Network Device Installation Manual

10 Documentation Number 485T1995 Manual

B&B Electronics -- PO Box 1040 -- Ottawa, IL 61350

PH (815) 433-5100 -- FAX (815) 433-5105

See B&B Electronics' free RS-422/485 Application Note for

information on proper wiring and grounding of an RS-422/485

network.

If the POSITIVE and NEGATIVE THRESHOLD LEDs are both

off, you can then test for proper signal amplitude. With the

THRESHOLD pot turned to zero (full clockwise), the DATA LED

should blink or stay on when data is sent. When data is being sent

on the network, turn the THRESHOLD pot counterclockwise until the

LED goes out.

If, for instance, the LED goes out when the pot is pointing at .5,

then you have a differential input voltage of plus or minus .5 volts.

Both RS-422 and RS-485 require at least plus or minus .2 volts to

work properly. If your network node is below this level, you may

need a line booster, a repeater, or you may need to change your

wiring layout. Refer to B&B Electronics' free RS-422/485 Application

Note for information on network wiring. If the LED does not go out

with the THRESHOLD pot turned up to 1.0 (full counterclockwise),

then your differential input voltage is more than 1 volt. Most RS-

422/485 drivers start out with a differential of about 2 volts but the

resistance, inductance, and capacitance in the line can reduce it

considerably.

NOTE: The differential voltage you are trying to measure is the

RECEIVED voltage. You should only make the threshold

measurement when the node you are testing is RECEIVING

data, not when it is transmitting. If you have a multiple node

system with each node at a different location, you may have to

have each node transmit separately while you take a reading.

You may get a different differential voltage reading from each

node.

For example, if you have an RS-485 network with five nodes

each located 1000 feet apart for a total of 4000 feet. Node 1 is at

one end, node 2 next, etc., and node 5 is at the far end. If you

connect the 485T Tester to node 1 and watch while data is sent from

node 2, there will only be 1000 feet of wire and the signal should be

fairly strong.

However, when node 5 sends data, there will be 4000 feet of

wire and the signal will be weaker. If you have the different nodes

sending randomly it will be impossible to take a reading. You have

to have only one node sending to take a proper reading. You may

be able to turn the power off unwanted nodes to stop them from

transmitting. However, this may change the loading on the line, so

be careful using this method.