Related Manuals for Simplex 4100U-S1
Summary of Contents for Simplex 4100U-S1
- Page 1 4100U-S1 Fire Indicator Panel Installation & Maintenance Australian Installation Australian Manual Installation & Maintenance Manual LT0394...
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Page 3: Copyrights And Trademarks
6,313,744 and 6,426,697. SmartSync horn/strobe control; 6,281,789. Approvals Australian Standard AS4428.1 SSL Listing Number afp1682 Manufacture The 4100U-S1 is a Fire Alarm manufactured by Tyco Safety Products for: Tyco Services Fire & Safety 47 Gilby Road Notting Hill VIC 3168... -
Page 4: Non-Disclosure Agreement
“dongle”. Because this programming facility allows the user to define in detail the operation of the 4100U-S1 System being customised, changes may be made by the user that prevent this installation from meeting statutory requirements. -
Page 5: Model Number & Firmware Revision
This manual applies to product with the following: Model number : Firmware revision : 11.10 and on Document Document Name : Issue : Amendment Log 5 July 2006 Issue 1.0 4100U-S1 LT0394 4100U-S1 Installation & Maintenance Manual V1.0 5 July 2006 Original based on LT0350 1.0.7... -
Page 6: Cautions, Warnings, And Regulatory Information
If damage is apparent, immediately file a claim with the carrier and notify your Simplex product supplier. SAFETY HAZARD - The 4100U-S1 CPU Card includes a lithium battery. There is danger of explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. -
Page 7: Table Of Contents
Cautions, Warnings, and Regulatory Information... iv Table of Contents ...v List of Figures ... xi List of Tables ... xii Chapter 1 Introduction to the 4100U-S1 Fire Alarm System ...1-1 Introduction ... 1-1 In this Chapter ... 1-1 Basic Configuration... 1-2 Overview ... - Page 8 Overview ... 2-9 Step 2. Mounting Card Bays to Cabinets ... 2-9 Overview ... 2-9 Step 3. Configuring Cards ... 2-9 Overview ... 2-9 CPU Motherboard Configuration ... 2-9 CPU Daughter Card Configuration ... 2-10 SPS Configuration ... 2-10 PDI Configuration ... 2-10 Configuring Other Cards...
- Page 9 Step 2. Mounting Media Cards to the NIC... 3-9 Overview ... 3-9 Media Card Mounting ... 3-9 Step 3. Mounting Network Cards in the 4100U-S1 ... 3-9 Step 4. Wiring Network Cards ... 3-10 Overview ... 3-10 Wiring Guidelines... 3-10 Wiring Distances...
- Page 10 AIU/PPU Wiring ... 4-10 ASE Mounting... 4-10 ASE Wiring... 4-10 Chapter 5 SPS Field Wiring (4100U-S1)...5-1 Introduction ... 5-1 In this Chapter ... 5-1 General Field Wiring Guidelines... 5-2 General Guidelines ... 5-2 SPS NAC Field Wiring Guidelines... 5-3 Overview ... 5-3 Guidelines ...
- Page 11 Configuring the Card... 6-5 Overview ... 6-5 Setting the Shield Tie Point ... 6-5 Setting the Address ... 6-5 Wiring to IDNet Devices ... 6-6 Overview ... 6-6 Guidelines ... 6-6 Notes... 6-7 Class A Wiring ... 6-7 Class B Wiring ... 6-8 Troubleshooting on IDNet...
- Page 12 In this Chapter ... F-1 List of Approved Devices... F-1 Compatible Detectors, IDNET ... F-4 Compatible Addressable Field Devices, IDNet ... F-5 Appendix G 4100U-S1 Specifications ...G-1 General ...G-1 Fuses ...G-1 Firmware Features...G-1 Voltage & Current Ratings of Modules & Assemblies ...G-2 Appendix H Power Supply &...
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Page 13: List Of Figures
Figure 2-7. Expansion Bay 4”x 5” Card Placement... 2-13 Figure 2-8. Expansion Bay Motherboard Placement ... 2-14 Figure 2-9. Slave Card/PDI Connection ... 2-15 Figure 2-10. Installing the Motherboard in a 4100U-S1 Expansion Bay ... 2-16 Figure 2-11. LED/Switch Modules... 2-18 Figure 2-12. LED/Switch Controller... 2-18 Figure 2-13. - Page 14 List of Tables Table 2-1 Master Controller LEDs 1 through 4 ...2-5 Table 2-2 Switch/LED Format...2-22 Table 2-3 Switch Status ...2-22 Table 3-1 4100 NIC & Media Cards – Electrical and Environmental Specifications...3-7 Table 3-2 Wiring Distances...3-11 Table 3-3 Dual Fiber Optic Cable Communications Distance Examples ...3-13 Table 3-4 Single Fiber Optic Cable Communications Distance Examples using 4190-9010 Bi-Directional Couplers ...3-13...
