Introduction à

1. Introduction à

2. Qu’est-ce queDeviceNet?? En terme de réseautique, il s’agit d’une structure qui présente des avantages indéniables sur la structure traditionnelle Source-Destination. Il s’agit du modèle Producteur-Consommateur

3. Exemple Source/Destination Une personne (“source”) dit a chaque personne (“destinations”) dans une salle l’heure du jour (data) • Les gens peuvent choisir d’ignorer l’information, mais il y a du temps et des efforts de perdu. • Le temps s’écoule au fur et a mesure que la “source” informe les “destinations”. • Le temps nécessaire pour informer tout le monde, varie selon le nombre de personnes présentes

4. Exemple Producteur/Consommateur Une personne (“producteur”) dit a tout le monde (“consommateur”)en meme temps, l’heure du jour (“data”) • Tout le monde recoit l’information simultanément • Certaines personnes peuvent choisir de “consommer” l’information. (ex. en ajustant leur montres) • d’autres choisiront d’ignorer l’information • Tres efficace: cela prends le meme temps si 10 ou 100 personnes sont présentes dans la salle !

5. Producteur/Consommateur Controller 2 Controller 1 HMI #1 #2 • message #1 • Position de référence du senseur vers Controller 1, Controller 2, et HMI • message #2 • Commande de vitesse du Controller 1 est émis vers les Drives 1, 2, & 3, et HMI • Moins efficace que le modele source/destination • requiet 7 messages vs. 2 Sensor Drive1 Drive2 Drive3

6. Network Specifications Trunk line Distance and Baud rate 100m Max. with Thin cable 500m @ 125Kbaud (thick) 250m @ 250Kbaud (thick) 100m @ 500Kbaud (thick) (longer with Repeaters) Physical Media (Shielded Twisted Pair) Communications and Power Thick - Trunk or drop Thin - Trunk or Drop Flat - Trunk only • Network Power • 24vDC power to devices • Thick & Flat trunk rated to 8 amps • Thin wire rated at 3 amps Maximum Devices 64 Nodes per Network Device Connections T-Taps Zero-drop (Maximum 6m each) Cumulative Drop-line Budget 156m @ 125Kbaud 78m @ 250Kbaud 39m @ 500Kbaud (Maximum of 6m each) Terminating Resistors 120 Resistors at both network trunkline ends Messaging Services Producer/Consumer High-speed I/O Programming Configuration Diagnostics Drop-line wiring Single drop Daisy-chaining off drop Branching off drop

7. Caractéristiques Physiques • Supporte jusqu’à 64 nœuds. • Un nœud peut etre enlevé “live” du réseau sans affecter la bonne marche du réseau. • Protection contre les erreurs de cablage: il y a une protection contre le cablage inversé a meme les équipements • Vitesse de transmission selectionnable: 125, 250, 500 K baud • Pas requis de supporter toutes les vitesses • Perte de vitesse au profit de la distance • Topologie “trunk-line”/”drop-line” • Branches permises sur les “drop” • Permet des “drops” de longueur “zero”

8. Caractéristiques Physiques • Paires torsadées, faible perte, faible delais • Utilisation de connecteurs scellés ou de type ouverts • Supporte les équipements opto-isolés et non opto-isolés • Alimentation séparée a meme le cable de communication • Supporte les équipements auto-alimentés et alimentés externes • Capacité haut courant (jusqu’à 8 amps) • “Power taps” qui permettent le raccordement de plusieurs sources d’alimentation. NOTE: ces “power taps”sont requis si l’alimentation se fait hors d’un cabinet de raccordement .

9. Cablage Devicenet rouge blanc Fil nu bleu noir +24VDC ( V+ ) CAN-H Shield CAN-L +0VDC ( V- ) • 5 Conducteurs, 1 paire pour le 24 Volts DC power, 1 paire • pour la communication CAN, 1 Shield • Courant Maximum en 24 Volts DC avec du cable “thick” et du cable plat, de 8 amp. Cependant, certaines regulations du code électrique, limite ce courant à 4 amp. Avec le cable “thick”. • Courant maximum en 24 Volts DC avec du cable “thin” limité a 3 amp.

