Bosch 7412 G User Manual

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 121
Bosch Security Systems | 1/04 | 47775E
In order to use an off-the-shelf external modem and a D9133DC serial module to connect to the control
panel using RAM, use the following settings:
1. RADXAUX1\ENHANCED COMM\Enhanced Comm\No
2. RADXAUX1\SDI RAM PARAMETERS\Enable SDI RAM\Yes
3. RADXAUX1\SDI RAM PARAMETERS\Callback Enabled\No
4. RADXAUX1\SDI RAM PARAMETERS\RAM IP Address 1-4\0
5. RADXAUX1\SDI RAM PARAMETERS\Enable Ext Modem\Yes
6. RADXAUX1\SDI RAM PARAMETERS\Answer Armed\1 to 15
7. RADXAUX1\SDI RAM PARAMETERS\Answer Disarmed\1 to 15
8. RADXAUX1\SDI RAM PARAMETERS\RAM Line Monitor\No
9. RADXAUX1\SDI RAM PARAMETERS\Seize Relay\No
10. RADXAUX1\SDI RAM PARAMETERS\Modem Init String\ATE0
11. RADXAUX1\SDI RAM PARAMETERS\RAM Dial String (blank)
12. RADXAUX1\SDIRAM/ENHANCED CONF\Baud Rate\00
13. RADXAUX1\SDIRAM/ENHANCED CONF\Parity/Stop No\1
14. RADXAUX1\SDIRAM/ENHANCED CONF\RTS Control\ON
15. RADXAUX1\SDIRAM/ENHANCED CONF\DTR Control\ON
16. RADXAUX1\SDIRAM/ENHANCED CONF\3 Supervision\No
17. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG1 Primary SDI\No
18. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG1 Backup SDI\No
19. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG2 Primary SDI\No
20. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG2 Backup SDI\No
21. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG3 Primary SDI\No
22. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG3 Backup SDI\No
23. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG4 Primary SDI\No
24. 9000MAIN\PANEL WIDE PARAMETER\Enhanced Routing\RG4 Backup SDI\No
25. The control panel reset pin can be up or down.
26. The modem at the control panel location must be set for 9600 baud and echo off. This information
must be written to the modem configuration area. Hyperterminal can be used to send the following
Hayes modem commands (see the Modem Manual for command syntax):
• ATS37=9 (set baud rate to 9600)
• ATE0 (eliminate echo)
• AT&W0 (write configuration to modem memory, not echoed)
27. Ensure the modem at RPS is set up for 9600 baud.
28. From the control panel communication window on RPS, connect by modem at 9600 baud. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 122
Bosch Security Systems | 1/04 | 47775E
Enable Ext Modem
Default:No
Selection:Yes or No
Yes Enable SDI Address 88 for use with an
external modem.
No
Disable SDI Address 88 for use with an
external modem.
Setting this item to Yes instructs the control panel
that SDI Address 88 is enabled for use with an
external modem. For further information on Local
RPS programming, see the RPS Operation Manual.
Setting this item to Yes disables
Enhanced Communication and SDI RAM
for use over a LAN or WAN.
Answer Armed
Default:7
Selection:0 to 15
0 No answer when all areas are Master
Armed.
0 to 15
The control panel answers the phone
after the specified number of rings
when all areas are Master Armed.
Determines the number of rings after which the
external modem automatically answers a call if all
areas are Master Armed.
Answer Disarmed
Default:7
Selection:0 to 15
0 No answer when any area is Perimeter
Armed or Disarmed.
0 to 15
The control panel answers the phone
after the specified number of rings
when any area is Perimeter Armed or
Disarmed.
Determines the number of rings after which the
external modem automatically answers a call if any
area is Perimeter Armed or Disarmed.
RAM Line Monitor
Default:No
Selection:Yes or No
This item is not yet implemented. Keep this item set
to No.
Seize Relay
Default:No
Selection:Yes or No
This item is not yet implemented. Keep this item set
to No.
Modem Init String
Default:ATE0
Selection:A to Z (capital letters only), 0 to 9,
[SPACE], ! “ # $ % & ‘ ( ) * + , - . / : ;
< = > ? @ [  ] ^ _
Determines which initialization string the control
panel sends to the external modem when the control
panel powers up.
0101
0101
0101If special characters are required, this
item can only be programmed
successfully from RPS. The D5200
Programmer only allows the characters
shown in the Modem Init String
default/selections.
