module name 1 motorola public document classification, dimetra ip compact 3.0 to 4.1 delta july 2011...
TRANSCRIPT
Module Name 1
Motorola Public Document Classification, Dimetra IP Compact 3.0 to 4.1 DeltaJuly 2011
MOTOROLA SOLUTIONS LEARNING
MOTOTRBOTM
Software Release 2.1 Training
PAGE 2
SECTIONS:
New Features for 2.1
1. Small Enhancements
2. Auto Range Transponder System (ARTS™)
3. Input Method Editor (IME)
4. Dual Capacity Direct Mode (DCDM)
5. Radio Management (RM)
6. Over-the-Air Programming (OTAP)
PAGE 3
SMALL ENHANCEMENTS
Mobile Shut-off timer – radio waits X number of minutes, after the ignition is turned off, before powering down. DM4000 series.
Direct channel access via radio keypad - Allow users to enter a channel number from their radio keypad and recall the desired channel; e.g. to get to channel 524 the user could enter 5-2-4 via the radio keypad.SL4000 and DP/DM4800 series.
Quick Access to Notification List via Programmable Button - One of the programmable buttons can now be set as shortcut to Notification List.SL4000, DP/DM4800, DP4600 and DP2000 series.
Software Licenses Activation button on Registration Complete
Digital Telephone Patch – This feature is now available on the SL4000 series (note: DTP was made available as part of R2.0.5 for the DP/DM4000 series).
PAGE 4
AUTO RANGE TRANSPONDER SYSTEM (ARTS™)
PAGE 5
ARTS: FEATURE SUMMARY
What is Auto Range Transponder System (ARTS™)? Analog only feature, which supports Conventional Analog, MDC, QCII systems Informs users when they are either “IN” or “OUT” of range of other ARTS
enabled radios ARTS is available for DM/DP4000 and DP2000 series (display and non-display)
subscribers Programmable by channel for Direct or Repeater Mode ARTS is not operational under the following conditions:
Scan Mode Voting Scan Mode Test Mode Emergency
Non-ARTS enabled channel Illegal Mode (eg. unassigned channel) Call Alert Decode During Voice Call
PAGE 6
HOW ARTS™ WORKS Radio sends a short beacon transmission (500ms)
“ARTS Signal” every 25 or 55 seconds (CPS programmable) to let other radios know that they are in range of this radio
When a radio receives an incoming “ARTS Signal” or an incoming normal call, it resets an internal counter and provides an “In Range” audible and/or visual indication, as programmed
If the radio does not receive an “ARTS Signal” or normal transmission for more than 2 minutes, its internal counter expires and provides an “Out of Range” audible and/or visual indication, as programmed
If the radio receives an “ARTS Signal” or normal transmission again under an “Out of Range” state, it will revert back to the “In Range” state and inform the user with an “In Range” audible and/or visual alert
Notes: During the brief “ARTS Signal” transmission, all buttons are blocked, except: PTT Press, Channel /Mode Change, Emergency Button, Power Off.