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Page 15: Chapter 1 Introduction To The 4100U-S1 Fire Alarm System
Introduction to the 4100U-S1 Fire Alarm System Introduction The 4100U-S1 is a compact version of the 4100U fire alarm, which is intended for use in applications requiring only one or two loops of addressable devices. This chapter is an overview of basic system concepts. -
Page 16: Basic Configuration
Basic Configuration Overview The basic version of the 4100U-S1 is used for smaller or single-building applications. It is ideally placed in a small building that requires a limited number of notification appliances and initiating devices. If a small building is being expanded, or if other buildings are being constructed in the same general area (as in a campus application), the basic 4100U-S1 can be expanded via networking into one of the larger systems described in Chapter 3. -
Page 17: 4100U-S1 Part Codes
4100U-S1 Part Codes Overview This section lists the parts that are supported by the 4100U-S1 Fire Alarm System. Assemblies, Cards & The following is a list of assemblies, cards and modules used in 4100U-S1: & Modules These parts are included in the base 4100U-S1: •... -
Page 18: Labels (Expansion/Spares)
4100U-S1 Part Codes, • LB0602 Labels • (expansion/spares) LB0605 • 526-873 • 4100-1294 • LM0309 Looms • (expansion/spares) LM0310 • 734-008 • 734-075 • 116-226 • 116-227 4100 Part Codes (Non-4100U) The following is a list of existing 4100+/A cards and modules that may be used with 4100U-S1. -
Page 19: Chapter 2 Installing 4100U-S1 Components
Installing 4100U-S1 Components This chapter describes how to mount the 4100U-S1 cabinet to a wall, and how to mount Introduction system card bays into the cabinets, modules to bays, etc. Most of a 4100U-S1 is already assembled within the factory. Steps 2 to 6 below are therefore not typically required in the field, but are included for reference. -
Page 20: Introduction To 4100U-S1 Cabinet
The 4100U-S1 has two bays: the CPU bay and one expansion bay. In the standard 4100U-S1, the CPU bay contains the SPS and the CPU Motherboard with CPU Daughter card. The front of the bay holds the Operator Interface, consisting of the LCD, keyboard, and fault sounder. -
Page 21: Cpu Motherboard
Introduction to 4100U-S1 Cabinet, CPU Motherboard The 4100U CPU motherboard holds the CPU card, which is central to the 4100U-S1 system. It is mounted in the CPU bay, occupying two slots of space immediately beside the power supply. These boards do not have a card address DIP switch (the CPU is always address 0). -
Page 22: Cpu Card
Introduction to 4100U-S1 Cabinet, CPU Card The CPU card mounts onto the CPU motherboard. The CPU card contains a service port, a direct drive user interface connection, and a port for a service modem. SERVICE MODEM CONNECTOR (P4) CONNECTOR TO CPU... -
Page 23: Cpu Card Leds
Introduction to 4100U-S1 Cabinet, CPU Card LEDs The CPU card LEDs indicate Bootloader status as shown in the table below. Status Condition Bootloader Initialization Bad Master CRC or No Master Present Diagnostic Fail – Diagnostic Fail – Bootloader CRC Downloading... -
Page 24: Operator Interface
6056 Wired Media Cards and/or the 4100-6057 Fiber Media Cards. System Power The 4100U-S1 is powered by the SPS (System Power Supply), which gets its primary Supply (SPS) power from the AC mains and its secondary power from the backup batteries. -
Page 25: Figure 2-4. System Power Supply
Introduction to 4100U-S1 Cabinet, The basic 4100U-S1 has a Fuse Distribution Board mounted on the SPS chassis and connected to the Auxiliary Power terminals. This provides four sets of supply terminals, each individually fused at 1A, but the collective capacity is still limited to 2A from the Auxiliary Power supply. -
Page 26: The Power Distribution Interface (Pdi)
General Power Outlet. The fixed AC power wiring must be installed to this GPO by a suitably qualified electrician. IMPORTANT: AC power must be provided to the 4100U-S1 from a dedicated branch circuit. The SPS plugs into this GPO, and can be switched off or unplugged for servicing. -
Page 27: Step 1. Mounting Cabinets
Step 3. Configuring Cards Overview The CPU, SPS, and all other modules to be mounted in the 4100U-S1 cabinet must be configured to operate correctly in the system via their DIP switch and jumper ports. This section describes the hardware configuration for the CPU and SPS, since they will always be used in the CPU bay. -
Page 28: Cpu Daughter Card Configuration
PDI Configuration P4/P5: The PDI can be configured to draw its power from different sources via P4 and P5. For 4100U-S1 both links should be in position 1-2. Configuring Other Refer to the appropriate installation instructions to configure other cards that are located Cards in the CPU and expansion bays. -
Page 29: Step 4. Interconnecting Modules And Bays
Each card has to be interconnected with every other card in its bay. At the same time, bays in the 4100U-S1 also have to be connected together. Read this section to ensure that cards and bays are interconnected correctly. Refer also to drawings 1976-136 and 1976- 137. -
Page 30: Connecting To Motherboards
Step 4. Interconnecting Modules and Bays, Connecting to Panels with legacy motherboards in the expansion bay require some non-PDI Motherboards connections. If you need to connect a harness to a motherboard, refer to Figure 2-6 and follow these steps. Make sure to route the power and communication wiring on the left side of the bay. -
