Simplex MINIPLEX 4100ES Series Manuale utente
579-1015 Rev U
4100ES Extended Power Supply Installation Instructions
*05791015U*
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.
Introduction
The Extended Power Supply (EPS) is a fire alarm control unit (FACU) power supply that supports the enhanced feature set of Simplex addressable
notification appliances.
With three Signaling Line Circuits (SLC), the EPS provides continuous power and control to three separate channels of addressable notification
appliances.
There are two available configurations for the EPS*:
•EPS: This is the basic EPS configuration.
4100-5325 - 120 V 50 Hz/60 Hz EPS
4100-5327 - 220 V/230 V/240V 50 Hz/60 Hz EPS
•EPS with IDNet: This refers to an EPS board fitted with an IDNet2 or IDNet1+ card.
4100-5311 - 120 V 50 Hz/60 Hz EPS
4100-5313 - 220 V/230 V/240V 50 Hz/60 Hz EPS
For use with revision 1.04 or higher of the ES Panel Programmer Software.
Important: Verify FACU 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.
This product was evaluated and found to comply with the requirements of NFPA 72, 2010 version, by Factory Mutual.
Figure 1: The EPS shown with the IDNet2 Card
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4100ES Extended Power Supply Installation Instructions
Card Specifications
Figure 2: EPS Card Layout
Table 1: Card Specifications
Specification Rating
Operating Conditions 32°F - 120°F (0°C - 49°C)
Up to 93% relative humidity at 90°F (32°C), non-condensing.
120V, 50 Hz/60 Hz, 4.6AAC Input Specifications:
Note: Maximum circuit breaker is 20 A. 220 V/230 V/240V, 50 Hz/60 Hz, 2.3A
DC Output Specifications: 29V @ 9A
Up to 5 A normal standby (AUX, "Card Power" and Backplane Power). Any non-alarm current must be subtracted from 9 A
alarm current.
Standby – No alarms, SLCs normal: 135mA / Alarm - 12 A @ 24 V
With IDNet2: 235 mA
Electrical Specifications
DC Input
(battery standby)
For each IDNet/IDNAC device: 0.8 mA
Charges up to 50 Ah (ULC-S527) or 115 Ah (UL-864 Listing) sealed lead-acid batteries connected to the power supply.
High Voltage Output: 29 V
Internal Battery
Charger
Output Current Limit: 3.3 A
IDNAC SLCs 29.5 V maximum @ 3 A per circuit; 4,000 bits/second
Earth Fault Earth fault detection is 10k minimum to any circuit.
SNAC wiring fault
Detection
Short circuit detection is 5k ohm maximum for SNAC. Open circuit detection is 15k.
Battery Standby (sealed
lead-acid batteries)
Battery standby requirements are dependent on system configuration. The 4100ES can support up to 115 Ah batteries
(UL) and 50 Ah batteries (ULC). With 115 Ah batteries, a system could be configured to draw 3.8 A for 24 hours, followed by
15 minutes at 9.375 A. Or a configuration with 0.375 A for 24 hours and 5 minutes alarm at 9.375 would require 12.7 Ah
batteries or larger. Refer to Sales Engineering Calculation Tool for specific configurations.
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4100ES Extended Power Supply Installation Instructions
Installation
The EPS module mounts onto the Power Distribution Interface (PDI) in the last connector on the right side of the PDI.
• EPS modules mount into expansion bays.
• EPS + modules can either be mounted into an expansion bay or into a CPU bay. See revision AG or later of the 4100ES Installation Guide
574-848 for more information on mounting the EPS into a CPU bay.
Mounting
1. Insert the tabs at the bottom of the EPS module into the four slots on the bottom extreme right side of the mounting bay.
2. Gently tilt the module up straight against the mounting bay while ensuring proper connection between the EPS connector and the PDI
connector.
3. While securing the module with one hand, use the provided hardware to attach the top portion of the module to the mounting bay.
Figure 3: Mounting the EPS (EPS with IDNet2 card depicted)
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4100ES Extended Power Supply Installation Instructions
Configurations
Setting the Address
The DIP Switch SW2 is used to set the EPS address as identified in the Panel Programmer job (see the section on Programming for more information).
From left to right, these switches are designated as SW2-1 through SW2-8. The function of these switches is as follows:
•SW2-1. This switch sets the baud rate for the internal 4100 communications line running between the card and the 4100 CPU. Set this switch
to ON.
•SW2-2 through SW1-8. These switches set the card’s address within the FACU. Refer to Figure 5 for a complete list of the switch settings for all
of the possible card addresses.