PAGE 7
ARTS™: OPERATING MODES
TX Only Radio transmits an “ARTS Signal” beacon only to connect with other radios Not able to notify user of its own range status
RX Only Radio only receives an “ARTS Signal” beacon to be notified when in range
or out of range Able to notify user of its own range status
TX & RX Radio transmits and receives “ARTS Signal” beacon signals Able to notify user of its own range status
PAGE 8
INPUT METHOD EDITOR (IME)
“Allows for easier and more productive messaging”“Allows for easier and more productive messaging”
PAGE 9
Enhanced method of inputting multi-language characters and symbols via the 12-key numeric telephone style keypad Multi-tap - multiple press of key to dial a letter (“Hi” press 2x4=H ; 3x4=i) XT9 - type as if the key contains only the letter that you want to enter and let
the software predict the word that you want to type (“Hi” press 4,4)
Available only on DP/DM4800 and SL4000 series subscribers
Supports new advanced features:
Note: Predictive Text is not available when: Adding a Contact, dialing a Channel or entering a Password
XT9 or “PREDICTIVE TEXT”
Word Completion Word Correction Word Prediction Smart Punctuation
Auto Accenting Number Lock Sentence Capitalization & Caps Lock User Defined Dictionary (“My Words”)
NEW
PAGE 10
While in Text Message > Compose or Contact Names > Search mode - access IME options with a Long press of the “#” key
There are 4 options to choose Switch between Letters and Numbers Access the Symbols list (#, %, @, <, >,=) Switch between Multi-tap and XT9 Change input Language
Radio will remember last selected editor option while radio is kept on; reset to default option if power cycled
HOW IME WORKS: ACCESSING EDITOR OPTIONS
IME Selection List
Editor Text Area
Input Method Icon Abc = Multi-tap Xt9 = Predictive text
Alphabetic
PAGE 11
Word Prediction - provides alternatives based on frequently used words or phrases (e.g. User inputs “Happy New Year”, next time the user inputs “Happy”, “New” will be displayed in the IME Selection List)
Word Completion - provides word alternatives which match the input sequence (e.g. User inputs “o”, and the IME Selection List display frequently used choices)
Word Correction - provides the correct spelling of a words (e.g. User inputs “tjme”, the IME Selection List will display “time”)
Sentence Capitalization - Capitalizes the first character of a sentence, and after terminal punctuation is used
Caps Lock - accessed via Long Press of the “0” button (e.g. XT9)
Auto accenting for words in languages such as French and Spanish (e.g. User inputs “soiree”, IME Selection List will display “soirée”)
Smart Punctuation - Embedded Punctuation (eg. can’t) and Terminal Punctuation (e.g. today?)
NEW ADVANCED IME FEATURES:
PAGE 12
User Defined Dictionary - Allows frequently used words to be added to the radio’s IME dictionary via the radio menu Utilities > Radio Settings > Text Entry > My Words Users can “Add”, “Delete”, or “Edit” entries
Enhanced Contacts Name Search – expanded search filter through list of Contact Names List EXAMPLE: Search for “Thomas“ would find the contact “Dave Thomas”
in addition to “Thomas Smith” Feature does not support combination searches “BJ” for “Ben Johnson”
NEW ADVANCED FEATURES (cont)
Note: IME Options can be Enabled/Disabled via Utilities > Radio Settings > Text Entry
PAGE 13
DUAL CAPACITY DIRECT MODE (DCDM)
“Receive spectral efficiency without additional investment”
PAGE 14
WHAT IS DCDM?
Dual Capacity Direct Mode (DCDM) is also known as 6.25 kHz Equivalence Direct Mode (6.25e DM)
DCDM provides additional spectral efficiency without requiring additional investment by supporting up to two simultaneous Direct Radio-to-Radio Mode subscriber calls within a 12.5kHz allocation of spectrum
2 simultaneous transmissionsSlot 1 used for voice call 1Slot 2 used for voice call 2
Price sensitive customers, migrating from Analog to Digital (TDMA) can move up to 2 Talk Paths, with 6.25e KHz Direct Mode (TDMA) without a repeater
Increases the total number of users supported in the 12.5 kHz bandwidth with no degradation in performance
DCDM Channels CAN be Included in Scan Lists along with 12.5kHz Digital, Analog and Repeater channels
PAGE 15
HOW DOES DCDM WORK? Subscribers Automatically & Cooperatively Elect a Channel Timing Leader
One Channel Timing Leader for the RF Channel (regardless of slot) All 6.25e Direct Mode Channel Timing signaling communicated using the “All Site” Color Code
(15)
Channel Timing Leader periodically announces the Channel Timeslot Structure (using “Beacons”) DCDM Beacon Rate = 600 msec transmission every 4.5 minutes
Receiving Radios Receive the Beacons Determine whether to accept the timing
- If the timing is accepted, then re-transmit the timing (using “Forced Propagations”) to the
next generation further away from the leader- If the timing is not accepted, then possibly attempt to correct the errant timing transmission
Radios normally track Beacons and Forced Propagations on the Selected Channel, however
while scanning they track Beacons and Forced Propagations on the Designated Transmit
Channel instead
PAGE 16
ChannelTimingLeader
ChannelTimingLeader
Use Slide ShowMode For Animation!