RAM Dial String
Default:ATDT
Selection:Not available
This item is not yet implemented.
6.5 Enhanced Communications
Enhanced communications is the ability to
communicate by some other means than the
standard digital dialer. In this section, programmable
parameters allow you to define up to four separate
enhanced communication paths to which events can
be routed. To route an event (such as an Alarm or
Trouble) to an enhanced communication path,
additional programming must also be completed in
Section 2.3 Routing and Section 2.4 Enhanced Routing. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 123
Bosch Security Systems | 1/04 | 47775E
Enhanced Comm
Default:No
Selection:Yes or No
Yes Enable enhanced communications over
the SDI bus.
No
Do not enable enhanced
communications over the SDI bus.
Determines if the control panel allows enhanced
communications over the SDI bus.
0101
0101
0101Modem Format must be set to Yes when
using enhanced communications.
Enable Ext Modem must be set to No if
enhanced communications are to be
used.
Enhanced Comm must be set to No if an
external modem is to be used.
In order to completely disable Enhanced
Routing over an SDI path, RG#Primary
SDI, RG#Backup SDI, and Enhanced
Comm prompts must all be set to No.
6.5.1 Programming Path Numbers and IP
Addresses
There are up to four available paths to which events
can be routed. If an event (or group of events) is to
be routed to an SDI path, the number entered in
Primary Device determines which SDI path is used
(as long as 
RG# Prim, Primary SDI was set to Yes
in Routing).
If events are to be routed to an IP address (in a
private LAN/WAN application), determine which
path is used (Path 1 to Path 4), and enter the
appropriate IP Address for that path (see 
Path # IP
Add1
 to Path # IP Add4).
If events are to be routed to an SDI Path but not to
an IP Address, leave the 
Path # IP Add# set to 0.
Path # Poll Rate, Path # Ack Wait, and Path #
Retry Count
 must still be programmed.
Path # IP Add1
Default:0
Selection:0 to 255
0 to 255
Enter the first three digits of the IP
address. If the first field is one or two
digits in length, leading zeros are not
required.
This prompt and the next three determine the IP
addresses for each of the four paths available when
using the D5200.
An IP address consists of four fields. Each field has a
range of 0 to 255. For example, an IP address is
expressed as 110.227.64.190. The D5200
programmer splits the IP address into four
programmable fields (see Figure 9). Be sure you
contact your network administrator to find out
exactly where to send IP Address Events.
Figure 9: Path # IP Add1 to Add4
110.227.64.190
Path # IP Add1
Path # IP Add2
Path # IP Add3
Path # IP Add4
Path # IP Add2
Default:0
Selection:0 to 255
See Path 1 IP Add1.
Path # IP Add3
Default:0
Selection:0 to 255
See Path 1 IP Add1.
Path # IP Add4
Default:0
Selection:0 to 255
See Path 1 IP Add1.
Path # Poll Rate
Default:0
Selection:0, 5 to 65535 seconds
0 Disables the heartbeat poll (not
recommended, see the first Important
Note that follows).
5 to 65535 Enables the poll rate for the amount of
time programmed here. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 124
Bosch Security Systems | 1/04 | 47775E
This prompt and the next two prompts determine
how the SDI Path is supervised between the SDI
device and the central station(s). Do not confuse with
the supervision of the SDI device (the connection of
the SDI device to the 9000 series control panel).
Each SDI Path can be configured to transmit a
Heartbeat Event to the central station for supervision
purposes. This ensures the integrity of the
connection at all times.
When sending reports to a central station
receiver over a network path, this
programming prompt must be set to a non-
zero value. Failure to program a value into
this field could prevent a failed network
communications path from restoring back
to normal.
If the control panel is programmed to send
Heartbeat Events to the central station,
consider the frequency. If the poll rate to
the central station is less than 60 seconds,
the connection with RPS over a LAN or
WAN becomes increasingly difficult the
lower the poll rate is set.
The control panel readjusts the poll rate if it
is less than 300 seconds to a temporary
poll rate of 300 seconds when online with
RPS. The poll rate returns to the
programmed value after the RPS session is
over.
