Fire-Lite 411UDAC, FireWatch 411UDAC Installation, Programming, Troubleshooting And Operating Instruction Manual

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411UDAC

Fire Alarm Communicator

Installation, Programming, Troubleshooting

and Operating Instruction Manual

One Fire-Lite Place Northford, CT 06472 Phone (203) 484-7161 FAX: (203) 484-7118

Document #51073 12/09/2008 Rev.

P/N 51073:D ECN 08-870

Fire Alarm System Limitations

While a fire alarm system may lower insurance rates, it is not a substitute for fire 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 with remote notification capability–can provide early warning of a developing fire. Such a system, however, does not assure protection against property damage or loss of life resulting from a fire.

The Manufacturer recommends that smoke and/or heat detectors be located throughout a protected premise following the recommendations of the current edition of the National Fire Protection Association Standard 72 (NFPA 72), manufacturer's recommendations, State and local codes, and the recommendations contained in the Guides for Proper Use of System Smoke Detectors, which are made available at no charge to all installing dealers. These documents can be found at http:/www.systemsensor.com/html/ applicat.html. A study by the Federal Emergency Management Agency (an agency of the United States government) indicated that smoke detectors may not go off in as many as 35% of all fires. While fire alarm systems are designed to provide early warning against fire, they do not guarantee warning or protection against fire. A fire alarm system may not provide timely or adequate warning, or simply may not function, for a variety of reasons:

Smoke detectors may not sense fire where smoke cannot reach the detectors such as in chimneys, in or behind walls, on roofs, or on the other side of closed doors. Smoke detectors also may not sense a fire on another level or floor of a building. A second-floor detector, for example, may not sense a first-floor or basement fire.

Particles of combustion or "smoke" from a developing fire may not reach the sensing chambers of smoke detectors because:

• Barriers such as closed or partially closed doors, walls, or chimneys may inhibit particle or smoke flow.

• Smoke particles may become "cold," stratify, and not reach the ceiling or upper walls where detectors are located.

• Smoke particles may be blown away from detectors by air outlets.

• Smoke particles may be drawn into air returns before reaching the detector.

The amount of "smoke" present may be insufficient to alarm smoke detectors. Smoke detectors are designed to alarm at various levels of smoke density. If such density levels are not created by a developing fire at the location of detectors, the detectors will not go into alarm.

Smoke detectors, even when working properly, have sensing limitations. Detectors that have photoelectronic sensing chambers tend to detect smoldering fires better than flaming fires, which have little visible smoke. Detectors that have ionizing-type sensing chambers tend to detect fast-flaming fires better than smoldering fires. Because fires develop in different ways and are often unpredictable in their growth, neither type of detector is necessarily best and a given type of detector may not provide adequate warning of a fire.

Smoke detectors cannot be expected to provide adequate warning of fires caused by arson, children playing with matches (especially in bedrooms), smoking in bed, and violent explosions (caused by escaping gas, improper stor-

age of flammable materials, etc.). Heat detectors do not sense particles of combustion and

alarm only when heat on their sensors increases at a predetermined rate or reaches a predetermined level. Rate-of-rise heat detectors may be subject to reduced sensitivity over time. For this reason, the rate-of-rise feature of each detector should be tested at least once per year by a qualified fire protection specialist. Heat

detectors are designed to protect property, not life. IMPORTANT! Smoke detectors must be installed in the

same room as the control panel and in rooms used by the system for the connection of alarm transmission wiring, communications, signaling, and/or power. If

detectors are not so located, a developing fire may damage the alarm system, crippling its ability to report a fire.

Audible warning devices such as bells may not alert people if these devices are located on the other side of closed or partly open doors or are located on another floor of a building. Any warning device may fail to alert people with a disability or those who have recently consumed drugs, alcohol or medication. Please note that:

• Strobes can, under certain circumstances, cause seizures in people with conditions such as epilepsy.

• Studies have shown that certain people, even when they hear a fire alarm signal, do not respond or comprehend the meaning of the signal. It is the property owner's responsibility to conduct fire drills and other training exercise to make people aware of fire alarm signals and instruct them on the proper reaction to alarm signals.

• In rare instances, the sounding of a warning device can cause temporary or permanent hearing loss.

A fire alarm system will not operate without any electrical power. If AC power fails, the system will operate from standby batteries only for a specified time and only if the batteries have been properly maintained and replaced regularly.

Equipment used in the system may not be technically compatible with the control. It is essential to use only equipment listed for service with your control panel.

Telephone lines needed to transmit alarm signals from a premise to a central monitoring station may be out of service or temporarily disabled. For added protection against telephone line failure, backup radio transmission systems are recommended.

The most common cause of fire alarm malfunction is inadequate maintenance. To keep the entire fire alarm system in excellent working order, ongoing maintenance is required per the manufacturer's recommendations, and UL and NFPA standards. At a minimum, the requirements of NFPA 72 shall be followed. Environments with large amounts of dust, dirt or high air velocity require more frequent maintenance. A maintenance agreement should be arranged through the local manufacturer's representative. Maintenance should be scheduled monthly or as required by National and/or local fire codes and should be performed by authorized professional fire alarm installers only. Adequate written records of all inspections should be kept.

PrecauLarge.PMD 02/26/2007

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 this manual is read and understood.

CAUTION - System Reacceptance Test after Software Changes. To ensure proper system operation, this product

must be tested in accordance with NFPA 72 after any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring.

All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified.

This system meets NFPA requirements for indoor dry operation at 0-49° C/32-120° F 93 ±2% RH (non-condensing) at 32 ±2° C/90 ±3° F. However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and all peripherals be installed in an environment with a nominal room temperature of 15-27° C/60-80° F.

Verify that wire sizes are adequate for all initiating and indicating device loops. Refer to manual Specifications section for maximum allowable I.R. drop from the specified device voltage.

and at a relative humidity of

Like all solid state electronic devices, this system may operate erratically or can be damaged when subjected to lightning-induced transients. Although no system is completely immune from lightning transients and interferences, proper grounding will reduce susceptibility.

Overhead or outside aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes.

Consult with the Technical Services Department if any problems are anticipated or encountered.

Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits.

Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make all cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, and printed circuit board location.

Do not tighten screw terminals more than 9 in-lbs. Over-tightening may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal.

This system contains static-sensitive components.

Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed from the body. Use static-suppressive packaging to protect electronic assemblies removed from the unit.

Follow the instructions in the installation, operating, and programming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. FACP operation and reliability depend upon proper installation by authorized personnel.

FCC Warning

WARNING: This equipment generates, uses, and can

radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for class A computing device pursuant to Subpart B of Part 15 of FCC Rules, which is designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference, in which case the user will be required to correct the interference at their own expense.

PrecauLarge.PMD 02/26/2007

Canadian Requirements

This digital apparatus does not exceed the Class A limits for radiation noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. This Class A digital apparatus complies with Canadian ICES-003.

Le present appareil numerique n'emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la classe A prescrites dans le Reglement sur le brouillage radioelectrique edicte par le ministere des Communications du Canada. Cet appareil numerique de la Classe A est conforme a la norme NMB-003 du Canada.

Notes

4 411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

CHAPTER 1: Product Description ..................................................................................................................... 9

Product Features ............................................................................................................................................ 9

411UDAC Digital Communicator ..................................................................................................... 9

DP-2 Dress Panel ...............................................................................................................................9

Specifications ................................................................................................................................................ 11

Circuits ..........................................................................................................................................................12

Channels/Inputs .....................................................................................................................................12

Notification Appliance Circuit ............................................................................................................... 12

Output Circuits .......................................................................................................................................12

Auxiliary Relays ....................................................................................................................................12

Earth Ground ......................................................................................................................................... 12

Controls and Indicators ................................................................................................................................. 13

411UDAC Controls and Indicators ................................................................................................... 13

Components and Accessories ........................................................................................................................14

Digital Communicator Operation .................................................................................................................. 14

Panel Configuration ...................................................................................................................................... 15

Operational Modes ........................................................................................................................................ 15

Normal Mode ......................................................................................................................................... 15

Real Time Clock Mode .......................................................................................................................... 15

Program Mode ....................................................................................................................................... 15

Troubleshoot Mode ................................................................................................................................15

Default Mode .........................................................................................................................................15

Telephone Requirements and Warnings ........................................................................................................ 16

Telephone Circuitry - PH1 & PH2 ......................................................................................................... 16

Digital Alarm Communicator: ............................................................................................................... 16

T elephone Company Rights and Warnings: ........................................................................................... 16

For Canadian Applications .................................................................................................................... 17

CHAPTER 2: Installation .................................................................................................................................... 18

Mounting Options ......................................................................................................................................... 18

Mounting ....................................................................................................................................................... 18

Transformer Mounting ...................................................................................................................... 18

Cabinet Dimensions and Knockout Locations ................................................................................... 19

411UDAC Backbox ........................................................................................................................... 20

Operating Power ........................................................................................................................................... 21

Operating Power Connections ........................................................................................................... 21

Battery Cable Connections ................................................................................................................ 22

Input Channels .............................................................................................................................................. 23

Wiring Initiating Device Circuits ...................................................................................................... 24

Typical Addressable FACP Connection to 411UDAC ...................................................................... 25

Output Circuits .............................................................................................................................................. 26

Notification Appliance Circuit Connections ...................................................................................... 26

Relay Installation ............................................................................................................................... 27

Programmable Relay ......................................................................................................................... 27

T elephone Circuits ........................................................................................................................................28

Wiring Phone Jacks ........................................................................................................................... 28

Optional Programmer ....................................................................................................................................29

Programmer Connection to 411UDAC ............................................................................................. 29

UL Power-limited Wiring Requirements ...................................................................................................... 30

Typical UL Power-limited Wiring Diagram ...................................................................................... 30

CHAPTER 3: Modes of Operation ..................................................................................................................... 31

Normal Mode ................................................................................................................................................ 31

Programmer Key Functions ................................................................................................................... 32

Programmer Keypad .......................................................................................................................... 32

Programmer Display .............................................................................................................................. 33

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 5

Real Time Clock Mode .................................................................................................................................34

Program Mode .............................................................................................................................................. 35

DACT Programming ..............................................................................................................................36

Ademco Contact ID Format - Primary .............................................................................................. 39

4+2 Standard and 4+2 Express Formats - Primary ............................................................................ 40

All 3+1, 4+1 and 4+2 Expanded Formats - Primary .......................................................................... 41

Ademco Contact ID Format - Secondary ........................................................................................... 44

4+2 Standard and 4+2 Express Formats - Secondary ........................................................................ 45

All 3+1, 4+1 and 4+2 Expanded Formats - Secondary ...................................................................... 46

411UDAC Operational Modes .......................................................................................................... 47

Verification Timing Diagram ............................................................................................................ 50

Restoral Methods ...............................................................................................................................51

Default Mode ................................................................................................................................................ 53

Troubleshoot Mode .......................................................................................................................................53

Handset/Speaker Connection ............................................................................................................. 54

CHAPTER 4: Central Station Communications ............................................................................................... 55

Format Selection Addresses ( 20 and 50) Programming ................................................................... 56

Format Selection Address Explanation .............................................................................................. 57

Transmittal Priorities .............................................................................................................................. 58

Ademco Contact ID Format Event Code Description ............................................................................59

Compatible UL Listed Receivers ....................................................................................................... 60

CHAPTER 5: Remote Site Upload/Download ................................................................................................... 61

General ..........................................................................................................................................................61

Security Features .................................................................................................................................... 62

Downloading to the Communicator ..............................................................................................................63

Uploading From the Communicator ............................................................................................................. 63

Simultaneous Data Transfers .........................................................................................................................64

CHAPTER 6: Battery Calculations ....................................................................................................................65

Battery Calculations .......................................................................................................................... 65

411UDAC Power Supply .............................................................................................................................. 66

Load in Standby .................................................................................................................................66

Load in Alarm .................................................................................................................................... 66

Programming Sheets ...............................................................................................................................................67

Digital Communicator Options Program Sheets

..............................................................................................67

Digital Communicator Options Program Sheet (Factory Defaults) ................................................................. 69

Event Codes/Transmission Format Programming Sheets ................................................................................. 71

4+2 Standard & 4+2 Express Formats Primary Central Station ...................................................................... 71

4+2 Standard & 4+2 Express Formats Secondary Central Station .................................................................. 71

4+2 Standard & 4+2 Express Formats Primary Central Station ...................................................................... 72

4+2 Standard & 4+2 Express Formats Secondary Central Station .................................................................. 72

All 3+1, All 4+1 and 4+2 Expanded Formats for Primary Central Station ...................................................... 73

All 3+1, All 4+1 and 4+2 Expanded Formats for Secondary Central Station ..................................................73

All 3+1, All 4+1 and 4+2 Expanded Formats for Primary Central Station (Factory Defaults) ....................... 73

All 3+1, All 4+1 and 4+2 Expanded Formats for Secondary Central Station (Factory Defaults) ..................73

Ademco Contact ID Format Primary Central Station ......................................................................................74

Ademco Contact ID Format Secondary Central Station .................................................................................. 74

Ademco Contact ID Format Primary Central Station (Factory Defaults) ........................................................ 75

Ademco Contact ID Format Secondary Central Station (Factory Defaults) ....................................................75

Ademco Contact ID Format Event Code Description ........................................................................................ 76

Events and Default Event Codes .......................................................................................................................... 80

Operational Modes ................................................................................................................................................81

Canadian Applications ..........................................................................................................................................82

6 411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

This digital communicator/transmitter has been designed to comply with standards set forth by the following regulatory agencies:

• Underwriters Laboratories Standard

• NFPA 72 National Fire Alarm Code

• CAN/ULC - S527-M99 Standard for Control Units for Fire Alarm Systems

Before proceeding, the installer should be familiar with the following documents.

NFPA Standards

Central Station Signaling Systems Protected Premises Unit (Automatic, Manual and Waterflow) Proprietary Fire Alarm Systems (Protected Premises Unit) Remote Station Fire Alarm Systems Automatic Fire Detectors Installation, Maintenance and Use of Notification Appliances for Fire Alarm Systems Inspection, Testing and Maintenance for Fire Alarm Systems

Underwriters Laboratories Documents:

UL 217 Smoke Detectors, Single and Multiple Station UL 268 Smoke Detectors for Fire Protective Signaling Systems UL 346 Waterflow Indicators for Fire Protective Signaling Systems UL 464 Audible Signaling Appliances UL 521 Heat Detectors for Fire Protective Signaling Systems UL 864 Standard for Control Units for Fire Protective Signaling Systems UL 1481 Power Supplies for Fire Protective Signaling Systems UL 1635 Digital Alarm Communicator System Units UL 1638 Visual Signaling Appliances UL 1971 Signaling Devices for Hearing Impaired

CAN/ULC - S524-01 Standard for Installation of Fire Alarm Systems CAN/ULC - S527-99 Standard for Control Units for Fire Alarm Systems CAN/ULC - S559-04 Equipment for Fire Signal Receiving Centers and Systems

This Class (A) digital apparatus complies with Canadian ICES-003. Cet appareil numérique de la classe (A) est conforme à la norme NMB-003 du Canada.

Other:

NEC Article 250 Grounding NEC Article 300 Wiring Methods NEC Article 760 Fire Protective Signaling Systems Applicable Local and State Building Codes Requirements of the Local Authority Having Jurisdiction (LAHJ)

This product has been certified to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, 9th Edition. Operation of this product with products not tested for UL 864, 9th Edition has not been evaluated. Such operation requires the approval of the local Authority Having Jurisdiction (AHJ).

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 7

TB1

NO NONC NCCC

(nonsupervised)

NC Contact NO Contact

(nonsupervised)

NC Contact NO Contact

Relay K5 and K6

RELAY 2RELAY 1

Relay 2

Common

Relay 1

Common

411AREL.CDR

All Circuits on TB2 and TB4 are supervised and power-limited

NAC B+ NAC B+12 VDC Resettable

- Resettable (common) Zone 1 B+ Zone 1 BZone 2 B+ Zone 2 BZone 3 B+ Zone 3 A+ Zone 3 AZone 3 BZone 4 B+ Zone 4 B-

TB4

Phone Line 1 Phone Line 2

+B- -

+12V POWER

411ANAC.CDR

B+

NAC

HIGH VOLTAGE

Transformer

(supervised, nonpower-limited)

AC Power Connector

CAUTION!

Earth

AC Neutral

AC Hot

hinged cover must be closed after wiring

- +

Battery Connector (supervised, nonpower-limited)

8 411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Jumper J8 must be installed for proper panel operation

PRO-411 DACT Programmer

411UDABD.CDR

Product Description

CHAPTER 1 Pr oduct Description

The 411UDAC is a fire alarm communicator with four input/channels and dual telephone lines. The four inputs use conventional input devices. The 411UDAC accepts waterflow devices, two-wire smoke detectors, four-wire smoke detectors, pull stations and other nor mally-open contact devices. The unit also supervises AC voltage, telephone line input voltage/current, battery level and battery charger operation.

Outputs include one supplementary NAC (Notification Appliance Circuit), two programmable Form-C relays and 12 VDC resettable special application power. The 41 1UDAC interfaces with the public switched telephone network and is compatible with most central station receivers. A total of fifteen popular communications formats are supported, including the industry standard Ademco Contact ID. The communicator also contains a unique DACT option that

eliminates 'dialer runaway'. It restricts the transmission of any intermittent nuisance fault to 10 attempts in a 24 hour period.

Accessories include the Fire-Watch 411 Series DACT Programmer (Model PRO-411) as well as the PK-411UD Windows

95 based remote site programming software. The 411UDAC is supplied with a compact metal cabinet.

The digital communicator can be programmed or interrogated off-site via the public switched telephone network. Any IBM compatible personal computer with Windows

3.1 or greater, with a 1200 baud Hayes® compatible modem

and Upload/Download software P/N PK-411UD, may serve as a service terminal.

1.1 Product Features

FIGURE 1-1:411UDAC Digital Communicator

• Four input/channels - three fixed Style B (Class B) and one Style A (Class A) or Style B (Class B)

• Programmable input channels

 2-wire smoke (Inputs 1 & 3 only)  pull station  normally-open contact  host panel trouble (Slave Mode)  supervisory  supervisory autoresettable  waterflow (silenceable)  waterflow (nonsilenceable)

411UDACV.CDR

• One Style Y (Class B) NAC (supplementary application)

• Dual telephone lines

FIGURE 1-2:DP-2 Dress Panel

 Dual telephone line voltage detect  Alternating phone lines for 24 hour test messages

• 12 VDC operation

• 1.6 amps total system power

• Alarm Verification

• Signal Silence Inhibit

• Autosilence

• Trouble Reminder

• Trouble Resound - troubles will resound the buzzer every 24 hours at midnight until the trouble is cleared

• Optional DP-2 Dress Panel (required for Canadian applications)

DP411A.CDR

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 9

Product Features

• Industry first 20-digit central station and service terminal telephone numbers

• NAC coding per ANSI S-3.41 (Temporal Coding)

• Surface mount technology

• Separate external keypad and display

 provides means of programming 411UDAC in program mode  provides means of testing input/output circuits (including telephone connections) in Troubleshoot Mode

• Compact in size 14.5" (36.83 cm) high X 12.5" (31.75 cm) wide X 2.875" (7.303 cm) deep metal cabinet

• Communicates vital status of monitored control panel (Slave Mode):

 fire alarm  host control panel trouble  fire supervisory  AC (mains) power loss (programmable)  other

• Communicates vital status of 411UDAC:

 digital communicator troubles  telephone Line 1 and 2 voltage fault  Primary Central Station number communication fault  Secondary Central Station number communication fault  system off-normal (local Program Mode entered)  24 Hour normal test  24 Hour abnormal test (24 hour test message with previou sl y repo rted alarm or trouble still active)

• Individual LEDs for:

 AC Power  System Trouble  Input Active  Supervisory  Communication Fail  Battery Trouble  Earth Fault

• Local piezo sounder with separate and distinct sounds for the various conditions

• Acknowledge/System Silence switch - 1st press silences local piezo sounder, 2nd press silences NAC

• Reset switch

• Real time clock

• Extensive transient protection

• Two Form-C relays, fully programmable to activate for the following conditions:

 fire alarm  host control panel trouble

 total communication failure

 DACT trouble (factory default for relay)  fire supervisory (latching)  fire supervisory (autoresettable)

• Optional PK-411UD Remote Upload/Download Kit

• Industry-first, UL recognized 'dialer runaway' feature

• Industry-first user selectable restoral methods

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Specifications

1.2 Specifications

AC Power - TB3

120 VAC, 60 Hz, 0.3 amps Wire size: minimum 14 AWG (2.00 mm Supervised, nonpower-limited

Battery (lead acid only) - J3

Maximum Charging Circuit: Normal flat charge - 13.7V @ 0.6 amps Maximum Charger Capacity: 14 Amp Hour battery Supervised, nonpower-limited

Channels/Inputs - TB2 Terminals 1 through 10

Programmable Channels 1 through 4 Power-limited circuitry Fully supervised (monitored for opens, shorts and earth fault) Normal Operating Voltage: 12.0 VDC (ripple = 100 mV maximum) End-of-Line Resistor: 2.2K ohms, ½ watt (P/N 27070 UL listed) Operation for each channel:

• Channel/Input 1, Style B (Class B) 2-wire smoke detector input and Channel/Input 3, Style B (Class B) 2-wire smoke detectors or waterflows or Style D (Class A) waterflow input:

Note: Connecting 2-wire detectors on Channel/Input 3 requires NFPA Style B (Class B) only.

