Simplex 4100-5120 Manuel utilisateur
Cautions, Warnings, and Regulatory Information
READ AND SAVE THESE INSTRUCTIONS Follow the instructions in this installation manual. These instructions must be followed to avoid damage to
this product and associated equipment. Product operation and reliability depend upon proper installation.
DO NOT INSTALL ANY SIMPLEX™ PRODUCT THAT APPEARS DAMAGED Upon unpacking your Simplex product, inspect the contents
of the carton for shipping damage. If damage is apparent, immediately file a claim with the carrier and notify an authorized Simplex
product supplier.
ELECTRICAL HAZARD Disconnect electrical field power when making any internal adjustments or repairs. All repairs should be
performed by a representative or an authorized agent of your local Simplex product supplier.
STATIC HAZARD Static electricity can damage components. Handle as follows:
• Ground yourself before opening or installing components.
• Prior to installation, keep components wrapped in anti-static material at all times.
EYE SAFETY HAZARD Under certain fibreoptic application conditions, the optical output of this device may exceed eye safety limits. Do
not use magnification (such as a microscope or other focusing equipment) when viewing the output of this device.
FCC RULES AND REGULATIONS – PART 15. This equipment has been tested and found to comply with the limits for a Class A digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment
is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in
accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is
likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.
SYSTEM REACCEPTANCE TEST AFTER SOFTWARE CHANGES To ensure proper system operation, this product must be tested in accordance with
NFPA72® after any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion
of system components, or after any modification, repair or adjustment to system hardware or wiring.
All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that
other operations are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50
devices, must also be tested and proper system operation verified.
NFPA 72® is a registered trademark of the National Fire Protection Association.
Introduction
This publication provides an overview of the features, specifications, and capabilities of the TrueAlert power supplies (TPS). These supplies provide
auxiliary power, a battery charger, and three Signaling Line Circuits (SLC). Each of which provides control and power to the full range of TrueAlert
appliances.
The TrueAlert power supplies are identical to each other with the following exceptions:
• 4100-5120 Domestic (US) version, requires a 120 VAC power source.
• 4100-5121 Canadian version, requires 120 VAC power source and provides battery cutout option. After installing a 4100-5121, refer to
“Enabling Low Battery Cutout Option” in the ES Panel Programmer’s Manual (574-849) for information on enabling this option.
• 4100-5122 International version, uses a 220/240 VAC power source.
If you are wiring Class A circuits, you need to install a 4100-5124 Class A Adapter Card onto the TrueAlert Power Supply before installing the power
supply. Refer to Document # 579-337 for more information.
This product is compatible with the 4100U and 4100ES Fire Alarm Control Panel (FACP).
Note: Verify FACP System Programmer, Executive, and Slave Software compatibility when installing, or replacing system components. Refer to the
Technical Support Information and Downloads website for compatibility information.
579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
*0579336M*
Introduction to the TPS
The features of the TrueAlert Power Supply are:
• Three Signaling Line Circuits. The TPS provides uninterruptible power and control to three separate channels of TrueAlert addressable
notification appliances. Each channel is referred to as a Signaling Line Circuit (SLC) and is power limited, power limited is defined in NFPA 70
(National Electric Code). The SLCs can be either Class B (Style 4) or Class A (Style 6). Class A requires the installation of a Class A adapter board.
All SLCs are monitored for short and open circuits.
• 24VDC AUX Power. Provides up to 2 A of 24 VDC auxiliary power for use by the option cards.
• Internal Battery Charger. Charges up to 50 Ah (ULC-S527) or 110 Ah (UL-864 Listing) batteries connected to the power supply. The charger
circuitry provides status monitoring of battery connection, input power, and Earth faults.
Figure 1: Overview of TPS
Additional Features
• Full TrueAlert Operation. TrueAlert addressable notification appliances are individually addressed and receive power, supervision, and
control signals over the SLC. Horns sound with selectable high or low output, using a temporal, march time (60 or 120 beats per minute), or
continuous pattern. Horns are controlled separately from visible appliances installed on the same two-wire circuit. (Combination speaker/
strobe TrueAlert appliances receive audible control from separate audio circuit wiring.)
• Extensive Diagnostic Capabilities. LEDs on the TPS flash codes that identify the nature of trouble conditions. The TPS also monitors for
short and open circuits and positive and negative Earth fault status.
• Depleted Battery Cutout (Canadian Version Only). When AC Power fails, the Depleted Battery Cutout feature disconnects a battery from
the panel when its voltage is approximately 18 VDC.
