6-1 INTRODUCTION
The FenwalNET 2000 system parts list, Table 6-1 provides a list of all repair parts.
NOMENCLATURE PART NUMBER
Table 6-1. FenwalNET 2000 System Parts List
SMARTONE FIELD DEVICES
Intelligent Photoelectric Detector, Model PSD-7152 71-402001-100
Intelligent Ionization Detector, Model CPD-7052 70-402001-100
Intelligent Thermal Detector, Model THD-7252 70-404001-100
6' Universal Detector Base, Model 6SB 70-400001-100
4' Universal Detector Base, Model 4SB 70-400001-101
MA-002 Adapter for SmartOne Detectors to 70-400001-000 Base 70-400001-200
AnaLASER Interface Module 89-100081-001
AnaLASER Interface Module for use with AnaLASER II Detectors 89-300010-001
Addressable Contact Input Device (N.O.) 70-407008-001
Addressable Contact Input Device (N.C.) 70-407008-002
Addressable Relay Output Device 70-408004-001
Loop Isolator - 1 Gang Box Mounted 74-200012-002
Loop Isolator - Detector Base Mounted 74-200012-004
Loop Isolator - RXTX Mounted 74-200012-001
DUCT HOUSING AND COMPONENTS
DH-2000 Duct Housing without Detector Installed 70-403001-100
DH-2000 PSDI - Duct Housing with Photoelectric Detector Installed 70-403001-152 DH-2000 CPDI - Duct Housing with Ionization Detector Installed 70-403001-052 Sampling Tube - 12", The number of sampling holes vary with tube length. Order 06-129500-001 sampling tubes that approximate duct width.
Sampling Tube - 24" 06-129500-002
Sampling Tube - 48" 06-129500-003
Sampling Tube - 72" 06-129500-004
Sampling Tube - 96" 06-129500-005
Sampling Tube - 120" 06-129500-006
Exhaust Tube Kit 06-129554-001
MISCELLANEOUS
Handheld Device Programmer 74-200013-001
6-Conductor Telephone Cable with DB25 Adapter (DTE) for Computers and 74-100016-001 Terminals
6-Conductor Telephone Cable with DB25 Adapter (DCE) for Modems 74-100016-002 6-Conductor Telephone Cable with DB9 Adapter (DTE) for Laptop Computers 74-100016-003 DB25 Adapter (DTE) for Computers and Terminals (use with 6-Conductor 06-129341-001 Telephone Cable)
DB25 Adapter (DCE) for Modems (use with 6-Conductor Telephone Cable) 06-129317-003
DB9 Adapter (DTE) for Laptop Computer 06-129373-001
NOMENCLATURE PART NUMBER
Table 6-1. FenwalNET 2000 System Parts List (Continued)
CHAPTER 7 INSTALLATION
7-1 INTRODUCTION
This chapter provides information necessary to install the FenwalNET 2000 System. Installation consists of installing a complete system. The procedures in this chapter should be accomplished by technicians famil-iar with fire alarm system installation and the require-ments of relevant NFPA regulations.
7-2 MATERIALS REQUIRED FOR
INSTALLATION
The materials listed below are not supplied with the system, but are required for installation.
No. 10 or 1/4 inch Mounting Hardware
Electrical Conduit for AC Input Power
4-inch Electrical Junction Boxes (as required)
Wire-Nuts and Crimp-On Terminals (as required)
Ground Strap (for use when handling printed circuit boards
7-3 INSTALLATION PROCEDURE FOR
CENTRAL CONTROL PANEL
The FenwalNET 2000 Central Control Panel enclosure (P/N 74-200000-002) is 28 inches high x 18 inches wide x 5½ inches deep. It is designed to be surface or semi-flush mounted using No. 10 or ¼ inch hardware. The type of hardware to be used is at the discretion of the installer, but must be in accordance with good electri-cal and safety practices.
Figure 7-1 shows the enclosures mounting hole layout.
The lower set of mounting holes should typically be 44 inches from the floor in order for the display panel to be at a convenient viewing height.
