Protec Algo-Tec 6500 Installation Manual
Protec Algo-Tec 6500 is an advanced fire alarm control panel designed to protect your premises from fire hazards. With its ability to support up to eight detection loops and a range of field devices, it offers comprehensive fire detection and alarm capabilities for various applications. The panel features intelligent algorithms for reliable detection and signaling, ensuring the safety of your property and occupants.
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6500 Control Panel
Installation Manual
Issue 4
RDM0003 – 01/06/2020 Protec Fire Detection PLC
Revision History
Revision Description
4
Manual created in the new company format
Author
Protec
Approved
AA, JL,
NH, RR
Date
01/06/2020
This document must be read in accordance with the Product Documentation Disclaimer available at www.protec.co.uk/terms .
Due to the wide variation in installation conditions, mounting hardware is not supplied with the 6500 Control Panel. Use fixing devices suitable for the mounting surface and mounting style of your installation.
Trademarks
Protec® is a registered trademark of Protec Fire Detection PLC in the United Kingdom.
Algo-Tec® is a registered trademark of Protec Fire Detection PLC in the United Kingdom.
Pozidriv® is a registered trademark of Trifast PLC in the United Kingdom.
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Table of Contents
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1 Related Documents
This manual sits within a range of documentation relating to the 6500 Fire Alarm System. Ensure that all the relevant documents prior to this have been read, understood, and followed correctly.
ππ Product Documentation Disclaimer
ππ 6500 System Design Manual
ππ 6500 Control Panel Datasheet
ππ Safety and Regulatory Information (Panels)
ππ 6500 Installation Manual
6500 Commissioning Manual
6500 Loop Commissioning Booklet
6500 Programming Manual
6500 User Manual
6500 Service Manual www.protec.co.uk/terms support.protec.co.uk
www.protec.co.uk
support.protec.co.uk
support.protec.co.uk
support.protec.co.uk
support.protec.co.uk
support.protec.co.uk
support.protec.co.uk
support.protec.co.uk
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2 Tool and Materials
Tools required to install the 6500 Control Panel.
PZ1 Pozidriv® Screwdriver PZ2 Pozidriv® Screwdriver Terminal Screwdriver
(2.5mm Wide Tip)
Large Slotted Screwdriver
(5mm Wide Tip)
Long Needle Nose Pliers Power Drill with Hole Saw
Spirit Level Suitable Cable Glands Mounting Hardware
The use of torque limiting screwdrivers is preferred in order to prevent the overtightening of fasteners and terminal blocks.
Unless otherwise specified, tighten all fasteners to 0.6 - 0.8Nm.
Any protective bonding conductors disconnected or removed during installation or maintenance must be refitted to preserve the protective earth within this product.
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3 Parameters
3.1
Panel Dimensions
3.1.1
6500 Standard Chassis
146mm
Figure 1 – Standard Panel Profile
3.1.2
6500 Extended Chassis
Figure 2 – Standard Panel Depth
146mm
Figure 3 – Extended Panel Profile
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Figure 4 – Extended Panel Depth
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3.2
Panel Environment
Aspects of the panel installation may be governed by local regulation, in which case, the regulation shall rule over the recommendations given below.
Parameter Rating
Mounting Environment The panel must be mounted in a location with no exposure to direct sunlight, moisture, or vibration. Consult the Safety and Regulatory
Information leaflet for further information.
Mounting Surface
Mounting Orientation
The panel must be mounted on a stable, level surface that is not subject to vibration which can sufficiently support its weight and accommodate the necessary fixing hardware.
The panel must be mounted in its normal orientation to a vertical surface, using a spirit level. Any twist or inclination in the installation may allow the batteries to move within the chassis.
Mounting Location
Mounting Hardware
The panel must be positioned in an accessible location, at an accessible height, allowing sufficient space around the installation for user operation and maintenance.
Use suitable mounting hardware for the mounting surface and the panel weight. Screws with head diameters between 7mm and 10mm must be used to correctly fit the panel mounting holes.
Chassis Entry
Chassis Load Rating
Any openings made in the chassis must be suitable to maintain the product’s stated Ingress Protection (IP) rating.
The panel can support loads of up to 10kg in the standard chassis, and up to 20kg in the extended chassis. Batteries must be placed flat to the bottom of the enclosure and positioned symmetrically.