You must set these switches to the value assigned to the module by the Panel Programmer.
Figure 4: DIP Switch SW2
Figure 5: EPS Card Addresses
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4100ES Extended Power Supply Installation Instructions
Earth Connect Jumper
The EPS Earth Fault Enable/Disable jumper allows you to enable or disable Earth Fault detection.
• To enable the function: Place the jumper block on pins 1 and 2
• To disable the function: Place the jumper block on pins 2 and 3
Figure 6: Earth Connect Jumper Positions
Earth Fault detection is set to active on one EPS per battery location. A battery location is any cabinet connected to the master 4100 communications
channel without a TIC. A transponder cabinet is another battery location. Only ONE earth fault circuit should be active on all power supplies (EPS, TPS,
SPS, RPS) within a battery location. Disable earth fault detection on all other power supplies at a battery location. Any system that includes one or more
EPS MUST have earth detection from an EPS.
Battery Disconnect Jumper
Jumper P16 selects Low Battery operation.
• Jumper in Top position (pins 2-3) will cause panel shutdown when batteries are depleted.
• Jumper in Bottom position (pins 1-2) will allow panel to continue operating.
For S527 compliance, jumper must be installed to top position of P16.
Note: When jumper is set to pins 2-3, the EPS will not power-up from the battery.
Figure 7: Battery Disconnect Jumper Positions
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4100ES Extended Power Supply Installation Instructions
Connection to the Power Distribution Module
The EPS is powered by 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.
To connect the EPS to the PDM using Harness 734-257:
1. Ensure that the PDM is connected to an incoming 120 VAC power source. Keep the AC wires to the right side of the cabinet, in the non-
power-limited area, and at least one inch away from all other wires.
2. Connect the harness connector to the PDM.
3. Connect the separate Red and Black wires (with yellow female terminations) to Plugs P2 (black) and P3 (red) on the EPS.
4. Connect the white and black wires, which terminate together in a white snap-on connector, to the bulkhead connector at the bottom of the
EPS assembly.
Figure 8: PDM/Battery Connections
Connection to the IDNet channel
The EPS connection to the IDNet channel is made through the optional IDNet card installed on the EPS.
• For EPS modules fitted with an IDNet2 card, refer to manual 579-1169 for wiring and programming information.
• For EPS modules fitted with an IDNet1+ card (EPS+), refer to manual 579-1014 for wiring and programming information.
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4100ES Extended Power Supply Installation Instructions
Wiring Overview
General Wiring Guidelines
• Conductors must test free of all grounds.
• All wiring must be done using copper conductors only, unless noted otherwise.
• If shielded wire is used:
- The metallic continuity of the shield must be maintained throughout the entire cable length.
- The entire length of the cable must have a resistance greater than 1 megohm to earthground.
• Underground wiring must be free of all water.
• In areas of high lightning activity, or in areas that have large power surges, the 2081-9027 Transient Suppressor should be used on monitor
points.
• Wires must not be run through elevator shafts.
• Splicing is permitted. All spliced connections must either be soldered (resin-core solder), crimped in metal sleeves, or encapsulated with an
epoxy resin. When soldering or crimped metal sleeves are used, the junction must be insulated with a high-grade electrical tape that is as
sound as the original insulating jacket. Shield continuity must be maintained throughout.
• A system ground must be provided for earth detection and lightning protection devices. This connection must comply with approved earth
detection per NFPA780.
• Only system wiring can be run together in the same conduit.
Power-Limited Guidelines
• Non-power limited field wiring (AC power, batteries, City connection) must be installed and routed in the shaded areas shown in Figure 9.
• Power-limited field wiring must be installed and routed in the non-shaded shown in Figure 9, with the exception of City wiring. Excess slack
should be kept to a minimum inside the back box enclosure. The wiring should be neatly dressed and bundled together using wire ties. Anchor
power-limited wiring to tie points.
• 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 listed for fire-protective signaling use.
Figure 9: Power-Limited Wiring Guidelines
Class B IDNAC Wiring
The EPS has three SLCs for power and communication wiring.
Each SLC powers and communicates with up to 127 IDNAC devices. The EPS is wired to compatible devices and appliances, such as the TrueAlert ES
and TrueAlert Addressable lines (both multi and fixed candela), using Class B circuitry.
Class B wiring allows “T” tapping. EPS wiring is inherently supervised due to individual device level communications. End-of-line resistors are not
required.
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4100ES Extended Power Supply Installation Instructions
Device Wiring Guidelines
Review the following guidelines for devices before you begin the field wiring.
