D9412
Control/Communicator D9412
A&E Specifications
D9412D9412
31.0General
1.1Scope Of Work31.1.1Introduction31.1.2Work included under this
section31.1.3Related work specified under other sections of these
specifications (Related sections)31.2General
Conditions31.2.1Submittals at bid time31.2.2Submittals after award
of contract31.2.3Documentation to be submitted by the Contractor
upon completion of system installation41.2.4On-site security
personnel training41.2.5System approvals41.2.6Quality
assurance41.2.7Warranty41.2.8Service/Maintenance42.0Products52.1System
Description52.2System Feature/Capability Summary62.3System
Interferance Requiremants92.4Material92.4.1System Hardware
Description:93.0Execution153.1Installation153.2Supervision153.3Programming153.4Testing153.5Commissioning15
Notes:
1.0General
1.1
seq sub \r0 \h Scope of Work
1.1.1
seq subsub \r0 \h Introduction
The Contractor shall provide, install, and program a
functionally complete, integrated Digital Alarm Communicator and
Access Control System (DACS) per Manufacturer's guidelines, codes
described, and these specifications.
1.1.2
seq subsub \r0 \h Work included under this section
WORK INCLUDED IN CONTRACT SHALL BE INSERTED HERE. ITEMS TO BE
INCLUDED UNDER THIS HEADING DEPEND UPON HOW A SPECIFIC PROJECT IS
SCOPED AND PREFERENCES OF A PARTICULAR OWNER. THE FOLLOWING ARE
USUALLY INCLUDED:
SYSTEM AND ITS COMPONENTS
SYSTEM WIRING (LOW VOLTAGE)
MOUNTING ACCESSORIES
SYSTEM PROGRAMMING
WARRANTY, SERVICE & TRAINING
1.1.3
seq subsub \r0 \h Related work specified under other sections of
these specifications (Related sections)
RELATED WORK IN CONTRACT SHALL BE INSERTED HERE. ITEMS TO BE
INCLUDED UNDER THIS HEADING DEPEND UPON HOW A SPECIFIC PROJECT IS
SCOPED AND PREFERENCES OF A PARTICULAR OWNER. THE FOLLOWING ARE
USUALLY INCLUDED:
POWER (120 VAC)
RACEWAYS
DOOR HARDWARE (ELECTRIC LOCKS)
DOOR FRAME ALARM CONTACT PREPARATION
TELEPHONE LINES (ONLY FOR OFF-SITE REPORTING)
1.2
seq sub \r0 \h General Conditions
1.2.1
seq subsub \r0 \h Submittals at bid time
For bid evaluation, bid submittals shall include six (6) sets of
the items described below:
Specification sheets (cut sheets) of all proposed equipment.
Equipment list identifying:
Model number of each unit.
Quantities of each type of device.
Unit costs
Specification compliance: A letter submitted with the bid,
responding to specification sub-sections individually, indicating
exceptions, substitutions, and alternates. The Contractor shall
submit requests for substitutions (as well as all relevant
technical data pertaining to the substituted equipment) to the
specifier 10 days prior to the close of bid for evaluation and
approval.
1.2.2
seq subsub \r0 \h Submittals after award of contract
1. These include point-to-point drawings of systems and wiring
diagrams of individual devices.
2. Drawings: Shop drawings to provide details of proposed system
and the work to be provided. Permits: The Contractor shall be
responsible for identifying requirements for permits from the local
police department for the installation of the alarm system
specified herein and shall assist the owner in obtaining the
relevant alarm permits.
1.2.3
seq subsub \r0 \h Documentation to be submitted by the
Contractor upon completion of system installation
1. "As-builts": Upon completion of installation, the Contractor
shall prepare "as-built" drawings of the system. These "As-builts"
shall be 30 in. x 42 in. format mylar reproducible drawings of each
floor plan indicating exact device locations, panel terminations,
cable routes and wire numbers as tagged and color-coded on the
cable tag.
1. Additionally, final point-to-point wiring diagrams of each
type of device (on 30 in. x 42 in. format) shall be included in the
"as-builts."
2. "As-builts" shall be submitted to the Owner for approval
prior to the system acceptance walk-through.
2. Operation and maintenance manuals: Three sets of operating
manuals shall be provided explaining the operation and maintenance
of the system.
1.2.4
seq subsub \r0 \h On-site security personnel training
Training in the complete operation of the systems shall be
furnished by the Contractor upon completion of installation.
THE EXTENT OF THE TRAINING PROCESS AND THE TIME NEEDED TO CARRY
OUT THE TRAINING ARE DEPENDENT ON THE SIZE AND COMPLEXITY OF THE
SYSTEM. SPECIFIER TO INSERT REQUIREMENTS FOR TRAINING HERE.
1.2.5
seq subsub \r0 \h System approvals
1. The system shall be the standard product of one manufacturer,
and the manufacturer shall have been in business manufacturing
similar products for at least 5 years.