Page 31: Step 5. Installing Modules Into Expansion Bays
Step 5. Installing Modules into Expansion Bays Overview This section contains guidelines and instructions on installing 4”x 5” cards and traditional motherboards into the 4100U-S1 expansion bay. IMPORTANT: This section applies to aftermarket modules for expansion bays only. If Placement Refer to the following guidelines before mounting 4”... -
Page 32: Figure 2-8. Expansion Bay Motherboard Placement
Step 5. Installing Modules into Expansion Bays, • Placement Motherboards can be installed on top of the PDI in expansion bays. The data and Guidelines power that would normally be bussed via the PDI are routed across the motherboards (continued) via their left and right connectors (J1 and P1). -
Page 33: Installing 4" X 5" Cards
Step 5. Installing Modules into Expansion Bays, Installing 4” X 5” The power distribution interface (PDI) is mounted to the back of the expansion bay. The Cards PDI contains slots for up to eight 4”x 5” slave cards. Since the PDI carries power and data across the entire bay, it solves most interconnection issues, especially between 4”x 5”... -
Page 34: Installing Motherboards
4. Secure the motherboard to the standoffs using four #6 torx screws as shown below. #6 SCREWS Figure 2-10. Installing the Motherboard in a 4100U-S1 Expansion Bay This figure shows the motherboard being fitted to slot 2. In 4100U-S1, slots 1 and 2 can’t be used for motherboards. METAL... -
Page 35: Step 6. Installing Led/Switch Modules Into Expansion Bays
4100-1282 Display Card. With one red and one yellow LED per switch, this is used for Alarm Zone Facility displays. • 4100-1294 Slide-In Label Kit - one per 4100U-S1 cabinet • ME0456 Fan Control Module Each 4100-1288 or 4100-1289 LED/switch controller supports up to 64 LED indicators and 64 switch controls. -
Page 36: The Led/Switch User Interface
4100U CPU. This is sufficient for 32 zones. REMOTE ANNUNCIATOR JUMPER (P1) The standard configuration of 4100U-S1 uses 4100-1282 cards for zone displays, with programming so that pressing any switch toggles the Isolate state of the corresponding zone. -
Page 37: Configuring The Led/Switch Controller Card
Switch controller configuration consists of setting jumper P1 and setting Controller Card the card address. In the 4100U-S1, the first display controller is address 3 and the second has address 4. Card addressing is covered in Appendix A. -
Page 38: Figure 2-14. Controller Card Mounting
Step 6. Installing LED/Switch Modules into Expansion Bays, Mounting the Refer to the figures and instructions below to mount the LED/switch controller card Additional LED/ assembly to the back of one of the LED/switch cards. Switch Controller Card 1. Use four 322-123 Nuts and four 268-009 bay Washers to secure the 637-141 Bracket to the inside front of the expansion bay. -
Page 39: Wiring Instructions
Step 6. Installing LED/Switch Modules into Expansion Bays, LED/Switch Modules All types of modules are mounted to the front of a bay, and are connected to each other via a ribbon cable. Each module operates by the same rules: when a button is pressed, the controller card sends the CPU the information, and the action programmed for that button occurs. -
Page 40: 4100U Fan Control Module
PC for local printing. LED names may also be revised. Mounting & The Fan Control module mounts to the frame of the 4100U-S1 Expansion bay door from Connection the front, in a similar fashion to display modules. Mounting nuts and washers are provided. -
Page 41: Figure 2-16. Me0456 Fan Control Module
Figure 2-16. ME0456 Fan Control Module 2-23... - Page 42 2-24...
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Page 43: Chapter 3 Networking
Introduction A basic 4100U-S1 system becomes a network node when a Network Interface Card (NIC) or other compatible network card is installed and connected to another network node. How network cards connect to each other depends on the type of media cards being used. -
Page 44: Network Configuration
Multiple 4100U-S1 panels can be connected together into a network system by using network interface cards (NICs). When a NIC is installed into a 4100U-S1, it is used to connect to other network nodes. Nodes may consist of other 4100U-S1 or larger 4100U panels, or they may be other types of node such as Graphical Command Centers (GCCs), or Visual Command Centers (VCCs). -
Page 45: Connecting Loops
Remote Loop Hub Node Physical Bridge Link Physical Bridging (Star Configuration) System Design To be used as a network node, a 4100U-S1 panel must contain the following: • • System Power Supply • 4100-6014 Network Interface Card plus two Media Cards... -
Page 46: Getting Started
Getting Started Overview This chapter describes how to turn a basic 4100U-S1 into a network node. This process consists of the following: Step 1. Mounting media cards to the network interface card (NIC) Step 2. Mounting the network cards in the panel Step 3. -
Page 47: Network Module Illustrations
Introduction to the 4100 Network Interface Card (NIC), Network Module Illustrations DATA TRANSMIT/ RECEIVE LEDs (LED2 THROUGH LED5) MEDIA CARD 40-PIN CONNECTORS (P5, P6) DATA RATE JUMPER PORT (P3) DATA PROTOCOL JUMPER PORT ADDRESS DIP SWITCH (SW2) YELLOW LED (LED1) RESET SWITCH (SW1) NIC Card LED... -
Page 48: Nic Media Cards