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4 Installation Instructions
4.1
Packaging
Carefully take the 6500 Control Panel out from its packaging. Ensure that the waste packaging is properly recycled once the panel has been installed.
Cardboard Box Polyethylene Foam Packaging
6500 Control Panel Installation Kit
Contents:
Installation Manual
Installation Template
Loop Commissioning Booklet
Panel Keys
Charger Spares Kit*
*Included only where required
Take care whilst opening the cardboard box not to cut too deep inside the packaging, as this may cause damage to the panel. Carefully slit the packaging tape to open the box.
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4.2
Mounting
4.2.1
Open the Door
Open the panel door using the key provided in the Installation Kit.
4.2.2
Disconnect Ribbon Cable
Disconnect the ribbon cable from the display board, by unlatching the connector at the door side.
Figure 5 – Remove Display Board Ribbon Cable
4.2.3
Remove the Hinge Pins
Using long needle nose pliers, carefully remove the hinge pins whilst supporting the door.
Figure 6 – Hinge Pin (Step 1) Figure 7 – Hinge Pin (Step 2)
Step 1 – Start with the upper hinge pin. Pinch the tip of the pin to release the barb, then gently force it downwards and halfway out of the hinge.
Step 2 – Grab the hook end of the pin and pull it free from the hinge.
Step 3 – Repeat for the lower hinge pin, forcing upwards to remove it.
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4.2.4
Remove the Door
Pull the door away from the chassis and place the door and hinge pins in a safe place so not to damage them.
Figure 8 – Remove Panel Door
Ensure that all connections from the door to the chassis are disconnected before removing
the door, refer to Section 6.1.
4.2.5
Remove the Battery Clamp (Where Applicable)
Detach the battery clamp by removing the two retaining screws with a PZ2 Pozidriv® screwdriver and pull it away from the chassis. Place the battery clamp, screws, and associated washers in a safe place.
Figure 9 – Remove Battery Clamp (Step 1)
Figure 10 – Remove Battery Clamp (Step 2)
Take care not to misplace the washers and ensure they are re-installed correctly later.
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4.2.6
Disconnect the Earth Wiring
Disconnect the earth wiring from the gear tray earth block using a large slotted screwdriver and from the power supply using a terminal screwdriver.
Figure 11 – Disconnect Earth Wiring
Do not disconnect the wiring from the earth stud.
4.2.7
Remove the Gear Tray
Remove the gear tray mounting screws using a PZ2 Pozidriv® screwdriver and carefully lift it out of the chassis. Place the gear tray, screws, and associated washers in a safe place.
Figure 12 – Remove Gear Tray (Step 1)
Anti-static precautions must be taken whilst handling the gear tray.
Figure 13 – Remove Gear Tray (Step 2)
Take care not to misplace the washers and ensure they are re-installed correctly later.
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4.2.8
Install Cable Glands
accommodate the necessary cable glands. Position the glands at the correct distance from the mounting surface in order to align to the cable conduit.
Figure 14 – Gland Areas (Top Entry)
Figure 15 – Gland Area (Back Entry)
Figure 14 and Figure 15 are labelled to show the ideal cable entry locations for each cable type.
LP – Loops
IO – Inputs / Outputs
NW – Network
On panels with internal power supplies, ensure the mains cable is provided its own gland
and is fed through the areas marked in Figure 14 and Figure 15.
Figure 16 – Panel Drilling
Ensure the chassis is free from swarf and dust before re-assembling the parts so as not to cause damage to the internal components or cause injury.
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4.2.9
Mount the Chassis
Using the installation template together with a spirit level, mark out the fixing locations of the panel.
Drill, fill and plug the fixing holes, then securely mount the chassis with suitable hardware. Use the key-hole openings at the top of the panel to hook the panel onto the wall, before fitting the lower screws.
Always check for cables and pipes which could be buried in the wall before drilling.
4.2.10
Replace the Gear Tray
Carefully locate the gear tray back into the chassis and replace the mounting screws. Reverse the
instructions of Section 4.2.7.
4.2.11
Replace the Earth Wiring
Replace the earth wiring to the earth block and to the power supply. Reverse the instructions of
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4.3
Batteries (Where Applicable)
4.3.1
Install the First Battery
Figure 17 – First Battery (Step 1) Figure 18 – First Battery (Step 2)
4.3.2
Install the Second Battery
Figure 19 – Second Battery (Step 1) Figure 20 – Second Battery (Step 2)
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4.3.3
Install the Battery Link
Carefully connect one side of the battery link onto the positive (+) terminal of the left-hand battery and
the other to the negative (-) terminal of the right-hand battery as show in Figure 21.