2. After-sales support: The Contractor shall be a
factory-authorized and trained dealer of the system and shall be
factory-trained and certified to maintain/repair the system after
system acceptance.
1.2.6
seq subsub \r0 \h Quality assurance
All equipment, systems, and materials furnished and installed
under this section shall be installed in accordance with the
applicable standards of:
1. National codes: NEC, NFPA, UBC
2. Approvals and listings: UL (including Access Control)
3. Local Authorities Having Jurisdiction
1.2.7
seq subsub \r0 \h Warranty
All components, parts, and assemblies supplied by the
Manufacturers and installed by the Contractor shall be warranted
against defects in material and workmanship for a period of at
least 12 months (parts and labor), commencing upon date of
acceptance by Owner. Warranty service shall be provided by a
qualified factory-trained service representative.
1.2.8
seq subsub \r0 \h Service/Maintenance
1. System maintenance and repair of system or workmanship
defects during the warranty period shall be provided by the
Contractor free of charge (parts and labor).
2. Periodic testing of the system shall be carried out on a
monthly or quarterly basis to ensure the integrity of the
control/communicator, the sensing devices, and the telephone
lines.
3. The installer shall correct any system defect within six
hours of receipt of call from the Owner.
4. Extended service/maintenance agreements shall be offered by
the Contractor for up to four years after the warranty expires. The
agreement shall be renewable monthly, quarterly, or yearly.
2.0Products
2.1
seq sub \r0 \h System Description
The DACS system specified herein shall include a Digital Alarm
Communicator Transmitter (DACT), built-in telephone line monitor,
500 event (minimum) memory logger, real time clock, calendar, test
timer, battery charging / voltage supervision circuitry, battery
lead supervision, diagnostics displays, time / event-based
scheduling system, lightning / EMI protection circuits, and the
associated optional modules and components for a complete DACS
system. Refer to section 2.4 Materials, p.10 for detailed hardware
requirements and specifications.
The DACT firmware shall support programmable "software" features
as detailed in section 2.2 System Feature/Capability Summary, p.6.
The following describes the general functional requirements of the
DACS system:
A. The DACS shall support the connection and reporting of
intrusion, fire detection and access control devices to a remote
Digital Alarm Communicator Receiver (DACR).
B. The DACS shall provide identification, annunciation, and
communication of alarmed detectors by point and each access control
user by number.
C. The DACS shall be capable of segregating the points (i.e., a
detector or group of detectors zoned together) into separate,
independent "areas."
D. The DACS shall be "modularly" expandable using hard-wired
address identification modules.
E. The DACS shall have electrically supervised detection loops
and power supplies (mains and battery(s)). This supervision shall
be programmable for the purposes of reporting this information to
the DACR.
F. The DACS shall be capable of monitoring and switching to
active telephone lines when trying to establish communications with
the DACR and transmitting a report.
G. The DACS shall be capable of reporting and communicating
alarm or trouble event data by reporting to one, two, three or four
off-site remote DACRs via dial-up analog telephone lines.
H. The DACS shall be capable of sending (manually or
automatically) test and status reports to remote DACRs.
I. The DACS shall be programmable locally or remotely.
Programming shall be accomplished via a portable programmer or a
computer running the Remote Account Manager (RAM) software. Users
shall be capable of changing their own user passcode from the Alarm
Command Center (ACC) and managers shall be capable of changing the
user passcodes and authority assignments by area of other users
from the ACC.
J. The DACS shall annunciate alarm, trouble, service reminders,
and other relevant system status messages in custom English text at
the ACC.
K. The DACS shall be capable of executing diagnostics and
testing functions locally or remotely.
L. The DACS shall be capable of activating 128 relays and three
additional outputs for auxiliary functions based on its
classifications (area vs. panel wide).
M. The DACS shall be capable of controlling relays and
automatically executing system functions based on a time / event
scheduling program. The program can be hour, day of week or day of
month based. Each scheduled event can be exclusive of one of four
holiday date definitions that can include one to 365 selected
Julian dates. The following functions can be executed:
1. Arm / Disarm a specific area
2. Bypass / Unbypass a point
3. Activate / Deactivate a relay
4. Send a test report
5. Adjust system clock for daylight savings time
6. Turn an Access Authority Level On / Off
7. Hold a Door Open (unlocked and shunted)
8. Secure a Door Closed (locked, no valid cards will allow
entry)
9. Return a Door to Normal Operation (locked, valid cards will
allow entry)
10. Turn recording of Access Granted events On / Off (and
transmittal if routing is ON)
11. Turn recording of Access Denied events On / Off (and
transmittal if routing is ON)
N. The DACS shall be capable of listening to calls answered by
other devices on the premises side of the phone line and
determining if a special tone is being sent from the incoming call
(Remote Account Manager) and intercepting the call for Remote
Account Manager sessions.