Beacon & Forced Propagation Example (occurs ever 4.5 minutes)
Defining the Channel TS Structure
PAGE 17
Channel Timing Leader election process is hidden from User One of the subscribers with higher Leader Preference setting is elected as the
Channel Timing Leader If the leader leaves the channel, the system will elect a new leader A Channel Timing Leader can’t be pre-programmed, but election can be
influenced via CPS Leader Preference settings
Preferred “Good” candidate: always turned on, always on a 6.25e channel, never scans,
has large transmit coverage, not using battery Least Preferred - Not CPS Selectable, but automatically selected when Scan
is used Eligible - DEFAULT Ineligible - At least one Subscriber must not be “Ineligible”
“Bad” candidate: often changes channels, often roams
Channel Timing Leader Selection
PAGE 18
PROGRAMMING CONSIDERATIONS
6.25e Direct Mode Channels May NOT be Used as GPS Revert Channels Where 6.25e DM channel selected, subscriber MAY Revert to 12.5KHz GPS /
Emergency Revert Channels Legacy subscribers cannot receive calls on 6.25e direct mode channels Access Rules - Admit Criteria of Channel Free, Color Code Free and Always -
operate WITHIN a Timeslot Talkaround for a Repeater Channel is ALWAYS 12.5 (as today); NEVER 6.25e
DCDM
Color Code 0-14 are allowedColor Code 15 is reserved and not available for 6.25e channels
Operating in timeslot 1 or timeslot 2
PAGE 19
RADIO MANAGEMENT (RM)
“Enables faster more efficient radio programming”
WARNINGRadio Management (RM) can be used to store codeplug and template
information for All MOTOTRBO radios, when read/written via cable.
However ONLY the SL4000, DP/DM4000 and DP2000 series
MOTOTRBO radios can be programmed over the air (OTAP).
PAGE 20
ACCESSIBLE VIA CURRENT CPS
CPS is the Client or window into Radio Management (RM)
RM Server stores codeplugs and templates and pre-processes jobs
Device Programmer (DP) acts as the programming interface to the radios
NOTE: Although distributed installation of Client, RM Server and Device Programmer on separate machines is possible, for this initial release it is recommended to install all of them on the same PC
The Client is accessed through the CPS > File menu
Radio Management is: Extension of current MOTOTRBO CPS that maintains historical record of radio codeplug information for each device in a centralized server, with the ability to search, sort and group radios and apply programming templates to multiple units for unmanned programming.
PAGE 21
APPLICATION AVAILABILITY
The CPS Client, RM Server and Device Programmer are included on the CPS DVD GMVN5141_ (issue AA onwards) and are also available to download from Motorola Online.
Radio Management may optionally use the Motorola Presence Notifier (PN) and Multi Channel Device Driver (MCDD) applications.
The Motorola PN / MCDD applications are included on the CPS DVD GMVN5141_ (issue AA onwards) and are also available to download from Motorola Online.
Please be aware that the PN / MCDD applications are not installed automatically from the CPS DVD, instead they need to be manually copied over from the top level DVD folder.
