Kenwood TKR-D710 Function Reference
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Kenwood TKR-D710 Function Reference

Kenwood TKR-D710 Function Reference

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TKR-D710/ TKR-D810
Function Reference (FUNC)
www.radiotronics.co.uk/kenwood
Version:
Last Updated:
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© 2017
2.50
August 7, 2017
English
E

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  • Page 1 TKR-D710/ TKR-D810 Function Reference (FUNC) www.radiotronics.co.uk/kenwood Version: 2.50 Last Updated: August 7, 2017 Language: English Type: © 2017...
  • Page 2 About this Manual This In-depth manual describes the functions of the TKR-D710/ TKR-D810 repeater. This document is created for the product having the following design specifications: Item Specifications How to Verify Market Code Printed on the label of the product.
  • Page 3 Abbreviations Used in this Document Abbreviations Used in this Document The following abbreviations are used in this in-depth manual. Refer to the abbreviation table below. Abbreviation Full Spelling or Meaning Auxiliary Color Code Channel COM port Communication port Carrier Operated Relay Continuous Wave degree(s) Digital Quiet Talk...
  • Page 4 A right to use the software described in this technical document and relevant in-depth manuals is granted to a licensee by JVC KENWOOD Corporation; however, the title to ownership for the software shall be owned by JVC KENWOOD Corporation. Refer to the help texts attached to this software for details.
  • Page 5 About Options to Use the Functions Described in This Document To use the functions described in this document, the following KENWOOD optional accessories need to be prepared on your own as necessary: •...
  • Page 6 How to Search for Information INDEX Clicking a function name, a title or a page number in the Index pages allows a jump to the corresponding page. Blue Characters in the Main Text Clicking a portion with blue characters in the main context allows a jump to the corresponding page. Blue Characters at the Bottom of Each Page Clicking a portion with blue characters located at the bottom of each page allows a jump to the first page of the contents or index.
  • Page 7 Revision History Revision History Date Description 1) Corrected each version information in “About this Manual”. 2) Changed the reference of “Assigning functions to the PF keys on the repeater” to “Edit > Key Assignment”. 3) Changed the descriptions of Receiving Conditions in “Table 4-8 Signaling Reset Timer (1 sec to 300 sec)”...

  • Page 8: Table Of Contents

    CONTENTS BASIC OPERATION ......10 About this Manual ...........i About Notations............i Turning the Repeater On/ Off ....10 Abbreviations Used in this Document ....ii Adjusting the Volume Level ..... 10 About Copyright ............ iii Changing the Channel ......10 Software Copyrights ........iii Receive ............
  • Page 9 CONTENTS SOUND..........26 DMR DIGITAL COMMUNICATION ..46 Tones that Sound When a User Operates About Own ID........... 46 the Repeater or When the Repeater Status About the Slot Number (Slot Selection) ... 46 Is Changed ..........26 Using Signaling ........46 Power-on Tone ..........
  • Page 10 CONTENTS Interval Activity Transmit......65 11.1 Communicating with a Repeater Connected by Using an IP Network CW ID Override ........66 (Intersite Call)......... 101 CW ID on Channel Change ......67 Behavior of the Transmitting Repeater 8.10 Encode with QT/DQT........67 (Intersite Call)..........102 8.11 CW ID Transmission Interruption....68 Behavior of the Receiving Repeater (Intersite Call)..........102...
  • Page 11 CONTENTS 13 MONITORING FUNCTION FOR POWER SUPPLY VOLTAGE (POWER SUPPLY MONITOR) ..124 13.1 Detecting the Reduced Voltage Status of the Repeater (Power Supply Lower Level) ...124 Warning by the AUX Output Port....124 14 PROTECTING DATA OF THE REPEATER BY A PASSWORD ..125 14.1 Password When Reading Configuration Data in a PC...

  • Page 12: Contents By Purpose

    Transmission/ Available Communication Modes Changing Transmission Power Reception TKR-D710/ TKR-D810 can be operated in The transmission power of the repeater can be repeater mode and analog communications and changed either to high power or low power. DMR digital communications can be done in the mode.
  • Page 13 CONTENTS BY PURPOSE Display/ Sound Contents Displayed on the LED Dis- Tones Used for the Repeater play Various tones sound from the repeater according to the operation of the repeater. The various statuses of the repeater are dis- played on the 7-segment LED display. 7-segment LED Tones that Sound When a User Operates the Repeater or When the Repeater Status Is...
  • Page 14 CONTENTS BY PURPOSE DMR Digital Com- Avoiding Interference with Other Making a Group Call Communications munication A user can call a group of target parties regis- tered as a call group, and initiate two-way voice If a channel to be used for the repeater to trans- communication.

  • Page 15: Outline Of This Repeater

    OUTLINE OF THIS REPEATER TKR-D710/ TKR-D810 is the VHF/UHF repeater to be used for business communications. TKR-D710/ TKR-D810 complies with communications using an analog signal and a DMR digital signal. GENERAL FEATURES GENERAL • 30 Channels (Maximum programming channel number) Models •...

  • Page 16: About Available Communication Modes

    ABOUT AVAILABLE COMMUNICATION MODES The repeater mode is available in TKR-D710/ TKR-D810. Repeater Mode This is the mode to relay the received signal by using the Repeat PTT control if the repeater receives a signal. This mode is used to allow subscriber units to communicate with each other via the repeater.

  • Page 17: About Communication Methods

    “DMR digital channel”. When the repeater transmits a DMR digital signal by using the PTT (microphone) switch, Unit ID (Own) is required. SU 1 TKR-D710/ TKR-D810 SU 2 (DMR Digital) SU 3 FUNC (E)/Ver 2.50...
  • Page 18 The repeater transmits an analog signal if the received signal is analog, and the repeater transmits a DMR digital signal if the received signal is a DMR digital signal. Analog Analog (Analog) (Analog) TKR-D710/ TKR-D810 (Mixed) DMR Digital DMR Digital (DMR Digital) (DMR Digital) When the repeater transmits by using the PTT (microphone) switch, the repeater transmits by using the communication method (Analog or DMR) configured in Transmit Mode.

  • Page 19: Functions And Panel Layout

    FUNCTIONS AND PANEL LAYOUT Front Panel Figure 1-1 Front Panel Speaker POWER LED Emits the received audio and alert tones. Power LED lights green while the power source is supplied to the repeater. TX LED PF Keys Lights while the repeater is transmitting. In other cases, this LED lights or flashes depending on the Pressing any PF key, the LED lights red and the status of the repeater.

  • Page 20: Rear Panel

    1 FUNCTIONS AND PANEL LAYOUT 1.2 Rear Panel Rear Panel Figure 1-2 Rear Panel TX OUT DC IN Connects a transmitting antenna. Connects DC 13.2 V power source. CONTROL I/O (D-Sub 25-pin Connector) N SYNC 1, 2 Connects an external device and an external Connects the repeater with KTI-5, an optional controller.