Introduction to the 4100 Network Interface Card (NIC), NIC Media Cards There are two approved modules that can be plugged into the 4100-6014 NIC: • 4100-6057 Fiber-Optic Media Card (565-261) • 4100-6056 Wired Media Card (565-413) Each module is shown below. RESERVED (TB1) FIBER-OPTIC DATA: TRANSMIT (U1),... -
Page 49: Requirements And Limitations
CPU Motherboard NIC-compatible jumper settings on CPU motherboards depend on which motherboard is Jumper Settings used. Motherboard 566-227 (normally used in 4100U-S1): P10: Port 1 settings. P11: Port 2 settings. • P10/P11 position 1 – 2: Network card (NIC) attached to CPU motherboard (default). -
Page 50: Nic Card Jumper Settings
P3: Determines the NIC data transmission rate, 57.6 kbits/second or 9600 bits/second. • Position 1 – 2 (the right two pins) or no pins jumpered: 57.6 kbits/second (default for 4100U-S1). • Position 2 – 3 (the left two pins): 9600 bits/second. -
Page 51: Step 2. Mounting Media Cards To The Nic
Step 3. Mounting Network Cards in the 4100U-S1 The 4100 NIC daughter card inserts into motherboards as follows: • If the 566-227 CPU Motherboard (default for 4100U-S1) or 565-275 CPU Motherboard is used, the NIC daughter card is inserted into connector J2. •... -
Page 52: Step 4. Wiring Network Cards
Step 4. Wiring Network Cards Overview The nodes in the network now have to be wired together, so that the NIC in one host panel connects to the NIC in the next panel. Wiring Guidelines Refer to the following guidelines field wiring General •... -
Page 53: Wiring Distances
Step 4. Wiring Network Cards, Wiring Distances Maximum wiring distances are shown in the table below. Media Type Wired Optical Fiber Notes: • 0.8 mm capacitance or 21Ω/km resistance. • 0.2 mm capacitance or 84Ω/km resistance. • Between any two connected network nodes, L+ of one node connects to R+ of the other, and L- connects to R-. -
Page 54: Fiber-Optic Wiring
Step 4. Wiring Network Cards, Fiber-Optic Wiring Connectors U1 (transmitter) and U2 (receiver) on the 4100-6057 Fiber-Optic Media Card are used to connect 4100-6014 NICs across parts of a network. Note: ST connectors with long strain relief boots must be used with the fiber optic Fiber Optic Dual Fiber Optic Cable Connections. -
Page 55: 4190-9010 Coupler Requirements
Step 4. Wiring Network Cards, 4190-9010 Coupler The 4190-9010 Coupler is used with the 4100-6057 Fiber Optic Media Board, revision Requirements “C” or higher. Two 4190-9010 Bi-Directional Couplers are required per connection, one at each node. The 4190-9010 is equipped with type ST connectors. To make type ST to type ST connections, an ST to ST coupler, by others, is required. -
Page 56: Wiring With The Wired Media Card
Step 4. Wiring Network Cards, 4190-9010 Coupler The illustration below shows coupler wiring. Requirements (continued) Wiring with the Refer to the guidelines and figures in this topic to use wired media cards. Wired Media Card IMPORTANT: TB1 on the wired media card must not be used when it is •... -
Page 57: Figure 3-8. Wired Media Interconnection Between Cpu Motherboards In Different Panels
Figure 3-8, below, shows how CPU motherboards in two 4100U-S1s with wired media Wired Media Card network cards connect to each other. The right port terminals (TB3) on one 4100U-S1 (continued) are connected to the left port terminals (TB1) of the other 4100U-S1. -
Page 58: Loop Wiring, Mixed Fiber And Cable
Step 4. Wiring Network Cards, Loop Wiring, mixed Figure 3-9 shows an example of loop network cabling using a mixture of fibreoptical Fiber and Cable cable and twisted pair. Note that the left port of any network card is connected to the right port of the next network card regardless of whether the connection is fiber or copper. -
Page 59: Chapter 4 The System Power Supply & Alarm Relay Card
The System Power Supply & Alarm Relay Card Introduction The system power supply (SPS) is described in Chapter 2. A picture of it is shown in Figure 2-4. This chapter has the current and voltage ratings of the SPS and describes how it is installed and configured by the factory. -
Page 60: Input/Output/Batteryspecifications
Output Current Limit Notes: • AC power must be provided to the 4100U-S1 from a dedicated AC branch circuit. The AC input is supervised wiring. • The AC branch is terminated in the cabinet in the general power output (GPO) mounted in the expansion bay. -
Page 61: Sps Current Consumption
SPS Specifications, Continued • The bulk supply (rated at 9A max) which feeds 24V Sig, 24V Card, 24V Aux also supplies the SPS Card including the on board IDNet, and the battery charger. The charger is disabled during alarms so as to make the 9A available on the other busses. (See the following table for the SPS current). -
Page 62: Sps Adjustments
SPS Specifications, • Additional alarm conditions: Trouble relay activated, power trouble LED on, IDNet LED on, battery charger off, auxiliary power load = 0 mA, NAC alarm load = 0 mA, IDNet = 35 V SPS Adjustments Adjusting Voltages There are two 4mm (i.e. small) potentiometers on the 4100-9848AU SPS, situated below the centre of the PCB. -
Page 63: Sps Led Indications
SPS LED Indications Status LEDs The SPS has the following LEDs: LED1 (yellow). Illuminates when NAC 1 is ON or in Fault. LED2 (yellow). Illuminates when NAC 2 is ON or in Fault. LED3 (yellow). Illuminates when NAC 3 is ON or in Fault. LED4 (yellow). -
Page 64: Troubleshooting An Sps