Figure 21 – Install Battery Link
4.3.4
Replace the Battery Clamp
Replace the battery clamp by re-installing the two screws onto chassis, refer to Section 4.2.5.
Figure 22 – Replace Battery Clamp
Ensure the battery lead and the battery link do not get trapped beneath the clamp. Take care not to short the battery terminals when aligning the metal battery clamp to the chassis.
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4.3.5
Do not Connect the Battery Lead
To prevent partial discharge of the batteries, refrain from connecting the battery lead to the power supply until the commissioning stage. Refer to the 6500 Commissioning Manual for information on powering up the panel.
Figure 23 – Refrain from Connecting the Battery Lead
4.4
Replace Door
4.4.1
Replace the Hinge Pins
4.4.2
Reconnect the Ribbon Cable
Reconnect the ribbon connector to the display board. Reverse the instructions of Section 4.2.2.
Figure 24 – Finished Installation
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5 Connection
Refer to the 6500 System Design Manual for information on cable lengths, cable types and system design parameters.
Do not overtighten, exert lateral force onto, or twist the body of the terminal blocks when connecting the wiring. The terminal blocks are rated up to 0.4Nm of tightening torque.
5.1
Mains Wiring (Where Applicable)
Follow the wiring path shown in Figure 25.
Ensure the mains supply has been completely isolated before working on the mains wiring.
Figure 25 – Mains Wiring Path
The incoming mains connection must be made as short as possible, but not tight, and be routed through the cable restraint provided.
Maintain clear segregation between the mains wiring and the rest of the field wiring. Do not use the same cable gland for any other field wiring.
Use a terminal screwdriver to secure the connection, without overtightening the terminal block.
Ensure that bare earth conductors are correctly sleeved prior to connection.
Ensure that a clean connection is made, with no bare conductors or strands of cable left showing.
Refrain from powering up the panel until the commissioning stage. Refer to the 6500
Commissioning Manual for information on powering up the panel.
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5.2
Field Wiring
The termination of the field wiring is to be carried out in a neat and tidy manner allowing sufficient cable tails to accommodate any future requirements or amendments. Each cable and cable core should be correctly and uniquely identified. Refer to the 6500 System Design Manual for information on cable lengths and cable types.
5.2.1
Loop Wiring Diagram
Connect the field wiring to the relevant terminals using a terminal screwdriver. Sleeve then connect the cable screens back to the gear tray earth block using a large slotted screwdriver.
Figure 26 – Loop Wiring Schematic
5.2.2
I/O Wiring Diagram
Connect the field wiring to the relevant terminals using a terminal screwdriver. Sleeve then connect the cable screens back to the gear tray earth block using a large slotted screwdriver.
Figure 27 – I/O Wiring Schematic
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5.2.3
Network Wiring Diagram
Connect the field wiring to the relevant terminals using a terminal screwdriver. Sleeve then connect the cable screens back to the correct terminals as shown.
6500 Network
From network channel
1 of the previous panel
To network channel 2 of the next panel
Figure 28 – Network Wiring Schematic
Do not connect the network cable screens to the chassis or the gear tray earth block.
Follow the guidance given in the 6500 System Design Manual for network connections using Steel Wire Armoured (SWA) cable.
5.2.4
Field Wiring Routing
Follow the wiring paths shown in Figure 29.
Figure 29 – Field Wiring Paths
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5.3
External Charger Wiring (Where Applicable)
5.3.1
External Power Supply Wiring Diagram
Connect the external charger wiring to the relevant terminals using a terminal screwdriver. Connect the cable screens back to the correct terminals as shown.
Figure 30 – External PSU Wiring Schematic
Do not connect the external charger cable screens to the chassis or the gear tray earth block.
5.3.2
External Power Supply Routing
Follow the wiring path shown in Figure 31.
Figure 31 – External Charger Wiring Path
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6 Installation Variations
6.1
Panels with Door Mounted Key Switches
Disconnect the key switch earth cable from the gear tray earth block, using a large slotted screwdriver, before the door is removed from the panel.
