Advertisement
Quick Links
Advertisement
Summary of Contents for rollease acmeda RS485
- Page 1 ROLLEASE ACMEDA RS485 Network Cabling Standard August 2017 ...
-
Page 2: Table Of Contents
CONTENTS August 2017 SECTION NO. DESCRIPTION PAGE NO. Section 1 – RS485 BUS OVERVIEW 3 Section 2 – NETWORK TOPOLOGIES 4 Section 3 – DIMENSIONAL LIMITATIONS 5 Section 4 – CABLE TYPES 7 Section 5 – PINOUT DEFINITION 8 Section 6 – GROUND CONNECTION STRATEGY 10 Section 7 – INSTALLATION OPTIONS 12 DISCLAIMER INTRODUCTION This product specifications manual has been produced by Rollease Acmeda to supply the necessary information for safe and correct assembly and installation of this system. DISCLAIMER Rollease Acmeda has used reasonable care in preparing the information included in this document, but makes no representations or warranties as to the completeness or accuracy of the information. Information is supplied upon the condition that the persons receiving the information will make their own determination as to its suitability for their purposes prior to use. Rollease Acmeda assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein. Rollease Acmeda reserves the right to make changes without further notice to any products to improve reliability, function or design. COPYRIGHT COPYRIGHT © ROLLEASE ACMEDA 2017 All rights reserved. No part of this document may be reproduced or utilised in any means, by any means, electronic or mechanical including photocopying, recordings, or by any information storage or retrieval system, without the express permission from Rollease Acmed... -
Page 3: Section 1 - Rs485 Bus Overview
SECTION 1 – RS485 BUS OVERVIEW In order to provide reliable/robust communications with Rollease Acmeda RS485‐enabled products, several recommendations must be carefully followed. Each of these are listed below and are covered in detail within the following chapters. 1. Network Topologies – how to connect hubs to the RS485 bus. 2. Dimensional Limitations – the distances that the RS485 bus can reliably communicate over. S 3. Cable Types –types of cables that can be used. 4. Ground Connection Strategy – how/why grounding is required. 5. Installation Options – simple plug & play or customized options. Diagram 1. Complete RS485 network rollease acmeda RS485 Cabling Standard | August 2017 Page 3 Copyright © 2017 Rollease Acmeda Group. ... -
Page 4: Section 2 - Network Topologies
SECTION 2 – NETWORK TOPOLOGIES Before an installation can begin, it is important to understand how to connect Rollease Acmeda hubs to the RS485 bus. The following diagram depicts several common network layouts, but note that only two are usable for a RS485 bus. Diagram 2. RS485 network topologies rollease acmeda RS485 Cabling Standard | August 2017 Page 4 Copyright © 2017 Rollease Acmeda Group. ... -
Page 5: Section 3 - Dimensional Limitations
SECTION 3 – DIMENSIONAL LIMITATIONS The maximum length of the RS485 bus (including stubs length) should not exceed 1000m (3281ft). Distances greater than that will result in unreliable/error‐prone communications and therefore should be avoided. Conversely, the distance between nodes should be greater than 30cm (≈12in). (a) Typical Residential/Light commercial Installations (<100m) For most residential environments where the total bus length (including stubs) is less than 100m (328ft) the termination resistors are not required. Diagram 3. Dimensional limitations ‐ typical residential/light commercial installations rollease acmeda RS485 Cabling Standard | August 2017 Page 5 Copyright © 2017 Rollease Acmeda Group. ... - Page 6 (b) Long distance/Commercial Installations (<1000m) For longer distance communications, the termination resistors RT=120Ω (RA part no. MT02‐0401‐000005) must be fitted to the extreme ends of the bus. Diagram 4. Dimensional limitations ‐ long distance/commercial installations rollease acmeda RS485 Cabling Standard | August 2017 Page 6 Copyright © 2017 Rollease Acmeda Group. ...
-
Page 7: Section 4 - Cable Types
SECTION 4 – CABLE TYPES Rollease Acmeda only recommend the use of Twisted Pair ethernet cables, these can be either CAT5 or CAT6. For most residential environments, the cable can be of either UTP or STP type. However, for long distance or commercial environments we only recommend the use of STP type cables. Picture 1. Recommended cables rollease acmeda RS485 Cabling Standard | August 2017 Page 7 Copyright © 2017 Rollease Acmeda Group. ... -
Page 8: Section 5 - Pinout Definition
SECTION 5 – PINOUT DEFINITION Either TIA/EIA 568A or 568B configuration cable (or a combination of both) can be connected in a RA RS485 network. This is because only the cores that share the same pinout & color‐code across both standards are used (see in Table 1. Pinout definition and Diagram 5. Color cores of cable connected in RS485 network). * Note: unused cores should be tied to ground if the RS485 bus is greater than 100m. Refer to page 15 for details. Table 1. Pinout definition rollease acmeda RS485 Cabling Standard | August 2017 Page 8 Copyright © 2017 Rollease Acmeda Group. ... - Page 9 Diagram 5. Color cores of cable connected in RS485 network rollease acmeda RS485 Cabling Standard | August 2017 Page 9 Copyright © 2017 Rollease Acmeda Group. ...
