Toshiba RS232C, RS-485 user manual CU111 connection, Computer Link RS485 interface

Page 6
6

CU111 connection

6.Computer Link (RS485) interface

(1)Computer Link (RS485) signal name and pin assignment

1

2

3

4

5

6

TXA

Pin No.

Signal Name

Function

1

TXA

CU111RS485 (In phase signal)

TXB

2

TXB

CU111RS485 (Reverse signal)

RXA

3

RXA

CU111RS485 (In phase signal)

TRM

4

TRM

Termination

5

RXB

CU111RS485 (Reverse signal)

RXB

6

SG

Signal Ground

SG

(2)Computer Link (RS485) interface connection

 

 

Sheilded

 

 

twisted-paired cable

TXA

1

RXA

TXD

 

RXD

TXB

2

RXB

 

 

RXA

3

TXA

RXD

4

TXD

R

TRM

RXB

5

TXB

 

 

SG

6

SG

RS232C/RS485

Host Equipment

Multi-drop adapter

RS485 Interface

CU111

 

Short between RXA(Pin No.3) and TRM(Pin No.4) for termination of one-to-one configuration at CU111. Refer to the next page.

Note

¬Use the shielded twisted-paired cable for noise immunity and ground the cable shield at one end.

-Connect SG (Signal Ground) each other.

®The adapter does not have the frame ground (FG) terminal, so please ground directly. ¯ Please make the program transmitting again.

Image 6
Contents RS232C/RS485 MULTI-DROP Adapter CU111 nUSER’S Manual USER’S Guide Precaution and ChecksProduct type CU111 Part number TCU111**S UG-TS07***-E007CU111 Specifications SpecificationsOverview CU111 Installation InstallationAdapter CU111 Configuration System configuration exampleCircuit configuration CU111 connection Computer Link RS485 interface3Computer Link signal and connect termination registors TXA TXB RXA Term RXBToshiba International Corporation UG-TS01***-E011
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RS232C, RS-485 specifications

The Toshiba RS-485 is a robust and widely used communication standard designed for industrial applications involving serial data transmission. This technology is particularly appreciated for its ability to connect multiple devices (up to 32 nodes) using a simple twisted pair wiring, making it cost-effective and efficient in environments where reliable communication is essential.

One of the main features of the Toshiba RS-485 is its differential signaling technique. This approach significantly reduces noise and allows for long-distance communication, often exceeding 4000 feet. By utilizing a twisted pair cable, RS-485 devices can communicate at baud rates of up to 10 Mbps, although practical distances may require lower speeds to maintain data integrity.

Toshiba's implementation of RS-485 also supports half-duplex and full-duplex modes, providing versatility in how devices communicate. In half-duplex mode, data can be transmitted in both directions but not simultaneously, making it suitable for applications where control over the communication direction is manageable. Full-duplex mode, on the other hand, enables simultaneous two-way communication, improving the speed and efficiency of data transfer.

The Toshiba RS-485 standard is characterized by its robustness in handling high electromagnetic interference (EMI) and its ability to operate in harsh environments. With a wide operating temperature range, the RS-485 devices can function effectively in various industrial settings, from factories to outdoor applications. Furthermore, the standard supports various voltage levels, providing flexibility in design and functionality.

Another essential technology in the Toshiba RS-485 system is its fault tolerance. The differential signaling allows devices to maintain communication even if one of the wires is compromised, providing greater reliability compared to single-ended systems. Additionally, the use of termination resistors helps mitigate reflections, further enhancing performance.

In summary, Toshiba RS-485 technology provides the backbone for reliable, efficient, and robust serial communication in industrial applications. Its features, including long-distance capabilities, support for multiple devices, resistance to noise, and fault tolerance, make it a preferred choice for many engineers and system designers. This standard not only meets the demands of the industry but also adapts to the evolving technological landscape, ensuring that it remains relevant in the years to come.