O. The DACS shall be capable of controlling up to eight separate
doors using and providing entry to authorized users based on
authority assigned to the user by the area into which the door
enters. The DACS shall use not less than 24 bits of card/token
specific data to identify the user. This card data shall not be
truncated or shortened in making the identification of the
user.
2.2
seq sub \r0 \h System Feature/Capability Summary
The following indicates system software/hardware capabilities,
capacities, and formats:
P. Number of Loops/Sensors: 246 separately identifiable points,
of which 8 are on-board loops and 238 are off-board addressable
points / zones connected to multiplexed backbone trunks. Each of
the points shall be capable of supporting "group zoning." Group
zoning refers to the combining of sensors into a separately
identifiable and separately annunciated (programmable text)
area.
Q. Programming Point Functionality: Each point in the system
shall provide for the following type of response in the system.
12. Always on (24 hour response)
13. On when the system is Master Armed
14. Only on when the system is Perimeter Armed
15. Displays / Does Not Display at the ACC when the point is
activated
16. Provides / Does Not Provide entry warning tone
17. Sounds / Does Not Sound audible alarm indication
18. The Point is bypassable / not bypassable
19. Alarm Verification with programmable verification time
20. Relay activation by Point
21. Provides / Does Not Provide "watch point" capability
22. Provides Swinger Bypass
23. Defers Bypass Report
24. Can return to the system after being force armed and then
restoring
25. Can return to the system after being bypassed and then
restoringR. Areas/Accounts: The DACS shall support 8 independent
areas. Each of the eight areas shall have custom text associated
with the armed state, disarmed state and point-off-normal state.
Additionally, the DACS shall be capable of assigning 1 to 8 account
identifiers to the areas depending on the distribution of areas per
account. Each and all of the eight areas must be capable of Master
and/or Perimeter arming (excluding predefined Interior
protection).
The DACS shall be capable of logically grouping 2 or more points
into an area, or conversely, dividing the points into two or more
areas.
Any area shall be configurable to allow arming by specific users
when a programmable number of devices are faulted or bypassed.
Areas shall be independently controlled by their corresponding
ACC. Each ACC can be designated to control a specific area, or
group of areas, or all areas in the system.
Independent control or relay functions by area shall be possible
through programming assignments.
S. Number of Alarm Command Centers: 32 ACCs, each capable of
displaying custom English text on vacuum fluorescent displays and
sounding different patterns of audible alarm for different events,
shall be required. Up to Eight ACCs can be supervised at one time.
An ACC can be programmed to respond to the entry of any of the
specifically authorized 250 user passcodes (followed by the [ENT]
key) and cycle an assigned access control door using a connected
door controller. The event is logged and transmitted (if routing is
ON) to the DACR including door and user identity.
T. Number of User Passcodes: Up to 250 different passcodes shall
be required. Each passcode shall be three to six digits (variable)
and be assigned a 16-character user name that shall be printed on
the local printer and DACR with associated opening and closing
reports form the user. Passcodes shall be enabled or disabled by
area(s) and shall be assigned one of fourteen different authority
levels to carry out functions such as the activation of relays from
the ACC. These passcodes shall also be required for carrying
various system functions such as arming the system, disarming the
system, transmitting a duress code, resetting the system and
silencing sounders. A single user passcode shall be able to be used
in each of the 8 areas with potentially a different authority level
in each area.
Each of the 250 different passcodes shall be able to be
associated with 4 individual access cards/tokens. The authority of
any of the four cards assigned to the user will be that of the
user, but each card will report in the display, local printer,
memory event log and at the DACR as a separate user / subuser
number pair.
U. Number of Access Controlled Doors: Up to 8 doors, each
connected to a door controller module that is subsequently
connected to the DACT. Each door controller is programmed through
the DACT from the local programmer or the RAM and can be configured
independently from other doors. Each door contact is supervised and
is wired to the door controller and can use normally open or
normally closed contacts. The door lock can be programmed to reset
the door strike time when the door either opens or closes. The door
opening can terminate a programmable door buzzer. The door contact
is shunted when valid access is being granted through the door. A
request to exit and a separate request to enter supervised input is
provided on the door controller. A programmable feature provides
for door shunting on request to exit without activating the lock
output. An optional buzzer can be sounded and an ACC can display a
door closing warning if the door is held open beyond a programmable
time. The door can be programmed to activate an alarm or trouble in
the door left open condition. The DACS shall be capable of
transmitting the Door Left Open indication to the DACR. The door
strike shall be capable of being programmed to automatically unlock
if the area is completely disarmed and will not automatically
unlock if the area is selectively disarmed. The DACS shall be
capable of being programmed, on a time basis, to record access
granted and or access denied events by door.
V. Access Control / User Features: The DACS shall allow each
authority profile to specify whether users holding that authority
are to be granted access into the area based on whether the area is
completely disarmed, perimeter armed or completely armed.
