Teldat Security VisorALARM & MIP Alarm transmission over IP networks Agenda • Product description • Installation • Video storage options • Recording access and management • Tech.
Download ReportTranscript Teldat Security VisorALARM & MIP Alarm transmission over IP networks Agenda • Product description • Installation • Video storage options • Recording access and management • Tech.
Slide 1
Teldat Security
VisorALARM & MIP
Alarm transmission over IP networks
Slide 2
Agenda
• Product description
• Installation
• Video storage options
• Recording access and management
• Tech specs
2
Slide 3
Product definition
“The MIP is a simple communications device
that allows the transmission of alarms,
generated by a conventional control panel,
through any kind of IP network (ADSL, cable,
internet…) at the same time that keeps the
standard telephone alarm transmission as a
back-up mechanism”
Alarm Panel
Central Station
MIP
Internet
Telephone
3
Slide 4
How does it work?
“When the control panel dials the central
station telephone number to send an alarm,
the MIP will ‘capture’ the call, read the
CONTACT-ID information from the control
panel, put that information into an IP packet
and send it to the Central Station via the
internet (Cable, ADSL, T1,…)”
Alarm Panel
MIP
Telephone call
Sends the alarm
Sends Contact-ID
via the internet
4
Slide 5
And if the network is ‘down’?
“The MIP will not acknowledge the alarm to the control
panel until the central station has receive the IP alarm
properly. If the IP transmission fails, no ACK will be
given to the control panel and the control panel will
then redial. This second time, the MIP will let the
control panel make the phone call to the central
station (pass-through mode)”
Alarm Panel
Central Station
MIP
Internet
Telephone
5
Slide 6
With which control panels does the MIP work ?
“The MIP supports any control panel that can be
programmed to use the CONTACT-ID protocol and that
uses a standard telephone line to send its alarms to the
central station”
Alarm Panel
MIP
CONTACT-ID
Note: The SIA protocol will be available for version 2.0 of the MIP.
6
Slide 7
MIP installation
“The MIP has been designed so that
it can be mounted in the inner side
of the control panel’s lid”
Input telephone
connection from
panel
12Vdc (from panel)
From panel
(optional)
Alarm input
Relay output
Connection to
telephone network
Ethernet connection
to hub or router
7
Slide 8
Communication line for the MIP
“The MIP can send alarms to the central station using
any kind of always-on communication line, such as
ADSL, cable or T1 lines”
MIP
ADSL
HUB
ROUTER
CABLE
T1
………
8
Slide 9
VisorALARM : Central station IP receiver
9
Slide 10
VisorALARM : Central Station IP receiver
“All the alarms sent by any MIP module will be
sent to the VisorAlarm receiver located at the
Central Station”
VisorAlarm : Central Station
Receiver for MIP alarm reception
10
Slide 11
IP receiver installation
“The VisorAlarm IP receiver will send all received
IP alarms to your automation software server via a
serial connection, just as any other of your alarm
receivers”
Automation Software
Server (IBS, MAS,
Microkey, Dice, Bold…)
HUB
Ethernet
To internet
router
Serial Connection
AlarmNET
11
Slide 12
IP receiver protocols
“The VisorAlarm receiver can be programmed
to emulate some of the most common receiver
protocols (Sur-Gard, Radionics,…)”
Surgard or Radionics
serial protocols
HUB
Automation Software
Server (IBS, MAS,
Microkey, Dice, Bold…)
Ethernet
To internet
router
Serial Connection
AlarmNET
12
Slide 13
IP receiver scalability
“Multiple VisorAlarm modules can be set-up at
the central station, each of them using a
different IP address and acting as independent
receiver units”
HUB
Automation Software
Server (IBS, MAS,
Microkey, Dice, Bold…)
Nx Ethernet
To internet
router
N x Serial Connection
AlarmNET
13
Slide 14
Main advantages of using the MIP system
14
Slide 15
Main advantages of using the MIP system ( I )
1. Saves the cost of each alarm phone call: By
transmitting the alarm via a flat rate always-on network
which the customer is probably using for Internet access.
Alarms are sent
through the existing
high speed internet
access
Alarm Panel
Central Station
MIP
Internet
Telephone
15
Slide 16
Main advantages of using the MIP system ( II )
2. Instant alarm transmission to the central station :
Alarm transmission over most high speed networks will take
less than a second.
