
--- H_GENERAL
\The following provides a summary of the special keystrokes that may be
used in this programming package:
\
\   F1                    Help Key, First press, Help for the current field.
\                         Second press, General help
\   F2                    Add a row to an array
\   F3                    Delete a row from an array
\   UP-ARROW              Used to scroll a vertical list up or
\                         move vertically in a pop-up menu
\   DOWN-ARROW            Used to scroll a vertical list down or
\                         move vertically in a pop-up menu
\   RIGHT-ARRAOW          Used to move to the right along the menu
\                         items in the menu bar
\   LEFT-ARROW            Used to move to the left along the menu
\                         items in the menu bar
\   ALT                   Used by itself, it selects the window menu
\                         bar, can be used in conjunction with
\                         a hot key to select a specific menu item
\   F5                    Repaint display
\   INS                   Toggle Insert/Overtype mode
\   DEL                   Delete character right
\   BACKSPACE             Delete character left
\   ENTER                 End edit and validate new value
\   ESC                   Closes a form
\   TAB                   Move to next field
\   SHIFT-TAB             Move to previous field
\   HOME                  Go to top of form
\   END                   Go to bottom of form
\   CTRL-HOME             Go to beginning of line
\   CTRL-END              Go to end of line
\   CTRL-LEFT-ARROW       Move the view of fields with scroll bars left
\   CTRL-RIGHT-ARROW      Move the view of fields with scroll bars right
\   CTRL-UP-ARROW         Move the view of fields with scroll bars up
\   CTRL-DOWN-ARROW       Move the view of fields with scroll bars down
\   PAGE-DOWN             Go down one page in form
\   PAGE-UP               Go up one page in form
\

--- H_MAIN_WINDOW

--- H_RADIO

--- H_COLOURS

--- H_FILE

--- H_DEFAULTS

--- Radio_Type
\Radio Type is used to describe the type of radio and the frequency
band in which it will operate.
\\This package is designed to program the TAIT T2040 style radio.
\\This field will accept the following values:\
   T2040-2XX( 66- 88MHz)\
   T2040-3XX(136-174MHz)\
   T2040-4XX(175-225MHz)\
   T2040-5XX(400-470MHz)\
   T2040-6XX(450-520MHz)\
   T2040-7XX(340-360MHz)\

--- Manufacturer_Code
\MANUFACTURER'S CODE is an 8 bit number (0 to
255), one or more of which is issued to each radio unit
manufacturer by the Radiocommunications Agency(RA).

--- Model_Code
\MODEL CODE is a 4 bit number (0 to 15) which is unique to 
a radio unit type for a given MANUFACTURER'S CODE.  
\\The model number is allocated by TAIT as and when new radio unit 
models are to be type approved.  
\\In the event that more than 16 type approved models are produced, 
additional MANUFACTURER'S CODEs will be used.

--- Serial_Number
\SERIAL NUMBER is given to each unit for a given model.  This number 
is allocated by TAIT, and would normally run from 1 up towards 262143.  
Where this capacity is exceeded, another model number may be 
allocated to radio units of the same type approval type.

--- Chassis_Serial_Number
\This is the serial number allocated to the radio's chassis.

--- Factory_Model_Identity
\This is for manufacturing reference only.

--- Own_Individual_Number
\This is the MPT1343 number which uniquely
identifies a radio within a fleet.  It must be in the range
\\   20 - HIGHEST INDIVIDUAL NUMBER IN FLEET
\
\              OR
\
\   200 - HIGHEST INDIVIDUAL NUMBER IN FLEET
\
\depending on whether HIGHEST INDIVIDUAL NUMBER IN FLEET contains two or three digits.
\\The current definition of HIGHEST INDIVIDUAL NUMBER IN FLEET is :
"GET_DATA(highIndNumInFt,0)"

--- Own_Group_Address_Number
\This is a MPT1343 number defining a group to which the radio unit 
belongs.  Up to 4 group numbers may be assigned to each radio 
unit.  If no group number is required, or a group address is to be 
specified in MPT1327 Format, then 0 should be entered.
\\Otherwise each number must be in the range 90 - HIGHEST GROUP 
NUMBER IN FLEET or 900 - HIGHEST GROUP NUMBER IN FLEET depending 
on whether HIGHEST GROUP NUMBER IN FLEET contains two or three digits. 
\\The current definition of HIGHEST GROUP NUMBER IN FLEET is :
"GET_DATA(highGpNumInFt,0)"

--- Own_Group_Address_Prefix
\MPT1327 format addresses are made up of a 7 bit Prefix (range 
0 - 127) and a 13 bit Ident (range 1 - 8100).
\\This field specifies the Prefix of an MPT1327 group address 
for a group to which the unit belongs.  Up to 4 group addresses 
may be assigned to each radio unit.
\\If no group address is required then 0 should be entered.
Otherwise enter the required value between 0 - 127.

--- Own_Group_Address_Ident
\MPT1327 format addresses are made up of a 7 bit Prefix (range 
0 - 127) and a 13 bit Ident (range 1 - 8100).
\\This field specifies the Ident of a MPT1327 group address 
for a group to which the radio unit belongs.  Up to 4 group 
addresses may be assigned to each radio unit.  
\\If no group address is required then 0 should be entered.
Otherwise enter the required value between 1 - 8100.

--- Control_Category
\The CONTROL CATEGORY is a designation given to the radio unit
which governs that unit's rights of access to control channels radiated by that
network.  \\A radio unit can only access a control channel when the value of the
LAB field in the system identity code indicates that the unit's CONTROL CATEGORY
is permitted to use that channel.
\\ Select one of the categories 'A', 'B', 'C', or 'D'

--- Radio_Is_A_Despatcher
The radio can be programmed to act as a Despatcher radio.  In 
this mode, the following changes in operation occur.
\
\(i)   The radio accepts the special 'Enter_Despatch_Queue' 
and 'Leave_Despatcher_Queue' calls.
\
\(ii)  When in Queue Display Mode the radio never automatically 
switches to Normal Display Mode.
\
\(iii) When in Normal Display Mode, the radio never automatically 
switches to Queue Display Mode.
\
\The changes in operation that occur are designed to be compatible 
with how a fixed location radio would be used compared to a mobile.
\
\Select either 'Enabled' or 'Disabled'.
\
\N.B. Depsatch Radio operation is designed to use a call queue, 
so ensure that the Call Queue Size is set to a suitable value.

--- Call_Queue_Size
\The Call Queue is used to hold the following calls:
\(i)   Calls that were unanswered.
\(ii)  Calls automatically queued by the radio when its 'Queue 
Incoming Calls' control was active.
\(iii) Status Calls
\(iv)  Despatcher Calls
\
\Enter a number between 1 and 20
\
\N.B. A large size should be used if the radio is programmed 
as a Despatcher.

