8
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| Document ID | 40185 |
| Application ID | NRDTFQmaxHItzYyFemNRtg== |
| Document Description | 8 |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 54.2kB (677549 bits) |
| Date Submitted | 1999-06-03 00:00:00 |
| Date Available | 1999-04-07 00:00:00 |
| Creation Date | 2001-06-18 19:07:52 |
| Producing Software | Acrobat Distiller 4.0 for Windows |
| Document Lastmod | 2001-06-18 19:07:53 |
| Document Title | 8 |
FCC ID. TA! A7P3
BBC MODEL #6000
SECURITY SYSTEM
INS TALLA T ION MANUAL
PRELIMINARY COPY
(APPROVALS PENDING)
A UGUST 1998
BBC Corp
433 Easl Little Canada Road
St. Paul. MN 55] I7
Telephone: (612) 490-1936
Fax: (612) 490-0495
Electronic Mail: info@birchbridge.com
Rcv SI 8/23/98
FCC IL): TAI A7l’3
1.0 INSTALLATION PROCEDURE STEPS
>>NOTEz We recommend following this installation outline after gaining familiarity with both the
System User and Installation Manuals. (The Installation Manual contains a “Ready Reference Guide".
a small card which has a brieflistofinstructions ofcommonly used features It also has a System
Installation Sheet (form for listing types and locations oftransmitters) on the back ofit.
I 1 Locate the two System Installation Reference Guide Inserts and the Sample Insert in Section
5.2 ofthis manual for guidance on entries.
1.2 Walk through premise with purchaser. determining the number and type of Sensors and their
installation locations. Discuss location ofthe Control Panel. Keep in mind that ifkey FOBs may
be used in the future, the user should be able to hear the status feedback signals from the activation
location. The Panel Status Light should be generally visible. Enter the Sensor location information
and assigned Sensor number on one ofthe installation work sheets. (See Sections 2 and 5).
L] install the Control Panel and complete power and telephone connections. Reset the Panel Memory
ifrequired (see Section 5 i). then test Panel operation from all Touch-Tone (TT) telephones by
using the “ it * " status request“ e . enter TT“ # “ ") (See Section 2).
1.4 Make Program Memory selections For options ‘ 06. * 07. and " 08 for best system operation.
>>IMPORTANTz For best programming operation, make TT entries after the speech
prompts. (See section 5.3).
1.5 Find a work location where a system Touch-Tone telephone is available--cordless phones work
very well. Gather all transmitters and attach the appropriate two-digit Sensor number labels to
each transmitter using the System installation sheet assignments.
1.6 Now assign these Sensor numbers to the System using the procedure outlined in
Section 5.3.
17 Enter the programmed two-digit transmitter numbers (Step 1.6) into the appropriate Sensor
Behavior Groups * 2] through ‘59. (See Sections 6-9)
H! Complete the program requirements for Program Memory locations ' 60 through ‘ 7I. (See
Sections I0-I l for details}. When programming is complete. enter TT " * 99 " to leave Program
Memory and return to "Level One-Off“.
1.9 At this point, install all the programmed fixed Sensors. Test Sensors by selecting
“ Level 9- Sensor Test ", by entering the operator default Access Code (TT “ it 1234- 9 ").
Confirm operation by listening for at least four transmission packets (BEEPS) from each
transmitter when activated. (See Section 7 of Users Manual for further details).
1.I0 Select Central Station communication test, by entering TT " it I234 78 ". (See Section 3 of
Users Manual).
l.|1 Familiarize the system user with system operation. Demonstrate changing Access Codes, Chime
option. and status selections. in addition to arming, disarming. and determining status ofsystem by
entering TT ~' ti ‘
1.12 Familiarize the system user With the following important features:
a) All Sirens are set [0 Rcsct after4 minutes.
b) An alarm condition will continue to disable the green LED color until the System is reset
(returned to Level One-Off). System trouble conditions will also behave in the same way.
Whenever the green LED is off. enlei"'#*“ for an announcement ofthe problem in the detailed
Status Report.
Page I
.-« , 1 ‘TA1A7P3
2.0 BBC msotm CONTROL PANEL “L m
2.l CONNECTIONS REQUIRED
2.1.1 TELEPHONE
The Control Panel requires a connection to the telephone line via a special telephone jack
(RJ-3 1 X) provided by the alarm or telephone companies. The jack and its wiring provide
complete disconnect From the premise telephones during alarm communications.
A telephone “T' Adapterjack may also be used, but it will disconnect only the telephone
connected into it along side the Panel connection. This hookup does not provide the integrity of
the RI jack, as other premise telephones could block an alarm call if'one were “off hook." keeping
the system from obtaining a dial tone. The telephone line circuit is monitored. Phone Line failure
will be annunciated as "Phone Line Failure.“ It will automatically reset when the telephone line is
returned to normal.
2.1.2 AC POWER
Operation requires 14 volts DC. This voltage is provided by the lAVDC-jS ampCIass 11 power
supply that plugs into a non-swttched 115VAC—wal] outlet. This provides power for operation and
maintaining charge on the IZ-volt internal battery.
AC power is monitored “Power Failure" will be annunciated typically within 60 minutes of no
AC Power, It will restore automatically after AC power is restored.
>>IMPORTANT! DISCONNECT THE SYSTEM BATTERY WHEN SYSTEM IS NOT
IN SERVICE IF AC POWER IS OUT OF SERVICE FOR MORE THAN 16 HOURS,
TECHNICIAN SERVICE MAY BE REQUIRED TO RESTORE THE SYSTEM,
2.2 CONTROL PANEL TAMPER CIRCUIT
The control tamper circuit and system battery test are sofiware selectable in Location ‘89 of System
“Program Memory.” The System powers up with ‘89 “Off.” This means that the Panel tamper circuit and
internal battery test will not function. It is recommended that this option be turned On afier the System is
completely installed. the battery connected. AND the System cover screwed on. CAUTION” The tamper
audible annunciation is LOUD-this could be dangerous to an installer on a ladder. ifthe System is
activated when the installer is next to it.
>>NOTEz Once Tamper and Battery Test is turned On, the System must be Reset (see Section 5.1) to
remove.
2.3 CONTROL PANEL RADIO ANTENNA
The Control Panel Radio Receiver has two iittemal antennas attached. The antennas will provide adequate
reception for most installations Installations where Sensors are located 100 feet or more from the Panel
may require use of external antennas. The external antennas provide better radio reception if required. Use
ofexternal antennas requires that the internal antennas be removed. The external antenna kit (E. A. K.»l) is
available for this application. Installation instructions are included with the kit.
The external antenna kit should be used in wall mount installations only.
2.4 SELECTING A PANEL LOCATION
Where securily is a major concern. the Panel should be located well within the protected area, and wall
mounted as high as possible to discourage tampering. The Panel telephone and power connections can be
brought in through the backside. or into the lower front of the box. by using surface mounted wire cover
products such as “ Wiremold NMI“ ln installations where personal assistance is the primary use. the
Panel may be located on a tabletop. kitchcn counter. or other
Page 2
FCC ll)‘ TAl A7I’3
LEAVE ABOUT ONE PAGE FOR DRAWINGS
(TWO DRAWINGS OF PANEL, (COVER OFFAND ON), SHOWING CABLE
CONNECTIONS/bl POWER, bunny. speaker-led, TELCO HOOKUPSHOULD GO HERE.)