Alarm Current: 11 mA Short Circuit Current: 24 mA maximum Maximum Detector Current in Standby: 2 mA Maximum Loop Resistance: 30 ohms

Detector Loop Current is sufficient to ensure operation of a minimum of one alarmed detector per zone

Standby Current: 5.17 mA (including End-of-Line Resistor)

• Channel/Input 2 and Channel/Input 4 - Style B (Class B) contact closure input:

Short Circuit Current: 4.46 mA maximum Maximum Loop Resistance: 100 ohms Standby Current: 2.66 mA

Refer to Device Compatibility Document for listed compatible devices

) with 600V insulation

Notification Appliance Circuit - TB4 Terminals 1(+) & 2(-)

The 411UDAC Notification Appliance Circuit may only be used to supplement host panel NACs Style Y (Class B) power-limited and supervised circuit (monitored for opens, shorts and earth fault) Maximum voltage drop in wiring: 2.0 VDC Operating voltage nominal 13.8 VDC Current for all external devices: 1.0 amp End-of-line resistor: 2.2K ohms, ½ watt (P/N 27070) Refer to Device Compatibility Document for listed compatible devices

Two Form-C Relays - TB1 Terminals 1 through 6

Operating voltage nominal 12 VDC Contact rating: 2.0 amps @ 30 VDC (resistive) or 0.5 amps @ 30 VAC (resistive) Nonsupervised

12 VDC Resettable Special Application Power - TB4 Terminals 3(+) and 4(-)

Operating voltage nominal 12 volts Maximum ripple voltage: 10 mV

RMS

Up to 200 mA is available for powering 4-wire smoke detectors Power-limited and supervised circuitry. Recommended maximum standby current is 50 mA

Notes:

1. For power supply and battery calculations, refer to Chapter 6

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 11

Circuits

1.3 Circuits

The 411UDAC circuit board utilizes surface mount technology and contains a MicroController Unit (MCU), dual modular phone line jacks, piezo sounder, two sockets for optional programmable relays and connectors for input, output and power wiring. A piezo silence switch and reset switch are provided on the membrane panel which plugs into connector J7 on the main circuit board.

1.3.1 Channels/Inputs

Four input channels are provided on the 411UDAC. The 411UDAC can be used to monitor a host FACP (Fire Alarm Control Panel) in Slave Mode or as a stand-alone FAC (Fire Alarm Communicator). Each input can be programmed to monitor the following conditions:

• fire alarm activation

• 2-wire smoke (channels 1 & 3 only)

• pull station

• normally open contact device

• waterflow

• trouble activation

• fire supervisory activation

1.3.2 Notification Appliance Circuit

One Style B NAC (Notification Appliance Circuit) requiring a 2.2K ohm End-of-Line resistor. This NAC can only be used to supplement host panel NACs.

1.3.3 Output Circuits

• Modular jacks are used to interface the primary and secondary phone lines to the public telephone network. Phone lines are fully supervised at all times (if communication is enabled).

• 12 volt resettable special application power output (200 mA)

• 12 volt battery charge r will charge up to 14 AH batteries

1.3.4 Auxi liary Rela ys

Two dry Form-C relays (P/N: 411RK), with contacts rated for 2.0 amps @ 30 VDC (resistive) or 0.5 amps @ 30 VAC (resistive), are installed on the main circuit board. Each relay is programmable for:

 Alarm  Fire supervisory - latching  Fire supervisory - autoresettable  Host panel trouble  DACT trouble  Total communications failure

1.3.5 Earth Ground

Connect a separate earth ground wire to ground stud in backbox for transient protection (refer to Figure 2-4 on page 21 for location of stud).

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Controls and Indicators

1.4 Controls and Indicators

FIGURE 1-3:411UDAC Controls and Indicators

411ACDSP.CDR

Front Panel Switch

• Reset Switch - to reset 411UDAC circuits

• Acknowledge/System Silence Switch  press once to acknowledge alarm or trouble (silence local 411UDAC piezo sounder and change all

flashing LEDs to steady on)

 press a second time and hold for minimum of two seconds to perform a System Signal Silence (silence

Notification Appliance Circuit)

411UDAC Piezo Sounder

• The 411UDAC piezo sounder is used to locally annunciate DACT alarms and troubles. DACT troubles

include input channel open circuit, NAC fault, phone line 1 or 2 voltage fault, phone number 1 or 2 communication fault and total communication failure. Separate and distinct sounds are provided for the following conditions:

 alarm - steady On  trouble - 1 second On and 1 second Off  supervisory - ½ second On and ½ second Off

Front Panel Indicator

• AC Power - green LED

• Input Active - green LED

• Communication Fail - yellow LED

• System Trouble - yellow LED

• Supervisory - yellow LED

• Battery Trouble - yellow LED

Circuit Board Indicator

• Earth Fault - yellow LED (indicates zero impedance between panel and earth ground)

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 13

Components and Accessories

1.5 Components and Accessories

Main Circuit Board

The main circuit board contains the system’s MCU (microcontroller unit), power supply, other primary components and wiring interface connectors. The main circuit board is shipped in the same carton as the cabinet but is not mounted in the cabinet. The circuit board should be installed only after the cabinet is mounted to the wall and the area is clean and free of potential contaminants.

Cabinet

The cabinet is red and measures 14.5" (36.83 cm) high X 12.5" (31.75 cm) wide X 2.875" (7.303 cm) deep. It provides space for up to two 7 Amp Hour batteries which must be ordered separately. A dress panel, which mounts inside the cabinet, is also available. A supplied bezel must be installed in the door opening.

Dress Panel

An optional dress panel (P/N: DP-2) is available (required for Canadian installations). The dress panel restricts access to the system wiring while allowing access to the membrane switch panel. See Figure 1-2 on page 9.

Transformer Assembly

One transformer is shipped in the same carton as the cabinet and main circuit board but not mounted in the cabinet. The transformer should be installed before the cabinet is mounted to the wall.

Fire•Watch 411 Series DACT Programmer (Model PRO-411)

The PRO-411 is an optional DACT programmer which can be used to troubleshoot and program the 411UDAC, as well as access the various modes of operation. The PRO-411 must be ordered separately.

PK-411UD Upload/Download Software Kit

The optional PK-411UD Kit consists of the PK-411UD Upload/Download software on 3½” disk and the PK-411UD Program Manual. The PK-411UD enables a user to program the 411UDAC off site via the public

switched telephone network using any personal computer with Windows 1200 baud Hayes

compatible modem.

3.1 or greater or Windows® 95 and a

1.6 Digital Communicator Operation

The 411UDAC has been designed to be compatible with a wide variety of fire alarm, nonfire and combination control panels (Slave Mode operation). Numerous formats are also available for communication to a central station. Two modular phone jacks allow easy connection to telephone lines. Modular jacks are labeled PH1 and PH2 for the Primary and Secondary phone lines. The digital communicator provides the following functions:

• Line Seizure- takes control phone lines, disconnecting any premise phones which may be using the same lines

• Off/On-Hook - perform on and off-hook status to phone lines

• Listen for dial tone - 440 hertz tone typical in most networks

• Dialing the Central Station(s) phone number - default is Touch-Tone®, programmable to rotary

• Discern proper Central Station 'ACK' and 'Kiss-off' tone(s)

• Transmit data to the Central Station(s)

• Verify data has been accepted by the Central Station(s)

• Hang-up and release phone lines

• Communicate in a variety of formats (Refer to Table 4-1, “Format Selection Addresses ( 20 and 50) Programming,” on page 56).

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Panel Configuration

1.7 Panel Configuration

The 411UDAC can be configured, through programming, for the following modes of operation:

• Stand-alone Mode With Communicator Enabled - the 411UDAC functions as a latching digital alarm communicator in which all input circuit activations latch (except those programmed as autoresettable) and are restored only by pressing the local reset switch. The onboard communicator will attempt to transmit events to a Central Station

• Slave Mode With Communicator Enabled - the 411UDAC functions as a nonlatching slave to a host control panel and the onboard digital alarm communicator will attempt to transmit events to a Central Station

• Slave Mode With Communicator Disabled - the 411UDAC functions only as a nonlatching slave to a host control panel. The digital alarm communicator will not transmit to a Central Station

1.8 Operational Modes

1.8.1 Normal Mode

Normal Mode is the standard mode of operation in which the 411UDAC monitors the channel/input circuits as well as telephone line voltage and other internal circuits. In addition to locally annunciating system trouble, active channel/input and communication fail, the onboard communicator transmits system status information to UL listed central station receivers if programmed to do so. Transmitted data includes fire alarm, fire alarm trouble, supervisory alarm and AC loss information. Specific digital communicator troubles are also transmitted.

1.8.2 Real Time Clock Mode

Real Time Clock Mode allows the user to change the digital alarm communicator’s internal 24 hour clock. Connecting an external Programmer allows access to the various Modes of operation. While the 411UDAC is in Real Time Clock Mode, it does not monitor channel inputs.

1.8.3 Program Mode

Program Mode is used to change the programmed functions of the 411UDAC. While the 411UDAC is in Program Mode, it does not monitor channel inputs. In addition, some program items will be locked, which will prevent editing while the communicator is active (dialing, transmitting, etc.).

1.8.4 Troubleshoot Mode

Troubleshoot Mode may be used to sample and display status for all channel/input circuits, Notification Appliance Circuit, AC power, battery, charger and 12 volt resettable power. In addition, Troubleshoot Mode may be used for testing the telephone line interconnect wiring. Connection from the 411UDAC’s modular jacks, through the RJ31X jacks and into the telephone network may be easily checked. In this mode, the Programmer keypad acts similar to a telephone touchpad. While the 411UDAC is in Troubleshoot Mode, it does not monitor channel inputs.

1.8.5 Default Mode

Default Mode may be used to return all 411UDAC programming back to the factory default settings and to reset the Real-Time Clock to ‘00:01’ midnight. See “Default Mode” on page 53.

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Telephone Requirements and Warnings

1.9 Telephone Requirements and Warnings

1.9.1 Telephone Circuitry - PH1 & PH2

AC Ringer Equivalence Number (REN) = 1.2B DC Ringer Equivalence Number (REN) = 0.0B Mates with RJ31X Male Connector Supervision Threshold: less than 4.0 volts for 2 minutes

The REN is used to determine the quantity of devices which may be connected to the telephone line. Excessive RENs on the telephone line may result in the devices not ringing in response to an incoming call. In most, but not all areas, the sum of the RENs should not exceed five (5.0). To be certain of the number of devices that may be connected to the line, as determined by the total RENs, contact the telephone company to determine the maximum REN for the calling area.

1.9.2 Digital Alarm Communicator:

Before connecting the 411UDAC to the public switched telephone network, the installation of two RJ31X jacks is necessary. The following information is provided if required by the local telephone company:

Manufacturer: Fire•Lite Alarms Inc./Notifier

One Fire-Lite Place

Northford, CT 06472 Product Model Number: 411UDAC FCC Registration Number: OAAUSA-25431-AL-E AC Ringer Equivalence: 1.2B DC Ringer Equivalence: 0.0B

Note: FCC ID label is located on the inside cover.

Important! The DACT must not

be used to dial a phone number that is call-forwarded per requirements of UL 864

9th Edition.

1.9.3 Telephone Company Rights and Warnings:

The telephone company, under certain circumstances, may temporarily discontinue services and/or make changes in its facilities, services, equipment or procedures which may affect the operation of this digital communicator. However, the telephone company is required to give advance notice of such changes or interruptions. If the digital communicator causes harm to the telephone network, the telephone company reserves the right to temporarily discontinue service. Advance notification will be provided except in cases when advance notice is not practical. In such cases, notification will be provided as soon as possible. The opportunity will be given to correct any problems and to file a complaint.

DO NOT CONNECT THIS PRODUCT TO COIN TELEPHONE, GROUND START OR PARTY LINE SERVICES.

When the digital communicator activates, premise phones will be disconnected.

Two separate phone lines are required. Do not connect both telephone interfaces to the same telephone line.

The digital communicator must be connected to the public switched telephone network upstream of any private telephone system at the protected premises.

An FCC compliant telephone cord must be used with this equipment. This equipment is designed to be connected to the telephone network or premises wiring using a compatible RJ31X male modular plug which is Part 68 compliant.

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Telephone Requirements and Warnings

1.9.4 For Canadian Applications

The following is excerpted from CP-01 Issue 5: “NOTICE: The Industry Canada (IC) label identifies certified equipment. This certification means that the equip-

ment meets certain telecommunications network protective, operational and safety requirements as prescribed in the appropriate Terminal Equipment Technical Requirements document(s). The Department does not guarantee the equipment will operate to the user’s satisfaction.”

Before installing this equipment, users should ensure that it is permissible to be connected to the facilities of the local telecommunications company. The equipment must also be installed using an acceptable method of connection. The customer should be aware that compliance with the above conditions may not prevent degradation of service in some situations.

Repairs to certified equipment should be made by an authorized Canadian maintenance facility designated by the supplier. Any repairs or alterations made by the user to this equipment, or equipment malfunctions, may give the telecommunications company cause to request the user to disconnect the equipment.

Users should ensure for their own protection that the electrical ground connections of the power utility, telephone lines and internal metallic water pipe system, if present, are connected together. This precaution may be particularly important in rural areas.

CAUTION

Users should not attempt to make such connections themselves, but should contact the appropriate electric inspection authority, or electrician.

“The Ringer Equivalence Number

(REN) assigned to each terminal device provides an indication of the maximum number of terminals allowed to be connected to a telephone interface. The termination of an interface may consist of any combination of devices subject only to the requirement that the sum of the REN of all devices does not exceed 5.”

Representative: NOTIFIER/FIRE•LITE, CANADA

10 Whitmore Rd. Woodbridge, Ontario L4L 7Z4

IC Certificate Number: Ringer Equivalence Number (REN): 0.4B

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Installation

CHAPTER 2 Installation

2.1 Mounting Options

The cabinet may be either semi-flush or surface mounted. The door is removable during the installation period by opening and lifting it off the hinges. The cabinet mounts using two key slots and two additional 0.25" diameter holes located in the backbox. The keyslots are located at the top of the backbox and the two securing holes 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. Locate the top of the cabinet approximately five feet above the floor with the hinge mounting on the left. Determine the number of conductors required for the devices to be installed. Sufficient knockouts are provided for wiring convenience. Select the appropri ate knock out(s) and pull the required conductors into the box. Note that there are no knockouts on the left (hinged) side of the cabinet. All wiring should be in accordance with the National and/or Local codes for fire alarm systems.

2.2 Mounting

Backbox Mounting

FIGURE 2-1:Transformer Mounting

• Open the door and lift the door off the pin hinges

• Mark and predrill holes for the top two keyhole mount-

ing bolts using the dimensions shown in Figure 2-2 on page 19

Top of backbox

Ground Stud

• Install two upper fasteners in the wall with the screw

heads protruding

• Using the upper 'keyholes', temporarily mount the

backbox over the two screws

• Mark the lower two holes, remove the backbox from

Transformer flange

Transformer mounting stud

the wall and drill the lower two holes in the wall

• Before mounting the backbox to the wall, install the

supplied transformer in the backbox by sliding the bottom transformer flange into the lower transformer

Transformer mounting slot

mounting slot. Position the hole in the top transformer flange over the transformer mounting stud. Refer to Figure 2-1 for the location of the slot and stud

• Secure the transformer with the supplied nut and

attached washer

• Mount the backbox to the keyhole mounting bolts, install and tighten the remain ing fasteners

Main Circuit Board Mounting

• When the location is clean and free of construction dust or other contaminants, install the main PC board by

installing the four supplied standoffs on the four main circuit board mounting studs located in the backbox. Refer to Figure 2-2, “Cabinet Dimensions and Knockout Locations,” on page 19

• Position the main circuit board’s four corner mounting holes over the four standoffs just installed. Be certain

to observe the proper ESD (Electro Static Discharge) precautions to prevent damage to the static sensitive circuits. This includes, but is not limited to, use of a wrist strap

• Secure the main circuit board to the standoffs with the four supplied screws and attached washers

• Plug the transformer connector into the main circuit board connector J4. The connector is keyed and can only

be plugged-in one way. Refer to Figure 2-4 on page 21 and Figure 2-13 on page 30 for transformer connector location and AC power connections

• When wiring is completed, install the door on the backbox pin hinges and the window bezel in the door

411XFRMT.CDR

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Mounting

FIGURE 2-2:Cabinet Dimensions and Knockout Locations

1.125“

(2.858 cm)

Knockouts

0.875“

(2.223 cm)

1.1“ (2.794 cm)

1.25“

(3.175 cm)

4.12“ (10.47 cm)

(7.62 cm)

3.0“

Double Transformer Mounting Slot

Single

Transformer

Mounting

Slot

6.12“ (15.55 cm)

Transformer Mounting Stud

8.12“ (20.63 cm)

10.12“ (25.75 cm)

12.5“ (31.75 cm)

6.5“ (16.51 cm)

Ground Stud

Main Circuit Board Mounting Studs

2.875“

(7.303 cm)

14.5“

(36.83 cm)

Top (back)

Top (front)

1.25“

(3.175 cm)

(8.255 cm)

(4.445 cm)

(8.89 cm)

3.25“

1.75“

3.5“

TR-3-R Trim Ring

16.625" (42.228 cm)

12.625" (32.068 cm)

14.625“ (37.148 cm)

5024JRBB.CDR

17.625" (44.768 cm)

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Mounting

FIGURE 2-3:411UDAC Backbox

Door=14.714“ (37.374 cm) Backbox=14.5“ (36.83 cm)

Top

Door=12.714“ (32.294 cm) Backbox=12.5“ (31.75 cm)

Depth=2.875“ (7.303 cm)

Depth=3“ (7.62 cm)

Bottom

Right Side

411ACABB.CDR

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Operating Power

2.3 Operating Power

CAUTION: Several different sources of power can be connected to the 411UDAC. Disconnect all sources of power

before servicing this unit. The communicator and associated equipment may be damaged by removing and/or inserting modules or cables with power applied.

Primary Power Source (AC) and Earth Ground Connections

AC power connections are made inside the 411UDAC cabinet. The primary power source is 120 VAC, 60 Hz, 0.3 amps. Run a pair of wires (with ground conductor) from the protected premises main breaker box to TB3 of the main circuit board. As per the National Electric Code, use 14 AWG (2.00 mm tion. No other equipment may be connected to this circuit. In addition, this circuit must be provided with overcurrent protection and may not contain any power disconnect devices. A separate earth ground connection must be made to ensure proper panel operation and lightning and transient protection. Connect the earth ground wire [minimum 14

AWG (2 .00 mm

) to the earth ground stud in the cabinet. Do not use conduit for the earth ground connection since

the does not provide reliable protection.