This section contains explanations of fault messages associated with the SPS that may appear on the 4100U-S1 display. Heading text in the left margin shows the error message, while the paragraph next to it describes the likely cause of the message. -
Page 65: Figure 4-1. The Alarm Relay Card
The Alarm Relay Card mounts on, and is driven by, the SPS. It has 3 relays, each providing one set of voltage-free contacts. It is fitted to the basic 4100U-S1 as standard. The relays are able to be configured under custom control, but the default operation is for system status, i.e. -
Page 66: Configuration
The Alarm Relay Card, Configuration The relays have one set of voltage-free contacts (see note below) connected to one pair of terminals via a header. The two terminals are configured for normally closed or normally open by positioning a jumper on the relay card. Relay Alarm Isolate (Supervisory) -
Page 67: Brigade Interfaces
1 x FP0740 FAS interface module with red, yellow, blue and white wires 1 x pair of red and black wires for connecting the ASE to the 4100U-S1 DC supply 4 x M6 screws, washers and cage nuts for mounting the door... -
Page 68: General Wiring
It is recommended that the brigade device does not share its fuse protection with any other equipment, for reliability. The wiring between the brigade device and the 4100U-S1 should be routed neatly as shown in the following drawings, and secured in place with the cable ties and adhesive tie holders supplied with the kits. -
Page 69: Chapter 5 Sps Field Wiring (4100U-S1)
Refer to the page number listed in this table for information on a specific topic. General Field Wiring Guidelines SPS NAC Field Wiring Guidelines Power Supply Wiring Distances Using T-Gen 50 with 4100U-S1 SPS Auxiliary Power Wiring SPS Relay Wiring SPS IDNet Wiring... -
Page 70: General Field Wiring Guidelines
General Field Wiring Guidelines General Guidelines • All field wires must be 0.75 mm AS1670.1 and the wiring code. • Conductors must test free of all earth leakage. • All wiring must be done using copper conductors only, unless noted otherwise. •... -
Page 71: Sps Nac Field Wiring Guidelines
Terminal designations “+” and “-” are for the Alarm state (ON), not the supervision state. Allocations The configuration templates supplied for use with the 4100U-S1 all have these default assignments of the NAC outputs, with corresponding Custom Control equations. •... -
Page 72: Class A (Loop) Nac Wiring
SPS NAC Field Wiring Guidelines, Some or all of these output functions could be implemented using addressable devices or other relay modules instead, in which case the corresponding NAC output could be reassigned to other uses. The new configuration would require full testing of these functions to ensure compliance with AS 4428.1. -
Page 73: Class B (String) Nac Wiring
SPS NAC Field Wiring Guidelines, Class B (string) NAC To connect the SPS to appliances using Class B wiring, read the following instructions Wiring and refer to the figure below. 1. Route wire from the B+, B- outputs on TB2 of the SPS to the appropriate inputs on a peripheral notification appliance. -
Page 74: Class A Nac Wiring Table
Power Supply Wiring Distances Overview Before wiring from any type of power supply to notification appliances, check Tables 5-1 and 5-2 for wiring distances. Class A NAC Table 5-1 lists the maximum distances from the NAC terminal block to the last appliance Wiring Table in a Class A (loop) configuration, depending on wire gauge and current. -
Page 75: Class B Nac Wiring Table
Power Supply Wiring Distances, Class B NAC Table 5-2 lists the maximum distances from the NAC terminal block to the last appliance Wiring Table in a Class B (string) configuration, depending on wire gauge and current. Use Table 5-2 to calculate wire distances for your application if you are using Class B wiring. Alarm Current @ 0.75 mm... -
Page 76: Overview
T-GEN 50 tone generator, which is capable of driving up to 50W of load on a 100V speaker line. The recommended version of the T-Gen 50 for use in 4100U-S1 is available as part 4100- 0766K (see PID information in Chapter 1). This consists of a T-Gen 50 mounted on a metal bracket which is mounted into the expansion bay in the same way as a legacy 4100 motherboard. -
Page 77: Controlling A T-Gen 50 With A Relay Module
Using T-Gen 50 with 4100U-S1, Controlling a T-Gen 50 with a Relay Module Mains rated cable for 100V speaker wiring A T-GEN 50 can be operated and supervised using a 4100-3003 relay module. The relay module is used to control the ALM- input to the T-GEN 50 and to monitor the state of its Fault relay. -
Page 78: T-Gen 50 Setting For Relay Operation
Using T-Gen 50 with 4100U-S1, T-Gen 50 Setting for Relay Operation These switch and link settings should be used. These apply to T-GEN 50 software version 1.7. (T0) SWITCH Link Continued Alert to Evacuate Change-Over Time SW2 (T1) (T2) Name... -
Page 79: Controlling A T-Gen 50 From A Nac Output
Using T-Gen 50 with 4100U-S1, Controlling a A T-GEN 50 can be controlled and supervised using a NAC output. The NAC is used to T-Gen 50 from a NAC control the ALM- input to the T-GEN 50 and to supervise its Fault relay output. The T- Output GEN 50 is configured to supervise the 100V wiring to the loudspeakers. -
Page 80: T-Gen 50 Settings For Nac Operation
Using T-Gen 50 with 4100U-S1, T-Gen 50 Settings for These switch and link settings should be used. These apply to T-GEN 50 software NAC Operation version 1.7. Change-Over Time (T0) SW1 to SW3 settings have no effect on Slave T-GEN 50s. -
