Emergency Command Center ECC-50/100 ECC-50/100E Instruction Manual Document LS10001-000FL-E 4/10/2013 Rev: P/N LS10001-000FL-E:A A ECN 13-186
Fire Alarm & Emergency Communication System Limitations While a life safety system may lower insurance rates, it is not a substitute for life and property insurance! An automatic fire alarm system—typically made up of smoke detectors, heat detectors, manual pull stations, audible warning devices, and a fire alarm control panel (FACP) with remote notification capability—can provide early warning of a developing fire.
Installation Precautions Adherence to the following will aid in problem-free installation with long-term reliability: WARNING - Several different sources of power can be connected to the fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while the unit is energized. Do not attempt to install, service, or operate this unit until manuals are read and understood.
Software Downloads In order to supply the latest features and functionality in fire alarm and life safety technology to our customers, we make frequent upgrades to the embedded software in our products. To ensure that you are installing and programming the latest features, we strongly recommend that you download the most current version of software for each product prior to commissioning any system.
Table of Contents Section 1: Product Description ............................................................................................. 12 1.1: Product Features ..........................................................................................................................................12 1.2: Input/Output Circuit Specifications .............................................................................................................13 1.2.1: ECC-50/100 Main Control Board .............
Table of Contents Section 3: Programming ........................................................................................................ 58 3.1: Main Menu - User Programming .................................................................................................................59 3.1.1: Password Options ..............................................................................................................................59 3.1.2: General/NAC Options ................................
Table of Contents tion Priority..................................................................................................................................................88 4.4.12: Alarm/Alert Restoral, System Configured for Combo Fire/Mass Notification with Mass Notification Priority .........................................................................................................................................................89 4.4.13: Trouble Condition Response ...........................
This control panel has been designed to comply with standards set forth by the following regulatory agencies: • • Underwriters Laboratories National Fire Protection Association Before proceeding, the installer should be familiar with the following documents.
visual only ECC-50W-25/70V optional amplifier internal options ECC-CE6 circuit expander NAC Circuit Speaker Circuits TB19 TB20 & TB21 ALL FIRE SYSTEM ACTIVE SYSTEM CONTROL CALL 1 13 2 14 3 15 4 16 5 17 6 18 7 19 8 20 9 21 10 22 11 23 12 24 ECC-FFT firefighter telephone ECC-LOC remote local operator console consoles AL L FIRE S YS TEM AC TIV E CONTRO L 1 13 2 14 3 15 4 16 17 5 6 18 7 19 8 20 9 21 10 LIT ® ECC-RM remote microphone S YS T EM CALL FI ECC
Emergency Command Center Manual — P/N LS10001-000FL-E:A 4/10/2013 + + + (Supervised, Nonpower-Limited) 120 VAC, 60 Hz, 3.5 amps or 230 VAC, 50 Hz, 2.0 amps AC Power AC Fail Safe Trouble relay switches to the NO position during trouble conditions and under loss of all power. Contacts shown below in normal condition (AC power with no alarm, trouble, or supervisory activity) AC Loss, MNS Active, & Fixed Trouble Relay Non-supervised relay contacts Contact rating: 2.0 amps @ 30 VDC (resistive) 0.
Basic System Connections - Display Board (Section 1.2.2) TB1- Aux Trouble Input 1 TB2- Aux Trouble Input 2 JP2 - External Data Bus termination TB3- Data Bus/Power Input JP5 isolation/ground when powered by source other than main control board TB4- Data Bus/Power Output ON SW1- Dipswitch for BUS addressing J2- Connection to main control board TB5- External Audio Input/ Audio Riser J1- USB connector connection to a PC for downloading messages Refer to Section 3.4.5 on page 73.
Section 1: Product Description The Fire•Lite Emergency Command Center ECC-50/100 is a single channel, 50 watt, 25 VRMS, emergency voice evacuation panel that may be used for fire applications, mass notification applications, or both. The ECC-50/100 comes standard with one speaker circuit. The panel provides the ability to record fourteen field programmable messages (up to 60 seconds each) with an integral microphone or from an external audio source.
Input/Output Circuit Specifications Product Description – two Style Y (Class B) or Style Z (Class A) speaker circuits (with optional ECC-50W25/70V Audio Amplifier installed) – eight Style Y (Class B) or Style Z (Class A) speaker circuits (with optional ECC-50W25/70V and ECC-CE6 installed) • ECC-50/100 can be controlled by an FACP via the ANN/ACS (EIA-485) link. Compatible FACPs include the MS-9600(UD)LS and MS-9200UDLS.
Product Description Input/Output Circuit Specifications Battery (lead acid only) - J7 Maximum Charging Circuit: Normal Flat Charge - 27.3V @ 2.8 amps Maximum Charger Capacity: 26 Amp Hour battery. (ECC cabinet holds max. 18 Amp Hour Battery. Minimum Battery Size: 12 Amp Hour MNS Active Relay - TB1 Form-C relay contact rating: 2.0 amps @ 30 VDC (resistive), 0.5 amps @ 30 VAC (resistive), Form-C Trouble Relay - TB2 Form-C relay contact rating: 2.0 amps @ 30 VDC (resistive), 0.5 amp @ 30 VAC (resistive).