  • Page 21: 7-Segment Led

    1 FUNCTIONS AND PANEL LAYOUT 1.3 7-segment LED 7-segment LED The repeater displays alphanumeric characters and symbols by turning on or off 7-segment LEDs and a dot. All unlit All lit Figure 1-3 7-segment LED DTMF-E DTMF-F Figure 1-4 Displayable Alphanumeric Characters and Symbols Note •...
  • Page 22 1 FUNCTIONS AND PANEL LAYOUT 1.3 7-segment LED Table 1-1 LED Display Example Repeater Status LED Display Description Priority channel “ .1” “.” (dot) on the right side of the left digit lights. PC Programming Mode PC Test Mode “PC” PC Tuning Mode 115200 bps “P.G.”...

  • Page 23: Led

    1 FUNCTIONS AND PANEL LAYOUT 1.4 LED The repeater is equipped with the following LEDs which indicate the status of the repeater: • TX LED • BUSY LED • POWER LED • Key LED TX LED TX LED lights red while the repeater is in the following states: •...

  • Page 24: Getting Started

    GETTING STARTED When the repeater is turned on after the power source is attached to the repeater, the repeater starts up. To make the repeater ready for use, the configuration data needs to be created using KPG-174D and written to the repeater. Figure 2-1 KPG-174D Main Window By using KPG-174D, the channel data needs to be configured and then the parameters for various functions can be configured.

  • Page 25: Connecting The Repeater To A Pc

    2 GETTING STARTED 2.1 Connecting the Repeater to a PC Connecting the Repeater to a PC To write the configuration data to or read the configuration data from the repeater, the repeater and a PC with KPG- 174D installed need to be connected by using the KPG-46A/ KPG-46U/ KPG-46X programming cable. ...

  • Page 26: Writing The Configuration Data To The Repeater

    2 GETTING STARTED 2.2 Writing the Configuration Data to the Repeater Writing the Configuration Data to the Repeater Selecting “Write Data to the Repeater” from the Program pulldown menu in the main window of KPG-174D opens the Write Data to the Repeater dialog box. Clicking the “Write” button starts the writing of the configuration data. Figure 2-4 Write Data to the Repeater Dialog Box (Display Example When a COM Connection Is Established) Note When writing is executed with the Time Adjustment checkbox clicked on in the Write Data to the Repeater dialog box, the...

  • Page 27: Embedding A Message In The Repeater (Embedded Message)

    2 GETTING STARTED 2.4 Embedding a Message in the Repeater (Embedded Message) Embedding a Message in the Repeater (Embedded Message) The message can be written to the repeater by using KPG-174D. Embedded Message Embedded Message is the function to store a maximum of 64 alphanumeric characters in the repeater. Unique profiles of the repeater, such as a serial number and a file name of configuration data written to the repeater, can be stored in the repeater.

  • Page 28: Basic Operation

    BASIC OPERATION Turning the Repeater On/ Off Pressing the Power switch located on the front panel turns the repeater on. When the repeater is turned on, all LEDs on the front panel light for 1 sec. Although the LED turns off when 1 sec elapses and the channel name appears on the LED display, the displayed channel name blinks until PLL is stabilized.

  • Page 29: Receive

    3 BASIC OPERATION 3.4 Receive Receive The repeater waits to receive either an analog signal or a DMR digital signal depending on the configuration in Channel Type. Or, the repeater waits to receive both an analog signal and a DMR digital signal. (Refer to Configuring the Reception Method of a Channel (Channel Type).)

  • Page 30: Configuring The Conditions For The Fan To Function (Fan Action)

    3.8 Configuring the Conditions for the Fan to Function (Fan Action) Configuring the Conditions for the Fan to Function (Fan Action) Fan Action is the function which activates the fan equipped on the rear panel of TKR-D710/ TKR-D810 depending on the status of the repeater.

  • Page 31: Transmission/ Reception/ Repeat

    Table 4-1 Transmit/ Receive Frequency Range and Step Size Transmit and Receive Frequencies Model Range In steps of 2.5 kHz/ 3.125 kHz/ 5 kHz/ TKR-D710 136 MHz to 174 MHz 6.25 kHz 3.125 kHz/ 5 kHz/ TKR-D810 400 MHz to 470 MHz 6.25 kHz...

  • Page 32: Channel Spacing

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.3 Channel Spacing Channel Spacing Channel Spacing is the channel spacing used by the repeater to transmit and receive. Channel spacing is the spacing of frequencies between adjacent channels. Channel Spacing (Analog) The following is the channel spacing applied when the repeater transmits and receives on an analog channel. The channel spacing can be configured for each channel by using KPG-174D.

  • Page 33: Configuring The Reception Method Of A Channel (Channel Type)

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.5 Configuring the Reception Method of a Channel (Channel Type) Configuring the Reception Method of a Channel (Channel Type) Channel Type is the reception type for each channel. The repeater can be configured to wait to receive either an analog signal or a DMR digital signal, or both types of signals.

  • Page 34: Configuring The Duration Of Transmission In The Received Mode (Signaling Reset Timer)

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.6 Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) Signaling Reset Timer is the length of time to transmit in the same communication method (either Analog or DMR) as the method for the received signal regardless of the configuration in Transmit Mode, if the repeater receives a signal on a mixed channel and the received signaling matches the signaling preconfigured for the repeater.
  • Page 35 4 TRANSMISSION/ RECEPTION/ REPEAT 4.6 Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) Communication Method for Receiving Conditions Transmit Mode Transmission Using the PTT (microphone) Switch If conditions 1) to 3) below are all satisfied: Analog Analog 1) The repeater has received a DMR digital signal for which the signaling received by the repeater and the signaling configured for...
  • Page 36 4 TRANSMISSION/ RECEPTION/ REPEAT 4.6 Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) If “Off” is configured in Signaling Reset Timer, the length of time is no longer restricted, and the repeater transmits by using the PTT (microphone) switch in the mode where the repeater previously received a signal. This condition is reset if a channel is changed, if the software is re-started, or if the repeater is turned off.

  • Page 37: Restricting The Continuous Transmission Time (Time-Out Timer (Tot))

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.7 Restricting the Continuous Transmission Time (Time-out Timer (TOT)) Restricting the Continuous Transmission Time (Time-out Timer (TOT)) Time-out Timer (TOT) is the function to restrict the continuous transmission time for the repeater. This function is used to prevent a user from occupying the repeater and the frequency when the repeater and the frequency are shared with other users.

  • Page 38: Tot Pre-Alert

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.7 Restricting the Continuous Transmission Time (Time-out Timer (TOT)) TOT Pre-alert TOT Pre-alert is the function to notify a user that the continuous transmission by Time-out Timer is about to end. The warning tone (TOT Pre-alert Tone (3 beeps)) sounds from the repeater before the transmission ends by Time- out Timer.

  • Page 39: Tot Reset Time

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.7 Restricting the Continuous Transmission Time (Time-out Timer (TOT)) TOT Reset Time TOT Reset Time is the length of time until the elapsed time for Time-out Timer is initialized and reset to zero. Example 1: Time-out Timer: 30 sec, TOT Reset Time: 10 sec Transceiver Transmit Receive...