Figure 32 – Key Switch Earth Cable
6.2
Panels with Flush Mount Bezels
Refer to the instructions given in the Flush Mount Bezel installation leaflet.
Figure 33 – Flush Mount Bezel
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6.3
Panels with Additional Loop Processing Module (LPM)
6.3.1
Coupling
Couple the LPM to the panel chassis using suitably sized brass bushes and lock nuts. The two enclosures must remain tightly fastened together and earthed separately to their respective protective earth points.
Figure 34 – LPM Coupling Gland Locations
6.3.2
Connections
Connect the network between the panel and the LPM following the path recommend below, refer to
Section 5.2.3. Maintain clear segregation between the mains wiring and the rest of the field wiring.
Figure 35 – LPM Network Wiring
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7 Installation Checklist
The panel is level and securely fixed to the mounting surface.
The panel is located in a location with no exposure to direct sunlight, moisture, or vibration.
The panel is positioned in an accessible location, at an accessible height.
Sufficient space has been left around the installation for user operation and maintenance.
The load rating of the chassis and load rating of the fixing method have been respected.
The inside of the enclosure is free from any debris, swarf, dust, tools or building materials.
Any terminal covers, protective covers or shrouds have been refitted.
Any protective bonding conductors have been refitted.
All safety earth connections are sufficiently tightened.
All earth and screen wires are not tight and have sufficient room for expansion.
All high Voltage cables are suitably restrained.
The product’s stated Ingress Protection (IP) rating has been maintained.
The washers have been refitted correctly on the battery clamp and the gear tray.
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No wires are trapped beneath the batteries, or beneath the battery clamp.
The battery temperature compensation probe is in the correct location and is not subject to trapping or fouling.
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Sufficient cable tails have been left to accommodate any future requirements or amendments. ππ
The waste packaging has been properly recycled. ππ
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8 Component Parts
Identification of the component parts of the 6500 Control Panel.
Chassis Gear Tray Door
Power Supply PCB Cover
Loop Card I/O Card
System Controller Card
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Hinge Pin
Terminal Board
Network Card
Battery Clamp
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9 Component Part Installation
Ensure the mains supply has been completely isolated before opening the door and working inside the panel.
9.1
Printer Paper
Install a roll of printer paper into the printer.
Figure 36 – Printer Paper (Step 1)
Figure 37 – Printer Paper (Step 2)
Step 1 – Gently lever the holder bracket open to accommodate the roll.
Step 2 – Feed the paper into the printer. Note, that when the panel is powered the paper will feed through the printer automatically.
Contact Protec or an authorised distributor for guidance on compatible paper types.
9.2
Expansion Interface
The 6500 Control Panel features an expansion interface to connect to advanced peripherals. This interface utilises standard RJ45 female connectors, which are not to be confused with ethernet ports.
Refer to the 6500 Service Manual for the installation of advanced peripherals.
Figure 38 – Refrain from Connecting to the Expansion Interface
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9.3
RS232 Lead
Install an RS232 lead into the panel for connection to external equipment.
Figure 39 – RS232 Lead (Step 1) Figure 40 – RS232 Lead (Step 2&3)
Step 1 – Unscrew the PCB cover using a PZ1 Pozidriv® screwdriver and lever it open to access the RS232 port.
Step 2 – Connect RS232 lead onto the port, making sure cable is routed upwards.
Step 3 – Close the PCB cover and screw it back to the terminal board.
Ensure that isolation is provided between the panel and the external equipment connected over RS232.
Dependent on the diameter of the RS232 cable used, the PCB cover may require modification to allow the cable to exit correctly. A small opening may be cut in the base of the PCB cover to allow access to the cable.
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10 Notes
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A5
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01/06/2020 RDM0003 Issue 4
All rights reserved © 2020 Protec Fire Detection PLC
Protec Fire Detection PLC
Protec House
Churchill Way
Nelson, Lancashire
BB9 6RT
United Kingdom
A Proud British Manufacturer
This document must be read in accordance with the Product Documentation Disclaimer available at protec.co.uk/terms.
6500 Control Panel – Installation Manual
π§π§ [email protected] ππ Page 27 of 27
Advertisement
Key Features
- Two-wire loop technology
- Up to 32 loops per panel
- Up to 1024 devices per loop
- Loop processing modules
- Door-mounted key switches
- Flush-mount bezels
- Built-in printer
- RS232 communication port