Page 81: Fitting An Evacuationcontrol
The control can be fitted to an FP0935 or FP0937 4U Brigade Interface door as used in 4100U-S1, or fitted to a 4100-1279 blank display module (requires a 9.5mm hole to be drilled in the display module – the ME0460 includes an installation guide with drilling details). -
Page 82: Speaker Wiring
Using T-Gen 50 with 4100U-S1, Refer to the T-GEN 50 Installation and Operating Guide (LT0186) for details about the 100V Speaker wiring of speakers and end-of-line resistor requirements for the T-GEN 50. Wiring ME0460 Evac Control fitted to blank display... -
Page 83: Sps Auxiliary Power Wiring
SPS Auxiliary Power Wiring Overview The panel, battery-backed, unregulated dc bulk power is available from the SPS via the NAC and the 24V Aux power terminals. NACs can be configured as auxiliary power point type in the 4100U Programmer. All of these are power-limited. Guidelines Review the following guidelines before using the SPS for auxiliary power. -
Page 84: Wiring
SPS Auxiliary Power Wiring, Wiring The SPS can connect to auxiliary power appliances via the dedicated auxiliary power tap (TB3). If more power is needed, any of the three NAC outputs can be used for auxiliary power. AUXILIARY POWER 0.75 mm to 4 mm B- A+ A- B+ B- A+ A- B+ B- A+ A- Dedicated auxiliary... -
Page 85: Sps Relay Wiring
The SPS has one programmable relay, Aux 1, with one set of voltage-free contacts (see below). The Alarm Relay 4100-6033 is fitted as standard to 4100U-S1. This has 3 relays, each with one set of normally open (or normally closed) contacts available on a screw terminal block (see Chapter 4). -
Page 86: Sps Idnet Wiring
SPS IDNet Wiring Overview This section describes how the IDNet Channel on the SPS connects to addressable devices/detectors. The guidelines governing IDNet wiring guidelines are covered in Chapter 6, IDNet Installation. IDNet Wiring Up to 250 IDNet initiating devices are supported on the SPS IDNet channel. The SPS supports both Class A (loop) and Class B (string) wiring. -
Page 87: Class A (Loop) Wiring
SPS IDNet Wiring, Continued Class A (loop) To connect addressable devices/detectors to the SPS IDNet using Class A wiring, read the Wiring following instructions. 1. Ferrite beads are required on the SPS IDNet cables (refer Figure 5.1). 2. Route wire from the B+, B- outputs on TB1 of the SPS to the appropriate inputs on a peripheral IDNet device. -
Page 88: Class B (String) Wiring
SPS IDNet Wiring, Continued Class B (string) To connect addressable devices/detectors to the SPS IDNet using Class B wiring, read the Wiring following instructions. 1. Under AS1670.1 Class B wiring is allowed only for a maximum of 40 addressable devices. 2. -
Page 89: Chapter 6 Installing A 4100U Idnet Card
Installing a 4100U IDNet Card Introduction The 4100U-S1 can support one IDNet card in the expansion bay, to provide a second addressable loop. The IDNet Card uses Mapnet Protocol and communicates with existing Mapnet detectors/devices plus the new IDNet devices. -
Page 90: Figure 6-1. The Idnet Card
The IDNet Card The 4100U IDNet card receives 24V power (+24V Card Supply bus) and communication Overview with the CPU via the PDI. There are several versions of IDNet Card, configured by links soldered on the PCB. The 4100-3101AU used in Australia communicates with up to 250 devices. -
Page 91: Leds
The IDNet Card, Continued LEDs The IDNet card has the following LEDs: LED1. Normally off. Turns on steady if the IDNet card is not communicating with the 4100U CPU. LED2. Normally off. Illuminates to indicate a problem with the IDNet lines. •... -
Page 92: Installing The Idnet Card Onto The Pdi
Installing the IDNet Card onto the PDI Overview Use connector P2, labelled on the back side of the IDNet card, to connect to any of the four left-most PDI connectors as shown in the figure below. Note that the right-most two PDI connectors are obscured by the mains output bracket, and a T-Gen 50 bracket (if fitted). -
Page 93: Overview
CPU. Set this switch to ON. SW1-2 through SW1-8. These switches set the card’s address within the 4100U-S1. Refer to the table in Appendix A for a complete list of the switch settings for all of the possible card addresses. -
Page 94: Overview
Wiring to IDNet Devices Overview Up to 250 IDNet slave devices, such as smoke detectors and manual call points, can be connected to the IDNet card using Class A (loop) or Class B (line) wiring, with the following restrictions. Class A wiring allows the devices to communicate with the IDNet card even in the event of an open circuit somewhere in the loop. -
Page 95: Class A Wiring
Wiring to IDNet Devices, Notes Wire Size 0.75 mm Distance 385 m Distance 769 m 1. The current allowance per device on the loop is 0.5mA with the LED off, 2mA with the LED on. A maximum of 20 LEDs will be turned on at any time by the IDNet Card, e.g. -
Page 96: Class B Wiring
Wiring to IDNet Devices, Class B Wiring To connect the IDNet card to devices using Class B wiring, read the following instructions. 1. On TB1, jumper IDNetB+ to IDNet A+, and jumper IDNetB- to IDNetA-. If the jumper is absent, a Class A Trouble will be indicated on LED 2. 2. -
Page 97: Troubleshooting On Idnet
Troubleshooting on IDNet Overview This section describes the messages that may appear on the 4100U-S1 display when using the IDNet card. Trouble messages appear on the left as titles, and possible causes are listed to the right in the text. - Page 98 6-10...