--- Number_Range_For_Individual_Call
\Businesses operating on a trunking network are usually 
grouped into what is termed a fleet.  
\\In some cases it may not be desirable for every radio in the fleet 
to be able to make individual calls to all other radios in its fleet.  
\\By defining a range of allowable individual calls it is possible 
to restrict the calls a radio unit may make to radios in its fleet.  
\\The range which may be defined must be between 20 - HIGHEST 
INDIVIDUAL NUMBER IN FLEET or 200 - HIGHEST INDIVIDUAL NUMBER IN 
FLEET depending on whether HIGHEST INDIVIDUAL NUMBER IN FLEET 
contains two or three digits.  
\\To prevent the radio from making any calls to other radios in 
its fleet enter 0's in both fields.  The range must go from a 
lesser number to a higher number.
\\The current definition of HIGHEST INDIVIDUAL NUMBER IN FLEET is :
"GET_DATA(highIndNumInFt,0)"


--- Number_Range_For_Group_Calls
\\Businesses operating on a trunking network are usually grouped 
into what is termed a fleet.  
\\In some cases it may not be desirable for every radio in the 
fleet to be able to make group calls to all group numbers in its fleet.  
\\By defining a range of allowable group numbers it is possible to 
restrict the calls a radio unit may make.  
\\The range which may be defined must be between 90 - HIGHEST GROUP 
NUMBER IN FLEET or 900 - HIGHEST GROUP NUMBER IN FLEET depending 
on whether HIGHEST GROUP NUMBER IN FLEET contains two or three digits.  
\\To prevent the radio from making any group calls to other radios in 
its fleet enter 0's in both fields.  The range must go from a lesser 
number to a higher number.
\\The current definition of HIGHEST GROUP NUMBER IN FLEET is :
"GET_DATA(highGpNumInFt,0)"

--- Acquisition_Authorisation_Type
\Acquisition Authorisation is used to specify the areas of 
the Trunking Network in which the radio may operate.
\\These entries specify values for fields with the control 
channels being radiated from each site of the Network.
\
\This field must be either 'Full', 'Area' or 'Zone'
\
\Please refer to your Network operator for the correct entry.

--- Acquisition_Authorisation_Code
\Acquisition Authorisation is used to specify the areas of 
the Trunking Network in which the radio may operate.
\\These entries specify values for fields with the control 
channels being radiated from each site of the Network.
\
\Enter the required value for 'Full', 'Area' or 'Zone' as 
specified by the Acquisition Authorisation Type.

--- NDD_Preference_Data
\NDD PREFERENCE DATA is used to encourage the radio unit to
acquire preferred control channels whilst it is performing a preferential hunt sequence.
\\The preference data is defined by three fields with the following information.
\\*   Preferred NDD field length: this specifies the number of bits of the NDD
field in a control channel which are relevant.  The maximum number of bits which
may be compared is dependent on NETWORK TYPE.
\\*   The value of the preferred NDD field:  the value must be able to be stored
in the number of bits specified by the field length.
\\*   The priority of the entry, with 1 being the highest and 10 the lowest.
Up to four entries may be made.

--- Home_Zone
\This is used to specify in which Zone of the Network the radio is 
normally working.  
\
\It is used by the radio in determining whether re-registration is 
required on a Network when registration records for the Network 
have only been maintained on a temporary basis.
\
\The maximum value of HOME ZONE depends on the value of ZONE FIELD LENGTH (LZ).

--- Despatcher_Button_Call_String
\This defines the call string which is dialled when the 
radio's front panel [DESP] button is pressed.  
\\Normally the DESP button is used to set up calls to
the unit's despatcher, however, it can be programmed with 
any valid dialled string.  
\\The allowable characters are '0' - '9', '*' and '#'.
\\The entry may be left blank if the feature is not required.

--- Preset_Call_Number
\The radio can be programmed with up to 100 preset call 
strings, numbered 0 to 99.
\\Preset Call strings 0 to 19 are accessed by dialling the one 
or two digit number.
\\Preset Call strings 20 - 99 are accessed by dialling a 
leading '0' first (eg. '025') to enable the radio to 
unambiguously interpret the number.  However if the radio has been 
programmed with a dialling scheme of 'Number Presets' then 
this leading zero may be omitted as no ambiguity occurs.

--- Preset_Call_Label
\Preset call strings may be given an optional label. 
\If a label is assigned to a preset call string then the user can 
activate the call string by entering or selecting the label.  
\The label will also be displayed if an incoming caller's identity 
matches the call string.
\A preset call string label can be from 1 to 8 characters long and 
any combination of the characters A..Z, 0..9, or -. 
\Labels must be unique ie. one label can not be the same as another.  
\The characters in each of the following groups are regarded as identical 
for the purpose of determining a unique label.
\   1,Q,Z,-
\   2,A,B,C
\   3,D,E,F
\   4,G,H,I
\   5,J,K,L
\   6,M,N,O 
\   7,P,R,S
\   8,T,U,V
\   9,W,X,Y
\   0
\If a label is not required then leave this field blank. 

--- Preset_Call_String
\Preset call strings can be programmed with any valid dialling 
sequence, and the allowable characters are '0' - '9', '*' and '#'.
\\eg. if a preset call string is set to 03583399 this will make a
PSTN call to the number 3583399.
\\eg. if a preset call string is set to 23 this will make a
call to radio unit number 23.

--- Hookswitch_Monitor
\If HOOKSWITCH MONITOR is 'Enabled' and the microphone is off
hook, the audio will unmute on any channel activity irrespective of any
signalling option installed.

--- Transmit_Inhibit_On_Busy
\If TRANSMIT INHIBIT ON BUSY is 'Enabled', the unit is prevented
from transmitting when there is activity on a channel.

--- Conv_Chan_Access_Number
\The ACCESS NUMBER is the string entered on the front panel of the
radio to change the unit to the predefined channel.
\\Up to 10 conventional
channels can be defined for the T2040 (101 - 110) unless the radio dialling
scheme (in Own Fleet Identity) is ZVEI in which case only 9 channels can be defined (101 - 109).
\\eg. To change the radio to the conventional channel defined by ACCESS NUMBER 103
the string '103#' would be entered on the front panel.

--- Conv_Chan_Receive_Frequency
\This is the receive frequency for the defined conventional
channel.
\\The frequency must be between the upper and lower frequency limits
defined as per the RADIO TYPE in the specifications form.
\\The frequency must
also be a multiple of either 5 KHz or 6.25 KHz.

--- Conv_Chan_Transmit_Frequency
\This is the transmit frequency for the defined conventional
channel.
\\The frequency must be between the upper and lower frequency limits
defined as per the RADIO TYPE in the specifications form.
\\The frequency must
also be a multiple of either 5 KHz or 6.25 KHz.

--- Conv_Chan_Transmit_Power
\TX POWER defines the power level of the transmitter for each
channel.
\\The value entered must be either 'High' or 'Low'.'