FIGURE 2-4:Operating Power Connections

Connect Earth Ground Wire to earth ground stud

) or heavier gauge wire with 600V insula-

Earth

Neutral

Hot

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Black

12 VDC Battery

Red

411AINBX.CDR

Operating Power

Secondary Power Source (batteries)

Observe polarity while connecting the battery. When installing one 12 volt battery for up to 7 Amp Hour applications, connect the supplied battery cable (P/N 75516) by sliding the connector attached to the long red wire onto the positive (+) battery terminal and the connector attached to the long black wire onto the negative (-) battery terminal. Tie-wrap or tape the two unused short wires to the long wires.

When installing two 12 volt, 7 Amp Hour batteries (in parallel) for up to 14 Amp Hour applications (60 hour standby), follow the same procedure as described for one battery except connect the unused short wires to the second battery. Slide the connector attached to the short red wire onto the positive (+) terminal of the second battery and the connector attached to the short black wire onto the negative (-) battery terminal of the second battery.

When the panel is ready to have power applied, connect the battery cable plug to connector J3 on the 411UDAC main circuit board. The battery charger is current-limited and capable of recharging sealed lead acid type batteries. The charger shuts off when the system is in alarm. Refer to the battery calculations table to determine the correct battery rating.

CAUTION! Battery contains sulfuric acid which can cause severe burns to the skin and eyes, and can destroy fabrics. If contact is made with sulfuric acid, immediately flush the skin or eyes with water for 15 minutes and seek immediate medical attention.

FIGURE 2-5:Battery Cable Connections

Connect to J3 on 411UDAC main circuit board

Connect to J3 on 41 1UDAC main circuit board

Red Wire

Unused wire - tie-wrap or tape to long wires

One 12 Volt Battery - Up to 7 Amp Hour Applications

Black Wire

Negative (-) Terminal

Unused wire - tie-wrap or tape to long wires

Negative (-) Terminal

Positive (+) Terminal

411BATT.CDR

Negative (-) Terminal

Positive (+) Terminal

411BATT2.CDR

Two 12 Volt Batteries - Up to 14 Amp Hour Applications

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Input Channels

2.4 Input Channels

The 411UDAC has four channel inputs. Channel/input field wiring is supervised for opens (trouble), shorts (alarm) and ground faults (zero ohms impedance between panel and earth ground) by the 411UDAC. All conditions are visually and audibly annunciated and, if programmed, communicated to a Central Station.

Each channel is a Style B (Class B) Initiating Device Circuit with the exception of channel/input 3 which can be configured for Style B or Style D (Class A). All inputs can be connected to normally-open contact type devices. In addition, inputs 1 and 3 can be connected to conventional 2-wire smoke detectors. Refer to Figure 2-6, “Wiring Initiating Device Circuits,” on page 24 for information on wiring Style B and Style D circuits.

The channel/inputs may be programmed as shown below:

• 2-wire smoke detector (inputs 1 & 3 only)

• Pull station

• Normally-open contact device

• Host panel trouble

• Supervisory

• Supervisory autoresettable

A maximum of five waterflow devices may be used on any circuit programmed as a waterflow zone per NFPA 72.

• Waterflow silenceable

• Waterflow nonsilenceable

It is allowable to mix an assortment of device types (i.e. smoke detectors, heat detectors, pull stations, etc.) on any zone. This is not recommended, however, since specific and detailed reports will not be possible (particularly critical when using Contact ID format). For example, the report of general fire alarm versus pull station fire alarm or smoke detector fire alarm could not be distinguished.

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Input Channels

The factory default programming for each channel is as follows:

 Channel 1 - fire alarm (2-wire smoke)  Channel 2 - pull station  Channel 3 - fire alarm (2-wire smoke)  Channel 4 - pull station

The following illustration shows Channel 1 connected to 2-wire smoke detectors, Channel 2 connected to manual pull stations, Channel 3 connected to 2-wire smoke detectors and Channel 4 connected to waterflow devices. In this example, the factory default programming for Channel 4 must be changed from pull station to waterflow device.

FIGURE 2-6:Wiring Initiating Device Circuits

Zone 1/Channel 1

Zone 2/Channel 2

Zone 3/Channel 3

Zone 4/Channel 4

411UDAC Main Circuit Board

2-Wire Smoke Detectors (Class B)

Manual Pull Stations (Class B)

2-Wire Smoke Detectors (Class A)

Waterflow Devices (Class B)

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Input Channels

FIGURE 2-7:Typical Addressable FACP Connection to 411UDAC

Note: The addressable monitor module input, which is being used to monitor th e 411UDAC Relay Output programmed for DACT Trouble (requires optional 41 1RK Relay Kit), must be programmed as 'DACT Trouble' at the FACP. The 411UDAC must be programmed as a Slave Communicator (programming address 64 set to ‘2’)

411UDAC Relay 2 Output (DACT Trouble)

Channel 2/Zone 2

Program the 411UDAC as follows: Channel 1 - Normally Open Contact Device (alarm) Channel 2 - Host Panel Trouble Channel 3 - Supervisory

End-of-Line Resistor supplied with Monitor Module

2.2K EOL

411UDAC

Channel 1/Zone 1

Channel 3/Zone 3

2.2K EOL Channel 4

Supervisory Relay

Alarm Relay

*If the SLC device does not match the one in this figure, refer to the SLC manual wiring conversion charts for legacy and newer versions of the modules.

Monitor Circuit Input

Addressable FACP (must be UL-listed for Central Station Service and Remote Signaling Service)

Trouble Relay

Monitor

UL listed

2.2K EOLs P/N 27070

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 25

Module*

SLC Loop

9200411A.CDR

Output Circuits

2.5 Output Circuits

Notification Appliance Circuit

The 411UDAC provides one Style Y (Class B) NAC (Notification Appliance Circuit). The NAC is supervised and power-limited and is capable of 1.0 amp of current. Refer to the Device Compatibility Document for a listing of compatible notification appliances.

Note:

1. The 411UDAC can only be used to supplement host panel NACs.

2. Do not connect strobes to the 411UDAC Notification Appliance Circuit.

The NAC may be programmed as follows:

• Silenceable

• Nonsilenceable (waterflow)

• Silence Inhibited (one minute)

• Autosilence (5 to 30 minutes)

FIGURE 2-8:Notification Appliance Circuit Connections

Style Y (Class B) Notification Appliance Circuit (supervised and power-limited).

2.2K ohms, ½ watt P/N 27070

Note: Notification Appliance Circuit polarity shown in alarm state

Dummy Load NAC circuit with 2.2K ohm, ½ watt End-of-Line resistor if not being used.

TB4

B+

NAC

Polarized Bell

Polarized Horn

+B- -

+12V POWER

411ANAC.CDR

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Output Circuits

Relay Programming:

The relays are programmable for activation on fire alarm, host panel trouble, fire supervisory, total communication failure and DACT. Refer to “DACT Programming” on page 36. Addresses ‘85 - 88’ are used for programming relay functions and enable.

FIGURE 2-9:Programmable Relay

Note: Relay connections may be power-limited or nonpower-limited, provided that 0.25" spacing is maintained between conductors of power-limited and nonpower-limited circuits.

Relays automatically change to energized condition when programmed for Trouble.

RELAY 1 RELA Y 2

TB1

NO NONC NCCC

Relay 1 - Shown Programmed for Alarm, Supervisory, or any other function except DACT Trouble and Host Panel Trouble (relay contacts shown in deenergized condition with power applied to 411UDAC)

Relay 2 - Shown Programmed for DACT Trouble or Host Panel Trouble (relay contacts shown in energized condition with power applied to 411UDAC)

411ARELE.CDR

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Telephone Circuits

2.6 Telephone Circuits

Provision to connect two independent telephone lines is available via two telephone jacks labeled PH1 (Primary) and PH2 (Secondary). Telephone line control/command is possible via double line seizure as well as usage of an RJ31X style interconnection. (RJ31X jacks must be ordered separately).

CAUTION: It is critical that the 411UDAC be located as the first device on the incoming telephone circuit to properly function.

FIGURE 2-11:Wiring Phone Jacks

Green Wire

Tip

Red Wire

Ring

(Primary Lines) Incoming Telco Phone Lines

Ring

To Premises Phone

Tip

Ring

(Secondary Lines) Incoming Telco Phone Lines

Green Wire Red Wire

To Premises Phone

Ring

Tip

411UDAC

Note: Shorting bars inside RJ31X Jack removed during male plug insertion

7 foot Cable (MCBL-7) Not supplied - Order Separately (2 required)

Secondary Phone Line PH2

Primary Phone Line PH1

Male Plug Connectors

Female Connectors

411AJAK.CDR

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Optional Programmer

2.7 Optional Programmer

The Fire-Watch 411 Series DACT Programmer (Model PRO-411) is used to:

 switch between the digit a l alarm communicator's five Modes of operation  set the digital alarm communicator's 24 hour internal clock in Real-Time Clock Mode  program the 411UDAC digital alarm communicator in Program Mode  test the status of input and output circuits (including telephone lines) in Troubleshoot Mode  return all digital alarm communicator programming to the factory default settings in Default Mode

To use the PRO-411 Programmer:

1. Remove all power from the 411UDAC

2. Unlock and open the 411UDAC door

3. Connect the Programmer cable to connector J2 located in the lower right corner of the 411UDAC. Note that

the key on the connector must align with the slot in the J2 connector

4. Reapply power to the 411UDAC

5. Operate the Programmer by pressing the MODE key. Enter the appropriate four digit code and then press the

[ENTER/STORE] key.

Note that it is not possible to switch from Normal Mode to any other mode if any of the four Channels is programmed for fire alarm or fire supervisory and is active, that is, in alarm (shorted).

FIGURE 2-11:Programmer Connection to 411UDAC

NOTE: The Fire•Watch 411 Series DACT Programmer

must be removed when not in use.

411UDAC

Programmer

Cable attached to Programmer

J2 connector

411A-PRO.CDR

- +

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UL Power-limited Wiring Requirements

2.8 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. A typical wiring diagram for the 411UDAC is shown below.

FIGURE 2-12:Typical UL Power-limited Wiring Diagram

Note: Relay connections may be power-limited or nonpowerlimited, provided that 0.25" spacing is maintained between conductors of power-limited and nonpower-limited circuits.

Nonpower-limited Circuits

Power-limited Circuits

411AULPW.CDR

AC Power

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Modes of Operation

CHAPTER 3 Modes of Operation

The 411UDAC has five operational modes:

• Normal Mode

• Real Time Clock Mode

• Program Mode

• Troubleshoot Mode

• Default Mode

The operational mode for the 411UDAC is Normal Mode. The operator is able to switch between any modes of operation provided no alarm events are active in the system. It should be noted that the unit will not respond to input activations while in any mode except Normal Mode.

Access to any other Mode requires connection of the PRO-411 DACT Programmer which consists of a keypad and display. Refer to Figure 3-1, “Programmer Keypad,” on page 32.

Note that if the 411UDAC is configured to operate as a Slave Communicator, it will attempt to transmit all panel status to a Central Station. If set to operate in the Test Communicator configuration, the 411UDAC will function as a local slave panel only without transmitting panel status to a Central Station.

3.1 Normal Mode

Normal Mode is the standard (default) mode of operation for the 411UDAC. The unit continuously monitors the status of the four input channels as well as the status of the onboard digital communicator. If no activity is detected on the four input channels (no shorts or opens) and the 411UDAC is operating free of internal troubles, the unit will display the following conditions:

 All LEDs are off except the AC Power LED  NAC output is off  Onboard piezo sound er is off  The relays are in their normal deactivated state  Communicator is not transmitting to the Central Station

The 411UDAC transmits system status reports to a central station, if programmed to do so, via the public switched telephone network. T wo supervised telephone line connections are made to interface the digital communicator to the telephone lines. Both telephone lines are supervised by the 411UDAC for proper voltage.

The 411UDAC is capable of line seizure on both the primary and secondary telephone line interfaces. Any time the

digital communicator detects the necessity to call the Central Station, line seizure will disconnect any local premises phones sharing the same telephone line. Sharing of phone lines, for fire systems, must be approved by the Local Authority Having Jurisdiction. All transmissions to the Central Station will be sent over the Primary phone line. In

the event of a noisy or faulty phone line, transmissions will be sent over the backup Secondary phone line.

Transmission options exist to:

• send reports to the secondary phone number as backup only

• send reports to both the primary and secondary phone numbers

• send reports to the first available central station phone number

If 10 total attempts to communicate are unsuccessful, the 411UDAC will turn on the Communication Fail LED.

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Normal Mode

The 411UDAC meets NFPA 72 requirements for Remote Station Protective Signaling Service and Central Station Signaling Service reporting requirements for: (a) the type of signal, (b) condition and (c) location of the reporting premises. See “Central Station Communications” on page 55, for additional information.

The 411UDAC can be switched from Normal Mode to any other Mode, provided no channel programmed for fire alarm or fire supervisory is active, that is, in alarm (shorted). The PRO-411 DACT Programmer, for use with the Fire•Watch 411 Series, must be connected to the 411UDAC in order to change from mode to mode.

3.1.1 Programmer Key Functions

FIGURE 3-1:Programmer Keypad

PR411KEY.CDR

Select operating mode

Increment memory address Address entry keys are 0 to 9 Data entry keys are 0 to 9 and A to F

Decrement memory address

One press = first memory address

Two presses = type any address

Save data, go to next address

MODE KEY

Pressing the MODE key followed by a valid 4-digit numerical code and the [ENTER/STORE] key selects one of the five modes of operation. To enter Normal Mode from any other mode, press the MODE key followed by

6676 and then [ENTER/STORE].

6676 spells NORM on a Touch-Tone® phone.



If an incorrect key is entered, reenter the proper 4-digit code before

pressing the [ENTER/STORE] key . Note that as

information is entered into the 411UDAC, the digits will scroll across the Programmer display from right to left.

___6 __66 _667 6676

A pause of up to 10 seconds between each number is allowed while entering the code.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Normal Mode

LAMP TEST KEY

Pressing the Lamp Test key on the Programmer , while the digital communicator is in Normal Mode, will cause the front panel LEDs and all segments of the four 7-segment display on the 411UDAC to light. A Lamp Test can only be performed in Normal Mode. The Lamp Test key can also be used in Troubleshoot Mode to view the 12 volt resettable power value.

1st EVENT KEY

This key, along with the UP and DOWN arrow keys, are used only in Program Mode. Press the 1st EVENT key at any time to display the first program memory address and its content. The following may be displayed on the Programmer:

00_F

(address)

(data)

If the 1st EVENT key is pressed a second time, the following will be displayed on the Programmer display:

Digit to be programmed

The contents of any address can be viewed by entering the digits of the desired address. For example, to view the contents of address 86, press the '8' key on the keypad. '8' will appear as the first digit in the display, a blank will appear in the position of the second digit and the decimal point will move one position to the right, indicating that the next digit can now be entered.

8_.

Digit to be programmed

Press the '6' key on the keypad. '6' will appear as the second digit on the display and the decimal point will move one position to the right. Press the [ENTER/STORE] to view the contents of address 86.

86_.

DOWN ARROW

Use the DOWN arrow key to decrement the memory address and view its content.

UP ARROW

Use the UP arrow key to increment the memory address and view its content.

[ENTER/STORE]

Stores entry into nonvolatile E

memory located on the 411UDAC printed circuit board, then increments to the

next higher address.

3.1.2 Programmer Display

Four 7-segment red LED characters provide visual display of information in the various modes of operation.

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Real Time Clock Mode

3.2 Real Time Clock Mode

Real Time Clock Mode is entered by pressing the MODE key followed by the 4-digit entry code 2525 and pressing the [ENTER/STORE] key.

2525 spells CLCK on a Touch-Tone



phone.

If an incorrect key is entered, reenter the proper 4-digit code before

pressing the [ENTER/STORE] key . Note that as

information is entered into the 411UDAC, the digits will scroll across the Programmer display from right to left.

___2 __25 _252 2525

A pause of up to 10 seconds between each number is allowed while entering the code. After pressing the [ENTER/ STORE] key, the 411UDAC will be in Real Time Clock Mode. A maximum of 10 minutes idle time is allowed at

this point before beginning program entries and between each key stroke, otherwise, the 411UDAC will return to Normal Mode. Note that the time is not stored until the fourth and final digit is selected and the [ENTER/STORE] key is pressed. If the 411UDAC returns to Normal Mode prior to entering the fourth digit, no changes will be stored and the original time is retained.

On entering Real Time Clock Mode, 0.001 will appear on the Programmer display:

0.001

Digit to be programmed

The time is displayed in military time. Note the position of the decimal point in the display. This indicates that the first digit to be programmed is the one to the left of the decimal point. To program the first hour digit, press the corresponding number on the Programmer keypad and then press the [ENTER/STORE] key. For example, to program 2:00 PM (1400 in military time), press '1' on the keypad and th en the [ENTER/STORE] key. The number '1' will appear as the far left digit and the decimal point will move one position to the right indicating that the second digit from the left is now ready for programming.

10.01

Digit to be programmed

Enter the second hour digit (4 in this example) and press the [ENTER/STORE] key. The number '4' will appear as the digit second from the left and the decimal point will move one position to the right indicating that the third digit from the left is now ready for programming.

140.1

Digit to be programmed

Enter the first minute digit (0 in this example) and press the [ENTER/STORE] key. The number '0' will appear as the digit third from the left and the decimal point will move one position to the right indicating that the fourth digit from the left is now ready for programming.

1400.

Digit to be programmed

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

Enter the second minute digit (0 in this example) and press the [ENTER/STORE] key . The number '0' will appear as the digit fourth from the left. Following the entry of the fourth and final digit, the operating mo de will immediately switch to Normal Mode, indicating that programming of the time is now comp leted.

T o exit Real Time Clock Mode before completing clock programm ing, pr ess the MODE key, followed by the 4-digit code for an alternate mode and then the [ENTER/STORE] key. During Real T ime Clock Mode, if no key is pressed within 10 minutes, the 411UDAC will revert to Normal Mode.

Note that upon power-up, the internal clock starts running at 00:01 midnight. It must be changed so that the 411UDAC can accurately call in test signals to the Central Station. Upon power loss or on entering Default Mode, the clock reverts to 00:01 midnight and must be reset.

3.3 Program Mode

NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION

AND OTHER INVOLVED PARTIES

This product incorporates field-programmable software. In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited to specific values or not used at all as indicated below:

Program feature

or option

Trouble Call Limit N

Permitted in

UL 864? (Y/N)

Possible settings

Program Address 96 = 0 (factory default): unlimited calling to Central Station for any trouble condition

Program Address 96 = 1: limits call for each unique trouble to 10 within a 24 hour period

Settings permitted

in UL 864

Program Address 96 = 0 for unlimited Central Station trouble calls

All programming selections made during Program Mode are stored in nonvolatile Electrically-Erasable Programmable Read-only Memory (EEPROM). This ensures that the 411UDAC will retain all entries made in Programming Mode even if power is removed.

The user must program the primary and secondary phone numbers, account nu mbers, 24-hour test report times and verify event codes for each Central Station account. The 411UDAC is shipped with the program options/features already factory programmed. Alternative options/features may be programmed if desired. If all factory default settings are acceptable, programming is complete.

Program Mode is entered by pressing the MODE key followed by the 4-digit program mode entry code 7764 and pressing the [ENTER/STORE] key.

7764 spells PROG on a Touch-Tone



If an incorrect key is entered, reenter the proper 4-digit code before

phone.

pressing the [ENTER/STORE] key . Note that as

information is entered into the 411UDAC, the digits will scroll across the Programmer display from right to left.

___7 __77 _776 7764

A pause of up to 10 seconds between each number is allowed while entering the code. After pressing the [ENTER/ STORE] key, the 411UDAC will be in Program Mode. A maximum of 10 minutes idle time is allowed at this point

before beginning program entries and between each key stroke, otherwise, the unit will return to Normal Mode. All entries made prior to the 10 minute time-out are valid and are stored.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 35

Program Mode

Once in Program Mode, the 411UDAC will:

 Light the DACT Trouble LED  Activate Relay if programmed for DACT trouble  Ignore all other keys other than those mentioned in this section  Display 00_F on the Programmer display  Continue to communicate any events not previously acknowledged at a central station prio r to entering

Programming Mode

 Communicate an 'Off Normal' event to the Central Station  Turn off piezo

While in Program Mode, the first three locations on the left of the Programmer display represent the memory address and the last location (farthest right) represents the contents of the memory address. The first address displayed is shown below:

00_F

(address)

(data)

Certain program items will be locked from editing if the communicator is active (dialing, transmitting, etc.). These programming locations are ‘00-19’ Primary Central Station Phone Number, ‘20’ Primary Central Station Communications Format, ‘21-24’ Primary Central Station Account Code, ‘30-49’ Secondary Central Station Phone Number, ‘50’ Secondary Central Station Communications Format, ‘51-54’ Secondary Central Station Account Code, ‘61’ Central Station Backup Reporting and ‘145-end’ Event Codes.

