DCN1-2C Omron, DCN1-2C Datasheet - Page 61

DCN1-2C

Manufacturer Part Number

DCN1-2C

Description

DEVICENET T-TAP 1 DROP

Manufacturer

Omron

Datasheet

1.XW4B-05C4-TF-D.pdf (166 pages)

Specifications of DCN1-2C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

DCN12C

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Network Configuration

2-2-5

2-2-6

2-2-7

What is a Terminating

Resistor?

Operation without

Terminating Resistors

Operation with Too Many

Terminating Resistors

T-branch Tap Connections

Connecting Devices other than DeviceNet Products

Connecting Terminators (Terminating Resistors)

Note Terminating resistors are not built into DeviceNet devices.

The single-branch T-branch Taps (3 connectors) can be used to make a

branch from the trunk line or a branch line. It isn’t necessary to connect the

paired connectors to the trunk line. Likewise, there is no restriction on the use

of connectors in a three-branch T-branch Tap. The connectors can connect to

the trunk line or branch lines.

Although there is no restriction on the use of connectors in the T-branch Taps,

as a rule we recommend using the paired connectors for the trunk line so that

the trunk line is easy to identify.

Do not connect devices that are not DeviceNet products because incompati-

ble devices can cause signal reflection or attenuation and interfere with nor-

mal network communications.

A Terminating Resistor (commonly known as a terminator) is a resistor con-

nected to the end of the trunk line to absorb the signals sent through the net-

work, dissipating the signals as heat and preventing them from bouncing back

into the network. A Terminating Resistor is required at each end of the net-

work (trunk line).

The DeviceNet network will not function properly without Terminating Resis-

tors. Communications errors will occur, such as remote I/O communications

errors and communications timeouts.

If Terminating Resistors are attached at all T-branch Taps within the network,

the digital communications signals will be absorbed midway through the net-

work and the network will not function normally. Communications errors will

occur, such as remote I/O communications errors and communications time-

outs.

Trunk

line

Branch line

The signals in a DeviceNet network are comparable to surface waves on

water. When a stone is dropped in a bucket of water, circular waves ema-

nate from the stone and run into the sides of the bucket and the reflected

waves interfere with the waves coming from the center. As a result, the

waves from the center become distorted.

The same principle applies to the digital signals in a DeviceNet network.

When the digital signals (waves) passing through the network reach the

end of the network, the bounce back and interfere with the signals (waves)

emanating from the DeviceNet Master (center) of the network.

The Terminating Resistors absorb the digital signals at the ends of the net-

work so that they do not bounce back and distort the signals from the Mas-

ter.

Both configurations

are acceptable.

Trunk

line

Branch

line

Trunk line

Trunk

line

Trunk

line

Branch lines

Both configurations

are acceptable.

Trunk

line

Trunk

line

Branch

line

Branch

line

Section 2-2

Branch

line

Trunk

line