Input/Output Circuit Specifications Product Description Power-limited (Class 2) circuitry Operation: Circuit can be wired Style Y (Class B) or Style Z (Class A) Normal Operating Voltage: 25 VRMS @ 2 amps max. and maximum Load Impedance of 12.5 (70.7 VRMS @ 700 mA max. with maximum Load Impedance of 100operation possible by plugging optional ECC-XRM-70V conversion transformer into J12 of the main control board).
Product Description Input/Output Circuit Specifications FACP Data Bus (EIA-485) - TB13, Terminals 1 (B IN), 2 (A IN), 3 (B OUT), & 4 (A OUT) Dedicated connection to FACP serial bus Output terminals: pass-through to other system components Isolated, supervised Minimum isolation withstand voltage: 1500 VRMS Maximum wiring impedance: 40 (ANN-BUS)/26 (ACS BUS) External Audio Riser TB22, Terminals 1 (OUT+), 2 (OUT-), 4 (IN+), 5 (IN-), & 3 (SHLD) Style Y (Class B) or Style Z (Class A) audio connections to e
Product Description Input/Output Circuit Specifications Current Availability The following figures illustrate the maximum current possible for each panel output circuit and the total output current available from the power supply. Refer to Section 6, “Power Supply Calculations” for additional current draw by option cards that must be considered when determining total standby and alarm currents. TB20 Primary 50W Speaker Circuit 3.3 amps max.
Product Description Input/Output Circuit Specifications TB20 Primary 50W Speaker Circuit 3.3 amps max. TB24 External Operator Interface Power 0.8 amp max. TB17 Aux. Power Standby 2.0 amps max. (includes background music) with external charger. Refer to Section 6. 0.5 amp max. TB19 NAC Circuit Alarm 7.5 amps max. 2.0 amps max. TB23 Speaker Volume Control Override 0.25 amp max. Figure 1.3 Current Availability - 50 Watt System 1.2.
Input/Output Circuit Specifications Product Description 1.2.3 ECC-CE6 Circuit Expander Module Power-limited (Class 2) circuitry Up to six (6) circuits on the ECC-CE6 can be wired as Style Y (Class B) or Style Z (Class A). Normal Operating Voltage for Speaker Circuits: 25 VRMS @ 2 amps max. and maximum Load Impedance of 12.5 (70.0 VRMS @ 700 mA max.
Product Description Controls and Indicators 1.
Product Description Components 1.3.
Product Description Components Cabinet The cabinet is red with an attractive navy blue front overlay. A clear window allows viewing of the display board, status LEDs and location of microphone. The backbox measures 16.65" x 19.0" x 5.2" D (42.29cm x 48.26cm x 13.23cm) and provides space for two 12AH or two 18AH batteries. FIRE SYSTEM ACTIVE SYSTEM CONTROL 1 13 2 14 3 15 4 16 5 17 6 18 7 19 8 20 9 21 10 22 11 23 12 24 FI LIT ® AL by Honeywell eccfront.wmf ALL CALL Figure 1.
Optional Equipment Product Description 1.5 Optional Equipment ECC-50W-25/70V Audio Amplifier Modules An optional second audio amplifier can be plugged into connectors J10 & J11 located in the upper right of the main control board in the ECC-50/100. This amplifier also provides 50 watts of power at 25 VRMS or 70 VRMS, depending on the model, and can therefore be used to expand system power to 100 watts (providing dual 50 watt speaker circuits) or it can be used as a backup amplifier.
Product Description Optional Equipment ECC-RM Remote Microphone The ECC-RM has a hand held microphone and is housed in its own cabinet with keyed lock. It requires an external data bus connection, an external audio riser connection, and an external operator interface power connection (24 volts DC) from the ECC-50/100 main console. ALL CALL paging can be broadcast over the speaker circuits by depressing the microphone's push-to-talk switch. Not for use in UL2572 Mass Notification applications.
Section 2: Installation 2.1 Mounting Options The cabinet may be semi-flush or surface mounted. The cabinet mounts using three key slots at the top of the backbox and two additional 0.250" diameter holes located at the bottom. Carefully unpack the system and check for shipping damage. Mount the cabinet in a clean, dry, vibration-free area where extreme temperatures are not encountered. The area should be readily accessible with sufficient room to easily install and maintain the panel.
Installation Backbox Installation 5. Lift the dress panel up and gently pull the lower hinge out of the backbox. Gently pull down to remove the top hinge. Store the dress panel in a safe place. unplug cable ECC-MCB-PCA Rev. loosen screws TB15 J9 RTZM lift up dress panel, pull out, slide down to remove ecc-dpopn.wmf J12 disconnect earth ground Figure 2.1 Dress Panel Removal Removing the Chassis Assembly 1. If present, remove the two (2) screws which fasten the lower chassis tabs to the backbox.
Installation Backbox Installation Mounting the Backbox ! 1. Mark and predrill hole in the wall for the center top keyhole mounting bolt using the dimensions illustrated in Figure 2.4 on page 28. 2. Install center top fastener in the wall with the screw head protruding. 3. Place backbox over the top screw, level and secure. 4. Mark and drill the left and right upper and lower mounting holes. Note: Outer holes (closest to sidewall) are used for 16” O.C. stud mounting. 5.