• Visual Synchronization. A maximum of 46 MultiCandela addressable visuals may be synchronized per SLC. All SLCs are synchronized across
a TPS. All TPSs are synchronized across the FACP.
page 2 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
Input/Output/Battery Specifications
The following table summarizes the AC Input, DC Output, and Battery Charger specifications of the TPS.
Table 1: AC Input, DC Output, Battery Charger Specifications
AC Input Specifications
4100-5120/4100-5121 4 A Maximum
120 VAC @ 60 Hz
4100-5122 2 A Maximum
220/230/240 VAC @ 50 or 60 Hz
DC Output Specifications
Aux Power and Each SLC
Minimum: 19 VDC
Maximum: 32 VDC
Ripple: 2 VDC, peak to peak @ full load (9A)
Battery Charger Specifications
Input Voltage Range 21-33 VDC
Output Voltage 27.4 VDC ± 500 mV @ 68° F (20° C), temperature compensated at –24 mV / deg. C
High Voltage Output 29.1 V @ 3.3 A
Output Current Limit 1.4 A (For 6.2 –18 Ah battery)
3.3 A (Default for 18-50 Ah battery [Canada]; 18-110 Ah battery [United States])
TPS Current Consumption
Table 2 lists the battery standby requirements for the TPS. The voltage is 24 VDC, which is the rated battery voltage for lead-acid type batteries.
Table 2: Battery Standby
Conditions Current
Standby – no alarms, SLCs normal 88 mA
Standby – 3 SLCs ON 100 mA
Class A option (Standby or Alarm) 10 mA
Environmental Requirements
The TPS operates normally within the following temperature range: 32° F (0° C) and 120° F (49° C).
Humidity: 90°F (32°C) degrees at 93% Relative Humidity (non-condensing).
Note:
Add auxiliary and card power currents to standby current. For each TrueAlert appliance, add 0.2 mA standby current. The maximum auxiliary current is
2A. The maximum card power is 2A. Deduct card power and auxiliary currents from 9A total power supply capacity.
Maximum power supply alarm capacity is 9A.
page 3 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
Mounting Procedure
The TPS mounts onto the right side of an expansion box, and connects to the Power Distribution Interface (PDI).
1. Slide the two tabs on the bottom of the TPS into the rightmost two slots on the expansion bay.
2. Push the TPS assembly against the back of the expansion bay.
a. Connect to the PDI, as shown below.
b. Three PDI headers, shown below, must be pushed through the three open slots in the back of the TPS assembly.
c. Align the two screw holes at the top of the TPS assembly with the holes in the cabinet backplane.
3. Use two #6 torx screws to secure the assembly to the expansion bay.
Figure 2: TPS Mounting
Configuring the TPS
Setting Earth Fault Enable/Disable Jumper
The Earth Fault Enable/Disable jumper allows you to enable or disable positive and negative Earth Fault detection.
Place the jumper block on Pins 1 and 2 to enable Earth fault detection. Place the jumper block on Pins 2 and 3 to disable Earth fault detection. See
below.
Figure 3: Earth fault enable/disable jumper
Note:
When one or more TPS unit resides in a system sharing a common "0V" with any other type power supply (SPS/RPS/XPS), jumper only one of the TPS
units to enable Earth Fault Detection. All other power supplies must be jumpered to disable Earth Fault Detection. Ensure that the Slave Exec firmware,
later than Revision 1.04, is loaded on this TPS.
Setting Address Switch
The TPS device address is set via DIP switch SW1, which is a bank of eight switches. From left to right (see Figure 4), these switches are designated as
SW1-1 through SW1-8. The function of these switches is as follows:
SW1-1. This switch sets the baud rate for the internal FACP communications line running between the card and the FACP CPU. Set this switch to ON.
SW1-2 through SW1-8. These switches set the card's address within the FACP.
Note:
page 4 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
You must set these switches to the value assigned to the card by the Programmer.
Figure 4: DIP Switch SW1
page 5 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
Figure 5: Card Addresses
Power Distribution Module/Battery Connections
The TPS gets its power from the Power Distribution Module (PDM). The PDM takes power directly from a dedicated AC line and the two backup
batteries, and distributes power to each bay in the cabinet.
Power Distribution Module Connections
The Power Distribution Module (PDM) connects to every power supply in each back box. Connect the 734-012 Harness from the top connector
on the PDM to the TPS.
1. Wire 120 VAC to the PDM, keeping AC wires at least one inch away from all other wires. AC power must be kept to the right side of the cabinet, in
the non-power-limited area.
2. Connect batteries to P5 on the PDM using Harness 734-015.
3. Connect the PDM to the TPS using Harness 734-012.
• Connect the separate Red and Black wires (with Yellow female terminations) to Plugs P5 (Black) and P4 (Red) on the TPS.
