1. Capacity Plus
Sales Training

2. Contents What is Capacity Plus? Programming Overview
Trunking capabilities
Capacity Plus Capabilities
Digital Features Supported
Rest Slot function
Data revert functionality
Fault tolerance
Programming Overview
Programming logic
Programming a system

3. What is Trunking? Conventional Trunking
A trunking radio system differs from a conventional radio system in the way it shares channels between radios
Conventional
Trunking
1 channel to one or more groups of user
Employs no logic in call handling
Usually 1 call to 1 channel
(2 to 1 with MOTOTRBO digital)
A trunking system shares a pool of channels for a large number of users (talkgroups)
Automatically assigns available channel to requesting user
Lowers probability that calls will be blocked because an open channel will be found easier
Allows fewer channels to support larger amounts of users

4. Channels dedicated to talkgroups Channels Shared by Talkgroups
Convenmtional vs. Trunking
Conventional
Channels dedicated to talkgroups
Trunking
Channels Shared by Talkgroups
Channel
Channels
Channel
More efficient use of channels
Higher traffic density
Simple user operation
automatic channel selection, call queuing
Channel
Low complexity, low cost

5. What is Capacity Plus? Increase in the capacity of MOTOTRBO systems!
Single Site Trunking
Up to 12 voice channels and 24 data revert slots
Up to 1200 users
Offers an easy upgrade for conventional or MTP users needing additional capacity on a single site
Capacity Plus Trunking offers the following advantages:
Includes all the digital TDMA advantages of MOTOTRBO, plus system wide call
Supports 12 voice slots (6 RF channels) and 24 data revert slots (12 RF channels)
software based, so no separate site controller is required
distributed control channels for redundant operation
Co-channel Licensing (shared channel) “friendly” design
IP Repeater Diagnostics and Control Capable
Capacity Plus is a lower tiered Trunking protocol, similar to LTR, and does not include Priority, Queuing or Multi-Site capabilities. 5 5

6. What is Capacity Plus? Digital mode only!
Single site trunking configuration
Software ONLY design : NO CONTROLLER NEEDED
Trunk up to 12 digital voice slots
Dedicate up to 24 additional digital data revert slots
Supports 255 Talk Groups
65,535 programmable radio IDs
Capacity for up to 1200 active radios PLUS larger amounts of data
Digital Feature Only
Digital mode only!

7. System Configuration Off the Shelf 3rd-party IP switch RDAC
12 dynamic voice/data channels
Off the Shelf
3rd-party IP switch
24 dedicated data channels
RDAC

8. Repeater Alarm Reporting
RDAC –Remote, Diagnotics and Control
Motorola provides a software application that allows a system administrator the ability to monitor and control repeaters within the system (analog or digital)
The following features are available:
Repeater Diagnostics
Read Enabled/Disabled Status
Read Analog/Digital Status
Read Wide or Local Area Status
Read Transmit Power Status
Read Available Channels
Read Inbound RSSI
Read IPv4 Address and UDP Port
Repeater Control
Change Status „Active“ or „Disabled“
Change Channels
Change Power Level
Reset Repeater
Repeater Interrupt
Repeater Alarm Reporting
Detect and Report Receiver Lock Detect Failure
Detect and Report Transmitter Lock Detect Failure
Detect and Report Overheating
Detect and Report AC Power Supply Failure
Detect and Report Main Fan Failure
CPS Programmable Pins Description
Major Alarm (Locked State) This output pin is used to report a major alarm has happened 3 times, been reset three times, and the repeater is in now locked state.
Minor Alarm This output pin is used to report minor alarm(s) is happening on the repeater.
Repeater Disable: Asserting this input pin triggers the repeater to enter disabled state. In this state, the repeater can not execute repeat functions.
Releasing this input pin will revert the repeater back to enabled state where the repeaters can start repeating calls.
Tx Power Level High:
Asserting this input pin triggers the repeater to change the TX power level to be high.
Releasing this input pin will revert the repeater back to TX low level low.
Repeater Knockdown
Asserting this input pin triggers the repeater to temporarily enter Repeat Path Disable Mode. In this mode, the repeater’s transmitter will only be enabled by the external PTT and the audio source will be the Tx Audio Input pin.
Releasing this input pin will revert the repeater back to Normal Mode where the repeaters transmitter can be activated by a qualified RF signal on the
receive frequency.
*Note that this pin will works the same as Repeater Disable control since repeater knockdown is not supported in digital mode.
Channel Change
There are up to 4 pins that can be configured and used for channel change.
The repeater can support up to 16 channels.
Asserting this input pin represents 1.
Releasing this input pin represents 0.
0000 represents first channel, 1111 represent the last channel.
Operates over an IP network or locally via USB or GPIO connection
RDAC can only communicate with one wide area system at a time 8

