Bosch 7412 G User Manual

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P## Auto Functions Event
Default:See Program Record Sheet
Selection:Yes or No
P## RAM Event
Default:See Program Record Sheet
Selection:Yes or No
P## Relay Event
Default:See Program Record Sheet
Selection:Yes or No
P## Point Event
Default:See Program Record Sheet
Selection:Yes or No
P## Usr Chng Evt
Default:See Program Record Sheet
Selection:Yes or No
2.7 RAM Parameters
Use these program items to enable Remote Account
Manager (RAM) functions in the control panel using
the on-board phone connection. Two other methods
of remote programming are available (external
modem or LAN/WAN connection) using RAM. See
Section 6.4 SDI RAM Parameters for further
information on these types of remote programming.
2.7.1 Uploading and Downloading Reports
If the control panel is programmed to send reports
in modem format, when RAM makes contact with
the control panel and the passcode is incorrect, the
control panel sends a RAM Access Fail Report to
the D6500/D6600. RAM Access Fail is also
generated when the call is not terminated with either
a Good-bye or Reset-bye command.
RAM ACCESS OK is sent according to phone
routing when a Good-bye command is entered from
RAM to terminate the call.
When a Reset-bye is used to terminate the call, a
Remote Reset Report is sent to the D6500/D6600,
and a RAM ACCESS OK is placed into the control
panel’s event log. Reports in the event log that were
not sent prior to the Reset-bye are never sent to the
D6500/D6600.When RAM programming changes parameters, a
Parameters Changed Report is sent to the
D6500/D6600. If any programming changes are
made, perform a Reset-bye.
When RAM attempts to make contact with the
control panel, the RAM passcode and DataLock
code are verified. If the control panel passcode
matches and the DataLock code does not, the
control panel still generates a RAM Access OK
Event. However, the session ends immediately.
To disable remote programming, enter Blank in
both 
Answer Armed and Answer Disarmed
prompts in this section.
2.7.2 Log Threshold Reports
If communication with RAM is not successful, or if
no phone number is programmed in 
RAM Ph, the
control panel generates Log Threshold and Bad Call
to Ram. This indicates the log is filling and the
control panel cannot download its events.
If there is no 
RAM Ph programmed, the control
panel generates the Log Threshold and Bad Call to
RAM Events immediately. Bad Call to RAM Events
are currently logged locally only. If there is a 
RAM
Ph
 programmed, the control panel makes multiple
attempts to reach RAM before sending the reports.
See the 
RAM Ph prompt in the following section for
an explanation of dialing characteristics.
2.7.3 RAM Callback Reports
When dialing the RAM phone number, the control
panel immediately makes two attempts to reach
RAM. If the control panel does not reach RAM on
the first two attempts, it waits 10 minutes then tries
six more times with a 10-minute interval between
each attempt. One hour after the last failed attempt,
the control panel again starts dialing the RAM
phone number. It immediately makes two more
attempts then waits 10 minutes and tries six more
times with 10-minute intervals between each attempt
before generating a Bad Call to RAM Report and
abandoning the effort.
Remote Program Dialing Exception: When a
RAM phone number is programmed, the user can
call RAM by entering [COMMAND][4][3] and
pressing the [NEXT] key until CALLRAM? is
displayed. Press [ENTER]. When performing this
function, only one attempt is made to contact RAM. 
						

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RAM Passcode
Default:999999
Selection:0 to 9, A to F
(six characters required)
Enter six characters. Do not use a space in the
passcode.
The control panel verifies the Remote Account
Manager at the central station has valid access
before connecting using the RAM passcode.
Log % Full
Default:Blank
Selection:1 to 99, or Blank
This parameter determines how full the memory log
should be before initiating a call to RAM at the
central station. This allows the central station to call
the control panel and copy the memory log before
messages are overwritten.
Blank disables the Log Threshold and Log Overflow
Events. These events are not entered in the log or
reported to the D6500/D6600 or the local printer.
The control panel continues to log events after the
Log Threshold Report is sent. When it reaches 100%
capacity (memory logger is full and previously
stored events are overwritten), the control panel
generates a local Log Overflow Event.
The control panel does not call RAM again until it
downloads the log and the Log % Full percentage is
again reached. These events are also sent to the
control panel’s event log and to the local printer(s) if
installed.
0101
0101
0101The Log Overflow Event is not sent to the
central station unless Expanded Test Rpt
is programmed Yes.
RAM Call Back
Default:No
Selection:Yes or No
Yes When the control panel hears the
proper RAM passcode, it hangs up the
phone, seizes the phone line, then dials
the programmed RAM phone number
(see the 
RAM Ph prompt in this
section). This ensures that the control
panel only communicates with RAM
units connected to the programmed
phone number.
No
The RAM session is initiated
immediately. No call back is required.
The control panel can engage in RAM
sessions when called from any phone
number and a proper RAM passcode
is identified.
This function allows the control panel, after it
verifies the RAM passcode, to provide an additional
level of security by hanging up and dialing the RAM
phone number at the central station before allowing
any upload or download.
0101
0101
0101When using the RAM Call Back feature,
be sure to program the character “C” as
the last digit in the RAM phone number
when using DTMF Dialing.
RAM Line Monitor
Default:Yes
Selection:Yes or No
Yes Allows the control panel to
communicate with RAM after the
answering machine answers the phone.
No Program No if the control panel is not
sharing the phone line with an
answering machine.
This program item enables a control panel, which
shares a phone line with an answering machine, to
communicate with RAM at the central station even
though the answering machine answers the phone.
You must program 
Answer Armed and/or Answer
Disarmed
. The control panel must be in the proper
armed state. 
						