RJ jack T adapter. cover cable. Panel‘s 4 pin 2 pin connector. power. hanery, and telephone
cenneclionsA Point oul bus connection, and auxiliary enunciator imerface localion.
Page 3
FCC ll): TAI A7l’3
2.4 SELECTING A PANEL LOCATION (Conn)
convenient location with telephone access and AC power available from a non—switched outlet.
Keep in mind the advantage ot‘eztsy access to viewing the system slams light. Hardware for both
tabletop and wall mounting are provided. >>CAUTION. Good radio communication requires
that the Panel not be mounted on metallic wallpaper, or walls with metallic wallpaper or
mirrors on the backsi Installations that use the two-way audio feature should avoid close
proximity to air conditioners. hot air ducts, TV‘s or radios. and other devices that are
intermittently noisy and could reduce audio reception.
3.0 BBC ALARM SYSTEM PROGRAM OVERVIEW
Alarm system Control Panels are shipped from the factory with a basic: alarm control prugnmt installed.
For this program to be functional it needs much more information about the installation. This additional
information (number and type of Sensors. Access Codes, alarm repon telephone numbers, etc.) must be
added before the system can be operational All ofthis additional information is added at installation time
to a pan ofthe System Program called Program Memory. Organization is such that Section A, below,
appears first in the program list. then B. then C.
There are three primary sections to Program Memory:
A. The USER Section—Used to control the system operation. It allows the user to enter
custom Access Codes. select status audible gain and voice/tone status format. and select
the Chime feature. Enter “NNNN-O" for access
B. The OPERATING Section—Used to assign transmitters to groups that have response
characteristics for different types ofalarm conditions.
C. The COMMUNICATION Section-has options and information necessary for alarm
reporting. This includes Central Station telephone numbers. digital account number, two-
way audio option On-Off selection. etc
The #6000 System allows the Access Code holder access to Section A only. The alarm maintenance
provider has access to all sections except the user Access Code portion ofsection A,
3.1 RADIO TRANSMITTERS/SENSORS TH EORV OF OPERATION
Radio transmitters are used to the control the system and to sense movement within the premise. AII
transmit six—digit Identification numbers. status, and supervisory signals. These signals are referred to as
“radio packets”. Their six-digit ID number is too cumbersome to relate to the system user. In the Sensor
programming process. we assign this six-digit number to be recognized as part ofthe system. Once part of
the system. it is rc-assigned a system two-digit ID number. These are the numbers referred to as "Sensor"
numbers.
The "Sensor" numbers are now recognized by the system, and the system has to be told "what to do" when
it hears signals from them. We accomplish this by assigning Sensors to “Behavior Groups“ in Program
Memory. These groups define specific steps the system will go through upon heartng a Sensor signal
assigned to them. For example. a Call Button (assigned Sensor number 03). may be assigned to group
“40”. On hearing Sensor "03" send an alarm radio packet signal (button pressed). the Panel pmgram will
Search for and find Sensor number 03 in group " ‘40 ‘1 At this point, the system will implement all ofthe
“40" requirements. The alarm audible Will activate, “Help, Help, Call Button 03 Alarm" will be
annunciated (followed by Siren) (along with optional Central Station notification and two»way audio). Any
activated Sensor assigned to group " ”40 " thI cause the system to activate in the same manner, and will
cause the other necessary Alarm steps to be taken.
Page 4
FCC IL): TAl A7P3
"r SUMMARY
Radio transmitters send a 6-d rt transmitter ID number along with their present slams. These numbers
must be programmed to be recognized by the system, as pan ofthe system. Once recognized by the Panel,
they are re-assigned a two-digit system ID number. The two-digit ID number is then assigned to a
Program Memory System Behavior Group (for example: *21. Delayed Intrusion Sensorjr The Behavior
Group will determine how the system behaves when a signal from a Sensor assigned to it is received.
- SUPERVISED SENSORS.
All system transmitters emit an hourly supervisory signal. All the Sensor Behavior Groups except for some
ponahle transmitter groups monitor for supervisory signals. Supervised groups will report a supervisory
failure ifa Sensor is no! heard from in a twenty»four hour interval.
4.0 SYSTEM PROGRAM MEMORY ACCESS
>>NOTE: System must be in “Level 1. Off“ for access to Program Memory.
>>NOTE: The system will not respond to alarms during programming.
>>NOTE: You may want to consider delaying any Access Code changes until the installation is
complete, to reduce confusion
All unprogrammed systems will respond to Technician Default Access Code, “ it 432l " and user Default
Access Code “ if 1234
Once in Program Memory and "Program---l’rogram-“ is annunciated. a new Technician Code can be
assigned by entering program level * 65, and then following the procedure for entering the new Technician
Access Number (“NNNN), Once programmed with a new number, the Default Technician Access Code
will no longer work.
The BBC Security System memory is programmed using a Touch-Tone telephone either locally or from a
remote location‘ The programming procedure is the same for each method, The difference is how the
Farrel is accessed.
4.1 LOCAL ACCESS
With local access. the system memory is programmed on site. Access to Program Memory requires the use
ofthe Technician Access Code. Program Memory in an unprogrnmmed system is accessed as follows:
Enter Default Technician Access Code (TT “ it 432i ") or a new Technician Access Code if one
has already been assigned.
“Program"-Program»--Program" is annunciated when Program Memory is accessed.
4.2 REMOTE ACCESS
Technician remote programming uses the remote call in feature to gain access to the system To do this, the
system user would give the alarm maintenance provider a Temporary Access Code. The technician would
then call the premise following the remote call in procedure, disarm the system, enter the Technician
Access Code, perform maintenance operations. and leave System Arming Level as it was when calling in.
>>IMPORTANT! The system user must give the servrce technician an Access Code for system access.
The system user may give a temporary rode that is replaced afier service is done. Afier gaining system
access, and disarming system, enter the Technician Code the same as is done in local access.
The remote access feature requires that the premise control answer the telephone. The premise Panel will
answer il‘cilher the Ring—Pause Ring (R—P-R) option or the Twelve~Ring answer option is used. These
options are described below. (The R-P-R option is programmed to default to “On" when System is
powered up.)
Page 5
FCC lD ‘l‘AI A7l’3
4,2.I Ring-Pause-Ring( R—P-R) Option
Call premise. After two ring signals. hang up the phone. About 10 seconds later, pick up the phone and
Call in again. The System will answer after about two rings, afier which “Code Please ----- Code Please"
will be annunciated for 20 seconds. During this time. you may enter detailed status ( “ # NNNN "‘ ") or any
other status codes. and the System will work the same as on premise. At this point, turn System oft'and
enter Technician Access Code to enter Program Memory.
4.2.2 12 Ring Answer Option
Call premise and let the phone ring 12 times. The System will annunciate “Code Please vavava Code Please“,
Follow the same procedure as described in Section 4.2.I above.
