PRODUCT DETAILS
1794-ACN15 — FLEX I/O ControlNet Adapter Module, 1.5 Mbps
The 1794-ACN15 is the ControlNet adapter for the 1794 FLEX I/O system. It connects a FLEX I/O node to a ControlNet network at 5 Mbps via two coaxial BNC connectors (A and B ports for redundant coax), presenting up to eight attached I/O modules to the controller as a remote I/O device. Where the 1794-AENT connects FLEX I/O to an EtherNet/IP infrastructure, the 1794-ACN15 serves systems built on ControlNet — a deterministic, time-scheduled network that was widely deployed before EtherNet/IP became the dominant industrial Ethernet protocol.
Specifications
| Parameter | Value |
|---|---|
| Part Number | 1794-ACN15 |
| Platform | FLEX I/O (1794) |
| Network Protocol | ControlNet (CTNET) |
| Network Speed | 5 Mbps |
| Connectors | 2 × BNC (Channel A and Channel B — redundant coax) |
| Node Address | 1–99 (set via front-panel rotary switches) |
| Max I/O Modules per Node | 8 |
| I/O Messaging | Scheduled (cyclic) and unscheduled (explicit) |
| Redundant Media | Yes — simultaneous dual coax operation |
| Backplane Current (5V) | 600 mA available to I/O modules |
| Control Power | 24V DC (field power rail) |
| Operating Temperature | 0°C to 55°C |
| Standards | ControlNet International conformance tested, UL 508, CE |
ControlNet vs. EtherNet/IP for FLEX I/O
ControlNet is a deterministic, time-division multiplexed network. The network allocates scheduled time slots for each node's cyclic I/O data exchange — a node's update interval is guaranteed regardless of network load from other traffic. This makes ControlNet inherently predictable in a way that standard EtherNet/IP on an unmanaged network cannot fully guarantee. For process control systems where I/O update jitter must be bounded — pressure control on fast-acting valves, tension control, coordinated multi-zone temperature control — ControlNet's determinism was a primary selection criterion.
In new system designs, EtherNet/IP with a managed switch and QoS configuration achieves comparable determinism for most applications, which is why ControlNet is rarely specified for new installations. The 1794-ACN15 remains relevant for two scenarios: maintaining and expanding existing ControlNet installations, and replacement of failed adapter modules in systems where a ControlNet-to-EtherNet/IP migration hasn't been planned or scheduled.
ControlNet Network Setup Requirements
ControlNet uses RG-6 coaxial cable with BNC connectors. Both Channel A and Channel B connect independently — Channel A is the primary; Channel B is the redundant media. If the Channel A cable fails or is severed, the network continues on Channel B without interruption. Both channels carry the same traffic simultaneously; the adapter selects the better-quality signal from the two.
The network must be properly terminated at both ends of the trunk cable. ControlNet trunk terminators (75 Ω) are required at the physical ends of the network — missing or incorrect termination causes signal reflections that manifest as communication errors on all nodes. Node address is set via two rotary switches on the adapter face (tens digit and units digit) — each node on the network must have a unique address in the range 1–99. Address 0 is reserved; addresses above 99 are not valid. RSNetWorx for ControlNet is used to configure the network schedule — cyclic I/O connections must be scheduled before they will carry data.
FAQ
Q: Can the 1794-ACN15 be replaced with a 1794-AENT for EtherNet/IP migration without changing the I/O modules?
Yes. The FLEX I/O terminal base chain and I/O modules remain in place. Replace the adapter at the node head and reconfigure the I/O modules in Studio 5000 under an EtherNet/IP-based I/O tree. Controller program tag paths change from ControlNet addressing to EtherNet/IP I/O tags — the program requires updates, but physical field wiring is preserved.
Q: What is the maximum number of nodes on a ControlNet segment?
Up to 99 nodes per ControlNet segment (addresses 1–99). The practical node count that maintains acceptable update rates depends on the total data volume scheduled — as more nodes are added with faster update rates, the network bandwidth fills and update intervals for all nodes lengthen.
Q: Does the adapter need to be reconfigured in RSNetWorx after a firmware update?
The network schedule configuration is stored in the network keeper (typically the scanner module in the controller chassis), not in the adapter itself. Replacing the adapter or updating its firmware doesn't require changes to the RSNetWorx schedule — but verify the adapter's node address and connection settings are correct after replacement.
Q: Can Channel A and Channel B be connected to completely separate cable paths?
Yes, and this is the recommended practice for full media redundancy. Route Channel A and Channel B cables through different physical paths — separate cable trays, conduits, or even separate buildings. A fire, physical damage, or maintenance cut to one path leaves the other intact and the network operational.