9. RDAC User Interface Main interface Configuration screen
Diagnostics Screen
Control screen
Upgrading Repeaters for RDAC
There is only one condition when a hardware upgrade may be required for legacy repeaters
If an end user requires the following alarms:
Detect and Report AC Power Supply Failure
Detect and Report Main Fan Failure
In this instance a small board will need to be added to repeaters that were purchased prior to the 1.4 release
Note: Choosing not to do the hardware upgrade will still permit access to all other RDAC functions in legacy repeaters! 9 9

10. Typical End Users Airports (domestic) Events Hafen Shopping Malls
Local
Transportation
(Buses, Taxis,…)
Bank
Districts
Manufacturing

11. Hardware Requirements
MOTOTRBO repeaters from July Shipped with 1.5 release firmware
MOTOTRBO subscribers
Shipped or upgraded with 1.5 release firmware
IP Switch: from a 3rd Party
Note: Radios not upgraded to a firmware version 1.5 or later will not be able to operate on a Capacity Plus System

12. Capacity Plus Features
PTT ID
Call Alert
Individual Call
Voice Privacy
Emergency (w/ TG revert)
Radio Check
Radio Inhibit
Talkgroup Scan
All Call/System Wide Call

13. All Call All radios listen to the All Call
(including radios listening to other calls)
Transmitting radios make late entries
After they end their current transmissions

14. Multi-System Support: Zones
The subscriber can support different system types on the same radio!
Only 1 system can be active at a given time
Multiple zones can be programmed in any subscriber
More then one of a system type can exist on the same radio!
Note: It is also possible
to program a subscriber
to access different system
types by simply changing
knob positions!
Zone 1: Capacity Plus System 1
Zone 2: IP Site Connect System
Zone 3: Conventional Digital System
Zone 4: Capacity Plus System 2

15. Data Capabilities Capacity plus supports all legacy data capabilities:
GPS
Text Messaging (Application and unit to unit)
Telemetry
RDAC Application
Data capabilities have been enhanced to support larger fleets

16. Is only the home for inactive radios
Rest Slot: the key to Capacity Plus
Acts as a “dynamic home slot”
Can be any slot on the system
Rest Slot will “roll” to different voice slots in the system
Frequently changes during system use
Rest Channel
Is only the home for inactive radios A B C D F G
Slot 1
Slot 2
Slot 3
Slot 4
IP Switch

17. How does it work? Slot 1 Slot 2 Slot 3 Slot 4 Slot 5 Slot 6 Slot 7A B C B C C A A B
TG C
Slot 1
Slot 2
Slot 3
Slot 4
Slot 5
Slot 6
IP Switch
Slot 7
Slot 8
Process is repeated over and over ensuring optimal performance!

18. How does it work? - Repeater
All new calls always start on the Rest Slot
When a call starts, the Rest Slot:
Selects an idle slot to be the new Rest Slot
Informs all idle subscribers to move to it
Converts itself to a traffic slot
Begins repeating audio to radios
When a call ends on the Rest Slot:
The repeater informs the radios of the new Rest Slot
The radios then move to the new Rest Slot

19. How does it work? - Subscriber
All possible Voice Slots are programmed into the subscribers
Radio must “know” of the channel to utilise it
Upon power up:
Radio performs a passive search for Rest Slot
Listens for an active rest channel
If all channels are idle:
A “polite” wakeup message is sent to known channels
Known = programmed into radio
Messages are sent one by one to each channel

20. Rest Slot Benefits
Allows system to be “shared channel friendly” since it can still operate with interference
Easier to satisfy the FCC frequency coordination requirements since protected channels aren’t required
No control slot required
No wasted channel capacity = LOWER SYSTEM COSTS!
The “request and grant” control mechanism is removed from the equation, allowing for quicker system access time

21. Understanding Capacity Plus Preference Levels
The repeaters in a Capacity Plus system use a metric or weighting system to determine which channel should be the next rest channel and therefore the next voice channel. For example, if there are 4 repeaters in a Capacity Plus system and the fourth repeater happens to be vulnerable to interference then you can set it’s Preference Level number to a higher value than the other 3 and it will be chosen to be the rest channel less often than others.
If RF channels had the same performance, coverage and resistance to interference there would be no need for this control. But often this is not the case. There’s no point in granting equal access to the fourth repeater if it has inferior coverage (for example).
Lower Preference Level numbers mean higher preference. Higher numbers mean the channel will be chosen less often as the next rest/voice channel.
All the repeaters in a system may have the same value
(eg all 4 repeaters could have a Preference Level of 1) or they
all could be different.

