INSTALLATION AND MAINTENANCE INSTRUCTIONS
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Repeats
SpectrAlert Selectable Output
Outdoor Strobes, Horn and Horn/Strobes
For use with the following models:
Strobe - 12/24 volt: S1224MCK
Combo - 12/24 volt: P1224MCK
Horn - 12/24 volt: H12/24K
“K” model series are outdoor rated when installed with System Sensor WBB.
The Products to which this manual applies may be covered by one or more of the following U.S. Patent numbers:
5,914,665; 5,850,178; 5,598,139; 6,049,446; 6,133,843; 6,522,261; 6,661,337; 6,793,375; 6,822,400; 5,931,569; 6,833,783; 6,838,997;
3825 Ohio Avenue, St. Charles, Illinois 60174
1-800-SENSOR2, FAX: 630-377-6495
www.systemsensor.com
Specifications
Automatic selection for 12 or 24 volt rated operation (DC or Full-Wave Rectified)
Electrical
Horns, Strobes, and
Horn/Strobes Voltages: Regulated 12 DC/FWR and Regulated 24 DC/FWR
Operational Voltage Ranges: 12V=8-17.5 Volts; 24V=16-33 Volts
Synchronous Applications
with MDL Module: 12V=9-17.5 Volts; 24V=17-33 Volts
NOTE: Horn units will operate on walk tests with on-time durations of .25 sec. or greater.
Flash Rate: 1 flash per second
K Series Operating Temperature: Strobe, horn and horn/strobe models are indoor and outdoor listed, having a temperature
range of –40° F to 150.8° F (–40° C to 66° C)
All models are indoor/outdoor listed, strobes per UL 1971 and UL 1638, horns per UL 464.
Selectable Light Outputs: All candelas are selectable via a manual slide switch.
12/24 Volt Applications: 15 or 15/75 candela
24 Volt Application: 30, 75, 110 candela
15/75 is listed at 15 candela per UL 1971 but will provide 75 candela on axis (straight ahead).
15, 30, 75, or 110 are rated for that candela.
Sound Output: Sound output levels are established at Underwriters Laboratories in their reverberant room.
Always use the sound output specified as UL Reverberant Room when comparing products.
Listings: UL S3593/S5512 (Strobe); UL S4011 (Combo); UL 1638 and UL 1971 (Strobe); UL50 (Horn)
Note for Strobes: Do not exceed; 1) 8-17.5 or 16-33 voltage range limit; 2) maximum number of 70 strobe lights when connecting the MDL Sync module
with a maximum line impedance of 4 ohms per loop and; 3) maximum line impedance as required by the fire alarm control manufacturer.
The models
selections. The benefit to the customer is a high quality strobe device.
S1224MCK and P1224MCK
incorporate a patented voltage booster design that has a more consistent flash bulb voltage over the range of candela
General Description
The SpectrAlert series notification appliances are designed to
meet the requirements of most agencies governing these devices,
including: NFPA, ADA, The National Fire Alarm Code, UL, and
ULC. Also, check with your local Authority Having Jurisdiction
for other codes or standards that may apply.
The SpectrAlert series can be installed in systems using 12- or 24volt panels having DC or full-wave rectified (FWR) power supplies.
The series can also be installed in systems requiring synchroniza
tion (module MDL or compatible equivalent required) or systems
that do not require synchronization (no module required).
NOTICE: This manual shall be left with the owner/user of this equipment.
Fire Alarm System Considerations
Temporal and Non-Temporal Coded Signals:
The American National Standards Institute and the National Fire
Alarm Code require that all horns used for building evacuation in
stalled after July 1, 1996, must produce Temporal Coded Signals.
Signals other than those used for evacuation purposes do not have
to produce the Temporal Coded Signal. Temporal coding is accom
plished by interrupting a steady sound in the following manner:
D900-37-00 1 I56-2257-005R
Power Supply Considerations
Panels typically supply DC filtered voltage or FWR (full-wave
rectified) voltage. The system design engineer must calculate the
number of units used in a zone based on the type of panel supply.
Be certain the sum of all the device currents do not exceed the
current capability of the panel. Calculations are based on using
the device current found in the subsequent charts and must be
the current specified for the type of panel power supply used.
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 nec
-
essary 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 re
quires 50 mA average and 2000 Ft. of 14 AWG wiring (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.
NOTE: If class “A” wiring is installed, the wire length may be up
to 4 times the single wire length in this calculation.
The same number of devices using 12 AWG wire will produce only
2 volts drop. The same devices using 18 AWG wire will produce
8 volts drop. Consult your panel manufacturer’s specifications, as
well as SpectrAlert’s operating voltage range to determine accept
able voltage drop.
Figure 1A: Current Draw Measurements (RMS)
NOTE: All ‘S’ and ‘P’ models were only tested at the 8-17.5 and
16-33 Volt-FWR/DC limits. This does not include the 80% lowend or 110% high-end voltage limits.
Strobe Current Draw
Candela
Setting
15
15/75
30
75
110
FWR
Operating
Current
Strobe
12V 24V 12V 24V
112 64 127 59
135 74 127 69
93 90
158 160
208 209
DC
Operating
Current
Strobe
NOTE: 12 VDC 2-wire horn/strobe current is shown in Figure 1D.
24VDC 2-wire horn/strobe current draw is shown in Figure 1E.
Horn/Strobe current draw 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.
Figure 1B: Horn Sound Measurements (dBA):
Selectable Horn Tones
Temporal Low
NonTemporal
Volume
High
Volume
Low
Volume
High
Volume
Electromechanical 67 75
3000 Hz Interr upted 68 75
Electromechanical 71 80
3000 Hz Interr upted 72 81
Electromechanical
3000 Hz Interr upted 72 79
Electromechanical 76 84
3000 Hz Interr upted 77 86
8-17.5V 16-33V
71 79
Figure 1C: Horn Current Draw Measurements (RMS):
Selectable Horn Tones
Temporal Low
-
NonTemporal
Volume
High
Volume
Low
Volume
High
Volume
NOTE: Regulated 12 VDC, max operating current 44.4 mA
Regulated 24 VDC, max operating current 57.0 mA
12 V FWR, max operating current 45.7 mA
24 V FWR, max operating current 57.5 mA
Electromechanical 15 23 13 23
3000 Hz Interr upted 15 33 13 23
Electromechanical 36 53 20 44
3000 Hz Interr upted 43 57 21 40
Electromechanical
3000 Hz Interr upted 16 32 18 33
Electromechanical 38 49 46 49
3000 Hz Interr upted 44 56 42 58
DC FWR
12V 24V 12V 24V
16 37 19 29
Figure 1D: 12VDC Horn/Strobe Current Draw
Measurements (mA RMS)
Temporal
Low Volume High Volume
Candela
Setting
15 111 111 112 112
15/75 127 127 126 129
15 113 112 114 115
15/75 128 128 130 134
Electromechanical 3000 Hz Electromechanical 3000 Hz
Non-Temporal
Figure 1E: 24VDC Horn/Strobe Current Draw
Measurements (mA RMS)
Temporal
Low Volume High Volume
Candela
Setting
15/75 86 85 87 88
110 209 209 210 213
15/75 86 88 93 96
110 213 213 218 222
Electromechanical 3000 Hz Electromechanical 3000 Hz
15 71 70 73 75
30 99 98 100 100
75 166 166 167 170
Non-Temporal
15 74 74 79 82
30 101 101 107 110
75 167 167 173 176
Candela equivalent at –40°C and below:
15cd 3cd
15/75cd 20cd
30cd 9cd
75cd 27cd
110cd 46cd
D900-37-00 2 I56-2257-005R