PAGE 22
RM CLIENT SCREENActions Schedule Job Refresh
Radio ViewJob ViewSearch Field
Add Group Templates
Actions: Performs many of the actions within RM, such as Populating the RM server, Editing templates, Adding template groups,Changing server settings, or Managing RM licenses
Schedule Job: Schedules Read or Write jobs via the wire or over-the-air, and includes switchover parameters
Refresh: Refreshes the client screen, including programming job status
Search : Allows for filtering of RM entries (e.g. template names)
Radio View: Main RM screen that lists all radios in the database
Job View: Provides a history of all jobs, including the job status
Groups: Where groups of customer configuration templates can be added, deleted or edited, for more organized management
PAGE 23
OVER THE AIR PROGRAMMING (OTAP)
“Remotely and securely update radio parameters anytime, anywhere”
PAGE 24
OTAP FEATURES
• Writes and Reads Radio Configurations Over the Air
• Manages up to 5,000 Radio Configurations
• Group and Individual Archive Management
• Application to Radio Mutual Authentication
• Compressed and Differential Configuration Transfer
• Designed to allow Voice Traffic Priority while Transferring Data
• Utilizes Existing Over the Air Encryption
• Unmanned Batch Processing of Numerous Over the Air Operations
• Synchronized Configuration Switchover
• Remote Client Capability
• Session Logging
• Historical Reporting
All Features Available in• Direct Mode,• Single Site Repeater,• IP Site Connect,• Capacity Plus, and• Linked Capacity Plus
PAGE 25
WHAT OTAP DOES NOT DO…
Does not perform radio Software Upgrades
Does not support Language Packet updates
Does not perform Radio Tuning parameter updates
Does not perform Device Recovery
Does not perform Software License updates over the air
Does not update or download Voice Announcement files
Does not support Radios Prior to system Release 2.1
Does not program Repeaters (performed by IP Repeater Programming)
Does not support Connect Plus
Does not operate in Analog Mode (can change Analog codeplug
parameters)
The services that are supported are not available to ADP developers
PAGE 26
BASIC TOPOLOGY
Over the Air Programming with CPS works the same regardless of the underlying system architecture. There are no settings within the RM Application for the specific system configuration. The control station, which is used to communicate with radios over the air, has to be set up for the specific system configuration (e.g. Conventional vs IP Site Connect vs Capacity Plus)OTAP data is sent as Private Call to the target Radio ID, so the RX List and TX Contact should be set to “None” in the Control Station.
Three basic deployments that are used as the building blocks for more complicated configurations:
•Local Single Channel Configuration
•Local Single Channel Configuration with Presence Notifier
•Multi-Channel Configuration
PAGE 27
BASIC TOPOLOGYLocal Single Channel ConfigurationLocal Single Channel Configuration
In the local deployments, the 3 Radio Management (RM) components are installed on the same computer:
• RM Client: Main User Interface
• RM Server: Storage of Configurations
• RM Device Programmer: Communication to Radio System via control station(s) that’s connected to the RM PC via a USB cable
No other over the air data application is supported on the same PC as the Radio Management (RM) application
RM Client
RM Server
RM Device Prog U
SB
Driv
er
Control StationControl Station
Radio SystemRadio
SystemUSB
OTA OTA
SU
PC
PAGE 28
BASIC TOPOLOGYLocal Single Channel Configuration with Presence NotifierLocal Single Channel Configuration with Presence Notifier
The Radio Management (RM) can utilize the Motorola Presence Notifier (PN) to optimize over the air operations. Without PN, the RM attempts to contact each radio one by one,
regardless if they are present on the system or not With PN, the radios announce their presence, so RM can start any
pending jobs for the present units PN must be installed on the same computer as the connected control
stations.