5.0 DETAILED PROGRAMMING PROCEDURES
5.1 SYSTEM PROGRAM RESET
This procedure removes the entire system program and returns selection options back to System “default"
settings. It would typically be used at the beginning ofa new installation and is required when a system is
taken out of servrce and rte-installed in a new location. Reset requires disconnecting the system battery and
removing AC power, AC Power is then re—applied while momentarily pressing the TT "* " button on a
system telephone during the first 5 seconds ol'“Power On" (LED blinks during this time). The system will
annunciate a "Ping-Pong“ aler1 afier the TT " " “ button is released and Reset is complete. Re—connect the
battery at that point. >>IMPORTANTl Remember to bypass the Tamper circuit BEFORE removing
the cover. (Enter "Access Code * 6 + 00" to bypass Tamper). Resetting the System w turn *89
(Panel Tamper and Low Battery detection) Off. This is the battery test and tamper bypass.
Remember to select this option to “On” again.
5.2 READY REFERENCE GUIDE AND SYSTEM INSTALLATION SHEET
The “Ready Reference Guide“ is a small card which has a brief list ofinstructions of commonly used
features. It also has a System Installation Sheet (form for listing types and locations oftransmitters) on the
back of it. A sample reproduction of both sides ot‘a Ready Reference Guide/System Installation Sheet is
included as Page 7. This sample should be used as a guide to fill out the necessary system information. A
copy ofthe System Sensor location and assignment should be folded and inserted in back ofthe
battery within the Alarm Panel box.
Program Memory Group Number (left column): This entry defines the Sensor and Call Burton Behavior
characteristics. Transmitter Behavior Group numbers are listed in Section 6.0.
Sensor (Device) Identification Number (next column): This entry number is used to identify each Sensor
and Call Button used in the system. Note that many Sensor numbers are not used. Simply leave out entries
for unused Sensor numbers. >>NOTE: To avoid confusion in identifying Sensors, label each Sensor as
i! is identified using the attached “Sticky-Back" labels.
Key Holder information (bottom of sheet): These entries are the responsibility ofthe system Master Key
holder to fill out. It is a good idea to assist users in how to make these entries. but make them aware that the
actual codes are their responsibility.
>>NOTEz The maximum total number of transmitters that can be used in the system is 19. There is no
limit on the number oftransmitters that can be assigned to each behavior group as long as the total is 19 or
less. There is no need for numbering Sensors in any kind oforder. Only the Control Panel (Sensor 00)
number is ore-assigned.
Page 6
SAMPLE READY REFERENCE GUIDE AND SYSTEM S TALLA T1
FCC ID: TAI A7P3
SHEET
READY REFERENCE GUIDE
- ALL 1;le 5 ARE MADE WITII I()l‘(‘ll-‘|0l‘(‘li Plloo
CODE.
- NNNN DESIGN‘A'I‘I'" \ OI'R A(
Prelimiuu < Cupy
E,
" I O DISARM SYSTE‘I
l'o lum off burglary plulemnn
Enler N N'th I
‘TO ARM 5 E‘H WHILE IN
PREMISL 15 I AV)
Tl» lum pcrlmeler wnsors one msldt stnsurs oIT
Enttr # WNNN 2
fro ARM SYSTEM wmu: LE.-\\"I\'G
PREMISE awn;
To turn penmeler scum, and inside Senmrfi on
Enler fl M\N\ 3
‘TO cum. .\(‘(‘IDL‘\ m, ALARM
l'o Slop slrcns and cancel call lu Ccnuul slalion
(Telephone No 7- l
Enter is \\N\‘ I
”TO REMOVE DELAY TI\IES
(“INSTANT“)
Tn rcmov: dcln) "me: In uvel 2 m 3
Enters during min delay lime
”00 , DUN!) WHEN YOU TRY
TO ARM \OUR S STEM
ll )cu llear u 000A sound when you in lo
arm mul syslcm. a sensor ls open. Eilhcr close
luc henwl. or bypass il using llle bmass
proccdurc dcscrlbcd below
"I0 BYPASS A SPECIFIC SENSOR
10 mm on syslcm wllh a speclfic sensor open
Enler u NNNN 6 as
Willem ss u |hc spcclf'lc scnwllu bypm.
' I 0 CHECK STATUS OF SYSTEM
ru dclemlme me eurreul pmlcclinn level
Euler ct ~
"REMOI E PHONE ACC 4 S
To access Syslcm from remule lucallous Sec
Manual for calling Inalrucllolis. men.
Euler ll NNNN , (REMOTE STATUS)
Nc VOlln s M
l‘o make sure ma! yum x, mm l< opemllng pmpelly.
mu shlluld lesl ll licqucnlly lal Icml once each
week) Consul! ylmr Owner‘s Manual for ymmdumx
S\ S I Ill.“ IN TALLATION SHEET
DATE
PROGRAM DEVICE, DEVICE LOCATION
0 R01 ‘P ID NO.
I’m-Assigned oil (roulml Panel First FIer Hullwuy
ol
0:
03
* u (u (”all sonuu rumble
as
06
, 21 07 Door Sensor From Door
* 22 int Window Sensor Den Winduw-Slluth
' 22 09 Windnw Sensor Den Window-West
'21 ll) Door Senwr Kilelieu Enlry Garage Door
d~zz II Door semi Pllia Door, Buse-ueuqulkoul
'22 12 built Scnsur neuron-u s ding Glass Dom
- 35 13 Smoke Sensor neamuiu Hullwfly
e u u Mueiuu Sensnr Living Room Foyer
15
If)
17
m A
l')
MONITORING FA( II.IT\' PHONE N0.
ERVK'E
PHONE N0.
5 QNFIDENTAL CODE LIS’I':
A('( E SCODE
ASSIGNED T0
(FUTURE OPTION)
1" com:
2‘” ( om:
Page 7
FCC ll): TAIA7P3
5.3 MEMORY PROGRAMMING
Once the Panel Program is accessed by local access or remote access and "Program—"Program-J‘ is
annuncialed, the Memory is ready to be programmed. Programming the system requires making TT entries
into the proper locations. A description oftlte enlry locations and required entries is given below.
>>NOTE: Wait for completion of voice message before entering TT commands
>>NOTE: SYSTEM MUST BE IN “LEVEL 1, OFF“ FOR ACCESS TO SYSTEM PROGRAM
MEMORYt The system will return to "Level 1. Off" after 90 seconds of no activity, or on a TT entry of
”99 i,_
Basic Feature Detailed TT Desertgtion of
TT Entry Enlry Detailed Feature
*01 to "02 Access Codes See “ Level 0 ” (page It). User User access only
Manual)
" 03 to “05 NOT USED
* 06 Chime (Ping-Pong) “* 06 " Each entry toggles between ON (default)/OFF
ON and OFF (ON—OFF—ONDFF—. .,)
‘ 07 Audible Gain Status " * 07 0 “ LOW
" " 07 I “ (Default) MEDIUM
“ " 07 Z " HIGH
‘ 08 Status Level " “ 08 0 “ Status annunciated verbally
Announcement only.
“ ‘ 08 I " (Default) Status annunciated with
BEEPS,
" 09 System entry delay ““ 09-NN“, where NN is time in Allows time to enter premise
seconds (2 digits), Default is 45 before Alarm activates,
seconds.
Example: “ " 09-09 " Afier nine seconds delay time
“On" will be annunciated
‘ 10 System exit delay "' IO-NN " where NN is the time in Allows time to exit before
seconds. up to 60 seconds (2 digits), System is Armed.
Default is 45 seconds.
* Ilto" IS NOTUSED
Page 8
FCC lD: TAlA7P3
5.3 MEMORY PROGRAMMING (Continued)
‘20
Descrintion of Feature
Identifies a Transmitter’s “System Sensor" Number.