--- Conv_Chan_Signalling
\If SIGNALLING is set to 'On' then an external 'Signalling
Interface' option board must be fitted and will be enabled when
the channel is selected.

--- Ecn_Timeout_With_Ign_On
\The T2040 has an economiser function which can reduce the
current drawn by the radio after a specified period of inactivity.
\\Any operation on the radio will return it to a fully active state, including any
valid channel activity.
\\The radio will enter economy mode when the vehicle ignition is on after the
period indicated by the timer (specified in hours, minutes and seconds, up to a
maximum of 18 hours) only if ECONOMY TIMEOUT WITH IGNITION ON is set to
'Enabled'.

--- Ecn_Timeout_With_Ign_Off
\The T2040 has an economiser function which can reduce the
current drawn by the radio after a specified period of inactivity.
\\Any operation on the radio will return it to a fully active state, including any
valid channel activity.
\\The radio will enter economy mode when the vehicle ignition is off after the
period indicated by the timer (specified in hours, minutes and seconds, up to a
maximum of 18 hours) only if ECONOMY TIMEOUT WITH IGNITION OFF is set to
'Enabled'.


--- Economy_Backlighting
\ECONOMY BACKLIGHTING is the backlighting level of the radio when
it enters economiser mode.
\\The backlighting level can be set to 'Dim' or 'Off'.

--- ECR_Call_String
\This can be programmed with any valid dialling sequence.
\
\The call string is processed when the radio's ECR line is activated.
\
\The allowable characters are '0' - '9', '*' and '#'.

--- SOS_Calls
\This entry defines whether the processing of the programmed 
ECR Call String by the radio should be 'silent' (ie. no 
audible or visual indicators).  
\\Silent operation can be useful in emergency situations.

--- Number_Of_Retries
\This is the number of retries the radio will make in an 
attempt to set up a successful call to ECR CALL STRING.  
\\It must be between 0 and 255. 
\A 'successful' call is one for which a traffic channel is assigned.

--- SOS_Call_Time_Limit
\SOS CALL TIME LIMIT determines the total length of time that a 
SOS call may be setup for.  
\\It can be any value from 10 to 120 seconds, and overrides any 
other call timer that would be in force for the call.

--- SOS_Transmit_Time
When the radio is tuned to a traffic channel as a result of an 
SOS Call, it automatically switches between Receive and Transmit mode, 
with a programmable Rx/Tx duty cycle.
\\The SOS Transmit Time is the time per cycle that the radio is in 
transmit mode.
\\It can be any value between 0 and 120 seconds.  
\\The sum of SOS TX TIME and SOS RX TIME must be less than or equal 
to SOS CALL TIME LIMIT.

--- SOS_Receive_Time
\When the radio is tuned to a traffic channel as a result of an 
SOS Call, it automatically switches between Receive and Transmit mode, 
with a programmable Rx/Tx duty cycle.
\\The SOS Receive Time is the time per cycle that the radio is in 
receive mode.
\\It can be any value between 0 and 120 seconds.  
\\The sum of SOS TX TIME and SOS RX TIME must be less than or equal 
to SOS CALL TIME LIMIT.

--- External_Alert
\If set to 'Enabled,' EXTERNAL ALERT allows the unit to use some 
form of external alert such as a car horn, or headlights to alert 
the user to an incoming call.  
\\EXTERNAL ALERT must be 'Enabled or 'Disabled'.

--- Delay_Time
\DELAY TIME is the pause between an incoming call being received
and the external alert starting.
\\It must be between 0 and 60 seconds.

--- Active_Time
\ACTIVE TIME is the length of time which the alert remains on.
\\It must be between 1 and 60 seconds.

--- Candence
\CADENCE controls how the alert operates.
\\The values that
CADENCE may take are 'Steady', 'Pulsed' or 'Ringing'.

--- Alert_On_All_Calls
\If ALERT ON ALL CALLS is set to 'Enabled' it means that all
types of incoming calls will cause the external alert to activate.

--- Alert_On_Emergency_Calls
\If ALERT ON EMERGENCY CALLS is set to 'Enabled' it means that if
the incoming call is an emergency call the unit will cause the external alert to
activate.

--- Alert_On_Speech_Calls
\If ALERT ON SPEECH CALLS is set to 'Enabled' it means that if
the incoming call is a speech call the unit will cause the external alert to
activate.

--- Alert_On_Data_Calls
\If ALERT ON DATA CALLS is set to 'Enabled' it means that if the
incoming call is a data call the unit will cause the external alert to
activate.

--- Alert_On_Include_Calls
\If ALERT ON INCLUDE CALLS is set to 'Enabled' it means that if
the incoming call is an include call the unit will cause the external alert to
activate.

--- Alert_On_Status_Calls
\If ALERT ON STATUS CALLS is set to 'Enabled' it means that if
the incoming call is an status call the unit will cause the external alert to
activate.

--- Alert_On_Group_Calls
\If ALERT ON GROUP CALLS is set to 'Enabled' it means that if the
incoming call is a group call the unit will cause the external alert to
activate.

--- Alert_On_Individual_Calls
\If ALERT ON INDIVIDUAL CALLS is set to 'Enabled' it means that
if the incoming call is an individual call the unit will cause the external
alert to activate.

--- PABX_Calls
\If PABX CALLS is 'Enabled' the radio will allow the user to
setup a PABX call.
\\If this field is 'Disabled' the radio unit will not
attempt to set up this type of call.

--- PSTN_Calls
\If PSTN CALLS is 'Enabled' the radio will allow the user to
setup a PSTN call.
\\If this field is 'Disabled' the radio unit will not
attempt to set up this type of call.

--- Interfleet_Calls
\If INTERFLEET CALLS is 'Enabled' the radio will allow the user
to setup an interfleet call.
\\If this field is 'Disabled' the radio unit
will not attempt to set up this type of call.

--- Interfleet_Group_Calls
\If INTERFLEET GROUP CALLS is 'Enabled' the radio will allow the
user to setup an interfleet group call.
\\If this field is 'Disabled' the
radio unit will not attempt to set up this type of call.

--- ALLI_Calls
\If ALLI CALLS is 'Enabled' the radio will allow the user to
setup an ALLI call.
\\If this field is 'Disabled' the radio unit will not
attempt to set up this type of call.

--- Network_Operator_Service_Calls
\If NETWORK OPERATOR SERVICE CALLS is 'Enabled' the radio will
allow the user to setup a network operator service call.
\\If this field
is 'Disabled' the radio unit will not attempt to set up this type of call.

--- Abbreviated_Dialling
\If ABBREVIATED DIALLING is 'Enabled' the radio will allow the
user to setup an abbreviated dialled call.
\\If this field is 'Disabled'
the radio unit will not attempt to set up this type of call.