Installation Backbox Installation Semi-Flush Mounting Do not recess box more than 3.875” into wall to avoid covering venting holes on top of box. Hinge Slot for Dress Panel Do not use these knock-outs! Mounting slots for optional Trim Ring Semi-flush mounting hole 9050udencl.wmf Hinge Slot for Dress Panel Figure 2.
Installation Backbox Installation Depth Top Depth = Door Backbox ALL FIRE SYSTEM ACTIVE SYSTEM CALL CONTROL 1 13 2 14 3 15 4 16 5 17 6 18 7 19 8 20 9 21 10 22 11 23 12 24 Door Backbox FI LIT ® AL by Honeywell Left Side Bottom ecc-cab.wmf Right Side Figure 2.
Installation Operating Power 2.3 Operating Power ! WARNING: RISK OF EQUIPMENT DAMAGE AND PERSONAL INJURY SEVERAL DIFFERENT SOURCES OF POWER CAN BE CONNECTED TO THIS PANEL. DISCONNECT ALL SOURCES OF POWER BEFORE SERVICING. THE PANEL AND ASSOCIATED EQUIPMENT MAY BE DAMAGED BY REMOVING AND/OR INSERTING CARDS, MODULES OR INTERCONNECTING CABLES WHILE THIS UNIT IS ENERGIZED. BE SURE TO OBSERVE PROPER GROUNDING AND HANDLING PROCEDURES. 2.3.
Installation Operating Power 2.3.2 Secondary Power Source (Batteries) The batteries must be sealed lead acid type. Before connecting the batteries to the FACP, make certain that the interconnect cable between the batteries is not connected. Do not connect the interconnect cable until the system is completely installed. + ! Interconnect Cable + - WARNING: RISK OF PERSONAL INJURY BATTERY CONTAINS SULFURIC ACID WHICH CAN CAUSE SEVERE BURNS TO THE SKIN AND EYES AND CAN DESTROY FABRICS.
Installation Auxiliary DC Power Output Connections 2.4 Auxiliary DC Power Output Connections The Special Application Auxiliary DC power output is power-limited (Class 2). ecctb17.wmf Special Application Power (500 mA @ 24 VDC) is nonresettable power suitable for powering control modules and End-of Line Power supervision relays. See Device Compatibility Document for compatible devices. TB17 Figure 2.8 Auxiliary Power Connection 2.5 Input/Initiating Circuits 2.5.
Installation Input/Initiating Circuits CMD3, CMD4, CMD5, CMD6, CMD7, and CMD8 Command Input circuits are triggered by a contact closure only. Each Command input will activate various messages and amplifiers depending on the Message Control selection configured in user programming (refer to Section 3). NOTE: CMD8 cannot be used when the system is programmed to provide more than eight (8) messages.
Installation Input/Initiating Circuits 2.5.3 NAC Follower Input For fire-only applications, the NAC follower input may be used to trigger the onboard NAC. Strobes driven by the onboard NAC must be visibly isolated from FACP NAC(s). This can be accomplished by connecting the NAC Follower input at TB18 of the control board to the FACP's NAC output. The ECC-50/100 NAC output will then follow the FACP's NACs.
Installation Output Circuits 2.6 Output Circuits 2.6.1 Relays MNS Active Relay - TB1 Shown in normal, Inactive condition TB1 eccacrl.wmf The main control board provides a Form-C MNS Active relay. Figure 2.12 MNS Active Relay Trouble Relay - TB2 TB2 Shown in energized, non trouble condition ecctrbl.wmf The main control board provides a Form-C Trouble relay for independent, general system fault monitoring. This relay is ‘fail safe’, meaning that it is normally energized.
Installation Output Circuits 2.6.2 Speaker Circuits • One Speaker Circuit Style Y (Class B) or Style Z (Class A) standard • Two Speaker Circuits Style Y (Class B) or Style Z (Class A) with ECC-50-25/70V • Four Speaker Circuits Style Z (Class B) or Style Z (Class A) or Style Y with ECC-CE6 • Eight Speaker Circuits Style Z (Class B) or Style Z (Class A) or Style Y with ECC-50W25/70V and ECC-CE6 The integral amplifier and optional amplifier each provide audio for one Speaker Circuit.
Installation Output Circuits 2.6.3 Notification Appliance Circuit The ECC-50/100 provides a Style Y (Class B) or Style Z (Class A) NAC (Notification Appliance Circuit). Use UL-listed 24 VDC visual notification appliances only. Circuit is supervised and power-limited (Class 2). Refer to the Fire•Lite Device Compatibility Document for a listing of compatible notification appliances. ELR, 4.7K, 1/2W (for Class B/Style Y wiring) Polarized Bell + Polarized Strobe + + TB19 eccnac.