>>NOTE: Do this test after entering all Sensors 020) to confirm proper Sensor ID number.
Enter “19". “Begin System Sensor Test" will be annunciated Activate transmitter alarm, Shortly after
last packet “BEEP" is annunciated, Sensor identification will be annunciated. System returns to Program
Memory 45 seconds after last entry or new program selection
Provides for conversion of each transmitter’s six-digit ID number to n two-digit system ll) Number.
System will return to Program Memory alter 45 seconds ofno entries.
~ To assign a transmitter ID number to a system sensor number:
Enter “20“ in Program Memory. On hearing the annunciation “Enter Sensor“. immediately enter the
Sensor 2-digit number you want to assign to a transmitter. On hearing the annunciation “Begin Sensor
Test", activate an Alarm condition on that transmitter only (packet BEEPs will be annunciated).
Enter Tr "it" afier hearing the "BEEPing" “OK“ will be annunciated. Repeat same procedure for each
transmitter to be added. This step causes the beginning Sensor to be assigned the Sensor ID Number.
>>NOTE: Ifa Sensor Number has already been assigned to a Transmitter, “ON“ will be replaced
with an “Onga” annunciation. and no entry will occur.
. To remove an assigned transmitter ID and system sensor number:
Enter TT “20" in Program Memory. On hearing the annunciatlon “Enter Sensor", immediately enter
TT “if" followed by the Sensor Number you wish to delete. “OFF“ will be annunciated when Sensor
Number has been removed.
>>NOTE: The Sensor Number will also be removed from the group (it any) it was assigned to.
- To replace a defective transmitter:
Follow the removal and replacement *20 procedure described above, Confirm Sensor/Transmitter ID
using *l9 procedure. After this 15 done. re—enter the Sensor into the group it was previously assigned to.
Example: To remove Sensor " 03 enter Memory * 20, then enter “ it ", then number" 03". “Off"
will be annunciated. Place Sensor "03" tag on new transmitter. Enter Program Memory ‘20 Alarm
Sensor newly assigned number “03“. After hearing the Packet BEEPs annunciated from the
Sensor, enter the TT " it "On“ will then be annunctated. Confirm new “03" Sensor 1D by using
* l 9 Sensor verification procedure. Now re-enter “03" into the appropriate Behavior Group.
Procedures for programming individual transmitters are as follows:
>DWS: Move magnet toward and then away from. Sensor reed switch.
>Smoke Sensor: Push test button and hold for five seconds while Alarm is sounding
>PIR: Place Sensor on a flat surface, pattern facing down, for five minutes. Make sure that no motion
ofthe Sensor occurs during this time. Then pick up the Sensor and rotate it. This will cause motion to be
sensed. and a transmission to be sent. The five minute delay is necessary because PlR’sare designed to
require this “no motion detected" time in between activations. in order to conserve battery life.
>>NOTE: This procedure must be followed for all system Sensors. Once this is done. the two-digit
system Sensor numbers (hereafter called Sensor Numbers) must be assigned to the Sensor Behavior
Groups on the following pages.
Page 9
FCC 11)- [Al /\7l’3
6.0 ASSIGMENT OF TRANSMITTERS TO BEHAVIOR GROUPS
Transmitters can be assigned to Program Locations in various Behavior Groups, as listed below,
>>NOTE: The total number of Transmitters that can he used in a system i519. From Ion) to all
nineteen transmitters can be assigned (* 2! through “ 51). A Sensor Number cannot be assigned to a
group until a transmitter ID number is assigned to it using the m) procedure. (See Section 5.3).
BEHAVIOR GROUP PROGRAM LOCATION
Intrusion Sensors =‘21 to *25 (*26 to *29 NOT USED)
Special Sensors ’“30 to *32 (‘33 to ‘34 NOT USED)
Fire Sensors "35 (‘36 to ‘30 NOT USED)
Call Buttons *40 to *45 (‘46 to )"58 NOT USED)
6.I T0 ADI) A SENSOR TO A GROUP
Once a Behavior Group is selected, "Enter Code" will he annunciated. Sequentially enter the two-digit
numbers of the Sensors to be assigned to it. "OK" is annunciated afier each successful entry. Once all
Sensors in a group are entered, re-select the group. At that time the Panel will annunciate all Sensor
Numbers associated with that Group Number.
6.2 TO REMOVE A SENSOR FROM A GROUP
A Sensor is removed from the system by removing it by using * 20 Program Memory. (See Program
Memory ‘ 20 for procedure). Doing this will automatically remove it from the assigned group. Re-enter
the Sensor in ‘20, and re-assign it to the desired group.
6.3 T0 REPLACE A DEFECTIVE SENSOR IN A GROUP
See Program Memory "20“ procedures.
6.4 TO MOVE A SENSOR FROM ONE GROUP T0 ANOTHER
Entering a Sensor into a Behavior Group will automatically remove it from any previously
programmed group.
Page 1 0
FCC ID: TAI A7F3
7.0 SENSORS
7.1 INTRUSION SENSORS
These Sensors will activate the Siren, and cause “Intrusion, Intrusion, Sensor NN, Intrusion, Intrusion,
Sensor NN" to be annunciated intermittently with the Siren. The Siren is enabled afier four minutes plus
communication time. but will re-start on detection ofa new alarm. The various types of Sensors are
described below:
Delay: Refers to the entry exit delay times explained on page 6 ofthe Users Manual.
Instant: Refers to alarm activation immediately on Sensor alarm detection,
Initiate delay: Refers to Sensors detecting an alarm condition, but activating the entry delay
(allowing user time to disarm) instead ofcausing an immediate alarm.
Delay follower: These are Sensors that will normally cause an “Instant" alarm, but are not active
during delay times, Some applications are: to provide control protection, to use in hallways from
bedrooms to main Iivmg areaa erc.
Program Locations (or the various types of Sensors are as follows:
PROGRAM SENSOR GROUP INACTIVE ARMING ACTIVE ARMING
LOCATION LEVELS LEVELS
‘ 21 Door, Window: Initiate Delay 1 2 & 3
* 22 Door ,Window, Perimeter Instant I 2 & 3
" 23 Interior Motion' Delay Follower 1,2 3
* 24 Interior Motion: Initiate Delay 1, 2 3
" 25 Door ,Window, Interior" Initiate Delay I, 2 3
” 26 to * 29 NOT USED
Page 1 l
O : TA] A7P3
7.2 SPECIALSENSORS we”)
PROGRAM SENSOR INACTIVE ARMING ACTIVE ARMING ALARM
LOCATION GROUP LEVELS LEVELS ANNUNCIATION
‘ 30 24 hour “Special". Bypass for Off 1, 2,& 3 Siren & "BEEP",
Used for gun "Sensor NN Alarm",
cabinets‘ stored Ihen Siren
motor homes, etc.
‘ 3! 24 hour “Specml” Bypass for Off 1. 2t & 3 “BEEP“, “Sensor
Auxiliary. Used NN Alarm“,
for water repeated every few
detection, freeze seconds
detection. e|c.
' 32 24—hour “special" Bypass for Off I‘ 2‘ & 3 “BEEP“ "Sensor
Used for medicine NN Alarm",
cabinet, child repealed every few
alert, etc. No seconds
communication
report.