To unlock these locations, either wait until the com mun icato r stops transmitting or disable the communicator via address location 64 by changing the content of this address to ‘0.’

When desired changes have been completed, exit Programming Mode by pressing the MODE key, followed by the 4-digit code for an alternate mode and then the [ENTER/STORE] key. During Program Mode, if no key is pressed within 10 minutes, the unit will revert to Normal Mode.

The Programmer cable should not be removed from the 411UDAC unless the unit is in Normal Mode. If the Programmer cable is removed while the 411UDAC is in a Mode other than Normal Mode, the communicator will automatically revert to Normal Mode following a 10 minute Troubleshoot Mode when the cable is removed, the 411UDAC will revert to Normal Mode following a 20 minute

time-out period. Note that if the Programmer is in

time-out period.

3.3.1 DACT Programming

Primary Central Station Phone Number (00 - 19)

The first twenty addresses (00 - 19) are factory set to 'F' (00_F to 19_F). Programming is done as follows:

 If your phone number is 484-7161, press 4.  The display will read 00_4.  Press [ENTER/STORE] to save the entry to memory and increment to the next address 01_F.  Enter the remaining numbers in their respective addresses as shown below:

Entry

4 8 4 7 1 6 1 F F F F F F F F F F F F F

ddress

00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19

Valid entries for both the primary and secondary phone numbers are 0 to 9 and A to F with the numeric digits as dialed numbers and the hexadecimal digits representing the following functions:

• A = * on a Touch-Tone phone keypad

• B = # on a Touch-Tone phone keypad

• C = look for secondary dial tone for up to two seconds (then dial anyway)

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

• D = three second pause

• E = five second pause

• F = end of phone number (Note: F must remain in all unused phone number addresses)

If the first digit of the Primary Central Station Phone Number remains ‘F’ and the digital communicator is enabled for transmission to a Central Station, a primary phone number fault will be generated. The phone number must begin with a digit other than ‘F.’

New FCC regulations allow extra digits to the CIC (Carrier ID Code), to identify the long distance carrier. The expanded phone number field of 20 digits facilitates this function. Simply enter the digits required by the telephone company if desired.

Primary Central Station Number Communication Format (20)

One location is needed to select the Communication Format to the primary phone number. Address 20 is used for this purpose. The factory default setting for this address is 'E', which is Contact ID Format. You may enter '0' through 'D' in place of the default, then press [ENTER/STORE]. Choose from the list of formats below:

0: 4+1 Ademco Express Standard, DTMF, 1400/2300 ACK 1: 4+2 Ademco Express Standard, DTMF, 1400/2300 ACK 2: 3+1 Standard 1800 Hz Carrier, 2300 Hz ACK 3: 3+1 Expanded 1800 Hz Carrier, 2300 Hz ACK 4: 3+1 Standard 1900 Hz Carrier, 1400 Hz ACK 5: 3+1 Expanded 1900 Hz Carrier, 1400 Hz ACK 6: 4+1 Standard 1800 Hz Carrier, 2300 Hz ACK 7: 4+1 Expanded 1800 Hz Carrier, 2300 Hz ACK 8: 4+1 Standard 1900 Hz Carrier, 1400 Hz ACK 9: 4+1 Expanded 1900 Hz Carrier, 1400 Hz ACK A: 4+2 Standard 1800 Hz Carrier, 2300 Hz ACK B: 4+2 Expanded 1800 Hz Carrier, 2300 Hz ACK C: 4+2 Standard 1900 Hz Carrier, 1400 Hz ACK D: 4+2 Expanded 1900 Hz Carrier, 1400 Hz ACK E: Contact ID, DTMF, 1400/2300 ACK F: Future use

Consult the Central Station for proper Format selection. For any Format chosen, all event codes are automatically programmed by the 41 1UDAC. Refer to Table 3-2, “4+2 Standar d and 4+2 Expr ess Formats - Primary,” on page 40, Table 3-3, “All 3+1, 4+1 and 4+2 Expanded Formats - Primary,” on page 41 and Table 3-1, “Ademco Contact ID Format - Primary,” on page 39.

Event Codes - Setting Entries

The Format selected in address 20 will cause the 411UDAC to automatically program addresses 145 - 228 with the factory default settings. Any of the Event Code settings may be altered. Consult your Central Station prior to altering the event code settings. An entry of all zeros for any event code will cause the communicator to NOT

transmit the

report. Transmission of reports to either or both Central Station phone numbers may be disabled.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 37

Program Mode

Upon accessing the first event code address (address 145) shown in Table 3-2 , the following may be displayed on the Programmer 7-Segment Display, if the corresponding Format was selected in address 20.

1451

(address)

(data)

The first three locations on the left of the Programmer displ ay represent the memory address 145 of the Format previously selected in address 20. The last location 1 (farthest right) represents the contents of memory address 145 (which is the first digit of the event code).

The following T ables list the data which is automatically programmed for each Format that can be selected in address

20. The addresses shown in each Table contain the Setting data which is automatically programmed by the 411UDAC. To change the value, key in the new digit and then press the [ENTER/STORE] key to save the new value. Use the Up and Down Arrow keys to increment to the next address or decrement to the previous address.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

Ademco Contact ID Format Primary Central Station Event Codes

If 'E' is entered for address 20, the following data is automatically programmed for the Primary Central Station phone number event codes. Enter '000' for the Setting to disable the report to the Central Station. The Channel # is not programmable.

TABLE 3-1: Ademco Contact ID Format - Primary

Channel/

Address Description Setting

145 - 147 Primary # Input Channel 1 Active Event Code 111 001 148 - 150 Primary # Input Channel 2 Active Event Code 115 002 151 - 153 Primary # Input Channel 3 Active Event Code 111 003 154 - 156 Primary # Input Channel 4 Active Event Code 115 004 157 - 159 Primary # Input Channel 1 Fault Event Code 380 001 160 - 162 Primary # Input Channel 2 Fault Event Code 380 002 163 - 165 Primary # Input Channel 3 Fault Event Code 380 003 166 - 168 Primary # Input Channel 4 Fault Event Code 380 004 169 - 171 Primary # AC Voltage Fault Event Code 301 000 172 - 174 Primary # Earth Fault Event Code 310 000

175 -177 Primary # Low Battery Fault Event Code 302 000 178 - 180 Primary # No Battery Fault Event Code 311 000 181 - 183 Primary # Phone Line 1 Voltage Fault Event Code 351 000 184 - 186 Primary # Phone Line 2 Voltage Fault Event Code 352 000 187 - 189 Primary # NAC Fault Event Code 321 000 190 - 192 Primary # Charger Fault Event Code 300 000 193 - 195 Primary # Phone Number 1 Communication Fault Event Code 354 001 196 - 198 Primary # Phone Number 2 Communication Fault Event Code 354 002 199 - 201 Primary # System Off Normal Fault Event Code 308 000 202 - 204 Primary # System Test Message 602 000 205 - 207 Primary # System Abnormal Test Message 608 000 208 - 210 Primary # Upload/Download Request Code 411 000

211 - 213 Primary # Upload Successful Code 416 000 214 - 216 Primary # Download Successful Code 412 000 217 - 219 Primary # Upload/Download Failed Code 413 000

Input #

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 39

Program Mode

4+2 Standard and 4+2 Express Formats Primary Central Station Event Codes

If ‘1, A or C’ is entered for address 20, the following data is automatically programmed for the Primary Central Station phone number event codes. Enter '00' for the Setting to disable the report to the Central Station.

TABLE 3-2: 4+2 Standard and 4+2 Express Formats - Primary

Address Description Setting

145 - 146 Primary # Input Channel 1 Active Event Code 11 147 - 148 Primary # Input Channel 2 Active Event Code 12 149 - 150 Primary # Input Channel 3 Active Event Code 13 151 - 152 Primary # Input Channel 4 Active Event Code 14 153 - 154 Primary # Input Channel 1 Fault Event Code F1 155 - 156 Primary # Input Channel 2 Fault Event Code F2 157 - 158 Primary # Input Channel 3 Fault Event Code F3 159 - 160 Primary # Input Channel 4 Fault Event Code F4 161 - 162 Primary # AC Fault Event Code 92 163 - 164 Primary # Earth Fault Event Code 61 165 - 166 Primary # Low Battery Fault Event Code 62 167 - 168 Primary # No Battery Fault Event Code 63 169 - 170 Primary # Phone Line 1 Voltage Fault Event Code 64 171 - 172 Primary # Phone Line 2 Voltage Fault Event Code 65 173 - 174 Primary # NAC Fault Event Code 66 175 - 176 Primary # Charger Fault Event Code 47 177 - 178 Primary # Phone Number 1 Communication Fault Event Code 6A 179 - 180 Primary # Phone Number 2 Communication Fault Event Code 6B 181 - 182 Primary # System Off Normal Fault Event Code 6F 183 - 184 Primary # Input Channel 1 Active Restore Code E1 185 - 186 Primary # Input Channel 2 Active Restore Code E2 187 - 188 Primary # Input Channel 3 Active Restore Code E3 189 - 190 Primary # Input Channel 4 Active Restore Code E4 191 - 192 Primary # Input Channel 1 Fault Restore Code D1 193 - 194 Primary # Input Channel 2 Fault Restore Code D2 195 - 196 Primary # Input Channel 3 Fault Restore Code D3 197 - 198 Primary # Input Channel 4 Fault Restore Code D4 199 - 200 Primary # AC Voltage Fault Restore Code 93 201 - 202 Primary # Earth Fault Restore Code A1 203 - 204 Primary # Low Battery Fault Restore Code A2 205 - 206 Primary # No Battery Fault Restore Code A3 207 - 208 Primary # Phone Line 1 Voltage Fault Restore Code A4 209 - 210 Primary # Phone Line 2 Voltage Fault Restore Code A5 211 - 212 Primary # NAC Fault Restore Code A6 213 - 214 Primary # Charger Fault Restore Code 57 215 - 216 Primary # Phone Number 1 Communication Fault Restore Code AA 217 - 218 Primary # Phone Number 2 Communication Fault Restore Code AB 219 - 220 Primary # System Off Normal Restore Code AF 221 - 222 Primary # System Test Message 99 223 - 224 Primary # System Abnormal Test Message 91 225 - 226 Primary # Upload/Download Request Code 71 227 - 228 Primary # Upload Successful Code 72 229 - 230 Primary # Download Successful Code 73 231 - 232 Primary # Upload/Download Failed Code 74

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

All 3+1, 4+1 and 4+2 Expanded Formats Primary Central Station Event Codes

If ‘0, 2, 3, 4, 5, 6, 7, 8 ,9, B or D’ is entered for address 20, the following data is automatically programmed for the Primary Central Station phone number event codes. Enter '0' for the Setting to disable the report to the Central Station.

TABLE 3-3: All 3+1, 4+1 and 4+2 Expanded Formats - Primary

Address Description Setting

145 Primary # Input Channel 1 Active Event Code 1 146 Primary # Input Channel 2 Active Event Code 1 147 Primary # Input Channel 3 Active Event Code 1 148 Primary # Input Channel 4 Active Event Code 1 149 Primary # Input Channel 1 Fault Event Code F 150 Primary # Input Channel 2 Fault Event Code F 151 Primary # Input Channel 3 Fault Event Code F 152 Primary # Input Channel 4 Fault Event Code F 153 Primary # AC Power Fault Event Code 9 154 Primary # Earth Fault Event Code 6 155 Primary # Low Battery Fault Event Code 6 156 Primary # No Battery Fault Event Code 6 157 Primary # Phone Line 1 Voltage Fault Event Code 6 158 Primary # Phone Line 2 Voltage Fault Event Code 6 159 Primary # NAC Fault Event Code 6 160 Primary # Charger Fault Event Code 4 161 Primary # Phone Number 1 Communication Fault Event Code 6 162 Primary # Phone Number 2 Communication Fault Event Code 6 163 Primary # System Off Normal Fault Code 6 164 Primary # Input Channel 1 Active Restore Code E 165 Primary # Input Channel 2 Active Restore Code E 166 Primary # Input Channel 3 Active Restore Code E 167 Primary # Input Channel 4 Active Restore Code E 168 Primary # Input Channel 1 Fault Restore Code D 169 Primary # Input Channel 2 Fault Restore Code D 170 Primary # Input Channel 3 Fault Restore Code D 171 Primary # Input Channel 4 Fault Restore Code D 172 Primary # AC Voltage Fault Restore Code 9 173 Primary # Earth Fault Restore Code A 174 Primary # Low Battery Fault Restore Code A 175 Primary # No Battery Fault Restore Code A 176 Primary # Phone Line 1 Voltage Fault Restore Code A 177 Primary # Phone Line 2 Voltage Fault Restore Code A 178 Primary # NAC Fault Restore Code A 179 Primary # Charger Fault Restore Code 180 Primary # Phone Number 1 Communication Fault Restore Code A 181 Primary # Phone Number 2 Communication FAult Restore Code A 182 Primary # System Off Normal Restore Code A 183 Primary # System Test Message 9 184 Primary # System Abnormal Test Message 185 Primary # Upload/Download Request Code 7 186 Primary # Upload Successful Code 7 187 Primary # Download Successful Code 7 188 Primary # Upload/Download Failed Code 7

Note: For Formats ‘B’ and ‘D’, this address is defaulted to ‘9’ instead of ‘F.’

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 41

Program Mode

Primary Central Station Number Account Code (21 - 24)

The four locations at addresses 21 - 24 default to all '0's. Valid entries are 0 - 9 and A - F. The number of digits entered must match the format selection. If programming '2, 3, 4 or 5' into address 20, enter three digits (one digit each in locations 21, 22 and 23 - location 24 is ignored). If programming '0, 1, 6, 7, 8, 9, A, B, C, D or E' into address 20, enter four digits (one each in locations 21, 22, 23 and 24).

Primary Central Station Number 24 Hour Test Time (25 - 28)

Use military time when entering the 24 hour 'test' time. The 24 hour test report to phone number 1 takes up four locations, from addresses 25 - 28. The default is 00:00 (12:00 midnight). The limits for each location are as follows (do not use values of A - F as entries).

25: enter 0, 1 or 2 26: enter 0 - 9 27: enter 0 - 5 28: enter 0 - 9

Primary Central Station Number 24/12/8/6 Hour Test Time Interval (29)

The test report sent to the Primary phone number may be sent every 6, 8, 12 or 24 hours. If the message is to be sent every 24 hours, leave the factory default entry of '0'. If other te st rep ort times are needed, enter 1 = 12 hour, 2 = 8 hour or 3 = 6 hour.

Secondary Central Station Phone Number (30 - 49)

Addresses 30 - 49 are factory set to 'F' (30_F to 49_F). Programming is typically done as follows:

 If your phone number is 484-7161, press 4.  The display will read 30_4.  Press [ENTER/STORE] to save the entry to memory and increment to the next address 31_F.  Enter the remaining numbers in their respective addresses as shown below:

Entry

Address

4 8 4 7 1 6 1 F F F F F F F F F F F F F

30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49

Valid entries for both the primary and secondary phone numbers are 0 to 9 and A to F with the numeric digits as dialed numbers and the hexadecimal digits representing the following functions:

• A = * on a Touch-Tone phone keypad

• B = # on a Touch-Tone phone keypad

• C = look for secondary dial tone for up to two seconds (then dial anyway)

• D = three second pause

• E = five second pause

• F = end of phone number (Note: F must remain in all unused phone number addresses)

If the first digit of the Secondary Central Station Phone Number remains ‘F’ and the digital communicator is enabled for transmission to a Central Station, a secondary phone number fault will be generated. The phone number must begin with a digit other than ‘F.’

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

Secondary Central Station Number Communication Format (50)

One location is needed to select the Communication Format to the secondary phone number. Address 50 is used for this purpose. The factory default setting for this address is 'E', which is Contact ID Format. You may enter '0' through 'D' in place of the default, then press [ENTER/STORE]. Choose from the list of formats below:

The Format selected in address 50 will cause the 411UDAC to automatically program addresses 229 - 312 with the factory default settings. Any of the Event Code settings may be altered. Consult your Central Station prior to altering the event code settings. An entry of all zeros for any event code will cause the communicator to NOT

transmit the

report. Transmission of reports to either or both Central Station phone numbers may be disabled.

Refer to “Central Station Communications” on page 55 for information on Format reporting.

Upon accessing the first event code address which is 229 (Refer to Table 3-5, “4+2 Standard and 4+2 Express Formats - Secondary,” on page 45), the following may be displayed on the Programmer’s 7-Segment Display, if the corresponding Format was selected in address 50.

2291

(address)

(data)

The first three locations on the left of the Programmer’s display represent the memory address 229. The last location 1 (farthest right) represents the contents of memory address 229 which is the first digit of the event code.

The following Tables list the data which is automatically programmed for each Format that can be selected in address

50. The addresses shown in each Table contain the event code Setting data which is automatically programmed by the 411UDAC. To change the value, key in the new digits and then press the [ENTER/STORE] key to save the new value. Use the Up and Down Arrow keys to increment to the next address or decrement to the previous address.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 43

Program Mode

Ademco Contact ID Format Secondary Central Station Event Codes

If ‘E’ is entered for address 50, the following data is automatically programmed for the Secondary Central Station phone number event codes. Enter '000' for the Setting to disable the report to the Central Station.

TABLE 3-4: Ademco Contact ID Format - Secondary

Channel/

Address Description Setting

233 - 235 Secondary # Input Channel 1 Active Event Code 111 001 236 - 238 Secondary # Input Channel 2 Active Event Code 115 002 239 - 241 Secondary # Input Channel 3 Active Event Code 111 003 242 - 244 Secondary # Input Channel 4 Active Event Code 115 004 245 - 247 Secondary # Input Channel 1 Fault Event Code 380 001 248 - 250 Secondary # Input Channel 2 Fault Event Code 380 002 251 - 253 Secondary # Input Channel 3 Fault Event Code 380 003 254 - 256 Secondary # Input Channel 4 Fault Event Code 380 004 257 - 259 Secondary # AC Voltage Fault Event Code 301 000 260 - 262 Secondary # Earth Fault Event Code 310 000 263 - 265 Secondary # Low Battery Fault Event Code 302 000 266 - 268 Secondary # No Battery Fault Event Code 311 000 269 - 271 Secondary # Phone Line 1 Voltage Fault Event Code 351 000 272 - 274 Secondary # Phone Line 2 Voltage Fault Event Code 352 000 275 - 277 Secondary # NAC Fault Event Code 321 000 278 - 280 Secondary # Charger Fault Event Code 300 000 281 - 283 Secondary # Phone Number 1 Communication Fault Event Code 354 001 284 - 286 Secondary # Phone Number 2 Communication Fault Event Code 354 002 287 - 289 Secondary # System Off Normal Fault Event Code 308 000 290 - 292 Secondary # System Test Message 602 000 293 - 295 Secondary # System Abnormal Te st Message 608 000 296 - 298 Secondary # Upload/Download Request Code 411 000 299 - 301 Secondary # Upload Successful Code 416 000 302 - 304 Secondary # Download Successful Code 412 000 305 - 307 Secondary # Upload/Download Failed Code 413 000

Input #

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

4+2 Standard and 4+2 Express Formats Secondary Central Station Event Codes

If 1, A or C is entered for address 50, the following data is automatically programmed for the Secondary Central Station phone number event codes. Enter '00' for the Setting to disable the report to the Central Station.