Installation Output Circuits 2.6.4 Speaker Volume Control Speaker Volume Control requires use of the Cooper Wheelock SP-SVC module. The Supervised Volume Control (SP-SVC) allows manual volume setting for telephone paging and background music for a specific speaker or speaker zone. The selected adjustment will not affect the volume setting of emergency prerecorded messages or live microphone usage. Refer to the Cooper Wheelock Safepath SP-SVC Installation Instructions (P/N: P84598) for more information.
Installation Output Circuits 2.6.5 FACP Data Bus MS-9600(UD)LS The FACP communicates with the ECC-50/100 over the ACS or ANN-BUS annunciator link. Wiring must be connected between Terminal TB6 on the FACP and Terminal TB13 on the ECC-50/100 panel. 9600ecc.wmf to other ACS/ANN devices ECC-50/100 ANN ACS A B MS-9600(UD)LS Figure 2.19 Connection for MS-9600(UD)LS to ECC-50/100 MS-9200UDLS The MS-9200UDLS FACP communicates with the ECC-50/100 over the ACS or ANN-BUS annunciator link.
Installation Output Circuits ACS Mode Wiring When communication is wired over the ACS annunciator link, a monitor module must be used to monitor mass notification events. Wire the monitor module to the ECC at TB1 MNS Active Relay in addition to the Data Bus wiring shown above. Refer to the FACP manual for information on type IDs. monitor module SLC acsmonitor.wmf TB1 MNS Active Relay Figure 2.
Installation ECC-LOC Local Operator Console 2.7 ECC-LOC Local Operator Console Wiring for the Local Operator Console is accomplished between TB24, TB12, and TB22 on the ECC-50/100 main control board to TB3, TB4, and TB5 on the LOC. If the ECC-LOC is the last device on the audio and data bus chain, signal terminations are required. For the external data bus, a removable jumper must be on pins 1 and 2 of JP2 when the LOC is the last device on the chain.
Installation ECC-LOC Local Operator Console TB24 + external operator interface power - 24VDC - TB12 B A B A external data bus main control board TB22 + external audio riser + - JP2 (shown jumpered on pins 2 and 3) TB2 TB3 TB4 B A + B A + - locwirea.wmf LOC display board TB5 + + Figure 2.
Installation ECC-RPU Remote Page Unit 2.8 ECC-RPU Remote Page Unit Connections are made from TB24, TB12, and TB22 on the ECC-50/100 main control board to TB1, TB3, and TB2 on the RPU. If the ECC-RPU is the last device on the audio and data bus chain, signal terminations are required. For the external data bus, a removable jumper must be on pins 1 and 2 of JS4. If the ECC-RPU is not the last device, the jumper must be on pins 2 and 3 of JS4 as shown below.
Installation ECC-RPU Remote Page Unit + TB24 external operator interface power - 24VDC TB12 rpuwirea.wmf - external B data bus A B A main control board external audio + riser - TB22 RPU board TB1 + - + - B A JS4 (shown jumpered on pins 2 and 3) TB3 B A + - TB2 + - Figure 2.
Installation ECC-RM Remote Microphone 2.9 ECC-RM Remote Microphone Connections are made from TB24, TB12, and TB22 on the ECC-50/100 main control board to TB3, TB2, and TB1 on the RM. If the ECC-RM is the last device on the audio and data bus chain, signal terminations are required. For the external data bus, a removable jumper must be on pins 1 and 2 of JS4. If the ECC-RM is not the last device, the jumper must be on pins 2 and 3 of JS4.
Installation ECC-50/125DA Distributed Audio Amplifier 2.10 ECC-50/125DA Distributed Audio Amplifier SW2 on the ECC-50/100’s display board must be set to the UP position if any ECC-50/125DAs are installed on the system. Refer to the ECC-50/125DA Distributed Audio Amplifier Manual, LS10027-000FL-E, for installation instructions. 2.11 Shielding for External Device Wiring The external data bus and external audio riser circuits must be wired using twisted, shielded pair cable.
Installation Shielding for External Device Wiring “pass through” Class B (Style Y) ECC-RM ECC-RPU ECC-LOC ECC-50DA ECC-125DA ECC-50/100 External Data Bus or External Audio Riser “pass through” ECC-50/100 External Data Bus or External Audio Riser shldmulti.wmf Class A (Style Z) ECC-RM ECC-RPU ECC-LOC ECC-50DA ECC-125DA Figure 2.
Installation UL Power-limited Wiring Requirements 2.12 UL Power-limited Wiring Requirements Power-limited and nonpower-limited circuit wiring must remain separated in the cabinet. All power-limited circuit wiring must remain at least 0.25" away from any nonpower-limited circuit wiring. Furthermore, all power-limited and nonpower-limited circuit wiring must enter and exit the cabinet through different knockouts and/or conduits.
Installation Installation of Option Modules 2.13 Installation of Option Modules ! CAUTION: DISCONNECT POWER BEFORE INSTALLING ANY MODULES OR CABLES, MAKE CERTAIN ALL POWER (AC AND DC) HAS BEEN REMOVED AND BE SURE TO OBSERVE PROPER GROUNDING AND HANDLING PROCEDURES. 2.13.1 ECC-CE6 Circuit Expander Module The ECC-CE6 Circuit Expander Module provides connections for up to six Style Z (Class A) or Style Y (Class B) speaker circuits. Circuits are configured through the web-based programming utility.