  • Page 40: Toggling The Capability To Transmit By Using The Ptt (Microphone) Switch Between Enabled And Disabled (Local Tx Enable/Disable)

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.8 Toggling the Capability to Transmit by Using the PTT (microphone) Switch between Enabled and Disabled Toggling the Capability to Transmit by Using the PTT (microphone) Switch between Enabled and Disabled (Local TX Enable/Disable) Local TX Enable/Disable is the function to enable or disable the capability to transmit by using the PTT (microphone) switch.

  • Page 41: Toggling All Transmissions By Using Ptt Controls Between Enabled And Disabled (Tx Enable/Disable)

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.9 Toggling All Transmissions by Using PTT Controls Between Enabled and Disabled (TX Enable/Disable) Toggling All Transmissions by Using PTT Controls Between Enabled and Disabled (TX Enable/Disable) TX Enable/Disable is the function to enable or disable all transmission. If TX Disable is enabled, all transmissions by using the following PTT controls cannot be executed: •...

  • Page 42: Toggling Repeat Behaviors Between Enabled And Disabled (Repeat Enable/Disable)

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.10 Toggling Repeat Behaviors Between Enabled and Disabled (Repeat Enable/Disable) 4.10 Toggling Repeat Behaviors Between Enabled and Disabled (Repeat Enable/Disable) Repeat Enable/Disable is the function to enable or disable repeat behaviors. If Repeat Disable is enabled, the repeater does not repeat even if the repeater receives a signal which matches the signaling preconfigured for the repeater.

  • Page 43: Waiting To Receive On The Transmit Frequency (Standby On Transmit Frequency)

    4 TRANSMISSION/ RECEPTION/ REPEAT 4.12 Waiting to Receive on the Transmit Frequency (Standby on Transmit Frequency) 4.12 Waiting to Receive on the Transmit Frequency (Standby on Transmit Frequency) Standby on Transmit Frequency is the function to wait to receive on the transmit frequency configured for each channel while the repeater is in the standby mode.

  • Page 44: Sound

    SOUND Tones that Sound When a User Operates the Repeater or When the Repeater Status Is Changed The following are the tones used for the repeater: Table 5-1 Tone List Tone Description and Type Remarks 1 beep Power-on Tone Power-on Tone 1477 Hz (500 ms) 1 beep Key Press Tone (A)

  • Page 45: Power-On Tone

    5 SOUND 5.1 Tones that Sound When a User Operates the Repeater or When the Repeater Status Is Changed Power-on Tone Power-on Tone is the tone which sounds from the repeater when the repeater is turned on. The volume level of Power-on Tone can be configured by using KPG-174D. (Refer to Configuring the Volume Level of Each Tone (Tone Volume).)

  • Page 46: Configuring The Volume Level Of Each Tone (Tone Volume)

    5 SOUND 5.2 Configuring the Volume Level of Each Tone (Tone Volume) Configuring the Volume Level of Each Tone (Tone Volume) Tone Volume is the function to adjust the volume level of various tones. Depending on the usage environment of the repeater, the function can be used to change the volume level of a tone, and to disable a tone from sounding.

  • Page 47: Transmitting A Courtesy Tone After Transmission Ends (Courtesy Tone)

    5 SOUND 5.4 Transmitting a Courtesy Tone After Transmission Ends (Courtesy Tone) Transmitting a Courtesy Tone After Transmission Ends (Courtesy Tone) Courtesy Tone is the function for the repeater to transmit a courtesy tone when the transmission using the Repeat PTT control or PTT (microphone) switch ends.

  • Page 48: About Transmission Of A Courtesy Tone By Using The Repeat Ptt Control

    5 SOUND 5.4 Transmitting a Courtesy Tone After Transmission Ends (Courtesy Tone) About Transmission of a Courtesy Tone by Using the Repeat PTT Control A courtesy tone is transmitted when the transmission using the Repeat PTT control is finished after the length of time configured in Encode Pause Time elapses.

  • Page 49: Analog Communications

    ANALOG COMMUNICATIONS The repeater can communicate by transmitting and receiving analog signals on an analog channel. (Refer to ABOUT AVAILABLE COMMUNICATION MODES.) Using Signaling If the repeater receives an analog signal and the received QT tone or DQT code matches the QT tone or DQT code preconfigured for the repeater, the repeater starts the repeat behavior.

  • Page 50: Toggling The Qt/Dqt Decode Between Enabled And Disabled (Decode Signaling Enable/Disable)

    6 ANALOG COMMUNICATIONS 6.1 Using Signaling Toggling the QT/DQT Decode Between Enabled and Disabled (Decode Signaling Enable/Disable) Decode Signaling Enable/Disable is the function to enable or disable the QT/DQT decode. If Decode Signaling Disable is enabled, the repeater cannot decode QT/DQT. The QT/DQT decode can be toggled between enabled and disabled when a PF key is operated, when a signal is applied to an AUX Input port, or when the repeater is turned on.

  • Page 51: Preventing The Receiving Party From Emitting The Squelch Tail Noise When Transmission Ends (Squelch Tail Elimination)

    6 ANALOG COMMUNICATIONS 6.1 Using Signaling Preventing the Receiving Party from Emitting the Squelch Tail Noise When Transmission Ends (Squelch Tail Elimination) Squelch Tail Elimination is the function to prevent the speaker of the receiving party from emitting the squelch tail noise when transmission ends.

  • Page 52: Waiting To Receive By Multiple Signaling (Multiple Encode/Decode Table)

    6 ANALOG COMMUNICATIONS 6.1 Using Signaling Waiting to Receive by Multiple Signaling (Multiple Encode/Decode Table) Multiple Encode/Decode Table is the table configured with the Encode/Decode signaling type that the repeater waits to receive along with the Primary signaling (the QT tone or DQT code) configured for each channel. If this function is used, the repeater can wait to receive a maximum of 16 combinations of signaling (a combination of Primary + 15 combinations of Encode/Decode tones and codes).
  • Page 53 6 ANALOG COMMUNICATIONS 6.1 Using Signaling Encode Tone (Multiple) Encode Tone (Multiple) is the function to specify whether to encode the QT/DQT configured for the channel or the QT/DQT configured in Multiple Encode/Decode Table when transmitting by using the PTT (microphone) switch. The repeater can wait to receive multiple QT/DQT by using Multiple Encode/Decode Table.
  • Page 54 6 ANALOG COMMUNICATIONS 6.1 Using Signaling  Current If the repeater does not receive the QT/DQT configured in Multiple Encode/Decode Table when the repeater transmits by using the PTT (microphone) switch, the repeater encodes the QT/DQT configured for the channel. If the repeater receives the QT/DQT configured in Multiple Encode/Decode Table, the repeater encodes the QT/DQT corresponding to the received QT/DQT.

  • Page 55: Continuing Transmission For A Certain Length Of Time After Reception Stops (Repeater Hold Time)

    6 ANALOG COMMUNICATIONS 6.2 Continuing Transmission for a Certain Length of Time After Reception Stops (Repeater Hold Time) Continuing Transmission for a Certain Length of Time After Reception Stops (Repeater Hold Time) Repeater Hold Time is the length of time from when reception stops until the repeater terminates transmission using the Repeat PTT control while the repeater is transmitting the received signal using the Repeat PTT control.