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0101
0101
0101Program this item No if it causes false
seizures of the phone line or if you are not
using RAM (this indicates a device using
the same frequency tone is also using the
phone line to which the control panel is
connected).
If RAM Call Back is programmed Yes, the
control panel hangs up the phone after
the RAM tone and a proper RAM
passcode is identified. It then calls the
RAM phone number.
Answer Armed
Default:See Program Record Sheet
Selection:1 to 15, or Blank
Blank No answer.
1 to 15 The control panel answers the phone
after the specified number of rings
when all areas are master armed.
Set the telephone ring counter to answer when all
areas are master armed. If any area in the control
panel is perimeter armed or disarmed, the Answer
Disarmed ring counter is used.
The RAM considers perimeter armed as a
disarmed state.
Answer Disarmed
Default:See Program Record Sheet
Selection:1 to 15, or Blank
Blank No answer.
1 to 15 The control panel answers the phone
after the specified number of rings
when any area in the system is in a
perimeter armed or disarmed state.
Set telephone ring counter to answer when any area
is in a perimeter armed or disarmed state.
The RAM considers perimeter armed as a
disarmed state.
Ram Ph
Default:Blank
Selection:Up to 24 characters
Blank Control panel does not dial a phone
number for RAM.
This is the phone number the control panel dials to
contact RAM. The control panel dials the
programmed number on 
Phone #5 (RAM Ph #)
when the following events occur:
• Log % Full threshold is achieved.
If Log % Full was programmed with a
value (1 to 99) and a RAM phone number
is programmed, the control panel dials the
RAM phone number when the log
threshold is reached. This function is not
available in RPS. Do not program Log %
Full and RAM phone number at the same
time.
• The control panel is contacted by RAM and
RAM Call Back is programmed Yes.
• COMMAND 43 is initiated and the user selects
Call RAM option.
Enter up to 24 characters to define dialing
characteristics.
See Phone 1 in Section 2.1 Phone.
Remote Program Dialing Exception:
When a RAM phone number is
programmed, the user can call RAM by
pressing [COMMAND][4][3] then [NEXT]
until CONTACT RAM? displays, then press
[ENTER]. At this point, the user can press
[ENTER] when RAM VIA PHONE? is
displayed. When performing this function,
only one attempt is made to contact RAM. 
						

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2.8 Miscellaneous
Duress Type
Default:1
Selection:1 or 2
1 Add 1 to the last digit to generate an alarm. For
example, if the passcode is 6123, 6124 triggers a
duress alarm.
If the last digit of the passcode is 0, a duress
alarm is generated when the user enters 1 as the
last digit of the passcode.
If the last digit of the passcode is 9, a duress
alarm is generated when the user enters 0 as the
last digit of the passcode.
2
Add 2 to the last digit to generate an alarm. For
example, if the passcode is 6123, 6125 triggers a
duress alarm.
If the last digit of the passcode is 8, a duress
alarm is generated when the user enters 0 as the
last digit of the passcode.
If the last digit of the passcode is 9, a duress
alarm is generated when the user enters 1 as the
last digit of the passcode.
This program item determines whether users add
one (+1) or two (+2) to the last digit of the passcode.
To activate a duress alarm, the user increases the
value of the last digit of their passcode when
entering it at the command center.
Duress is enabled/disabled by area in
Area Parameters.
The duress alarm is activated when a user
enters the duress combination followed by
the termination keys ([ESC] or [ENT]).
Cancel Report
Default:No
Selection:Yes or No
Yes Send Cancel and Fire Cancel Reports
according to routing.
No Do not send Cancel and Fire Cancel
Reports.
Use this program item to control whether or not
Cancel and Fire Cancel Reports are sent.A Cancel and Fire Cancel Report is created when a
passcode is entered to silence an Alarm Bell or a
Fire Bell before the bell time expires.
2.9 Area Parameters
This programming module contains three
programming categories: Area Parameters, Bell
Parameters, and Open/Close Options.
2.9.1 Area Parameters
Area
Default:1
Selection:1 to 8
Enter the area number you are programming.
A# Area On
Default:Yes (Area 1 only)
Selection:Yes or No
Yes Area is enabled.
No Area is disabled.
Use this program item to enable or disable the area
specified.
0101
0101
01011. When programmed No, points
assigned to this area do not generate
events.
Command centers with Area scope
which are assigned to this area
display AREA # DISABLED.
When arming and disarming, this area
number is not displayed at control
centers with the scope to view this
area.
Status for this area is not reported
with Status Reports.
All user authority in this area is turned
off while the area is disabled.
2. Area 1 must be enabled: System
events such as power and phone
supervision do not report properly if
Area 1 is disabled. 
						