• Connect the White and Black wires, which terminate together in a White snap-on connector, to the bulkhead connector at the bottom of the
TPS assembly, as shown below.
page 6 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
Figure 6: PDM/Battery Connections
page 7 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
Compatible TrueAlert Devices
The following table lists compatible TrueAlert devices. All devices are rated one unit load, with the exception of the Isolator Module (4905-9929) that is
rated three unit loads.
Note:
If you are connecting devices to the 4100-5121 (Canadian) TPS, you must only attach TrueAlert compatible, ULC listed devices.
Table 3: Compatible TrueAlert Devices
Device PID Installation Document #
Horn -- Red 4901-9850 574-764
Horn – White 4901-9853 574-764
Strobe (15 cd) – Red 4904-9350 574-767
Strobe (15 cd) – White 4904-9353 574-767
Strobe (75 cd) – Red 4904-9351 574-767
Strobe (75 cd) – White 4904-9354 574-767
Strobe (110 cd) – Red 4904-9352 574-767
Strobe (110 cd) – White 4904-9355 574-767
Strobe (15 cd), Ceiling – Red 4904-9356 574-928
Strobe (15 cd), Ceiling – White 4904-9359 574-928
Strobe (75 cd), Ceiling – Red 4904-9357 574-928
Strobe (75 cd), Ceiling – White 4904-9360 574-928
Strobe (110 cd), Ceiling – Red 4904-9358 574-928
Strobe (110 cd), Ceiling – White 4904-9361 574-928
A/V (15 cd) – Red 4903-9450 574-768
A/V (15 cd) – White 4903-9453 574-768
A/V (75 cd) – Red 4903-9451 574-768
A/V (75 cd) – White 4903-9454 574-768
A/V (110 cd) – Red 4903-9452 574-768
A/V (110 cd) – White 4903-9455 574-768
A/V (15 cd), Ceiling – White 4903-9459 574-929
A/V (75 cd), Ceiling – White 4903-9460 574-929
A/V (110 cd), Ceiling – White 4903-9461 574-929
Isolator Module 4905-9929 574-769
25V/70V Speaker /V (15 cd) – Red 4903-9350 574-766
25V/70V Speaker /V (15 cd) – White 4903-9353 574-766
25V/70V Speaker /V (75 cd) – Red 4903-9351 574-766
25V/70V Speaker /V (75 cd) – White 4903-9354 574-766
25V/70V Speaker /V (110 cd) – Red 4903-9352 574-766
25V/70V Speaker /V (110 cd) -- White 4903-9355 574-766
Strobe Multi-Candela (15, 30, 75, 110) – Red 4906-9201 579-808
Strobe Multi-Candela (15, 30, 75, 110) – White 4906-9203 579-808
Strobe Multi-Candela (15, 30, 75, 110) Ceiling– White 4906-9204 579-808
A/V Multi-Candela (15, 30, 75, 110)– Red 4906-9227 579-808
A/V Multi-Candela (15, 30, 75, 110) – White 4906-9229 579-808
A/V Multi-Candela (15, 30, 75, 110) Ceiling– Red 4906-9228 579-808
A/V Multi-Candela (15, 30, 75, 110) Ceiling– White 4906-9230 579-808
Speaker/V Multi-Candela (15, 30, 75, 110) – Red 4906-9251 579-808
Speaker/V Multi-Candela (15, 30, 75, 110) – White 4906-9253 579-808
Speaker/V Multi-Candela (15, 30, 75, 110) Ceiling– White 4906-9254 579-808
Amber Strobe Multi-Candela (15, 30, 75, 110) – Red 4906-9205 579-828
Amber Strobe Multi-Candela (15, 30, 75, 110) – White 4906-9206 579-828
Amber Strobe Multi-Candela (15, 30, 75, 110) Ceiling– White 4906-9207 579-828
page 8 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
Table 3: Compatible TrueAlert Devices
Device PID Installation Document #
Audible only horn notification appliances 49AO-WRF
49AO-WRF-BA
49AO-WRS-BA
49AO-WWF
49AO-WWF-BA
49AO-WWS-BA
49AO-WRS
49AO-WRQ
49AO-APPLC
49AO-APPLC-BA
49AO-APPLW
49AO-APPLW-BA
579-1200
579-1242
Strobe Multi-Candela (15, 30, 75, 110) Ceiling– Red 4906-9202 579-808
Audible/visible notification appliances 49AV-WRF
49AV-WWF
49AV-WRF-BA
49AV-WRQ-BA
49AV-WRS-BA
49AV-WWF-BA
49AV-WWS-BA
49AV-WRS
49AV-WRQ
49AV-APPLC
49AV-APPLC-BA
49AV-APPLW
49AV-APPLW-BA
579-1031
579-1032
579-1242
Visible only notification appliances 49VO-WRF
49VO-WWF
49VO-WRA-A
49VO-WWA-A
49VO-WRA-BA
49VO-WRF-BA
49VO-WRQ-BA
49VO-WRS-BA
49VO-WWA-BA
49VO-WWF-BA
49VO-WWS-BA
49VO-WRA-A-BA
49VO-WWA-A-BA
49VO-WWS-A-BA
49VO-WRS
49VO-WWS
49VO-WWA
49VO-WWQ
49VO-WRA
49VO-WRQ
49VO-APPLWE
49VO-APPLWE-BA
49VO-APPLC
49VO-APPLC-BA
49VO-APPLW
49VO-APPLW-BA
579-1031
579-1032
579-1227
579-1242
page 9 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
General Wiring Guidelines
• Use only copper conductors for all wiring applications. All equipment must be installed in accordance with the manufacturer's
recommendations and the specifications and standards of the authority having jurisdiction (AHJ). The installation of all wiring, cable, and
equipment must be in accordance with NFPA 70 and the National Electrical Code (NEC), specifically Article 760 (Fire Alarm Systems), Article 800
(Communications Circuits).