RM Client
RM Server
RM Device Prog
Presence Notifier
US
B D
rive
r
Control StationControl Station
Radio SystemRadio
SystemUSB
OTA OTA
SU
PC
PAGE 29
BASIC TOPOLOGYMulti-Channel ConfigurationMulti-Channel Configuration
Multiple conventional channels can be supported per RM Device Programmer This requires a control station per channel - up to 16
Because radios can move from channel to channel, the Motorola Multi-Channel Device Driver (MCDD) should be installed on the same PC as the RM Devise Programmer
The MCDD tracks the location of the radios as they move from channel to channel and updates the IP routing accordingly
It is not recommended to utilize multiple control stations without MCDD and PN (MCDD is not required in Capacity Plus mode)
NOTE: The Motorola Presence Notifier (PN) is required when using the MCDD
SU
PC
RM Client
RM Server
RM Device Prog
Presence Notifier
US
B D
rive
r Control StationControl Station Radio
SystemRadio
System
USB
OTA
OTA
MC
CD
Control StationControl Station
USB
OTA
PAGE 30
PROCESS DETAILS
There are five high level steps for over the air programming
1. Program Radio System Parameters into the Radio via wired CPS
2. Populate the RM Server with the current Radio Configurations
3. Modify the Radio Configuration within the RM Server
4. Deliver/Write the Modified Radio Configurations to the Radios
5. Apply (or Switching Over) the radio to the new Radio Configurations
PAGE 31
1. Program Parameters into the Radio via wired CPS
All the parameters required for the subscriber radio to communicate on the Radio System must be programmed via CPS through USB wire:
Radio Firmware - to R2.1 or greater
System and Channel Parameters: frequencies, color codes, channels, talkgroups, voice privacy keys, etc…
NOTE: If the radio cannot communicate on the radio system properly, RM will not be able to contact it
Data (Network) Parameters: Radio IP, ARS Radio ID, etc.
Radio ID - every radio must have a unique Radio ID
NOTE: If different customer systems have duplicate Radio IDs, they can be added and managed by the RM Server, in separate Groups, but only 1 system can be OTAP’ed at a time.
Over the Air Authentication Key - must match between radio and RM application (the only new OTAP parameter required to be programmed in the radio)
PAGE 32
2. Populate the RM Server with Radio Configurations
There are 3 ways to populate the RM Server with the radio configurations:
Import saved Archive - for each radioIdeally, the saved archive should contain the OTA Authentication Key and Enhanced Privacy Keys that were entered in CPS during wire programming
- These cannot be retrieved from a radio read via wire - If not in the imported archive, the keys have to be entered into the RN Server
prior to first OTA delivery
Open saved Radio Identity Comma Separated Value (CSV) FileRequired information: Serial number, Radio ID, Common Air Interface ID (CAI), OTAP authentication key ID and OTAP authentication key value
Manually Enter Radio Identity Information Required information: Serial number, Radio ID, Common Air Interface ID (CAI), OTAP authentication key ID and OTAP authentication key value
PAGE 33
POPULATING THE RM DATABASE
Three mechanisms to import radios via the “Actions” button
1.Archive Importing (Import Radios)2.Import a CSV file (Import CSV)3.Manually enter new radio information (New Radio)
Actions
PAGE 34
IMPORTING SAVED ARCHIVE - RECOMMENDED
SAMPLE CSV TEMPLATE – AVAILABLE IN CPS FOLDER
POPULATING THE RM DATABASEMANUALLY ENTER RADIO IDENTITY INFORMATION
PAGE 35
Recommended RM Server Population Method before OTAP operations can be performed
The following is considered the most optimal CPS Server population for OTAP
1. Via wired CPS - Update the firmware (if required)
2. Via wired CPS - Read and save the codeplug
3. Via RM Client - Import the saved codeplug into the RM Server
4. Via RM Client - Assign the proper Radio ID, Common Air Interface ID (CAI), OTAP Key ID and OTAP Authentication Key value
5. Via RM Client - Select an appropriate radio Template
6. Via RM Client - Schedule a wired delivery of the new parameters
These steps should be followed for each radio A scheduled retrieval operation must be performed for all radios with status
“New” (Manually or CSV entered) before other operations can be performed The RM Device Programmer should
be configured with a ‘Radio Connection Method’ of ‘Wired’ during these steps
Start > Programs > Motorola > RM Device Programmer
PAGE 36
3. Modify the Radio Configuration within the RM Server
The radio configurations in RM are modified using the classic CPS interface, but started through Actions > “Edit Template”
The referenced configuration can be unique to the specified radio, or can be a configuration referenced by numerous radios (Template)
Using Templates is similar to codeplug Cloning - radio identity information is retained while other parameters are updated to match the master configuration
If critical communication parameters, required to communicate, are entered incorrectly - the radio may be out of communication after the changes are applied – wired re-write will be required to correct the error
When a radio’s configuration is updated, its status will be updated to “Codeplug Modified”.