--- Abbreviated_Dialling_Limit
\ABBREVIATED DIALLING LIMIT is the number of different
abbreviated dialled calls a unit can make.
\\It must be between 0 and 49.

--- Technician_Calls
\If TECHNICIAN CALLS is 'Enabled' the radio will allow the user
to setup a technician call.
\\If this field is 'Disabled' the radio unit
will not attempt to set up this type of call.
\\Technician Calls are MPT1343
specified eight digit dialled strings with a leading 1 and where the other seven
digits are made up of a prefix (0 to 127) and an ident (1 to 8100).

--- Status_Calls
\If STATUS CALLS is 'Enabled' the radio will allow the user
and setup a status call.
\\If this field is 'Disabled' the radio unit will
not attempt to set up this type of call.

--- Data_Calls
\If DATA CALLS is 'Enabled' the radio will allow the user to
setup a data call.
\\If this field is 'Disabled' the radio unit will not
attempt to set up this type of call.

--- Divert_Own_Calls
\If DIVERT OWN CALLS is 'Enabled' the radio will allow the user
to divert incoming call to another unit.
\\If this field is 'Disabled'
the radio unit will not be able to divert incoming calls.

--- Divert_Third_Party_Calls
\If DIVERT THIRD PARTY CALLS is 'Enabled' the radio will allow
the user to divert another units incoming calls to a different destination.
\\If this field is 'Disabled' the radio unit will not attempt divert another units
incoming calls.

--- Queue_Incoming_Calls
\If QUEUE INCOMING CALLS is 'Enabled' the radio will allow the
user to setup the radio to place incoming calls on the call queue.
\\If this field is 'Disabled' the radio unit will not attempt to set up this mode of
operation.

--- Do_Not_Disturb
\If DON'T DISTURB is 'Enabled' the radio will allow the user to
setup the radio to ignore incoming calls.
\\If this field is 'Disabled' the radio unit will not attempt to set up this mode of operation.

--- Direct_Despatcher_Calls
\If DIRECT DESPATCHER CALLS is set to 'Disabled', normal speech calls 
to the despatcher will not be allowed.

--- FCN_Button_Function
\FCN BUTTON FUNCTION can be used to control the operation of the
<FCN> button.
\\This field may contain either
\'Auxiliary Output',
\'External Alert',
\'Preset Call' or
\'Disabled'.

--- FCN_Button_Operation
\If FUNCTION BUTTON OPERATION is set to 'Auxiliary Output' then
FUNCTION BUTTON OPERATION controls the operation of the auxiliary output line.
\\If the value is 'Momentary' then the line remains toggled for as long as the
<FCN> button is pressed.
\\If the value is 'Latching' the line toggles every time
the button is pressed.

--- FCN_Button_Call_Strings
\This defines the call string which is dialled when the radios 
front panel [FCN] button is pressed, provided that the FCN BUTTON 
FUNCTION has been set to 'Preset Call'.  
\\It can be programmed with any valid dialled string.  
\\The allowable characters are '0' - '9', '*' and '#'.

--- Normal_Backlighting_Level
\NORMAL BACKLIGHTING LEVEL is the level of the backlighting when
the radio is not in economy mode.
\\It can be set to
\'Full',
\'Dim' or
\'Off'.

--- Callback_facility
\The radio has a callback facility which can be Enabled or Disabled.
\\If enabled, then when an incoming call (that was answered) clears 
down, its number is displayed on the front panel of the radio, giving 
the user the opportunity to call the calling radio back by pressing 
the radios PTT.
\
\Select 'Enabled' or 'Disabled'.

--- Tone_Set
\TONE SET defines the style of audible indicators produced by the
radio.
\\The two options are
\\'Tait' or
\'MPT1343'.

--- Default_Tone_Level
\DEFAULT TONE LEVEL controls the sound level of audible indicators.  
The two options are 'Low' or 'High'.
\
\N.B. This programmed sound level may be changed when the radio 
is switched on by pressing the [FCN] button for a period of at least one second.

--- Keypress_Confidence_Tones
\If KEYPRESS CONFIDENCE TONES is 'Enabled' then each keypress on
the front panel of the radio is acknowledged with an audible beep.
\\No indicator is given if KEYPRESS CONFIDENCE TONES is 'Disabled'.

--- Power_Up_Message
\POWER-UP MESSAGE defines the scrolling message which appears on
the radio display on power-up.
\\The acceptable characters are 'A' - 'Z', '0' - '9', '*',
'-', '+', '<', '>', forwards slash, backwards slash and space.

--- Test_Mode_On_Power_Up
\The radio will power-up in the mode it was in when it was turned
off, except after programming.
\\TEST MODE ON POWER UP defines the power-up mode
after programming.
\\If this field is 'Enabled' then the radio will power-up
after programming in test mode.
\\If this field is 'Disabled' the the radio will
power-up in trunked mode.

--- Value_Of_Info_In_RQR
\VALUE OF INFO IN RQR is used to define a 15 bit value which is
added to the INFO field when a radio requests registration.
\\This INFO value is available for customisation by systems, to
convey additional information to the Trunking System Controller (TSC).

--- PTT_Initiation_Of_Call
\If PTT INITIATION OF CALL is 'Enabled', when the user presses PTT 
with the in an idle state in trunked mode a call will be made to 
the number in the display.

--- Option_Board_Type
\This field indicates what options board is fitted to the radio.
\\The field may contain
\   'No board Fitted',
\   'Handsfree Interface',
\   'CCI/Line Interface' or
\   'Signalling Interface'.

--- Lookup_Table_Number_Prefix
\The Look-up table is used to define up to two radio fleets 
that may be accessed using 5 digit dialling.
\\NUMBER PREFIX is a MPT1343 representation of the MPT1327 
prefix for the fleet being defined.  
\\It must be between 200 and 327.

--- Lookup_Table_Fleet_Number
\The Look-up table is used to define up to two radio fleets 
that may be accessed using 5 digit dialling.
\\FLEET NUMBER is the MPT1343 representation of the MPT1327 
base ident for the fleet being defined.
\\It must be between 2001 and 6050

--- Lookup_Table_Fleet_Type
\The Look-up table is used to define up to two radio fleets 
that may be accessed using 5 digit dialling.
\\FLEET TYPE specifies whether the fleet being defined is an 
Individual or Group fleet.

--- Lookup_Table_Highest_Number_In_F
\The Look-up table is used to define up to two radio fleets 
that may be accessed using 5 digit dialling.  
\\HIGHEST NUMBER IN FLEET is the highest number. in the fleet being defined.
\\The range of values which HIGHEST NUMBER IN FLEET
will accept depends on the FLEET TYPE.
\\If the FLEET TYPE is 'Individual'  then
the HIGHEST NUMBER IN FLEET  must be between  20 - 89 or 200 - 899.
\\If the
FLEET TYPE is 'Group' this field will accept a value between 90 - 99 or 900 -
999.
\\The value of FLEET NUMBER may reduce the upper value in these ranges.