  • Page 56: Temporarily Disabling The Squelch (Squelch Off)

    6 ANALOG COMMUNICATIONS 6.3 Temporarily Disabling the Squelch (Squelch Off) Temporarily Disabling the Squelch (Squelch Off) Squelch Off is the function to unmute the speaker. Enabling Squelch Off disables the signaling decode by QT/DQT, and the speaker is unmuted. Squelch Off can be toggled between enabled and disabled when a PF key is operated, when a signal is applied to an AUX Input port, or when the repeater is turned on.

  • Page 57: Temporarily Disabling The Signaling (Monitor)

    6 ANALOG COMMUNICATIONS 6.5 Temporarily Disabling the Signaling (Monitor) Temporarily Disabling the Signaling (Monitor) Monitor is the function to unmute the speaker if the level of the received signal is high, even if the received signaling (the QT tone or DQT code) does not match the signaling preconfigured for the repeater (the QT tone or DQT code). This function can be used to check in advance whether or not a channel to be used for transmission is already being used by other groups.

  • Page 58: Avoiding Interference With Other Communications (Busy Channel Lockout (Analog))

    6 ANALOG COMMUNICATIONS 6.6 Avoiding Interference with Other Communications (Busy Channel Lockout (Analog)) Avoiding Interference with Other Communications (Busy Channel Lockout (Analog)) Busy Channel Lockout (Analog) is the function to automatically restrict transmission in order to avoid interfering with the communications of other parties if the channel on which the repeater attempts to transmit using the PTT (microphone) switch is already used by another group.

  • Page 59: Unmuting The Speaker In Conjunction With The Microphone (Off-Hook Decode)

    6 ANALOG COMMUNICATIONS 6.7 Unmuting the Speaker in Conjunction with the Microphone (Off-hook Decode) Unmuting the Speaker in Conjunction with the Microphone (Off-hook Decode) Off-hook Decode is the function to decode the received signaling (the QT tone or the DQT code) in conjunction with the microphone on- or off-hook state.

  • Page 60: Dtmf Speed

    6 ANALOG COMMUNICATIONS 6.8 Sending and Receiving a DTMF Code DTMF Speed DTMF Speed is the speed to send out a DTMF code. Transmit speed of the DTMF code can be configured using the number digits to be sent per second. The repeater sends the DTMF code at the configured speed.

  • Page 61: First Digit Time

    6 ANALOG COMMUNICATIONS 6.8 Sending and Receiving a DTMF Code First Digit Time First Digit Time is the function to extend the length of time longer than ordinary from when the repeater starts transmitting a DTMF code until the first digit of the DTMF code is sent out. Extending the transmission time of the first digit of the DTMF code helps the receiving subscriber unit to easily recognize the incoming DTMF code in order to avoid failure in receiving the DTMF code while the subscriber unit is in the battery saver mode or scanning.

  • Page 62: And # Digit Time

    6 ANALOG COMMUNICATIONS 6.8 Sending and Receiving a DTMF Code * and # Digit Time * and # Digit Time is the function to extend the length of time longer than ordinary for the repeater to automatically send the * tone and # tone of the DTMF code. Since the * tone and # tone are more frequently used for special tasks than 0 to 9 tones, this function is used for the receiving subscriber unit to easily recognize the * tone and # tone.

  • Page 63: Encode/Decode List

    6 ANALOG COMMUNICATIONS 6.8 Sending and Receiving a DTMF Code Encode/Decode List Encode/Decode List is the list in which the DTMF codes for encoding and decoding used in Remote Control are configured. (Refer to CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL).) ...

  • Page 64: Dmr Digital Communication

    About the Slot Number (Slot Selection) In DMR, the repeater communicates using the predetermined slot according to the standard. When DMR digital transmission is initiated by using the PTT (microphone) switch, the repeater (TKR-D710/ TKR- D810) transmits using the slot configured in Slot Selection.

  • Page 65: Avoiding Interference With Other Communications (Busy Channel Lockout (Dmr))

    7 DMR DIGITAL COMMUNICATION 7.4 Avoiding Interference with Other Communications (Busy Channel Lockout (DMR)) Avoiding Interference with Other Communications (Busy Channel Lockout (DMR)) Busy Channel Lockout (DMR) is the function to automatically restrict transmission in order to avoid interfering with the communications of other parties if the channel on which the repeater attempts to transmit using the PTT (microphone) switch is already used by another group.

  • Page 66: Adjusting The Quality For Various Communications

    7 DMR DIGITAL COMMUNICATION 7.5 Adjusting the Quality for Various Communications Adjusting the Quality for Various Communications The following are the functions to adjust the quality for various communications in the DMR format: • Voice Channel Quality Threshold • Data Channel Quality Threshold •...

  • Page 67: Encrypted Channel Quality Threshold

    7 DMR DIGITAL COMMUNICATION 7.5 Adjusting the Quality for Various Communications Encrypted Channel Quality Threshold Encrypted Channel Quality Threshold is the function to adjust the quality for encrypted communications in the DMR format. The repeater executes error detection when the repeater receives an encrypted signal. If the errors of the received encrypted signal are more than the value configured in Encrypted Channel Quality Threshold, the repeater determines that the quality of the encrypted signal is low, and the repeater does not receive or repeat the encrypted signal.

  • Page 68: Continuing Transmission For A Certain Length Of Time After Various Transmissions End

    7 DMR DIGITAL COMMUNICATION 7.6 Continuing Transmission for a Certain Length of Time After Various Transmissions End Continuing Transmission for a Certain Length of Time After Various Transmissions End The following functions continue transmission for a certain length of time after various communications in the DMR format end: •...

  • Page 69: Data Hangtime

    7 DMR DIGITAL COMMUNICATION 7.6 Continuing Transmission for a Certain Length of Time After Various Transmissions End Data Hangtime Data Hangtime is the function that is used to retain a channel for a certain length of time after the repeater ends transmission of a data communication signal.

  • Page 70: Channel Hangtime (Dmr Channel)

    7 DMR DIGITAL COMMUNICATION 7.6 Continuing Transmission for a Certain Length of Time After Various Transmissions End Channel Hangtime (DMR Channel) Channel Hangtime (DMR Channel) is the function that is used to retain a channel for a certain length of time after the repeater ends transmission in the DMR format on a DMR digital channel.

  • Page 71: Making A Group Call

    7 DMR DIGITAL COMMUNICATION 7.7 Making a Group Call Making a Group Call By using Selcall on PTT, a Group Call can be made for the specified Group ID. Group Call can be used to establish group voice communications by initiating a call to a group. To make a Group Call, “Group Call”...

  • Page 72: Limiting The Ids For Repeat Transmission (User List (Group Id)/ User List (User Id))

    7 DMR DIGITAL COMMUNICATION 7.9 Limiting the IDs for Repeat Transmission (User List (Group ID)/ User List (User ID)) Limiting the IDs for Repeat Transmission (User List (Group ID)/ User List (User ID)) User List (Group ID) and User List (Unit ID) are the functions to restrict the IDs to be transmitted by using the Repeat PTT control on the DMR digital channels for which User List (Group ID) or User List (Unit ID) is enabled.

