Wiring – LumaSense Technologies M67 User Manual

M67, M67S Manual

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8. Wiring

8.1 Wiring the M67/M67S

The INFRADUCER requires a D.C. power supply that provides a minimum of 18 volts, and a maximum of 40 volts. The

supply voltage is dependent on the circuit resistance. See Table 2 for required voltages. DO NOT EXCEED 40 VDC across

the terminals of the INFRADUCER. shows the connections. They are plus (+), minus (-) and ground as marked on the rear

panel. When the cooling jacket is used, remove the rear cap to expose the INFRADUCER. For best results, use twisted pair,

shielded cable. DO NOT RUN CABLE IN CONDUITS THAT CONTAIN A.C. POWER LINES since this could induce

unwanted noise signals in the current loop. See Figure 20 and Figure 21 for typical loop wiring.
A typical loop wiring diagram is shown in Figure 20. Locate the D.C. power supply behind (or inside) your system control

panel (or cabinet). Mount the receiver, indicator, controller, recorder, etc. on your control panel or cabinet. The two-wire cable

connects these items in series as shown in the diagram. If the plus (+) and the minus (-) on the INFRADUCER connections are

reversed, no signal will flow. (No damage will occur).
All 4-20 mA receiver instruments have input resistance specified in their instructions. Resistance can be typically from 1 to

1000 ohms. When using the INFRADUCER to drive more than one receiver, the sum of the resistances will be the total loop

resistance. When a very long cable is used, the total resistance of the wire in both directions must be added. (The minimum

supply voltage that can be used depends on the total loop resistance). When specifying the D.C. power supply to be used in

your system, refer to the table below to find the minimum requirements.

DC Supply Volts

18

19

20

21

22

23

24

25

26

27

28

29

Max. Resistance Ohms 100 150 200 250 300 350 400 450 500 550 600 650

DC Supply Volts

30

31

32

33

34

35

36

37

38

39

40

Max. Resistance Ohms 700 750 800 850 900 950 1000 1050 1100 1150 1200

Table 2 - Maximum circuit resistance for infraducer power supply

Example: The INFRADUCER is to drive a recorder and digital indicator.

The recorder input impedance is 250 ohms.
The digital indicator impedance is 100 ohms.
The resistance of the line is 2 ohms (each conductor).
Total loop resistance equals 354 ohms.

(Note: In D.C. circuits, resistance and impedance are synonymous).
Using the table, look up the next higher value (max. ohms is 400). You need a D.C. supply of at least 22 volts for a reliable

system; a 24 volts standard supply is sufficient. If you plan to add receiver instruments in the future, specify a higher supply

voltage. If you plan to add more INFRADUCERS, specify a supply capable of delivering approximately 22 mA times the

number of units planned. Some receiver instrument specify the loop voltage drop instead of input resistance. In this case, add

this figure to minimum supply voltage found using the Table above.
Example: The recorder input is 250 ohms.

The digital indicator has a 5.6 volts drop in the loop.
The line resistance is again 4 ohms total.
Total loop resistance now is 254 ohms.
Look up 300 ohms in the Table above to find that the supply must be 20 volts minimum. Add the

digital indicator's voltage drop.
20 volts + 5.6 volts = 25.6 volts D.C.
The power supply has to be at least 25.6 volts for the loop to operate. You can select, for example,

any supply from 26 to 40 volts D.C.