Page 1 NXR-1700 NXR-1800 Function Reference (FUNC) Version: 2.00 Last Updated: July 19, 2023 Language: English Type: © 2023...
Page 2: Table Of Contents
CONTENTS CONTENTS ................................1 OUTLINE ................................5 About This Manual .............................. 5 Abbreviations Used in this Document ......................... 7 About Copyright ..............................8 Outline of This Repeater ............................. 9 General Features .............................. 10 About Options to Use the Functions Described in This Document ..............15 About HUB ................................
Page 3 Toggling the Capability to Transmit by Using the PTT (Test PTT) Control between Enabled and Disabled (Local TX Enable/Disable) ........................88 Toggling All Transmissions by Using PTT Controls Between Enabled and Disabled (TX Enable/Disable) ................................89 4.10 Toggling Repeat Behaviors Between Enabled and Disabled (Repeat Enable/Disable) ......89 4.11 Configuring the Threshold to Activate or Deactivate the RSSI Voltage Detection Function (Lowest Receive Level Threshold) ............................
Page 4 CW ID ................................. 133 CW ID ..............................133 Transmit Interval Time .......................... 134 Transmit Delay Time ..........................134 CW Speed ............................135 CW Modulation Delay Time ......................... 135 Audio Frequency ..........................136 Interval Activity Transmit ........................136 FUNCTION PORTS ..........................137 10.1 Available Functions for the AUX Input/Output Ports ................
Page 5 MODE ..............................205 17.1 Writing and Reading Configuration Data (FPU Programming Mode) ........... 205 17.2 Overwriting Firmware (Firmware Programming Mode) ................ 205 17.3 Testing or Adjusting the Transmit and Receive Capabilities of the Repeater (PC Test Mode) ..... 207 LOG ................................. 208 18.1 Communication Log ..........................
Page 6: Outline
USB-LAN adapter side. If the LED on the left side of the LAN connector of the NXR-1700/ NXR-1800 does not light up, it is assumed that the USB- LAN adapter corresponds to this.
Page 7 About the Notation of the Supported Models This manual describes the supported models according to the following rules: Model Name Band Type Frequency (RX/ TX) NXR-1700 136 MHz to 174 MHz 450 MHz to 520 MHz NXR-1800 400 MHz to 470 MHz FUNC (E)/ Ver 2.00...
Page 8: Abbreviations Used In This Document
OUTLINE / 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 Application Interface Specification (DMR Application Interface) Auxiliary Color Code Channel Carrier Operated Relay Continuous Wave...
Page 9: About Copyright
JVCKENWOOD Corporation. Furthermore, any reselling, assigning or transferring of the firmware is also strictly prohibited without embedding the firmware in KENWOOD product memories. Firmware is equipped with the AMBE+2™ voice encoding technology under license from Digital Voice Systems.
Page 10: Outline Of This Repeater
OUTLINE / Outline of This Repeater Outline of This Repeater NXR-1700/ NXR-1800 is the repeater for the use of professionals. The repeater is equipped with analog FM mode and digitally supports DMR Conventional mode (Tier2) and NXDN Conventional mode. NXR-1700/ NXR-1800 can be operated with the TKR-Dx10 series/ NXR-x10 series.
Page 11: General Features
OUTLINE / General Features General Features General  32 Channels (Maximum programming channel number) Models  VHF Models (136 MHz to 174 MHz) (Low: 1 W, High: 50 W) Power transmitter up to 50 W @ 50 % Duty, 25 W @ 100 % Duty cycle. Adjustable to 1 W. ...
Page 12 OUTLINE / General Features The function differences of NXR-1700/ NXR-1800 and TKR-Dx10/ NXR-x10 are as follows: Function Name Difference Analog NXDN Remark Mode Mode Mode Hot Standby ✔ ✔ ✔ IP Interface ✔ ✔ ✔ ✔ ✔ ✔ Embedded Message ✔...
Page 13 OUTLINE / General Features Function Name Difference Analog NXDN Remark Mode Mode Mode Decode Signaling ✔ ✔ None Enable/Disable Encode Signaling ✔ ✔ None Enable/Disable Squelch Tail Elimination ✔ None QT Reverse Burst ✔ None DQT Turn-off Code ✔ None Multiple Encode/Decode Table ✔...
Page 14 Interval Activity Transmit ✔ ✔ ✔ None AUX Input/Output ✔ ✔ ✔ AUX Input Monitor: External PTT (Channel 1 to Channel 32) NXR-1700/ NXR-1800: Using Web Tool Remote Control None ✔ ✔ ✔ TKR-Dx10: Using DTMF Remote Access Control ✔ ✔ ✔...
Page 15 ✔ None Communication Log ✔ ✔ ✔ System Log ✔ ✔ ✔ Diagnostic Data ✔ ✔ ✔ Test Console ✔ ✔ ✔ Multi Loader New: New item of NXR-1700/ NXR-1800 None: No difference Yes: With difference FUNC (E)/ Ver 2.00...
Page 16: About Options To Use The Functions Described In This Document
OUTLINE / About Options to Use the Functions Described in This Document 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 17 OUTLINE / About Options to Use the Functions Described in This Document 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.
Page 18: About Hub
OUTLINE / About HUB About HUB For the HUB connected to the repeater, we recommend the use of the following operation confirmed HUBs (as of June 2023): Manufacturer Model Number NETGEAR GS308 NETGEAR GS108T LINKSYS LGS108 TP-Link TL-SG108PE CISCO SF 100D-05 CISCO Catalyst Express 500 WS-CE500-24TT V03 CISCO...
Page 19: Revision History
OUTLINE / Revision History Revision History Date Description 2022.10.28 1) Changed the version information in “About This Manual”. 2) Added the description of when the repeater starts with an Unprogrammed error to “Menu List” of “1.3 OLED display”. 3) Changed the display of Table 1-20 “E001” from Unprogramming to Unprogrammed (a specification change).
Page 20: Contents By Purpose
OUTLINE / Contents by purpose Contents by purpose Repeater Operating Mode Using the Hot Standby function Configuring the Hot Standby function The Main and Sub repeaters are The precautions about the construction configured and the system is operated process for using the Hot Standby so as not to interrupt the system in the function is described.
Page 21 OUTLINE / Contents by purpose Restricting the Duration of Continuous Knowing about the SIP Phone Transmission of the Repeater Communication with a PABX or PSTN Configuring the available duration of SIP Phone, etc. can be performed by continuous transmission prevents the connecting the repeater to a SIP Phone repeater from occupying the frequency.
Page 22 OUTLINE / Contents by purpose Limiting the Repeating IDs Communicating with Multiple Repeaters Connected by Using an IP Network The GIDs and UIDs for repeat The communication area can be transmission can be limited. enlarged by interconnecting multiple repeaters installed in different locations by using an IP network.
Page 23 OUTLINE / Contents by purpose Security Using a Password to Protect the Configuration Data of the Repeater To prevent the configuration data of the repeater from being altered without the user's permission, or to prevent the configuration data written in the repeater from being diverted, a password can be set for the configuration data.
Page 24: Functions And Panel Layout
1 FUNCTIONS AND PANEL LAYOUT / 1.1 Front 1 FUNCTIONS AND PANEL LAYOUT Front (Image: Example showing all except the warning icon) ② Knob ③ LAN ① OLED display ④ USB ⑤ TX1 LED ⑥ TX2 LED ⑧ RX2 LED ⑨...
Page 25: Rear
1 FUNCTIONS AND PANEL LAYOUT / 1.2 Rear This is an Ethernet connection terminal with an RJ-45 connector. Normally, it is connected to a Hub and interfaces with the IP connection devices such as the communication between the repeaters and the communication to a console. It consists of 100 BASE-TX/10 BASE-T.
Page 26 1 FUNCTIONS AND PANEL LAYOUT / 1.2 Rear Table 1-3 Rear Name of Each Part Description DC IN Connects DC 13.2 V power source. ① ② TX OUT Connects a transmitting antenna or a duplexer. RX IN Connects a receiving antenna or a duplexer. ③...
Page 27 1 FUNCTIONS AND PANEL LAYOUT / 1.2 Rear The following are the functions of CONTROL I/O (D-Sub 25-pin Connector): Table 1-4 Functions of CONTROL I/O (D-Sub 25-pin Connector) Pin No. Terminal Name Function Not Used Pin 1 RSSI RSSI Voltage (Circuit change required) * RESET Reset Input (Circuit change required) * Pin 2...
Page 28: Oled Display
1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display OLED display NORMAL display screen This screen is displayed when the repeater starts up in the user mode. The status is indicated by an icon on the first line, and the icon position is fixed. The second line displays the information to identify the repeater.
Page 29 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Knob operation during Normal display If the Knob operation occurs during the Normal display, the Menu list is displayed. The Menu is displayed by operating the Knob even during transmission. The Menu operation can also be performed. List of the Menu layers and the Knob operation Level 1 Priority...
Page 30 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Push Hold of the Knob If the Knob is pressed for 500 ms or longer, Hold occurs. If it is less than 500 ms, Push occurs. A short cut to the Normal display becomes possible by Hold. Table 1-5 The Return Operation for Migration between Levels Display Category...