Each time the SDI Path sends this Heartbeat Event,
it expects an acknowledgement within the amount of
time programmed in 
Path # Ack Wait. If the
acknowledgement is not received, the control panel
checks to see if the 
Path # Retry Count entry is
greater than 0. If so, the control panel retries the
number of times programmed (in 
Path # Retry
Count
) to send the Heartbeat Event before declaring
the Path as failed and generating a COMM FAIL
SDI ## (Path 1 = SDI 88, Path 2 = SDI 89, Path 3 =
SDI 90, Path 4 = SDI 91) Event. If Poll Rate is
programmed with a value and the central station
does not acknowledge the poll from the control
panel, command centers do not annunciate a trouble
condition. To transmit this event to the central
station, see the 
Comm Fail prompt in Section 2.13.2
Panel-Wide Relays.
Example of Heartbeat:
• 
Path # Poll Rate is set to 120 seconds
• 
Path # Ack Wait time is set to 10 seconds
• 
Path # Retry Count is set to 2
When the control panel first powers up, the first
Heartbeat Event for Path 1 is sent and is
acknowledged in 1 second. 120 seconds after the
first Heartbeat Event is sent, the second Heartbeat
Event for Path 1 is generated and sent to the central
station.
Example of Retry Count:
An acknowledgement of the heartbeat was not
received in 10 seconds. The Heartbeat Event re-
sends after the first 10 second ack wait period
expires. If this Heartbeat Event is not acknowledged,
the control panel declares this path as failed (and
generates the Comm Fail ## Event). It continues to
re-send the Heartbeat Event every 10 seconds until
it is acknowledged.
Figure 10: Poll Rate Timeline
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180190 200210
2
3
1
8
4
5
6
7
9
1 -  Control panel powered up
2 - Acknowledgement received
3 - Heartbeat Event sent
4 - Second Heartbeat Event sent
5 - No acknowledgement, Heartbeat re-sent, retry #16 - No acknowledgement, Heartbeat re-sent, retry #2
7 - Path declared as failed
8 - 10-second interval
9 - Additional Heartbeats sent every 10 seconds until
acknowledged 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 125
Bosch Security Systems | 1/04 | 47775E
Once the control panel receives acknowledgement
from the central station, the control panel returns to
the normal Poll Rate (which, in this example is 120
seconds).
If more than one SDI Path is used, the control panel
handles them on a successive basis. For example, if
acknowledgement from SDI Path 1 is not received
within 10 seconds (using the previous example), the
control panel moves to SDI Path 2 to send its
Heartbeat Event (and subsequently waits for the ack)
before returning to SDI Path 1 to re-send its
heartbeat.
Beginning with firmware revision 6.20, if
Heartbeats are enabled and primary is an
SDI (or IP address) and the primary path
fails due to a heartbeat failure, then all
events should immediately go to the
backup path.
Entries are made in 1-second increments.
0101
0101
0101Even though RPS and the D5200 allow
entries of 1 to 4, the control panel
interprets these entries as an entry of 5.
0101
0101
01015 minutes = 300 seconds
1 hour = 3600 seconds
12 hours = 43,200 seconds
18 hours = 64,800 seconds
Path # Ack Wait
Default:13
Selection:0, 5 seconds to 65535 seconds
0
The control panel does not look for
any acknowledgement from the central
station.
5 to 65535 The control panel waits this amount of
time to receive an acknowledgement
from the central station.
Determines how long the control panel waits for an
acknowledgement from the central station after a
Heartbeat Event (poll) or an actual event was
transmitted. This prompt is only applicable to SDI
transmitted events. Entries are made in 1-second
increments.
0101
0101
0101Even though RPS and the D5200 allow
entries of 1 to 4, the control panel
interprets these entries as an entry of 5.
The value entered for Path # Ack Wait
Tone must not equal the time out entry
made in the RPS Account (see the RPS
Operation Manual, v2.9 or higher). Instead,
offset these values by 2 or 3. For example,
if your Path # Ack Wait time = 15,
program your Time Out value as 17 in the
RPS account.
Path # Retry Count
Default:5
Selection:0 to 255
0
COMM FAIL RG# SDI ### Events
are not generated.
1 to 255 COMM FAIL RG# SDI ### Events
are generated after the number of
retries are reached for a given SDI
path.
Determines how many times the control panel
resends the Heartbeat Event before declaring a path
failure and generating a COMM FAIL RG# SDI
### (RG # = 1 to 4, SDI ### = 88 for Path 1, 89
for Path 2, 90 for Path 3, 91 for Path 4) Event.
6.6 SDI RAM/Enhanced
Communications Configuration
This section provides the necessary prompts needed
for configuring the D9133TTL-E SDI-Ethernet
Interface Module when using it for SDI RAM
and/or SDI enhanced communication applications.