• Only IDNAC devices and other compatible devices are allowed on the SLCs. See the appendix for a list of compatible devices.
• Maximum of 127 devices or 139 unit loads per channel. The maximum number of visuals that can be synchronized on one circuit is 127.
• Maximum of six isolators between any appliance and SLC terminals. Maximum 12 isolators per SLC.
• Maximum of 30 devices connected directly to any isolator terminal pair.
• All wiring is 20 AWG to 12 AWG.
• The required wiring is unshielded Twisted Pair. This wiring must have a capacitive rating of less than 60 pF/ft and a minimum 3 twists (turns)
per foot. Consult your local sales channel if shielded wiring is present.
• All wiring is supervised and power-limited.
• The maximum alarm current is 3 A per circuit.
• Maximum cable load is 10,000 feet (3,048 m) per channel. Maximum wire length from panel to any device is 4,000 feet (762 m).
• The nominal rating is 29 VDC.
• The total available current from the EPS is 9 A.
• All visible appliances wired from an EPS are synchronized to appliances on SPS, XPS, TPS, 4009A, 4009T and other EPS within the system.
Appliances wired from TrueAlert Adapter (4905-9816) are not synchronized to other system appliances.
• For outdoor wiring, you require transient suppression 2081-9044 (250 mA, maximum 2500 ft branch) or 2081-9028 (1000 ft branch). Consult
your local sales channel for more information.
• Consult your sales support channel for installations outside of these guidelines.
IDNAC Speaker Wiring Application Guidelines
Note: TrueAlert ES speaker appliances supervise connected audio circuits for open-circuit conditions and report those troubles to the host FACU via
the EPS. The speaker appliances can also detect short-circuit conditions, with the EPS reporting such events as an open circuit and the panel reporting
them as 'AUDIO WIRING TROUBLE'. The amplifier electronics and the power supply of a connected audio NAC must still supervise the circuit for short-
circuit conditions and earth faults.
Do not mix TrueAlert ES speakers with conventional speakers on an audio NAC.
IDNAC wire length limitations dictate the maximum audio NAC wire run length between a TrueAlert ES speaker and the connected 4100ES amplifier.
The maximum IDNAC wire run length from EPS to device, with a Repeater extension, is 8,000 ft. Since the maximum distance between an amplifier
and the EPS is 2,500 ft over RUI/RUI+, the total allowable distance between amplifier and TrueAlert ES device speaker is 10,500 ft. This distance may be
further restricted by the Speaker Circuit Wiring Distance Tables of the connected amplifier.
CLASS B Audio Wiring: Connect a maximum of 127 IDNAC speakers to a Class B-wired audio NAC. A Class B-wired audio NAC connected to TrueAlert
ES speakers may employ T-Tap and Wire-Branch wiring topologies.
Note: Do not connect an End-Of-Line-Resistor to a Class B wired audio NAC connected to TrueAlert ES speakers.
CLASS A Audio Wiring: Connect a maximum 70 TrueAlert ES speakers to a Class A audio NAC. Speakers must be wired in a standard Class A-loop
fashion.
Note: With the exception above, audio NAC wiring connected to TrueAlert ES speakers must follow the requirements of the connected 4100ES ampli-
fier.
Ferrite Beads
Ferrite beads must be used for Class B wiring.
1. Install the ferrite bead close to the EPS field wiring terminals for lowest radiated emissions (before the wires leave the box).
2. Loop the wires through the bead as shown.
Figure 10: Ferrite Bead Installation
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4100ES Extended Power Supply Installation Instructions
Class B Wiring Tables
Use the following tables to calculate the wiring distance.
Note:
Use the UTP Limit for Speaker and Speaker/Visible Devices Based on Communication table in Figure 12 for TrueAlert ES Speakers and Speaker/Visible
appliances in place of the UTP Wiring Limit Based on Communication table in Figure 11.
Maximum wiring distance is the shorter of the distance limits as calculated by alarm current voltage drop or by reaching the communications distance
limit.
Figure 11: Class B Wiring Tables
Note: Although the required wire for IDNAC circuits is twisted pair (controlled impedance) wiring, some applications will wish to take advantage of
existing wiring that is not twisted pair. This is only allowed if both conductors of the IDNAC circuit reside in the same metal conduit, and only under cer-
tain conditions. Check with your local sales office before using wiring that is not twisted pair.
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4100ES Extended Power Supply Installation Instructions
Figure 12: UTP Limit for Speaker and Speaker/Visible Devices Based on Communication
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