‘ 33 to " 34 NOT USED
7.3 FIRE SENSORS
These Sensors activate the four-minute time out Audible Alarm. The alarm will re-starl on the detection of
a new alarm event. These Sensors cannot be bypassedi (The Bypass feature is described on page 9)
PROGRAM SENSOR GROUI1 INACTIVE ARM ING ACTIVE ALARM
LOCATION LEVELS ARMING ANNUNCIATION
um
* 35 FIRE-HEAT SENSOR Momentary Reset on I, 2, &3 Siren and “Fire, Fire,
Return to Level I. Sensor NN"
' 36 to ' 39 Not used
Page 1 2
8.0 CALL BUTTON GROUP ASSIGMENTS FCC ‘D T“ A7”
Call Buttons that permanently remain on premise are typically programmed to report supervisory failure if
the system does not hear from them at least once in n four-hour period. Silent Buttons are typically used
for break-in or other duress applications, Status audio Level “HELP" Buttons provide Low Level Alert
Alarm in applications where there is no one available to hear a loud audible alarm. Choose the application
that best serves the need.
PROGRAM LL BUTTON GROUP ALARM SOUND AND VOICE ARMING
LOCATION ANNUNCIATION LVLS
ACTIVE
‘40 Stays on premise. Supervised. Siren and “HELP" with Call 0, 1,2
Button Number annunciated.
“ 4l Can be removed from premise. Siren and "HELP" with Call 0, l, 2
Unsupervised. Button Number annunciated,
* 42 Stays on premise. Supervised, Status audio level, "HELP“ with 0, l. 2
Call Button Number annunciated.
* 43 Can be removed from premise. Status audio level. "HELP" with 0. l. 2
Unsupervised. Call Button Number annunciated.
* 44 Stays on premise, Supervised Silent Alarm 0. l,2
" 45 Can be removed from premise. Silent Alarm 0. 1,2
Unsupervised.
‘ 46 to * 58 NOT USED
Page I3
9.0 OTHER ASSIGNMENTS
rec 1D: m1 A7P3
>>NOTE= SYSTEM INCORPORATES TOUCH-TONE DIALLING ONLY
Basic
TT Entry
‘60
‘61
“ 62 to ‘63
‘64
“65
‘66
t67
*X7
'88
‘89
Feature
Central Station
Telephone Number
Central Station back
up number
NOT USED
Central Station
account number
Technician Access
Code
NOT USED
2-Way Radio on.
Central Station repons
(can be used to
remove Z-Way
option).
Enables either Call
Back Option
l. Ring-Pause-Ring
(R-P—R) Option
2. 12 RingAnswer
Option
System lZ-Hour
Battery Test and
Control Panel Tamper
Detection.
Detailed TT
EntQ
“ NN...Up (0 I6 Digits. then “if ".
The number efdigits in the telephone
number MUST EXCEED four digits.
A “ ti " Inserted within the first four
digits will program a pause(s), each of
which is annunciated as “Ping-Pong".
No entry followed by “ if " will
disable, Alternate attempts, 3 first. 2
second then repeat for ten attempts
total.
“ ' 64 NNNN Default is “ 0000
(Assigned Account Number must be
>5000 for BBC Central Station).
““ 65 then “NNNN ", then
"NNNN" again. Default is " 432! ‘".
“ * 67 “ (Default IS On).
“ " 87 " (Default is On).
*ss (Default is R-P-R Option)
‘89 (Default is “OFF“)
Page [4
Desc Qtion of
Detai ti Fealllre
Toggles between "ON"
and “OFF":
ON: Reports Alarm
Condition. N0 Restore
Report
Toggles between “ON"
and “OFF“:
Toggles between I. And 2.
Once selected. Panel must
he Reset, to turn Off.
PACSUXZ} doc Rev. 5. 3/23/98
FCC ll): TAI A7I‘3
BBC MODEL #6000
SECURITY SYSTEM
OWNER’S MANUAL
PRELIMINARY COPY
(APPROVALS PENDING)
AUGUST 1998
BBC Corp.
433 Easl Lmle Canada Road
SIT Paul, MN 55117
Telephone‘ (6I2) 490—1036
Fax: (612) 490-0495
Eleclromc Mail: int}1@birclmgggg)m
Rev 5. 8/23/98
FCC II). TAI A7P3
TABLE OF CONTENTS
Page
FCC NOTICES 2
LIMITATIONS OF ALARM SYSTEMS 3
BASIC COMPONENTS OF YOUR SECURITY SYSSTEM 4
BASIC THINGS YOU SHOULD KNOW
ABOUT YOUR BBC #6000 SECURITY SYSTEM 5
'r ACCESS CODE 5
‘r TURNING YOUR SYSTEM OFF: USE THIS
TO CANCEL AN ALARM 5
; INTRUSION SELECTIONS 5
r FIRE PROTECTION 6
"r SIRENS 6
‘r SYSTEM STATUS LED INDICATOR 6
"r RESET 6
“r CALL BUTTONS 7
? ALARM MEMORY 7
BBC SECURITY SYSTEM FEATURES s
I. OPERATOR PROTECTION SELECTION s
2. PROTECTION MODIFIERS 9
3. SYSTEM TESTS 9
4. SYSTEM OPERATION OPTIONS-LEVEL 0 I0
5. OTHER TT ENTRIES I I
6. TELEPHONE REMOTE ACCESS II
7. SYSTEM TESTS AND TROUBLE ANNOUNCMENTS II
Page I
' ' I " 7P3
FCC NOTICES mm “M
FCC Part IS Information to the User
Changcs or modrficauons no! cxpmwly upproyed oy BBC Corp elm vold rlre user's nurnonry m opemle lhc equipmern
FCC Part I5 Class B
1an equipmem has been resred and round ro comply nun ilre llmlls lo. a cum B dlgllal devree, pursuam lo pan ls oI'lIlc l—c Rules.
These: Ilmils are designed lo pmvrde rcasonablc proleelion rlgalml inmrcrcnees in a msidenllal innallrnlon
This equipmenr generales. uses, and can radune radlo frequency energy and, rrnol lnswlled and used in accordance willl lhc
instrucllons, mu) cause harmful IlllErfEl’EnCE‘ I0 radlu uylllmlln ium However (her: ls nn guamnlee Ihal inlcrfcrenccs will nut
occur in a panlcular lllSlaIlauOlL
ll'lhls eqmpmem does cause nnrmlul mlerlerenee lo rudio or releyisiun reeepuon. whlcll can be deiermrned by iumrngrhe cqulpmem
on and on me owner 15 encouraged lu lr) tn eorreel llre interference by one or more of llie follawrng measunzs
- Reonenl pr reluerne ilre re mug nnlenrra
- Incmasc llre scpmaiiun bclwccn rne equrpmeni and receiver
. Cunneei me arreeled equipmem and ilre panel rcccwcr lo xtpzralc nude“. on nrnerenr branch circuils
- Consul! llle dealer or no upcrlcnus‘d radio/TV irennrrmn for help
FCC Part 68
Thls equrpmenl e rnplres nilh pan ex oflhc FCC Rules l neared un mis equipmenr ls a label mar cnnlalns. amung orlrer informalion,
lne FCC reglslralion number and me ngcr Equivalence NlllllhcriREN) (or lhls equrprnenl lrrequeered. lhls mformallun mun he
provided la rue relepnone company.