End-2-End delay usually less than 1 second
Alarm Panel
Central Station
MIP
16
Slide 17
Main advantages of using the MIP system ( III )
3. Low alarm transmission cost and high speed allows
fast and easy communication to the central station of
almost any control panel event (secure arm/disarm,
battery status, test signals …)
Central Station
Fast and no-cost transmission of maintenance
and general events
17
Slide 18
Main advantages of using the MIP system ( IV )
4. Allows for the “secure line” functionality with no
extra costs: The MIP is periodically sending signals to the
Central Station receiver acting as a line supervision
mechanism. If a MIP does not communicate in time, the
receiver will automatically generate a false alarm. This
functionality allows line sabotage and line failure detection.
Sabotage / technical
alarm
Alarm Panel +
MIP
Line
Failure /
Sabotage
Receiver
VisorAlarm
Central Station18
Slide 19
Main advantages of using the MIP system ( V )
5. The MIP does not require a dedicated internet line
and can be placed on the same network that is being
used to surf the internet or for other broadband services
Alarm Panel
Internet
PC#1
High Speed
Router
PC#2
19
Slide 20
Main advantages of using the MIP system ( VI )
6. The MIP can be used with most of the installed base
of control panels as most panel support the CONTACT-ID
protocol : The MIP can be sold to your existing customer
base as a way to improve their security and decrease their
costs, or added to new alarm installations.
Compatible with installed
base of alarm panels
Alarm Panel
CONTACT-ID
20
Slide 21
Security on the MIP alarm transmission system
21
Slide 22
Security on the MIP system
Alarm Encryption: All the information transmitted
between the MIP and the central station receiver is
encrypted using an RC4 code.
Password protected: All the information transmitted
between the MIP and the central station receiver is
encrypted using an RC4 code.
Anti-replication mechanism: Each communication to
the central station receiver has a dynamic sequential
password so any alteration on the encrypted sequence will
be detected.
Note: Dynamic sequential password is not supported in beta / evaluation versions of the MIP units.
22
Slide 23
Frequently Asked Questions
23
Slide 24
MIP Frequently Asked Questions ( I )
CID: The MIP module will have the same CID than the
control panel to which it is attached. That will allow the
central station to keep track of all the secure lines and
associate each of them to the corresponding user account.
Bandwidth: The MIP uses less than 64 bytes of
information in each polling or alarm communication, thus
using an insignificant bandwidth of a regular internet line.
IP address: The MIP can be setup with private (non
public) IP addresses.
24
Slide 25
MIP Frequently Asked Questions ( II )
Firewalls and proxies: The MIP uses UDP packets
and can be programmed to work over any IP port.
Most firewalls will allow outgoing UDP traffic.
Polling period: The polling period can be set
between 10 and 65000 seconds.
Control Panel Programming: The MIP lets through
all incoming calls to allow the central station
access the panel for configuration and
maintenance purposes.
25
Slide 26
IP receiver Frequently Asked Questions ( I )
Nº of MIP units : VisorAlarm receiver supports
more than 3,000 MIP units simultaneously.
IP address : The VisorAlarm receiver needs to be
programmed with a static public IP address.
Scalability : Several VisorAlarm receivers can be
installed at the Central Station (each of them using
a different IP address and serving a different group
of MIP units).
26
Slide 27
IP receiver Frequently Asked Questions ( II )
Receiver backup: For high availability scenarios,
the VisorAlarm receiver can be installed by pairs in
a Master/Slave backup configuration.
What happens if the central station internet
access goes down? : The receiver is programmed
to poll a well-known highly reliable external
internet address. If that poll fails, the receiver will
not generate false technical alarms and will wait
for it’s connection to be re-established.
27
Slide 28
MIP and VisorALARM technical specifications
28
Slide 29
MIP Technical Specifications
Size
120 x 92 x 30 mm
Power
12 Vdc / 400mA
Com. Interfaces
Ethernet 10 Mbps
Telephone
Encryption
RC4 code
Security
Password protected
Line polling
Programmable
1- 65000 seconds
IP address
Public or private (DHCP under
Com. Protocols
UDP
TCP port
Programmable
(Twisted pair connector)
Inputs / Outputs
1 input / 1 relay
Local: DTMF tones through the
Configuration
telephone interface.
Remote: Configuration
download from the receiver
Alarm Panel
Protocols
development)
Contact-ID
29
Slide 30
VisorALARM : IP receiver Technical Specifications
Size
205 x 415 x 44 mm
Mechanization
Desktop and
Rack mounted
Power
110 – 220 Vac / 100mA
Com. Interfaces
Ethernet 10 Mbps
Serial V.24 connection
(to the
automation software server)
Memory
2MB (holds up to 500 alarms
in case the serial connection
with the automation server
drops)
Configuration
Through telnet application
Receiver
Protocols
Radionics compatible
Surgard compatible
30
Slide 31
THANK YOU !