--- Lookup_Table_Access_String

--- Soft_Errors
\If SOFT ERROR REPORTING is 'Disabled', the radio will carry on when a
recoverable error is detected without any indication to the user.
\\If SOFT ERROR REPORTING is 'Enabled' the radio will stop operating
when an error is detected and display an error number on the front panel.

--- Fleet_Number_Prefix
\FLEET NUMBER PREFIX is a MPT1343 value which must be between 200
and 327.
\\It must be common to all units in a fleet.  This prefix forms part of
the address of individual radios.

--- Fleet_Individual_Number
\FLEET INDIVIDUAL NUMBER is used to calculate the individual base
identity for a fleet.
\\This value is used with the OWN INDIVIDUAL NUMBER and
FLEET NUMBER PREFIX to uniquely identify the unit within the system.
\\FLEET INDIVIDUAL NUMBER must be between 2001 and 6050.

--- Highest_Individual_Number_In_Fle
\HIGHEST INDIVIDUAL NUMBER IN FLEET defines the highest
individual number that may be called by any unit within a fleet.
\\The range of values which HIGHEST INDIVIDUAL NUMBER IN FLEET will accept depends on the
DIALLING SCHEME (In Own Fleet Identity) adopted by the fleet.  If the DIALLING SCHEME is 'ZVEI'  then
the HIGHEST INDIVIDUAL NUMBER IN FLEET  must be between  20 - 79 or 200 - 799.
\\For any other DIALLING SCHEME, this field will accept a value between 20 - 89 or
200 - 899.
\\The value of FLEET INDIVIDUAL NUMBER may reduce the upper value in
these ranges.

--- Fleet_Group_Number
\FLEET GROUP NUMBER is used to calculate the group base identity
for a fleet.
\\FLEET GROUP NUMBER must be between 2001 and 6050.
\\If the fleet is
not allowed group calls this field should be set to 0.

--- Highest_Group_Number_In_Fleet

\HIGHEST GROUP NUMBER IN FLEET defines the highest group number
that may be called by any unit within a fleet.
\\If the value of FLEET GROUP NUMBER is 0 then this field
must also be 0.
\\Otherwise the range of values which HIGHEST GROUP NUMBER IN FLEET
will accept is 90 - 99 or 900 - 998 if the DIALLING SECHEME is not ZVEI
or 90 - 99 or 900 - 999 if the DIALLING SECHEME is ZVEI.  The value of
FLEET GROUP NUMBER may reduce the upper value in these ranges.

--- Prime_Despatcher_Number
\PRIME DESPATCHER NUMBER defines the number which the unit may
default to, when a despatcher call ('*0') is dialled without specifying a radio
number.
\\The range of values this field will accept is dependent on HIGHEST
INDIVIDUAL NUMBER IN FLEET.  If HIGHEST INDIVIDUAL NUMBER IN FLEET is two digits
long, then this field will accept a value in the range 20 - HIGHEST INDIVIDUAL
NUMBER IN FLEET.  Otherwise this field will accept a value in the range 200 -
HIGHEST INDIVIDUAL NUMBER IN FLEET.
\\The current setting of HIGHEST INDIVIDUAL NUMBER IN FLEET (in Own Fleet Identity) is :
"GET_DATA(highIndNumInFt,0)"

--- Prime_Emergency_Address
\PRIME EMERGENCY ADDRESS defines the number which the unit may
default to, when a emergency call ('*9') is dialled without specifying a radio
number.
\\The range of values this field will accept is dependent on HIGHEST
INDIVIDUAL NUMBER IN FLEET.
\\If HIGHEST INDIVIDUAL NUMBER IN FLEET is two digits
long, then this field will accept a value in the range 20 - HIGHEST INDIVIDUAL
NUMBER IN FLEET.  Otherwise this field will accept a value in the range 200 -
HIGHEST INDIVIDUAL NUMBER IN FLEET.
\\The current setting of HIGHEST INDIVIDUAL NUMBER IN FLEET (in Own Fleet Identity) is :
"GET_DATA(highIndNumInFt,0)"

--- Prime_Emergency_Address_Prefix
\It is possible to specify the PRIME EMERGENCY ADDRESS in the
MPT1327 prefix / ident format.
\\The PREFIX is a value which must be between 0
and 127.

--- Prime_Emergency_Address_Identity
\It is possible to specify the PRIME EMERGENCY ADDRESS in the
MPT1327 prefix / ident format.
\\The IDENT is a value which must be between 1 and
8100.
\\The value 0 may be entered for this field if the value of PRIME EMERGENCY
ADDRESS - PREFIX is 0.

--- Dialling_Scheme
\DIALLING SCHEME defines the sequences that can be entered on the front panel.
If the DIALLING SCHEME is 'MPT1343', any MPT1343 dialling sequence can be 
used.  If the DIALLING SCHEME is 'ZVEI', any ZVEI dialling sequence can be used.
--- Full_Off_Air_Call_Set_Up

\Trunking systems can set up calls in two ways.
\\In some systems
it is possible for the system to seek an acknowledgement from the user of a
called radio before setting up a call.
\\In other systems all calls are set up
without any acknowledgement from the called user.
\\FULL OFF AIR CALL SET UP only has any effect with systems where it is possible
to seek acknowledgement from the called user before setting up the call.  In
these systems, if this field is set to 'Allowed', calls will be set up without
acknowledgement from the called user.  If this field is set to 'Disallowed'  an
acknowledgement will be sought from the user.

--- Default_Call_Time_Limit
\DEFAULT CALL TIME LIMIT is the maximum length that a call may be
set up for.
\\This value can be overwritten by a BCAST message from the system.
\\It may be any of the following values :
\\  0 if no limit on call time
\\  10 to 254 in steps of 1 (seconds)
\\  300 to 780 in steps of 60 (seconds)

--- Default_Emergency_Call_Time_Limi
\DEFAULT EMERGENCY CALL TIME LIMIT is the maximum length that an
emergency call may be set up for.
\\This value can be overwritten by a BCAST
message from the system.
\\It may be any of the following values :
\\   0 if no limit on call time
\\  10 to 254 in steps of 1 (seconds)
\\ 300 to 780 in steps of 60 (seconds)

--- Call_Timer_Count_Up
\If COUNT-UP is set to 'Enabled', then if DEFAULT CALL TIME LIMIT
is set to 0, the radio will display the current call time length.

--- Network_Type
\NETWORK TYPE can be one of two values,
\\'National, or
\\'Regional'.

--- Network_Identity_Code
\If NETWORK TYPE is 'National' then NETWORK IDENTITY CODE must be
a value between 0 and 3.
\\If NETWORK TYPE is 'Regional' then NETWORK IDENTITY
CODE must be a value between 0 and 127.