Additionally, the DACS shall be able to automatically disarm the
area or convert the arm state of the area from fully armed to
perimeter armed based on the authority level assigned to the user
and area. Assigned users shall be able to manually control the door
from an ACC by setting the door to Normal Operation, Manually
Locked or Secured (valid cards will not operate).
W. Communication Formats: The Bosch Security Systems Modem IIIa2
communications format shall be utilized for optimum system
performance. The DACT shall report to a Commercial Central Station
using a Bosch Security Systems D6500 Alarm Receiver that supports
the Bosch Security Systems Modem IIIa2 communications format. One
such advantage is point identification information transmission to
DACRs (Alarms, Troubles and Restorals by point). Others include
actual point number; point text; actual user number, user name;
by-passed points; relay activation; opening/closing reports by
users; late, early, or fail opening/closing reports, and
opening/closing reports by area.
X. Testing, Diagnostic, and Programming Facilities: Automatic
test reports and remote system access for diagnostics, programming,
and log (Logger) uploads shall also be supported via a remote
central station computer utilizing the RAM software.
Y. Logger Capacities and Formats: 500 events (minimum)
indicating time, date, type of event, account number, area number,
user ID, point text, user text and primary/secondary event route
each event. Logs shall be viewed locally at the ACC and remotely
via an upload to a computer running the RAM software. The DACS
shall also support the printing of these events on up to three
local printers. The DACS shall also send a report to the DACR when
the log reaches a programmable "percent full capacity" so that RAM
can retrieve the stored events. Events can be routed to specific
printers by group, signal type and area.
Z. Reports: Reports to DACRs at commercial central stations as a
result of system supervision shall include alarm, trouble, missing
modules, restoral, system status, AC failure and low battery. The
DACS shall also transmit test reports once every 24 hours. CPU
failure shall be annunciated locally. The ACCs should display the
following information for the indicated system supervisory
conditions:
1. Call for Service
2. Service Panel
3. Service Param
4. Service AC Fail
5. Service Battery Low
6. Service Battery Missing
7. Service Communications Failure
8. Service Keypad
9. Service Route
10. Service Printer
11. Service Point Buss Failure
AA. Telephone Lines and "Phone Routing": The DACS shall support
two (2) telephone lines that are to be alternated for the
transmission of consecutive events. The DACS shall have the
capability of communicating with up to four different DACRs (phone
numbers), Each Phone Number can be up to 24 digits long. The DACS
reports shall be classified, by event, into one or more of four
routing groups. Each routing group can specify a DACR to be
designated as a primary and another DACR as back-up. Assigning an
event to multiple routing groups provides for duplicate destination
for the event. The transmission of events, allows the reporting of
different types of information to different remote DACRs.
AB. Number of Programmability of Relay Output Modules: Eight
relays (Form C) are to be provided per octo-relay module for a
total of 128 relays plus three additional outputs per DACS. These
multi-purpose modules are programmable and shall be used to
implement auxiliary functions (manually or automatically).
Relays and other outputs may be programmed to follow up to 14
different area conditions or up to 12 panel conditions. Relays may
also be programmed to follow individual points or groups of
points.
AC. Number and Alarm Output Selections: Four different types of
alarm output selections shall be supported by the DACS: Steady,
Pulsed, California Standard, and Temporal Code 3.
The system can be configured to provide zoned indication of
alarm conditions.
AD. Miscellaneous Features: Programmable alarm output timer, 31
programmable entry delay times, exit delay programmable by area,
individually programmable point of protection text, point
bypassing, and keyswitch arming capability with LED outputs.
AE. Real-Time Clock, Calendar, and Test Timer: The DACS shall
incorporate an integral real-time clock, calendar, and a test
timer.
AF. Opening and Closing Windows: The system shall be programmed
with "normal" opening and closing periods for each day of the week
and thus suppress scheduled opening / closing reports and report
only the exceptions, i.e., opening / closing outside the
pre-defined time window. The DACS shall have the capability to
suppress opening / closing reports, overriding the programmed open
/ close windows during holidays and automatically arming the DACS
(by area) at the end of the closing period.
AG. DACS Power Ratings: The DACS shall provide 1.4 amps of
auxiliary power and 2 amps of alarm power, both rated at 12 VDC.
Additional auxiliary power shall be provided by adding
battery/charger modules up to a maximum of 2 amps.
AH. DACS Fault Detection: The DACS shall check the point sensor
loops once every 300 milliseconds. The point response time is
programmable over a range of 300 milliseconds to 4.5 seconds.