To facilitate mounting the enclosure to its wall position, remove the enclosures front door. Be sure to discon-nect the ground wire before removing the door.
To remove the front door, open the door approximately 90º from its closed position and lift it up enough to allow the doors hinge pins to clear their mating hinge sockets located on the left side of the Central Control Panel.
Place the mounting screws in to the top two holes in the wall. Leave approximately 1/4 of both screws exposed.
Carefully place the two key holes over the screws in the wall. Ensure the enclosure has its door hinge sockets located to the left as you face the enclosure. Allow the enclosure to gently come to rest on the screws. Tighten the screws.
Figure 7-1. CCP Installation Drawing
With the enclosure held by the top two screws, place the bottom two mounting screws in place. Tighten the screws.
Reinstall the enclosure door at this time. Care must be taken when installing the door to ensure that the hinge pins are lined up correctly.
7-4 INSTALLATION PROCEDURE FOR
EXPANSION ENCLOSURES
The expansion enclosure (P/N 74-200000-005) use a back plate installed in the enclosure to meet various system component requirements. The expansion enclo-sure maintains the same outside dimensions as the main system enclosure. There are three versions of the backplate:
An I/O module card cage with mounting provisions for up to 4 power supplies.
Mounting provisions for up to eight power supplies.
Two motherboard card cages for mounting up to 16 I/O modules in the expansion enclosure.
The optional I/O motherboard and I/O modules must be installed prior to the System being powered-up. The I/O bus (communications) and 24 Vdc power are at-tached to connectors located on the I/O Motherboard.
Note: The I/O Bus (RS-485) wiring must be enclosed in raceway from the main enclosure for a maxi-mum run of 20 feet, with expansion enclosures located in the same room as the main enclosure.
Figure 7-2 shows the expansion backplate which pro-vides mounting for four power supplies and one I/O motherboard. Figure 7-3 shows the expansion backplate which provides mounting for up to eight auxiliary power supplies. Figure 7-4 shows the expansion backplate which provides mounting for two I/O motherboards.
To install, position the back plate in the enclosure and fasten it to the seven studs located in the enclosure us-ing the nuts supplied with the enclosure.
= Back Plate Mounting Studs (7 Locations)
06-129562-00106-129562-001 NONONCNCRS485
A
B
CCM MOTHER BD MOTHER BD
SYSTEM POWER SYSTEM POWER 24V RET 24V RET
24V24V
RETRET 24V24V
24V24V RETRET
RETRET
24V24V
RETRET
BAT
+-
+-AUX1AUX1AUX2AUX2
DC IN 2 DC IN 2 C DCIN1DCIN1ACOUTACOUT
N1L RR 2112S1S1
ASHLAND, MA 01721 ASHLAND, MA 01721 KIDDE-FENWAL, INC.
KIDDE-FENWAL, INC.
RETRET
TBL RELAY TBL RELAY TBL RELAY TBL RELAY W2 W3
W4W4
F1 W1
S2S2
06-129562-00106-129562-001 NONONCNCRS485RS485
A
B
CCM MOTHER BD MOTHER BD
SYSTEM POWER SYSTEM POWER 24V
RETRET 24V24V
24V24V RETRET
RETRET
+-AUX1AUX1AUX2AUX2
DC IN 2 DC IN 2 C DCIN1DCIN1ACOUTACOUT
N1L RR 2112S1S1
ASHLAND, MA 01721 ASHLAND, MA 01721 KIDDE-FENWAL, INC.
KIDDE-FENWAL, INC.
RETRET
TBL RELAY TBL RELAY TBL RELAY TBL RELAY W2 W3
W4W4
F1 W1
S2S2
Figure 7-2. Back Plate, I/O Motherboard & 4 P.S.