22. Data on Voice Slots All data is sent on trunked Voice Slot
Enables single repeater (2 slot) trunking
Data will contend with voice calls for channel resources
Recommended that data load is small to minimize voice call channel busies

23. Revert & Voice Slots Data on Revert AND Voice Slots
The ability to offload data on Revert Slots
This is data from a subscriber to an application server
Example: GPS Location updates
Example: Text messages to text server
Server to SU data on trunked Voice Slots
More efficient
Radios do not have to scan Data Revert Slots
Minimizes late entry scenarios for voice calls (Voice Quality of Service)
Radios receive messages when idle
Example: Text message from server to radio
SU to SU data on Trunked Voice Slots
Radio to radio text messages
Note: You cannot utilize one slot for data revert and the other slot for trunking

24. Capacity Plus Data Revert
A Capacity Plus System can be designed to have a “data subsystem”
This system contains a group of dedicated repeaters that are used to offload data only
They are NOT used for voice
12 repeaters can be combined to create a revert system
24 data revert slots
These slots, like voice slots are programmed into the subscriber
Radio subscribers move to the revert slots to send data

25. Do Data Revert Slots Trunk?
The Data Revert Slot does not trunk
Radio is programmed for all known revert slots
Radio will cycle through the list for revert data transmission.
If channel is busy, it will switch to the next revert channel in the list to transmit data. 

26. Greatly increases channel efficiency
Capacity Plus Data Revert: Value Proposition
Greatly increases channel efficiency
Voice calls do not disrupt data
More data can be offloaded on system
Example: Faster GPS update periods

27. Understanding the subscriber revert process
Subscriber cycles through it’s list of data revert slots to send its data
Subscriber evaluates up to 4 data revert channels
Tries to find an idle channel and TX the data
Example 1
Evaluate 1st channel in list – busy
Evaluate 2nd channel in list – busy
Evaluate 3rd channel in list – idle
Transmit data
Return to trunked channels
Example 2
Evaluate 1st through 4th channels – all busy
Return to trunked channels and set a random hold off timer
Random hold off timer expires –radio looks to send data again
Evaluate 5th channel in list – idle
Transmit data
Return to trunked channels

28. Data System: Trunked Control Station
Capacity Plus Systems utilise a “Trunked Mobile” control station
Connects to an Application Server
Always follows rest slot
Returns all data ACKs to the subscribers (from application)
Delivers text messages to radio system from text applications
Legacy data applications still also utilise control stations
Must be programmed with all known Voice Slots
Sends all data on the voice slots (Rest Slot)
Systems can have more than one (1) Trunked Control Station
Driven by the amount of application data sent to the radio system
Can be dedicated to a range of radios
Example: TCS 1 can address radios 1-100, and TCS 2 can address radios

29. Mobile Control Stations Summary
Subscriber cycles through it’s list of data revert slots to send its data
Subscriber evaluates up to 4 data revert channels
Tries to find an idle channel and TX the data
Trunked Control Stations
These stations move with the rest slot
and send data to your radio fleet
Data Revert Control Stations
Up to 24 stations can be utilized to
receive data from your radio fleet

30. Revert Control Station
Understanding the Control Stations
Trunked Control Station
Application Server
101001
Revert Control Station
Slot 1
Slot 1
101001
Revert Control Station
Capacity Plus Rest Slot
Capacity Plus Data Revert System
Operation:
Upon power up a radio sends its registration data to an application, this is sent on the Legacy Control Station (this operates like conventional MOTOTRBO today)
The Trunked Control Station “returns the ack” to the most current rest slot

31. Voice Slots Data Slots Data Reverts Channel: How it works? Slot 1B C A B
Slot 1
Slot 2
Slot 5
Slot 6 S5 S6 B C C
Application Server
IP Switch
Slot 3
Slot 4
Slot 7
Slot 8 S7 S8
Voice Slots
Data Slots