  • Page 73: Configuring The Group Ids Permitted For Repeat Transmission All At Once (Group Id Range)

    7 DMR DIGITAL COMMUNICATION 7.9 Limiting the IDs for Repeat Transmission (User List (Group ID)/ User List (User ID)) Configuring the Group IDs Permitted for Repeat Transmission All at Once (Group ID Range) Group ID Range is the list in which the multiple Group IDs permitted for repeat transmission on a DMR digital channel are configured all at once as a Range list.

  • Page 74: Configuring The Unit Ids Permitted For Repeat Transmission All At Once (Unit Id Range)

    7 DMR DIGITAL COMMUNICATION 7.9 Limiting the IDs for Repeat Transmission (User List (Group ID)/ User List (User ID)) Configuring the Unit IDs Permitted for Repeat Transmission All at Once (Unit ID Range) Unit ID Range is the list in which the multiple Unit IDs permitted for repeat transmission on a DMR digital channel are configured all at once as a Range list.

  • Page 75: Configuring User List To Be Enabled Or Disabled (User List (Group Id)/ User List (User Id))

    7 DMR DIGITAL COMMUNICATION 7.9 Limiting the IDs for Repeat Transmission (User List (Group ID)/ User List (User ID)) Configuring User List to Be Enabled or Disabled (User List (Group ID)/ User List (User ID)) Whether the configurations of User List (Group ID) and User List (Unit ID) are enabled or disabled can be configured for each channel by using KPG-174D.
  • Page 76 7 DMR DIGITAL COMMUNICATION 7.9 Limiting the IDs for Repeat Transmission (User List (Group ID)/ User List (User ID)) Figure 7-3 User List (Group ID)/ User List (Unit ID) Note If the Unit ID and Group ID to be used for a DMR digital signal call are not permitted for use, the call cannot be made because the repeater does not transmit the repeat transmission.

  • Page 77: Configuring The Conditions To Initiate An Intersite Call (Site Group)

    7 DMR DIGITAL COMMUNICATION 7.9 Limiting the IDs for Repeat Transmission (User List (Group ID)/ User List (User ID)) Configuring the Conditions to Initiate an Intersite Call (Site Group) Site Group is the function to determine how the repeater initiates an Intersite Call when a Group Call to the target Group ID is initiated or when an Individual Call to the target Unit ID is initiated.

  • Page 78: Interrupting Voice Communications From Subscriber Units Other Than The Calling Subscriber Unit (Call Interrupt)

    7 DMR DIGITAL COMMUNICATION 7.10 Interrupting Voice Communications from Subscriber Units Other than the Calling Subscriber Unit (Call Interrupt) 7.10 Interrupting Voice Communications from Subscriber Units Other than the Calling Subscriber Unit (Call Interrupt) Call Interrupt is the function to interrupt voice communications from subscriber units other than the calling subscriber unit by sending and receiving a message requesting Call Interrupt when the repeater repeats transmission.

  • Page 79: Cw Id

    CW ID CW ID is the function to automatically send the Morse code configured for a channel at certain time intervals. A CW ID can be sent by configuring a maximum of 32 alphanumeric characters and symbols. A CW ID can also be sent when a PF key is operated, when a signal is applied to an AUX Input port, or when the repeater is turned on.

  • Page 80: Cw Id

    8 CW ID 8.1 CW ID CW ID A Morse code containing a maximum of 32 characters can be configured. A single CW ID can be configured for each channel. Configuration using KPG-174D Configuring CW ID ( Edit > Channel Information > Channel Edit > CW ID) Transmit Interval Time Transmit Interval Time is the interval to send a CW ID.

  • Page 81: Transmit Delay Time

    8 CW ID 8.3 Transmit Delay Time Transmit Delay Time Transmit Delay Time is the length of time from when the repeater enters one of the following states until the repeater starts transmitting to send a CW ID: • When the Transmit Interval Time elapses •...