= Back Plate Mounting Studs (7 Locations)
06-129562-00106-129562-001 NONONCNCRS485
A
B
CCM MOTHER BD MOTHER BD
SYSTEM POWER SYSTEM POWER 24V RET 24V RET
24V24V
RETRET 24V24V
24V24V RETRET
RETRET
24V24V
RETRET
BAT
+-
+-AUX1AUX1AUX2AUX2
DC IN 2 DC IN 2 C DCIN1DCIN1ACOUTACOUT
N1L RR 2112S1S1
ASHLAND, MA 01721 ASHLAND, MA 01721 KIDDE-FENWAL, INC.
KIDDE-FENWAL, INC.
RETRET
TBL RELAY TBL RELAY TBL RELAY TBL RELAY W2 W3
W4W4
F1 W1
S2S2
06-129562-00106-129562-001 NONONCNCRS485RS485
A
B
CCM MOTHER BD MOTHER BD
SYSTEM POWER SYSTEM POWER 24V
RETRET 24V24V
24V24V RETRET
RETRET
+-AUX1AUX1AUX2AUX2
DC IN 2 DC IN 2 C DCIN1DCIN1ACOUTACOUT
N1L RR 2112S1S1
ASHLAND, MA 01721 ASHLAND, MA 01721 KIDDE-FENWAL, INC.
KIDDE-FENWAL, INC.
RETRET
TBL RELAY TBL RELAY TBL RELAY TBL RELAY W2 W3
W4W4
F1 W1
S2S2
06-129562-00106-129562-001 NONONCNCRS485
A
B
CCM MOTHER BD MOTHER BD
SYSTEM POWER SYSTEM POWER 24V RET 24V RET
24V24V
RETRET 24V24V
24V24V RETRET
RETRET
24V24V
RETRET
BAT
+-
+-AUX1AUX1AUX2AUX2
DC IN 2 DC IN 2 C DCIN1DCIN1ACOUTACOUT
N1L
2N GLNACINACIN
24V RR 2112S1S1
ASHLAND, MA 01721 ASHLAND, MA 01721 KIDDE-FENWAL, INC.
KIDDE-FENWAL, INC.
RETRET
TBL RELAY TBL RELAY TBL RELAY TBL RELAY W2 W3
W4W4
F1 W1
S2S2
06-129562-00106-129562-001 NONONCNCRS485RS485
A
B
CCM MOTHER BD MOTHER BD
SYSTEM POWER SYSTEM POWER 24V
RETRET 24V24V
24V24V RETRET
RETRET
+-AUX1AUX1AUX2AUX2
DC IN 2 DC IN 2 C DCIN1DCIN1ACOUTACOUT
N1L
2N GLNACINACIN
24V RR 2112S1S1
ASHLAND, MA 01721 ASHLAND, MA 01721 KIDDE-FENWAL, INC.
KIDDE-FENWAL, INC.
RETRET
TBL RELAY TBL RELAY TBL RELAY TBL RELAY W2 W3
W4W4
F1 W1
S2S2
Figure 7-3. Back Plate, 8 P.S.
= Back Plate Mounting Studs (7 Locations)
Figure 7-4. Back Plate, 2 I/O Motherboard
7-5 INSTALLATION PROCEDURE FOR
I/O MOTHERBOARD
The following paragraph provides the step-by-step pro-cedure to install a I/O motherboard into a single loop configured system.
1. Place motherboard on standoffs in the back of the enclosure.
2. Insert and tighten the 12 mounting screws provided with the motherboard.
3. Connect the 24 Vdc wiring from the power supply to terminal TB1.
4. Connect the RJ-12 phone style wire from the MOTHER BD connector (on the power supply) to J9 on the motherboard.
7-6 INSTALLATION PROCEDURE FOR RX/TX MODULE (Multi-Loop Only)
The following paragraph provides the step-by-step pro-cedure for replacing the RX/TX module. Refer to the ap-propriate Figure, 7-5.