AI. User-Programmable Features: The DACS shall provide a
"user-friendly" interface for programming / customizing the system
to the operational criteria of the application. The DACS shall be
capable of being operated via:
26. The Command Structure
27. Menu / Command ListAJ. These system features shall have
restrictions based on fourteen individually programmable levels of
passcode authority that can be assigned to system users. The user's
passcode shall have the capability of being assigned a different
authority level in each of the eight areas. A service passcode can
be assigned to the servicing agent allowing the agent limited
access to system functions. User-programmable / activated functions
include:
28. Arming the system: All areas, specific area(s) only,
perimeter instant, perimeter delayed, perimeter partial, watch
mode, and arming the system with a duress passcode.
3. Disarming the system: All areas, specific area(s) only and
disarming with a duress passcode.
4. Viewing system status: Faulted points, event memory, bypassed
points, area status and point status.
5. Implementation functions: Bypass a point, unbypass a point,
reset sensors, silence bell, activating relays, initiating the
remote programming function locally to allow programming the system
from a remote location. The ACCs can also be temporarily
readdressed to view the status of a remote area.
6. Testing the system: Local Walk test, Service Walk test, Fire
test, send report to remote DACR to check the telephone link, and
programming the time and date for the next test report
transmission.
7. Change system parameters: ACC display brightness, system time
and date, and add/delete/change passcodes.
8. Extend the closing time of system.
9. Transmitting special alerts and activating audible and
visible signals.
10. Executing multiple commands / ACC keystrokes from a single
Menu / Command List item. This function shall be able to have a 16
character (alphanumeric) title to identify it on the ACC
display.
11. Editing of time / event based scheduling program from the
ACC.
12. The DACS shall also provide a "service menu" to implement
functions such as viewing and printing the system log, displaying
the system firmware revision number, and defaulting (toggling) text
displays between custom and default text displays for
troubleshooting.
2.3
seq sub \r0 \h System Interface Requirements
AK. Grounding: The Contractor shall properly earth ground the
DACS to prevent electrostatic charges and other transient
electrical surges from damaging the DACS panel.
AL. Primary power: The Contractor shall provide a dedicated 120
VAC power circuit to the DACS system. This circuit shall be
connected to the emergency power system. The 120 VAC is stepped
down to 16.5 VAC to power the DACS panel using a class two, plug-in
transformer. This power circuit shall be properly rated to
continuously power all points and functions indefinitely in full
alarm condition.
AM. Primary power supervision: When the primary power source
fails, the system can be configured to report an "AC Fail" message
to a commercial central station. The transmission delay of this
message is programmable from one to ninety seconds. The message can
also be programmed to "tag-along" with another message transmitted
to the central station. The system will always display a loss of
primary power on the ACC and may be configured to provide
additional audible warning.
AN. Secondary power (standby battery): The Contractor shall
provide adequate battery power as defined by the relevant
application criteria, (UL 865 and 985 for alarm installations or
NFPA 72 chapters for fire applications). Appropriate battery
chargers shall be provided consistent with the battery back-up
capacity.
AO. Secondary power supervision: When the secondary power source
experiences a 85% depletion of its standby capacity, the system can
be configured to report a "Low Battery" message to a commercial
central station. The system will always display a low battery
condition on the ACC and may be configured to provide additional
audible warning.
AP. Wiring: The contractor shall provide cables consistent with
the manufacturer's recommendations. The following general
guidelines shall be followed for wiring installation:
29. Wiring shall be appropriately color-coded with permanent
wire markers. Copper conductors shall be used.
30. All signal cables provided under this contract shall be
Class II, plenum-rated cable where required. Where subject to
mechanical damage, wiring shall be enclosed in metal conduits or
surface metallic raceway.
31. Data wires shall not be enclosed in conduit or raceways
containing AC power wires.
32. Where EMI may interfere with the proper operation of the
DACS circuits, twisted/shielded cable shall be used.
AQ. The DACS system shall be protected from EMI and lightning
surges.
AR. Telephone interface: The DACS shall be equipped with a phone
line monitor and shall interface with the phone lines via RJ-31X
jacks for supervision of the telephone line connection to the DACS
panel. When a telephone line is determined to be out of service by
the DACS panel, the event will be annunciated locally on the ACC
and transmitted to the central station. The transmission delay of
this message is programmable from ten to two hundred forty seconds.
A telephone line switching modules shall be used to interface to a
second telephone line. This interface shall conform with FCC rules
part 15 and 68.
AS. Auxiliary function control interfaces: Auxiliary functions
such as activating bells, strobes, or lights shall be accomplished
using the optional relay modules. These auxiliary interfaces shall
be electrically isolated to avoid inter-system interferences or
damages.
AT. Functional criteria programmed into system memory shall be
backed up by battery power. Additionally, the number of system
programmers shall be severely restricted via the use of program
locking features and passwords.
2.4
seq sub \r0 \h Materials
2.4.1
seq subsub \r0 \h System Hardware Description:
AU. DACS System: The DACS shall be provided, at minimum, with
the following components. Additional accessories shall be provided
based on the quantities and features required for the
application.