10. Topologie P/S Trunk Distance Tap Termination Termination Trunk Noeud Noeud Daisy Chain Noeud max 20 feet Noeud Noeud Longueur du Trunk Noeud Noeud Noeud Noeud Noeud Noeud Zero Drop Drops “drop” en branche

11. Terminaison • Résistance de fin de ligne de 120 ou 121 Ohms, 1/4 Watt • Elles DOIVENT etre placées à la fin de chaque extrémité du “trunk”, entre le fil blanc et le bleu . • Existent en version scellée et ouverte

12. Terminologie • “Trunk” & “Drops” • Le “Trunk” constitue la “colonne vertebrale” du réseau . • Les “Drops” relient les équipements au “trunk”. Longueur maximale: 20 pieds. • Il existe 3 types de cables: Thick, Flat, et Thin • Thick & Flat supportent 8 amps . • Thin supporte 3 amps . • TOUT les types de cable peuvent servir de “Trunk”

13. Cable Budget - Thick Trunk Data Rates 125 Kbaud 250 Kbaud 500 Kbaud Trunk Distance 500m (1640 ft) 250m (820ft) 100m (328 ft) Max. Drop Length 20 ft 20 ft 20 ft Cumulative Drop 512 ft 256 ft 128 ft Number of nodes 64 64 64

14. Cable Budget - Thin Trunk Data Rates 125 Kbaud 250 Kbaud 500 Kbaud Trunk Distance 100m (328 ft) 100m (328 ft) 100m (328 ft) Max. Drop Length 20 ft 20 ft 20 ft Cumulative Drop 512 ft 256 ft 128 ft Number of nodes 64 64 64

15. Cable Budget - Flat Trunk Data Rates 125 Kbaud 250 Kbaud 500 Kbaud Trunk Distance 420m (1378 ft) 200m (656 ft) 75m (246 ft) Max. Drop Length 20 ft 20 ft 20 ft Cumulative Drop 512 ft 256 ft 128 ft Number of nodes 64 64 64

16. Types de connecteurs Mini Quick Disconnect 18mm Micro Quick Disconnect 12mm “Terminal Strip” Style Connector Cable

17. Sealed T-Taps • Tee Tap • Keyed left & right • Field Installable trunk line connectors • screw type • Trunk line segments • molded minior micro connectors • various lengths • Drop lines • mini or micro molded connectors • up to 20ft • mini, micro or pigtail at sensor

18. KwikLinkFlat Cable • Requirements – Modulaire – Faible cout – Temps d’installation minime – Format compact – Compatible avec les media existants – NEMA 6P & 13, IP 67

19. DevicePort Multiport Tap micro quick disconnects various configurations DeviceBox Multiport Tap 2, 4, 8 Multi-Port Sealed Media Trunk Trunk DeviceBox™ DevicePort™ Drop (to Trunk) Drop Drop

20. Typical Sealed-Style Taps Tee Taps Trunk line segments -molded mini-connectors Field Installable trunk line connectors -screw type -crimp type Drop lines - molded connectors - 0 to 6 m (20 ft.) - mini or micro at device Multiport Taps

21. Open Style Taps Trunk • Zero length drop using 1787-Plug10R with probe cable support Dropline Open Style Device Open Style Device Open Style Device Open Style Device Sealed Control Enclosure

22. Thick Cable Description • Signal pair (#18), blue/white • Power pair (#15), black/red • Foil/braid shield with drain wire(#18) • PVC/nylon insulation on power pair • Industrial temperature range • Storage: -40o C to +85oC • Operating: -20o C to +60o C @ 8A • derate linearly to 0A at 80o C • High flexure capability • Flame resistant, UL Oil Res. II • 0.480 inch diameter

23. DeviceNet Thick Cable Thick Cable Belden AB number Grey PVC 3082A YR-29790 Yellow CPE 3083A YR-39659 Beldfoil Aluminum/Polyester Shield Vinyl Jacket .480” O.D. Blue & White Data Pair Datalene Insulation Polypropylene Fillers 18 AWG. Tinned and Stranded Copper Conductors 15 AWG. Tinned and Stranded Copper Conductors 65% Coverage Tinned Copper Braid Shield Stranded Drain Wire Tinned Copper 18 AWG. Red & Black DC Power Pair PVC/Nylon Insulation

24. Thin Cable Description • Signal pair (#24), blue/white • Power pair (#22), black/red • Foil/braid shield with drain wire(#22) • PVC/nylon insulation on power pair • Industrial temperature range • Storage: -40o C to +85oC • Operating: -20o C to +70o C @ 1.5A • derate linearly to 0A at 80o C • High flexure capability • Flame resistant, UL Oil Res. II • 0.270 inch diameter

25. DeviceNet Thin Cable Thin Cable Belden AB number Grey PVC 3084A YR-29832 Yellow CPE 3085A YR-39660 Beldfoil Aluminum/Polyester Shield Vinyl or CPE Jacket .270” O.D. Polypropylene Fillers Blue & White Data Pair Datalene Insulation Overall Mylar Tape 24 AWG. Tinned and Stranded Copper Conductors 22 AWG. Tinned and Stranded Copper Conductors Stranded Drain Wire Tinned Copper 22 AWG. 65% Coverage Tinned Copper Braid Shield Red & Black DC Power Pair PVC/Nylon Insulation