32. Do I NEED Data Revert?
It is not required to create a data revert system
Radios can be programmed to send data on voice slots
This can reduce data reliability and QoS
Especially in very large fleets
Data Revert loading table
Repeater 1
Repeater 2
Repeater 3
Repeater 4
Every Revert Repeater added greatly increases the amount of supportable subscribers

33. Fully Loaded Capacity Plus System
12 Voice Slots
Up to 1200 Subscribers
24 Data Slots
36 Control Stations
RDAC
GPS
TEXT
Telemetry

34. Capacity Plus Application Support
Most existing 3rd party applications will be usable on Capacity Plus, however…
…due to some data enhancements some slight modifications will need to be made by the developer of your application
Motorola’s Text Messaging & Location Services Suites, have NOT been optimized to work with Capacity Plus

35. Fault Tolerance Conditions
Voice Repeater Fails
IP Switch fails
Receive an indication on RDAC
If it’s being used
System remains operational
Will operate with less capacity
Heavily loaded systems could experience
higher instances of system busies
Receive an indication on RDAC
If it’s being used
Radios will continue to “trunk” but only on the repeater that they were on at the time
of failure
All repeaters revert to a “2 slot trunked” configuration
Radio distribution will impact system performance
All Channels are busy
Radio will ‘bonk’
Display radios will exhibit “system busy” string

36. System Planing &
Programming

37. System Planning: Channel Frequencies
Is this a new system?
Are the frequencies being used new?
If yes, have propagation studies been completed
Are there any interference issues that need to be addressed?

38. System Planning: Channel Loading Considerations
How many users will be on the system?
Will the system add new users in the future?
Applies to voice and data users
System planners should design the system to accommodate future users that may be added
It is possible that more channels may need to be added if larger volumes of subscribers are added
Capacity plus ideally can support 100 subscribers / slot
If attempting to put 300 subscribers on a 2 slot voice system “busies” could result.
Adding more data radios or shortening the GPS update period could also drive the need for more revert slots on the system
Plan accordingly!
See the MOTOTRBO System Planner for detailed loading specifications

39. System Planning: Future Considerations
How many users will be on the system?
The number of users and talk patterns should drive the amount of voice slots required
High traffic patterns will require more channels in the system to ensure a good QoS
Will the system add new channels, talk groups in the future?
Applies to voice and data revert channels
It is important to note that all subscribers will need to be reprogrammed if new channels or TGs are added in the future.
See the MOTOTRBO System Planner for detailed loading specifications

40. Know Your System Topology!
MOTOTRBO CPS has been slightly changed to accommodate Capacity Plus programming
System programmers still need to follow the same logic as programming a conventional system
Plan the system in advance!

41. Programming methodology
Like a conventional system plan the following:
What are / how many voice channels do I need to program?
What are the Talk groups that I need to program?
What TGs do I need to hear on MY radio?
Will I be using a data application
If using data revert, what are the channels?
Do I need more than 1 zone?
Do I need to access an IP Site Connect system
Do I need to access a conventional system

42. Example: Simple System Design
Plan number of Talk Groups and users in each
It is also helpful to plan ID schemes and assess assumed traffic loading
Evaluate data traffic assumptions
Talk Group Name
Talk Group ID
Users / Group
Activity
Applications
Group A
100 40
High
GPS 3 min update
Group B
120 60 NO
Group C
130 50
Group D
140
Low
This system will have 200 users and 4 talk groups
It will also require data revert channels (90 radios sending 3 minute GPS updates)

43. Example: Simple System Design
Talk Group Name
Talk Group ID
Users / Group
Activity
Applications
Group A
100 40
High
GPS 3 min update
Group B
120 60 NO
Group C
130 50
Group D
140
Low
In the following example we will program 2 voice repeaters (4 voice slots)
We will program 1 Data Revert Repeater (2 data slots)
Note: at 3 minute intervals 1 repeater (2 slots) can accommodate 120 subscribers
We will program 1 portable for all the channels referenced and 4 Talk groups, as well as a few private ids.

44. Guidance on the following programming
The following slides will highlight changes specific to Capacity Plus programming
They assume that basic programming i.e. radio ID, group ID programming etc. are understood.

