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Dual Bus with Floating Master: GDB Control Strategy
This type of system uses dual buses with bus controllers in each PLC. No switchover occurs on initial synchronization to make the Primary Unit the Active Unit. Bus Switching Modules (BSMs) are required in accordance with the traditional configuration of a Dual Bus network. This option provides redundancy of both the PLC and the I/O bus.
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| Primary Unit |
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| P | C | B | R |
| G | G |
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| P | C | B |
| R | G | G |
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| S | P | T | C |
| B | B |
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| U | M | M |
| C | C |
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| 30 | 30 |
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| 31 | 31 |
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Critical Data + Redundant
Outputs Transferred
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| O |
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Bus Switching Module
The Dual Bus with floating master setup is suitable if:
A.The application requires redundancy of the PLC and I/O bus, AND
B.The Active unit should not switch when the Primary Unit is returned to service.
Dual Bus with Floating Master requires selection of the GDB control strategy.
The GBCs must be configured with the following settings
Redundant Mode = DB/RC (Dual Bus/Redundant Controller)
Paired GBC = INT/EXT (Internal External)
Serial Bus Addr = 31 (Primary Unit) or 30 (Secondary Unit)
The I/O blocks must be configured with the following settings:
(Hand-Held Monitor) CPU Redundancy = HOT STBY MODE*
*Configuration as Duplex mode is also permitted; duplex default also needs to be properly selected. . (See “Duplex CPU Redundancy” on page
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