26. KwikLink 4-wire Flat Cable

28. Network Grounding V- V+ • V- ( Black Wire ) and Shield ( Bare Wire ) MUST be connected to a good earth ground at only one location on a DeviceNet System. Signal . Signal . Shield . V- V+ Power Tap . . 24 VDC Power Supply

29. Single Supply Configuration up to 500 m • Characteristics and Advantages • Power supplies can be located anywhere on the network • Must consider IR losses along cable • Greater current than most comparable networks • Up to 8 amps (NEC limits to 4 amps) • Power supplies are standard, low cost models up to 500 m up to 500 m N32 N1 power supply N33 N64

30. Two Supply Configuration( Current Boost ) • Characteristics and Advantages • Loads shared by supplies so same low cost supplies are used • Substantially more current • Still 8 amp limit on any branch of the trunk ( NEC limit of 4 Amps) • Supplies can be located anywhere (consider IR losses) up to 500 m N1 Power Supply N32 N33 Power Supply N64

31. V+ Power Conductor V- Power Conductor Topology for Power Along the Bus Optional Second Supply 24 V Power Supply 24 V Power Supply Node Node Node Node CAN-H, CAN-L, Shield

32. Producer/Consumer Networks can support ALL three Connection Relationships • One-to-One • Multicast (One-to-Many) • Broadcast (One-to-All) • Mix and Match on the same network

33. Producer/Consumer Networks can support ALL three Hierarchies • Master/Slave • Multimaster • Peer-to-Peer • Mix and Match on same network • Explicit and Implicit Message types

34. Producer/Consumer Networks can support ALL three I/O Data Exchange Methods • Polling • Cyclic • Change-of-State (COS) • Mix and Match • Master/Slave, Multimaster, Peer-to-Peer • One-to-One, Multicast, or Broadcast

35. Replacing Devices • Set node address, data rate (or Autobaud) • Configure device parameters • Connect device to system • Slave devices must pass electronic “key” • device type • manufacturer • part number • NEW! Auto Device-Replace ( ADR )

36. Replacement Device Replacement Device Replacement Device #63 #63 #55 Auto Device Replace ( ADR ) • RSNetworx for DeviceNet software must be used to configure ADR feature. • ADR consists of two parts which are Node Recovery and Configuration Recovery. Node Recovery causes the node number of the replacement device to be automatically changed to the node number of the original device. This feature requires that the replacement device’s node number to modified over the DeviceNet network and its node number must be 63 to begin with. • Configuration Recovery will cause the replacement devices configuration to be made identical to the original device. The replacement device must be able to have its configuration written over the DeviceNet network. Configuration Recovery files are stored in the master scanner that is communicating with the original device by RSNetworx. • Electronic key of replacement device MUST match the original device exactly. Original Device Node Recovery #55 Configuration Recovery

37. DeviceNet Products

38. Third Party Devices Third Party Devices Third Party Devices SMP3 A-B DeviceNet Products DH485/DH+ DH+/ControlNet/Ethernet SLC-5/02, 5/03, 5/04 DeviceLink I/O w/standard sensor PLC-5/xx 1747-SDN Scanner RIO 1771-SDN Scanner DeviceNet Physical Media 1770-KFD RS-232 PC I/F 1203 DeviceNet Interface Series 9000 Photoelectric 1794-ADN Adapter for Flex I/O 800T RediSTATION DeviceNet Config s/w SMP-3 Smart Motor Protector, SMC Dialog Plus 1305, 1336 Drives AdaptaScan Bar Code Reader DeviceNet Manager V3.04

39. 871-TM Prox 18mm & 30mm PanelView 550, 900 DeviceNet Products 1784-PCIDS Scanner Card 1761-NET-DNI SLC-5/02, 5/03, 5/04 DTAM Plus DTAM Micro PLC-5/xx 1771-SDN/B Scanner 1747-SDN/B Scanner physical media 1784-PCD PCMCIA I/F 160 SmartSpeed Controller ArmorBlock I/O and Low Profile Armor Block I/O DeviceView Smart Motor Controller RSServer WIN DNet16 RSNetworx for DeviceNet FlexPak 3000 & GV3000 Drives IMC S-Class 1394 GMC 825 Smart Motor Manager Dodge EZlink sensorized bearing