Installation Installation of Option Modules 4. Plug the supplied power cable into J10 on the main control board, then into J1 on the audio amplifier. Plug the supplied control cable into J11 on the main control board, then into J2 on the audio amplifier. 5. Configure the slide switches, SW6 and SW7, per Figure 2.35. Do not use any other setting. 6. Configure the slide switch, SW5, on the main control board for 25V or 70V operation.
Installation Installation of Option Modules Main Control Board ECC-MCB-PCA Rev. J10 J11 P1 ECC-MCB-PCA Rev. 1. Attach four standoffs (p/n 42227) at locations indicated. J12 J12 +- TB15 J9 RTZM Power and Control Harness Connections J1 J2 2. Align amplifier over standoffs. Attach with four screws. TB15 J9 RTZM ecc50.wmf bdamnt.wmf Amplifier 3. Attach power harnesses (included with amplifier - refer to Figure 2.34): • J1 on amplifier to J10 on ECC • J2 on amplifier to J11 on ECC Figure 2.
Installation Installation of Option Modules ECC-50/100 Configurations with ECC-50W-25/70V Following are descriptions of audio speaker circuit configurations with optional amplifier and optional ECC-CE6 circuit expander. Applications Without Backup zone button Speaker Circuit Connection Primary • 50W • One Class B or Class A Output • No Backup TB20 on main control board 1 Primary 50W circuit Figure 2.
Installation Installation of Option Modules zone button Primary/Secondary with Expander and Optional Amplifier • 50W for primary, 50W for secondary • Eight Class B or Class A Outputs • Optional amplifier supplies all secondary circuits • ECC-CE6 adds 3 primary and 3 secondary circuits • No backup Speaker Circuit Connections Primary 50W circuit Secondary 50W amp CE6 1 TB20 on main control board 2 TB21 on main control board 3 TB1 on ECC-CE6, primary power 4 TB4 on ECC-CE6, secondary power 5 TB2
Installation Addressing External Data Bus Devices 2.13.3 70.7 VRMS Transformer (ECC-XRM-70V) The 70.7 VRMS Transformer can be used to convert the integral 25 VRMS amplifier for installations where 70.7 VRMS speakers already exist or are to be installed. Speaker wiring continues to be supervised during standby, alarm and while background music is playing when transformer is installed. The transformer comes pre-installed onto a bracket for mounting to the chassis.
Installation Addressing External Data Bus Devices used in the system. Their external data bus addresses must be unique. Note that these four (4) consoles occupy two (2) data bus addresses each. The second address is already “reserved” in the system for each console. Up to eight (8) distributed amplifiers (ECC-50DA and ECC-125DA) can be used in the system. Their external data bus addresses must also be unique and sequential. All addressing must also be set in user programming. Refer to Section 3.1.
Installation Addressing External Data Bus Devices Bus Address Device 20 External Amp #1 Dipswitch Setting on ECC-50DA(SW1) Dipswitch Setting on ECC-125DA (SW1) 1 2 3 4 5 6 1 2 3 4 5 ON ON 21 External Amp #2 1 2 3 4 5 6 1 2 3 4 5 ON ON 22 External Amp #3 1 2 3 4 5 6 1 2 3 4 5 ON ON 23 External Amp #4 1 2 3 4 5 6 1 2 3 4 5 ON ON 24 External Amp #5 1 2 3 4 5 6 1 2 3 4 5 ON ON 25 External Amp #6 1 2 3 4 5 6 1 2 3 4 5 ON ON 26 External Amp #7 1 2 3 4 5 6 1 2 3 4 5 ON ON 27 Exte
Notes Emergency Command Center Manual — P/N LS10001-000FL-E:A 4/10/2013 57
Section 3: Programming NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION AND OTHER INVOLVED PARTIES This product incorporates field-programmable software.
Programming Main Menu - User Programming 3.1 Main Menu - User Programming main_menu.jpg This screen shows the main menu for the ECC user programming options. Changes to programming require a valid password for system login. Note that a password is NOT required to change the date/time, view the informational screens, or view the panel history. Figure 3.1 Main Menu 3.1.1 Password Options Changes to ECC programming require a valid password login.
Programming Main Menu - User Programming Log Out When all programming has been successfully completed, the user must log out to allow the system to reboot and apply the programming changes. 3.1.2 General/NAC Options generalop2.jpg General Options Figure 3.3 General Options Unit Operation Select whether the ECC will function for Fire Evacuation, Mass Notification, or a Combination of both.
Programming Main Menu - User Programming Primary Amp 70 VAC This field has no effect on programming and is used for informational purposes only. The system can be converted from 25V to 70V by installing the ECC-XRM-70V. If this transformer has been installed, be sure that SW5 on the main control board has been set to “70V” operation. Use this field to record the amplifier’s settings. Secondary Amp 70 VAC This field has no effect on programming and is used for informational purposes only.
Programming Main Menu - User Programming console control2.jpg Console Control Figure 3.5 Console Control Console Priority Priority can be assigned to the operator consoles so that the primary operator interface can always override the functions at the local operator consoles or remote microphones. Select POC->LOC->RM for console priority. Selecting Equal for priority allows users with access to the system on a a “first come, first served” basis.