31
Teldat Security
VisorALARM & MIP
Alarm transmission over IP networks
Slide 2
Agenda
• Product description
• Installation
• Video storage options
• Recording access and management
• Tech specs
2
Slide 3
Product definition
“The MIP is a simple communications device
that allows the transmission of alarms,
generated by a conventional control panel,
through any kind of IP network (ADSL, cable,
internet…) at the same time that keeps the
standard telephone alarm transmission as a
back-up mechanism”
Alarm Panel
Central Station
MIP
Internet
Telephone
3
Slide 4
How does it work?
“When the control panel dials the central
station telephone number to send an alarm,
the MIP will ‘capture’ the call, read the
CONTACT-ID information from the control
panel, put that information into an IP packet
and send it to the Central Station via the
internet (Cable, ADSL, T1,…)”
Alarm Panel
MIP
Telephone call
Sends the alarm
Sends Contact-ID
via the internet
4
Slide 5
And if the network is ‘down’?
“The MIP will not acknowledge the alarm to the control
panel until the central station has receive the IP alarm
properly. If the IP transmission fails, no ACK will be
given to the control panel and the control panel will
then redial. This second time, the MIP will let the
control panel make the phone call to the central
station (pass-through mode)”
Alarm Panel
Central Station
MIP
Internet
Telephone
5
Slide 6
With which control panels does the MIP work ?
“The MIP supports any control panel that can be
programmed to use the CONTACT-ID protocol and that
uses a standard telephone line to send its alarms to the
central station”
Alarm Panel
MIP
CONTACT-ID
Note: The SIA protocol will be available for version 2.0 of the MIP.
6
Slide 7
MIP installation
“The MIP has been designed so that
it can be mounted in the inner side
of the control panel’s lid”
Input telephone
connection from
panel
12Vdc (from panel)
From panel
(optional)
Alarm input
Relay output
Connection to
telephone network
Ethernet connection
to hub or router
7
Slide 8
Communication line for the MIP
“The MIP can send alarms to the central station using
any kind of always-on communication line, such as
ADSL, cable or T1 lines”
MIP
ADSL
HUB
ROUTER
CABLE
T1
………
8
Slide 9
VisorALARM : Central station IP receiver
9
Slide 10
VisorALARM : Central Station IP receiver
“All the alarms sent by any MIP module will be
sent to the VisorAlarm receiver located at the
Central Station”
VisorAlarm : Central Station
Receiver for MIP alarm reception
10
Slide 11
IP receiver installation
“The VisorAlarm IP receiver will send all received
IP alarms to your automation software server via a
serial connection, just as any other of your alarm
receivers”
Automation Software
Server (IBS, MAS,
Microkey, Dice, Bold…)
HUB
Ethernet
To internet
router
Serial Connection
AlarmNET
11
Slide 12
IP receiver protocols
“The VisorAlarm receiver can be programmed
to emulate some of the most common receiver
protocols (Sur-Gard, Radionics,…)”
Surgard or Radionics
serial protocols
HUB
Automation Software
Server (IBS, MAS,
Microkey, Dice, Bold…)
Ethernet
To internet
router
Serial Connection
AlarmNET
12
Slide 13
IP receiver scalability
“Multiple VisorAlarm modules can be set-up at
the central station, each of them using a
different IP address and acting as independent
receiver units”
HUB
Automation Software
Server (IBS, MAS,
Microkey, Dice, Bold…)
Nx Ethernet
To internet
router
N x Serial Connection
AlarmNET
13
Slide 14
Main advantages of using the MIP system
14
Slide 15
Main advantages of using the MIP system ( I )
1. Saves the cost of each alarm phone call: By
transmitting the alarm via a flat rate always-on network
which the customer is probably using for Internet access.
Alarms are sent
through the existing
high speed internet
access
Alarm Panel
Central Station
MIP
Internet
Telephone
15
Slide 16
Main advantages of using the MIP system ( II )
2. Instant alarm transmission to the central station :
Alarm transmission over most high speed networks will take
less than a second.
End-2-End delay usually less than 1 second
Alarm Panel
Central Station
MIP
16
Slide 17
Main advantages of using the MIP system ( III )
3. Low alarm transmission cost and high speed allows
fast and easy communication to the central station of
almost any control panel event (secure arm/disarm,
battery status, test signals …)
Central Station
Fast and no-cost transmission of maintenance
and general events
17
Slide 18
Main advantages of using the MIP system ( IV )
4. Allows for the “secure line” functionality with no
extra costs: The MIP is periodically sending signals to the
Central Station receiver acting as a line supervision
mechanism. If a MIP does not communicate in time, the
receiver will automatically generate a false alarm. This
functionality allows line sabotage and line failure detection.
