Multiple network redundancy protocols for data flow using the same physical interface

The invention claimed is: 1. A method of operating a process control system (PCS), comprising: providing the PCS comprising: a communication network comprising a first node comprising a process controller and a second node comprising an input/output (I/O) access device, wherein the process controller and the I/O access device are communicatively connected by a cable connection, wherein the cable connection comprises: a plurality of physical cables including a first cable between the process controller and the I/O access device and a second cable independent from the first cable connected between the process controller and the second node comprising the I/O access device or another device, wherein the process controller and the I/O access device each comprise a processor and a memory that implement send and receive logic for communicating using any of multiple redundancy protocols including a first redundant protocol and a second redundant protocol, and simultaneously communicating using the cable connection between the process controller and the second node utilizing both the first redundant protocol and the second redundant protocol, wherein: at least one I/O module in the communication network is coupled to receive an output of the I/O access device, the at least one I/O module is coupled to a field device which is coupled to processing equipment, the first redundant protocol is implemented for critical communication and the second redundant protocol is implemented for normal communication, for the simultaneous communication, by utilizing the first cable and the second cable, and the process controller, the I/O access device, and plurality of switches, each implement two separate virtual local area networks (VLANs) as a first VLAN and a second VLAN, wherein the first VLAN is used for the critical communication and the second VLAN is used for the normal communication simultaneously, wherein the two separate VLANs implemented to segregate data communications for different data flows across the two separate VLANs. 2. The method of claim 1 , wherein the first cable and the second cable are in parallel to one another to provide a first cable pair, further comprising a second cable pair comprising a third cable and a fourth cable in parallel to the third cable, wherein the second cable pair is in series with the first cable pair, further comprising a plurality of switches between the first cable pair and the second cable pair so that the cable connection comprises a switched cable connection. 3. The method of claim 2 , wherein the first redundancy protocol comprises a fault tolerant ethernet protocol, and wherein the second redundancy protocol comprises a parallel redundancy protocol (PRP). 4. The method of claim 1 , wherein another device comprises the I/O access device, and wherein the first cable, the second cable, the process controller, and the I/O access device are connected in a ring. 5. The method of claim 4 , wherein the first redundancy protocol comprises High-availability Seamless Redundancy (HSR), and wherein the second redundancy protocol comprises DLR (Device level Ring networks) or MRP (Media Redundancy Protocol). 6. The method of claim 1 , wherein the I/O access device is configured such that the process controller may communicate through the at least one I/O module. 7. The method of claim 1 , further comprising configuring the process controller and the second node with a first tag representation for the first redundant protocol and a second tag representation for the second redundant protocol, the first and second tag representations for insertion as a field into a packet for transmission for the simultaneously communicating implementing directing a dataflow in the cable connection by selecting between the first redundant protocol and the second redundant protocol. 8. The method of claim 1 , wherein the cable connection includes a security lock which automatically adds encryption to only one of the first redundant protocol and the second redundant protocol. 9. The method of claim 8 , wherein the process controller and the I/O access device include a manufacturer certificate for establishing the security lock. 10. A process control system (PCS), comprising: a communication network comprising a cable connection including a plurality of physical cables including a first cable for connecting between a process controller and an I/O access device, and a second cable independent from the first cable for connecting between the process controller and a second node comprising the I/O access device or another device, the I/O access device coupling to at least one I/O module that is coupled to receive an output of the I/O access device, with an output of the I/O module coupled to a field device which is coupled to processing equipment, wherein the process controller and the I/O access device each comprise a processor and a memory that implements a send and receive logic for communicating using any of multiple redundancy protocols including a first redundant protocol and a second redundant protocol, wherein the send and receive logic is for configuring the cable connection for supporting simultaneously communicating between the process controller and the second node utilizing both the first redundant protocol and the second redundant protocol, the first redundant protocol is implemented for critical communication and the second redundant protocol is implemented for normal communication, for the simultaneous communication, by utilizing the first cable and the second cable, and the process controller, the I/O access device, and plurality of switches, each implement two separate virtual local area networks (VLANs) as a first VLAN and a second VLAN, wherein the first VLAN is used for the critical communication and the second VLAN is used for the normal communication simultaneously, wherein the two separate VLANs implemented to segregate data communications for different data flows across the two separate VLANs. 11. The PCS of claim 10 , wherein the first cable and the second cable are in parallel to one another to provide a first cable pair, further comprising a second cable pair comprising a third cable and a fourth cable in parallel to the third cable, wherein the second cable pair is in series with the first cable pair, further comprising a plurality of switches between the first cable pair and the second cable pair so that the cable connection comprises a switched cable connection. 12. The PCS of claim 11 , wherein the first redundancy protocol comprises a fault tolerant ethernet protocol, and wherein the second redundancy protocol comprises a parallel redundancy protocol (PRP). 13. The PCS of claim 10 , wherein another device comprises the I/O access device, and wherein the first cable, the second cable, the process controller, and the I/O access device are connected in a ring. 14. The PCS of claim 13 , wherein the first redundancy protocol comprises High-availability Seamless Redundancy (HSR), and wherein the second redundancy protocol comprises DLR (Device level Ring networks) or MRP (Media Redundancy Protocol). 15. The PCS of claim 10 , wherein the I/O access device is configured such that the process controller may communicate through the at least one I/O module. 16. The PCS of claim 10 , wherein the communications network implements a first tag representation for the first redundant protocol and a second tag representations for the second redundant protocol configured at the process controller and the second node, the first and second tag representations for the simultaneously communicating