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A# Acct Number
Default:0000
Selection:For BFSK: 0000 to  0999,
0BBB to 0FFF
For Modem (four-digit account
numbers): 0000 to 9999,
BBBB to FFFF
For Modem (ten-digit account
numbers): 0000000000 to
9999999999, BBBBBBBBBB to
FFFFFFFFFF
Determines the account number reported for this
area. An account number must be assigned to each
active area.
Account numbers are used to group areas together.
Each area can have a different account number, or
several areas may share the same account number.
The control panel uses the account number as a
reference for arming and command center text
displays.
BFSK: Only the last three digits are transmitted.
Insert a 0 as the first digit of the account number.
Example:  0 2 3 4.
Modem IIIa
2: Enter a four-digit or ten-digit number.
2.9.2 Programming Account Numbers in 9000
Series Control Panels, versions 6.20 and
Higher
The 9000MAIN version 1.12 handler and version
6.20 firmware and higher now can program a four-
digit or ten-digit account number for each area.
Programming Four-Digit Account Numbers
To properly program a four-digit account number
(such as 1234) using the D5200 Programmer, you
must enter leading 0s (zeroes) in Digits 1 to 6, and
then enter 1234 into Digits 7 to 10. When 0s are
entered for the first six digits (Digits 1 to 6), the 9000
Series Control Panel treats this as a four-digit
account number. See Table 21.Table 21: Programming Four-Digit Account
Numbers
D5200 Programmer
A# Acct# Dgt 1&2  0 0
A# Acct# Dgt 3&4  0 0
A# Acct# Dgt 5&6  0 0
A# Acct# Dgt 7&8  1 2
A# Acct# Dgt 9&10 3 4
The D5200 account number entry shown in Table 21
appears in RPS as 1234.
Although the D5200 allows the character
“A” to be entered into the account, do
NOT use this character for the account
number.
Any account number digits containing “A”
for digits 1 to 6 that were uploaded to and
received by RPS are NOT displayed.
If an “A” was erroneously sent to the
control panel from the D5200 for any of
Digits 1 to 6, this can be corrected by:
• Entering six leading 0s from the
D5200 and sending them to the
control panel.
• Entering six leading 0s from RPS,
followed by the four-digit account
number, and sending them to the
control panel.
Programming Ten-Digit Account Numbers
To properly program a ten-digit account number
(such as 1122334455) using the D5200 Programmer,
you must enter a character for each of the ten digits.
See Table 22:
Table 22: Programming Ten Digit Account
Numbers
D5200 Programmer
A# Acct# Dgt 1&2  1 1
A# Acct# Dgt 3&4  2 2
A# Acct# Dgt 5&6  3 3
A# Acct# Dgt 7&8  4 4
A# Acct# Dgt 9&10 5 5
The D5200 account number entry shown in Table 22
appears in RPS as shown in Figure 2. 
						