Sabotage / technical
alarm
Alarm Panel +
MIP
Line
Failure /
Sabotage
Receiver
VisorAlarm
Central Station18
Slide 19
Main advantages of using the MIP system ( V )
5. The MIP does not require a dedicated internet line
and can be placed on the same network that is being
used to surf the internet or for other broadband services
Alarm Panel
Internet
PC#1
High Speed
Router
PC#2
19
Slide 20
Main advantages of using the MIP system ( VI )
6. The MIP can be used with most of the installed base
of control panels as most panel support the CONTACT-ID
protocol : The MIP can be sold to your existing customer
base as a way to improve their security and decrease their
costs, or added to new alarm installations.
Compatible with installed
base of alarm panels
Alarm Panel
CONTACT-ID
20
Slide 21
Security on the MIP alarm transmission system
21
Slide 22
Security on the MIP system
Alarm Encryption: All the information transmitted
between the MIP and the central station receiver is
encrypted using an RC4 code.
Password protected: All the information transmitted
between the MIP and the central station receiver is
encrypted using an RC4 code.
Anti-replication mechanism: Each communication to
the central station receiver has a dynamic sequential
password so any alteration on the encrypted sequence will
be detected.
Note: Dynamic sequential password is not supported in beta / evaluation versions of the MIP units.
22
Slide 23
Frequently Asked Questions
23
Slide 24
MIP Frequently Asked Questions ( I )
CID: The MIP module will have the same CID than the
control panel to which it is attached. That will allow the
central station to keep track of all the secure lines and
associate each of them to the corresponding user account.
Bandwidth: The MIP uses less than 64 bytes of
information in each polling or alarm communication, thus
using an insignificant bandwidth of a regular internet line.
IP address: The MIP can be setup with private (non
public) IP addresses.
24
Slide 25
MIP Frequently Asked Questions ( II )
Firewalls and proxies: The MIP uses UDP packets
and can be programmed to work over any IP port.
Most firewalls will allow outgoing UDP traffic.
Polling period: The polling period can be set
between 10 and 65000 seconds.
Control Panel Programming: The MIP lets through
all incoming calls to allow the central station
access the panel for configuration and
maintenance purposes.
25
Slide 26
IP receiver Frequently Asked Questions ( I )
Nº of MIP units : VisorAlarm receiver supports
more than 3,000 MIP units simultaneously.
IP address : The VisorAlarm receiver needs to be
programmed with a static public IP address.
Scalability : Several VisorAlarm receivers can be
installed at the Central Station (each of them using
a different IP address and serving a different group
of MIP units).
26
Slide 27
IP receiver Frequently Asked Questions ( II )
Receiver backup: For high availability scenarios,
the VisorAlarm receiver can be installed by pairs in
a Master/Slave backup configuration.
What happens if the central station internet
access goes down? : The receiver is programmed
to poll a well-known highly reliable external
internet address. If that poll fails, the receiver will
not generate false technical alarms and will wait
for it’s connection to be re-established.
27
Slide 28
MIP and VisorALARM technical specifications
28
Slide 29
MIP Technical Specifications
Size
120 x 92 x 30 mm
Power
12 Vdc / 400mA
Com. Interfaces
Ethernet 10 Mbps
Telephone
Encryption
RC4 code
Security
Password protected
Line polling
Programmable
1- 65000 seconds
IP address
Public or private (DHCP under
Com. Protocols
UDP
TCP port
Programmable
(Twisted pair connector)
Inputs / Outputs
1 input / 1 relay
Local: DTMF tones through the
Configuration
telephone interface.
Remote: Configuration
download from the receiver
Alarm Panel
Protocols
development)
Contact-ID
29
Slide 30
VisorALARM : IP receiver Technical Specifications
Size
205 x 415 x 44 mm
Mechanization
Desktop and
Rack mounted
Power
110 – 220 Vac / 100mA
Com. Interfaces
Ethernet 10 Mbps
Serial V.24 connection
(to the
automation software server)
Memory
2MB (holds up to 500 alarms
in case the serial connection
with the automation server
drops)
Configuration
Through telnet application
Receiver
Protocols
Radionics compatible
Surgard compatible
30
Slide 31
THANK YOU !
31