45. Program a Voice Repeater
Open a repeater sample:
Right click on zone: add “Capacity Plus Voice Channel”
You may delete the default channels once you
add the capacity plus channel.
Program frequency information etc.
Note: Adding a single channel automatically creates 2 Voice
Slots labeled 1& 2. (Slot Channel ID above)
Rename the channel if desired

46. Program a Voice Repeater
On the Networks tab turn on IP Site Connect.
Designate the repeater a Master or Peer. Note only 1 Master is required per Capacity Plus system

47. Program a Voice Repeater
Repeat the same process for the secondary repeater, however, note that in the slot channel ID field you need to increment the Slot channel ID to 3, which will automatically create a 4th slot

48. Program a Data Revert Repeater
Programming a Revert Repeater is straightforward, click on zone, add “Capacity Plus Data Channel, rename as required.
Program frequency information etc.
Like, Voice Channels, you will need to turn on IP Site Connect in the Networks tab
NOTE: Capacity plus uses the IPSC protocol even though it operates in single site only. 

49. Programming Summary We now have 2 Voice Repeaters programmed Slots 1&2
We now have 1 Data Revert Repeater
You will need to verify that you have turned IP Site Connect on for both repeaters.
Capacity plus uses the IPSC protocol

50. CPS Quick Start – Subscriber checklist
Add CapPlus Private IDs – Who do you want to be able to talk to?
Add CapPlus Group IDs Build –What Talk Groups do you need access to?
CapPlus RX Group Lists –What Talk groups do you need to hear?
Add Voice Channels in Pool – One covers both slots (only 1 entry for each repeater)
Add Data Channels in Pool – One for each slot (2 entries for each repeater)
Build Voice Channel Lists – add Voice Channels in order
Build Data Revert Lists – order doesn’t matter
Add a CapPlus Personality to regular Zone
Reference Voice List
Reference Data List
Reference RX Group List
Reference TX Contact
Remove any default Analog or Conventional Digital Channels that you are not planning to use.

51. Program a Subscriber Radio: Private IDs
Add Capacity Plus private IDs

52. CPS Quick Start – Subscriber checklist
Add CapPlus Group IDs Build –What Talk Groups do you need access to?

53. Program a Subscriber Radio: Group IDs
Add Capacity Plus Group IDs

54. CPS Quick Start – Subscriber checklist
CapPlus RX Group Lists –What Talk groups do you need to hear?

55. Program a Subscriber Radio: RX Group List
On the RX Group List, highlight TG List 1 under Capacity Plus.
Then highlight and add the TGs to this list.
These are the TGs that you wish to hear on your subscriber.
You may rename this list.

56. CPS Quick Start – Subscriber checklist
Add Voice Channels in Pool – One covers both slots (only 1 entry for each repeater)

57. Programming the Subscriber: Channel Pool
Capacity plus subscribers contain a special zone called a Channel Pool
This zone allows programmers to add all the channels that may potentially be used in the system
Analog
Digital
Capacity Plus Voice
Capacity Plus Data
This zone is deliberately not viewable by the end user
This becomes a “holding place” for all channels that don’t need to be directly accessed by the end user
Via channel knob / rocker
Or via menu
Reasoning: There is no reason for the user to physically access a data revert

58. Program a Subscriber Radio: Add Voice Channels to Channel Pool
Under Channels, you will see Channel Pool, right clicking on the Pool will allow you to add any type of MOTOTRBO channel. Add Capacity Plus Voice Channel this will create a single channel, however it will encompass (2) Voice Slots

59. CPS Quick Start – Subscriber checklist
Add Data Channels in Pool – One for each slot (2 entries for each repeater)

60. Program a Subscriber Radio: Add Data Channels to Channel Pool
Right clicking on the Pool will allow you to add any type of MOTOTRBO channel. Add Capacity Plus Data Channel this will create a single channel, however it will encompass (1) Voice Slots. This will need to be done twice / repeater.

61. Program a Subscriber Radio: Add Data Channels to Channel Pool
Note: Adding a Data channel only creates (1) data slot, therefore (2) must be added / repeater. You will need to assign a slot to each data channel created. All channels (voice & data) can be renamed to coincide with their function

62. CPS Quick Start – Subscriber checklist
Build Voice Channel Lists – add Voice Channels in order

63. Program a Subscriber Radio: Create Voice Channel List
Under Capacity Plus entry, Create a Voice Channel List, this is all the channels that will be accessible in the Capacity Plus system. Add them according to their slot order, i.e. 1&2, then 3&4….

64. CPS Quick Start – Subscriber checklist
Build Data Revert Lists – order doesn’t matter

65. Program a Subscriber Radio: Create Data Revert List
Follow the same process for the data channel list. Order of addition to the list does not matter.

66. CPS Quick Start – Subscriber checklist
Add a CapPlus Personality to regular Zone
Reference Voice List
Reference Data List
Reference RX Group List
Reference TX Contact
Remove any default Analog or Conventional Digital Channels that you are not planning to use.