Page 31 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display The display during the change operation for the parameters of the items for which the parameter is changed by Push is explained. Example: When the parameter is changed from Repeat Enable to Repeat Disable When entering the Repeat Disable menu during Repeat Enable If Disable is selected by the Knob rotation, the background color inversion moves to Disable.
Page 32 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display The operations when editing Network Information are explained. When the Knob is pressed after Edit is selected in Network Information, the selection menu shown to the left is displayed. By pressing the Knob while Host IP Address is selected, migration to the Host IP Address edit screen occurs.
Page 33 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Subnet Mask edit screen Subnet Mask is configured in the range from 255.0.0.0 to 255.255.255.252. Because the 1st octet is fixed at 255, configuration is done in order from the 2nd octet. ・...
Page 34 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Icon List The following are the icons which are used on the OLED display: Table 1-7 Icon List Icon NORMAL / Function Remarks MENU NORMAL Electric field strength The electric field is displayed when RX is : Strong electric field received.
Page 35 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Menu List The following OLED display menus are available if the repeater starts in the user mode: Table 1-8 Menu List Layer Item Description Remarks Channel Number Displaying the channel number Read Only Channel Name Displaying the channel name...
Page 36 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Layer Item Description Remarks Volume Adjust Adjusting the received audio volume of Clockwise rotation: Up the headset Counterclockwise rotation: Down MIC Gain Adjusting the microphone gain of the Clockwise rotation: Up headset Counterclockwise rotation: Down...
Page 37 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Layer Item Description Remarks Exit Exit Returns to the previous Level. The background color inversion moves up if the Knob is rotated clockwise in Direction 1 (default), and the background color inversion moves down if the Knob is rotated clockwise in Direction 2. FUNC (E)/ Ver 2.00...
Page 38 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Only the following OLED display menus are available if the repeater starts with an Unprogrammed error: Table 1-9 Menu List (When an Unprogrammed Error Occurs) Layer Item Description Remarks Repeater Model Name Model name Read Only Information...
Page 39 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Control function that cannot be executed due to the status Test PTT Control If the status is TX Disable or Local TX Disable, or if the transmission by PTT with a higher priority than Test PTT is being executed, transmission cannot be done with Test PTT even if Test PTT is enabled.
Page 40 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Display List Table 1-10 Channel Name Display (Normal) Item Display Remarks (* is the character configured in Channel Name of the FPU) Channel Name In the Normal display, the icon is displayed in the upper row and Ch Name is displayed in the lower row. Table 1-11 Progress Status Display Item Display...
Page 41 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Table 1-16 Factory Reset Display Item Display Remarks Indication When entering the Factory Reset mode, Factory Reset is displayed in the lower row. Table 1-17 Display During Shut Down Item Display Remarks Power Off Shutting down is displayed in the lower row while shutting down by the Power Off operation in Menu.
Page 42 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Table 1-21 Error Display Item Display Remarks E001 Unprogrammed E002 USB Overcurrent E003 TX Freq Blank E004 ESN Blank E005 Firmware Error E006 Feature Error E007 Force FirmProg E008 DSP Error 1 E009 DSP Error 2 E102...
Page 43 For 136.006250MHz TX Frequency For 136.006250MHz When the TX frequency is not configured Operation Mode Repeater Information Firmware Version Model Name For NXR-1700 For NXR-1800 Market Code Serial Number For B1234567 NXDN ESN For 680100000001 Hot Standby Mode License Network Information For 172．16．0．65...
Page 44 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Item Display Remarks Hot Standby Status Displays only if VIP is Virtual IP Address enabled. Beacon Operating Status Synchronized Status Control Test PTT Control Volume Adjust Mic Gain Channel Select Slot Select Repeat Disable Take Over Monitor...
Page 45 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Item Display Remarks For Cancel. Displays by selecting Power Off, selecting Factory Reset. For Execute. Displays by selecting Power Off, selecting USB Port Recovery, and by Factory Reset. For Slot 1. Displays by selecting Slot Select.
Page 46 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Display priority The following is the display priority when the startup status is Level 3 (refer to Startup Status): Upper row: MENU display > Icon display Lower row: Progress Status display > MENU display > Error display > External PTT display > Normal display When migrating from the MENU display to the Normal display, External PTT is displayed if during transmission by External PTT.
Page 47 Description Display Screen Off Timer OLED Display Standby RF function, Knob function Standby display Enabled disabled Level3 NXR-1700 is activated. Normal display, etc. Enabled Level2 End of Feature Error ■■■■ confirmation NXR-1700 is activated. ■■■ Level1.5 (↑↓) Kernel is activated.
Page 48 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Other than the FPU data and the data configured by the Web Tool, the data retention range of the information that can be changed by the user operation is as follows: Table 1-26 Startup Status-3 Item Operation Target...
Page 49 1 FUNCTIONS AND PANEL LAYOUT / 1.3 OLED display Item Operation Target Action Local TX Web Tool Test Tone Web Tool Voting Tone Web Tool CW ID Web Tool AUX Output Control Web Tool Active Status Web Tool FUNC (E)/ Ver 2.00...
Page 50: Led
1 FUNCTIONS AND PANEL LAYOUT / 1.4 LED Table 1-27 LED Conditions Description Functions as follows during the DMR transmission: When communicating with the transceiver in Slot 1: TX1 LED lights red. When communicating with the transceiver in Slot 2: TX2 LED lights red. When the transmission is When communicating in both slots: TX1 LED and TX2 LED light red.
Page 51 1 FUNCTIONS AND PANEL LAYOUT / 1.4 LED RX1/ RX2 LED On an analog standby channel, the signal strength of the carrier by which RX1/RX2 LED lights varies with squelch control and squelch level. When squelch is off, RX1 LED always lights green. FUNC (E)/ Ver 2.00...
Page 52: Knob
1 FUNCTIONS AND PANEL LAYOUT / 1.5 KNOB KNOB Power On/Off The Power On/Off control is performed according to the Power Control configuration. Table 1-28 Configuration of Power Control Configuration Item Description Disable When energized at the rated voltage (13.2 V, the power supply voltage range DC 10.8 V to DC 15.6 V), the Power On behavior is performed automatically.
Page 53: Getting Started
2 GETTING STARTED / 2.1 Connecting the Repeater to a PC 2 GETTING STARTED Connecting the Repeater to a PC Communication security Writing the configuration data to the repeater and IP communications including Remote Monitor and Remote Control can be secured with encryption. Table 2-1 Details of Communications Usage Protocol...
Page 54: 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 Configuration items using the FPU The repeater can read data from and write data to the FPU via the IP. The following items can be configured by using the FPU: ・Channel Information ・Optional Feature ・Protocol Options...
Page 55 2 GETTING STARTED / 2.2 Writing the Configuration Data to the Repeater The following IP addresses are preset at the time of shipment from the factory:  IP Address: 192.168.0.1  Subnet Mask: 255.255.255.0  Default Gateway: 192.168.0.254 The default configuration of the user name and password of the Web Tool is as follows. Because the password is not configured under the default configuration, change the password after logging in to the Web Tool as required.
Page 56 2 GETTING STARTED / 2.2 Writing the Configuration Data to the Repeater Hot Standby needs to be enabled to use the redundancy function by a Main Repeater and a Sub Repeater. If Hot Standby is enabled, configure Hot Standby Mode for a Main Repeater or Sub Repeater, and configure a Virtual IP Address for either case.
Page 57 2 GETTING STARTED / 2.2 Writing the Configuration Data to the Repeater Time Setting The time of the repeater can be configured by Time Setting, which is a repeater Web Tool function. To reflect the Time Adjustment function by the FPU, the data needs to be written with Time Adjustment enabled. Table 2-3 Configuration of Time Setting Configuration Item Description...
Page 58: Reading The Configuration Data From The Repeater
2 GETTING STARTED / 2.3 Reading the Configuration Data from the Repeater Reading the Configuration Data from the Repeater Embedding a Message in the Repeater (Embedded Message) The message can be written to the repeater by using KPG-D7. Embedded Message Embedded Message is the function to store a maximum of 64 alphanumeric characters in the repeater.
Page 59: System Structure
2 GETTING STARTED / 2.4 System Structure System Structure Capacity Table 2-5 Capacity Item Analog Mode DMR Mode NXDN Mode Unit ID (UID) Range 1 to 16776415 1 to 65519 1 to 16776415, All, 1 to 65519, ALL, Group ID (GID) Range Unaddress Null Group ID The maximum number of Conventional IP...
Page 60 2 GETTING STARTED / 2.4 System Structure Analog Mode A digital protocol license (DMR license, NXDN license) is not required if NXR-1700/ NXR-1800 is used only on analog channels. The condition in which a digital protocol license is not assigned is called Analog Mode.
Page 61 Conventional IP Network of DMR Mode can be used in combination with TKR-Dx10 series. The following tables show the types of repeaters and the communication status for each Ch Type: Table 2-7 Supported Transmission of Conventional IP Network (Receiver NXR-1700/ NXR-1800) Receiver...