The REN ls used m delennrne me murrmum llumbcv ul dulucs lhal may bl: mnncclcd I0 ypur lelepnone me. In mas! areas. lhe suln
oi'all dcvloc RliNs should ninereeed fne (5.0)
lfrhis equipmenl causes harm lo die leleplrone llcmmk, lhe iclepllclne compnny may rempararily dlsmnnecl your ecrvicc If posslhle,
you will he nolified in advance Wlien advance nurse is nol pracllcal, you will he noufied as soon as posrllrle You will also he
advlsed of your rrgnl no file a cnmplalnl wl|ll ll“: rcc
Cqulpmflfllr operalion or nmccdurci lhal could zlfl'ecl the proper
unlnrerrupled scrvicc/
ler leleplrone compan) ma) makl: changcs in us i‘nerlnu
opemllpn ol‘your equipmem viru n ill be gncn ndmnred noliee in order m main
lryou experience lrpnhle wnll ilm equipmenl. plcay: eunlael lhc company lhal installed lhe equipmenl for seryree and repair
informallon. The telephone company ma) ask mu ll) dls llllecl lllls equlpmem from line nelvmrl mm] the problem has been
correeled pr you are aurc lhal ilre t‘qnipmcnl re mn malfunrlionmg
Tins cqulpmenl may no‘ he used on com sen/ml; pmvldcd by me relepnune company L'unnctmm lu party lrnes ls subject m slam
lanll’s
BBC Corp,
433 East Linle Canada Road
St. Paul, MN 55117
Telephone: (6I2) 490-1936
Fax: (6I2) 490-0495
Electronic Mail: info@hirchbridgercom
Page 2
DDUUUDE
rcc lD: iAi A7P3
LIMITATIONS OF ALA SYSTEMS
Even the most advanced alarm system cannot guarantee protection against burglary. fire. or
environmental problems. Any alarm system is subject to possible compromise or failure-to-warn.
IF:
Sirens are not located within hearing range of persons who are asleep,
Sirens are located in remote parts ofthe premise.
Sirens are located behind doors or other obstacles.
Intruders gain access through unprotected points ofentry or areas where Sensors have previously been.
intruders have the technical means of bypassing. jamming. or disconnecting all or part ofthe system.
Power to Sensors is inadequate or is disconnected.
Freeze Sensors or other environmental Sensors are not located in areas where the appropriate condition
can be detected.
Smoke does not reach a Smoke Sensor. For example:
0 Smoke Sensors cannot detect smoke in" chimneys, walls, roofs. or areas blocked by a closed door.
0 Smoke Sensors may not warn in time when fires are caused by: smoking in bed, explosions,
improper storage of inflammable matervals. overloaded electrical circuits, or other hazardous
conditions.
0 Smoke Sensors may not detect. smoke in other levels ofthe building.
Telephone lines are out of service. Telephone lines are also vulnerable to compromise by any of
several means.
The most common cause ofalarin failure is inadequate maintenance. Therefore, test your system at
least monthly to ensure that all Sensors. sirens. and telephone communications are working correctly.
Although you may be eligible for reduced insurance premiums by having an alarm system, your
system is no substitute [or insurance,
WARN Security system devices cannot compensate you for the loss oflife or property.
Service
If you have any questions about your security system, or ifyou ever need service, please contact your
security consultant:
Company Name
Address
Telephone Number
Page 3
l-‘CC lDt ‘1‘AI A7l’3
BASIC COMPON OF YOUR SECURITY SYSSTEM
Picture ofControl Panel detailing status light, speaker, mic.
Legend—-— Receives Status and Control signals from transmitters and premise
telephones. Announces Svstem Status and Alarms. Cont-ins communication and
control electronics and includes standby power.
Picture of Call Button, with necklace, pinned on user clothing lapel, with belt and clip,
Legend-«Universal Call—Button Transmitter.
Picture of DWS
Legend—Door—W'ndow-Sensor (DWS). Most commonly used transmitter.
Contains a magn callv activated switch that when used with magnet, provides
open-close sensing. Also has provisions for an external]! activated switch input.
Picture of Smoke Sensor
Legend-vProvides smoke detection and alarm annuncintion independent of the
panel annnnciation.
Picture of PIR
LegendfMotion Sensor. Detecm and reports movement of individuals within its
viewing area. Uses Passive lnfraged Sensing (PlR).
Picture of typical premise telephone
Legend—Sgtem can be controlled by using your premise telephones or remotelx
with an off-premise Touch—Tone (TTI telephone.
COVER, with pictures and captions.
Page 4
FCC 1D: TAI A7I‘3
BASIC THINGS YOU SHOULD KNOW ABOUT YOUR BBC #6000 SECURITY
SYSTEM
Br ACCESS CODE
Your System is designed to be controlled by using your Touch-Tone (TT) telephone. Control is obtained by
picking up the phone and pushing Tl‘ buttons to select the level of protection desired. The results ofthe
entry will be announced over the System speakers‘ or over the telephone in the case of remote call in.
The #6000 Security System can accommodate two Access Codes The second code can be temporary and
maybe given to alarm maintenance people to gain access for remote programming purposes,
Your System is shipped to work with Access Code "l234" (DEFAULT Access Code), A Touch-Tone
(1T) “ it “ is entered before the Access Code. then the Level protection desired is entered afier the Access
Code; for example, enter“ it [234 -l " for "Level lo Off“, >>NOTE: This DEFAULT Access Code
number should be changed to your private Access Code as soon as practical, for security purposes, (See
page 10). Touch»Tone entries and resulting Arming Levels are as follows:
TOUCH TONE ENTRY ARMING LEVEL ACTIONS
" it 1234 -1 “ Level I. Off Resets alarms. lntmsion protection (except 24vhour)
turned Off
" Fl 1234 -2 " Level 2, Stay intrusion protection with interior Sensors turned Off.
“ ti 1234 »3 " Level 3. Away All intrusion protection turned on.
$1 “ " At any time No change System status audibly annunciated.
'r TURNING YOUR SYSTEM OFF: USE THIS TO CANCEL AN ALA M
Intrusion protection and any alarm conditions can be can be turned OFF by picking up a Touch—Tone
telephone and entering " it ". then your Access Code, then “ I ”,
Example:
ENTER "‘ it NNNN -I "A You will hear "Level 1, Off“ (NNNN represents your Access Code).
This procedure is NECESSARY upon entering a premise with intrusion protection ONt
Additional measures wrll likely be required to CANCEL an alarm condition for communicating
alarms These requirements vary with the monitoring service provider.
SUPPLEMENTAL "CANCEL" lNFORMATlON
‘r‘ INTRUSION SELECTIONS
El PERIMETER PROTECTION-M515 WHILE PREMISE IS OCCUPIED
Pick up any phone and enter Touch—Tone " it NNNN 2 ”.
You will hear “BEEP-BEER LEVEL 2. STAY followed by “LEVEL 2, STAY, ON “
afler the exit delay time expires
El TOTAL PROTECTION-USE WHILE PREMISE IS QOCCUPIED
Pick up any phone and enter Touch Tone " rt NNNN 3 ‘.
You will hear "BE EP-BEEP-BEE P, LEVEL 3, AWAY ", followed by “LEVEL 3, AWAY,
ON " afier the exit delay time expires
Page 5
FCC ll): TA1A7P3
BASIC THINGS YOU SHOULD KNOW ABOUT YOUR BBC #6000 SECURITY
LYSM
yr INTRUSION SELECTIONS (Conn)
D IF YOU TRY TO SELECT PROTECTION, AND A SENSOR IS “NOT SECURE“:
This situation can occur ifa protected Window, door, etc, is open. when arming System.