67. Program a Subscriber Radio: Create A Capacity Plus Personality
Under the Zone, right click and Add Capacity Plus Personality, you may delete the rest of the channels in the zone once added. These channels are defaulted there. You can also rename the personality to be more descriptive

68. Program a Subscriber Radio: Program the Capacity Plus Personality
If using data, turn on ARS
Add Voice list created in previous step 1
Add Data list created in previous step 2
Choose Contact TG
Add RX list created in previous step 4 3

69. Listen / Talk to only one talk group
It’s easy to program a Capacity Plus radio to talk and listen to a single talk group
When creating RX list ONLY add the single TG that you wish to hear
Add that TG as your Contact Name on the Capacity Plus Personality
ONLY add TG A to Rx List
TG A is the contact name on the Capacity Plus Personality

70. Programming Summary So…what do we have? 2 Voice repeaters
Slots 1&2
Slots 3&4
1 Data Repeater
Slot 1
Slot 2
4 Talk Groups

71. Understanding Capacity Plus Beacons
The Capacity Plus repeater hosting the rest channel will send out a beacon every Beacon Interval (ms). The subscriber units listen for the beacon and if they don’t hear it in the specified interval they’ll go thru the Voice List looking for the next rest channel. If a subscriber hasn’t found a rest channel in the Rest Channel Acquisition TOT (min) then it will sound a tone indicating to the user that it has lost the system.
The intervals for the repeater and subscriber should be set to the same value.

72. Understanding Capacity Plus RSSI Threshold
FCC Type 1 compliance may not be an issue for areas outside the United States. However, the RSSI Threshold (dBm) is used in Capacity Plus systems to determine if a repeater is available to become the next rest channel or not.
For example, if the RSSI Threshold (dBm) is set to -115 for repeater 1 in a 4 repeater Capacity Plus system and the rest channel is currently on repeater 2. Repeater 1 may have RF interference (analog or digital) above that threshold at -110dBm then repeater 1 channel will be considered ‘busy’ and it will take itself out of contention to become the next rest channel and the next rest channel would end up being assigned to repeater 2, 3 or 4.
If you always want the repeater to be considered a candidate for the next rest channel assignment regardless of ambient RF levels you should set this value to the maximum -40dBm value.

73. Improving Channel Capacity by Adjusting Hang Times
MOTOTRBO supports message trunking by keeping a channel reserved for the duration of hang time after a transmitting radio has de-keyed the microphone. During the hang time, only the members of the ongoing call can start a transmission.
The advantage is that it provides guaranteed access to the channel for the duration of a call.
The disadvantage is that the channel remains unused during the hang times.
To improve channel utilization, change the call hang time in the repeater.
Set to Zero (0) - system acts as if the channel is allocated for only one transmission (Transmission Trunking)
Reduce call hang time from the default value - may improve overall call throughput if there are many members in a group, and they are replying instantly to the group call
Increase call hang time from the default value if the group members are not replying instantly to the communication and the channel still needs to be reserved, to prevent group call participants from switching to other group calls or loosing the channel when the system may becomes busy with other calls

74. Ways to Improve Data Throughput
Compress the UDP/IPv4 headers between radios (including control stations)
applies to clear, Basic Privacy, and Enhanced Privacy transmissions in both repeater mode and direct mode
transparent to server applications
Radios sends compressed data messages only if the feature is enabled, but they process compressed data messages even if the feature is disabled. A legacy MOTOTRBO radio cannot receive compressed data messages.
Use unconfirmed data message
Note: GPS data in IP Site Connect and Capacity Plus modes is always unconfirmed and not configurable
Transmit a data message with or without the preambles
MOTOTRBO radio sends one (in repeater mode) or two (in talkaround mode) preambles for increasing the battery life.
If there are legacy radios (i.e. release 1.4 or earlier) in the system, all the radios in the system should be configured to send battery saver preambles.

75. Call Priority in Capacity Plus Mode
If there is more than one calls active in a Capacity Plus system, then a radio joins its most preferred call in the following conditions:
The call that the radio was participating in, ends
A radio powers on, or returns from a fade when all trunked channels are not busy.
The preference list for a radio (in decreasing order) is:
All Call
the radio’s transmit talkgroup
the radio’s receive talkgroup
Call priority is enforced by a radio only while it is entering a call. Once the radio joins a call, it will not look for any other high-priority call in the system (except an All Call).