33. Enclosure
34. Lock and key
35. D9412 DACT with removable terminal blocks and single crew
mounting bracket
36. Faceplate shield and metal bracket covering rear of D9412
circuit assembly
37. Power transformer
38. Manuals
The DACS system control panel shall be Bosch Security Systems
D9412.
SPECIFIER TO LIST TYPES AND QUANTITIES OF ACCESSORIES REQUIRED
FOR THE APPLICATION. ITEMS AND DESCRIPTIONS WHICH ARE LISTED BELOW
AND ARE NOT RELEVANT TO YOUR APPLICATION SHOULD BE DELETED
AV. System Accessories:
1.D56:Alarm Command Center surface conduit backbox (D56R is
red)
2.D57:Alarm Command Center conduit backbox (for D269 only)
3.D101F:Fire lock and key
4.D125B:Class "B" loop module - Dual Powered loop interface
module - two separate powered loops for 12 or 24 VDC, 2-wire
devices
5.D127:Reversing relay module. Reports two separate alarms at
DACR. Required for UL-certified mercantile and bank burglar alarm
systems applications
6.D129:Class "A" loop module - Dual class A, 4-wire initiating
circuits. Module shall detect alarm in the presence of a single
open or ground fault in the circuit. Each circuit shall have
adjustable "alarm retard" and alarm reset delay
7.D130:Relay module 5 amps, Form C
8.D136:Plug-in relay, 2 amps @ 30 VDC. This relay is required
for various functions such as ground start telephone system
application and auxiliary power reset
9.D268:UL independent zone control module
10.D269:UL independent zone control keypad
11.D9412:D9412 circuit board mounted on steel mounting skirt and
literature pack
12.D811:Arm status relay module. Form C relay, activated based
on information transmitted on the serial output
13.D8103:Universal enclosure
14.D8108A:UL attack-resistant enclosure
15.D8109:UL fire enclosure
16.D8121A:
STU - Works with Base Ten Telecom, Inc. VerSuS-derived channel
receiving system to provide alarm and critical event reporting as
well as telephone line supervision
17.D8122:UL-listed version of D8121A
18.D8125:Point of Protection EXpander module. Each POPEX (up to
two per system) shall monitor up to 119 model D9127 Point of
Protection Input Transponders "POPIT or Integrated Fire or Intruder
Alarm detectors
19.D9127T:POPIT module - tampered, UL-listed for fire
20.D9127U:
POPIT module - untampered UL-listed for fire
21.D8128C:Octo-POPIT module combines POPEX and POPIT functions
and provides 8 points to each DACS. A total of 30 OctoPOPITS per
DACS
22.D8129:Octo-relay module - 8 programmable dry contact relay
outputs, "Form C." Uses information on DACT serial data output to
selectively activate the relay outputs
23.D8130:UL release module designed for release applications
commonly found in NFPA 72, chapter 6, fire alarm installations such
as fire door release, elevator recall, emergency door unlock,
stairwell pressurization, smoke exhaust control and HVAC control.
Two independent Form C contacts, each rated at 5 amps. Multiple
D8130s can be connected in parallel to a DACT.
24.D9131A:Parallel printer interface provides Centronics
standard parallel output to be used for a parallel printer. 80
character format.
25.DS835:PIR/Microwave Detector, 35 ft. (11 m)
26.ZX835:PIR/Microwave Detector, 35 ft. (11 m), with built-in
POPIT
27.DS970:PIR/Microwave Detector, 70 ft. (21 m)
28.ZX970:
PIR/Microwave Detector, 70 ft. (21 m), with built-in POPIT
29.DS934:
PIR Detector, 35 ft. (11 m)
30.ZX935Z:
PIR Detector, 35 ft. (11 m), with built in-POPIT
31.DS775:PIR Detector, 50 ft. (15 m)
32.ZX776Z:
PIR Detector, 50 ft. (15 m), with built-in POPIT
33.DS794Z:PIR Detector, 80 ft. (24 m) / 200 ft. (61 m) (120 ft.
[37 m] with optional lens)
34.ZX794Z:
PIR Detector, 80 ft. (24 m) / 200 ft. (61 m) with built-in POPIT
(120 ft. [37 m] with optional lens)
35.DS938Z:Ceiling Mount PIR Detector, 60 ft. (18 m)
36.ZX938Z:Ceiling Mount PIR Detector, 60 ft. (18 m), with
built-in POPIT
37.DS150i:
Request to Exit Detector (DS151i in grey color)
38.DS1101i:Glass Breakage Detector, 25 ft. (8 m)
AW. Power Supply:
1.D122:Dual battery harness
2.D126:Sealed lead-acid battery, 7 AH
3.D1218:Sealed lead-acid battery, 18 AH
4.D1640:Transformer, 16.5 VAC, 40 VA
5.D8132:UL - 12V auxiliary battery charger. Combined with
external batteries, increases standby time and provides additional
power to auxiliary outputs of D9412B.