40. 1770-KFD DETAILS

41. 1770-KFD Fun Facts • The 1770-KFD is not a true RS232 to DeviceNet converter. The KFD is actually a buffering interface between the two networks. The RS232 device connected to the KFD is actually running a DeviceNet driver to communicate through the KFD. • 1770-KFD can NOT be put on-line unless at least one other node is also on the network. At least one other node must Ack the 1770-KFD Dup Mac Check. • The RS232 led on the KFD must blink when there is correct RS232 communication to the KFD. If not, then there is some configuration conflict in the computer that keeps the COM port on the computer from being used for the KFD. • 1770-KFD firmware is NVS Flash Tool upgradable. • If the KFD is connected to a network that has a 24VDC power supply attached, the use of an AC adapter connected to the jack on the KFD is NOT necessary. • An AC adapter, connected to the KFD, can source 60 ma of DC current for point-to-point connections to devices. • 1770-KFD contains a built in terminating resistor for point to point use.

42. 1784-PCD PCMCIA DeviceNet Interface Card

43. DeviceNet PCMCIA Interface(1784-PCD or 1784-PCDS) • PCMCIA card for PC connectivity to DeviceNet • Use PC to configure devices, monitor data, or perform simple maintenance functions • Type II compatible • Autobaud capable • Cabling scheme makes use of 1770-KFD cable options • Operating system drivers for Windows 3.x, Windows 95/98 and NT • Works with DeviceNet Manager and RSNetworx for DeviceNet software

44. FlexI/O DETAILS

45. 1794-ADN FlexI/O Fun Facts • Node Number is set via pushwheels on the 1794-ADN adapter. • Baud rate is handled via autobaud automatically by the 1794-ADN. • Current firmware revision is V2.01 as of 3/25/97. This also handles Change of State and Cyclic messaging. • Firmware is flash upgrade-able over the DeviceNet network using the NVS update tool on a PC. • When fresh out of the box a 1794-ADN will actively read what modules are in its rack on every powerup. It will use the default sizes shown in the following slides for each module contained in its rack to determine its Rx and Tx size. However, as soon as a specific configuration is stored to the 1794-ADN using the FlexI/O tool in RSNetworx or DeviceNet Manager, the 1794-ADN will lock in that configuration. The 1794-ADN will not automatically scan the rack anymore and will error if the rack configuration doesn’t match what it expects. The configuration is stored in the 1794-ADN and if the ADN goes bad. Someone will have to download the configuration to the replacement ADN before it will work the same as the original one. This complicates module replacement a lot. To clear out a configuration in an ADN and go back to “Fresh Out of the Box Mode” select the Clear Memory feature in the FlexI/O configuration tool in the RSNetworx or DeviceNet Manager. Note: Clear Memory will not operate if a network master is scanning the 1794-ADN at the same time. Disconnect the master from the network or disable scan list entry for the FlexI/O in the master before attempting a Clear Memory.

46. 1794-ADN FlexI/O Fun Facts ( Continued ) • Do NOT supply power to the 1794-ADN adapter from the network 24 VDC power, as tempting as it looks. The 1794-ADN and other FlexI/O modules draw a lot of power ( up to 400ma ) and you could run out of current quickly or get bitten by Common Mode Voltage at longer distances. • 1794-ADN User Manual is Publication 1794-6.5.5. This manual shows how to configure the ADN and shows data sizes for most FlexI/O modules. • Be careful when assembling the 1794 Terminal Bases to the 1794-ADN adapter, as the pins in the side of the ADN and Terminal Bases are fragile and bend over easily causing erratic operation in the FlexI/O rack. A good way to determine if a pin is bent over is to remove each module from the FlexI/O rack and note if the network led blinks red until the module is replaced. This is desirable behavior and if the led does not blink upon module removal, then a pin is bent over. • Series B hardware is electrically identical to Series A except for a few cosmetic differences. Series B Phoenix connector has jack screws and there is a 3rd led to show power on the module. • UCMM Capable Device

47. Flex I/O 1794-OB16 and Other Discrete Outputs Data Usage Consumes 1 word of output data word 0 16 bits of output (1 bit per output) Produces 1 word of input data word 0 Fuses blown (1 bit per output) (May not be applicable with all Modules)

48. 871TM SmartProx DETAILS

49. 871 TM SmartProx Fun Facts • The Node Number is set via the Node Commissioning utility in the RSNetworx, DeviceNet Manager and DeviceView hand held configurator. • Baud rate set via autobaud which can be disabled if desired. • Supports Change of State and Strobing message types in Series A. Will add Poll message type support in Series B. • Comes in 18mm and 30mm sizes with micro connectors, mini connectors and cable connections to network. • Features include counter capability, motion detect, analog output, On/Off delays and teach/learn mode.

50. 871 TM Prox Data Descriptions