TABLE 3-5: 4+2 Standard and 4+2 Express Formats - Secondary

Address Description Setting

233 - 234 Secondary # Input Channel 1 Active Event Code 11 235 - 236 Secondary # Input Channel 2 Active Event Code 12 237 - 238 Secondary # Input Channel 3 Active Event Code 13 239 - 240 Secondary # Input Channel 4 Active Event Code 14 241 - 242 Secondary # Input Channel 1 Fault Event Code F1 243 - 244 Secondary # Input Channel 2 Fault Event Code F2 245 - 246 Secondary # Input Channel 3 Fault Event Code F3 247 - 248 Secondary # Input Channel 4 Fault Event Code F4 249 - 250 Secondary # AC Fault Event Code 92 251 - 252 Secondary # Earth Fault Event Code 61 253 - 254 Secondary # Low Battery Fault Event Code 62 255 - 256 Secondary # No Battery Fault Event Code 63 257 - 258 Secondary # Phone Line 1 Voltage Fault Event Code 64 259 - 260 Secondary # Phone Line 2 Voltage Fault Event Code 65 261 - 262 Secondary # NAC Fault Event Code 66 263 - 264 Secondary # Charger Fault Event Code 47 265 - 266 Secondary # Phone Number 1 Communication Fault Event Code 6A 267 - 268 Secondary # Phone Number 2 Communication Fault Event Code 6B 269 - 270 Secondary # System Off Normal Fault Event Code 6F 271 - 272 Secondary # Input Channel 1 Active Restore Code E1 273 - 274 Secondary # Input Channel 2 Active Restore Code E2 275 - 276 Secondary # Input Channel 3 Active Restore Code E3 277 - 278 Secondary # Input Channel 4 Active Restore Code E4 279 - 280 Secondary # Input Channel 1 Fault Restore Code D1 281 - 282 Secondary # Input Channel 2 Fault Restore Code D2 283 - 284 Secondary # Input Channel 3 Fault Restore Code D3 285 - 286 Secondary # Input Channel 4 Fault Restore Code D4 287 - 288 Secondary # AC Voltage Fault Restore Code 93 289 - 290 Secondary # Earth Fault Restore Code A1 291 - 292 Secondary # Low Battery Fault Restore Code A2 293 - 294 Secondary # No Battery Fault Restore Code A3 295 - 296 Secondary # Phone Line 1 Voltage Fault Restore Code A4 297 - 298 Secondary # Phone Line 2 Voltage Fault Restore Code A5 299 - 300 Secondary # NAC Fault Restore Code A6 301 - 302 Secondary # Charger Fault Restore Code 57 303 - 304 Secondary # Phone Number 1 Communication Fault Restore Code AA 305 - 306 Secondary # Phone Number 2 Communication Fault Restore Code AB 307 - 308 Secondary # System Off Normal Restore Code AF 309 - 310 Secondary # System Test Message 99

311 - 312 Secondary # System Abnormal Test Message 91 313 - 314 Secondary # Upload/Download Request Code 71 315 - 316 Secondary # Upload Successful Code 72 317 - 318 Secondary # Download Successful Code 73 319 - 320 Secondary # Upload/Download Failed Code 74

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 45

Program Mode

All 3+1, 4+1 and 4+2 Expanded Formats Secondary Central Station Event Codes

If 0, 2, 3, 4, 5, 6, 7, 8 ,9, B or D is entered for address 50, the following data is automatically programmed for the Secondary Central Station phone number event codes. Enter '0' for the Setting to disable the report to the Central Station.

TABLE 3-6: Al l 3+1, 4+ 1 and 4+2 Expanded Fo rmats - Secondary

Address Description Setting

233 Secondary # Input Channel 1 Active Event Code 1 234 Secondary # Input Channel 2 Active Event Code 1 235 Secondary # Input Channel 3 Active Event Code 1 236 Secondary # Input Channel 4 Active Event Code 1 237 Secondary # Input Channel 1 Fault Event Code F 238 Secondary # Input Channel 2 Fault Event Code F 239 Secondary # Input Channel 3 Fault Event Code F 240 Secondary # Input Channel 4 Fault Event Code F 241 Secondary # AC Power Fault Event Code 9 242 Secondary # Earth Fault Event Code 6 243 Secondary # Low Battery Fault Event Code 6 244 Secondary # No Battery Fault Event Code 6 245 Secondary # Phone Line 1 Voltage Fault Event Code 6 246 Secondary # Phone Line 2 Voltage Fault Event Code 6 247 Secondary # NAC Fault Event Code 6 248 Secondary # Charger Fault Event Code 4 249 Secondary # Phone Number 1 Communication Fault Event Code 6 250 Secondary # Phone Number 2 Communication Fault Event Code 6 251 Secondary # System Off Normal Fault Code 6 252 Secondary # Input Channel 1 Active Restore Code E 253 Secondary # Input Channel 2 Active Restore Code E 254 Secondary # Input Channel 3 Active Restore Code E 255 Secondary # Input Channel 4 Active Restore Code E 256 Secondary # Input Channel 1 Fault Restore Code D 257 Secondary # Input Channel 2 Fault Restore Code D 258 Secondary # Input Channel 3 Fault Restore Code D 259 Secondary # Input Channel 4 Fault Restore Code D 260 Secondary # AC Voltage Fault Restore Code 9 261 Secondary # Earth Fault Restore Code A 262 Secondary # Low Battery Fault Restore Code A 263 Secondary # No Battery Fault Restore Code A 264 Secondary # Phone Line 1 Voltage Fault Restore Code A 265 Secondary # Phone Line 2 Voltage Fault Restore Code A 266 Secondary # NAC Fault Restore Code A 267 Secondary # Charger Fault Restore Code 5 268 Secondary # Phone Number 1 Communication Fault Restore Code A 269 Secondary # Phone Number 2 Communication FAult Restore Code A 270 Secondary # System Off Normal Restore Code A 271 Secondary # System Test Message 9 272 Secondary # System Abnormal Test Message 273 Secondary # Upload/Download Request Code 7 274 Secondary # Upload Successful Code 7 275 Secondary # Download Successful Code 7 276 Secondary # Upload/Download Failed Code 7

Note: For Formats ‘B’ and ‘D’, this address is defaulted to ‘9’ instead of ‘F.’

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

Secondary Central Station Number Account Code (51 - 54)

The four locations at addresses 51 - 54 default to all '0's. Valid entries are 0 - 9 and A - F. The number of digits entered must match the format selection. If programming '2, 3, 4 or 5' into address 50, enter three digits (one digit each in locations 51, 52 and 53 - location 54 is ignored). If programming '0, 1, 6, 7, 8, 9, A, B, C, D or E' into address 50, enter four digits (one each in locations 51, 52, 53 and 54).

Secondary Central Station Number 24 Hour Test Time (55 - 58)

Use military time when entering the 24 hour 'test' time. The 24 hour test report to phone number 1 takes up four locations, from addresses 55 - 58. The default is 00:00 (12:00 midnight). The limits for each location are as follows (do not use values of A - F as entries):

55: enter 0, 1 or 2 56: enter 0 - 9 57: enter 0 - 5 58: enter 0 - 9

Secondary Central Station Number 24/12/8/6 Hour Test Time Interval (59)

The test report sent to the Secondary phone number may be sent every 6, 8, 12 or 24 hours. If the message is to be sent every 24 hours, leave the factory default entry of '0'. If other test report times are needed, enter 1 = 12 hour, 2 = 8 hour or 3 = 6 hour.

AC Loss Reporting Delay (60)

Enter a digit of 0 - 9 or A - F corresponding to the number of hours to be delayed in reporting the loss of AC power. The factory default is '2' for 2 hours. The valid entries are '0' = no delay; '1' = 1 hours; '2' = 2 hours; '3' = 6 hours; '4' = 7 hours; '5' = 8 hours; '6' = 9 hours; '7' = 10 hours; '8' = 11 hours; '9' = 12 hours; 'A' = 13 hours; 'B' = 14 hours; 'C' = 15 hours; 'D' = 16 hours; 'E' = 17 hours; 'F' = 18 hours.

Note: UL requires a minimum of 2 hours delay.

Backup Reporting (61)

Leaving address 61 at '0' means that reports will be transmitted to the secondary Central Station phone number only if attempts to communicate to the primary Central Station phone number are unsuccessful. Programming a '1' causes all reports to be transmitted to both the primary and secondary Central Station phone numbers. Programming a '2' causes reports to go to the first available receiver.

CAUTION: Do not alter this entry while the digital communicator is active.

Reserved for Future Use (62)

DACT Trouble Reminder (63)

The factory default entry of '0' in address location 63 disables the trouble reminder feature. Selecting '1' for location 63 will cause a reminding beep (after the Silence switch is pressed) every 15 seconds for active alarms and every two minutes during a DACT trouble condition. The beeps from the onboard piezo sounder will occur until the alarm or DACT fault is cleared. The piezo sounder will begin beeping at a rate of one second On and one second Off after 24 hours unless the DACT fault has been cleared.

Operational Mode Selection (64)

The factory default setting is ‘0’ for latching inputs and the onboard communicator disabled. This prevents the unit from transmitting status information to the Central Station(s).

TABLE 3-7: 411UDAC Operational Modes

Address 64 Setting 411UDAC Operational Mode 411UDAC Function

0 Stand-alone/Communicator Disabled latching inputs/onboard communicator disabled 1 Stand-alone/Communicator Enabled latching inputs/onboard communicator enabled 2 Slave/Communicator Enabled nonlatching inputs/onboard communicator enabled 3 Slave/Communicator Disabled nonlatching inputs/onboard communicator disabled

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 47

Program Mode

Input Channel 1 Function Selection (65)

Factory default for Channel 1 is '0' for activation on fire alarm (2-wire smoke). Enter '1' for pull station; '2' for normally open contact device; '3' for host panel trouble; '4' for fire supervisory; '5' for fire supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.

Input Channel 2 Function Selection (66)

Factory default for Channel 2 is '1' for pull station. Enter '2' for normally open contact device; '3' for host panel trouble; '4' for fire supervisory; '5' for fire supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.

Note that '0' is not a valid entry.

Input Channel 3 Function Selection (67)

Factory default for Channel 3 is '0' for activation on fire alarm (2-wire smoke). Enter '1' for pull station; '2' for normally open contact device; '3' for host panel trouble; '4' for fire supervisory; '5' for fire supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.

Input Channel 4 Function Selection (68)

Factory default for Channel 4 is '1' for pull station. Enter '2' for normally open contact device; '3' for host panel trouble; '4' for fire supervisory; '5' for fire supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.

Note that '0' is not a valid entry.

Input Channel 1 Delay Timer (69 - 71)

The Delay Timer is used to delay digital communicator transmission to a Central Station when the Input Channel is activated. Input Channel 1 Delay Timer is factory set to '000' seconds for no delay. The timer may be programmed for a delay of from 0 to 179 seconds. Inputs programmed for fire alarm, pull station, host control panel

trouble and fire supervisory, must not

be delayed. A delay, therefore, cannot be selected for inputs programmed

for these fire applications. If the input is set for a waterflow function, t he delay timer will als o delay activ ation of

the relay , piezo sounder and LEDs.

Input Channel 2 Delay Timer (72 - 74)

The Delay Timer is used to delay digital communicator transmission to a Central Station when the Input Channel is activated. Input Channel 2 Delay Timer is factory set to '000' seconds for no delay. The timer may be programmed for a delay of from 0 to 179 seconds. Inputs programmed for fire alarm, pull station, host control panel

trouble and fire supervisory, must not

be delayed. A delay, therefore, cannot be selected for inputs programmed

for these fire applications. If the input is set for a waterflow function, t he delay timer will als o delay activ ation of

the relay , piezo sounder and LEDs.

Input Channel 3 Delay Timer (75 - 77)

The Delay Timer is used to delay digital communicator transmission to a Central Station when the Input Channel is activated. Input Channel 3 Delay Timer is factory set to '000' seconds for no delay. The timer may be programmed for a delay of from 0 to 179 seconds. Inputs programmed for fire alarm, pull station, host control panel

trouble and fire supervisory, must not

be delayed. A delay, therefore, cannot be selected for inputs programmed

for these fire applications. If the input is set for a waterflow function, t he delay timer will als o delay activ ation of

the relay , piezo sounder and LEDs.

1. Changing the input function will automatically change the correspond ing Primary and Secondary event codes to reflect the new input function. The Communication Format should be programmed first, followed by the Input Channel Function. See “Events and Default Event Codes” on page 80.

2. This timer does not delay LED or Output Relay activation and is not used for channels programmed as AC Loss circuits.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

Input Channel 4 Delay Timer (78 - 80)

The Delay Timer is used to delay digital communicator transmission to a Central Station when the Input Channel is activated. Input Channel 4 Delay Timer is factory set to '000' seconds for no delay. The timer may be programmed for a delay of from 0 to 179 seconds. Inputs programmed for fire alarm, pull station, host control panel

trouble and fire supervisory, must not

be delayed. A delay, therefore, cannot be selected for inputs programmed

for these fire applications. If the input is set for a waterflow function, the delay timer will also delay activation of

the relay, piezo sounder and LEDs.

Touchtone/Rotary Select for Primary Phone (81)

A '0' programmed in this address by the factory, triggers Touchtone dialing over the primary phone line. Select '1' for rotary dialing.

Make/Break Ratio for Primary Phone (82)

This address is used only if a '1' has been programmed for address 81. The Make/Break ratio is factory set to '0' which is 67/33 ratio, but may be changed to '1' which is 62/38 ratio.

Touchtone/Rotary Select for Secondary Phone (83)

A '0' programmed in this address by the factory, triggers Touchtone dialing over the secondary phone line. Select '1' for rotary dialing.

Make/Break Ratio for Secondary Phone (84)

This address is used only if a '1' has been programmed for address 83. The Make/Break ratio is factory set to '0' which is 67/33 ratio, but may be changed to '1' which is 62/38 ratio.

Output Relay #1 Enable (85)

The factory default setting for Output Relay #1 is '0' for disabled. Enter '1' to enable the relay.

Output Relay #1 Function Selections (86)

The Output Relay can be programmed to activate for any one of six conditions. The factory default for address 86 is '0' for activation on fire alarm. Program a '1' for host panel trouble; '2' for DACT trouble; '3' for latching fire supervisory; '4' for autoresettable fire supervisory; '8' for total communication failure.

Output Relay #2 Enable (87)

The factory default setting for Output Relay #2 is '0' for disabled. Enter '1' to enable the relay.

Output Relay #2 Function Selections (88)

Output Relay #2 can be programmed to activate for any one of six conditions. The factory default for address 88 is '2' for activation on DACT trouble. Program a '0' for activation on fire alarm; '1' for host panel trouble; '3' for latching fire supervisory; '4' for autoresettable fire supervisory; '8' for total communication fail ure.

Reserved for Future Use (89)

Leave default setting of '0'

Reserved for Future Use (90)

Leave default setting of '0'

1. This timer does not delay LED or Output Relay activation and is not used for channels programmed as AC Loss circuits.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 49

Program Mode

Alarm Verification Enable (91)

Alarm verification works only on zones programmed as 2-wire smoke detector zones (i.e. zones 1 and 3). After detecting an alarm, the panel removes power from two-wire smoke zones for 6 seconds, resetting all 2-wire smoke detectors. Power is reapplied and a 12 second retard period allows detectors to stabilize. During the retard/reset period of 18 seconds, subsequent alarms by the same initiating zone are ignored. An alarm detected on any other 2-wire detector zone during the retard period will cause immediate verified alarms. A subsequent alarm on the initiating zone occurring within the confirmation time will cause a verified alarm. Note: Mixing devices on zones

designated as 2-wire smoke zones is not recommended. The communicator will not transmit a signal to the Central Station signifying that alarm verification is in progress.

During the alarm verification period, access to other modes of operation is prevented.

FIGURE 3-2:Verification Timing Diagram

0 Sec.

Detector Alarm Verification

Detector Zone Goes Into Alarm

Different Detector Zone Alarm

6 Sec.

RESET RETARD

Alarm Ignored Panel Processes Alarm if Same Detector Zone is Still in Alarm

18 Sec.

ALARM VERIFICATION PERIOD

60 SECOND CONFIRMATION TIME

Panel Immediately Processes Alarm

Factory Default is no verification which is an entry of '0'. Entering '1' enables verification. Alarm Verification is ignored if the 411UDAC is configured for nonlatching Slave Communicator operation or Test Mode.

Note: consult local Authority Having Jurisdiction (AHJ) prior to altering this address.

Silence Inhibit Notification Appliance Circuit (92)

Setting address 92 to '1' prevents the silencing or resetting of the Notification Appliance Circuit for one minute following an alarm. The factory default setting is '0' for no silence inhibit.

Autosilence Notification Appliance Circuit (93)

The Notification Appliance Circuit may be autosilenced after a programmed time interval between 5 and 30 minutes. Enter '1' for 5 minute autosilence; '2' for 10 minutes; '3' for 15 minutes; '4' for 20 minutes; '5' for 25 minutes; '6' for 30 minutes. The factory default is '0' for no autosilence.

78 Sec.

Restoral Method (94)

Note: Restoral Method refers to the communication of Restoral Events to a Central Station. It has no effect on the actual input circuit restoral itself.

• Typical Restoral Method - ‘0’ entry programs the panel to transmit each input circuit restoral, as it occurs, to the Central Station. In Slave Mode, this means that as soon as an input restores, the communicator will immediately transmit the Restoral Event to the Central Station. In Stand-alone Mode, the restoral of inputs programmed as Autoresettable Supervisory will also cause the communicator to transmit a Restoral Event immediately. All other input types in Stand-alone Mode are latching and their restoral will not communicate a Restoral Event until the Reset Switch is pressed.

• Conditional Restoral Method #1 - ‘1’ entry programs the panel to transmit each input circuit restoral, as it occurs, to the Central Station. In Slave Mode, this means that as soon as an input restores, the communicator will immediately transmit the Restoral Event to the Central Station. In Stand-alone Mode, the restoral of inputs programmed as Autoresettable Supervisory will also cause the communicator to transmit a Restoral Event immediately. All other input types in Stand-alone Mode are latching and the communication of their Restoral Events are dependent upon an after-reset condition.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Program Mode

The input circuit must be physically clear of an input short upon completion of the reset period. If, and only if, the input circuit is normal (clear of an input short) after the reset period will the communicator transmit a Restoral Event to the Central Station. If the input circuit remains active after the reset period, no transmission will take place.

• Conditional Restoral Method #2 - ‘2’ entry programs the panel to transmit each input circuit restoral if, and only if, all input circuits are normal (clear of an input short). In Slave Mode, this means that as soon as all input circuits are restored, the communicator will transmit the Restoral Event(s) to the Central Station. In Stand-alone Mode, the restoral of inputs programmed as either Autoresettable Supervisory will cause the

communicator to transmit a Restoral Event if, and only if, all input circuits are normal

. All other input types in Stand-alone Mode are latching and the communication of their Restoral Events are dependent upon an after-reset condition. If, and only if, all input circuits are normal (clear of an input short) after the reset period will the communicator transmit a Restoral Event(s) to the Central Station. If any input circuit remains active after the reset period, no transmission will take place, even if other input circuits are truly restored.

T able 3-8 describes the events that would take place after the reset period, according to each unique Communicator Restoral Method. It is assumed that an input circuit is active before reset.

TABLE 3-8: Restoral Methods

Input Circuit

After Reset Typical Restoral Method

All local annunciation of the active event stops. The short is rediscovered after reset period and local annunciation begins

SHORTED

again.

The panel communicates:

1. A Restoral Event

2. An Active Event

Conditional Restoral

Method #1

All local annunciation of the active event stops. The short is rediscovered after reset period and local annunciation begins

again. The panel communicates

nothing because this input is still in an active state after reset.

Conditional Restoral

Method #2

All local annunciation of the active event stops. The short is rediscovered after reset period and local annunciation begins

again. The panel communicates

nothing because an input (can be any input) is still in an active state after reset.

All local annunciation of the active event stops. The circuit is found to be in a normal state.

If, and only if, all

input circuits are found to be in a normal state will the panel

communicate:

1. A Restoral Event

NOT SHORTED

All local annunciation of the active event stops. The circuit is found to be in a normal state.

The panel communicates:

1. A Restoral Event

All local annunciation of the active event stops. The circuit is found to be in a normal state.

The panel communicates:

1. A Restoral Event Otherwise, the panel will

communicate nothing.