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Page 99: In This Chapter
PC Software Connections Introduction The service port on the door with the Operator Interface enables the 4100U-S1 to connect to a PC running important utilities, such as diagnostics, programming, CPU firmware downloading, and channel monitoring. In this Chapter Refer to the page number listed in this table for information on a specific topic. -
Page 100: Overview
Service and Diagnostics Mode. This is the default functionality when a PC is connected to the 4100U-S1. On a PC, this mode provides application startup messages, an ASCII interface to a User Interface command set for diagnostics, and event reporting. The PC must be running suitable terminal emulation software (e.g., Hyperterm). -
Page 101: Figure 7-3. Bootloader Interface
Master Bootloader Interface Mode. This mode is used to download the Master CPU (continued) Exec firmware and the CFG.TXT file to the CPU via the serial port. serial download cable Laptop/PC running Programming file transfer Figure 7-3. Bootloader Interface Continued on next page 4100U-S1 Panel running Bootloader... -
Page 103: Chapter 8 Installation Checklist, Commissioning & Maintenance
Installation Checklist, Commissioning & Maintenance Introduction The 4100U-S1 is tested in the factory and is loaded with a basic configuration. When the panel arrives on site the installer must unpack and check the panel, mount the cabinet, any additional cards, and check the configuration before applying power. -
Page 104: Alignment & Adjustment
Alignment & Adjustment All the 4100U-S1 cards and modules in the base panel are tested and aligned in the Overview factory before being supplied to the customer. The only field adjustment that may be necessary is to set the battery charger voltage. (Note this has been set and should not need re-adjusting). -
Page 105: Power Up & Placing Into Operation
A full commissioning test must be carried out as per the requirements of AS 1670.1. Refer to the appendix in this manual for detail on checking wiring, and earth fault detection. Refer to the 4100U-S1 Operator’s Manual LT0395 for detail of the walk test that may be used for verifying correct detector operation. -
Page 106: Maintenance
Maintenance The 4100U-S1 system must be kept free from faults and tested on a weekly, monthly and annual basis to verify that it is operating correctly. The tests required by part 8 of the standard AS1851 Maintenance of Fire Protection Equipment are detailed in the 4100U-S1 Operator’s Manual, LT0395. -
Page 107: Overview
Card Address DIP Switch Overview Addressable cards include a bank of eight DIP switches. From left to right (see Figure A- 1, below) these switches are designated as SWx-1 through SWx-8. The function of these switches is as follows: • SWx-1. -
Page 108: Table A-1 Card Addresses
Overview, (continued) Address SW 1-2 SW 1-3 SW 1-4 SW 1-5 Table A-1. Card Addresses SW 1-6 SW 1-7 SW 1-8 Address SW 1-2 SW 1-3 SW 1-4 SW 1-5 SW 1-6 SW 1-7 SW 1-8... -
Page 109: Introduction
This appendix briefly summarises the programming that is required to comply with AS4428.1. It does not provide equations or detail of programming. Refer to LT0400 4100U-S1 Programming & Configuration Reference for descriptions of the AS 4428.1 programming. The separate 4100U Programming Manual tells how to use the PC-based 4100U Programmer. -
Page 111: Overview
Appendix C Checking System Wiring Notes: • Ensure that no power is applied to the 4100U-S1 fire alarm panel and that all wiring is properly connected (terminal blocks, LED/switch module ribbon cables, etc.). • Use the earth stud in the control panel for all measurements to ground. -
Page 112: Meter Readings
Appendix C: Checking System Wiring, Meter Readings Table C-1 lists the correct meter readings for indicating appliances and initiating devices. Circuit Type Class B/Style B Initiating Device (Zone) Circuit From zone + to zone – (each zone) From zone + to ground From zone - to ground Class A/Style D Initiating Device (Zone) Circuit From zone + to zone –... -
Page 113: Overview
Because of this, earth faults must be located and repaired. Earth Fault Search is conducted by the 4100U-S1. The diagnostic may be activated using either the front panel interface or the Computer Port Protocol via a service port. -
Page 114: General Guidelines
Earth Fault Search detects only one fault at a time. Multiple faults require fixing the first fault and then repeating the search. • The 4100U-S1 suspends normal operation for the duration of the Earth Fault Search. • Location Earth Fault Searches optionally allow exclusion of auxiliary power circuits from the search, so that modules connected to the 24 V auxiliary outputs can remain in operation during the search. -
Page 115: Earth Fault Searching From The Front Panel
Earth Fault Searching from the Front Panel Overview This section describes how to conduct an Earth Fault Search, from selecting the appropriate access code to correcting the fault. Access Level The panel must be at the appropriate access level (1, 2, 3, or 4) in order to run diagnostics. Selection To get to the correct access level, 1. -
Page 116: Search Option A: Select Location
Now you are prompted to start the search. When the location you want to search is shown and "Press <ENTER> to start search" displays, the search is ready to start. A sample is shown below. NOTE: The 4100U-S1 suspends normal operation for the duration of the search. Press the Enter button to start the search. -
