System Sensor SpectrAlert Ceiling Mount Series Strobes and Horn_Strobes User Manual

D900-22-00

2

I56-1453-012R

Wire Sizes
The designer must be sure that the last device on the circuit
has sufficient voltage to operate the device within its rated
voltage. When calculating the voltage available to the last
device, it is necessary to consider the voltage drop due to
the resistance of the wire. The thicker the wire, the less the
voltage drop. Generally, for purposes of determining the
wire size necessary for the system, it is best to consider all
of the devices as “lumped” on the end of the supply circuit
(simulates “worst case”).
Typical wire size resistance:
18 AWG solid: Approximately 8 ohms/1,000 ft.
16 AWG solid: Approximately 5 ohms/1,000 ft.
14 AWG solid: Approximately 3 ohms/1,000 ft.
12 AWG solid: Approximately 2 ohms/1,000 ft.
Example: Assume you have 10 devices on a zone and
each requires 50 mA average and 2000 Ft. of 14 AWG wir-
ing (total length=outgoing +return). The voltage at the
end of the loop is 0.050 amps per device x 10 devices x 3
ohms/1,000 ft. x 2000 ft =3 volts drop.
The same number of devices using 12 AWG wire will pro-
duce only 2 volts drop. The same devices using 18 AWG
wire will produce 8 volts drop. Consult your panel manu-
facturer’s specifications, as well as SpectrAlert’s operating
voltage range to determine acceptable voltage drop.
NOTE: If class “A” wiring is installed, the wire length may
be up to 4 times the single wire length in this calculation.

Figure 1A: Current Draw Measurements (RMS)
NOTE: All SC and PC strobes were only tested at the 16-33
Volt-FWR/DC limits. This does not include the 80% low
end or 110% high end voltage limits.

Candela

FWR Max. Operating

Current – Strobe

(mA RMS)

DC Max. Operating

Current – Strobe

(mA RMS)

15

68

64

15/75

77

78

30

107

113

75

197

205

95

239

274

115

298

325

177

399

489

Figure 1B: Horn Sound Measurements (dBA)

Selectable Horn Tones

16-33V

Temporal

Low
Volume

Electromechanical

75

3000 Hz Interrupted

75

High
Volume

Electromechanical

80

3000 Hz Interrupted

81

Non-
Temporal

Low
Volume

Electromechanical

79

3000 Hz Interrupted

79

High
Volume

Electromechanical

84

3000 Hz Interrupted

86

Figure 1C: Horn Current Draw Measurements (RMS)

Selectable Horn Tones

16-33 (VDC)

16-33 (VFWR)

Temporal

Low
Volume

Electromechanical

23

23

3000 Hz Interrupted

33

23

High
Volume

Electromechanical

53

44

3000 Hz Interrupted

57

40

Non-
Temporal

Low
Volume

Electromechanical

37

29

3000 Hz Interrupted

32

33

High
Volume

Electromechanical

49

49

3000 Hz Interrupted

56

58

NOTE: Regulated 24 VDC, max operating current 57.0 mA
24 V FWR, max operating current 57.5 mA
NOTE: 24VDC 2-wire horn/strobe current is shown in Figure
1D. Current draw for other horn/strobe power supplies can
be calculated by adding the strobe current draw (Figure 1A)
for chosen candela setting to the horn current draw (Figure
1C) for chosen setting.

Temporal

Non-Temporal

Low Volume

High Volume

Low Volume

High Volume

Candela Setting

Electromechanical

3000 Hz

Electromechanical

3000 Hz

Electromechanical

3000 Hz

Electromechanical

3000 Hz

15

73

73

76

78

75

75

81

86

15/75

89

89

91

92

89

90

96

98

30

126

125

128

128

125

125

131

134

75

225

222

222

222

219

219

221

222

95

272

270

271

271

266

265

269

270

115

297

297

296

296

291

290

292

293

177

512

504

501

496

491

493

491

496

Figure 1D: 24V DC Horn/Strobe Current Draw
Measurements (mA RMS)