-
Page 10: Section 6 - Ground Connection Strategy
SECTION 6 – GROUND CONNECTION STRATEGY While a differential signal does not require a signal ground to communicate, the ground wire serves an important purpose. Over a distance of hundreds or thousands of feet there can be very significant differences in the voltage level of "ground." RS‐485 networks can typically maintain correct data with a difference of ‐7 to +12 Volts. If the grounds differ more than that amount, data will be lost and often the port itself will be damaged. The function of the signal ground wire is to tie the signal ground of each of the nodes to one common ground. Strategy (a): Shielding Against Low Frequency Noise For most residential or light commercial environments, one end of the shield should be connected to ground in order to improve shielding against low frequency electrical noise such as 50/60Hz mains noise. (refer to Diagram 5) Diagram 6. Ground connection ‐ shielding against low frequency noise rollease acmeda RS485 Cabling Standard | August 2017 Page 10 Copyright © 2017 Rollease Acmeda Group. ... - Page 11 Strategy (b): Shielding Against High Frequency Noise For industrial/electrical noisy environments, both ends of the shield should be connected to ground in order to improve shielding against high frequency electrical noise such as switch‐mode power supplies etc. (refer to Diagram 6) Diagram 7. Ground connection ‐ shielding against high frequency noise rollease acmeda RS485 Cabling Standard | August 2017 Page 11 Copyright © 2017 Rollease Acmeda Group. ...
-
Page 12: Section 7 - Installation Options
SECTION 7 – INSTALLATION OPTIONS (a) “Plug & Play” cabling Option Pre‐terminated ethernet cable (commonly available from most electrical stores) can be used to create a robust RS485 network without the need for specialized termination skills & tools. Rollease Acmeda provide RJ45‐compatible connectors/splitters (RA part no. MT02‐0401‐000004) for this type of installation. Diagram 8. Option (a) “Plug & Play” cabling rollease acmeda RS485 Cabling Standard | August 2017 Page 12 Copyright © 2017 Rollease Acmeda Group. ... - Page 13 (b) Hard‐wired cabling Option Unterminated ethernet cable (commonly available from most electrical stores) can be used to create a “customized/cut‐to‐length” RS485 network without the need for specialized termination skills & tools. Rollease Acmeda provide a terminal‐block‐type adapter (RA part no. MT02‐0401‐000006) allowing the cable to be easily joined/split. Diagram 9. Option (b) Hard‐wired cabling rollease acmeda RS485 Cabling Standard | August 2017 Page 13 Copyright © 2017 Rollease Acmeda Group. ...
- Page 14 (c) Unused Cable Pairs i. Residential For most residential or light commercial environments where the bus is <100m, the unused wires should be connected to ground. Diagram 10. Unused Cable Pairs connection – Residential rollease acmeda RS485 Cabling Standard | August 2017 Page 14 Copyright © 2017 Rollease Acmeda Group. ...
- Page 15 ii. Long distance/commercial When using ethernet cable for single pair applications, the unused wires should be properly terminated to ground with RG = 100Ω at both cable ends. This prevents noise coupling due to self‐resonance at all sorts of frequencies from the unused wires into the data pair. Diagram 11. Unused Cable Pairs connection – Long distance/commercial rollease acmeda RS485 Cabling Standard | August 2017 Page 15 Copyright © 2017 Rollease Acmeda Group. ...
- Page 16 (d) Bias resistor In RS485 network when inputs are between ‐200mV and +200mV, receiver output is "undefined". There are four common fault conditions that result in the undefined receiver output that can cause erroneous data: 1) All transmitters in a system are in shutdown. 2) The receiver is not connected to the cable. 3) The cable is open circuit. 4) The cable is short circuit. The bias resistors (510 ) are connected to VCC (DC 5V) and signal ground to solve this issue (refer to Diagram 8). This way the bus will always be at a known level Ω/1W regardless of the fault condition. All RA Pulse hubs have these resistors internally, so the only benefit of adding these externally is if the first hub’s connection becomes faulty the bus will still be at “known levels” for the master/controller. Diagram 12. Optional bias resistor installation rollease acmeda RS485 Cabling Standard | August 2017 Page 16 Copyright © 2017 Rollease Acmeda Group. ...
Need help?
Do you have a question about the RS485 and is the answer not in the manual?
Questions and answers