• If applicable, the installation must be in accordance with the Canadian Building Code, and any provincial and/or local requirements.
• Each TrueAlert channel is limited to 0.60uF maximum capacitance. This includes conductor to conductor and conductor to shield capacitance
(if shield wire is used).
• TPS wiring must use ferrite beads in order to comply with the RF Immunity test specified in UL864.
• If shielded wire is used, the following must be observed.
- Metallic continuity of the shield must be maintained and insulated throughout the entire length of the cable.
- The entire length of the cable must have a resistance greater than 1 Mega ohm to Earth.
• Underground wiring must be free of all water.
• Wiring other than that connected to elevator cabs must not be run in elevator shafts (reference NFPA 70, Article 620).
• Wiring in ducts, plenums, and other air handling spaces must be installed in accordance with NFPA 70, Article 300.
• Splicing is permitted in accordance with NFPA 70. All junctions must be insulated as soundly as the original jacket. Continuity of shields (where
used) must be maintained.
• A system ground must be provided for Earth detection and lightning protection devices. This connection shall be made to an approved,
dedicated Earth connection, per NFPA 70, Article 250.
• Only system wiring can be run in the same conduit.
• Field wiring circuits shall not leave the building of origin unless all of the following conditions are met.
- Circuits are protected from lightning by utilization of either the Model 2081-9044 or the Model 2081-9028 listed isolated loop circuit
protectors.
- One isolated loop circuit protector is inserted into the circuit where the wiring leaves the building. A second isolated loop circuit protector is
inserted into the circuit where the wiring enters the next building.
- Underground wiring circuits are run in a parallel wiring trough separate from any commercial power distribution wiring.
- Overhead circuit wiring is run in parallel with relation to the commercial power distribution wiring. Overhead circuit wiring is separated from
the commercial power distribution wiring by a minimum distance equal to the maximum span between two adjacent poles of either the
system's circuit or the commercial power distribution circuit, or 100 feet (30 m), whichever is greater. Outside plant wiring is limited to one
contiguous property and the total wire length may not exceed 3,270 feet (997 m).
Power-Limited/Non-Power Limited Wiring Guidelines
Adhere to these guidelines when wiring power limited and non-power limited wiring within the FACP.
• Non-power limited field wiring (AC power, batteries) must be installed and routed in the shaded areas shown in the figure below.
• Power-limited field wiring must be installed and routed in the non-shaded areas shown in the figure below.
• Excess slack should be kept to a minimum inside the back box enclosure. The wiring should be neatly dressed and bundled together using the
wire ties provided with the equipment. Anchor power-limited wiring to tie points, as shown in the figure below.
• Tie the wiring located between bays to the internal wiring troughs, if applicable.
• When powering remote units or switching power through relay contacts, power for these circuits must be provided by a power-limited power
supply that is UL listed for fire-protective signaling use. A UL listed EOL relay must be used to supervise the auxiliary power circuit.
Important: If the TPS is powered up with zero devices connected, the TPS indicates channel failure for those channels that are programmed to
support devices. The TPS does not sense devices as they are connected when the TPS has been powered up with zero devices connected. After at
least one valid device is connected, the unit must be reset by toggling the DIP Switch SW1-1 OFF and then ON. The TPS then communicates with
devices as they are added.
page 10 579-336 Rev. M
4100-5120, 4100-5121, 4100-5122 TrueAlert Power Supply Installation Instructions
Autres manuels pour 4100-5120
1
Ce manuel convient aux modèles suivants
2
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