Page 62 1800 Analog Frame － *1 If NXR-1700/ NXR-1800 is used in a system structured with TKR-Dx10 series, NXR-1700/ NXR-1800 needs be programmed to match the functions of the TKR-Dx10 series. Note Repeater programming needs to be done by using the FPU dedicated to the repeater.
Page 63 2 GETTING STARTED / 2.4 System Structure Operation Mode Signaling Application IP Interface Protocol NXDN Mode NXDN Console NXIP Analog NXIP NXDN SIP Phone Analog Not supported Analog Mode Analog Console Voice Logger AIS Based RTP SIP Phone Not supported Note ・...
Page 64 2 GETTING STARTED / 2.4 System Structure Hot Standby Function The Switchover function with the Active state is supported by preparing a Main Repeater and a Sub Repeater. Switchover is the function to switch a Main Repeater and a Sub Repeater. Also, the status of the role of each repeater can be confirmed on the Web Tool.
Page 65 2 GETTING STARTED / 2.4 System Structure For details, refer to the status migration diagram below: Figure 2-4 Status Migration Diagram During Switchover, only the Virtual IP Address is taken over to another repeater. The following data are not taken over: ・Configuration data ・Logs ・Registration information of Console (if the IP Interface function is enabled)
Page 66 2 GETTING STARTED / 2.4 System Structure Table 2-11 Migrating to Standby State by Firmware Condition Meaning E008 DSP Error 1 E009 DSP Error 2 E202 Power Supply Voltage Error E204 RX PLL Unlock E205 TX PLL Unlock E206 Current Consumption (HPA) Error E207 Temperature (Drive Amp) Error E208...
Page 67 2 GETTING STARTED / 2.4 System Structure Steps to Construct Hot Standby (Example) This section describes the steps to construct the Hot Standby by using NXR-1700_A and NXR-1700_B. Figure 2-5 Construction Image NXR-1700_A (Site 1): Operated as 172.16.0.1 (IP Address) and Hot Standby (Main side). ・...
Page 68 2 GETTING STARTED / 2.4 System Structure 2 Configuring the FPU Virtual IP Address (Site 1) and IP Address (Site 2) of NXR-1700_C to which the Conventional IP Network is connected are configured in Unicast IP Address List for NXR-1700_A and NXR-1700_B. Configure Unicast IP Address List of NXR-1700_C in the same manner.
Page 69 Web Tool of NXR-1700_A, and switch NXR-1700_A (Main side) to HSB Active. ・ Also, if HSB LAN Error is displayed on any NXR-1700, confirm the network connections between NXR-1700_A and NXR-1700_B. OLED display > Error Information (for OLED display) Edit >...
Page 70 2 GETTING STARTED / 2.4 System Structure Hot Standby Recovery Procedure SW (Switching hub) failure Status: Main Repeater (Active)/ Sub Repeater (Standby) If the network device connecting a Main Repeater and a Sub Repeater fails, synchronization between a Main Repeater and a Sub Repeater cannot be established.
Page 71 2 GETTING STARTED / 2.4 System Structure Synchronization between a Main Repeater and a Sub Repeater is restored when the network device is replaced and the network connection between a Main Repeater and a Sub Repeater is restored. At this time, a Main Repeater migrates from Failsoft Mode to the Standby state.
Page 72 2 GETTING STARTED / 2.4 System Structure Figure 2-11 Repeater (Main) Recovery After a Main Repeater is replaced and the power is on, synchronization between a Main Repeater and a Sub Repeater is restored when the network connection between a Main Repeater and a Sub Repeater is restored. At this time, a Main Repeater migrates to the Standby state.
Page 73 2 GETTING STARTED / 2.4 System Structure Repeater failure (Sub Repeater) Status: Main Repeater (Active)/ Sub Repeater (Standby) If a Sub Repeater fails for any reason and is replaced, a Main Repeater cannot synchronize with the Sub Repeater. In this case, a Main Repeater migrates to Failsoft Mode. Figure 2-12 Repeater (Sub) Failure Repeater (Sub Repeater) recovery precautions Remove the failed Sub Repeater and perform the recovery procedure.
Page 74 2 GETTING STARTED / 2.4 System Structure After a Sub Repeater is replaced and the power is on, synchronization between a Main Repeater and a Sub Repeater is restored when the network connection between a Main Repeater and a Sub Repeater is restored. At this time, a Sub Repeater migrates to the Standby state.
Page 75 2 GETTING STARTED / 2.4 System Structure QoS Function QoS (Quality of Service) is the function to control the IP packet priority. By configuring a DSCP (Differentiated Services Code Point) value for the packets to be sent by the repeater, the packets including the packets to be sent by the repeater can be prioritized for a switch or router in the network.
Page 76: Basic Operation
3 BASIC OPERATION / 3.1 Turning the Repeater On/ Off 3 BASIC OPERATION Turning the Repeater On/ Off Pressing the Knob switch located on the front turns the repeater on. To turn the repeater on, Power Control needs to be enabled by the FPU. If Power Control is disabled, the repeater is automatically turned on by energizing the repeater.
Page 77: Configuring The Conditions For The Fan To Function (Fan Action)
3 BASIC OPERATION / 3.4 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 of NXR-1700 depending on the status of the repeater.
Page 78: Factory Reset
3 BASIC OPERATION / 3.7 Factory Reset Factory Reset The values of general configurations stored in the repeater, the Log information stored by the maintenance function, and the area used for data storage by the Field Support function (Web Tool) can be restored to the factory default state. Perform this operation if a User Name or User Password of the Administrator (Web Tool) or the Access Key of the Multi Loader has been lost, or if an IP Address of the repeater has been forgotten.
Page 79: Transmission/ Reception/ Repeat
Table 4-1 Transmit/ Receive Frequency Range and Step Size Model Transmit and Receive Frequencies Range In steps of NXR-1700 136 MHz to 174 MHz 2.5 kHz/ 3.125 kHz/ 5 kHz/ 6.25 kHz 450 MHz to 520 MHz NXR-1800 3.125 kHz/ 5 kHz/ 6.25 kHz...
Page 80: 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-D7.
Page 81: Configuring The Reception Method Of A Channel (Channel Type)
4 TRANSMISSION/ RECEPTION/ REPEAT / 4.5 Configuring the Reception Method of a Channel (Channel Type) PTT Priority is the priority order of these transmission methods. Multiple factors for transmission may overlap when the repeater is operated. In these cases, by switching to the signaling and modulated signal line that match a prioritized PTT, the repeater can switch to the PTT having higher priority when the repeater is transmitting using a PTT having lower priority.
Page 82: 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 Transmission Mode (Transmit Mode) Transmit Mode is the mode for transmission by using the PTT (Test PTT and External PTT) control on a channel with “Mixed”...
Page 83 4 TRANSMISSION/ RECEPTION/ REPEAT / 4.6 Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) Signaling Reset Timer starts counting down after reception has completed. This function can be used only if the repeater transmits by using the PTT (Test PTT and External PTT) control. The following are the communication methods on a mixed channel depending on the receiving conditions and the configuration in Transmit Mode: Table 4-7 Signaling Reset Timer (1 sec to 300 sec)
Page 84 4 TRANSMISSION/ RECEPTION/ REPEAT / 4.6 Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) Receiving Conditions Transmit Mode Communication Method for Transmission Using the PTT (Test PTT and External PTT) control 〇 If conditions 1) to 3) below are all satisfied: Analog Analog 1) The repeater has received a DMR digital signal or an NXDN digital...
Page 85 4 TRANSMISSION/ RECEPTION/ REPEAT / 4.6 Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) Receiving Conditions Transmit Mode Communication Method for Transmission Using the PTT (Test PTT and External PTT) control 2) The reception of the analog signal in 1) has been completed, and the DMR/ NXDN DMR/ NXDN length of time configured in Signaling Reset Timer elapses.
Page 86 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 (Test PTT and External PTT) control 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 87: Restricting The Continuous Transmission Time (Time-Out Timer (Tot))
4 TRANSMISSION/ RECEPTION/ REPEAT / 4.7 Restricting the Continuous Transmission Time (Time-out Timer (TOT)) Receiving Conditions Transmit Mode Communication Method for Transmission Using the PTT (Test PTT and External PTT) control 2) Currently, no signal is being received on the mixed channel used by DMR/ NXDN Analog the repeater for transmission.
Page 88 4 TRANSMISSION/ RECEPTION/ REPEAT / 4.7 Restricting the Continuous Transmission Time (Time-out Timer (TOT)) Configuration using KPG-D7 ・ Configuring Time-out Timer (TOT) of when PTT (Repeater PTT, External PTT, Network PTT, Console PTT, Test PTT) is used (Edit > Optional Features > Common Page 1 > 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.
Page 89: Toggling The Capability To Transmit By Using The Ptt (Test Ptt) Control Between Enabled And Disabled (Local Tx Enable/Disable)
4 TRANSMISSION/ RECEPTION/ REPEAT / 4.8 Toggling the Capability to Transmit by Using the PTT (Test PTT) Control between Enabled and Disabled (Local TX Enable/Disable) Toggling the Capability to Transmit by Using the PTT (Test PTT) Control 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 (Test PTT) control.