  • Page 82: Cw Modulation Delay Time

    8 CW ID 8.5 CW Modulation Delay Time CW Modulation Delay Time CW Modulation Delay Time is the length of time from when the repeater starts transmitting until the repeater starts sending a CW ID. During the period from when the repeater starts transmitting until the amount of time configured in CW Modulation Delay Time elapses, the repeater transmits an unmodulated signal.
  • Page 83 8 CW ID 8.7 Interval Activity Transmit Interval Activity Transmit Interval Activity Transmit is the function to control the intervals to send a CW ID. If this function is enabled, the repeater sends a CW ID after the amount of time configured in Transmit Interval Time elapses only if the repeater starts transmitting while the amount of time configured in Transmit Interval Time is counting down.
  • Page 84 8 CW ID 8.8 CW ID Override CW ID Override CW ID Override is the function to send a CW ID along with an audio signal even if the repeater is still transmitting when the amount of time configured in Transmit Interval Time elapses. If this function is enabled, the repeater sends the CW ID along with the audio signal even if the repeater is still transmitting when the amount of time configured in Transmit Interval Time elapses.
  • Page 85 8 CW ID 8.9 CW ID on Channel Change CW ID on Channel Change CW ID on Channel Change is the function to send a CW ID when the channel is changed. If this function is enabled, the repeater sends a CW ID when a channel is changed regardless of the configuration in Transmit Interval Time.
  • Page 86 8 CW ID 8.11 CW ID Transmission Interruption 8.11 CW ID Transmission Interruption If a DMR digital signal is received during the transmission of a CW ID, the transmission of a CW ID is suspended, and the received DMR digital signal is repeated. After the repeat transmission of the DMR digital signal ends, the signal of the CW ID is transmitted from the beginning.
  • Page 87 8 CW ID 8.11 CW ID Transmission Interruption Example of the behavior In the following example of the behavior, the behavior on a Mixed channel is assumed in order to describe the repeat behavior of a DMR digital signal and the repeat behavior of an analog signal. For transmission interruption of a CW ID, the type of signal received during the transmission of the CW ID (DMR digital signal or analog signal) is more important than the channel type.
  • Page 88 FUNCTION PORTS TKR-D710 and TKR-D810 are equipped with the following input and output ports to which functions can be assigned:  AUX Input/Output 1 to AUX Input/Output 6 Functions of AUX Input ports or AUX Output ports can be assigned to each AUX Input or Output ports. In addition, depending on the status of ports, the functions which changes a channel or signaling to be used can be assigned to AUX Input and Output ports.
  • Page 89 9 FUNCTION PORTS  15-pin Connector Figure 9-2 15-pin Connector Table 9-2 Input/Output Ports on the 15-pin Connector Pin Number Signal Name Signal Name Description Auxiliary output 1 (AO1) Output Auxiliary output 1 Auxiliary output 2 (AO2) Output Auxiliary output 2 Auxiliary output 3 (AO3) Output Auxiliary output 3...
  • Page 90 9 FUNCTION PORTS 9.1 Available Functions for the AUX Input/Output Ports Available Functions for the AUX Input/Output Ports One of the following functions can be assigned to the AUX Input/Output ports:  AUX Input The AUX Input port is assigned. ...
  • Page 91 9 FUNCTION PORTS 9.1 Available Functions for the AUX Input/Output Ports Table 9-4 Channel Select 2 H: High, L: Low Channel AUX Input/ Output 4 AUX Input/ Output 3 AUX Input/ Output 2 AUX Input/ Output 1 FUNC (E)/Ver 2.50 CONTENTS INDEX...
  • Page 92 9 FUNCTION PORTS 9.1 Available Functions for the AUX Input/Output Ports  Multiple Enc/Dec Table Select Multiple Encode/Decode Table to be used for analog communications can be selected when the voltage level of the AUX Input/Output port is high level or low level. (Refer to Waiting to Receive by Multiple Signaling (Multiple Encode/Decode Table).)
  • Page 93 9 FUNCTION PORTS 9.2 Available Functions for the AUX Input Ports Available Functions for the AUX Input Ports The following functions can be assigned to the AUX Input ports. Three functions (1st, 2nd and 3rd) can be assigned to an AUX Input port. If a signal input to the AUX Input port is detected, each configured function is activated or enabled.
  • Page 94 9 FUNCTION PORTS 9.2 Available Functions for the AUX Input Ports Function Name Description Remarks Channel 1 to Channel 30 Migrates to the corresponding channel. Channel Down Decreases the channel number in steps of 1. Channel Up Increases the channel number in steps of 1. CW ID On Sends a CW ID.
  • Page 95 9 FUNCTION PORTS 9.2 Available Functions for the AUX Input Ports Function Name Description Remarks • Refer to Toggling the Capability to Transmit by Using the PTT (microphone) Switch between Enabled and Disabled (Local TX Enable/ Enables or disables the capability to transmit by using Disable).
  • Page 96 9 FUNCTION PORTS 9.2 Available Functions for the AUX Input Ports Function Name Description Remarks Disables the signaling decode with the QT tone or DQT code. “None” is considered to be configured in QT/DQT Decode when receiving even on a channel with the QT Decode Signaling Disable tone or DQT code configured.
  • Page 97 9 FUNCTION PORTS 9.2 Available Functions for the AUX Input Ports Function Name Description Remarks Disables the capability to transmit the received signal by using the Repeat PTT control. Repeat Disable If “Level” is configured in AUX Input Trigger, the AUX Input port enters the “Repeat Enable”...
  • Page 98 9 FUNCTION PORTS 9.2 Available Functions for the AUX Input Ports Function Name Description Remarks • Refer to Transmitting a Test Tone during Transmission (Test Tone). • This function can be assigned only if Test Tone On/Off Starts or stops transmitting a test tone. “Trailing Edge”...
  • Page 99 9 FUNCTION PORTS 9.2 Available Functions for the AUX Input Ports Trigger Detection at the AUX Input Port (AUX Input Trigger) AUX Input Trigger is the detection method for the signal input to the AUX Input port. According to the configuration in AUX Input Trigger, the repeater behaves as follows: Table 9-7 AUX Input Trigger Configuration Description...
  • Page 100 9 FUNCTION PORTS 9.3 Available Functions for AUX Output Ports Available Functions for AUX Output Ports The following functions can be assigned to the AUX Output port. If the function assigned to the AUX Output port is enabled, the output port becomes active. Table 9-8 Available Functions for AUX Output Ports Function Name Description...
  • Page 101 9 FUNCTION PORTS 9.3 Available Functions for AUX Output Ports Function Name Description Remarks The following are the repeater behaviors that may vary depending on the configuration in Channel Type:  Analog If the repeater receives an analog signal and the received QT tone or DQT code matches the QT tone or DQT code preconfigured for the repeater, the output port becomes active.
  • Page 102 9 FUNCTION PORTS 9.3 Available Functions for AUX Output Ports Configuring the Logic for the AUX Output Ports (Logic Type) Logic Type is the logic to activate or deactivate the AUX Output ports. According to the configuration in Logic Type, the repeater behaves as below: Table 9-9 Logic Type Configuration Description...
  • Page 103 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) Remote Control is the function to control the functions assigned to PF keys or AUX ports by using an Air Remote code. Air Remote code is a series of DTMF codes preconfigured for the repeater for control. (Refer to Sending and Receiving a DTMF Code.)
  • Page 104 Example of the repeater behavior The example of the behavior when the configuration is as follows: Function (PF 1 key): Squelch On/Off Air Remote Code (Activation): 159D (Decode) Air Remote Code (159D) TKR-D710/ TKR-D810 Transpond Squelch On TKR-D710/ TKR-D810 Figure 10-1 Activation (PF Key) The Air Remote code to be used can be configured by selecting the Air Remote code from Encode/Decode List of DTMF.
  • Page 105 The example of the behavior when the configuration is as follows: Function (PF 1 key): Squelch On/Off Air Remote Code (Deactivation): 160D (Decode) Air Remote Code (160D) Squelch On TKR-D710/ TKR-D810 Transpond Squelch Off TKR-D710/ TKR-D810 Figure 10-2 Deactivation (PF Key) The Air Remote code to be used can be configured by selecting the Air Remote code from Encode/Decode List of DTMF.
  • Page 106 10 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) 10.1 Controlling the Functions Assigned to the PF Keys Sending a Transpond Code (PF Key) Transponder (PF Key) is the function that notifies the transmitting subscriber unit that the repeater has received an Air Remote code by sending a Transpond code, when the repeater receives an Air Remote code and then the functions assigned to the PF keys become active or inactive, or enabled or disabled.