Table Notes:

1. Local annunciation is dependent upon input circuit function. Inputs programmed as wa terflow devices will not annunciate until the waterflow retard period has expired. Inputs programmed as 2-wire smoke devices, with the Alarm Verification feature enabled, will not annunciate until the alarm is verified.

2. Inputs programmed with a delay will not communicate the Active Event until the delay period has expired.

Coding, Notification Appliance Circuit (95)

Coding of the Notification Appliance Circuit is selectable as ‘0’ for no coding (steady) or ‘1’ for Temporal (½ second On, ½ second Off, ½ second On, ½ second Off, ½ second On, 1½ second Off). Factory default is ‘0’ for no coding (steady). Note that this NAC should only be used to supplement host panel NACs.

1. Latching input circuits will never restore in Stand-alon e Mode until the Reset Switch is pressed. If both an Autoresettable input circuit and a Latching input circuit are activated and subsequently cleared, only the Autoresettable input circuit will restore, but no transmission will occur to the Central Station since there is still an input circuit active (the Latching input circuit).

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 51

Program Mode

Trouble Call Limit - Dialer Runaway Prevention (96)

Factory default setting of '0' in address 96, allows the digital communicator to call the Central Station each time any DACT trouble and any active Channel programmed for host panel trouble is detected by the 411UDAC. Programming a '1' in this address enables the Trouble Call Limit feature, which limits the number of 411UDAC and Input Channel Trouble calls to the Central Station to 10 calls for each unique trouble event within a 24 hour period. Separate limit counters keep track of each unique type of trouble (e.g. open input channel). To clear the limit counters, disable and then enable this location. Note that the number of phone line (communicati on) faults called to the Central Station are not limited by this feature. No subsequent restoral message is sent to the Central Station(s) for a particular trouble whose limit of 10 calls has been reached. Local DACT annunciation will still track the particular trouble and restoral.

Panel Identification Number (97 - 100)

The Panel Identification Number is a 4-digit code (valid digits are 0 to F) that is used to identify the installed panel. It is important to program this 4-digit code at the jobsite the first time that downloading is performed so that the called Service Terminal can identify the panel. The Factory default is '0000'. (Future Use).

Service Terminal 1 Phone Number (101 - 120)

Addresses 100 - 119 are reserved for the Service Terminal Number 1 phone number. Factory default is all 'F's. Valid entries are 0 - 9 plus A, B, C, D and E. Use 'F' to designate the end of the phone number. See “Remote Site Upload/Download” on page 61 for additional information.

Ring Count on Primary Phone Line (121 - 122)

Use this address to designate the number of rings allowed on the primary phone line prior to answering an incoming call from the Service Terminal. Factory default is '3' meaning the communicator will not answer an incoming call until 3 rings are detected. This entry may be programmed up to a maximum of '25' rings. A setting of '00' prevents the communicator from answering incoming calls.

FAX/Answer Machine, Primary Phone Line (123)

This entry is used when the primary phone line is being shared with a FAX, answering machine or other device. Factory default is '0' for no sharing of the primary phone line. An entry of '1' indicates that another device is sharing the primary phone line. The communicator will wait for three consecutive calls from the Service Terminal spaced 30 seconds apart, before responding. Sharing of phone lines requires the prior approval of the AHJ (Authority Having Jurisdiction).

Service Terminal 2 Phone Number (124 - 143)

Addresses 123 - 142 are reserved for the Service Terminal Number 2 phone number. Factory default is all 'F's. Valid entries are 0 - 9 plus A, B, C, D and E. Use 'F' to designate the end of the phone number. See “Remote Site Upload/Download” on page 61 for additional information.

Upload/Download Reports Sent to Secondary Central Station Phone #, Backup or Always (144)

Leaving address 144 programmed to the factory default setting of '0' means that reports for request for 'upload/ download' and 'failed upload/download' will be sent to the secondary Central Station phone number only if attempts to the primary Central Station phone number are unsuccessful. Programming a '1' causes all reports to be transmitted to both primary and secondary phone numbers. Programming a '2' causes reports to be sent to the first available receiver.

CAUTION: Do not alter entry while the communicator is active.

Programming Event Code Settings (145 - 312)

Event Code Settings, corresponding to the Formats selected for the Primary Central Station phone number in address 20 and the Secondary Central Station phone number in address 50, are automatically set to factory default values. Refer to Table 3-2, “4+2 Standard and 4+2 Express Formats - Primary,” on page 40, Table 3-3, “All 3+1, 4+1 and 4+2 Expanded Formats - Primary,” on page 41 and Ta ble 3-1, “Ademco Contact ID Format - Primary,” on page 39 for format designated by address 20. Refer to Table 3-5, “4+2 Standard and 4+2 Express Formats Secondary,” on page 45, Table 3-6, “All 3+1, 4+1 and 4+2 Expanded Formats - Secondary,” on page 46 and Table 3-4, “Ademco Contact ID Format - Secondary,” on page 44 for format designated by address 50. The Event Code Settings can be altered. Consult your Central Station prior to changing the event code settings.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Default Mode

3.4 Default Mode

To return all program entries, including the upload/ download secret password and time, to their factory original settings, perform the following steps only when the system is idle (i.e. the communicator is not active) and there are no active fire alarms or fire supervisories in the system:

Press the MODE key followed by the 4-digit code 3337 and press the [ENTER/STORE] key.

3337 spells DEFP (DEFault Programming) on a Touch-Tone



If an incorrect key is entered, reenter the proper 4-digit code before

pressing the [ENTER/STORE] key. Within

phone.

five seconds, repeat this entry by again pressing the MODE key followed by the 4-digit code 3337 and pressing the [ENTER/STORE] key. The display will read 3337 while the E

nonvolatile memory (storage area for all programming options) is being reprogrammed with the original default settings. When reprogramming is complete, the display will be blank.

3.5 Troubleshoot Mode

In this mode, system voltages may be displayed on the 4-character display of the PRO-411. An internal voltmeter measures the voltage present at the channel/inputs, AC power input, battery terminal leads, Notification Appliance Circuit and resettable 24 volt power. A lack of keyboard activity for a period of 20 minutes will cause the panel to return to Normal Mode.

T o access the T roubleshoot Mode, press the MODE key followed by the digits 8768 and then the [ENTER/STORE] key.

 8768 spells TROU on a Touch-Tone

phone.

Once in this mode, the 411UDAC will continue to communicate any events not yet acknowledged at a central station prior

to entering Troubleshoot Mode. The UP arrow, DOWN arrow and 1st EVENT keys do not function in this

mode.

All status displays in Troubleshoot Mode are shown in real-time, which means the display will update automatically as the status changes. The one exception is the battery voltage which requires pressing the [ENTER/STORE] key to update the display.

Channel/Inputs

Pressing 1 through 4 followed by the [ENTER/STORE] key on the PRO-411 displays the input status of the selected channel. Listed below are the status display and corresponding nominal threshold voltages, as measured across B+ and B-, for each zone:

Channel # Normal w/E.O.L. Shorted Open Circuit

1 through 4 (status) nAF 1 and 3 (voltage) 11.5V 0V 12.0V 2 and 4 (voltage) 5.0V 0V 12.0V

Where n = normal, A = active and F = fault (or open).

AC Line

Pressing A followed by the [ENTER/STORE] key will display the AC input voltage as shown below. The following lists the AC line voltage range. The AC Power LED will turn off and the trouble LED will turn on when the AC line voltage drops below the Low Line threshold.

AC Line Voltage Low Line Normal High Line

102 VAC 115 VAC 132 VAC

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 53

Troubleshoot Mode

Battery

Pressing B followed by the [ENTER/STORE] key will display the battery voltage. Note that the battery voltage display does not automatically update with a change in battery voltage. The [ENTER/STORE] key must be pressed each time a display update is desired. Shown below are the critical battery threshold conditions:

Battery Voltage Normal Low Battery No Battery

13.7 VDC 10.4 VDC 8.0 VDC

Battery Charger

Pressing 0 followed by the [ENTER/STORE] key will display the battery charger voltage.

Charger Voltage Average Low Voltage High Voltage

13.8 VDC 12.1 VDC 14.6 VDC

12 Volt Resettable Power

Pressing the Lamp Test switch will display the Resettable Power voltage.

Notification Appliance Circuit

Pressing 8 followed by the [ENTER/STORE] key will display the status of the Notification Appliance Circuit. Listed below are the status display and corresponding nominal threshold voltages for the NAC measured across B+ and B-:

NAC Normal w/E.O.L. Shorted Open Circuit

status nSO voltage -1.0V 0V -5.5V

Where n = normal, S = shorted and O = open.

Telephone Line Testing

Pressing C for touchtone dialing or D for rotary dialing, followed by [ENTER/STORE] causes seizure of the Primary phone line. After a delay of three seconds, the 411UDAC goes off-hook to acquire a dial tone.

The Programmer keypad may be used as a telephone touchpad for number dialing. Once the first digit is pressed, the display will move the C or D character one position to the left, while placing the digit to be dialed on the farthest right display position. Continue to press the phone numbers to be dialed. Successive depressions of the [ENTER/ STORE] key hangs up and picks up the phone (places the phone on or off the hook).

The secondary phone line may be tested by pressing the E key for touchtone dialing or the F key for rotary dialing and then following the same procedure used for the primary phone line. A handset may be temporarily connected across transformer T1 of the 411UDAC as indicated in Figure 3-3. The handset, when connected across T1, may be used only as an amplifier/speaker or telephone with the keypad used for number dialing.

FIGURE 3-3:Handset/Speaker Connection

411UDABD.CDR

Both Primary and Secondary Lines

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Central Station Communications

CHAPTER 4 Central S tation Communications

The 411UDAC transmits system status reports to Central Stations via the public switched telephone network. Two supervised telephone line connections are made to interface the communicator to the telephone lines. Two 7-foot telephone cords P/N MCBL-7 may be used for this purpose (not supplied - order separately).

The digital communicator supervises both telephone lines for proper voltage. A delay of two minutes will occur before a fault in either phone line connection is reported as a trouble. When a fault is detected, an audible trouble signal will sound, the yellow Trouble LED will turn on, the optional trouble relay will activate if programmed for DACT trouble and the trouble condition will be reported to a central station over the remaining good ph one line.

The digital communicator comes with line seizure capability provided for both the primary and secondary telephone line interfaces. Any time that the DACT needs to make a call to a central station, line seizure will disconnect any local premises phones sharing the same telephone line. All transmissions to central stations will be sent over the Primary Central Station phone line. In the event of noisy phone lines, transmissions will be sent over the backup Secondary phone line.

T wo phone numbers must be programmed, the Primary Central Station phone number and the Secondary Central Station phone number. There are three options for transmission to the Central Station:

• All reports are always sent to the Primary Central Station phone number with the Secondary Central Station number for emergency backup purposes only

• All reports are sent to both Central Station phone numbers

• Reports are sent to the first available Central Station phone number only

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 55

Central Station Communications

The digital communicator is capable of reporting detailed messages depending upon the Format in use. Table 4-1 shows the data reporting structure for each of the pulsed formats as well as the Ademco Express Formats. Ademco Express Formats allow a typical data message to be transmitted to the Central Station in under 5 seconds. Pulsed formats typically require 15 to 20 seconds in comparison. Table 4-2 defines each letter code used in Table 4-1 . See “Ademco Contact ID Format Event Code Description” on page 59 for a description of the data reporting structure for Ademco Contact ID Format.

TABLE 4-1: Format Selection Addresses ( 20 and 50) Programming

Format #

0, 2, 4, 6, 8

Report

3+1/4+1/Standard

4+1 Express

Fire Alarm SSS(S) FA

Fire Alarm Restore SSS(S) RF A

Channel/Input Trouble

(Channel/Input Open)

Channel/Input Trouble

Restore

SSS(S) TZ

SSS(S) RTZ

System Trouble SSS(S) TS

System Trouble Restore SSS(S) RTS

AC Loss SSS(S) P

AC Loss Restore SSS(S) RP

Fire Supervisory Condition SSS(S) V

Fire Supervisory Condition

Restore

SSS(S) RV

Format #

3, 5, 7, 9

3+1/4+1/Expanded

SSS(S) FA

FAFAFA(FA) 2

SSS(S) RFA

RF ARFARFA (RFA) 2

SSS(S) TZ

TZTZTZ(TZ) Z

SSS(S) RTZ

RTZRTZRTZ(RTZ) Z

SSS(S) TS

TSTSTS(TS) Y

SSS(S) RTS

RTSRTSRTS(RTS) Y

SSS(S) P PPP(P) Z

SSS(S) RP

RPRPRP(RP) Z

SSS(S) V

VVV(V) Z SSS(S) RV

RVRVR(RV) Z

Format #

1, A, C

4+2/Standard 4+2

Express

4+2/Expanded

SSSS FAFA2 SSSS FAZ

SSSS RFARFA2 SSSS RFAZ

SSSS TZTZ2 SSSS TZZ

SSSS RTZRTZ2 SSSS RTZZ

SSSS TSTS2 SSSS TSY

SSSS RTSRTS2 SSSS RTSY

SSSS PP2 SSSS PP2

SSSS RPRP2 SSSS RPRP2

SSSS VV2 SSSS VZ

SSSS RVRV2 SSSS RVZ

Test Report SSS(S) X SSS(S) X SSSS XX2 SSSS XX2

Up or Download SSS(S) UD SSS(S) UD SSS UDUD2 SSS UDUD2

Format #

B, D

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Central Station Communications

TABLE 4-2: Format Selection Address Explanation

Where: SSS or SSSS = Subscriber ID FA = Fire Alarm (1st digit) FA2 = Fire Alarm (2nd digit) Z = Channel/Input Number RFA = Fire Alarm Restore (1st digit) RFA2 = Fire Alarm Restore (2nd digit) TZ = Zone Trouble (1st digit) TZ2 = Zone Trouble (2nd digit) RTZ = Zone Trouble Restore (1st digit) RTZ2 = Zone Trouble Restore (2nd digit) TS = System Trouble (1st digit) TS2 = System Trouble (2nd digit) RTS = System Trouble Restore (1st digit) RTS2 = System Trouble Restore (2nd digit) P = AC Loss (1st digit) P2 = AC Loss (2nd digit) RP = AC Loss Restore (1st digit) RP2 = AC Loss Restore (2nd digit) V = Fire Supervisory Condition (1st digi t) V2 = Fire Supervisory Condition (2nd digit) RV = Fire Supervisory Condition Restore (1st digit) RV2 = Fire Supervisory Condition Restore (2nd digit) X = Test Report (1st digit) X2 = Test Report (2nd digit) Y = Trouble corresponding to the following:

1 = Not Used 2 = Not Used 3 = Not Used 4 = Telco Primary Line Fault 5 = Telco Secondary Line Fault 6 = Not Used 7 = Not Used 8 = Not Used 9 = Not Used A = Communication Failure Primary Number B = Communication Failure Secondary Number C = Not Used D = Not Used E = Not Used

F = System Off Normal UD = Upload/Download (1st digit) UD2 = Upload/Download (2nd digit)

Note that for Expanded Reporting, the digital communicator automatical ly add s th e digit corresponding to the Channel/Input number, and the second digit corresponding to any system trouble conditi on. Only the first digit shown in Table 3-3 and Table 3-6 is programmable.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 57

Central Station Communications

4.0.1 Transmittal Priorities

The digital communicator transmits highest priority events first. Events in terms of priority are listed below in descending order:

1. Fire Alarm (highest priority level)

2. Fire Supervisory

3. System Troubles

Host Panel Trouble (active input programmed for trouble) AC Fail (after delay) Channel/Input faults T elephone line fault Communication trouble System Off Normal

4. Restoral Reports

Fire Alarm Fire Supervisory Host Panel Trouble AC Channel/Input fault T elephone line Communication System Off Normal

5. System Test

6. Upload/Download events (lowest priority)

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Central Station Communications

4.0.2 Ademco Contact ID Format Event Code Description

This section describes the various Event Codes and their messages which are available for the Ademco Contact ID Format. The reporting structure for the Ademco Contact ID Format is as follows:

SSSS 18 QXYZ GG CCC

Where: SSSS = Four digit Subscriber ID Account Code (addresses 21 - 24 and 51 - 54) 18 = Identifies transmission as Contact ID to the receiver at the Central Station Q = Event Qualifier where 1 = New Event and 3 = New Restore XYZ = Event code (shown in Tables) GG = Group number CCC = Channel/Input number

Notes:

1. 18, which is used in the reporting structure to identify the transmission as Contact ID, is not printed out in the

alarm and trouble report.

2. Q, which is the Event Qualifier for the reporting structure, is printed out in the report as an E for New Event or

for New Restore.

3. GG Group Number is fixed at '00' and cannot be changed.

4. CCC Channel/Input Number is transmitted as '001' for Channel/Input 1, '002' for Channel/Input 2, '003' for

Channel/Input 3, '004' for Channel/Input 4.

Ademco Contact ID Reporting Structure

A typical printout from a Central Station receiver (such as the Ademco 685) of alarm and trouble reports in the Ademco Contact ID Reporting Structure follows:

Time

Date Rcvr/Line ID SSSS QXYZ GG CCCC

11:28 03/25 11 7777 E110 00 C001 - general fire alarm on Channel/Input 1 11:28 03/25 11 7777 E111 00 C002 - smoke detector alarm on Channel/Input 2 11:28 03/25 11 7777 E380 00 C003 - fault on Channel/Input 3 11:28 03/25 11 7777 R110 00 C001 - Channel/Input 1 alarm restored 11:28 03/25 11 7777 R111 00 C002 - smoke detector Channel/Input 2 restored 11:28 03/25 11 7777 R380 00 C003 - Channel/Input 3 fault restored 11:28 03/25 11 7777 E158 00 C004 - high temperature, Channel/Input 4 11:28 03/25 11 7777 E151 00 C004 - gas detected, Channel/Input 4

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 59

Central Station Communications

The following table contains UL listed receivers compatible with the 411UDAC’s onboard DACT.

TABLE 4-3: Compatible UL Listed Receivers

Format #

(Addresses 20 and 50)

0 4+1 Ademco Express 1 4+2 Ademco Express 2 3+1/Standard/1800/2300 3 3+1/Expanded/1800/2300 4 3+1/Standard/1900/1400 5 3+1/Expanded/1900/1400 6 4+1/Standard/1800/2300 7 4+1/Expanded/1800/2300 8 4+1/Standard/1900/1400 9 4+1/Expanded/1900/1400

A 4+2/Standard/1800/2300

B 4+2/Expanded/1800/2300 C 4+2/Standard/1900/1400

FBI



685 (2)

9000 (3)

Ademco

CP220FB (1)

Silent Knight

9800 (4)

2000E (5)

Osborne Hoffman

6600 (6)

Surgard

Radionics

System III (7)



 

  

  



  



  



Surguard

MLR-2 (8)



Ademco

MR-2000 (9)

MX8000 (10)

D 4+2/Expanded/1900/1400

E Ademco Contact ID

(1) With version 3.9 software. (2) With 685-8 Line Card with Rev. 4.4d software. (3) With 9002 Line Card Rev. 9035 software or 9032 Line Card with 9326A software. (4) With 124077V2.00 Receiver and 126047 Line Card Rev. M. (5) With V.7301 Receiver S/W. (6) With 01.01.03 Receiver S/W and Line Card 01.01.03. (7) Surgard System III software version 1.6. (8) Surgard MLR-2 software version 1.86. (9) With DSP4016 and V1.6 Line Card. (10) With 124060V206B and 124063 Line Card Rev. B

IMPORTANT! It is the installer’s responsibility to ensure that the Digital Alarm Communicator/Transmitter is compatible with the Central Station Receiver, utilized by the monitoring service, prior to installation. The Compatibility Table provides a list of compatible r eceivers and associated software versions for the receivers. Changes in the hardware and/or software by the receiver manufacturers may affect the receiver compatibility with the DACT. After completing the installation, communication between the DACT and Central Station Receiver must be tested and verified.

