM3490 Standard, 5 V Supply ADM4854 ADM4855 ADM4856 LTC1686 ADM4857 ADM488 ADM488A LTC490 Select the appropriate U1 devices in addition to EVAL-RS485FD8EBZ when ordering. Ensure that the device ordered includes an R in the part number for SOIC devices, for example, ADM3071EARZ. Rev. A | Page 14 of 16 Evaluation Board User Guide UG-543 EVAL-RS485FDEBZ BILL OF MATERIALS Table 7. Quantity 1 1 2 6 1 1 1 1 1 1 2 2 1 2 1 1 Reference Designator C1 C2 C3, C4 A, B, DE, DI, RE, RO, Y, Z GND J1 J2 J3 LK2 LK3 LK5, LK6 R1, R2 R3 RT1, RT2 U1 VCC Description Capacitor, 22 µF, Case C Capacitor, 100 nF, 0805 Not placed/optional Test point, yellow Test point, black 2-way terminal block 4-way terminal block 6-way terminal block 8-pin (4 × 2) 0.1" header and shorting block 6-pin (3 × 2) 0.1" header and shorting block Jumper Block, 2 pin, 0.1" spacing Not placed/optional Resistor, 0 Ω, 0805 Resistor, 120 Ω, 0805 14-lead SOIC (not placed) Test point, red Supplier/Part Number AVX/TAJC226K016RNJ Multicomp/MCCA000274 Not applicable Vero Technologies/20-313140 Vero Technologies/20-2137 Lumberg/KRM 02 Lumberg/KRM 04 Lumberg/KRM 06 Harwin/M20-9953646 and Harwin/M7566-05 Harwin/M20-9953646 and Harwin/M7566-05 Harwin/M20-9990246 and Harwin/M7566-05 Not applicable Vishay Draloric/CRCW08050000Z0EA Multicomp/MC 0.1W 0805 1% 120R Analog Devices/see Table 8 Vero Technologies/20-313137 Table 8. EVAL-RS485FDEBZ Options for U1(Full-Duplex RS-485 Transceivers, 14-Lead SOIC) Enhanced ESD, 3.3 V Supply ADM3070E ADM3073E LTC2852 ADM3076E ADM3491E Enhanced ESD, 5 V Supply ADM1491E LT1791 LT1791A Enhanced ESD, 3.3 V to 5 V Supply LTC2864-1 LTC2864-2 Standard, 3.3 V Supply ADM3491 Standard, 5 V Supply ADM489 ADM489A LTC1687 LTC491 Select the appropriate U1 devices in addition to EVAL-RS485FDEBZ when ordering. Ensure that the device ordered includes an R in the part number for SOIC devices, for example, ADM3070EARZ. Rev. A | Page 15 of 16 UG-543 Evaluation Board User Guide RELATED LINKS Resource AN-960 RS-485/RS-422 Products Description RS-485/RS-422 Circuit Implementation Guide RS-485/RS-422 Product Selection ESD Caution ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality. Legal Terms and Conditions By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. 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Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed. ©2013–2019 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG11390-0-3/19(A) Rev. A | Page 16 of 16 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Analog Devices Inc.: EVAL-RS485HDEBZ EVAL-RS485FDEBZ EVAL-RS485FD8EBZ