6.D8004:UL transformer enclosure
AX. Telephone Accessories:
1.D928:Dual telephone line module Alternates event transmission
to Central Station between primary and secondary phone lines.
Transmits over other phone line when first phone line is determined
to be inoperable. Periodically tests phone line for usage and
integrity and reports to central station when phone line is faulty.
Remembers faulty line and transmits over operational line.
2.D161:8 ft. (2.4 m) phone cord
3.D162:2 ft. (61 cm) phone cord
AY. Fire Initiating Devices and Accessories:
1.D254:
Heat Detector Head, 135( (uses D271S, D261A)
2.D255:Heat Detector Head, 190( (uses D271S, D261A)
3.D261A:Smoke Base, 12 V, 2 wire, 6 inch (15 cm)
4.D261W:
Smoke Base, 12 V, 2 wire, 6 inch (15 cm), white
5.D262:Smoke Detector Head, Photoelectric, (uses D261A,
D271S)
6.D263:2 wire, Direct Wire, Photoelectric Smoke Detector
7.D263TH:2 wire, Direct Wire, Photoelectric Smoke Detector /
135( Heat
8.D265W:
Smoke Detector Head, Photoelectric, white (uses D261W,
D271W)
9.D266W:
Smoke Detector Head, Photoelectric, 135( Heat (uses D261W,
D271W)
10.D271S:Addressable Smoke Base, 12 V, 6 inch (15 cm)
11.D271W:Smoke Base, 12 V, 4 wire, 6 inch (15 cm)
12.D273:4 wire, Direct Wire, Photoelectric Smoke Detector
13.D273TH:4 wire, Direct Wire, Photoelectric Smoke Detector,
135( Heat
14.D275:
Power Supervision Module (12 V or 24 V)
15.D285:Smoke Detector Head, Photoelectric (uses D287, D288,
D292, D293)
16.D285TH:Smoke Detector Head, Photoelectric, 135( Heat
17.D287:Smoke Base, 12 V, 2 wire, 5.5 inch (14 cm)
18.D288:Smoke Base, 12 V, 2 wire, 6 inch (15 cm)
19.D289:Smoke Base, 12 V, 4 wire, 6 inch (15 cm)
20.D292:Smoke Base, 12 V, 4 wire, 6 inch (15 cm)
21.D293A:Smoke Base, 12 V, 4 wire, 6 inch (15 cm), w/relay
22.D293E:Smoke Base, 12 V, 4 wire, 6 inch (15 cm), w/power
supervision
23.D293S:Smoke Base, 12 V, 4 wire, 6 inch (15 cm), w/sounder
24.D296:24 V, Projected Beam Smoke Detector
25.D297:12 V, Projected Beam Smoke Detector
26.D461:Manual station - single action, red
27.D461B:Manual station, single action, blue, labeled Emergency
Door Release
28.D461G:Manual station, single action, green, labeled Medical
Emergency
29.D461Y:Manual station, single action, yellow, labeled Tornado
Warning
30.D462:Addressable manual station.
31.D463:Double Action Lift Kit (red). Also D463B, D463G,
D463Y.
32.D466:Backbox for Manual stations, indoor use, red
33.D467:Backbox for Manual stations, weatherproof, red
34.D468:Explosion proof version of D461 manual station, red
35.D601:Heat Detector 135(, with base
36.D602:Heat Detector 190(, with base
AZ. Indicating Devices and Accessories:
1.D192D:Bell circuit supervision module
2.D400:Backbox weatherproof
3.D401:Semi-flush plate
4.D402:Designer indoor / outdoor backbox, red
5.D403:Backbox, indoor, red
6.D404:Indoor surface plate extender, red
7.D405:Backbox for retrofit devices, red
8.D411:Synchronization module, class B, 2-wire
9.D412:Synchronization module, class A, 4-wire
10.D511S:12 V, Synchronized Horn Strobe, 15 Cd
11.D512S:12 V, Synchronized Horn Strobe, 15/75 Cd
12.D513S:12 V, Synchronized Horn Strobe, 30 Cd
13.D518:12 V Remote Strobe, 15 Cd
14.D519:12 V Remote Strobe, 30 Cd
15.D521:12 V Remote Strobe, 15/75 Cd
16.D425A:12 V, Semi-Flush, Multi-Tone, Horn/Strobe, 30 Cd
17.D433A:12 V, Semi-Flush, Multi-Tone, Horn/Strobe, 15 Cd
18.D475A:12 V, Semi-Flush, Multi-Tone, Horn/Strobe, 15/75 Cd
19.D457:12 V / 24 V Horn, Multi-Tone
20.D470:12 V / 24 V, Semi Flush Prioritized Input Horn
21.D472A:12 V, Semi Flush Prioritized Input Horn / Strobe, 15
Cd
22.D476A:12 V, Semi Flush Prioritized Input Horn / Strobe, 15/75
Cd
23.D440:12 V, Motor Bell, 6 inch (15 cm) shell
24.D442:12 V, Motor Bell, 10 inch (25 cm) shell
25.D428A:12 V, Mini Horn/Strobe, 30 Cd
26.D450A:12 V, Mini Horn/Strobe, 15 Cd
27.D448:12 V, Mini Horn
28.D448W:
12 V, Mini Horn, white
29.D471A:12 V, Mini Horn/Strobe, 15/75 Cd
BA. Annunciation Devices:
1.D1255:Alarm Command Center (ACC) - Built-in multi-tone
sounder. Displays status in custom English text on 16-character
display. If more than 4 ACCs are required, add D8132 battery
charger unit. ACCs provide "command menu" user interface. ACC can
be supervised. Model D1255R for red color, D1255W for white.