  









411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Remote Site Upload/Download

CHAPTER 5 Remote Site Upload/Download

The 411UDAC may be programmed off site via the public switched telephone network. Any personal computer with Windows ware P/N PK-411UD, may serve as a Service Terminal. For details on the remote site upload/download software package, refer to the PK-411UD Manual. The Upload/Download software allows the following:

3.1 or greater or Windows® 95, with a 1200 Baud Hayes compatible modem and Upload/Download soft-

• Download of the entire program

• Upload of the entire program

• Upload current status, system voltages or time

• Real-time upload of current status or system voltages

• Download new time

CAUTION: Changes to program entries occur as a result of the downloading process. After successful downloading, make certain to perform the following steps:

1. Manually view programmed entries and compare to intended program data.

2. Test all affected system operations.

3. Immediately correct any problems found.

5.1 General

Any time that the digital communicator is contacted, a secret code (factory default 0000) is verified between the digital communicator and the Service Terminal. Changing the Secret Code may only be accomplished at the Service T erminal and subsequently loaded into the panel. Future upload or download requests cause verification of the Secret Code by the communicator before processing of data is allowed. If the Secret Code is not verified, the communicator will terminate the request immediately.

In order to contact the communicator, the following must be true:

 The digital communicato r may be in any mod e of operatio n inclu ding Normal, Program, Real Time

Clock, Troubleshoot or Lamp Test. Downloading is not possible if the communicator is active during Central Station communications or while testing the phone lines while in Troubleshoot Mode.

 There cannot be any active communications ongoing with a Central Station receiver.  All active events must be successfully 'kissed-off' by the Central Station(s). The digital communicator

must be in a standby state with no new information waiting to be transmitted to a Central Station.

Two basic communication mechanisms are supported as follows:

• Contact with callback - The Service Terminal calls the digital communicato r. The communicator answers the call, confirms the calling party then hangs-up. The Service Terminal then waits for a callback from the communicator. After the digital communicator calls the Central Station and successfully reports that a request has been received, the communicator calls the Service Terminal back. Upon secret code verification, data transfers occur. When the data transfers are completed and the Service Terminal disconnects from the communicator, the digital communicator calls the Central Station back to confirm either successful or unsuccessful results.

• Contact with callback disabled - The Service Terminal calls the communicator. No hang-up sequence occurs. Data transfers proceed.

Note that Callback enable/disable is controlled by the master user at the Service Terminal on a per call basis.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 61

General

With program address location 64 set to '1' in Program Mode, anytime a contact with callback is initiated, the communicator will first either contact the primary Central Station or contact both the primary and secondary Central Stations or contact the first available Central Station phone number to report a 'request for upload/download' message (depending upon the program entry in address location 137). Once the request is 'kissed-off' by the Central Station(s), the communicator will then call the appropriate Service Terminal and begin the downloading process.

With program address location 64 set to '1' in Program Mode, anytime a contact with callback disabled is initiated, the communicator and the Service T erminal will communicate and transfer data without first contacting a Central Station. When the data transfers are completed and the communicator disconnects from the Service Terminal, the communicator will call the Central Station and report one of the following:

• Upload/download request received

• Upload and/or download successful

• Upload/download failed

T o prevent the 'request for upload/download' message(s) from being reported to the Central Station(s), make certain to set address 64 to ‘0’ or ‘3’ or disable all upload/download reports back to both Central Stations. Refer to Table 32 on page 40 through Table 3-4, “Ademco Contact ID Format - Secondary,” on page 44 for additional information.

Unlike most competitive products, during the downloading process, the input monitoring and 411UDAC supervision remain active. Should an input activation or system trouble occur, the communicator immediately terminates downloading, processes the trouble or alarm locally and transmits the information to the Central Station(s).

5.1.1 Security Features

Remote site upload and download with the 411UDAC have been carefully designed to include key security features to ensure proper functionality. The key features are listed and explained below.

Secret Code Verification

A secret code is stored in the communicator by a Service Terminal to prevent unauthorized access. The secret code is created at the Service Terminal by a Master user and cannot be viewed or changed by anyone other than a Master user. Viewing of the secret code is prohibited at the communicator. Prior to allowing an upload or download of data, the communicator will verify the secret code transmitted by the Service Terminal.

Time-out at 411UDAC

Upon answering an incoming call on the primary Central Station phone line, the communicator will listen for a modem connection signal. If this signal is not received within 30 seconds, the communicator will disconnect the call. Upon successful connection (i.e. secret code verified and callback complete if applicable), if no communication occurs within two minutes, the communicator will disconnect the call.

Callback to Service Terminal

Any time that the communicator is remotely requested to allow an upload or download with callback, it will confirm the source of the incoming call, hang-up and call the calling party (Service Terminal phone number) back.

Error Checking

As each block of data is received by the communicator, it is checked for accuracy. If an error is detected, the block is retransmitted until correct, up to a maximum of four times. If the Secret Code is not verified and four errors occur, the call is disconnected and the report that the upload/download was not successful is called to the Central Station(s).

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Downloading to the Communicator

Central Station Acknowledge

There is an option whereby the communicator will report to one or both Central Stations that a request for uploading or downloading has been received prior to processing the call. This is called the 'callback' option. If the Central Station(s) does not acknowledge receipt of this request, uploading or downloading is prohibited. If acknowledged by the Central Station(s), another message is transmitted informing the Central Station(s) that:

• downloading was successful

• uploading was successful

• uploading/downloading was not successful

Data Protection/Integrity

Programming data is completely verified for accuracy prior to reprogramming of the 411UDAC EEPROM. Incomplete or corrupted data packets are ignored or retried.

5.2 Downloading to the Communicator

Before initiating the download procedure, make certain that the communicator is in the standby state.

Once an incoming call is accepted/answered by the communicator, the 411UDAC will:

1. Establish basic modem connection

2. Verify secret code

3. Verify callback vs. no callback request from the Service Terminal. If callback is requested, perform steps 4

through 10; if no callback is requested, perform steps 9 and 10 only

4. Verify product type

5. Identify the Service Terminal location

6. Hang-up/disconnect call

7. Call the Central Station(s) and transmit a request for upload/download message (if programmed to do so). If

this message is accepted, the communicator will proceed to the next step

8. Return call to the Service Terminal

9. Verify secret code

10. Verify Product type

11. Begin downloading

12. Upon completion of download, call the Central Station(s) back and report a successful download or failed

upload/download status (if programmed to do so).

5.3 Uploading From the Communicator

Items that may be uploaded from the communicator to a Service Terminal are:

• All or portions of programmed data plus the real time clock

• Troubleshoot system voltages in real-time or as a 'snapshot'

• Current system status in real-time continuous or as a 'snapshot'

Uploading is possible at any time provided the following conditions are true:

 The communicator may be in any mode of operation. Uploading is not possible if the communicator is

active or while testing the phone lines while in Troubleshoot Mode.

 There cannot be any active communications ongoing with a Central Station receiver.  All active events must be successfully 'kissed-off' by the Central Station(s). The communicator must be

in a standby state with no new information waiting to be transmitted to a Central Station.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 63

Simultaneous Data Transfers

Once an incoming call is accepted/answered by the communicator, the 411UDAC will:

1. Establish basic modem connection

2. Verify secret code

3. Verify callback vs. no callback request from the Service Terminal. If callback is requested, perform steps 4

through 10; if no callback is requested, perform steps 9 and 10 only

4. Verify product type

5. Identify the Service Terminal location

6. Hang-up/disconnect call

7. Call the Central Station(s) and transmit a request for upload/download message (if programmed to do so). If

this message is accepted, the communicator will proceed to the next step

8. Return call to the Service Terminal

9. Verify secret code

10. Verify product type

11. Begin downloading

12. Upon completion of download, call the Central Station(s) back and report a successful download or failed

upload/download status (if programmed to do so).

Unlike most competitive products, during the uploading process, the 411UDAC fire protection remains active. Should a system trouble or alarm condition occur, the communicator immediately terminates uploading and processes the trouble or alarm locally and transmits the information to the Central Station(s).

5.4 Simultaneous Data Transfers

Uploading and downloading may take place on a single telephone call. Control and selection of the data transaction is coordinated at the Service Terminal. This eliminates multiple phone calls, allows instant verification of downloaded data files and simplifies the overall process.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Battery Calculations

CHAPTER 6 Battery Calculations

Use the Total Standby and Alarm Load Currents calculated in Table 6-2, “Load in Standby ,” on page 66, and Table 63, “Load in Alarm,” on page 66, for the following battery calculations.

TABLE 6-1: Battery Calculations

Standby Load

Current in amps

(from Table 6-2 )

[ ]

Alarm Load

Current in amps

(from Table 6-3 )

[ ]

Required Standby Time in Hours

(24 or 60 Hours)

[ ]

Required Alarm Time in Hours

(i.e. 5 min. = 0.084 Hours)

[ ]

= __________

Add Standby and Alarm Load for Required Ampere Hour Battery __________

Multiplying by derating factor of 1.2 X1.2

Total Ampere Hour Battery

1. Select a battery with an Amp Hour rating greater than that calculated in Table 6-1 .

= __________

 NFPA 72 for Central Station and Proprietary Protected Premises systems require 24 hours of standby  NFPA 72 for Auxiliary and Remote Station systems require 60 hours of standby (14 Amp Hours)

2. Two 12 VDC, 7 Amp Hour batteries, wired in parallel, can be located in the backbox to provide 14 Amp

Hours of backup (refer to Figure 2-5 on page 22 for battery cable connections)

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 65

411UDAC Power Supply

6.1 411UDAC Power Supply

The 411UDAC provides filtered power for operating the digital communicator, external devices and the battery charger. The power for operating external devices is limited. Use Table 6-2 (standby or nonalarm) and Table 6-3 (alarm) to determine if external loading is within the capabilities of the power supply.

TABLE 6-2: Loa d in Standby

Current

Device Type # of Devices

(amps)

Main Circuit Board 1 X 0.143 = 0.143

2-wire Detector Heads [ ] X [ ] =

4-wire Detector Heads [ ] X [ ] =

Power Supervision Relays

Additional Current Draw from 12 VDC Resettable

[ ] X [ ] =

Sum Column for Standby Load = amps

Notes:

1. Refer to the Device Compatibility Document for compatible listed power supervision relays.

2. Refer to Device Compatibility Document for 2-wire and 4-wire smoke detector standby current.

TABLE 6-3: Loa d in Alarm

Total Current

(amps)

Device Type # of Devices

Current

(amps)

Total Current

Main Circuit Board 1 X 0.330 = 0.330

4-wire Detector Heads [ ] X [ ] =

Power Supervision Relay

Notification Appliances

Additional Current Draw

from 12 VDC Resettable

[ ] X 0.025 =

[ ] X [ ] =

Sum Column for Alarm Load = amps

Notes:

1. Use compatible listed power supervision relay only. Refer to the Device Compatibility Document

2. Refer to the Device Compatibility Document for 4-wire smoke detector current

3. Maximum available current for notification appliances is 1.0 amp

4. Maximum available current from resettable output is 0.200 amps

5. Total system current cannot exceed 1.6 amps

6. For Remote Station applications, total standby current must not exceed 193 mA

(amps)

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Programming Sheets

Appendix A Pr ogramming Sheets

A.1 Digital Communicator Options Program Sheets

--To enter Programming Mode, press the MODE key, 7764 and then the [ENTER/STORE] key.

00010203040506070809101112131415161718

Addresses 00 to 19 store the Primary Central Station phone number. Enter 'F' to represent the end of number.



Primary Central Station Communication Format: Valid entries are 0 to 9 and A to F.

212223 252627 

Primary Number Test Time Interval. Enter '0' for 24-hour; '1' for 12-hour; '2' for 8-hour; '3' for 6-hour.

Primary Central Station Account Code: Valid entries are 0 to 9 and A to F.

Primary Central Station 24-hour Test Time: Use military time (i.e. 1400 for 2:00 PM).

30313233343536373839404142434445464748

Addresses 30 to 49 store the Secondary Central Station phone number. Enter 'F' to r epresent the end of number.



Secondary Central Station Communication Format: Valid entries are 0 to 9 and A to F.

515253 555657 

Secondary Number Test Time Interval. Enter '0' for 24-hour; '1' for 12-hour; '2' for 8-hour; '3' for 6-hour.



AC Loss Reporting Delay. Enter '0' for no delay; '1' for 1 hours; '2' for 2 hours; '3' for 6 hours; '4' for 7 hours;

'5' for 8 hours; '6' for 9 hours; '7' for 10 hours; '8' for 11 hours; '9' for 12 hours; 'A' for 13 hours; 'B' for 14 hours; 'C' for 15 hours; 'D' for 16 hours; 'E' for 17 hours; 'F' for 18 hours.



Backup Reporting. Enter '0' to report to Secondary phone number as backup only; '1' to report to both Primary

and Secondary phone number for all reports/messages; '2' reports go to first available receiver.



Reserved for Future Use.



DACT Trouble Reminder. Enter '0' to disable; '1' to enable.



Operational Mode Selection. Enter '0' for stand-alone/communicator disabled; '1' for stand-alone/communica-

tor enabled; '2' for slave/communicator enabled; '3' for slave/communicator disabled. Default setting is '0'.



Input Channel 1 Function Selection. Enter '0' for fire alarm; '1' for pull statio n; '2' for normally open contact;

'3' for host panel trouble; '4' for supervisory; '5' for supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.



Input Channel 2 Function Selection. Enter '1' for pull station; '2' for normally open contact; '3' for host panel

trouble; '4' for supervisory; '5' for supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.



Input Channel 3 Function Selection. Enter '0' for fire alarm; '1' for pull statio n; '2' for normally open contact;

'3' for host panel trouble; '4' for supervisory; '5' for supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.



Input Channel 4 Function Selection. Enter '1' for pull station; '2' for normally open contact; '3' for host panel

trouble; '4' for supervisory; '5' for supervisory autoresettable; '6' for waterflow silenceable; '7' for waterflow nonsilenceable.

6970

Does not delay Input Channels programmed for fire functions.

7273

Does not delay Input Channels programmed for fire functions.

Secondary Central Station Account Code: Valid entries are 0 to 9 and A to F.

Secondary Central Station 24-hour Test Time: Use military time (i.e. 1400 for 2:00 PM).

Input Channel 1 Delay Timer . Enter 0 - 179 seconds delay . Factory default is '000' for no delay .

Input Channel 2 Delay Timer . Enter 0 - 179 seconds delay . Factory default is '000' for no delay .

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 67

Programming Sheets

7576

Does not delay Input Channels programmed for fire functions.

7879

Does not delay Input Channels programmed for fire functions.



Touchtone/Rotary Select for Primary Phone. Enter '0' for touchtone dialing; '1' for rotary dialing.



Make/Break Ratio for Primary Phone. Enter '0' for 67/33 ratio; '1' for 62/38 ratio.



Touchtone/Rotary Select for Secondary Phone. Enter '0' for touchtone dialing; '1' for rotary dialing.



Make/Break Ratio for Secondary Phone. Enter '0' for 67/33 ratio; '1' for 62/38 ratio.



Output Relay #1 enable. Enter '1' to enable Relay #1; '0' to disable relay.



Output Relay #1 Function. Enter '0' for relay to activate on alarm; '1' host panel trouble; '2' DACT trouble; '3'

for latching fire supervisory; '4' for autoresettable fire supervisory; '7' (future use); '8' for total communication failure.



Output Relay #2 enable. Enter '1' to enable Relay #2; '0' to disable relay.



Output Relay #2 Function. Enter '0' for relay to activate on fire alarm; '1' host panel trouble; '2' for DACT

trouble; '3' for latching fire supervisory; '4' for autoresettable fire supervisory; '7' (future use); '8' total communication failure.



Reserved for future use. Leave default setting of ‘0.’



Reserved for future use. Leave default setting of ‘0.’



Alarm verification. Enter '0' for no verification; '1' for verification of all 2-wire smoke zones.



Silence inhibit. Enter '0' for no silence inhibit; '1' to inhibit silencing of NAC for one minute.



Autosilence. Enter '0' for no autosilence; '1' for 5 minute autosilence; '2' for 10 minutes; '3' for 15 minutes; '4'

for 20 minutes; '5' for 25 minutes; '6' for 30 minutes.



Restoral method. Enter '0' for Typical restoral method; '1' for Conditional Restoral Method #1; '2' for

Conditional Restoral Method #2.



Coding, Notification Appliance Circuit. Enter ‘0’ for no coding (steady); ‘1’ for Temporal coding.



Trouble Call Limit - Dialer Runaway Prevention Feature. Enter a '0' to disable this feature; '1' to enable Trou-

ble Call Limit. Factory default is '0' for disabled.

979899 

101102103 104105106107108 109110111112113114115116117



118119120

A - E. 'F' designates the end of the phone number.



121122

are 00 to 25 (00 = no answer). Factory default is 03.

  

'F' designates the end of the phone number.



Station Phone Number on backup only; '1' for Upload/Download reports to always go to the Secondary; '2' for Upload/Download reports to go to the first available Central Station phone number.

FAX/Answer Machine, Primary Phone Line. Enter '0' for no sharing of phone line; '1' for sharing.

123

124125126127128129130131132133134135136137138139140

141142143

Upload/Download Backup Reporting. Enter '0' for Upload/Download reports to go to the Secondary Central

144

Input Channel 3 Delay Timer. Enter 0 - 179 seconds delay. Factory default is '000' for no delay.

Input Channel 4 Delay Timer. Enter 0 - 179 seconds delay. Factory default is '000' for no delay.

Panel Identification Number.

100

Addresses 101 to 120 store the Service Te rminal 1 Phone Number. Valid entries are 0 - 9 and

Ring Count on Primary Phone Line. Enter number of rings prior to panel answering call. Valid entries

Addresses 124 to 143 store the Service T erminal 2 Phone Number . Valid entries are 0-9 and A-E.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Programming Sheets

A.2 Digital Communicator Options Program Sheet (Factory Defaults)

--To enter Programming Mode, press the MODE key, 7764 and then the [ENTER/STORE] key.

F F F F F F F F F F F F F F F F F F F F

00010203040506070809101112131415161718

Addresses 00 to 19 store the Primary Central Station phone number. Enter 'F' to represent the end of number.



Primary Central Station Communication Format: 'E' for Ademco Contact ID Format.

0 0 0 0

212223

0 0 0 0

252627



Primary Number Test Time Interval. '0' for 24 hours.

F F F F F F F F F F F F F F F F F F F F

30313233343536373839404142434445464748

Addresses 30 to 49 store the Secondary Central Station phone number. Enter 'F' to represent the end of number.



Secondary Central Station Communication Format. 'E' for Ademco Contact ID Format.

0 0 0 0

515253

0 0 0 0

555657



Secondary Number Test Time Interval. '0' for 24 hours.



AC Loss Reporting Delay. '2' for 2 hour delay.



Backup Reporting. '0' to report to Secondary Central Station phone number as backup only.



Reserved for Future Use.



Trouble Reminder. '0' disables Trouble Reminder.



Operational Mode Select. '0' enables stand-alone mode, disables communication to Central Station.



Input Channel 1 Function Selection. '0' for fire alarm.



Input Channel 2 Function Selection. '1' for pull station alarm.



Input Channel 3 Function Selection. '0' for fire alarm.



Input Channel 4 Function Selection. '1' for pull station alarm.

0 0 0

6970

0 0 0

7273

0 0 0

7576

0 0 0

7879



Touchtone/Rotary Select for Primary Phone. '0' for touchtone dialing.



Make/Break Ratio for Primary Phone. '0' for 67/33 ratio.

Primary Central Station Account Code.

Primary Central Station 24-hour Test Time. '0000' = 12:00 midnight.

Secondary Central Station Account Code.

Secondary Central Station 24-hour Test T ime: '0000' = 12:00 midnight.

Input Channel 1 Delay Timer. '000' for no delay. Does not delay fire functions. Input Channel 2 Delay Timer. '000' for no delay. Does not delay fire functions. Input Channel 3 Delay Timer. '000' for no delay. Does not delay fire functions. Input Channel 4 Delay Timer. '000' for no delay. Does not delay fire functions.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 69



Programming Sheets

Touchtone/Rotary Select for Secondary Phone. '0' for touchtone dialing.



Make/Break Ratio for Secondary Phone. '0' for 67/33 ratio.



Output Relay #1 Enable. '0' to disable relay.



Output Relay #1 Function Selection. '0' for activation on fire alarm (2-wire smoke).



Output Relay #2 Enable. '0' to disable relay.



Output Relay #2 Function Selection. '2’ for activation on DACT trouble.