Page 117: Search Option B: Select Channel
IDNet channel you want to search is shown and "Press <ENTER> to start search" displays, the search is ready to start. A sample screen is shown below. NOTE: The 4100U-S1 suspends normal operation for the duration of the search. Press the Enter button to start the search. -
Page 118: Search Results
• RUI Channel (Master Controller Card). (Not used in 4100U-S1). • Channel 1 to 3 (TrueAlert Power Supply). (Not used in 4100U-S1). Point Faults A point fault indicates an earth fault at a specific addressable point. The example below is... -
Page 119: Fault Not Found
Search Results, Continued IDNet isolator fault. The message below shows a fault detected after the IDNet isolator Point Faults, was turned on: Continued Fault Not Found If the message in the lower right corner of the LCD reads FAULT NOT FOUND (for a Location Earth Fault Search) or FAULT CLEAR FAIL (for an IDNet Channel Earth Fault Search), it means the search could not locate the fault, but it acknowledges that a fault exists. -
Page 121: Appendix E Related Documentation
The following manuals are relevant. Other Australian 4100U manuals may be found on the TSP website. Book Part Number LT0395 LT0393 LT0400 LT0307 The following is a listing of US 4100U documentation that may be relevant to 4100U-S1. Book Part Number 574-197 574-674 574-772 574-800 574-839... - Page 122 Book Part Number (cont.) 4100/4120-Series NIC and Media Modules 579-182 Installation Instructions 4100/4120-Series Physical Bridges and 4100/4120-Series Media Modules 579-184 Installation Instructions 4100/4120-Series Class A / Class B Zone Modules 579-205 Installation Instructions 4100/4120-Series Relay Modules 579-220 Installation Instructions 4100/4120-Series Dual RS-232/2120 Modules 579-221 Installation Instructions 4100U Upgrade Kits...
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Page 123: In This Chapter
Compatible Actuating Devices Introduction This appendix describes the following: • Devices that have been approved as compatible devices for use with the 4100U-S1. • Devices approved for use with the IDNet and shows the number allowed per loop. In this Chapter Refer to the page number listed in this table for information on a specific topic. - Page 124 List of Approved Devices, Hochiki Range - Conventional Detectors Olsen Range - Conventional Detectors Apollo Range - Conventional Detectors Continued DCA-B-60R MK V Type A heat detector DCC-A Heat Type A DCC-C Heat Type C DCD-A Heat Type A DCD-C Heat Type C DFE-60B Type B heat detector...
- Page 125 List of Approved Devices, Brooks Range - Conventional Detectors Cerberus Range - Conventional Detectors Simplex MAPNET 2 Range – Addressable Field Devices Continued PFS-A Heat detector Type A PFS-B Heat detector Type B PFS-C Heat detector Type C PFS-D Heat detector Type D PFS-P Photoelectric smoke detector PFS-P MK II...
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Page 126: Compatible Detectors, Idnet
Compatible Detectors, IDNET The following lists the detectors approved for use with IDNet and shows current rating and numbers allowed per loop. Analogue Photoelectric Smoke Detector Analogue Ionisation Smoke Detector Analogue Heat Type A & Analogue Multi * Maximum allowed by AS1670.1. The 9714E, 9717E and 9733E detectors use a (4098-) 9789E addressable base or 9794E addressable sounder base, or 9793 addressable isolator base. -
Page 127: Compatible Addressable Field Devices, Idnet
Compatible Addressable Field Devices, IDNet The following lists the addressable devices approved for use with IDNet and shows current rating and numbers allowed per loop. Device Type IDNet Comms Isolator Relay IAM with T-sense Addressable Power Relay IAM with unsupervised Input Supervised IAM Monitor ZAM Manual Call Point... -
Page 129: General
4100U-S1 Specifications General System Capacity Expansion Cabinet Size Cabinet Material Cabinet Finish Cabinet Colour Mounting Mains Input Internal Power Supply Standby Battery Battery Charger PSU Supervision Temperature Humidity Refer to Table 4-1 and 4-2 for full SPS specifications. Fuses Alarm Relay Card... -
Page 130: Voltage & Current Ratings Of Modules & Assemblies
Voltage & Current Ratings of Modules & Assemblies The DC input voltage range of the following modules is 18-33Vdc. The current listed is nominal for 24Vdc, and may be used for battery capacity calculations. Module 4100-6035 4100-3101 4100-1288 4100-1289 4100-0620 4100-0625 4100-6014 4100-6056... -
Page 131: Appendix H Power Supply & Battery Capacity Calculations
Note: I(A) allows for two zones in Alarm (including Ancillary loads). Take the calculated value of Battery Capacity and choose the next largest standard size of battery. The 4100U-S1 cabinet can accommodate 2 x 40Ahr batteries. The following batteries are compatible with the 4100U-S1. -
Page 133: Appendix I List Of Drawings
List of Drawings The following drawings are included since they are referred to in the manual or are relevant. 1901-267 Sheet 2, 4100U AIU/PSU Wiring Assembly Drawing 1976-176 4100U-S1 Presentation Drawing 1976-174 4100U-S1 Brigade Door Assembly Sheet 1 ASE, Sheet 3 PPU/AIU... - Page 138 ©2004 Tyco Safety Products Westminster, Westminster, MA 01441-001 USA. Specifications and other information shown were current as of publication, and are subject to change without notice.
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