--- Area_Field_Length
\AREA FIELD LENGTH indicates the number of databits in the NDD
which are used in a test carried out by the radio to see if it can acquire a
control channel.
\\The values this field will accept depends on the value of
NETWORK TYPE.
\\If NETWORK TYPE is 'National' the field will accept a value
between 0 and 9.
\\If NETWORK TYPE is 'Regional' this field will accept a value
between 0 and 4.'

--- Zone_Field_Length
\ZONE FIELD LENGTH indicates the number of databits in the NDD
which are used in a test carried out by the radio to see if it can acquire a
control channel.
\\The values this field will accept depends on the value of
NETWORK TYPE.
\\If NETWORK TYPE is 'National' the field will accept a value
between 0 and 9.
\\If NETWORK TYPE is 'Regional' this field will accept a value
between 0 and 4.'

--- SIL_Field_Length
\SIL FIELD LENGTH indicates the number of bits in the NDD which
are used in a test by the radio to check whether the clear down received is from
the correct TSC

--- Number_Of_Pressel_On_Messages
\NUMBER OF PRESSEL ON MESSAGES must be a value between 1 and 5.
\\Pressel On Messages are sent to the system whenever the PTT is pressed during a
speech call.

--- Number_Of_Pressel_Off_Messages
\NUMBER OF PRESSEL OFF MESSAGES must be a value between 1 and 5.
\\Pressel Off Messages are sent to the system whenever the PTT is released during
a speech call.

--- NC1_Continuous
\NC1 - CONTINUOUS is the size of Error Check Sample prior to
confirmation.  This is the value used with a continuous control channel.
\\It may
be any value between 0 and 255.

--- NC1_Timeshared
\NC1 - TIMESHARED is the size of Error Check Sample prior to
confirmation.
\\This is the value used with a timeshared control channel.
\\It may
be any value between 0 and 255.

--- NC2_Continous
\NC2 - CONTINUOUS is the size of Error Check Sample after
confirmation.
\\This is the value used with a continuous control channel.
\\It may
be any value between 0 and 255.

--- NC2_Timeshared
\NC2 - TIMESHARED is the size of Error Check Sample after
confirmation.
\\This is the value used with a timeshared control channel.
\\It may
be any value between 0 and 255.

--- NV_Continous
\NV - CONTINUOUS is the number of consecutive CCSCs to select a
value of SYS for verification.
\\This is the value used with a continuous control
channel.
\\It may be any value between 1 and 16.

--- NV_Timeshared
\NV - TIMESHARED is the number of consecutive CCSCs to select a
value of SYS for verification.
\\This is the value used with a timeshared control
channel.
\\It may be any value between 1 and 16.

--- NX1_Continous
\\NX1 - CONTINUOUS is the error codewords limit prior to
confirmation.
\\This is the value used with a continuous control channel.
\\It may
be any value between 0 and NC1 - CONTINUOUS.

--- NX1_Timeshared
\NX1 - TIMESHARED is the error codewords limit prior to
confirmation.
\\This is the value used with a timeshared control channel.
\\It may
be any value between 0 and NC1 - TIMESHARED.

--- NX2_Continous
\NX2 - CONTINUOUS is the error codewords limit after
confirmation.
\\This is the value used with a continuous control channel.
\\It may
be any value between 0 and NC2 - CONTINUOUS.

--- NX2_Timeshared
\NX2 - TIMESHARED is the error codewords limit after
confirmation.
\\This is the value used with a timeshared control channel.
\\It may
be any value between 0 and NC2 - TIMESHARED.

--- NZ1
\NZ1 is the number of contiguous error check samples containing
no error events.
\\It may be any value between 1 and 255.

--- NZ2
\NZ2 is the number of contiguous error check samples each
generating a codeword error event following an initial error event.
\\It may be
any value between 1 and 255.

--- NT
\NT is the maximum TSC response delay to unsolicited traffic
channel messages.
\\It may be any value between 103 and 1236 bit periods in steps
of 103.

--- ND1
\ND1 is the number of disconnect messages sent by an individually
called radio unit.
\\It may be any value between 1 and 5.

--- ND2
\ND2 is the number of disconnect messages sent by a calling radio
unit.
\\It may be any value between 1 and 5.


--- NW
\NW is the response delay (in slots).
\\It may be any value
between 1 and 15.

--- NI
\NI is the maximum number of include request access attempts.
\\It
may be any value between 1 and 255.
\\Note - Include calls cannot be setup with this radio

--- NE
\NE is the maximum number of random access transmissions of RQE.
\\It may be any value between 1 and 255.

--- NR
\NR is the maximum number of random access transmission of RQS,
RQD, RQX, RQT, RQR or RQQ.
\\It may be any value between 1 and 255.

--- TC
\TC is the random access timeout.
\\It may be any value between 10
and 120 in steps of 10seconds.

--- TD
\TD is the registration record timeout.
\\It may be any value
between 5 and 70 in steps of 5 minutes.

--- TJ
\TJ is the further signalling timeout.
\\It may be any value
between 10 and 60 in steps of 10 seconds.

--- TN
\TN is the traffic channel inactivity timeout.
\\It may be any
value between 1 and 10 seconds.

--- TS
\TS is the delay before leaving a control channel.
\\It may be any
value between 1 and 10 seconds.

--- TT
\TT is the maximum item duration.
\\It may be any value between 10
and 60 in steps of 10 seconds.

--- TA
\TA is the timeout for the radio unit after receiving an AHY.
\\It
may be any value between 1 and 255 seconds.

--- TB
\TB is the time barred from calling the same ident after
ACK/ACKX/ACKV or any ident after a ACKT/ACKB.
\\It may be any value between 1 and
255 seconds.

--- TP
\TP is the maximum interval between periodic messages (within
speech items) to be assumed at switch-on.
\\It may be any value between 1 and 255
seconds.

--- TU
\DATA CALL TIME LIMIT may be any value between
0 and 180 in steps of 30 seconds.
\\0 means there is no time limit.

--- TW
\TW is the timeout for the radio unit waiting for a call.
\\It may
be any value between 1 and 255 seconds.

--- TI
\TI is the include timer.
\\It is the time to wait for a response
to an include request.
\\It may be any value between 1 and 255 seconds.
\\Note - Include calls cannot be setup with this radio.

--- Revalidation_Hunt
\REVALIDATION HUNT must be either 'Enabled' or 'Disabled'.
\\If REVALIDATION HUNT is 'Enabled',  a background check is carried out whilst the
radio unit is confirmed on a control channel and is in the idle state.  The
check takes place during discrete periods defined by REVALIDATION SAMPLING
INTERVAL.
\\This process ensures that the radio is assigned to a control channel which
provides an acceptable quality of service.