PAGE 37
RM CONFIGURATION MANAGEMENT CONSIDERATIONS
If the radio user is allowed to make changes via the radio front panel, these updates will not be retained after an OTAP or Wired Write (delivery). The configuration in the RM Server will overwrite what is in the radio when
delivered
Similar to current CPS - the OTAP user must Read (retrieve) the radios over the air first, make individual updates to each, and then Write (deliver) the new configurations, in order for the previous changes made by the radio user
If using a Template configuration to program a group of radios, there is no way to retain any individual changes that the radio users had made All radios will be updated to match what is in the Template, with the
exception of the radio identity information.
Programming radios with an unmanaged (not connected to RM Server) wired CPS will make the radio to be out of sync with the RM Server. This will cause the next over the air operation to take longer since the entire configuration must be Read (retrieved) or Written (delivered)
PAGE 38
4. Deliver/Write the Modified Radio Configurations to the Radios
The RM allows scheduling of multiple radio configurations to be delivered over the air unattended.
The RM will start the delivery at a scheduled time and continue until all selected radios are either Complete, Errored, or Cancelled.
Voice can coexist with the OTAP data, although system performance (voice access time, and data throughput) may be degraded slightly
It is recommended that OTAP operations are scheduled during time of low radio system activity
After the delivery is successful, the radio status will be “Switchover Required”
Schedule a Job
Job View
RM Device Programmer
PAGE 39
5. Apply (Switch Over) of the Delivered Radio Configurations
Delivery with Switchover - radio will apply the changes immediately after delivery
Use when changing non-critical parameters: address book entries or button configurations
Delivery without Switchover - radio will not apply the changes after delivery. Switchover job must scheduled separately
Use when changing critical communication parameters: TX or RX frequencies, color codes, privacy keys, etc
Switchover timer is set to zero by default- the switchover occurs immediately upon receiving the switchover message
If greater than zero - radio user will receive a prompt to Accept or Delay the Switchover
• Accept- immediately reset and apply the changes
• Delay, or no selection, the radio will wait until the switchover timer expires to reset and apply the changes
For Non critical changes, (address book entries or button layout) ARS can be suppressed .
If 3rd Party Application require presence be sent after a power cycle, or critical communication parameters are changed, ARS should not be suppressed after a switchover.
PAGE 40
OTAP DESIGN CONSIDERATIONS
• Design Considerations for Two Slot IPSC
• Design Considerations for Capacity Plus with Data Revert
• Design Considerations for Multiple Systems
• Design Considerations for 3rd Party Applications
PAGE 41
DESIGN CONSIDERATIONSControl Station Configuration In addition to the appropriate system type parameters (frequency, color
code, etc) control stations must be configured with:
Confirmed Data Enabled UDP Header Compression Disabled Enhanced Channel Access Enabled All voice privacy keys utilized in the system Unique Radio ID (different from any other subscriber in the field)
If MCDD is not utilized, a static, persistent route will be required in the PC for correct message routing :
1. Open: Start > Programs > Command Prompt window
2. Type: route add 12.0.0.0 mask 255.0.0.0 192.168.30.1 metric 50 –pNote: the above line assumes that the control station IP address is 192.168.30.1
3. Verify the route was added to the persistent routes table, by typing: route print
PAGE 42
DESIGN CONSIDERATIONS - IPSC
In IPSC, radio users can change between channels that are monitored by control stations during an active over the air session
Radios can also roam between sites during an active over the air session
MCCD and PN can be used to effectively monitor the radio’s channel presence
If radios move to channels not monitored by control stations, the over the air operation will stop
When the radio returns to the monitored channel, and registers its presence, the over the operation will resume again
MC
DD
PresenceNotifier
IP
IP US
B D
river
IP
IPCPS Application
PC
ControlStation
USB
ControlStation
USB
OTA
OTA
WAC 1
WAC 2
SU
SU
WAC 1
WAC 2
OTA
OTA
IP IPIPNetwork
SITE 1 SITE 2
PAGE 43
DESIGN CONSIDERATIONS - CAPACITY PLUS In Capacity Plus, the OTAP data is always sent on the Trunked channels
and the ARS presence notification are sent on the revert channel Outgoing RM Application messages are sent through a single trunked control
station. A static route will be required in the PC so outgoing messages are not sent on the revert channels.