(>>NOTE: Level 2 does not require interior doors to be armed. These Sensors may be listed as
“Not Secure’l but are not used in level 2 protection and their status can be ignored).
Afier entry ofthe Access code and Protection Level, you would hear an annunciation of all
Sensors (if any) that are not secure.
You can bypass Sensors by entering Access Code + 6 + Sensor number ( Tr “ NNNN 6 SS").
You will then hear “Sensor SS Bypassed”.
Or, you can go to the Sensor and secure it (close door or window) and repeat the arming
procedure,
it INTRUSION PROTECTION
Several types of Detection Sensors may be used in the System. These include DWS (Door and
Window Switch activated) Sensors, Motion Sensors, and Glass Break Sensors. The Sensors are
usually arranged to provide Perimeter Protection (Sensors arranged at entry points around the
perimeter ofthe premise) and lnterior Sensors (provided to pick up any intrusion that escapes the
perimeter detection). The Perimeter Protection usually allows for entry and exit time delays on
frequently used entry points. Entry time delay provides for an adjustable time period upon entry to
reach a telephone to cancel the pending alarm activation. Exit delay allows the user to become
clear ofthe premise before the Intrusion Protection is activated.
‘7 FIRE PROTECTION
Smoke and/or heat detectors are active |n Levels l, 2, and 3 Smoke detectors also annunciate a local
audible signal for both alarm and some trouble conditions. The Control Panel supplements the alarm
annunciation and forwards the detector trouble and alarm status in reporting Systems.
)— SIRENS
All Sirens are set to Reset in about 4 minutes.
> SYSTEM STATUS LED INDICATOR
The System LED Indicator provides System status infon‘nation:
l. The LED will display the System Arming Level status by red blinking pattems:
One blink Level 1
Two blinks Level 2
Three blinks Level 3
2. The light will display a Continuous red during rest reports and alarm conditions.
3. The red color will disappear during a System trouble condition, or ifthe System was previously in
mi alarm condition and the alarm was not cleared (i. e.. System returned to “Level I, oft“),
> RESET
An Alarm condition that is not returned to Level I. 0" will cause LED green color to be replaced with
red color until System is Reset.
Page 6
l‘L'C ID, I'AI A7l’3
BASIC THINGS YOU SHOULD KNOW ABOUT YOUR BBC #6000 SECURITY
SYSTEM
7- CALL BUTTONS
Call Buttons may be used to summon assistance in reporting Systems The Control Panel can be
programmed to respond to a pushed Call Button in three different modes. The number in front ofthe
behavior statement indicates the Call Button number in your System that will respond accordingly.
Activates a loud "HELP—H ELF" annunciation with audible siren alarm. Used to summon assistance
mdiscuurflge intruders
Activates a "HELP-HELP“ annuncialion only, Used when assistance is required, and deterrent
annunciattons are not necessary.
Activates Silent Alarm. with no annunciation. Usually used in reporting Systems for armed robbery
Fpe situations.
‘r‘ ALARM MEMORY
The System LED indicator green color will extinguish afier an alarm condition and remain offuntil the
System is returned to “Level 1‘ Off". This can be used to provide an alarm caution indication when
observing this condition. Note that the same display will oceur For a System trouble condition,
Entering a System status command will cause an annuncialion ofany previous alarm conditions not Reset‘
or present trouble conduions'
1. Enter “it NNNN *" (works for remote or local access), or
2 Enter "it“ (works for local access only),
Page 7
FCC II) TAl A7l’3
BBC SECURITY SYSTEM FEATURES
l. OPERATOR PROTECTION SELECTION
>>NOTEz Selection of arming Levels 2 or 3, will cause ALL System Sensors than are “not secure" to be
lisled. Level 2 does not require interior doors to be armed These Sensors may be listed as “not secure“. but
are not used in the level 2 proleclion and their status can be ignored.
LEVEL TT ENTRY DESCRIP’HON PANEL LlGHT SOUND AND VOICE
1 ANNUNCIATION
1 " it NNNN -l " System Blinks red Single “BEEP" precedes
Disarmecl repeatedly once voice annunciation.
every two
seconds, “Level One. Off” upon
Background entering Level I.
color normally
green. but will
go to “Off“ ifa
trouble condition
exists.
2 “ # NNNN -2 ’" Used for Blinks red Double “BEEP" precedes
protection with repeatedly twice voice annunciation.
someone in every two
premise seconds. “Level Two. Stay“ on
(at home) Background entering Level 2,
color normally “Level Two" every four
green, but will seconds during entry lime
go to “Off' rfa until delay time is
trouble condition expired. or System is
exists. disarmedr
"Level Two--On" at end
ofdelay time.
“Level Two--On" when
enlry is detected.
3 “ fll NNNN -3 " Used for Blinks red Triple "BEEP" precedes
protection when repeatedly three voice annuncialion.
premise is limes every two
vacant seconds. "Level Three, Away“ on
Background entering bevel 3.
color normally “Level Three” every four
green. but will seconds during entry time
go to “Off" ifa until delay time is
trouble condition expired. or System is
exists. disarmed.
“Level Three--0n" at the
end oldelay time.
"Level Three-On“ when
entry is detected.
4 NOT USED
Page 8
2. PROTECTION MODIFIERS
LEVEL
TT ENTRY
" # NNNN —6 "
followed by
Sensor
Number (SS)
to be
bypassed.
3. SYSTEM TE S
LEVEL
>>NOTE:
Accessible
only in
reporting
Systems
TT ENTRY
“ it NNNN -8 "
“ t? NNNN -9 “
“Instant" modifier. Enlry ofTT
“ 5 *~ during exit delay times of
Level 2 or Level 3 removes entry
delay time. System will revert
back to delays afler retui ning to
Level 1.
Bypass selection. For use in
Situations requiring a Sensor or
Sensors being bypassed Enter
'I'T“ NNNN SS “ to bypass a
specific Sensor. Sensor will u—
bypass when Level 1 selected.
>>NOTE: Fire Sensors cannot
be bypassed.
>>NOTE: The Bypass entry
will bypass Sensor’s tamper
and alarm reporting only.
Transmitter supervisory and
low battery detection features
are not effected during bypass.
NOT USED
>>NOTE: For reporting alarms
only. Entry to this level causes a
Central Station communication
test, System Wlll return to Level 1
after successful test. Refer to
COMMUNICATION TEST (Page
13) for details.
Used for Sensor and Call Button
test. System will return to Level I
after 120 seconds. Refer to
SENSOR TEST (Page 13) for
details.
Page 9
1 - ~ mm
BBC SECURITY SYSTEM FEATUM'sCC m M
PANEL LIGHT
LED)
Same as without
Instant selected.
Same as without
Bypass selected.
PANEL
LIGHT LED!
RED during test
Stays RED after
ten
unsuccessful
communication
attempts).
RED until
returned to
Level 1.
SOUND AND VOICE
ANNUNCIATION
“Instant“.
“Sensor SS Bypassed.“
SOUND AND VOICE
ANNUNCIATlON
“Level 8, Call Test On".