  • Page 107 The example of the behavior when the configuration is as follows: Function (AUX Input 1: 1st): Squelch On Air Remote Code (Activation): 159D (Decode) Air Remote Code (159D) TKR-D710/ TKR-D810 Transpond Squelch On TKR-D710/ TKR-D810 Figure 10-3 Activation (AUX Input) 1 If functions are configured in 2nd and 3rd of AUX Input 1, only the function configured in 1st works.
  • Page 108 Air Remote Code (159D) The AUX Input 1 port becomes active. TKR-D710/ TKR-D810 Figure 10-4 Activation (AUX Input) 2 The Air Remote code to be used can be configured by selecting the Air Remote code from Encode/Decode List of DTMF. (Refer to Encode/Decode List.)
  • Page 109 The example of the behavior when the configuration is as follows: Function (AUX Input 1: 1st): Squelch On Air Remote Code (Deactivation): 160D (Decode) Air Remote Code (160D) Squelch On TKR-D710/ TKR-D810 Transpond Squelch Off TKR-D710/ TKR-D810 Figure 10-5 Deactivation (AUX Input) 1 If the repeater receives the Air Remote code (160D) while the squelch is disabled, the repeater status does not change.
  • Page 110 Air Remote Code (160D) The AUX Input 1 port becomes inactive. TKR-D710/ TKR-D810 Figure 10-6 Deactivation (AUX Input) 2 The Air Remote code to be used can be configured by selecting the Air Remote code from Encode/Decode List of DTMF. (Refer to Encode/Decode List.)
  • Page 111 10 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) 10.2 Controlling the Functions Assigned to the AUX Input Ports Sending a Transpond Code (AUX Input) Transponder (AUX Input) is the function to notify the transmitting subscriber unit that the repeater has received an Air Remote code by sending a Transpond code when the repeater receives the Air Remote code, and then the functions assigned to AUX Input ports become active or inactive, or enabled or disabled.
  • Page 112 The repeater receives a signal and then the AUX Output 1 port becomes active. TKR-D710/ TKR-D810 Figure 10-7 Activation (AUX Output) 1 The Air Remote code to be used can be configured by selecting the Air Remote code from Encode/Decode List of DTMF.
  • Page 113 Example of behavior 2 The example of the behavior when the configuration is as follows: Function (AUX Output 1): None Air Remote Code (Activation): 159D (Decode) Air Remote Code (159D) TKR-D710/ TKR-D810 Transpond The AUX Output 1 port becomes active. TKR-D710/ TKR-D810...
  • Page 114 The repeater receives no signal and then the AUX Output 1 port becomes inactive. TKR-D710/ TKR-D810 Figure 10-9 Deactivation (AUX Output) 1 The Air Remote code to be used can be configured by selecting the Air Remote code from Encode/Decode List of DTMF.
  • Page 115 Example of behavior 2 The example of the behavior when the configuration is as follows: Function (AUX Output 1): None Air Remote Code (Deactivation): 160D (Decode) Air Remote Code (160D) TKR-D710/ TKR-D810 Transpond The AUX Output 1 port becomes inactive. TKR-D710/ TKR-D810...
  • Page 116 10 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) 10.3 Controlling AUX Output Ports Sending a Transpond Code (AUX Output) Transponder (AUX Output) is the function to notify the transmitting subscriber unit that the repeater has received an Air Remote code by sending a Transpond code when the repeater receives the Air Remote code, and then the functions assigned to AUX Output ports become active or inactive, or enabled or disabled.
  • Page 117 10 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) 10.3 Controlling AUX Output Ports About the configuration of Single Tone Single Tone is the function to send a Transpond code by using a single tone. If this function is enabled, the repeater sends a Transpond code by using a single tone. In this case, the frequency and the transmit duration of the single tone to be sent can be selected from Encode/Decode List of DTMF.
  • Page 118 10 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) 10.4 Accepting an Air Remote Code Only If the QT Tone or DQT Code Matches the QT Tone or DQT Code 10.4 Accepting an Air Remote Code Only If the QT Tone or DQT Code Matches the QT Tone or DQT Code Preconfigured for the Repeater (Remote Access with QT/DQT) Remote Access with QT/DQT is the function to accept an Air Remote code depending on the matching state of the QT tone or DQT code when the repeater receives an Air Remote code.
  • Page 119 IP network. Using this function, a subscriber unit can communicate with a distant subscriber unit via an IP network. The following figure shows a diagram of communications by using Intersite Call. IP Network KTI-5 KTI-5 TKR-D710/ TKR-D810 TKR-D710/ TKR-D810 SU A SU B SU C Figure 11-1 Intersite Call Connecting the repeaters with each other by using an IP network allows the subscriber unit A and subscriber unit C to communicate.
  • Page 120 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Note • Refer to the separate volume “KTI-5 Common Function Reference” for how to connect KTI-5 to a repeater or how to configure KTI-5.
  • Page 121 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) IP Casting IP Casting is the communication method used by the repeater to send and receive an Intersite Call by using the Conventional IP Network function.
  • Page 122 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Maximum Jitter Buffer Size Maximum Jitter Buffer Size is the maximum length of time to store the received packet data in the buffer memory when the receiving repeater receives an Intersite Call.
  • Page 123 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.2 Site Roaming 11.2 Site Roaming Site Roaming is the function to migrate automatically to the site (channel) providing better radio environment if a subscriber unit serves in the DMR digital communications. If a moving subscriber unit goes outside of the communication area, the subscriber unit can communicate via the repeater if there is an interconnected repeater by using an IP network in the location where the subscriber unit is used.
  • Page 124 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.2 Site Roaming Repeater Behavior (Site Roaming) Each of the interconnected repeaters by using an IP network transmits a beacon at certain time intervals. The period and intervals to transmit a beacon can be configured by using KPG-174D. (Refer to Duration, Transmit Interval Time.)
  • Page 125 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.2 Site Roaming According to the configuration for Host Repeater, the repeater behaves as follows: Table 11-2 Host Repeater Display Section Name In a Conventional IP Network system, the repeater always behaves as the Host Repeater Primary (Primary Host Repeater).
  • Page 126 Transmit Interval Time. For NXR-710/ NXR-810, Duration is included in Transmit Interval Time, but for TKR-D710/ TKR-D810, Duration is not included in Transmit Interval Time. Therefore for NXR-710/ NXR-810, the timing to start transmission of the beacon does not...
  • Page 127 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.3 Restricting Transmission to Avoid Interference with Other Communications (Cross-busy) 11.3 Restricting Transmission to Avoid Interference with Other Communications (Cross-busy) The repeater can restrict transmission in order to prevent the transmission from interfering with other communications if the channel is being used by another transceiver when the repeater transmits using the Repeat PTT control, Network PTT control or Console PTT control.
  • Page 128 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.3 Restricting Transmission to Avoid Interference with Other Communications (Cross-busy)  If transmission starts by using the Repeat PTT control or Network PTT control having a higher priority during transmission: Table 11-5 Cross-busy 3 The Behavior of the Repeat PTT Configuration for Cross-...
  • Page 129 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.4 Configuring the Target of an Intersite Call (Site Group Table) Avoiding Interference with Other Communications (Busy Channel Lockout (Cross-busy)) Busy Channel Lockout (Cross-busy) is the function used by the repeater to restrict transmission automatically in order to avoid interfering with communications if the channel on which the repeater attempts to transmit using the Network PTT control or Console PTT control is already used by other transceivers.
  • Page 130 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.5 About the Network Configuration 11.5 About the Network Configuration In order to use Conventional IP Network, the following functions associated with an IP network need to be configured for the repeater by using KPG-174D: •...
