Instruction manual

The timeout time adjustment range depends on the port. For the RS485 and

RS232 ports, the time is adjustable in 1s increments from 0 to 500s. For the

Modbus TCP/IP protocol, the time is adjustable in 1ms increments from 500ms-

30000ms (0.5s-30.0s).

The default timeout time in all cases is 0, which disables network timeout

handling. When nonzero, timeout processing does not begin until after a valid

network packet has been received by the unit on that port. In the case of

Modbus TCP/IP, a “timeout” event will only be deemed to have occurred when

a communication lapse or abnormal socket error takes place with the specific

client device designated by the “Master IP” address: a communication lapse or

abnormal socket error with any other client will not result in a timeout event.

When the timeout time is nonzero and a communication interruption is

detected, the timeout enable selections for each point are inspected. Those

points that are found to have their timeout enable selections set to “enabled”

will then have their configured timeout values automatically written to their

assigned “source port” objects. This mechanism provides for a flexible set of

device failsafe conditions to be established on a point-by-point basis.

12.3 Point Configuration

As mentioned in section 1, the Network Gateway Series concept revolves

around a central “point database”, containing the value and access

characteristics for each network. With respect to the Network Gateway Series,

a “point” is simply an object that defines some sort of network access, mapping

and configuration data, as well as a single “value” attribute that can be read

from or written to by various communication ports or protocols.

The only restriction placed on this “central clearinghouse” concept is that only

one port can autonomously update the point’s value, “mirroring” its designated

object for other protocols to access. What this means is that although any

protocol can read from or write to a point’s internal value, most of the time that

point’s value will simply be mirroring a remote data object that resides on one of

the gateway’s subnets. The selection of what a specific point is to mirror is

performed via its “source port” selection.

For example, a point may be configured to contain Toshiba ASD parameter

mapping and Modbus master ID and register mapping information. However,

because both of these protocols act as “master” protocols, only one of them

can be allowed to continuously update the point’s value. If both master

protocols could simultaneously update the point’s internal value, it would

erratically alternate back and forth between the values designated by the

Toshiba parameter and Modbus register objects. Any “slave” protocol (Modbus

RTU slave, Metasys N2, Ethernet/IP etc.) can read from or write to a point at

any time, but only the protocol designated by the point’s “source port”