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Figure 2: Account Number Entry
2233445511
234567
1
1 - RPS account number entry
2 - Corresponding D5200 account number digits
3 - Digits 1 and 2
4 - Digits 3 and 4
5 - Digits 5 and 6
6 - Digits 7 and 8
7 - Digits 9 and 10
Although the D5200 allows the character
“A” to be entered into the account, do
NOT use this character for the account
number.
Make sure your central station receivers
(D6500 MPU version 1.06 or D6600 CPU
version 01.01.04) and your automation
software are compatible with ten-digit
account numbers before programming a
ten-digit account number in a 9000 Series
control panel.
A# FA Bypass Max
Default:1
Selection:1 to 99
Specify the maximum number of combined
Controlled points that can be faulted or bypassed
when arming this area.
See the prompts 
P## FA Retrnable and P## BA
Retrnable
 in Section 4.1.1 Point Responses for
returning a point to the system when the point
returns to normal or when the area is disarmed.
Users can bypass more points than the
number entered here during the disarmed
state. It is only when the user attempts to
Bypass Arm an area (or areas) that this
restriction is enforced.
0101
0101
0101Points need Bypassable programmed Yes
to be bypassed or force armed. Force
arming does not bypass 24-hour points.
A# Delay Res
Default:No
Selection:Yes or No
Yes Point Restoral Report is not sent until
the bell time expires or user
acknowledges alarm condition.
No
Restoral Reports are sent when point
restores, regardless of bell time.
A# Exit Tone
Default:Yes
Selection:Yes or No
Sound an exit tone during exit delay at all command
centers assigned to this area.
De-selecting individual command
centers for exit tones: Exit tones for
programming the CC Exit Tone as No can
be turned off for individual command
centers (based on their CC# 1 through 8).
A# Exit Dly Time
Default:60
Selection:Blank (0) to 600 ( in 5 second
increments)
Exit delay time for this area when Master Exit or
Perimeter Exit arming.
Points programmed for instant alarms
generate alarms immediately, even during
exit delay. To prevent instant alarms on
points, the user must cause a fault to leave
the building, program P### Type in the
Point Index as 3 (Interior Follower). 
						

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A# Auto Watch
Default:No
Selection:Yes or No
Yes When the area is disarmed, Watch
Mode turns on automatically.
No When the area is disarmed, Watch
Mode must be turned on or off
manually.
0101
0101
0101Controlled points must be programmed
as P## Watch Point to generate a watch
tone.
A# Verify Time
Default:60
Selection:10 to 60 (in 1-second increments)
Alarm verification is designed for use with smoke
detectors to reduce the number of false fire alarms.
When Verify Time is programmed, the control
panel can double check smoke detector point
activations before generating alarm signals.
DO NOT enable the Cross Point feature
in point indexes designated for Fire points.
Check with your authority having jurisdiction (AHJ)
to determine the maximum verification time
allowed.Points are programmed individually to activate the
verification feature. See Section 4.1
 Point Index. Any
resettable Fire point can activate alarm verification
for the area to which it is assigned. Use separate area
alarm-verification relays.
To enable alarm verification on a point, program
Point Index, Fire Point, Alarm Verify, and
Resettable as Yes.
When an Alarm Verification point trips, the control
panel automatically removes power to all Resettable
points connected to the area’s Reset Sensors relay.
The sensor reset removes power to the sensors for
the amount of time programmed in Verify Time.
When power is reapplied, a 60-second confirmation
window begins. If the detector is still in alarm, or
trips again during the confirmation window, or if a
different Resettable Verification point in the area
trips, an alarm is generated.
Example: Verify Time is set for 20 seconds. The
alarm verification cycle starts when the detector
trips. No report is generated.
Immediately after the detector trips, the area’s sensor
reset relay interrupts power to points connected to it
for the time in Verify Time.
When power is restored to the points, the 60-second
confirmation window is established. If any detector,
reset during the verification time, trips again during
the confirmation window, an alarm is generated. If
no activity occurs during this period, no alarm is
generated and the verification window ends. If a
Verification point trips again after the window ends,
a new verification cycle begins. See  Table 23 for an
example of verify time.
 Table 23: Verify Time
Verification Point
TripVerify Time/Reset
Sensors
Power removed,
ignore activity60 second
Confirmation
Generate alarm if
additional activity
received.Restart Alarm
Verification Cycle if
an Alarm Verification
point trips.
Example: Total
Cycle time 80
seconds
☛■   20  Seconds ■■■■■■■ 
						

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A# Duress Enable
Default:No
Selection:Yes or No
Yes Enable Duress alarm for this area.
No Disable Duress alarm for this area.
This entry determines if this area allows duress
alarms to be generated. See the 
Duress Type
prompt 
 in Section 2.8 Miscellaneous for an
explanation of duress.
Setting this item to No for a particular area
and entering a valid duress passcode for
that area at the command center now
displays NO AUTHORITY. 
						

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A# Area Type
Default:Regular
Selection:Regular, Master, Associate, or Shared
Regular Arms or disarms as an independent area.
Master Does not allow arming for this area unless all associate areas with the same A# account number are
master exit delay arming or master armed. CHK AREA displays if the associate areas are not armed.
Exception: RPS allows master areas to be armed without all associate areas being in the armed
state.
A master area can be disarmed regardless of the armed state of the other areas in the account.
Multiple master areas can be programmed in a single account.
 