Baud Rate
Default:9600
Selection:300, 1200, 2400, 4800, 9600, 14.4 K
This item determines the communication baud rate
for the D9133TTL-E. Because the SDI bus
communicates at 9600 baud, keep this prompt also
at 9600 baud. Pressing the [SPACE] bar on the
D5200 toggles through the available options.
Do not change this value to any other
setting than 9600 baud. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 126
Bosch Security Systems | 1/04 | 47775E
Parity/Stop
Default:No/1
Selection:No/1, No/2, Odd/1, Even/1
No/1 No parity, 1 stop bit.
No/2 No parity, 2 stop bits.
Odd/1 Odd parity, 1 stop bit.
Even/1 Even parity, 1 stop bit.
This prompt addresses two items: Parity and the
number of stop bits for the D9133TTL-E. Pressing
the [SPACE] bar on the D5200 toggles through the
available options.
This item must be set to No/1 when using
the External Modem feature.
RTS Control
Default:On
Selection:On, AutoX, Off, AutoR
On Sets RTS to on (hardware control).
Auto X
Automatically enables Xon/Xoff
(software control).
Off Sets RTS off (hardware control).
Auto R Sets this to Auto RTS.
Determines how the Request To Send Control
parameters are defined for the D9133TTL-E.
Pressing the [SPACE] bar on the D5200 toggles
through the available options.
This item must be set to On when using
the External Modem feature.
DTR Control
Default:On
Selection:On, AutoD, Off
On Sets DTR to on (hardware control).
AutoD Sets this to Auto DTR.
Off Sets DTR off (hardware control).
Determines how the Data Terminal Ready Control
parameters are defined for the D9133TTL-E.
Pressing the [SPACE] bar on the D5200 toggles
through the available options.
This item must be set to On when using
the External Modem feature.
9133 Supervision
Default:No
Selection:Yes or No
Yes Supervise the D9133TTL-E Network
Interface Module.
No
Do not supervise the D9133TTL-E
Network Interface Module.
This item determines whether the D9133TTL-E is
supervised or not. If the D9133TTL-E is supervised,
disconnecting it from the control panel creates a
Trouble SDI 88 Event and the command
centerannunciates a trouble tone and displays
SERVC SDI 88.
Trouble SDI 88 Reports are always
reported using Area 1’s account number.
Base Port Number
Default:7700
Selection:0 to 65535
The base port number is the port number of the
CoBox, such as 7700. This is used in the future
revision and is not needed at this time.
6.6.1 Route Group Attempts
This section determines how many times a route
group tries the primary destination before
attempting the backup destination should the
primary destination fail. This entry applies to both
Phone numbers and IP addresses. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 127
Bosch Security Systems | 1/04 | 47775E
RG# 1 Attempt
Default:No
Selection:Yes or No
Yes This route group attempts the primary
destination once and, if unsuccessful,
attempts the backup destination. The
control panel still makes a total of ten
attempts (five to the primary, five to
the backup) before generating a route
group Comm Fail Event.
No This route group attempts the primary
destination twice and, if unsuccessful,
attempts the backup destination. The
control panel still makes a total of ten
attempts (six to the primary, four to the
backup) before generating a route
group Comm Fail Event.
6.7 Miscellaneous
Fire Supv Res Type
Default:0
Selection:0, 1, 2
0 The control panel transmits a FIRE
TROUBLE RESTORE when a Fire
Supervision point restores to normal.
1 The control panel transmits a FIRE
ALARM RESTORE when a Fire
Supervision point restores to normal.
2
The control panel transmits a FIRE
SUPERVISION RESTORE when a
Fire Supervision point restores to
normal.
Determines how the control panels transmits a Fire
Supervision Restoral Event.
0101
0101
0101Beginning with version 6.20, the Fire Supv
Restore Event was added to Fire Events in
Routing. It is not necessary to set this item
to 2 any longer. If Fire Supervision Restore
Events are needed, simply enable them in
Routing.
Enable Protocol Type
Default:No
Selection:Yes or No
Not required at this time. Leave at default value.
Enable Anti Replay
Default:No
Selection:Yes or No
This feature is used primarily for two purposes:
Anti-Replay: A strategy designed against replay
attacks. This feature prevents substitution of a
control panel/network interface module (NIM)
solution for delivering events over a network.
A replay attack occurs when a hacker records a
message sent over the network by Device A and
replaces this message at a later time while
pretending to be Device A.
If this function is required, you must also
enable the Anti-Replay function in the
D6600 Receiver. See the D6600
Operation and Installation Manual
(P/N: 39964) for further details.