  • Page 131 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.5 About the Network Configuration Subnet Mask Subnet Mask is the subnet mask number of the repeater at own station. The subnet mask number provided by the network administrator must be configured in Subnet Mask. Configuration using KPG-174D Configuring Subnet Mask ( Edit >...
  • Page 132 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.6 Using IP Console 11.6 Using IP Console IP Console is the function that enables communication with the transceiver by connecting to the repeater from outside the wireless area by using IP Console Interface. To use this function, the Unit ID of the IP Console to be permitted to connect to the repeater needs to be configured in IP Console ID List.
  • Page 133 11 CONNECTING MULTIPLE REPEATERS BY USING AN IP NETWORK (CONVENTIONAL IP NETWORK) 11.6 Using IP Console Transmission Behavior of IP Console If the Console PTT control is enabled by receiving a call request from an IP Console and transmission is enabled, the repeater starts RF transmission of audio and data packets received from the IP Console, and the repeater transmits to other sites, according to the configuration of PTT Priority.
  • Page 134 MANAGING A REPEATER BY USING KTI-5 KTI-5 is an optional unit to manage a repeater via an IP network. By connecting to TKR-D710/ TKR-D810, the Conventional IP Network and IP Console functions become available. Also, configuration data can be read and written, and the firmware can be overwritten via an IP network.
  • Page 135 12 MANAGING A REPEATER BY USING KTI-5 12.2 Logging in to the Web Interface 12.2 Logging in to the Web Interface Connecting a PC and KTI-5 to the same network segment, and accessing the web interface on a web browser displays the login screen and a system administrator can log in.
  • Page 136 12 MANAGING A REPEATER BY USING KTI-5 12.3 Updating Firmware (Firmware Update) 12.3 Updating Firmware (Firmware Update) Firmware Update allows you to confirm the current firmware written in KTI-5 and repeaters, and to update the firmware of KTI-5 and repeaters. Executing firmware update stops the behavior of KTI-5, and overwrites the firmware.
  • Page 137 12 MANAGING A REPEATER BY USING KTI-5 12.3 Updating Firmware (Firmware Update) Click the “Update” button. Figure 12-5 Firmware Update The firmware is updated. When the firmware update completes, KTI-5 automatically logs out. FUNC (E)/Ver 2.50 CONTENTS INDEX...
  • Page 138 12 MANAGING A REPEATER BY USING KTI-5 12.3 Updating Firmware (Firmware Update) Confirm the update results. Logging in to the web interface again, the firmware update results of various connected repeaters can be confirmed in Result of Maintenance > System > Firmware Update. The display of Result is stored until the firmware is updated again.
  • Page 139 12 MANAGING A REPEATER BY USING KTI-5 12.4 Writing/ Reading Configuration Data 12.4 Writing/ Reading Configuration Data Configuration data can be written in the repeater and read from the repeater by using KTI-5 (KPG-1010DMR) via an IP network. Refer to “Writing and Reading Configuration Data (FPU Programming Mode)”...
  • Page 140 12 MANAGING A REPEATER BY USING KTI-5 12.5 Confirming the Behavior Status of the Host Repeater (Site Roaming Status) 12.5 Confirming the Behavior Status of the Host Repeater (Site Roaming Status) In Site Roaming Status, the behavior status of the Host Repeater configured in the Site Roaming structure can be confirmed.
  • Page 141 12 MANAGING A REPEATER BY USING KTI-5 12.5 Confirming the Behavior Status of the Host Repeater (Site Roaming Status) Item Description The behavior status of the repeater in Site Roaming can be confirmed. • Master: The repeater connected to KTI-5 transmits a beacon by the interval that combines Transmit Interval Time and Duration configured for the repeater after the repeater transmits a beacon synchronization notification to other repeaters via an IP network.
  • Page 142 MONITORING FUNCTION FOR POWER SUPPLY VOLTAGE (POWER SUPPLY MONITOR) Power Supply Monitor is the function to monitor the power supply voltage of the repeater and warn a user according to the voltage level that the voltage of the repeater is reduced. Using the AUX Output port warns a user that the voltage of the repeater is reduced.
  • Page 143 PROTECTING DATA OF THE REPEATER BY A PASSWORD The repeater is equipped with a password function for protecting the configuration data of the repeater. 14.1 Password When Reading Configuration Data in a PC (Read Authorization Password) Read Authorization Password is the function to protect the configuration data in the repeater and prevents the operating frequencies from being read by an unauthorized person if an unexpected situation occurs, such as when the repeater is stolen.
  • Page 144  Serial connection If a PC is connected to the repeater by using the KPG-46A, KPG-46U, or KPG-46X programming cable, the port connected to TKR-D710/ TKR-D810 needs to be specified after COM is configured in Communication Port by using KPG-174D.
  • Page 145 15 MODE 15.2 Overwriting Firmware (Firmware Programming Mode) 15.2 Overwriting Firmware (Firmware Programming Mode) Firmware Programming Mode is the mode to write the firmware to the repeater. While the repeater is in FPU Programming Mode, “P.G.” appears on the LED display. To place the repeater in Firmware Programming Mode, Firmware Programming needs to be enabled by using KPG-174D.
  • Page 146 APPENDIX Available Functions for the PF Keys The following functions can be assigned to the PF keys of the repeater: Table A-1 Available Functions for the PF Keys Function Name Description Remarks None No function is activated. • Refer to FUNCTION PORTS.
  • Page 147 A APPENDIX A.1 Available Functions for the PF Keys Function Name Description Remarks Enables or disables the signaling decode with the QT tone or DQT Monitor On/Off code. Refer to Temporarily Disabling the Signaling Disables the signaling decode with the QT tone or DQT code while the (Monitor).
  • Page 148 A APPENDIX A.2 Available Functions for Startup Available Functions for Startup Startup is the function to activate or enable the preconfigured functions when the repeater is turned on. A maximum of 3 different functions can be configured and the configured functions become activated or enabled in the order of 1st, 2nd and 3rd when the repeater is turned on.
  • Page 149 A APPENDIX A.2 Available Functions for Startup Function Name LCD Display Corresponding PF Keys Call Hangtime Disable Enables Call Hangtime. Refer to Continuing Call Hangtime Enable Disables Call Hangtime. Transmission for a Certain Channel Hangtime Enables Channel Hangtime (Mixed Channel) or Channel Hangtime Length of Time After Disable (DMR Channel).
  • Page 150 A APPENDIX A.2 Available Functions for Startup Function Name LCD Display Corresponding PF Keys Disables the signaling encode with the QT tone or DQT code. Refer to Toggling the QT/ Encode Signaling Disable Transmission is started with “None” configured in QT/DQT Decode DQT Encode Between even on a channel with the QT tone or DQT code configured.
  • Page 151 INDEX Avoiding Interference with Other Communications Symbols (Busy Channel Lockout (Cross-busy)) ....111 Avoiding Interference with Other Communications * and # Digit Time .............44 (Busy Channel Lockout (DMR)) ......47 Numerics 7-segment LED ............3 Basic Operation ............10 Beat Shift ..............25 Behavior of the Receiving Repeater (Intersite Call) ............
  • Page 152 INDEX Configuring the Transmission Mode (Transmit Mode) ............15 Configuring the Unit IDs Permitted for Repeat Transmission (Unit ID List) ........54 Embedded Message ..........9 Configuring the Unit IDs Permitted for Repeat Embedded Message with Password ......9 Transmission All at Once (Unit ID Range) ....56 Embedding a Message in the Repeater Configuring the Volume Level of Each Tone (Embedded Message) ..........
  • Page 153 INDEX Key LED ..............5 Reading the Configuration Data from the Repeater ..............8 KTI-5 Functions ............116 Rear Panel ..............2 Receive ..............11 Reception Behavior of IP Console ......115 Registration Behavior of IP Console ..... 114 Repeater Behavior (Site Roaming) ....... 106 LED ................5 Repeater Mode ............
  • Page 154 INDEX TOT Pre-alert ............20 Writing the Configuration Data to the Repeater ..8 TOT Rekey Time ............20 Writing/ Reading Configuration Data ..... 121 TOT Reset Time ............21 Transmission Behavior of IP Console ....115 Transmission Power (Transmit Power) ....13 Transmission/ Reception/ Repeat ......13 Transmit ..............11 Transmit and Receive Frequencies ......13 Transmit Delay Time ..........63...

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