Page 90: 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 91: Configuring The Threshold To Activate Or Deactivate The Rssi Voltage Detection Function (Lowest Receive Level Threshold)
4 TRANSMISSION/ RECEPTION/ REPEAT / 4.11 Configuring the Threshold to Activate or Deactivate the RSSI Voltage Detection Function (Lowest Receive Level Threshold) 4.11 Configuring the Threshold to Activate or Deactivate the RSSI Voltage Detection Function (Lowest Receive Level Threshold) Lowest Receive Level Threshold is the reference RSSI level at which the repeater toggles the Receive Signal (Threshold) function assigned to an AUX Output port between activated and deactivated.
Page 92: 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 93: Operation Mode
4 TRANSMISSION/ RECEPTION/ REPEAT / 4.13 Operation Mode 4.13 Operation Mode Operation Mode is the function to select an operation mode for each channel. To use Operation Mode, Operation Mode needs to be configured. Figure 4-11 Configuration of Operation Mode Configuration Item Description Simplex...
Page 94 4 TRANSMISSION/ RECEPTION/ REPEAT / 4.13 Operation Mode Note ・ If the transmit frequency and receive frequency are the same, the Duplex behavior, Repeat behavior cannot be performed. If Channel Type is DMR and Mixed, Simplex and Duplex cannot be configured. ・...
Page 95: Take Over
4 TRANSMISSION/ RECEPTION/ REPEAT / 4.14 Take Over 4.14 Take Over Take Over is the function to disable control from an external device. If this function is enabled, control by the various functions for External Monitor, External PTT, AUX Input, and AUX Input/Output (Input only) is prohibited.
Page 96: Sound
5 SOUND / 5.1 Tones that Sound When a User Operates the Repeater or When the Repeater Status Is Changed 5 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...
Page 97: Transmitting A Courtesy Tone After Transmission Ends (Courtesy Tone)
5 SOUND / 5.3 Transmitting a Courtesy Tone After Transmission Ends (Courtesy Tone) To prevent being unable to reset Test Tone in the event of a network failure, Test Tone automatically reverts to be disabled upon a lapse of 10 minutes after changing from disabled to enabled. If 10 minutes have elapsed during transmission, Test Tone is disabled after the transmission is completed.
Page 98 5 SOUND / 5.3 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 99: Voting Pilot Tone
5 SOUND / 5.4 Voting Pilot Tone Voting Pilot Tone Voting Pilot Tone is the function to output a Voting Pilot Tone signal from the RA port while the repeater is receiving no signal. The repeater can be used as the receiver in the Voting System. The repeater always outputs a Voting Pilot Tone signal to the RA port while the repeater is not receiving a signal.
Page 100: Analog Communications
6 ANALOG COMMUNICATIONS / 6.1 Using Signaling 6 ANALOG COMMUNICATIONS The repeater can communicate by transmitting and receiving analog signals on an analog channel. 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 101 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. Note The QT/DQT decode cannot be toggled between enabled and disabled when transmitting using the Repeat PTT control.
Page 102 6 ANALOG COMMUNICATIONS / 6.1 Using Signaling DQT Turn-off Code DQT Turn-off Code is the function to prevent the speaker of the receiving party from emitting the squelch tail noise by sending the DQT turn-off code after transmission ends on the channel for which DQT Encode is configured. If a receiving subscriber unit receives the DQT turn-off code, the received audio signal is muted.
Page 103: 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 PTT control (Repeat/ Network/ Console) while the repeater is transmitting the received signal using the PTT control (Repeat/ Network/ Console).
Page 104: Adjusting The Reception Sensitivity Of The Repeater (Squelch Level)
6 ANALOG COMMUNICATIONS / 6.4 Adjusting the Reception Sensitivity of the Repeater (Squelch Level) Note  When the repeater is operated in the repeater mode, even if Squelch Off is enabled, the repeater does not transmit using the Repeat PTT control unless the received signaling (the QT tone or DQT code) matches the signaling preconfigured for the repeater (the QT tone or DQT code).
Page 105: 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, DQT code or RAN code) does not match the signaling preconfigured for the repeater (the QT tone, DQT code or RAN code).
Page 106: 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 Test PTT control is already used by another group.
Page 107: Using The Network By Using An Analog Gid
6 ANALOG COMMUNICATIONS / 6.7 Using the Network by Using an Analog GID Using the Network by Using an Analog GID Analog GID Analog GID is the function to output an audio packet to an IP Network when an Analog carrier is received by the repeater. By configuring this function, Analog audio ordinarily without an ID can be emitted to a Console and VLI via a Network.
Page 108 6 ANALOG COMMUNICATIONS / 6.7 Using the Network by Using an Analog GID Note ・ To output Analog audio to a Console, a valid Console configuration needs to be preconfigured in Console List. To record an Analog voice call in Voice Logger, configure as the Target GID a Group ID configured in Analog GID. ・...
Page 109: Dmr Digital Communications
7 DMR DIGITAL COMMUNICATIONS / 7.1 About Own ID 7 DMR DIGITAL COMMUNICATIONS DMR is a generic name for a digital communication system protocol utilizing 4-level FSK. The repeater can communicate by transmitting and receiving digital signals on a DMR digital channel. About Own ID To initiate various communications using DMR by using the Test PTT control, the Unit ID (Own) that is the identification code of the repeater needs to be configured for the repeater.
Page 110: Using Signaling
7 DMR DIGITAL COMMUNICATIONS / 7.3 Using Signaling Using Signaling If the repeater receives a DMR digital signal and the received Color Code matches the Color Code preconfigured for the repeater, the repeater starts the repeat behavior. Table 7-1 Transmission and Reception Behaviors of Color Code Repeater Behavior Description Reception...
Page 111 7 DMR DIGITAL COMMUNICATIONS / 7.3 Using Signaling On a channel for which the Multiple Encode/Decode Table to be used is specified, the signaling configured for the channel and the signaling configured in the Multiple Encode/Decode Table of the specified number are waited for. The signaling to be waited for is as follows according to Channel Type: Table 7-3 Multiple Encode/Decode Table (Channel Type) Configuration...
Page 112: Avoiding Interference With Other Communications (Busy Channel Lockout (Dmr))
7 DMR DIGITAL COMMUNICATIONS / 7.4 Avoiding Interference with Other Communications (Busy Channel Lockout (DMR)) If the same signaling is configured several times in the QT/DQT Decode column of Multiple Encode/Decode Table ・ (including Equivalent Code for DQT), and when this signaling is received, which of the several signaling configured in the QT/DQT Decode column matches cannot be determined.
Page 113 7 DMR DIGITAL COMMUNICATIONS / 7.4 Avoiding Interference with Other Communications (Busy Channel Lockout (DMR)) Note ・ Refer to “Avoiding Interference with Other Communications (Busy Channel Lockout (Analog))” for the behavior of the repeater in Busy Channel Lockout (Analog). Configuration using KPG-D7 Configuring Busy Channel Lockout (DMR) ( Edit >...
Page 114: Continuing Transmission For A Certain Length Of Time After Various Transmissions End
7 DMR DIGITAL COMMUNICATIONS / 7.5 Continuing Transmission for a Certain Length of Time After Various Transmissions End Continuing Transmission for a Certain Length of Time After Various Transmissions The following functions continue transmission for a certain length of time after various communications in the DMR format end: •...
Page 115 7 DMR DIGITAL COMMUNICATIONS / 7.5 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 116 7 DMR DIGITAL COMMUNICATIONS / 7.5 Continuing Transmission for a Certain Length of Time After Various Transmissions End Note ・ This function works on a channel with “Mixed” configured in Channel Type. (Refer to Configuring the Reception Method of a Channel (Channel Type).) While the Channel Hangtime (Mixed Channel) is counting down, the repeater does not start repeat transmission even if the...
Page 117 7 DMR DIGITAL COMMUNICATIONS / 7.5 Continuing Transmission for a Certain Length of Time After Various Transmissions End Note ・ This function works on a channel with “DMR” configured in Channel Type. (Refer to Configuring the Reception Method of a Channel (Channel Type).) While the Channel Hangtime (DMR Channel) is counting down, the repeater does not start repeat transmission even if the...
Page 118: Making A Group Call
7 DMR DIGITAL COMMUNICATIONS / 7.6 Making a Group Call Making a Group Call By using GID List, a Group Call can be made for the specified GID. Group Call can be used to establish group voice communications by initiating a call to a group. All subscriber units having the same GID can be called.
Page 119 7 DMR DIGITAL COMMUNICATIONS / 7.8 Limiting the IDs for Repeat Transmission (User List (GID)/ User List (UID)) Configuring the GIDs Permitted for Repeat Transmission (GID List) GID List is the list in which the GIDs permitted for repeat transmission on a digital channel are configured. The repeater repeats when receiving a call by the GID which is configured in GID List and for which “On”...
Page 120 7 DMR DIGITAL COMMUNICATIONS / 7.8 Limiting the IDs for Repeat Transmission (User List (GID)/ User List (UID)) Configuring the UIDs Permitted for Repeat Transmission (UID List) UID List is the list in which the UIDs permitted for repeat transmission on a digital channel are configured. The repeater repeats when receiving a call by the UID which is configured in UID List and for which “On”...