Programming Main Menu - User Programming address assign.jpg Speaker Circuit Address Assignment Figure 3.7 Remote Amplifier Address Assignments Primary Operator Console - Circuit Expander If the ECC-CE6 has been installed on P1 of the main circuit board, select CE6 - Installed from the drop down box. The ECC-50/100 comes with one (1) integrated speaker circuit. Adding the CE6 gives the system three (3) more speaker circuits for a total option of four (4) from the drop-down box.
Programming Main Menu - User Programming 3.1.4 Message Buttons messagebuttons.jpg Message Buttons Figure 3.8 Message Buttons Assignment Message buttons 1-14 can be used to broadcast prerecorded messages over the system. They must be designated as Fire Evacuation or Mass Notification in the Assignment field. Tone Prior to transmitting a message, the ECC can be programmed to produce a pre-announce and post-announce tone.
Programming Main Menu - Utilities datetime.jpg 3.1.5 Date / Time Set the local time and date for the panel using the drop-down boxes. Pressing the Refresh button automatically fills these fields with current information. buttons.jpg 3.1.6 Send to Panel After completing the desired programming on each page, click the Send to Panel button to save changes to the panel. Selecting the Load Defaults button will apply default programming to the given page.
Programming Main Menu - Utilities msgrecord.jpg 3.2.1 Message Recording msgdisable.jpg The ECC allows up to 14 recorded messages. These custom messages can be recorded using the local microphone, a USB port, or an external audio input. Clicking the Enable Recording will put the system in message record mode. Refer to Section 3.4. When the button has been clicked, the background screen will turn dark red, giving a visual cue that the system is ready to record.
Programming Main Menu - Informational 3.3 Main Menu - Informational main_menu.jpg From the main screen, programmed information for the 24 possible speaker circuits can be viewed without accidentally making changes. Viewing this information does not require login to the system. Figure 3.
Programming Main Menu - Informational 3.3.1 Informational buttonassign.jpg Speaker Circuit Buttons Figure 3.12 Speaker Circuit Button Assignments The Speaker Circuit Button Assignment page reflects what has been programmed into the Address Assignment page. (Refer to “Speaker Circuit Address Assignment” on page 63.
Programming Main Menu - Informational versioninfo.jpg Version Information Figure 3.13 Version Information The Version Information screen lists the devices programmed to the ECC system by address. All software and hardware revision information can be viewed here. This screen is updated every time a device is added or changed. history.jpg History Information Figure 3.14 History Information The History Information screen shows the system’s event history.
Programming Recording Custom Messages in this box. Note that the Date and Time in the heading of the print screen correspond to those of the panel and not the computer. The Unit ID reflects the name of the panel assigned in the General Options page. Refer to “General Options” on page 60. 3.4 Recording Custom Messages The system has 14 recordable message slots. Messages can be recorded from the microphone, external audio input, or by using the Audio Programming Utility (APU) software.
Programming Recording Custom Messages Plug the mini plug into the Line Out/Headphone Jack on a PC or laptop. See Figure 3.15. Display Board 1 (GND) TB5 extaud.wmf 2. 2 (+) Figure 3.15 External Audio Connection for Recording 3. Enter programming mode at the main control board. 4. Enable Recording Mode in the system’s message recording programming section. Refer to Section 3.4.1 on page 70. NOTE: The display board will light green LEDs for message slots that are occupied.
Programming Recording Custom Messages Press zone button 19 and PLAY on the PC simultaneously to start recording. When the PC message is done, press zone button 19 again to stop recording. The yellow zone LED 2 will stay lit until completed. The green LED for zone button 2 will light after the recording is complete. Enter programming mode again and deselect Message Record Mode. Press zone button 2 to select message slot 2. Press zone button 17 to record. ecckypd.
Programming Recording Custom Messages Press the PTT button on the microphone and speak the message. Release the PTT button to save the message. The yellow zone 5 LED will stay lit while recording. The green LED for zone button 5 will light after the recording is complete. Enter programming mode again and deselect Message Record Mode. Press zone button 5 to select message slot 5 ecckypd.wmf Press zone button 17 to record Figure 3.1 Microphone Recording Example 3.4.
Programming Recording Custom Messages Connect the PC to the panel using a standard Male A to Male B USB cable. 2. Run the APU software. 3. Assure that the USB icon in the APU application window is green. If the icon is black then the APU software has not established communication with the panel. Recheck the USB cable connection. If the USB icon turns red while using the APU, then the APU has determined that the USB connection has become “disconnected”. usbconn.wmf 1.
Programming Programmed Activation by FACP 3.5 Programmed Activation by FACP The table below defines the capabilities for the FireLite FACPs that can automatically trigger the audio system using the audio system’s “FACP Data Bus”. The FACP annunciator bus serves as “FACP Data Bus” to the audio system. Note that automatic triggering capability is dependent upon the FACP model, FACP version, and which annunciator bus protocol is used.