Ensure the RX/TX jumpers are set properly during the procedure. Verify that the settings of the jumpers on the RX/TX Module conform to the wiring style of the system being installed. The RX/TX is shipped from the factory programmed for Style 6 wiring style. Refer to drawing 06-235371-002, in Appendix I, which is the installation drawing which shows the jumper locations on the RX/TX module. The settings are used to set the wiring style ( 4, 6 or 7) with 7 being used with loop isolators. Jumpers on the RX/TX Module are noted by JP x and Wx (x = a single digit) call-outs on the module board. Table 7-1 lists the types of allowable configura-tions that can be selected along with the respective jumpers.
Figure 7-5. Installation for Multi-Loop Table 7-1. RX/TX Configuration Selection
r e p m u
J Style4 Style6
6 e l y t S
p o o L / W
r o t a l o s I
7 e l y t S
2 W
&
1
W Open Shorted Shorted Shorted
2 P
J Shorted Shorted Open Open 3
P
J Shorted Shorted Open Open
Note: Style 7 requires the use of loop isolators, the RX/TX module requires the use of one (1) P/N 74-200012-001 isolator module to operate in the Style 7 configuration.
1. Remove RX/TX module from packing and inspect for physical damage.
2. Ensure jumper configuration is set. Refer to Table 7-1 setting per wiring style used.
3. Install loop isolator, P/N 74-200012-001, if used.
4. Connect 24 Vdc wiring from terminal block (TB1-TB8) to 24 Vdc input plug J1. The terminal block which will be used to power the RX/TX will be de-pendant upon which slot the RX/TX will be installed into.
5. Install the short 6 conductor cable from the RS-232 port on the RX/TX to either RJ12 sockets JP1-JP8.
The socket selected is dependant upon which slot the RX/TX will be installed into.
6. Place the RX/TX against the mounting bracket, in the FN-2000 over the desired slot to be placed in.
Install the two mounting screws and tighten until snug.
7. Removal of the RX/TX would be in the reverse order.
Note: Since an RX/TX is not addressed by switches, the slot that it's installed in will become its ad-dress. Example: A RX/TX installed in JP1 on the multi-loop motherboard will become RX/TX 1, Loop 1. If the same RX/TX was changed into JP4, the address would become RX/TX 4, Loop 4.
7-7 INSTALLATION OF I/O MODULES
The I/O modules can be inserted into the motherboard in any order. The CCM automatically reads the I/O mod-ules type and address upon registration. However, it is recommended to insert modules performing like func-tions adjacent to each other to facilitate identification and field wiring runs.
After powering-up the System, a list of I/O Module as-signments can be requested from the System menu to verify registration and accuracy of module address(es).
CAUTION
!
All personnel installing or servicing the FenwalNET 2000 equipment must wear a grounding strap when working in the Central Control panel to avoid generating static electricity which can destroy integrated circuits. Input/Output Module printed circuit boards are shipped in anti-static plastic bags and should be kept in these bags until installation When removing these circuit boards from the Motherboard, they should be replaced in to the appropriate bags. NEVER PACK THESE BOARDS IN STYROFOAM OR PLASTIC PELLETS.
WARNING
!
Input/Output Modules should never be installed in a powered-up system. Always disconnect both AC and battery power before installing or removing I/O Modules.
To remove a I/O module from the System, secure power, remove terminal block from module, remove the two mounting screws and pull out the module.
The following paragraphs describe the installation pro-cedure for each available I/O module type.
7-7.1 Signal Audible Output Module
The following paragraph provides the step-by-step pro-cedure to install a signal audible output module into the FenwalNET 2000 System.
1. Remove the signal audible output module from pack-ing and inspect for physical damage.
2. Set address switches. Refer to drawing 06-235371-006 in Appendix I for address switch settings.
3. Set jumpers W1-W3 for appropriate Y/Z wiring styles (refer to drawing 06-235371-006 in the back of the manual for jumper settings).
4. Cut jumper between W9 & W10 if using an auxil-iary 24 Vdc power input.
5. Install module onto the motherboard. Ensure the connector mates properly.
6. Insert and tighten mounting screws. Refer to ap-propriate Figure 5-1 or 5-2.
7-7.2 Relay Output Module
The following paragraph provides the step-by-step pro-cedure to install a relay output module into the FenwalNET 2000 System.