Reserved for future use. Leave default setting of ‘0.’



Reserved for future use. Leave default setting of ‘0.’



Alarm Verification. '0' to disable.



Silence Inhibit. '0' to disable.



Autosilence. '0' to disable.



Restoral Method. '0' for Typical restoral.



Coding, Notification Appliance Circuit. '0' for no coding.



Trouble Call Limit - Dialer Runaway Prevention Feature. '0' for disabled feature.

0 0 0 0

979899

F F F F F F F F F F F F F F F F F



101102103104105106107108109110111112113114115116117

F F F



118119120

- E. 'F' designates the end of the phone number.

0 3



121122



FAX/Answer Machine, Primary Phone Line. '0' for no sharing of phone line.

123

F F F F F F F F F F F F F F F F F F



124125126127128129130131132 133134135136137138139140 141

F F



142143

designates the end of the phone number.



Upload/Download Backup Reporting. '0' for Upload/Download reports to go to the Secondary Central Sta-

144

tion Phone Number on backup only.

Addresses 101 to 120 store the Service Terminal 1 Phone Number. Valid entries are 0 - 9 and A

Ring Count on Primary Phone Line. '03' for number of rings befor e an swering call.

Addresses 124 to 143 store the Service Terminal 2 Phone Number. Valid entries are 0-9 and A-E. 'F'

Future Use.

100

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Event Codes/Transmission Format Programming Sheets

Appendix B Event Codes/T ransmission Format

Pr ogramming Sheets

--To enter Programming Mode, press the MODE key, 7764 and then the [ENTER/STORE] key.

B.1 4+2 Standard & 4+2 Express Formats Primary Central Station



145146147148149 150151152153154155156157158159160



161162163164165166167168169170171172173174175176



177178179180181182183184185186187188189190191192



193194195196197198199200201202203204205206207208



209210211212213214215216217218219220221222223224



225226227228229230231232

B.2 4+2 Standard & 4+2 Express Formats Secondary Central Station



233234235236237238239240241242243244245246247248



249250251252253254255256257258259260261262263264



265266267268269270271272273274275276277278279280



281282283284285286287288289290291292293294295296



297298299300301302303304305306307308309310311



313314315316317318319320



312

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 71

Event Codes/Transmission Format Programming Sheets

--To enter Programming Mode, press the MODE key, 7764 and then the [ENTER/STORE] key.

B.3 4+2 Standard & 4+2 Express Formats Primary Central Station

11121314F1F2F3F4



145146147148149 150151152153154155156157158159160

9261626364656647



161162163164165166167168169170171172173174175176

6A6B6FE1E2E3E4D1



177178179180181182183184185186187188189190191192

D2D3D493A1A2A3A4



193194195196197198199200201202203204205206207208

A5 A6 5 7 AAABAF9991



209210211212213214215216217218219220221222223224

71727374



225226227228229230231232

B.4 4+2 Standard & 4+2 Express Formats Secondary Central Station

11121314F1F2F3F4



233234235236237238239240241242243244245246247248

9261626364656647



249250251252253254255256257258259260261262263264

6A6B6FE1E2E3E4D1



265266267268269270271272273274275276277278279280

D2D3D493A1A2A3A4



281282283284285286287288289290291292293294295296

A5 A6 5 7 AAABAF9991



297298299300301302303304305306307308309310311312

71727374



313314315316317318319320

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Event Codes/Transmission Format Programming Sheets

--To enter Programming Mode, press the MODE key, 7764 and then the [ENTER/STORE] key.

B.5 All 3+1, All 4+1 and 4+2 Expanded Formats for Primary Central

Station



145146147148149150151152153154155156157158159160



161162163164165166167168169170171172173174175176



177178179180181182183184185186187188

B.6 All 3+1, All 4+1 and 4+2 Exp anded Formats for Secondary Central

Station



233234235236237238239240241242243244245246247248



249250251252253254255256257258259260261262263264



265266267268269270271272273274275276

B.7 All 3+1, All 4+1 and 4+2 Expanded Formats for Primary Central

Station (Factory Defaults)

1111FFFF96666664



145146147148149150151152153154155156157158159160

666EEEEDDDD9 AAAA



161162163164165166167168169170171172173174175176

AA5 AAA9 F7777



177178179180181182183184185186187188

B.8 All 3+1, All 4+1 and 4+2 Expanded Formats for Secondary

Central Station (Factory Defaults)

1111FFFF96666664



233234235236237238239240241242243244245246247248

666EEEEDDDD9 AAAA



249250251252253254255256257258259260261262263264

AA5AAA9F7777



265266267268269270271272273274275276

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 73

Event Codes/Transmission Format Programming Sheets

--To enter Programming Mode, press the MODE key, 7764 and then the [ENTER/STORE] key.

B.9 Ademco Contact ID Format Primary Central Station



145146147148149150151152153154155156157158159160



161162163164165166167168169170171172173174175176



177178179180181182183184185186187188189190191192



193194195196197198199200201202203204205206207208



209210211212213214215216217218219

B.10 Ademco Contact ID Format Secondary Central Station



233234235236237238239240241242243244245246247248



249250251252253254255256257258259260261262263264



265266267268269270271272273274275276277278279280



281282283284285286287288289290291292293294295296



297298299300301302303304305306307

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Event Codes/Transmission Format Programming Sheets

B.11 Ademco Contact ID Format Primary Central Station (Factory

Defaults)

1111151111153803



145146147148149150151152153154155156157158159

8038038030131030



161162163164165166167168169170171172173174175

2311351352321300



177178179180181182183184185186187188189190191

3543543086026084



193194195196197198199200201202203204205206207

11416412413



209210211212213214215216217218219

   

B.12 Ademco Contact ID Format Secondary Central Station (Factory

Defaults)

1111151111153803



233234235236237238239240241242243244245246247



160

176

192

208

248

8038038030131030



249250251252253254255256257258259260261262263

2311351352321300



265266267268269270271272273274275276277278279

3543543086026084



281282283284285286287288289290291292293294295

11416412413



297298299300301302303304305306307

  

264

280

296

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 75

Ademco Contact ID Format Event Code Description

Appendix C Ademco Contact ID Format Event

Code Description

EVENT CODE CLASSIFICA TIONS

100

ALARMS

Medical Fire Panic Burglary General 24 Hour

200

SUPERVISORY

Fire

300

TROUBLES

System Sounder/Relay System Peripheral Communication Protective Loop Sensor

400

OPEN/CLOSE

REMOTE ACCESS

Open/Close Remote Access Access Control

500 DISABLES/ BYPASSES

System Sounder/Relay System Peripheral Communication

EVENT MESSAGE

Medical Alarms - 100 100 Medical EMERG - Personal Emergency - # 101 Pendant transmitter EMERG - Personal Emergency - # 102 Fail to report in EMERG - Fail to Check-in - #

Fire Alarms - 110 110 Fire Alarm FIRE - Fire Alarm - # 111 Smoke FIRE - Smoke Detector - # 112 Combustion FIRE - Combustion - # 113 Waterflow FIRE - Waterflow - # 114 Heat FIRE - Heat Sensor - # 115 Pull station FIRE - Pull Station - # 116 Duct FIRE - Duct Sensor - # 117 Flame FIRE - Flame Sensor - # 118 Near Alarm FIRE - Near Alarm - #

600 TEST/ MISC.

Test

Panic Alarms - 120 120 Panic Alarm PANIC - Panic - # 121 Duress PANIC - Duress 122 Silent PANIC - Silent Panic - # 123 Audible PANIC - Audible Panic - #

Burglar Alarms - 130 130 Burglary BURG - Burglary - # 131 Perimeter BURG - Perimeter - # 132 Interior BURG - Interior - # 133 24-Hour BURG - 24-Hour - # 134 Entry/Exit BURG - Entry/Exit - # 135 Day/Night BURG - Day/Night - # 136 Outdoor BURG - Outdoor - # 137 Tamper BURG - Tamper - # 138 Near Alarm BURG - Near Alarm - #

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Ademco Contact ID Format Event Code Description

EVENT MESSAGE

General Alarms - 140 140 General Alarm ALARM - General Alarm - # 141 Polling loop open ALARM - Polling Loop Open - # 142 Polling loop short ALARM - Polling Loop Short - # 143 Expansion module failure ALARM - Exp. Module Fail - # 144 Sensor tamper ALARM - Sensor Tamper - # 145 Expansion module tamper ALARM - Exp. Module Tamper - #

24 Hour Non-Burglary - 150 and 160 150 24-Hour Non-Burg ALARM - 24-Hr. Non-Burg - # 151 Gas detected ALARM - Gas Detected - # 152 Refrigeration ALARM - Refrigeration - # 153 Loss of heat ALARM - Heating System - # 154 Water leakage ALARM - Eater Leakage - # 155 Foil break ALARM - Foil Break - # 156 Day trouble ALARM - Day Zone - # 157 Low bottled gas level ALARM - Low Gas Level - # 158 High temp ALARM - High Temperature - # 159 Low temp ALARM - Low Temperature - # 161 Loss of air flow ALARM - Air Flow - #

Fire Supervisory - 200 and 210 200 Fire supervisory SUPER. - Fire Supervisory - # 201 Low water pressure SUPER. - Low Water Pressure - # 202 Lox CO2 SUPER. - Low CO2 203 Gate valve sensor SUPER. - Gate Valve - # 204 Low water level SUPER. - Low Water Level - # 205 Pump activated SUPER. - Pump Activation - # 206 Pump failure SUPER. - Pump Failure - #

System Troubles - 300 and 310 300 System trouble TROUBLE - System Trouble 301 AC loss TROUBLE - AC Power 302 Low system battery TROUBLE - System Low Battery 303 RAM checksum bad TROUBLE - Bad RAM Checksum (Restore not applicable) 304 ROM checksum bad TROUBLE - Bad ROM Checksum (Restore not applicable) 305 System reset TROUBLE - System Reset (Restore not applicable) 306 Panel program changed TROUBLE - Programming Changed (Restore not applicable) 307 Self-test failure TROUBLE - Self Test Failure 308 System shutdown TROUBLE - System Shutdown 309 Battery test failure TROUBLE - Battery Test Failure 310 Ground fault TROUBLE - Ground Fault - # 311 No battery TROUBLE - No Battery

Sounder/Relay Troubles - 320 320 Sounder/Relay TROUBLE - Sounder Relay - # 321 Bell 1 TROUBLE - Bell/Siren #1 322 Bell 2 TROUBLE - Bell/Siren #2 323 Alarm relay TROUBLE - Alarm Relay 324 Trouble relay TROUBLE - Trouble Relay 325 Reversing TROUBLE - Reversing Relay 326 Bell 3 TROUBLE - Bell/Siren #3 327 Bell 4 TROUBLE - Bell/Siren #4

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 77

Ademco Contact ID Format Event Code Description

EVENT MESSAGE

System Peripheral Troubles - 330 and 340 330 System peripheral TROUBLE - Sys. Peripheral - # 331 Polling loop open TROUBLE - Polling Loop Open 332 Polling loop short TROUBLE - Polling Loop Short 333 Expansion module failure TROUBLE - Exp. Module Fail - # 334 Repeater failure TROUBLE - Repeater Failure - # 335 Local printer paper out TROUBLE - Printer Paper Out 336 Local printer failure TROUBLE - Local Printer

Communication Troubles - 350 and 360 350 Communication T ROUBLE - Communication Trouble 351 Telco 1 fault T ROUBLE - Phone Line #1 352 Telco 2 fault T ROUBLE - Phone Line #2 353 Long range radio xmitter fault TROUBLE - Radio Transmitter 354 Fail to communicate TROUBLE - Fail to Communicate 355 Loss of radio supervision TROU BLE - Radio Supervision 356 Loss of central polling TROUBLE - Central Radio Polli ng

Protection Loop Troubles - 370 370 Protection loop TROUBLE - Protection Loop - # 371 Protection loop open TROUBLE - Protection Loop Open - # 372 Protection loop short TROUBLE - Protection Loop Short - # 373 Fire Trouble TROUBLE - Fire Loop - #

Sensor Troubles - 380 380 Sensor trouble TROUBLE - Sensor Trouble - # 381 Loss of supervision - RF TROUBLE - RF Sensor Supervision - # 382 Loss of supervision - RPM TROUBLE - RPM Sensor Supervision - # 383 Sensor tamper TROUBLE - Sensor Tamper - # 384 RF transmitter low battery TROUBLE - RF Sensor Batt. - #

Open/Close - 400 400 Open/Close OPENINGCLOSING 401 Open/Close by user OPENING - User #CLOSING - User # 402 Group Open/Close OPENING - Group User #CLOSING - Group User # 403 Automatic Open/Close OPENING - AutomaticCLOSING - Automatic 404 Late Open/Close OPENING - LateCLOSING - Late 405 Deferred Open/Close Openin g not usedCl osing not used 406 Cancel OPENING - CancelClosing not used 407 Remote arm/disarm OPENING - RemoteCLOSING - Remote 408 Quick arm Opening not applicableCLOSING - Quick arm 409 Keyswitch Open/Close OPENING - KeyswitchCLOSING - Keyswitch

Remote Access - 410 411 Callback request made REMOTE - Callback RequestedRestore not applicable 412 Success - download/access REMOTE - Successful Access Restore not applicable 413 Unsuccessful access REMOTE - Unsuccessful AccessRestore not applicable 414 System shutdown REMOTE - System Shutdown 415 Dialer shutdown REMOTE - Dialer Shutdown 416 Success - upload/access REMOTE - Successful AccessRestore not applicable

Access Control - 420 421 Access denied ACCESS - Access Denied - User #Restore not used 422 Access report by user ACCESS - Access Gained - User #Restore not used

System Disables - 500 and 510

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Ademco Contact ID Format Event Code Description

EVENT MESSAGE

Sounder/Relay Disables - 520 520 Sounder/Relay disable DISABLE - Sounder/Relay - # 521 Bell 1 disable DISABLE - Bell/Siren - #1 522 Bell 2 disable DISABLE - Bell/Siren - #2 523 Alarm relay disable DISABLE - Alarm Relay 524 Trouble relay disable DISABLE - Trouble Relay 525 Reversing relay disable DISABLE - Reversing Relay 526 Bell 3 disable DISABLE - Bell/Siren - #3 527 Bell 4 disable DISABLE - Bell/Siren - #4

System Peripheral Disables - 530 and 540

Communication Disables - 550 and 560 551 Dialer disabled DISABLE - Dialer Disable 552 Radio transmitter disabled DISABLE - Radio Disable

Bypasses - 570 570 Zone bypass BYPASS - Zone Bypass - # 571 Fire bypass BYPASS - Fire Bypass - # 572 24-Hour zone bypass BYPASS - 24-Hour Bypass - # 573 Burglar bypass BYPASS - Burg. Bypass - # 574 Group bypass BYPASS - Group Bypass - #

Test Misc. - 600 601 Manual trigger test TEST - Manually TriggeredRestore not applicable 602 Periodic test report TEST - Periodic Restore not applicable 603 Periodic RF transmission TEST - Periodic Radio Restore not applicable 604 Fire test TEST - Fire Test Restore not used 605 Status report to follow STATUS - Status Follows Restore not applicable 606 Listen-in to follow LIST EN - Li sten-in ActiveRestore not applicable 607 Walk test mode TEST - Walk Tes t Mo de 608 System abnormal test TEST - System Abnormal Test

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 79

Events and Default Event Codes

Appendix D Events and Default Event Codes

Note: The character ‘x’ in the following table refers to the input circuit number (1 - 4).

411UDAC Events Format Grou p 1 Format Group 2 Ademco Contact ID

Input Circuit Functions Active Restore Active Restore

2-Wire Smoke 1x Ex 1 E 111 00x Pull Station 1x Ex 1 E 115 00x Contact Closure 1x Ex 1 E 110 00x Host Control Panel Trouble FF Ex F E 373 00x Latching Supervisory 8x Ex 8 E 200 00x Autoresettable Supervisory 8x Ex 8 E 200 00x Silenceable Waterflow 1x Ex 1 E 113 00x Nonsilenceable Waterflow 1x Ex 1 E 113 00x

Other Events Active Restore Active Restore

Input Circuit Fault Fx Dx F D 380 00x AC Fault 92 93 9 9 301 000 Earth Fault 61 A1 6 A 310 000 Low Battery Fault 62 A2 6 A 302 000 No Battery Fault 63 A3 6 A 311 000 Phone Line 1 Fault 64 A4 6 A 351 000 Phone Line 2 Fault 65 A5 6 A 352 000 NAC Fault 66 A6 6 A 321 000 Phone Number 1 Fault 6A AA 6 A 354 001 Phone Number 2 Fault 6B AB 6 A 354 002 System Off Normal Fault 6F AF 6 A 308 000

Special Events Active Restore Active Restore

System Test Message 99 - 9 - 602 000 System Abnormal Test Message 91 - F - 608 000 Upload/Download Request 71 - 7 - 411 000 Upload Successful 72 - 7 - 416 000 Download Successful 73 - 7 - 412 000 Upload/Download Failed 74 - 7 - 412 000

Active and

Restore

Active and

Restore

Active and

Restore

Sensor #

Group Definitions:

Format Group 1

4+2 Ademco Express Standard, DTMF 1400/2300 Hz ACK 3+1 Expanded 1800 Hz Carrier 2300 Hz ACK 3+1 Expanded 1900 Hz Carrier 1400 Hz ACK 4+1 Expanded 1800 Hz Carrier 2300 Hz ACK 4+1 Expanded 1900 Hz Carrier 1400 Hz ACK 4+2 Standard 1800 Hz Carrier 2300 Hz ACK 4+2 Expanded 1800 Hz Carrier 2300 Hz ACK 4+2 Standard 1900 Hz Carrier 1400 Hz ACK 4+2 Expanded 1900 Hz Carrier 1400 Hz ACK

Format Group 2

4+1 Ademco Express Standard, DTMF 1400/2300 Hz ACK 3+1 Standard 1800 Hz Carrier 2300 Hz ACK 3+1 Standard 1900 Hz Carrier 1400 Hz ACK 4+1 Standard 1800 Hz Carrier 2300 Hz ACK 4+1 Standard 1900 Hz Carrier 1400 Hz ACK

Note that although all Expanded Mode formats communicate two digits per event, only the first digit is programmable. The second digit cannot be changed.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Operational Modes

Appendix E Operational Modes

CODE ACTIVITY NOTES

6676 (NORM) Returns to normal operation Fire protection is on.

2525 (CLCK) Enters Real-Time Clock Mode

7764 (PROG) Enters Program Mode

3337 (DEFP)

Returns digital communicator to factory

default program settings

8768 (TROU) Allows display of status for all circuits Fire protection is off during Troubleshoot Mode.

Allows programming of digital communicator.

Program digital communicator time.

Fire protection is off.

Fire protection is off during Default Mode.

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D 81

Canadian Applications

Appendix F Canadian Applications

This section illustrates the connection of the 411UDAC Digital Alarm Communicator/Transmitter (DACT) to an FACP for Canadian Applications. The following conditions must be adhered to in order to compl y wit h Ca nadian requirements.

1. Only one FACP can be connected to the 411UDAC DACT.

2. Phone lines must exit the building in separate directions.

3. The 411UDAC DACT relay #1 must be enabled [refer to “Output Relay #1 Enable (85)” on page 49] and must

be programmed to activate on DACT trouble [refer to “Output Relay #1 Function Selections (86)” on page 49].

4. The Auxiliary Trouble Input wiring from the 411UDAC DACT must be in conduit and in the same room as

the FACP and DACT.

-24 VDC nonresettable power from FACP

411UDAC

2.2K ELRs P/N 27070

Relay Output (DACT Trouble) from 411UDAC

Channel 4 (2.2k ELR)

FACP ATrouble Relay

FACP Supv. Relay

FACP Alarm Relay

FACP

411UDAC Document #51073 Rev. D 12/09/2008 P/N 51073:D

Auxiliary Trouble Input (nonsupervised, power-limited)

AC Loss Reporting Delay 47 Acknowledge/System Silence 10 Alarm Verification 9, 50 Autosilence 9, 50

Battery 65

Fire-Lite 411UDAC, FireWatch 411UDAC Installation, Programming, Troubleshooting And Operating Instruction Manual

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Frequently Asked Questions

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