Programming Programmed Activation by FACP 4. When using the ACS communication protocol, a monitor module must be wired to TB1 of the ECC-50/100. Type Code, “MNS EVENT” must be assigned to the monitor module for mass notification event monitoring. See Figure 2.21 for wiring information. FACP Programming The MS-9600(UD)LS and MS-9200UDLS FACPs must be programmed to operate with the ECC50/100. The following table summarizes the steps involved in programming the FACPs. 1.
Programming Programmed Activation by FACP example below) will be generated over speaker circuits 3 and 4. If an addressable device (address 21 in example below) programmed to Zone 32 is then activated, the highest priority message programmed to Zone 32, 35, or 36 (Message 1 in example below) will be generated over all speaker circuits.
Programming Programmed Activation by FACP cause Message 2 to be generated over speaker circuit 3. If the second addressable device (address 20 in the example below) is also activated, Message 1 will now be transmitted over speaker circuit 3 since Message 1 has a higher priority then Message 2.
Programming Programmed Activation by FACP Select the Zone Setup option by pressing 3. The following screens will be displayed.
Programming Programmed Activation by FACP The default setting is No Message for each speaker circuit. In the screen shown above, Z32 is the zone dedicated for all speaker circuits.
Notes Emergency Command Center Manual — P/N LS10001-000FL-E:A 4/10/2013 81
Section 4: Operating Instructions 4.1 Main Control Panel Keypad Labels The ECC-50/100 is shipped with slide-in labels installed in the keypad as illustrated in the following figure. Blank labels are provided to allow the user to customize the zone and message description. Remove the center piece to access the label slots. Using a small, flat screwdriver, press and release the small plastic latch located on the left side of the center piece.
Operating Instructions LED Indicators ton description. When the operator completes the page, any previously interrupted emergency broadcast will resume. Previously initiated emergency broadcast will also resume after the push-totalk (PTT) switch is held for more than 3 minutes (timer is programmable). MNS Control This button is only used when the system is configured for combination fire/mass notification operation or mass notification only operation.
Operating Instructions LED Indicators MNS Control A green LED that turns on steady when an operator has initiated a mass notification event by pressing the MNS Control button or by pressing an MNS message button System Control A green LED that turns on steady when the main console has control of the audio system System in Use Green LED text that turns on steady when the main console, an LOC, an RPU, or an RM has control of the audio system Speaker Zones 1-24 A green LED per speaker circuit button that tur
Operating Instructions Operation Charger Fault A yellow LED turns on steady when the battery charger voltage is too high or low Battery Fault A yellow LED that turns on steady when battery voltage is too low Data Bus Fault A yellow LED turns on steady when the main and remote console(s) cannot communicate NAC Fault A yellow LED that turns on steady when the onboard NAC wiring is open or short-circuited.
Operating Instructions Operation 4. When the message has finished playing, press the ALL CALL button (or individual speaker zone buttons pressed in step 2) to deactivate the message areas and continue the evacuation tone/message. 5. Press the SYSTEM CONTROL button to relinquish control of the audio system. 4.4.
Operating Instructions Operation • Play a primary evacuation tone only (if programmed) • Store the event in the history log 4.4.6 Manual Activation Restoral Upon restoral the system will: • Turn the speaker zone LED(s) off • Turn the speaker circuit(s) off • Turn the audio amplifier(s) off • Turn the 24 VDC aux.
Operating Instructions Operation 4.4.9 Alarm/Alert Response, System Configured for Combo Fire/Mass Notification with Fire Priority If a fire alarm only occurs under this configuration, then the system will respond as in Section 4.4.3 above. If a mass notification alarm/alert only occurs under this configuration, then the system will respond as in Section 4.4.
Operating Instructions Operation 4.4.12 Alarm/Alert Restoral, System Configured for Combo Fire/Mass Notification with Mass Notification Priority If the restoral is for a fire alarm only under this configuration then the system will respond as in Section 4.4.4 above. If the restoral is for a mass notification alarm/alert only under this configuration then the system will respond as in Section 4.4.8 above.
Operating Instructions Operation • For an option card missing (ECC-XRM-70V, ECC-50W-25/70V, ECC-CE6), the option card LED turns on steady The following actions will occur on the ECC-50W-25/70V optional amplifier for more specific indication. • For an over current condition, the over current LED turns on steady 4.4.
Operating Instructions Operation 4.4.15 External Audio Input Operation The external audio input (aux. audio) located on the display board terminal TB5 can serve as any one of the following: • A background music input • A message recording input from an audio source • A general paging input from a paging microphone or telephone system • A night ring input from a telephone system The function of the external audio input must be selected in programming. Refer to “External Audio Input” on page 70.
Section 5: Getting Started This section describes the basic guidelines for setting up the various ECC-50/100 systems, assuming that the speaker and FACP cabling has been installed. 5.1 System Requiring up to 50 Watts of Audio Power 1. Install backbox and chassis assembly as described in Section 2, “Installation”, on page 25. 2. Connect laptop or PC to Ethernet port (J2) and launch the web-based programming utility. 3.