1. Remove the relay output module from packing and inspect for physical damage.
2. Set address switches. Refer to drawing 06-235371-007 in Appendix I for address switch settings.
3. Install module onto the motherboard. Ensure the connector mates properly.
4. Insert and tighten mounting screws. Refer to ap-propriate Figure 5-1 or 5-2.
7-7.3 Agent Release Module
The following paragraph provides the step-by-step pro-cedure to install a agent release module into the FenwalNET 2000 System.
1. Remove the agent release module from packing and inspect for physical damage.
2. Set address switches. Refer to drawing 06-235371-005 in Appendix I for address switch settings.
3. Set switches S3 and S4 for solenoid or initiator activation (refer to drawing 06-235371-005 in the back of the manual for switch settings).
4. Cut jumper between W1 and W2 if using an auxil-iary 24 Vdc power input.
5. Install module onto the motherboard. Ensure the connector mates properly.
6. Insert and tighten mounting screws. Refer to ap-propriate Figure 5-1 or 5-2.
7-7.4 City Tie Output Module
The following paragraph provides the step-by-step pro-cedure to install a city tie output module into the FenwalNET 2000 System.
1. Remove the agent release module from packing and inspect for physical damage.
2. Set module configuration. Refer to drawing 06-235371-008 in Appendix I.
3. Install module on the motherboard. Ensure the con-nector mates properly.
4. Insert and tighten mounting screws. Refer to ap-propriate Figure 5-1 or 5-2.
7-7.5 IIM-2000 Intelligent Interface Module The following paragraph provides a step-by-step proce-dure for installation of an IIM-2000 into the FenwalNET 2000 System. Users should also refer to the IIM-2000 Installation, Operation, and Maintenance Manual. Re-fer to P/N 89.86 for IIM-2000 Modules used with up to 30 AnaLASER Detectors and Versions 60.X through 71.X FenwalNET 2000 Systems. Refer to P/N 89.200 for IIM-2000 Modules used with up to 127 AnaLASER II Detectors and Version 80.X FenwalNET Systems.
1. Remove the module from packing and inspect for physical damage.
2. Configure the module. Refer to the IIM-2000 Instal-lation Manual.
3. Install module on the motherboard. Ensure that all connections mate properly.
4. Insert and tighten mounting screws. Refer to appro-priate Figure 5-1 or 5-2.
7-7.6 Power Supply/Charger Assembly
The following paragraph provides the step-by-step pro-cedure to install a power supply/charger assembly into the FenwalNET 2000 System.
1. Remove the power supply/charger assembly from packing and inspect for physical damage.
2. Set address switches. Refer to drawing 06-235371-003 in Appendix I for address switch settings.
3. Identify module revision by referring to Figures 3-5 and 3-6.
4. Ensure the wiring connections between the switch-ing power supply (Aux. Power Supply) and monitor module (Main Power Supply) are accomplished in accordance with the appropriate figure, either 7-6 or 7-7.
5. Set jumpers in accordance with drawing 06-235371-003 (located in the back of this manual).
6. Install module in the desired position on the back plate of the main or extension enclosure.
7. Insert and tighten the four mounting screws/nuts into the four corners of the mounting plate.
7-7.7 Power Supply/Charger Assembly, Expansion Enclosure
The following paragraph provides the step-by-step pro-cedure to install a power supply/charger assembly into the expansion enclosure.
1. Remove the power supply/charger assembly from packing and inspect for physical damage.
2. Set address switches. Refer to drawing 06-235371-003 in Appendix I for address switch settings.
3. Identify module revision by referring to Figures 3-5 and 3-6.
Figure 7-6. Power Supply/Charger (Rev A),
Wiring Diagram Figure 7-7. Power Supply/Charger (Rev C),
Wiring Diagram
Figure 7-8. Power Supply/Charger (Rev A), Wiring Diagram for Expansion Enclosure
Figure 7-9. Power Supply/Charger (Rev C), Wiring Diagram for Expansion Enclosure
4. Ensure the wiring connections between the switch-ing power supply (Aux. Power Supply) and monitor module (Main Power Supply) are accomplished in accordance with the appropriate figure, either 7-8 or 7-9.