Page 121 7 DMR DIGITAL COMMUNICATIONS / 7.8 Limiting the IDs for Repeat Transmission (User List (GID)/ User List (UID)) Figure 7-3 GID Range List Note Enter the GID Range list from the GID Range (Min). If a GID is not entered in GID Range (Min), the GID Range (Max) ・...
Page 122 7 DMR DIGITAL COMMUNICATIONS / 7.8 Limiting the IDs for Repeat Transmission (User List (GID)/ User List (UID)) Configuring the UIDs Permitted for Repeat Transmission All at Once (UID Range) UID Range List is the list in which the multiple UIDs permitted for repeat transmission on a digital channel are configured all at once as a UID Range list.
Page 123 7 DMR DIGITAL COMMUNICATIONS / 7.8 Limiting the IDs for Repeat Transmission (User List (GID)/ User List (UID)) Configuring User List to Be Enabled or Disabled (User List (GID)/ User List (UID)) Whether the configurations of User List (GID) and User List (UID) are enabled or disabled can be configured for each channel by using KPG-D7.
Page 124 7 DMR DIGITAL COMMUNICATIONS / 7.8 Limiting the IDs for Repeat Transmission (User List (GID)/ User List (UID)) Figure 7-5 User List (GID)/ User List (UID) Note ・ If the UID and GID to be used for a digital signal call are not permitted for use, the call cannot be made because the repeater does not transmit the repeat transmission.
Page 125 7 DMR DIGITAL COMMUNICATIONS / 7.8 Limiting the IDs for Repeat Transmission (User List (GID)/ User List (UID)) Table 7-9 Site Group Configuration Description Selected Channel The repeater initiates the Intersite Call according to the Site List configured for the selected channel.
Page 126: Interrupting Voice Communications From Subscriber Units Other Than The Calling Subscriber Unit (Call Interrupt)
7 DMR DIGITAL COMMUNICATIONS / 7.9 Interrupting Voice Communications from Subscriber Units Other than the Calling Subscriber Unit (Call Interrupt) 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 127: Nxdn Digital Communications
To configure NXDN Mode, NXDN Conventional needs to be enabled in Product Information in the FPU. Figure 8-1 Product Information (NXDN Conventional) For Conventional IP Network in NXDN Mode, NXR-1700/ NXR-1800 is upward compatible with the NXR-x10 series by addition of Analog Frame support, etc.
Page 128 Analog Frame － ✖ ✖ If NXR-1700/ NXR-1800 is used in a system structured with the NXR-x10 series, NXR-1700/ NXR-1800 needs to be programmed to match the functions of the NXR-x10 series. Note  DMR Mode and NXDN Mode cannot be used in combination.
Page 129: Ran Encode/ Decode
8 NXDN DIGITAL COMMUNICATIONS / 8.2 RAN Encode/ Decode RAN Encode/ Decode Same as QT/ DQT, RAN (Radio Access Number) is also the function to mask unnecessary reception. RAN can be used for transmission and reception in the NXDN format. If transmission is performed on a channel with NXDN configured in Channel Type or a channel with NXDN configured in Transmit Mode, the RAN configured in RAN Encode is sent.
Page 130: Nxip Site Id
8 NXDN DIGITAL COMMUNICATIONS / 8.3 NXIP Site ID NXIP Site ID NXIP Site ID is the function for a system administrator to assign a Site ID to each repeater connected to a Conventional IP Network. This function is not directly related to communication between Conventional IP Network. NXIP Site ID is used for a multifunctional Console such as Zetron Max Console to identify and manage as equivalent to a site the repeater which participates in Conventional IP Network via NXIP.
Page 131: Avoiding Interference With Other Communications (Busy Channel Lockout (Nxdn))
8 NXDN DIGITAL COMMUNICATIONS / 8.4 Avoiding Interference with Other Communications (Busy Channel Lockout (NXDN)) Avoiding Interference with Other Communications (Busy Channel Lockout (NXDN)) Busy Channel Lockout (NXDN) 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 Test PTT control is already used by another group.
Page 132: Radio Access Control
8 NXDN DIGITAL COMMUNICATIONS / 8.5 Radio Access Control Radio Access Control Radio Access Control is the function which prevents an unauthorized transceiver from accessing the system. Access control is performed by the repeater verifying the transmission from the transceiver by using the Radio Access Control Key after a common Radio Access Control Key for authentication for the transceiver and the repeater is configured.
Page 133 The repeater for which Radio Access Control is configured and the existing NXDN Conventional repeater can be connected by ・ using a Conventional IP Network. However, access control by Radio Access Control is available for use by the NXR-1700/ NXR- 1800 repeater only.
Page 134: Cw Id
9 CW ID / 9.1 CW ID 9 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. CW ID can be enabled or disabled for each channel by using KPG-D7.
Page 135: Transmit Interval Time
9 CW ID / 9.2 Transmit Interval Time Configuration using KPG-D7 Configuring CW ID ( Edit > Channel Information > Channel Edit > CW ID > CW ID) ・ Transmit Interval Time Transmit Interval Time is the interval to send a CW ID. The repeater sends a CW ID repeatedly using the interval configured in Transmit Interval Time.
Page 136: Cw Speed
9 CW ID / 9.4 CW Speed Note  Transmit Delay Time is not applied when the repeater sends a CW ID by using the CW ID On function.  If “Off” is configured in Transmit Delay Time, the repeater immediately starts transmitting. Configuration using KPG-D7 Configuring Transmit Delay Time ( Edit >...
Page 137: Audio Frequency
9 CW ID / 9.6 Audio Frequency Audio Frequency Audio Frequency is the frequency used to send a CW ID. Configuration using KPG-D7 Configuring Audio Frequency ( Edit > Channel Information > Channel Edit > CW ID > Audio Frequency) ・...
Page 138: Function Ports
10 FUNCTION PORTS 10 FUNCTION PORTS NXR-1700 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 139: Available Functions For The Aux Input/Output Ports
10 FUNCTION PORTS / 10.1 Available Functions for the AUX Input/Output Ports Table 10-1 D-sub 25-pin Connector Pin Number Terminal Name Signal Name Description AUXI 1 Input Programmable Function Input 1 AUXI 2 Input Programmable Function Input 2 AUXI 3 Input Programmable Function Input 3 AO 1...
Page 140 10 FUNCTION PORTS / 10.2 Available Functions for the AUX Input Ports Function Name Description Remarks Repeat Enable Enables the capability to transmit the received signal Refer to Toggling Repeat Behaviors by using the Repeat PTT control. Between Enabled and Disabled The trigger is detected on the Level of the signal (Repeat Enable/Disable).
Page 141 10 FUNCTION PORTS / 10.2 Available Functions for the AUX Input Ports Function Name Description Remarks External PTT (Channel The repeater performs External PTT transmission 1) to External PTT after migrating to the specified channel while the port (Channel 32) is low level.
Page 142: Available Functions For Aux Output Ports
10 FUNCTION PORTS / 10.3 Available Functions for AUX Output Ports 10.3 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 10-3 Available Functions for AUX Output Ports Function Name Description...
Page 143 10 FUNCTION PORTS / 10.3 Available Functions for AUX Output Ports Function Name Description Remarks NXDN If the repeater receives an NXDN digital signal and the received RAN code matches the RAN code preconfigured for the repeater, the output port becomes active.
Page 144 10 FUNCTION PORTS / 10.3 Available Functions for AUX Output Ports Function Name Description Remarks The output port becomes active when the repeater transmits. The output port becomes inactive if the repeater exits transmit mode. RF Power Down Detection The output port becomes active if the transmission power is reduced.
Page 145 10 FUNCTION PORTS / 10.3 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 10-4 Logic Type Configuration Description...
Page 146: Controlling The Repeater By Remote Control (Remote Control)
11 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) / 11.1 Remote Control 11 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) Remote Control is the function to remotely control the repeater via Web by using the Web Tool. 11.1 Remote Control The repeater supports the Remote Control function via Web.
Page 147: Remote Access Control
11 CONTROLLING THE REPEATER BY REMOTE CONTROL (REMOTE CONTROL) / 11.2 Remote Access Control 11.2 Remote Access Control Remote Access Control is the function which permits or prohibits the connection to the repeater via a network. A users can prohibit the connection when a network connection is not needed. This allows the repeater to reduce the risk of unauthorized access by malicious users.
Page 148: Conventional Ip Network
12 CONVENTIONAL IP NETWORK / 12.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) 12 CONVENTIONAL IP NETWORK Conventional IP Network is the function in digital communications to enlarge the communication area by interconnecting multiple repeaters installed in different locations by using an IP network. Using this function, a subscriber unit can communicate (Intersite Call) with a distant subscriber unit via an IP network.
Page 149 12 CONVENTIONAL IP NETWORK / 12.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Also, the following configurations need to be done using KPG-D7. Configuring Site Group in Network Setting (configuration of Intersite Call destination) • Configuring the following configurations for each channel •...
