Dupline Plug & Play Master Module Interface for Allen Bradley PLC Type G 3496 0006 Allen Bradley Master Plug and play: Automatic communication with specific PLC/Controllers Built-in normal Dupline Channel Generator 128 I/Os and DC power supply on 3 wires RS232 port for interfacing to control system Split-I/O mode selectable (128 inputs and 128 outputs) LED-indications for supply, Dupline carrier and Com- port TX Galvanically isolated Com-port supplied by internal DC/ DC converter Product Description Ordering Key G 3496 0006 700 G 3495 0006 is designed as Dupline channel generator, Type: Dupline a cost-effective solution for power supply synchroniza- H4-Housing interfacing Dupline I/Os to tion (enables 3-wire system Combined module Allen Bradley PLCs the SLC with supply) and RS232 Interface type 500 and Micrologix families. interface. DC supply It performs three functions: Type Selection Supply PLC Interface Conformance Ordering no. 20-30 VDC MicroLogix 1000, 1200 and 1500. SLC5-03, SLC5-04 and SLC5-05. G 3496 0006 Input/Output Specifications Supply Specifications Power Output Power supply Overvoltage cat. III (IEC 60664) Output voltage 20-30 VDC (pulsating) Operational voltage (V ) 20-30 VDC in Output current < 3.0 A 50C Reverse polarity protection None Short circuit protection 4 A quick acting fuse Current consumption < 150 mA + Power load Output voltage drop < 1.0 V Power consumption < 5 W Dupline carrier Transient protection voltage 800 V Output voltage 8.2 V (pulsating) Dielectric voltage Current < 60 mA Supply Dupline None Short circuit protection Yes Supply Com-port 1 kVAC (rms) Scan time 128 channels 132.2 ms Note: Use individual power supplies for all G349600xx700, 64 channels 69.8 ms as the input are not galvanic isolated from each other. Communication Port Standard RS232 Connection 9 pole female Sub-D General Specifications Dielectric voltage Com-port-Dupline 1 kVAC (rms) Power ON delay 2 s Protocol DF1 Channel Configuration in PLC Indication for Driver DF1 Full Duplex Com-port TX LED, red Source ID 1 Supply ON LED, green Baud rate 9600 Dupline carrier LED, yellow Data bits 8 Start bit - Environment Stop bit 1 Pollution degree 2 (IEC 60664) Parity None Operating temperature 0 to +50C (+32 to +122F) Flow-control None Storage temperature -50 to +85C (-58 to +185F) Error detection CRC or BCC Humidity (non-condensing) 20 to 80% Pin assignment RS232 Mechanical resistance TX 1 Shock 15 G (11 ms) Rx 9 Vibration 2 G (6 to 55 Hz) GND 5 Dimensions H4-Housing Weight 100 g Specifications are subject to change without notice (04.12.2014) 1 G 3496 0006 Mode of Operation The Dupline Master Module Dupline I/0s will be read/ will also be activated. Dupline output(s) coded to (DMM) controls a 3-wire bus written by the DMM and then B5. The Dupline outputs are with signal, DC-power and sent to the PLC. Consequently, a Dupline - controlled exclusively through common GND. The DMM output can either be activat- the output data received from is connected to a standard The DMM can run in two dif- ed through the output-data the PLC. In this mode, up DC-supply, which it synchron- ferent modes Normal mode received on DMM or by an to 128 Dupline inputs and izes with the Dupline carrier and split I/O mode. In Normal active Dupline input coded for 128 Dupline outputs are signal before it is output to mode, Dupline operates as the same Dupline -address. In available, since an input and supply. The synchronization is a peer-to-peer system, where Split I/O mode, the channel an output coded to the same necessary in order to enable the channel generator auto- generator treats the Dupline Dupline address can operate the Dupline and DC-supply to matically establishes a con- inputs and Dupline outputs independently. share the GND-wire. nection between Dupline independently. If e.g. an input inputs and Dupline outputs coded for B5 is activated, the The Dupline Master Module is which are coded to the same DMM will make the informa- a Dupline Channel Generator Dupline address. If e.g. an tion available for the PLC (like with the function of a mas- input coded for B5 is activat- in normal mode), but it will ter. This means that the 128 ed, the output(s) coded for B5 not automatically activate the Memory Mapping Dip-Switch Setting Configuration of data file in RSLogix 500 Programming Sw.2 On: Checksum CRC Off: Checksum BCC DATA FILE MicroLogix & SLC Sw.4 On: Split I/O Channel Generator Mode Type: 1000 Type: Other Off: Normal Dupline Monostable Channel File 7 9 Generator Mode Sw.5 On: 64 Dupline channels Type N (Integer) N (Integer) Off: 128 Dupline channels Elements 16* 16* Sw.6 On: Maintain data to Dupline receivers in case of communication failure *Registers 0-7: Dupline Input Channels A1 to P8. Off: Clear data to Dupline receivers in case of Registers 8-15: Dupline Output Channels A1 to P8. communication failure after 75 Dupline scans Table of the memory mapping to the PLC Table of the memory mapping to the PLC (Except MicroLogix 1000) (Only MicroLogix 1000) Dupline MicroLogix & SLC Dupline MicroLogix & SLC Dupline MicroLogix 1000 Dupline MicroLogix 1000 Channel Channel Channel Channel Read Write Read Write Read Write Read Write A1 N9: 0/0 N9: 8/0 E1 N9: 2/0 N9: 10/0 A1 N7: 0/0 N7: 8/0 E1 N7: 2/0 N7: 10/0 A2 N9: 0/1 N9: 8/1 F1 N9: 2/8 N9: 10/8 A2 N7: 0/1 N7: 8/1 F1 N7: 2/8 N7: 10/8 A3 N9: 0/2 N9: 8/2 G1 N9: 3/0 N9: 11/0 A3 N7: 0/2 N7: 8/2 G1 N7: 3/0 N7: 11/0 A4 N9: 0/3 N9: 8/3 H1 N9: 3/8 N9: 11/8 A4 N7: 0/3 N7: 8/3 H1 N7: 3/8 N7: 11/8 A5 N9: 0/4 N9: 8/4 I1 N9: 4/0 N9: 12/0 A5 N7: 0/4 N7: 8/4 I1 N7: 4/0 N7: 12/0 A6 N9: 0/5 N9: 8/5 J1 N9: 4/8 N9: 12/8 A6 N7: 0/5 N7: 8/5 J1 N7: 4/8 N7: 12/8 A7 N9: 0/6 N9: 8/6 K1 N9: 5/0 N9: 13/0 A7 N7: 0/6 N7: 8/6 K1 N7: 5/0 N7: 13/0 A8 N9: 0/7 N9: 8/7 L1 N9: 5/8 N9: 13/8 A8 N7: 0/7 N7: 8/7 L1 N7: 5/8 N7: 13/8 B1 N9: 0/8 N9: 8/8 M1 N9: 6/0 N9: 14/0 B1 N7: 0/8 N7: 8/8 M1 N7: 6/0 N7: 14/0 B8 N9: 0/15 N9: 8/15 N1 N9: 6/8 N9: 14/8 B8 N7: 0/15 N7: 8/15 N1 N7: 6/8 N7: 14/8 C1 N9: 1/0 N9: 9/0 O1 N9: 7/0 N9: 15/0 C1 N7: 1/0 N7: 9/0 O1 N7: 7/0 N7: 15/0 D1 N9: 1/8 N9: 9/8 P1 N9: 7/8 N9: 15/8 D1 N7: 1/8 N7: 9/8 P1 N7: 7/8 N7: 15/8 2 Specifications are subject to change without notice (04.12.2014)