Section 6: Power Supply Calculations 6.1 Overview This section contains instructions and tables for calculating power supply currents in alarm and standby conditions. This is a four-step process, consisting of the following: 1. Calculating the total amount of AC branch circuit current required to operate the system 2. Calculating the power supply load current for non-fire and fire alarm conditions and calculating the secondary (battery) load 3.
Power Supply Calculations Calculating the System Current Draw 6.3.2 How to use Table 6.2 to calculate system current draws 1. Enter the quantity of devices in both columns. 2. Enter the DC current draw where required. Refer to the Fire•Lite Device Compatibility Document for compatible devices and their current draw. 3. Calculate the current draws for each in both columns. 4. Sum the total current for each column. 5. Copy the totals from Column 1 and Column 2 to Table 6.3 on page 95.
Power Supply Calculations Calculating the Battery Size 6.4 Calculating the Battery Size Use Table 6.3 to calculate the total Standby and Alarm load in ampere hours (AH). This total load determines the battery size (in AH), required to support the ECC-50/100 under the loss of AC power. Complete Table 6.3 as follows: 1. Enter the totals from Table 6.2 on page 94 Calculation Columns 1 and 2 where shown. 2. Enter the NFPA Standby and Alarm times (refer to Section 6.4.1, “NFPA Battery Requirements”). 3.
Appendix A: Digital Voice Messages The Emergency Command Center digital message generator provides up to 14 messages each with up to 60 seconds of record time. The ECC-50/100 is provided with factory recorded messages which can be changed in the field. The prerecorded messages (female voice) are: Fire Evacuation Messages: • “May I have your attention, please? May I have your attention, please? A fire has been reported in the building. A fire has been reported in the building.
Digital Voice Messages Severe Weather Message: • “Your attention please. A severe weather warning has been received. Please walk to the nearest safe area and wait for further instructions. Elevator lobbies, stairwells, bathrooms and auditoriums are designated safe areas in the event of severe weather. Stay away from windows and glass. Do not use the elevators” New messages can be recorded in the field.
Appendix B: Wiring Requirements Connecting external system accessories to the ECC-50/100 main circuits must be carefully considered to ensure proper operation. It is important to use the correct type of wire, wire gauge and wire run length per each circuit. Refer to the following table to specify wire requirements and limitations.
Slide-in Labels Carefully cut along the outside of each label. Identify keypad buttons as desired and slide the labels in. Refer to Section 4.1 on page 82 for installation instructions.
Slide-in Labels 100 Emergency Command Center Manual — P/N LS10001-000FL-E:A 4/10/2013
Slide-in Labels DIAGNOSTIC REMOTE AMPS AC POWER TROUBLE SILENCE MAIN CONSOLE CONSOLE LAMP TEST GROUND FAULT 101 Emergency Command Center Manual — P/N LS10001-000FL-E:A 4/10/2013 CHARGER FAULT BATTERY FAULT DATA BUS FAULT NAC FAULT NAC ACTIVE SYSTEM TROUBLE AUDIO RISER FAULT Figure 1.
Slide-in Labels 102 Emergency Command Center Manual — P/N LS10001-000FL-E:A 4/10/2013
Index Numerics 24 hour resound 60 A AC branch circuit calculation 93 AC Loss Delay 60 AC Loss Relay 13, 14, 35 AC Power 13 see also Primary Power 30 wiring 30 AC Power LED 84 ACS mode 40 address speaker circuit 63 address assignment 62 Addressable Module Connections 33 All-Call Operation 82 Amplifier Supervision 23 Application 12 Audio Amplifier Module 23 Installation 49 Audio Conversion Transformer 12 Installation 54 Audio Input 13, 18, 33 Input Current 18 Input Impedance 18 Input Voltage 18 Audio Power 1
Index D–L see also Command Input Circuit 15 Command Input Circuit 12, 15, 32 Contact Closure Current 15 End-of-Line Resistor 4.
Index M–R NAC Active 85 NAC Fault 85 OK to Page 84 Remote Amplifier Fault 84 Remote Console Fault 84 Speaker Zones 84 System Control 84 System in Use 84 System Trouble 85 LEDs 21 LOC address 62 log out 60 M Main Console Fault LED 84 Main Controlt Board 21 Manual Activation Operation 86 Manual Activation Restoral 87 manual message control 85 Mass Notification Operation 87 Mass Notification Restoral 87 Message Assignment 76 message buttons 64 message generator 12 Message LED 84 message recording 12, 70 Mes
Index S–W RM address 62 RPU address 62 U UL Power-limited Wiring 48 unit operation 60 S secondary amplifier enable 60 Secondary Power see also Battery 31 Selecting 95 semi-flush mount 25 Sounder 13 see also Piezo 13 Speaker Circuit 12, 14, 36 End-of-Line Resistor 15K 15 Operating Voltage 15 see also NAC 12 Style Y 15 Style Z 15 speaker circuit address 63 speaker circuit expander 23 Speaker Select 83 speaker volume control 61 Speaker Zone LEDs 84 Specific Application Power 14, 32 see also Auxiliary Power
Manufacturer Warranties and Limitation of Liability Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan. 1, 2009).
World Headquarters 1 Firelite Place Northford, CT 06472-1653 USA 203-484-7161 fax 203-484-7118 www.firelite.