--- Revalidation_Sampling_Interval
\REVALIDATION SAMPLING INTERVAL defines the time interval between
REVALIDATION HUNT sequences when a radio is confirmed on a control channel and
is in the idle state.
\\The maximum REVALIDATION SAMPLING INTERVAL is 30
minutes.

--- Comprehensive_Hunt
\COMPREHENSIVE HUNT must be either 'Enabled' or 'Disabled'.
\\If
COMPREHENSIVE HUNT is 'Enabled', when a NORMAL HUNT SEQUENCE ends
unsuccessfully, the radio will search through all channels defined for the radio
(except those defined as NON APPLICABLE CHANNELS) attempting to acquire a
control channel.

--- Normal_Hunt_Channel_Number
\NORMAL HUNT CHANNELS define a list of channels which are
examined during a normal hunt sequence to see if they can be acquired as a
control channel.
\\This list may contain up to 32 channels,  which are commonly
used by the network as control channels.
\\There must be at least one channel
defined in the hunt list.
\\Acceptable channel values are any channel which is
between the lowest and highest channel defined for the network.

--- Normal_Hunt_Channel_Type
\The tests carried out on a prospective control channel defined
in a normal hunt sequence varies depending on whether the control channel is a
continuous or timeshared control channel.
\\NORMAL HUNT CHANNELS - TYPE
identifies each channel in the normal hunt list as either a prospective
'Continuous' or 'Timeshared' control channel.

--- Non_Applicable_Channel_From
\NON APPLICABLE CHANNELS defines channel range which are not
included in comprehensive hunt sequences.
\\Up to ten channel ranges may defined
in the NON APPLICABLE CHANNELS list.

--- Non_Applicable_Channel_To
\NON APPLICABLE CHANNELS defines channel ranges which are not
included in comprehensive hunt sequences.
\\Up to ten channel ranges may defined
in the NON APPLICABLE CHANNELS list.

--- Trunk_Chan_Block_Start
\TRUNKED CHANNEL BLOCKS define the operating frequency of all
channels in a network.
\\Each channel block must define a number of evenly spaced
channels.
\\Up to 30 blocks may be defined.
\\CHANNEL START indicates the start channel number for that block.  If it is not
the first block defined then the CHANNEL START value must be one greater than
the CHANNEL STOP value for the previously defined block.
\\The CHANNEL START for
the block defined first may be any value between 1 and 1023.
\\No CHANNEL START can be larger than 1023.

--- Trunk_Chan_Block_Stop
\TRUNKED CHANNEL BLOCKS define the operating frequency of all
channels in a network.
\\Each channel block must define a number of evenly spaced
channels.
\\Up to 100 blocks may be defined.
\\CHANNEL STOP indicates the stop channel number for that block.
  All CHANNEL STOPS must be greater than or equal to the CHANNEL START 
for that block.  
\\No CHANNEL STOP can be larger than 1023.'

--- Trunk_Chan_Block_Rx_Frequency
\TRUNKED CHANNEL BLOCKS define the operating frequency of all
channels in a network.
\\Each channel block must define a number of evenly spaced
channels.
\\Up to 30 blocks may be defined.
\\RX FREQUENCY must be a multiple of either 5KHz or 6.25KHz.
\\RX FREQUENCY defines the receive frequency for the first channel in the block.
All other channels in the block have their receive frequency calculated using RX
SPACING.
\\The first channel in a block always has the lowest frequency.
\\The frequency range for a block must not overlap with any other block's receive
frequencies.
\\The range of receive frequencies defined
for the block must be within the frequency range defined for the radio.

--- Trunk_Chan_Block_Rx_Spacing
\RX SPACING defines the spacing (in KHz) between receive channels
in a block.
\\RX SPACING must be a multiple of either 5 KHz or 6.25 KHz.

--- Trunk_Chan_Block_Tx_Frequency
\TRUNKED CHANNEL BLOCKS define the operating frequency of all
channels in a network.  Each channel block must define a number of evenly spaced
channels.
\\Up to 30 blocks may be defined.
\\TX FREQUENCY must be a multiple of either 5KHz or 6.25KHz.
\\TX FREQUENCY defines the transmit frequency for the first channel in the block.
All other channels in the block have their transmit frequency calculated using
TX SPACING.
\\The first channel in a block always has the lowest frequency.  The
frequency range for a block must not overlap with any other block's transmit frequencies.
\\The range of transmit frequencies defined
for the block must be within the frequency range defined for the radio.

--- Trunk_Chan_Block_Tx_Spacing
\\TX SPACING defines the spacing (in KHz) between transmit
channels in a block.
\\TX SPACING must be a multiple of either 5 KHz or 6.25
KHz.

--- Trunk_Chan_Block_Tx_Power
\TX POWER defines the transmit power for all channels within a
block.
\\TX POWER must either be
\\'High' or
\'Low'.

--- Lookup_Table_Highest_No_In_Fleet
\The Look-up table is used to make 5 digit calls to units which
use a different prefix.
\\HIGHEST NUMBER IN FLEET defines the highest number that
may be called in a fleet.  The range of values which HIGHEST NUMBER IN FLEET
will accept depends on the FLEET TYPE.
\\If the FLEET TYPE is 'Individual'  then
the HIGHEST NUMBER IN FLEET  must be between  20 - 89 or 200 - 899.
\\If the
FLEET TYPE is 'Group' this field will accept a value between 90 - 99 or 900 -
998.
\\The value of FLEET NUMBER may reduce the upper value in these ranges.

--- Fleet_Individual_No
\FLEET INDIVIDUAL NUMBER is used to calculate the individual base
identity for a fleet.
\\This value is used with the OWN INDIVIDUAL NUMBER and
FLEET NUMBER PREFIX to uniquely identify the unit within the system.
\\FLEET INDIVIDUAL NUMBER must be between 2001 and 6050.

--- Highest_Individual_No_In_Fleet
\HIGHEST INDIVIDUAL NUMBER IN FLEET defines the highest
individual number that may be called by any unit within a fleet.
\\The range of values which HIGHEST INDIVIDUAL NUMBER IN FLEET will accept depends on the
DIALLING SCHEME (In Own Fleet Identity) adopted by the fleet.  If the DIALLING SCHEME is 'ZVEI'  then
the HIGHEST INDIVIDUAL NUMBER IN FLEET  must be between  20 - 79 or 200 - 799.
\\For any other DIALLING SCHEME, this field will accept a value between 20 - 89 or
200 - 899.
\\The value of FLEET INDIVIDUAL NUMBER may reduce the upper value in
these ranges.


--- Status_Number
\\This is the actual status value to be transmitted.

--- Status_Labels
\\If a status label is defined then the user can select 
the status value to send by picking the label from a list.  
\\Also the label will be displayed if an incoming caller's status value 
matches the value assigned to the label.
\
\A status label can be from 1 to 8 characters long and 
any combination of the characters 'A'..'Z', '0'..'9', or '-'.  Labels must 
be unique ie. one label cannot be the same as another.  