Page 150 12 CONVENTIONAL IP NETWORK / 12.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Behavior of the Transmitting Repeater (Intersite Call) The repeater starts transmitting using the Repeat PTT control when the repeater receives a digital signal and an analog signal from a subscriber unit.
Page 151 12 CONVENTIONAL IP NETWORK / 12.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Behavior of the Receiving Repeater (Intersite Call) The repeater, which receives an Intersite Call from the repeater that is interconnected by using an IP network, sends the received signal by using the Network PTT control according to the configuration in PTT Priority.
Page 152 12 CONVENTIONAL IP NETWORK / 12.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Note ・ A maximum of 16 repeaters can be interconnected if Unicast communications are used. If Multicast communications are used, the number of repeaters that can be interconnected varies depending on the type of network devices, such as a router. ・...
Page 153 12 CONVENTIONAL IP NETWORK / 12.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Minimum Jitter Buffer Size Minimum Jitter Buffer Size is the minimum length of time to store the received packet data in the buffer memory when the receiving repeater receives an Intersite Call.
Page 154 12 CONVENTIONAL IP NETWORK / 12.1 Communicating with a Repeater Connected by Using an IP Network (Intersite Call) Network-wide Signaling Network-wide Signaling is the function to determine the behavior of the repeater which receives an Intersite Call when the repeater transmits using the Network PTT control. According to the configuration in Network-wide Signaling, the repeater which receives an Intersite Call behaves as follows: Table 12-2 Network-wide Signaling...
Page 155: Site Roaming
12 CONVENTIONAL IP NETWORK / 12.2 Site Roaming 12.2 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 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 156 12 CONVENTIONAL IP NETWORK / 12.2 Site Roaming Note ・ The repeater can only transmit a beacon on the channel configured as below: Channel Type: DMR or Mixed or NXDN In order to use Site Roaming, the function associated with Site Roaming also needs to be configured for a subscriber unit. ・...
Page 157 12 CONVENTIONAL IP NETWORK / 12.2 Site Roaming According to the configuration for Host Repeater, the repeater behaves as follows: Table 12-3 Host Repeater Display Section Name Primary In a Conventional IP Network system, the repeater always behaves as the Host Repeater (Primary Host Repeater).
Page 158 12 CONVENTIONAL IP NETWORK / 12.2 Site Roaming Display Section Name The behavior status is displayed in Beacon Operating Status. When the connection to the Primary Host Repeater or Secondary Host Repeater is established “Member” is displayed in Beacon Operating Status of WEB Tool > Home. ・...
Page 159 12 CONVENTIONAL IP NETWORK / 12.2 Site Roaming Note ・ From among the repeaters interconnected by using an IP network, configure one repeater as Primary and one repeater as Secondary respectively. To use this function, Beacon needs to be enabled, and the configurations related to Site Roaming need to be configured even ・...
Page 160 12 CONVENTIONAL IP NETWORK / 12.2 Site Roaming Duration is not included in Transmit Interval Time. Therefore a beacon is transmitted after Transmit Interval Time elapses after the repeat transmission, periodic beacon transmission based on when the repeater transmission ends is provided.
Page 161: Restricting Transmission To Avoid Interference With Other Communications (Cross-Busy)
12 CONVENTIONAL IP NETWORK / 12.3 Restricting Transmission to Avoid Interference with Other Communications (Cross-busy) 12.3 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, Console PTT control or SIP PTT control.
Page 162 12 CONVENTIONAL IP NETWORK / 12.3 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 12-6 Cross-busy 3 Configuration for The Status of Repeat Disable/ The Behavior of the Repeat PTT Cross-busy...
Page 163 12 CONVENTIONAL IP NETWORK / 12.3 Restricting Transmission to Avoid Interference with Other Communications (Cross-busy) 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 or attempts to transmit a Beacon is already used by other transceivers.
Page 164: Configuring The Target Of An Intersite Call (Site Group Table)
12 CONVENTIONAL IP NETWORK / 12.4 Configuring the Target of an Intersite Call (Site Group Table) 12.4 Configuring the Target of an Intersite Call (Site Group Table) Site Group Table is the table for which Multicast IP Address or Unicast Site List which are used as the target to make an Intersite Call is configured in addition to Multicast IP Address or Unicast Site List configured for each channel.
Page 165 12 CONVENTIONAL IP NETWORK / 12.5 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 Web Tool ...
Page 166: Using Console
12 CONVENTIONAL IP NETWORK / 12.6 Using Console 12.6 Using Console Console is the function that enables communication with the transceiver by connecting to the repeater from outside the wireless area by using Console Interface. To use this function, the Unit ID of the Console to be permitted to connect to the repeater needs to be configured in Console List.
Page 167 12 CONVENTIONAL IP NETWORK / 12.6 Using Console Transmission Behavior of Console If the Console PTT control is enabled by receiving a call request from a Console and transmission is enabled, the repeater starts RF transmission of audio and data packets received from the Console, and the repeater transmits to other sites, according to the configuration of PTT Priority.
Page 168: Sip Phone
12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone 12.7 SIP Phone Communication with a PSTN/ PABX SIP Phone, etc. can be performed by connecting the repeater to a SIP Phone Server. To connect the repeater and SIP Phone Server, license authorization is required. The repeater with the SIP Phone function enabled is connected to the SIP Phone Server by a SIP session and the audio is relayed.
Page 169 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Figure 12-3 SIP Phone (TLS Disabled) Figure 12-4 SIP Phone (TLS Enabled) By enabling IP Interface and SIP Phone, the SIP Phone function can be used. FUNC (E)/ Ver 2.00...
Page 170 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Figure 12-5 SIP Phone Server Figure 12-6 SIP User ID (DMR Mode) Figure 12-7 SIP User ID (NXDN Mode) Table 12-10 SIP Phone Configuration Description In SIP Phone Server Address / Port, the Address (IP Address or Name) and Port (the SIP SIP Phone Server receive port of a SIP Phone Server) of the SIP Phone Server to be the connection target Address / Port...
Page 171 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Configuration Description Enable TLS is the function to switch the session between a SIP Phone Server and the Enable TLS repeater to TLS. TLS is a mechanism which can use communications between various server clients using TCP/ IP as secure communication paths.
Page 172 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Configuration Description This timer is used to prevent a Phone Call from being held for overly long, such as when no response of audio packets from the transceiver or Console occurs for a certain period of time.
Page 173 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Configuration Description SIP User ID is the ID for SIP connection by the repeater to a SIP Phone Server. SIP User ID By using a configured SIP User ID, Registration to a SIP Phone Server is performed by the repeater.
Page 174 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Note ・ In DMR Mode, Phone Call communication from the transceiver can be made in 2 slots for each repeater. All Group Call and Unaddress Call are not supported for a call by a SIP Phone. ・...
Page 175 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Operation Method The operation method if Asterisk is used as the SIP Phone Server is explained. Table 12-11 Terms Terms Description SIP Phone ID A SIP Phone ID is an extension number configured for Asterisk. When a call request is received to a SIP Phone ID, Asterisk converts to the corresponding extension number or external number and initiates a call.
Page 176 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Item Description Busy Tone Selectable Selectable whether to sound according to the Asterisk “Busy” configuration Receive Operation The receive operation is performed by using a SIP Phone. Remarks The relationship of a SIP Phone ID and extension number is one-to-one. For DMR Mode (Paging Call) ...
Page 177 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Item Description For NXDN Mode  If both PSTN and PABX are used, allow whether the destination is PSTN or PABX to be distinguished, for example, by prefixing an external number with a certain code. In addition, Asterisk needs to be configured to use Asterisk to determine the destination and, if the destination is PSTN, to dial the specified external number.
Page 178 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Table 12-14 In the Case of a SIP Phone Call to PABX Item Description Transmit Operation SIP Phone dialing Entry: The desired number operation Destination DMR Mode: DMR ID NXDN Mode: NXDN ID ・...
Page 179 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Table 12-15 In the Case of a SIP Phone Call to PSTN Item Description Transmit Operation SIP Phone dialing Entry: PSTN Phone Number operation Destination DMR Mode: DMR ID NXDN Mode: NXDN ID ・...
Page 180 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Target SIP Phone ID In Target SIP Phone ID, the Voice Logger to be the destination of a recording of an Individual Call made from the transceiver by using a Paging Call to a SIP Phone can be configured. Table 12-16 Target SIP Phone ID Configuration Description...
Page 181 12 CONVENTIONAL IP NETWORK / 12.7 SIP Phone Configuration Description Voice Logger ID can be used only in DMR Mode.  The Voice Logger to record an Individual Call addressed to a SIP Phone is selected from Voice Logger List. The configuration is done by specifying the Voice Logger ID. ...
Page 182: Ip Remote Control Interface (Iprci)
12 CONVENTIONAL IP NETWORK / 12.8 IP Remote Control Interface (IPRCI) 12.8 IP Remote Control Interface (IPRCI) IP Remote Control Interface (IPRCI) is the function to enable the use of the commands which control the repeater itself via IP. Unit ID Output Unit ID Output is the function that can send the calling UID and destination ID of the received communication (voice) to the IPRCI Console.
