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UG-543 

Evaluation Board User Guide 

 

Rev. 0 | Page 4 of 16 

Table 2. Jumper Configuration 

Purpose 

Half-Duplex 
Board 

Full-Duplex  
(8-Lead) Board 

Full-Duplex  
(14-Lead) Board 

Connection  Description 

Select RE Input 

LK1 

N/A 

LK2 

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. 

Select DE Input 

LK2 

N/A 

LK3 

Connects DE to VCC (enables driver outputs). 

 

 

 

 

Connects DE to GND (disables driver outputs). 

 

 

 

 

Allows DE input from screw terminal block. 

Connect RT1 

LK3 

N/A 

N/A 

Closed 

RT1 is connected across A and B. 

 

 

 

 

Open 

RT1 is disconnected. 

Connect RT2 

LK4 

N/A 

N/A 

Closed 

RT2 is connected across A and B. 

 

 

 

 

Open 

RT2 is disconnected. 

Connect A to Y 

N/A 

LK1 

LK5 

Closed 

A is connected to Y. 

 

 

 

 

Open 

A is not connected to Y. 

Connect B to Z 

N/A 

LK2 

LK6 

Closed 

B is connected to Z. 

 

 

 

 

Open 

B is not connected to Z. 

 

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 
differential input voltage (V

ID

) 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, V

ID

 > 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 

EVAL-

RS485FDEBZ

 board. In this configuration, the default 

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).  

Half-Duplex RS-485 Transceivers Point-to-Point Test 

With two boards, a point-to-point test can be set up. Two half-
duplex 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-to-
point link. 
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. 

Содержание EVAL-RS485FD8EBZ

Страница 1: ...ing networks APPLICATIONS Full and half duplex RS 485 transceiver evaluation EVALUATION KIT CONTENTS 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 a...

Страница 2: ...rd Configuration 3 Setting Up the Evaluation Board 3 Input Output Connections 3 Other Board Components 4 Evaluation with Applications 4 Evaluation Board Schematics and Layouts 7 EVAL RS485HDEBZ 7 EVAL RS485FD8EBZ 9 EVAL RS485FDEBZ 11 Ordering Information 13 EVAL RS485HDEBZ Bill of Materials 13 EVAL RS485FD8EBZ Bill of Materials 14 EVAL RS485FDEBZ Bill of Materials 15 Related Links 16 REVISION HIST...

Страница 3: ...owing 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 full duplex 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 Connections to an RS 485 bus are made...

Страница 4: ...nimum 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 EVALU...

Страница 5: ... 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 OSCILLOSCOPE A LK2 LK3 B C D A B C SHIELD A RO RE DE DI B Z Y GND RO RE DE DI LK5 LK6 A B Z Y GND J1 J3 J2 VCC EVAL RS485FDEBZ 3 3V OR 5V SUPPLY...

Страница 6: ...SUPPLY 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 RT RT RT RT MASTER NODE SLAVE SLAVE SLAVE A Y Z B NODE N A Y Z B NODE 2 A Y Z B NODE 1 MICROCONTROLLER PROCESSOR 11390 006 J3 Figure 6 Full Duplex 8 Lead SOIC RS 485 Board Connected to Bus and Control Board ...

Страница 7: ...Evaluation Board User Guide UG 543 Rev 0 Page 7 of 16 EVALUATION BOARD SCHEMATICS AND LAYOUTS EVAL RS485HDEBZ 11390 007 Figure 7 EVAL RS485HDEBZ Schematic ...

Страница 8: ...UG 543 Evaluation Board User Guide Rev 0 Page 8 of 16 11390 008 Figure 8 EVAL RS485HDEBZ Silkscreen 11390 009 Figure 9 EVAL RS485HDEBZ Component Side 11390 010 Figure 10 EVAL RS485HDEBZ Solder Side ...

Страница 9: ...Evaluation Board User Guide UG 543 Rev 0 Page 9 of 16 EVAL RS485FD8EBZ 11390 011 Figure 11 EVAL RS485FD8EBZ Schematic ...

Страница 10: ...G 543 Evaluation Board User Guide Rev 0 Page 10 of 16 11390 012 Figure 12 EVAL RS485FD8EBZ Silkscreen 11390 013 Figure 13 EVAL RS485FD8EBZ Component Side 11390 014 Figure 14 EVAL RS485FD8EBZ Solder Side ...

Страница 11: ...Evaluation Board User Guide UG 543 Rev 0 Page 11 of 16 EVAL RS485FDEBZ 11390 015 Figure 15 EVAL RS485FDEBZ Schematic ...

Страница 12: ...UG 543 Evaluation Board User Guide Rev 0 Page 12 of 16 11390 016 Figure 16 EVAL RS485FDEBZ Silkscreen 11390 017 Figure 17 EVAL RS485FDEBZ Component Side 11390 018 Figure 18 EVAL RS485FDEBZ Solder Side ...

Страница 13: ...win M7566 05 2 LK3 LK4 Jumper Block 2 pin 0 1 spacing Harwin M20 9990246 and Harwin M7566 05 2 R1 R2 Not placed optional Not applicable 1 R3 Resistor 0 Ω 0805 Vishay Draloric CRCW08050000Z0EA 2 RT1 RT2 Resistor 120 Ω 0805 Multicomp MC 0 1W 0805 1 120R 1 U1 8 lead SOIC not placed Analog Devices Inc see Table 4 1 VCC Test point red Vero Technologies 20 313137 Table 4 EVAL RS485HDEBZ Options for U1 H...

Страница 14: ...d Harwin M7566 05 2 R1 R2 Not placed optional Not applicable 1 R3 Resistor 0 Ω 0805 Vishay Draloric CRCW08050000Z0EA 2 RT1 RT2 Resistor 120 Ω 0805 Multicomp MC 0 1W 0805 1 120R 1 U1 8 lead SOIC not placed Analog Devices see Table 6 1 VCC Test point red 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 Enhanced ...

Страница 15: ...0 1 header and shorting block Harwin M20 9953646 and Harwin M7566 05 2 LK5 LK6 Jumper Block 2 pin 0 1 spacing Harwin M20 9990246 and Harwin M7566 05 2 R1 R2 Not placed optional Not applicable 1 R3 Resistor 0 Ω 0805 Vishay Draloric CRCW08050000Z0EA 2 RT1 RT2 Resistor 120 Ω 0805 Multicomp MC 0 1W 0805 1 120R 1 U1 14 lead SOIC not placed Analog Devices see Table 8 1 VCC Test point red Vero Technologi...

Страница 16: ...he Evaluation Board are reserved by ADI CONFIDENTIALITY This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason Upon discontinuation of use of the Evaluation Board or termination of this Agreement Customer agrees to promptly return ...

Страница 17: ...Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery Lifecycle Information Analog Devices Inc EVAL RS485HDEBZ EVAL RS485FDEBZ EVAL RS485FD8EBZ ...

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