Account Identification: With version 6.0, the
D6600 Receiver identified NetCom accounts by the
IP address received in the message sent from the
control panel. With version 6.2, the D6600 Receiver
can identify the NetCom accounts by either the IP
address and/or the account number received in the
message sent from the control panel. The account
number transmitted in the message is always Area
1’s account number. Although up to ten digits can
be programmed for the account number, only eight
digits are sent in the message to the D6600 receiver.
Fire Trouble Resound
Default:0
Selection:0, 1, 2
0 Command centers do not re-sound the
fire trouble tone.
1
Command centers re-sound the fire
trouble tone at 12:00 PM if any Fire
point that falls within the scope of a
command center is in an off-normal
condition.
2
Command centers re-sound the fire
trouble tone at 12:00 AM if any Fire
point that falls within the scope of a
command center is in an off-normal
condition. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 128
Bosch Security Systems | 1/04 | 47775E
This item determines if a fire trouble condition,
previously acknowledged and silenced at a
command center, automatically (locally) resounds
the fire trouble tone at 12:00 PM, 12:00 AM, or not
at all if the point is still in an off-normal state. Events
are not generated at the time resound occurs.
6.8 Cross Point Parameters
This section discusses the requirements necessary to
program Cross Point functions.
If a 9000 Series Control Panel is upgraded
to version 6.30, you MUST use
RADXAUX1 Handler version 1.05 or
higher. Failure to do so may cause
unexpected point response behavior (see
Section 6.2 RPS and D5200 Handler
Requirements.)
The Cross Point option is designed to reduce false
alarms. To achieve this, points can be programmed
such that the control panel needs to see an Alarm
condition within a programmed period of time
(called Cross Point Time) from at least two points
within a Cross Point Group (see Table 40) before
Cross Point Alarm Events are generated. These
points need the Cross Point option enabled in their
corresponding point indexes to be able to generate
this event.
Cross Point Groups were established in the D9412G
and D7412G to support the Cross Point functions.
There are 31 Cross Point Groups in the D9412G
and ten in the D7412G. Each Cross Point Group
consists of eight points and is identified by the point
numbers in them (for example, Cross Points 1 to 8,
Cross Points 9 to 16, and so on). The maximum
number of points that can be programmed to meet
the Cross Point criteria is two. Point numbers from
different Cross Point Groups do not affect each
other. See Table 40 for a complete listing of Cross
Points comprising each Cross Point Group.Table 40: Cross Point Ranges Within Groups
Cross Point Group Point Range
11to8
29to16
317to24
425to32
533to40
641to48
749to56
857to64
965to72
10 73 to 80
1181to88
12 89 to 96
1397to104
14 105 to 112
15113to120
16 121 to 127
17129to136
18 137 to 144
19145to152
20 153 to 160
21161to168
22 169 to 176
23177to184
24 185 to 192
25193to200
26 201 to 208
27209to216
28 217 to 224
29225to232
30 233 to 240
31241to247
When any Cross Point detects an alarm condition,
the control panel starts a timer as programmed in
the 
Cross Point Time prompt.
If a second Cross Point within the same Cross Point
Group detects an alarm condition, the control panel
creates a Cross Point Alarm Event for both points,
provided both points activate inside the Cross Point
Window.
If a single Cross Point detects an alarm and stays
faulted throughout the Cross Point Window, a
standard Alarm Report is generated for that point. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 129
Bosch Security Systems | 1/04 | 47775E
Conversely, if a single Cross Point detects an alarm,
then restores, and no other conditions occur, an
Unverified Event is generated for that point. A
second alarm on the first point does not create an
Alarm Event but rather an Unverified Event.
Section 2.3 Routing determines whether these events
are transmitted to a central station. An Unverified
Event does not produce a corresponding Restoral
Event.
The Cross Point function applies only to alarm
conditions. It does not apply to supervisory or
trouble conditions. Points programmed with point
response D (Delayed) eventually go into an alarm
condition if the area is not disarmed in time.
Use the Cross Point function on Non-fire
points only.
Cross Point Time
Default:20 seconds
Selection:5 seconds to 255 seconds
Select the amount of time (in seconds) that points
within a Cross Point Group are in alarm before a
Cross Point event is generated. 
						

							D9412G/D7412G | Program Entry Guide | 6.0 RADXAUX1EN | 130
Bosch Security Systems | 1/04 | 47775E
Notes