MCDD is never used in Capacity Plus since the repeaters handle mobility The Conventional control stations have the Radio ID = ARS ID programmed in
the field radios The Trunked control station have a unique Radio ID
USB TrunkedControlStation
Trunked Ch1
Trunked Ch2
Trunked Ch3
Trunked Ch4
Trunked Ch5
Trunked Ch6
IP
IP
IP
PresenceNotifier
CPS Application
IP
IP USB
Drive
r
IP
PC
USB ConvControlStation
OTASU
OTASU
PN Radio ID = 2
PN Radio ID = 2
Radio ID = 1
Radio IDs = 2
RevertControlStation
OTA
OTA
Data Revert Ch1
Data Revert Ch2
IP
PAGE 44
DESIGN CONSIDERATIONS - 3RD PARTY DATA APPLICATIONSOTAP Programming is supported on systems with 3rd party data applications, but with the following considerations and configuration requirements:
RM Server and RM Device Programmer are not supported on the same computer as a 3rd party data application. If 3rd party data application does not utilizes ARS – field radios can be programmed to send their ARS registration to RM control station(s)If 3rd party data application utilizes the ARS - field radios must continue to send ARS to the 3rd party application control stations and:
Control station(s) connected to RM PC must be set up with an ARS Monitor ID that matches the Radio ID of the 3rd party data application’s control stations
the Motorola Presence Notifier must have the “Passive” option enabled.
If operating RM without a Presence Notifier, no additional considerations are required
PAGE 45
OTAP and 3RD PARTY DATA APPS
USB TrunkedControlStation
Trunked Ch1
Trunked Ch2
Trunked Ch3
Trunked Ch4
Trunked Ch5
Trunked Ch6
IP
IP
IP
USB ConvControlStation
OTASU
OTASU
PN Radio ID = 2
PN Radio ID = 2
Radio ID = 1
Radio IDs = 2
RevertControlStation
OTA
OTA
Data Revert Ch1
Data Revert Ch2
IP
USB TrunkedControlStation
CPS Application
IP
IP US
B D
river
IP
PC
USB ConvControlStation
Radio ID = 3
Radio IDs = 4
RevertControlStation
OTA
OTA
US
B D
river
PC
3rd Party Data Application
3rd Party PresenceNotifier
PassivePresenceNotifier
ARS Monitor IDs = 2
• Note that only the control stations used for monitoring automatic registration messages on the revert channels require an ARS Monitor ID.
PAGE 46
PERFORMANCETime to Complete Over the Air Operations The time to deliver (Write) or retrieve (Read) a new configuration is highly
dependent on: Size of the configuration update Number of radios being processed System loading RF environment.