0101
0101
0101Programming Tip:
CC# Scope affects master arming
Area:
 A master area with a CC# Scope Area requires the associate areas
are independently armed, or master exit delay before the master area can arm.
Panel Wide/Account Wide:
 Upon arming the master area, all associate areas
within the CC# Scope of the master area begins Master Exit Delay Arm. The
shared areas begin.
Using the arming sked (S## Function 1) requires that you first use an arming
sked to arm the associate areas before using an armingsked to arm the master
area. In addition, arming master areas with RAM IV, Keyswitch, or Auto Close
parameters (see Open/Close Options) is allowed to occur before all associate
areas are armed.
Associate
Allows arming and disarming regardless of the armed state of the other areas with the same A#
account number. This type of area is used with a master area and is associated by having the same
account number.
Command centers assigned to associate areas, when used in conjunction with
shared areas, should have the CC# Scope programmed to encompass the
shared area.
Shared Shared areas cannot be armed using a passcode, keyswitch, sub-control, sked, or by RAM. Doing so
produces a Watchdog Reset.
The scope of all associate areas must include the shared area(s) in order to view
faulted points. 
						

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2.9.3 Shared-Area Characteristics
Arming a Shared Area
Requires all associate areas to be armed. As soon as
the last associate area is armed, the shared area
begins its arming sequence automatically. Passcode,
keyswitch, sub-controls, or RAM cannot arm shared
areas. To display faulted points at associated areas,
the shared and associate areas must have the same
account number.
Disarming a Shared Area
Shared areas automatically disarm when any
associate area in the control panel is disarmed.
Passcode, tokens/cards, keyswitch, sub-controls, or
RAM cannot disarm shared areas.
Shared Area Arming Sequence
When shared areas automatically begin to arm, the
arming is based on the 
A# Exit Dly Time
programmed for the area number where the
command center was assigned.
Shared Area Not Ready
If a point is faulted in the shared area, CHK AREA
displays on the associate command center that is
arming the last associate area. Associate area
command centers can display faults from shared
areas as long as the shared areas fall within the scope
of the associate area.
Force Arming a Shared Area
When CHK AREA is displayed, pressing [ESC]
displays FORCE ARM at the associate command
center. Pressing [ENTER] force arms the shared area
if the user has authority to bypass points, the point is
bypassable, AND the number of faulted points does
not exceed the force arm max amount for the shared
area. Remember to include the shared area in the
associate area’s scope.
Viewing Shared Area Armed Status
View Area Status can be used from a command
center outside of the shared area to view the shared
area’s armed state.
Silencing Sounders in the Shared Area
Shared area alarms and troubles can be silenced
from any command center.
To silence sounders, the user needs an authority
level assigned to the shared area. If the user also has
the authority to arm/disarm the area, then ALREADY
ARMED or ALREADY DISARMED momentarily
displays.Access Control Readers Assigned to the Shared
Area
The shared area momentarily disarms then begins
the exit delay sequence, allowing a user to walk to
an associate area and disarm. If the token/card
reader assigned to the shared area includes any
associate area in the 
D## CC# Scope (in the access
handler), both the associate area and shared area
disarms when the token/card is presented.
Closing Reports for Shared Areas
If Closing Reports for shared areas are required,
passcodes also need a valid authority level assigned
in the shared area.
2.9.4 Bell Parameters
The D9412G/D7412G have two main types of
annunciation: Fire Bell and Burg Bell. Both Fire and
Burg Bells share the same terminal (Terminal 6) on
the control panel as shipped from the factory.
In the event of a simultaneous Fire Bell and Burg
Bell occurrence, the Fire Bell takes precedence over
the Burg Bell regardless of which relay or terminal
output they share.
When the Fire and Burg Bells share the same output
and a Fire Bell occurs while the Burg Bell is ringing,
the Fire Bell pattern overrides the Burg Bell pattern.
At the end of the fire time, the burg pattern resumes.
When the Fire and Burg Bells share the same output
and a Burg Bell occurs while a Fire Bell is sounding,
the control panel waits until the Fire time expires
before starting the Burg Bell.
Either a single bell (panel-wide) or a number of bells
(area) can be used on the control panel. For
programming these applications, see Section 2.13.1
Area Relays.
When both Fire and Burg Bells occur simultaneously
and a user enters a valid passcode, a Fire Cancel
Report for the fire alarm and a Cancel Report for
the burg alarm reports to the central station if
Cancel Reports is programmed Yes.
Area
Default:1
Selection:1 to 8
Enter the area number you are programming.