Tandem operation – System Sensor P24 and S24 Strobe and Horn_Strobe User Manual

D900-25-00

2

I56-0981-001R

Strobe:

Sound Output Guide

UL Reverberant Room dBA@ volts DC

Anechoic dBA @10 ft./volts DC

20

24

30

20

24

30

Temporal

Low Volume

Electromechanical

75

75

79

94

96

98

3000 Hz Interrupted

75

79

79

94

96

98

High Volume

Electromechanical

82

82

82

100

101

102

3000 Hz Interrupted

82

85

85

100

101

102

Non-

Low Volume

Electromechanical

79

82

85

94

96

98

Temporal

3000 Hz Interrupted

82

82

85

94

96

98

High Volume

Electromechanical

85

88

88

100

101

102

3000 Hz Interrupted

88

88

88

100

101

102

(+)

(–)

(+)

(–)

E

O

L

(+)

(–)

(+)

(–)

HORN/STROBE

HORN/STROBE

STROBE ONLY

Figure 1A. Any combination of models powered by a 2-wire circuit:

System Operation: Non-Synchronized Devices

FROM:
FACP, MODULE
OR PREVIOUS
DEVICE

TO NEXT

DEVICE OR

EOL

(+)

(+)

(+)

(–)

(–)

(–)

TANDEM OPERATION

HORN/STROBE COMBO

FACTORY INSTALLED
JUMPERS

Figure 1B: Horns and strobes powered in tandem:
NOTE: Supply power must be continuous for proper operation.

Current Draws

Horn/Strobe:

DC

FWR

DC

FWR

DC

FWR

169 220 140 191 115 174

AVERAGE CURRENT (mA)

24V Models

20V

24V

30V

DC

FWR

DC

FWR

DC

FWR

460 560 450 570 420 620

PEAK CURRENT (mA)

24V Models

20V

24V

30V

DC

FWR

DC

FWR

DC

FWR

190 230 220 290 290 370

IN RUSH CURRENT (mA)

24V Models

20V

24V

30V

DC

FWR

DC

FWR

DC

FWR

188 241 165 209 144 200
186 238 163 211 145 202
180 232 153 204 132 189
181 232 154 204 132 190
193 246 168 214 152 207
188 242 167 217 150 210
183 234 157 206 136 193
182 232 156 205 137 195

High/Low
Volume

Temp
/Non

Electro-
mech.

Temp
Non
Temp
Non
Temp
Non
Temp
Non

3000 Hz
Interrupt.

AVERAGE CURRENT (mA)

24V Models

20V

24V

30V

Tone

High

Low

High

Low

Horn Selections

Horns are factory set for high volume, temporal code, and electromechan-
ical tone.
Tones:

Two tones may be selected using the jumper plugs located on
the printed circuit board. With the jumper offset, the tone is the
Electromechanical sound. With the jumper in place, the tone is
a 3 kHz sound.

Temp/Non-Temp:

Temporal coding or Non-Temporal coding can be selected using
the jumper plugs located on the printed circuit board. With the
jumper offset, the tone pattern is the Temporal Coded Signal.
With the jumper in place, the Non-Temporal code (continuous)
tone is active.

NOTE:

When powered from FWR supply, the tones will be modulated
(turned on and off) by 120Hz, causing the tones to sound dif-
ferent from DC power.

High/Low Volume:

High or low volume may be selected using the jumper plugs
located on the printed circuit board. With the jumper in place,
the sound output level is the high level. With the jumper offset,
the sound output level is the low level. The low volume setting
must NOT be used when the device is powered from a 12-volt
panel.

NOTE: Always power down devices before setting jumpers.