PAGE 47
RADIO MANAGEMENT (RM) SOFTWARE LICENSES Radio Management (RM) Server can store and manage up to 5,000 radio
codeplug archives
Initial installation contains licenses for 10 radio archives by default
To add additional radio archives to RM for Wired or OTAP management and programming – additional licenses have to be purchased
WARNING
Radio Management (RM) can be used to store codeplug and template information for All
MOTOTRBO radios, when read/written via cable. However ONLY the SL4000, DP/DM4000 and
DP2000 series MOTOTRBO radios can be programmed over the air (OTAP).
HKVN4065A - block of licenses to add an additional 500 radio archives
PAGE 48
IMPORTING RM LICENSES
Total Available Entries
Total Entries Used
Total Entries Unused
Actions > Manage Licenses
PAGE 49
DEMO SYSTEM CONFIGURATION
PAGE 50
RADIO MANAGEMENT CONFIGURATION
CPS Client ServerDevice Prog
Presence Notifier
(PN) Multi-Channel Device Driver
(MCDD)IP: localhost (127.0.0.1)Port: 8675
IP: localhost (127.0.0.1)Port (ARS): 4005Port (Watcher): 3000
CPS Client Settings:Configure CPS Client to reference Server
Device Programmer Settings:Configure Device Programmer to reference Server and Presence Notifier
Radio Management PC
Control Station
1
Control Station
2
USB Driver
PAGE 51
USB Driver
CONTROL STATION CONFIGURATION
12.250.250.250
13.250.250.250192.168.10.1
12.250.250.250192.168.10.1
13.250.250.250192.168.10.2
Network Address Translation
Radio ID = 16448250CAI Network = 12Radio IP = 192.168.10.1(Accessory IP = 192.168.10.2)Forward to PC = EnabledARS UDP Port = 4005Color Code = 1, TX/RX Frequency = 440.25 MHzCompressed UDP Data Header = Disabled Data Call Confirmed = EnabledEnhanced Channel Access = Enabled
Results in Radio Network IP Address = 12.250.250.250 (internal) / 13.250.250.250 (PC)
12.250.250.250
13.250.250.250192.168.11.1
12.250.250.250192.168.11.1
13.250.250.250192.168.11.2
Network Address Translation
Radio ID = 16448250CAI Network = 12Radio IP = 192.168.11.1(Accessory IP = 192.168.11.2)Forward to PC = EnabledARS UDP Port = 4005Color Code = 1, TX/RX Frequency = 441.25 MHzCompressed UDP Data Header = Disabled Data Call Confirmed = EnabledEnhanced Channel Access = Enabled
Results in Radio Network IP Address = 12.250.250.250 (internal) / 13.250.250.250 (PC)
Channel 1
Channel 2192.168.11.2
192.168.10.2USB
USB
Control Station 1
Control Station 2
Radio Management PC
CPS App
PN M
CDD
PAGE 52
RADIO CONFIGURATION
Initial Radio Parameters• Radio Name / Radio ID = 0, 1 & 2
• CAI network = 12
• ARS Radio ID = 16448250
• ARS UDP Port = 4005
• Privacy Type = None
• Digital Channel 1:
• Color Code = 1
• TX/RX Frequency = 440.25 MHz
• ARS = On System Change
• Digital Channel 2:
• Color Code = 1
• TX/RX Frequency = 441.25 MHz
• ARS = On System Change
Results in ARS Radio Network IP = 13.250.250.250
Results in Radio Network IPs = 12.0.0.1, 12.0.0.2 & 12.0.0.3
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MOTOROLA, MOTO, MOTOROLA SOLUTIONS and the Stylized M Logo are trademarks or registered trademarks of Motorola Trademark Holdings, LLC and are used under license. All other trademarks are the property of their respective owners. © 2010 Motorola, Inc. All rights reserved.
MOTOROLA, MOTO, MOTOROLA SOLUTIONS and the Stylized M Logo are trademarks or registered trademarks of Motorola Trademark Holdings, LLC and are used under license. All other trademarks are the property of their respective owners. © 2010 Motorola, Inc. All rights reserved.
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