Page 183 12 CONVENTIONAL IP NETWORK / 12.8 IP Remote Control Interface (IPRCI) The transmission behavior of Unit ID Output is the same behavior in Operation Mode for which a Console can be used. In DMR Mode, the match of the received CC is the required condition for the behavior of Unit ID Output. In NXDN Mode, the match of the received RAN is the required condition for the behavior of Unit ID Output.
Page 184: Managing Devices On An Ip Network (Snmp)
The following are the supported items for the KENWOOD proprietary MIB and the combination of information notification methods (Response, Trap). For the KENWOOD proprietary MIB, incorporate the MIB file included in the firmware data into SNMP Manager and confirm the file.
Page 185 13 MANAGING DEVICES ON AN IP NETWORK (SNMP) / 13.1 SNMP Table 13-1 Supported Items for the KENWOOD Proprietary MIB and the Combination of Information Notification Methods (Response, Trap) Genre 1 Genre 2 Control Item Description Respo Trap Channel Select...
Page 186 13 MANAGING DEVICES ON AN IP NETWORK (SNMP) / 13.1 SNMP Table 13-1 Supported Items for the KENWOOD Proprietary MIB and the Combination of Information Notification Methods (Response, Trap) Genre 1 Genre 2 Control Item Description Respo Trap TX Status...
Page 187 Configures whether to notify a Trap for each category of the General genre (Status, Control, Warning, Error). Among the categories shown in Genre 2 of Table “Supported Items for the KENWOOD Proprietary MIB and the Combination of Information Notification Methods (Response, Trap)”, the enabled control items (Trap column: Y) are notified as a Trap.
Page 188 13 MANAGING DEVICES ON AN IP NETWORK (SNMP) / 13.1 SNMP Configuration using KPG-D7 ・ Configuring SNMP Interface to be enabled or disabled ( Edit > SNMP Settings > SNMP Interface) Configuring Community Name ( Edit > SNMP Settings > Community Name) ・...
Page 189: Snmp Troubleshooting
Table 13-3 Supported Items of the Repeater in the Generic MIB Trap OID (Object Identifier) Name Description Trouble Shooting 1.3.6.1.6.3.1.1.5.1 coldStart Is output when NXR-1700/ NXR- If no user action is taken or 1800 reboots or recovers from a a power failure has not power failure. occurred, confirm the NXR-1700/ NXR-1800...
Page 190 13 MANAGING DEVICES ON AN IP NETWORK (SNMP) / 13.2 SNMP Troubleshooting The following table (proprietary MIB Trap) describes the KENWOOD proprietary MIB: Table 13-4 KENWOOD Proprietary MIB OID (Object Identifier) Name Description Trouble Shooting 1.3.6.1.4.1.46861.1.1.1.3.1.2 Hot Standby LAN Is output when the...
Page 191 13 MANAGING DEVICES ON AN IP NETWORK (SNMP) / 13.2 SNMP Troubleshooting OID (Object Identifier) Name Description Trouble Shooting 1.3.6.1.4.1.46861.1.1.2.1.8.2 Fan Error Detection Is output when the fan can Confirm the fan status. If a no longer spin. fan error cannot be confirmed, contact JVCKENWOOD sales company technical staff.
Page 192 13 MANAGING DEVICES ON AN IP NETWORK (SNMP) / 13.2 SNMP Troubleshooting OID (Object Identifier) Name Description Trouble Shooting 1.3.6.1.4.1.46861.1.1.2.5.6.2 Temperature (TX Is output when an error in Stop the repeater Block) Error the TX Block temperature is transmission and confirm if detected.
Page 193: Ip Interface Function
14 IP INTERFACE FUNCTION / 14.1 Console 14 IP INTERFACE FUNCTION 14.1 Console Console enables communication with the transceiver by connecting to the repeater from outside the wireless area by using Console Interface. The UID of a Console needs to be configured for connecting to the repeater. Also, the priority order to use the repeater can be configured for each configured Console.
Page 194 14 IP INTERFACE FUNCTION / 14.1 Console Use of the repeater is permitted if the repeater receives the Registration request from a Console and the UID of the Console matches the configured UID. By permitting use of the repeater, the transmission and reception of audio and data are enabled in the Console.
Page 195: Voice Logging
14 IP INTERFACE FUNCTION / 14.2 Voice Logging Configuration using KPG-D7 ・ Configuring IP Interface to be enabled or disabled ( Model > Product Information > IP Interface) Configuring Repeat Disable ( Edit > Function Port > AUX > AUX Input > Function) ・...
Page 196 14 IP INTERFACE FUNCTION / 14.2 Voice Logging Voice Logger List In Voice Logger List, a list of configured Voice Logger can be confirmed and each Voice Logger can be edited. Table 14-3 Voice Logging List Configuration Description Voice Logger ID A management number of Voice Logger configured in Voice Logger List can be confirmed.
Page 197 14 IP INTERFACE FUNCTION / 14.2 Voice Logging Configuration Description Maximum Number of The highest number of voice calls that are sent to Voice Logger is displayed. Talk Path The number of voice calls that are sent to Voice Logger is restricted by limiting the configured value of Maximum Number of Talk Path as the maximum value.
Page 198 14 IP INTERFACE FUNCTION / 14.2 Voice Logging Target UID In Target UID, a UID targeted for recording and the list of Voice Logger to be the destination of a recording can be confirmed, and a UID targeted for recording to each Voice Logger can be edited. Table 14-4 Target UID Configuration Description...
Page 199 14 IP INTERFACE FUNCTION / 14.2 Voice Logging Configuration Description  The Voice Logger to record an Individual Call is selected from Voice Logger List. The configuration is done by specifying the Voice Logger ID.  If Voice Logger ID is not configured, an Individual Call is not recorded to the Voice Logger. ...
Page 200 14 IP INTERFACE FUNCTION / 14.2 Voice Logging Configuration Description GID Range (Min- The minimum value and maximum value of the GID range targeted for recording are Max) configured. A GID in the range from GID Range (Min) to GID Range (Max) is a target for recording. GID Range (Min) This is the minimum value of GID targeted for recording.
Page 201: Power Supply Monitor
15 POWER SUPPLY MONITOR / 14.2 Voice Logging 15 POWER SUPPLY MONITOR Power Supply Monitor is the function to monitor the power supply 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 or transmitting a tone warns a user that the voltage of the repeater is reduced.
Page 202: Configuring The Threshold Value To Detect The Reduced Voltage Level (Power Supply Lower Level)
15 POWER SUPPLY MONITOR / 15.1 Configuring the Threshold Value to Detect the Reduced Voltage Level (Power Supply Lower Level) 15.1 Configuring the Threshold Value to Detect the Reduced Voltage Level (Power Supply Lower Level) Power Supply Lower Level is the threshold level of the voltage to detect that the voltage of the repeater is reduced and activate Power Supply Monitor.
Page 203: Warning By Warning Tone
15 POWER SUPPLY MONITOR / 15.3 Warning by Warning Tone 15.3 Warning by Warning Tone If Power Supply Monitor becomes active, transmitting a warning tone warns a user that the voltage of the repeater is reduced. A warning tone is transmitted for 5 sec upon lapse of 500 ms after Power Supply Monitor becomes active. The transmitted warning tone can be configured as desired.
Page 204: Warning By Operation Tone
15 POWER SUPPLY MONITOR / 15.4 Warning by Operation Tone 15.4 Warning by Operation Tone If Power Supply Monitor becomes active, transmitting an operation tone warns a user that the voltage of the repeater is reduced. An operation tone is transmitted at certain time intervals when the transmission is started by using the Repeat PTT, External PTT, or Test PTT control while Power Supply Monitor is active.
Page 205: Protecting Data Of The Repeater By A Password
16 PROTECTING DATA OF THE REPEATER BY A PASSWORD / 16.1 Password When Reading Configuration Data in a PC (Read Authorization Password) 16 PROTECTING DATA OF THE REPEATER BY A PASSWORD The repeater is equipped with a password function for protecting the configuration data of the repeater. 16.1 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...
Page 206: Mode
17 MODE / 17.1 Writing and Reading Configuration Data (FPU Programming Mode) 17 MODE The repeater has several modes: a mode for writing the configuration data to the repeater, a mode for reading the configuration data from the repeater to KPG-D7, a mode for updating the firmware, and a mode for testing transmit and receive characteristics of the repeater.
Page 207 17 MODE / 17.2 Overwriting Firmware (Firmware Programming Mode) When the system is reset due to power outage while updating firmware When the repeater turns off due to a power failure, etc., the performance of the appropriate measure in each case is recommended.
Page 208: Testing Or Adjusting The Transmit And Receive Capabilities Of The Repeater (Pc Test Mode)
17 MODE / 17.3 Testing or Adjusting the Transmit and Receive Capabilities of the Repeater (PC Test Mode) 17.3 Testing or Adjusting the Transmit and Receive Capabilities of the Repeater (PC Test Mode) PC Test Mode is the mode to test transmit and receive characteristics of the repeater by using KPG-D7. The repeater can be placed in PC Test Mode by operating KPG-D7 after connecting the repeater to a PC by using the network.