5. Set jumpers in accordance with drawing 06-235371-003 (located in the back of this manual).
6. Install module in the desired position on the back plate of the expansion enclosure.
7. Insert and tighten the four mounting screws into the four corners of the mounting plate.
Table 7-2. Aux. Power Supply Module Connections to Rev A, Main Power Supply/Charger Assembly
r
Table 7-3. Aux. Power Supply Module Connections to Rev C, Main Power Supply/Charger Assembly
y 7-7.8 Power Supply Communication
Connections
Both Rev A and C communicate with the CCM over the I/O bus of the FenwalNET 2000 System. To that end, there are different ways of connecting these components.
The power supply unit in the main enclosure of the FenwalNET 2000 System communicates with the CCM over a short phone style cable. The I/O bus extends out of the power supply when needed i.e., a motherboard installed or other power supplies installed in expan-sion enclosure without a motherboard. These two ex-amples are accomplished as follows:
1. Power supply in main enclosure to motherboard in main enclosure; A flat six conductor phone type cable is attached to CON 2 of power supply and then inserted into the RJ-12 jack on the motherboard
labeled I/O buss. Remove jumper W4 to enable the terminating resistor on the motherboard. The terminating resistor is used to balance the RS-485 communications.
2. Power supplies installed in expansion enclosure without a motherboard can use the RS-485 termi-nal block (TB1). This connection allows the installer to connect a twisted pair 18 AWG cable to termi-nals A and B of TB1 on the power supply in the main enclosure and connect to the same terminals on the power supply in the expansion enclosure, as shown in the following diagram. This connection must be daisy chained to other power supplies in the expansion enclosure, if installed. Jumper W4 must be removed from all power supplies in line, except for the last power supply unit in the expan-sion enclosure. This will maintain the terminating resistor at the end of the RS-485 circuit, which is required to ensure proper operation of the RS-485 communications.
7-8 CONNECTING AC POWER
AC power must be provided to the Central Control Panels internal power supply using three conductors. The AC power cable is to be run through a conduit from a dedi-cated, 15 Amp circuit breaker. The conduit must be at-tached to the right side of the Central Control Panel enclosure through one of the knockouts near the upper right corner of the enclosure.
See Appendix A for AC branch circuit requirements details.
WARNING
!
High voltages may be present when connecting AC power to the Central Control Panel.
Suitable precautions must be taken to avoid injury.
Note: All Non Power Limited wiring must be routed away from Power Limited wiring by a minimum of 1/4", per NFPA and UL requirements. For Power Limited Circuits use Type FPL, FPLP, or FPLR cable per NEC Article 760.
Insure that the circuit breaker at the dedicated AC power source is in the OFF position. Attach the three AC power conductors to TB1 on the Central Control Panels power supply PCB as shown on drawing No. 06-235371-003, in Appendix I.
7-9 INSTALL AND CONNECT DC POWER Space is provided within the Central Control Panel for two 12 V, 33 AH, sealed lead acid batteries used for 24-hour standby operation.
7-9.1 Battery Enclosure
A separate UL Listed battery enclosure, shown in Fig-ure 7-10, (P/N 74-100017-001) is used to house up to two 12 V, 40 AH, sealed lead-acid batteries. The enclo-sure is designed to be surface mounted using only hard-ware similar to that used on the CCP (See Paragraph 7-3) and must be mounted within 100 feet of the panel.
Note: Wiring for the batteries to the power supply must be sized accordingly to prevent unaccept-able voltage drops.
7-9.2 Batteries
Refer to Appendix A for required system power calculations.
Refer to Appendix E for FM Pre-Action/Deluge sprinkler
Refer to Appendix E for FM Pre-Action/Deluge sprinkler