--- Bits_Per_Character
\\Enter the required data length of either 7 or 8 bits for the
Computer Controlled Interface Port communication.

--- Number_Of_Stop_Bits
\\Enter the required number of stop bits of either 1 or 2 bits for
the Computer Controlled Interface Port communication.

--- Parity_Type
\\Enter the required parity checking type for the Computer
Controlled Interface Port communication.  
\\This can be a selection of 'EVEN', 'ODD' or 'None'.

--- Handshaking_Mode
\\Enter the required handshaking type for the Computer Controlled
Interface Port communication.  
\\This can be either 'Software' Handshaking,
'Hardware' Handshaking or No handshaking.
\\The handshaking is a means of controlling data flow to/from the radio.

--- XON_Character
\\If using Software handshaking, enter the required hexadecimal
code for the XON character.

--- XOFF_Character
\\If using Software handshaking, enter the required hexadecimal
code for the XOFF character.

--- Baud_Rate
\\Enter the required baud rate for the Computer Controlled
Interface Port communication.

--- Preset_Call_String_Labels
\Preset call strings may be given an optional label. If a label is
assigned to a preset call string then the user can activate the call string
by entering or selecting the label.  Also the label will be displayed if
an incoming caller's identity matches the call string.
\
\A preset call string label can be from 1 to 8 characters long and any
combination of the characters A..Z, 0..9, or -. Labels must be unique ie.
one label can not be the same as another.  The characters in each of the
following groups are regarded as identical for the purpose of determining a
unique label.
\
\   1,Q,Z,-
\   2,A,B,C
\   3,D,E,F
\   4,G,H,I
\   5,J,K,L
\   6,M,N,O
\   7,P,R,S
\   8,T,U,V
\   9,W,X,Y
\   0
\
\   If a label is not required then leave this field blank.



--- Network_Name

--- Network_Enabled

--- Database_Number

--- ANN_Own_Individual_Number

--- ANN_Own_Group_Number

--- Cadence
\CADENCE controls how the alert operates.
\\The values that
CADENCE may take are 'Steady', 'Pulsed' or 'Ringing'.

--- Radio_Message_Language
\The radio is capable of displaying messages on the LCD in three languages.
\You have the option of French, German, and English.

--- Short_Data_Message
\This must be enabled for the radio to send or receive Short Data Messages.

--- TGI_Timer
\TGI is the Individual Incoming Short Data Timer. It defines the length
of time that the radio shall wait for further signalling, if it expects
any, during a short data call. If the TGI time lapses the short data
state machine is reset and future short data signalling is assumed to be
a new transaction.

--- TGG_Timer
\TGG is the Group Incoming Short Data Timer. It defines the length
of time that the radio shall wait for further signalling, if it expects
any, during a group short data call. If the TGG time lapses the short data
state machine is reset and future short data signalling is assumed to be
a new transaction.

--- Tait_Data_Protocol
\This must be enabled for the radio to send or receive data calls utilising
the internal modem and the Tait Data Protocol.

--- Number_Of_TDP_Retries
\The number of Tait Data Protocol retries is the number of times the radio
can attempt to re-send a failed Tait Data Protocol codeword to the called
party before clearing down the call.

--- TDP_Version_Number
\The Tait Data Protocol Version Number is the protocol version. A link
cannot be set up between two radios with different version numbers.

--- WAITACK_Timer
\This is the length of time the radio waits after it has sent a packet
requiring acknowledgement before it assumes that an acknowledge is not
forthcoming and re-sends the packet.

--- DCI_Timer
\This is the length of time the radio waits after the last activity (Rx/Tx)
before it sends an empty packet to retain the link.

--- AWAIT_Timer
\This is the length of time the radio waits after initiating a group call
before the first transmission. This is to ensure that all parties have
received the Go To Channel.

--- BWAIT_Timer
\This is the length of time the called radio shall wait for contact during call
setup before assuming that the channel has failed and clearing down
the call.

--- Lead_In_Tone
\This is the duration of the leader tone placed before all Tait Data Protocol
codewords. It is used to ensure that all repeaters are on and ready to receive
the codword.

--- SYND
\This defines the SYND sequence to be used by Tait Data Protocol codewords.
It is defined different to both SYNC and SYNT to make sure that the TSC
doesn't try to decode the Tait Data Protocol codewords.

--- ANN_Numbering_Model
\\ANN Numbering Model defines the length of string to be used for interfleet
numbers when the Nokia ANN Dialling Scheme is selected.
\\If 'Small' is selected then interfleet numbers contain 5 digits.
\\If 'Medium' is selected then interfleet numbers contain 6 digits.
\\If 'Large' is selected then interfleet numbers contain 7 digits.
\\If 'Extended Large' is selected then interfleet numbers contain either
7 or 8 digits.

--- Prefix_Start
\\Prefix Start is the first Prefix of the range to which the given values for
FPP and MEP apply.

--- Prefix_Stop
\\Prefix Stop is the last Prefix of the range to which the given values for
FPP and MEP apply.

--- FPP
\\FPP stands for Fleet Partitioning Parameter.
\\FPP is used when Nokia ANN is selected as ther numbering model to
define the fleet structure of a Prefix range.

--- MEP
\\MEP stands for Miniaturisation Extent Parameter.
\\MEP is used when Nokia ANN is selected as ther numbering model to
define the fleet structure of a Prefix range.

--- SYNC
\\The SYNC Sequence is the Control Channel Codeword synchronisation sequence
used by the trunking system.
\\MPT 1327 and MPT 1343 compliant trunking systems use 'C4D7' for the SYNC
sequence.

--- Vote_Now_Advice
\\Some trunking systems use the Vote Now Advice BCAST codeword to help
the radio find the best control channel.
\\Set this field to 'Enabled' to take advantage of this feature.

--- Vote_Now_Advice_Margin
\\The Vote Now Advice Margin is signal strength margin that a new control
channel must exceed the current control channel for the new channel
to be acquired by the radio when a Vote Now Advice BCAST is received.

--- ANN_Interfleet_Call_String
\\ANN Interfleet Party Definitions contain details of other fleets that
the radio is able to call when Interfleet Calls or Interfleet Group Calls
are disabled and the Nokia ANN dialling scheme is selected.  The user is
then limited to calling interfleet parties belonging to fleets defined on
this form.
\\Each number entered must be a valid Nokia ANN interfleet number with the
correct number of digits for the selected ANN Numbering Model.  The user may
then call any party within the group or individual fleet to which the
entered interfleet number belongs.
\\Before any numbers are entered, the ANN Numbering Model and ANN Fleet
Structure must have been entered on the Fleet Identity form.


--- Chassis_Board_Serial_Number

--- Configuration_Help