Test results annunciated
alter test, “Call Test OK“,
or “Call Test failure".
“Level 9, Sensor Test On“.
“ BEEP. SS“ on Sensor
activation.
rec in: TN MP3
BBC SECURITY SYSTEM FEATURES
4. SYSTEM OPERATION OPTIONS—LEVEL 0.
Radio detection is disabled in much 0! Program Memory.
For best results, make TT entries slowly. after the voice prompts are done.
LED is solid red during Tests and Program Memory. System will not respond to alarms during
Programming and Sensor Test.
TT ENTRY DESCRIPTION SOUND AND VOICE ANNUNCIATION
“ # NNNN-O " For Option 0, enter TT " fl NNNN -0 “, then "' * NN " to “Level 0, On", then “Program-"Program"
define the task required: repeated every 5 seconds until afier 90
seconds of no TT entries.
Then Enter:
To ASSICN OR CHANGE USER ACCESS CODES:
TO CHANGE MASTER ACCESS CODE:
" " OI “ Enter " ' 0] " and follow audible instructions, “Enter New Master Access Code", then
“Enter New Master Access Code again“.
Then “OK" when complete.
TO ADD OR CHANGE USER CODE 2:
"* 02 " Enter " ‘ 02 " and follow audible instructions. "Enter new Access Code". [hen “Enter New
Access Code again”. Then “OK" when
complete.
*03 to ‘05 NOT USED
CHIME SELECTION
“ “ 06 “ “ * 06 “ for CHIME ON/OFF (toggles on entry) “Off" (Default)
STATUS VOLUME
“ “ 070 " Enter “" 070 " for STATUS volume LOW “ On” in Low Volume
“ ‘ 07] “ Enter “ * 07I " for STATUS volume MEDIUM "On“ in Medium Volume (Default)
“ “ 072 " Enter" * 072 " for STATUS volume HlGH “On“ in High Volume
STATUS LEVEL ANNOUNCEMENT
“ " 080 " Enter“ ’“ 080 " for status level verbal announcement only. “On"
" * 081 " Enter“ "‘ DKI " to add arming level “BEEPs” "On" (Default)
LEAVING PROGRAM MEMORY
“ ‘ 99 " To leave Program Memory and return to “Level I" “ BEEP”, then “Level I, Off“,
Afier each successful entry in Program Memory, the System
will acknowledge the new selection. When done
progmmming, enter " “ 99 " to relum to Level I.
>>NOTE: Enter “ ” 99 “ at any time to return to Level 1.
Will return automatically after LS minutes if there are
no entries.
Page IO
l-‘CC lD: TAl A7l’3
BBC S RITY SYSTEM FEATURES
5. OTHER ‘I'l' ENTRIES
FEATURE TT ENTRV DESCRIPTION SOUND ANDVOICE
ANNUNCIATIO
System Status “ if * “ Annunciates audible status of Typically something such as
System over the loudspeaker“). “BEEP, Level One, Off.
or This includes protection selection Sensor 03 Open AC Power
and any abnormal conditions that On“
“ tt NNNN ‘ " may exist. See “Abnormal
Condmons" (Page 7 ) for list,
6. TELEPHONE REMOTE ACCESS
The Remote Access feature requires that the premise Control Panel answer the telephone.
The telephone is answered ifthe panel Ring-Pause Ring (R-P—R) option is selected. This option is programmed to
default to "On" when System is powered up.
Example: Remote Access Programming using R—P—R answer option:
Call premise, let phone ring two times. then hang up. Wait IO seconds, then call premise again. Panel will
now answer during first ring signal and annuuciute " Code-"Code" for 12 seconds, then hang up. During
this time, enter “it NNNN ‘ “. The System will annunciate the present status. This is the same
announcement you would receive by selecting System Status (TT “ it “ ") from a premise telephone. At this
point‘ the System will Opemit: the same as ilyou were on premise. The status sound will be annunciated
over the telephone. The premise will automatically hang up phone after I minute of no TT entries,
7. SYSTEM TESTS AND TROUBLE ANNOUNCMENTS
0 SYSTEM AUTOMATIC TESTS
>>NOTE: Some trouble conditions may require assistance from your security provider for con'ection.
The System contains many Self-Test routines. Failure ofa test routine will cause a trouble condition. A trouble
condition is indicated by no green color on the System Status Light. An “Oogn“ sound (trouble alert) followed by
a trouble message identifying the specific trouble will be annunciated when trouble is first recognized. The detailed
trouble announcement will occur during a " ti " " TT status request. Trouble conditions will automatically restore to
normal when the trouble is corrected and System is disarlned.
o Sensor Trouble conditions include one or more ofthe following:
El Supervisory failures ( No Signal).
El Low battery.
El Tamper situations (cover removed).
- Control Panel trouble conditions also include one or more ofthe following:
El Panel Tamper conditions (cover loosened without Tamper disables).
0 AC Power t'ailurer
D Phone Line failure.
D System Low Banery
Panel running on battery power only will have status LED blink status only until low battery is detected.
Page I l
I’CC 1L): fAl A7l’3
7. SYSTEM TESTS AND TROUBLE ANNOUNCMENTS iConM
0 SYSTEM AUTOMATIC TESTS (Conn)
- The System Status LED green indication wtll disappear in “Trouble" and any other abnormal
conditions. including operator selection lcvels other than Levels 1.2. or 3 and when an alarm
condition exists.
Your Control Panel power is backed up with a rechargeable I2-volt battery that provides at least [2 hours of
standby power during an AC power failure. AC power ratiure is not annunciated until the condition persists,
typically for more than halfan hour.
"Sensor low battery and supervisory (no signal) troubles require selecting SENSOR TEST (“ fl Master Access
Code —9 "), and then activating the faulty Sensor to clear problem immediately.
>>IMPORTANT NOTE: The “SelfTests” are supplemented with the two Manual Tests listed below, which must
be performed by the System user.
0 SYSTEM MANUAL TESTS
The Manual Tests provide assurances the total System is working. They should be done monthly. and before
leaving the premise for an extended period oftime
o LEVEL 8, COMM UNICATION TEST (Available on reporting Systems only)
Select Communication Test Level 8 by picking up any System phone and entering TT “ it Access Code
(NNNNJ -8 You will hear "Begin System Call Test“. Successful test will return System to Level I, and
“Call Test OK, Level 1.0ff“ will be annunciated. lfthe Communication Test is unsuccessful, “Call Test
Failure. Level 1. Off“ will be annunciated
o LEVEL 9, SENSOR TEST
Select Sensor test Level‘) by picking up any phone and entering TT “ # Access Code
(NNNN)-9 “Begin System Sensor Test“ will be annunctated from System status speakerts). Activate
each System Sensor and Call Button (sec Sensor type description (Page 2) for test procedure) and listen for
four or more radio packet BEEPs. Refer to the Call Button and Sensor ID number Location Sheet to locate
all Sensors. Test will return to "Level I" after 45 seconds ofno Sensor act . A 2-second loud warning
signal annunciates automatic test time out. A System battery test is automatically done at the end ofthe
test when installer selected.
0 TROUBLE CONDITIONS
A trouble condition will be announced when it is first recognized. The announcement is preceded by an annunciated
"Gaga” trouble alert. The trouble condition will be annunciated during any TT " d “ " telephone status request.
SIVIOHZldm: Rev. 5. 3/23/98
Page 12
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