Worksheet method – Edwards Signaling eFSA250 User Manual

Appendix B: Worksheets

E-FSA64 and E-FSA250 Technical Reference Manual

217

Worksheet method

Use this worksheet to determine the maximum cable length of a notification

appliance circuit for a given number of appliances.
Use this worksheet only if all the appliances are regulated. That is, they must

have a minimum operating voltage of 16 V. For other appliances, use the

“Equation method.”

NAC cable length

NAC1

NAC2

NAC3

NAC4

Total operating current [1]

A

Load factor (eFSA64 panel)

×

0.20

0.20

0.20

0.20 V/A

Load factor (eFSA250 panel)

0.24

0.24

0.24

0.24

Load voltage drop

=

V

Source voltage

20.4

20.4

20.4

20.4

V

Load voltage drop

−

V

Minimum voltage

=

V

Regulated appliance voltage

−

16.0

16.0

16.0

16.0

V

Voltage drop [2]

=

V

Total operating current

÷

A

Maximum resistance

=

Ω

Wire resistance (Ω/ft) [3]

÷

Maximum wire length

=

ft.

÷

2

2

2

2

Maximum cable length

=

ft.

[1] Total of the maximum operating currents for all appliances as specified for FWR power. See

the appliance installation sheets for operating currents.

[2] This voltage drop is valid for regulated notification appliances only. For unregulated

appliances, see “Equation method” on page 218.

[3] Use the manufacturer’s published wire resistance expressed in ohms per foot. For typical

values, see Table 46 on page 218.