Det-Tronics EA2100CG Eagle 2000 Communication Gateway User Manual

Temperature.

Resistance increases as operating tem-

perature rises. Calculate resistance at a worst case
temperature of 75˚C. See Table 5.

Type of device.

Refer to the “Specifications” section for

current ratings. Always consider the maximum (not
nominal) current draw of each device. This typically
occurs at startup and/or when relays are energized.
Note that combustible gas DCUs draw considerably
more current than other DCU models.

Number of units per wiring run.

Add the totals of all

units on the wiring run.

Allowable voltage drop.

The DCU needs a minimum

of 18 vdc (measured at the DCU) to ensure proper oper-
ation. Subtract 18 vdc from the power supply output
voltage to determine the maximum allowable voltage
drop.

The maximum wiring limits can be calculated using
Ohm’s law and the information in Table 5.

Example A:

What is the longest wiring distance for one com-
bustible gas DCU using 18 AWG wire?

NOTE

For the following examples, assume that a 24 vdc
nominal power supply is being used. A com-
bustible gas DCU draws approximately 500 ma at
startup.

24 vdc (power supply output) minus 18 vdc (mini-
mum voltage required) = 6 vdc (maximum allow-
able voltage drop).

Voltage ÷ Current = Resistance (Ohm’s law)

Maximum allowable voltage drop ÷ maximum cur-
rent draw = maximum allowable resistance

6 vdc ÷ 500 ma = 12 ohms

12 ohms ÷ 7.765 (resistance for 1000 ft. 18 AWG
wire) = 1.55

1.55 x 1000 = 1550 feet

Example B:

How many combustible gas DCUs can operate at
the end of a 1000 foot length of 14 AWG wire?

Voltage ÷ Resistance = Current (Ohm’s law)

Maximum allowable voltage drop ÷ resistance for
1000 ft. of 14 AWG wire = maximum current draw

6 vdc ÷ 3.071 ohms = 1.95 amps

1.95 amps ÷ 500 ma (current draw per unit) = 4
units

Example C:

What wire size is needed to power 10 combustible
gas DCUs at a distance of 500 feet from the power
supply?

10 units x 500 ma (maximum current draw per
unit) = 5 amps (total current draw at startup)

Voltage ÷ Current = Resistance (Ohm’s law)

Maximum allowable voltage drop ÷ Total current
draw = maximum allowable resistance for 500 feet
of wire

6 vdc ÷ 5 amps = 1.2 ohms

500 feet of 12 AWG wire is 0.9665 ohms

NOTE

The following section provides a general description
of the basic procedure for installing the Eagle sys-
tem. Before wiring any Eagle device, refer to the
instruction manual that was provided with the device
for complete installation and wiring instructions:

Communication Module

95-8425

DCU

95-8426

Network Extender

95-8430

Relay Module

95-8423

Gateway

95-8424

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