Page 209: Log
18 LOG / 18.1 Communication Log 18 LOG 18.1 Communication Log Communication Log is a recording of a voice call or data communication that occurs in a system. The communication log can be acquired in a CSV format file. A system administrator can acquire the communication log to check the details of communications.
Page 210: System Log
18 LOG / 18.2 System Log 18.2 System Log System Log is the record of changes in the status of the repeater, user operations, etc. The system log can be acquired in a CSV format file. A system administrator can acquire the system log to check the status of the repeater.
Page 211: Diagnostic Data
18 LOG / 18.3 Diagnostic Data 18.3 Diagnostic Data Diagnostic Data is the internal information (various logs, etc.) of the repeater. This information is intended for problem analysis in the event of failure and is used by the sales company and designers.
Page 212: Content Of Communication Log
18 LOG / 18.4 Content of Communication Log 18.4 Content of Communication Log This section describes details of the output from the repeater about the Communication Log which is output by the following names:  Database Name： mgw_comm_log.db  Table Name： comm_log ...
Page 213 18 LOG / 18.4 Content of Communication Log Column Name Description Range Destination DMR/ 0: Not used NXDN unique number called_id DMR: 1 to 16777215, Unaddress Call (16777199), All Call (16777215), PSTN (16776928), PABX (16776929) NXDN: 1 to 65519, Null Group Call (00000), All Call (65535), Phone (65525) "unused": None A maximum of 32 characters Telephone number...
Page 214: Content Of System Log
18 LOG / 18.5 Content of System Log 18.5 Content of System Log This section describes details of the output from the repeater about the System Log which is output by the following names:  Database Name： mgw_system_log.db  Table Name： system_log ...
Page 215: Test Console
19 TEST CONSOLE / 19.1 Description 19 TEST CONSOLE Test Console is the software used by a field engineer to conduct the trial voice communication. This repeater supports the downloading of test console via Web. The test console to be downloaded itself and its attached libraries, etc. need to be installed manually. The supported range of the test console is as follows: Table 19-1 Test Console Function...
Page 216: Starting And Exiting The Test Console
19 TEST CONSOLE / 19.3 Starting and Exiting the Test Console 19.3 Starting and Exiting the Test Console The TestConsole_DMR.exe (TestConsole_NXDN.exe) is executed. Figure 19-1 Main Window “PTT” : Sends audio. “Gear” : Performs the configuration. “i” : Displays the About window. 19.4 Configuring the Test Console (DMR Mode) (NXDN Mode)
Page 217 19 TEST CONSOLE / 19.4 Configuring the Test Console Console IP Address The IP address of the port recognized on the device where the application is executed is displayed by the dropdown list, and the IP address is selected. Default: If a PC has one IPv4 address: IP address of the PC If a PC has more than one IPv4 address: Blank (selected by using the dropdown list) Anything other than the above: Blank...
Page 218 19 TEST CONSOLE / 19.4 Configuring the Test Console Slot configuration (DMR Mode Only) A Slot for the trial voice communication is selected. “1” or “2” is selected. Default: 1 RAN Encode configuration (NXDN Mode Only) The RAN Encode used for transmission is configured. Default: The RAN Decode configuration of the channel selected in the downloading repeater Save button The configuration value is confirmed and the dialog box is closed by pressing the button.
Page 219: Operation Of The Test Console
19 TEST CONSOLE / 19.5 Operation of the Test Console 19.5 Operation of the Test Console Transmission A voice communication (transmission from the Test Console) with the specified Type/ID is performed by pressing the PTT button. During transmission, the destination ID (red) is displayed. During communication, the PTT button is in the communication state.
Page 220: Multi Loader
20 MULTI LOADER 20 MULTI LOADER Multi Loader is the application for writing the firmware to the repeater via an IP network. The Multi Loader runs on Windows. By using the Multi Loader, writing the firmware to multiple repeaters can be performed collectively. The contents configured about writing targets can be saved as a file, and the need for the entry of writing targets each time can be avoided by reading this file to the Multi Loader.
Page 221: About Connection
20 MULTI LOADER / 20.1 About Connection The basic specifications of the Multi Loader are as follows: Table 20-2 Basic Specifications of the Multi Loader Item Description Supported models Repeater Maximum number of writing Unicast 32 (16×2 Hot Standby) targets that can be configured Multicast not supported Open/Save Saves and reads the configuration files of the Multi Loader.
Page 222: How To Use
20 MULTI LOADER / 20.2 How to Use 20.2 How to Use A system administrator can write firmware to multiple repeaters by using the Multi Loader. In the Multi Loader, the timing of the firmware transfer and the timing of when the repeater starts up with the transferred firmware can be specified.
Page 223 20 MULTI LOADER / 20.3 Screen Specifications The contents about the items of the main screen are described below: Table 20-3 Configuration Items of the Main Screen Item Description Firmware The firmware configuration is performed. The version and file name of the selected firmware are displayed. Transfer The type of firmware transfer is configured and executed.
Page 224 20 MULTI LOADER / 20.3 Screen Specifications Access Key Configuration Screen The Access Key used for the SFTP authentication is configured. The configuration needs to be the same as the Access Key configured by using the Web Tool in the target repeater. Figure 20-3 Access Key Configuration Screen Access Key The Access Key of the desired value is configured.
Page 225 20 MULTI LOADER / 20.3 Screen Specifications File File is the function used to perform various operations of a saved IP Address file. Table 20-5 File Item Description In New, the IP Address, Target, and displayed information configured in Target List can be initialized. Open Open is used to read a saved IP Address file.
Page 226: Operation (From Startup To Firmware Conversion, Transfer, And Transfer Completion)
20 MULTI LOADER / 20.4 Operation (from Startup to Firmware Conversion, Transfer, and Transfer Completion) 20.4 Operation (from Startup to Firmware Conversion, Transfer, and Transfer Completion) If the Multi Loader is activated, the destination of when the Multi Loader is previously stopped is displayed. A system administrator can select the desired firmware.
Page 227 20 MULTI LOADER / 20.4 Operation (from Startup to Firmware Conversion, Transfer, and Transfer Completion) Also, when Transfer or Reactivation is executed, the result of the execution of Transfer or Reactivation can be displayed by Status Request. If the target repeater is waiting for Reactivation, updating and overwriting can be performed for the items of Reactivation Method.
Page 228 20 MULTI LOADER / 20.4 Operation (from Startup to Firmware Conversion, Transfer, and Transfer Completion) Reactivation Method Refer to the following table for the items of Reactivation Method: Table 20-8 Reactivation Method Item Description Auto Restart (*default) If Transfer with Auto Restart configured is performed, the repeater automatically starts the firmware switch and starts the behavior with the new firmware after the firmware transfer is complete.
Page 229 20 MULTI LOADER / 20.4 Operation (from Startup to Firmware Conversion, Transfer, and Transfer Completion) Table 20-9 Precautions of Reactivation Item Description If the clock of the PC running The Multi Loader does not detect the time deviation of the clock in the repeater. the Multi Loader and the Therefore, the configured time until the firmware switch starts is configured as the internal clock in the repeater...
Page 230 20 MULTI LOADER / 20.4 Operation (from Startup to Firmware Conversion, Transfer, and Transfer Completion) Status Request Table 20-10 Status Request Status Description Repeater Status Status00 Transferring: Transferring the firmware Status01 Updating: Overwrite script is being executed (firmware is written to the Standby area). Status02 Standby (Wait Reboot): Overwrite script is complete (wait for rebooting).
Page 231: Error Message List From Repeater
21 ERROR MESSAGE LIST FROM REPEATER ERROR MESSAGE LIST FROM REPEATER Table 21-1 Error Message List Error Code Item Condition of Occurrence Threshold E001 Unprogrammed When all Channel are Blank E002 USB Overcurrent When an overcurrent occurs in the 500 mA connected USB device E003 TX Frequency Data Blank...
Page 232 21 ERROR MESSAGE LIST FROM REPEATER Error Code Item Condition of Occurrence Threshold Temperature (TX Block) Error When a TX Block temperature error is Fixed value E208 detected Temperature (TCXO) Error When a TCXO temperature error is E209 detected Temperature (HPA) Error When an HPA temperature error is Fixed value E210...
Page 233: Index
INDEX INDEX Configuring the Duration of Transmission in the Received Mode (Signaling Reset Timer) ........About Connection (Multi Loader) ........Configuring the Priority Order of Transmission (PTT Priority) About HUB ................................. About Own ID ..............Configuring the Reception Method of a Channel (Channel About the Network Configuration ........
Page 234 INDEX ERROR MESSAGE LIST FROM REPEATER ....Making a Group Call ............Executing Software Reset of the Repeater (Reset) .... Making an Unaddress Call ..........MANAGING DEVICES ON AN IP NETWORK (SNMP) ..MODE ................MULTI LOADER ............... Factory Reset ..............Forced Firmware Programming Mode ........
Page 235 INDEX Toggling the Capability to Transmit by Using the PTT (Test Radio Access Control ............PTT) Control between Enabled and Disabled (Local TX RAN Encode/ Decode ............Enable/Disable) .............. Reading the Configuration Data from the Repeater .... Tones that Sound When a User Operates the Repeater or Rear ..................

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