2.D720:Area LED annunciator with keypad. For use within an area
for up to 8 protected points of annunciation.
3.D1256:Alarm Command Center ACC) - Built-in multi-tone sounder.
Displays status in custom English text on 16 character display.
Used for display and control of fire areas only.
4.D1257:Remote Fire Alarm Annunciator. Red plastic for use in
public areas. Displays status in custom English text on 16
character display. Does not provide system control.
BB. Access Control Devices:
1.D9210B:Door Controller. Connects one door to the DACT via the
4-wire SDI / Keypad bus.
2.D8201:Proximity Key Reader (black), available as D8201W
(white)
3.D8203:Mullion Proximity Key Reader (black), available as
D8203W (white)
4.D8221:Sensor Weigand Swipe Card Reader (black)
5.D8222:Sensor Wiegand Key Reader (black)
6.D8223:HID Proximity Reader (black)
7.D8224:HID Mini Proximity Reader (black)
8.D8227:Magnetic Stripe Insert Card Reader (matches D1255)
9.D8229:Wiegand PIN Keypad (stainless steel)
10.D8230-25:Cards for D8227 Reader, 25/pk
11.D8240-25:Cards for D8227 Reader, Photo ID type, 25/pk
12.D8231-10:Cards for D8221 Reader, 10/pk
13.D8241-10:Cards for D8221 Reader, Photo ID type,10/pk
14.D8232-10:Keys for D8222 Reader, 10/pk
15.D8236-10:Cards for D8223 and D8224 Reader, 10/pk
16.D8238-10:Proximity Keys for D8201 and D8203 Readers,
10/pk
17.D8239-10:Proximity Cards for D8201 and D8203 Readers,
10/pk
Notes:
3.0Execution
3.1
seq sub \r0 \h Installation
Install all equipment and materials in accordance with the
"current" recommendations of the manufacturer. The work shall also
be in accordance with:
BC. Installation criteria defined in these specifications and in
the construction documents.
BD. Approved submittals.
BE. Applicable requirements of referenced standards.
3.2
seq sub \r0 \h Supervision
The contractor shall provide the following services as part of
the contract:
BF. Supervision of sub-contractors.
BG. Coordination of other contractors for system-related work
(electrical contractor, finish hardware contractor, architect, and
general contractor).
BH. Attending site construction/coordination meetings.
BI. Keeping updated construction drawings at the construction
site.
BJ. Meeting construction deadlines per the construction
schedule.
3.3
seq sub \r0 \h Programming
Programming of the system shall include the following tasks:
BK. Programming system configuration parameters (hardware and
software, zone/circuit numbers, communication parameters).
BL. Programming operational parameters such as opening/closing
reports and windows, system response text (custom English) displays
of events, activation of relays that drive auxiliary devices, and
identifying types of zones/loops.
BM. Programming passcodes according to the authorities and
functions defined by the owner.
BN. Other system programming tasks required by the owner. These
additional programming requirements shall be coordinated between
the owner and the contractor.
3.4
seq sub \r0 \h Testing
BO. Operational Testing: The contractor shall perform thorough
operational testing and verify that all system components are fully
operational.
BP. Hard-copy System Printout: The contractor shall submit a
hard-copy system printout of all components tested and certify 100
percent operation indicating all devices/panels/units have passed
the test criteria set forth by the manufacturer.
BQ. Acceptance Test Plan Form: An acceptance test plan form
shall be prepared/provided by the contractor prior to the
acceptance walk-through.
This form shall include separate sections for each
device/panel/unit as well as a column indicating the manufacturer's
performance allowance/margin, a column indicating the result of the
testing performed by the contractor (pass/fail), and an empty
column for recording findings during the walk-through.
3.5
seq sub \r0 \h Commissioning
The contractor shall certify completion in writing and schedule
the commissioning walk-through. The contractor shall provide all
the tools and personnel needed to conduct an efficient
commissioning process.
D9412 A&E Specifications
43957DPage 6 2002 Bosch Security Systems
D9412 A&E Specifications
2000 RadionicsPage 1643957D (10/10/02)
