Simpnic S1 User Manual
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Simpnic S1 User Manual

Iot gateway network management
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S1
IoT Gateway
Network Management
User's Manual
Version 0.9
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  • Page 1 IoT Gateway Network Management User’s Manual Version 0.9...
  • Page 2 Revision History Version Date Description 1.01.02 2018/09/07 First release...
  • Page 3 Trademarks is a registered trademark of Connection Technology Systems Inc.. SiMPNiC Contents are subject to revision without prior notice. All other trademarks remain the property of their owners. Copyright Statement Copyright  Connection Technology Systems Inc.. This publication may not be reproduced as a whole or in part, in any way whatsoever unless prior consent has been obtained from Connection Technology Systems Inc..
  • Page 4 18F-6, No.79, Sec.1, Xintai 5th Rd., XiZhi Dist., New Taipei City 221, Taiwan(R.O.C) Tel: +886-2-2698-9661 Fax: +886-2-2698-9662 Dir.Line:+886-2-2698-9201 www.ctsystem.com www.simpnic.com Global Authorized Representatives: ▓ Connection Technology USA Inc. Connection Technology Systems Japan 40538 La Purissima Way, Fremont, CA 94539, USA...

  • Page 5: Table Of Contents

    Table of Content Chatper 1. OVERVIEW ......................7 1.1 Management Preparations ................... 7 1.1.1 Connecting the Gateway Controller ............... 7 1.1.2 Assigning IP Addresses ..................8 Chapter 2. WEB MANAGEMENT ..................9 2.1 System Information ....................12 2.2 User Authentication ....................13 2.3 Network Management ....................
  • Page 6 2.7.2.7 Wake Up Settings..................62 2.7.2.8 Sensor Multilevel Settings ................64 2.7.2.9 Basic Settings ....................66 2.7.2.10 Binary Settings .................... 67 2.7.2.11 Switch Multilevel Settings ................67 2.7.2.12 Meter Settings ..................... 69 2.7.2.13 Thermostat Setpoint Settings ..............70 2.7.2.14 Thermostat Mode Settings ................71 2.7.2.15 Configuration Settings .................

  • Page 7: Chatper 1. Overview

    1. OVERVIEW This controller is a Z-Wave static controller. This product can be included and operated in any Z-Wave network with other Z-Wave certified devices from other manufacturers and/or other applications. All non-battery operated nodes within the network will act as repeaters regardless of vendor to increase reliability of the network.

  • Page 8: Assigning Ip Addresses

    1.1.2 Assigning IP Addresses IP addresses have the format n.n.n.n, for example 168.168.8.100. IP addresses are made up of two parts:  The first part (168.168.XXX.XXX in the example) indicates network address identifying the network where the device resides. Network addresses are assigned by three allocation organizations.

  • Page 9: Chapter 2. Web Management

    Controller is set as DHCP mode. Through the connection of the RJ-45 port on the rear panel of S1 using a RJ45 cable with a router, you will be allowed to have an access of S1 with the IP address automatically obtained form this router for the first time. (You can change the IP address of S1 to the desired one later in its Network Management menu.)
  • Page 10 4. Port Management: Set up port configuration and view the port status. 5. RESTful Configuratin: Configure RESTful API for the communication between the SiMPNiC app and gateway. 6. MQTT Control: Set up MQTT Configuration and view MQTT status. 7. Z-Wave: Manage Z-Wave network, add/delete Z-Wave sensors, and set up Z-Wave sensor configuration.
  • Page 11 10. System Utility: Ping, do the firmware upgrade, load the factory default settings, etc.. 11. Save Configuration: Save all changes into the system. 12. Reset System: Reboot the Gateway Controller. 13. Logout: Exit the management interface.

  • Page 12: System Information

    2.1 System Information Select System Information from the Main Menu and then the following screen shows up. Company Name: Enter a company name up to 55 alphanumeric characters for this Gateway Controller. System Object ID: View-only field that shows the predefined System OID. System Contact: Enter contact information up to 55 alphanumeric characters for this Gateway Controller.

  • Page 13: User Authentication

    Host Name: View-only field that shows the product’s host name. Firmware Version: The firmware version of the first image. 1000M Port Number: The number of ports supporting 1000Mbps transmission speed. 100M Port Number: The number of ports supporting 100Mbps transmission speed. M/B Version: View-only field that shows the main board version.
  • Page 14 Password Encryption: Pull down the menu of Password Encryption to disable or enable MD5 (Message-Digest Algorithm). It is a widely used cryptographic hash function producing a 128-bit (16-byte) hash value, typically expressed in text format as a 32 digit hexadecimal number.
  • Page 15 User Name: Specify the authorized user login name. Up to 20 alphanumeric characters can be accepted. Password: Enter the desired user password. Up to 20 alphanumeric characters can be accepted. Retype Password: Enter the password again for double-checking. Description: Enter a unique description for this user. Up to 35 alphanumeric characters can be accepted.

  • Page 16: Network Management

    2.3 Network Management In order to enable network management of the Gateway Controller, proper network configuration is required. To do this, click the folder Network Management from the Main Menu and then several options will be displayed for your selection. 1.

  • Page 17: Network Configuration

    2.3.1 Network Configuration Click the option Network Configuration from the Network Management menu and then the following screen page appears. Enable IPv4: Click the checkbox in front of enable IPv4 to enable IPv4 function on the Gateway Controller. MAC Address: This view-only field shows the unique and permanent MAC address assigned to the Gateway Controller.
  • Page 18 Subnet Mask: Specify the subnet mask. The default subnet mask values for the three Internet address classes are as follows:  Class A: 255.0.0.0  Class B: 255.255.0.0  Class C: 255.255.255.0 Gateway: Specify the IP address of a gateway or a router, which is responsible for the delivery of the IP packets sent by the Gateway Controller.
  • Page 19 DHCPv6: Enable or disable DHCPv6 function Disable: Disable DHCPv6. Enable auto mode: Configure DHCPv6 function in auto mode. Enable force mode: Configure DHCPv6 function in force mode. Rapid Commit: Check to enable Rapid Commit which allows the server and client to use a two-message exchange to configure clients, rather than the default four- message exchange, DHCPv6 unique identifier (DUID): View only field shows The DHCP Unique Identifier...
  • Page 20 Source Binding state: Globally enable or disable IP source binding. State: Disable or enable the assigned IP address to reach the management. IP/IPv6 Address: Specify the IP address for source binding. NOTE: This Gateway Controller also supports auto-provisioning function that enables DHCP clients to automatically download the latest Firmware and configuration image from the server.

  • Page 21: System Service Configuration

    2.3.2 System Service Configuration Click the option System Service Configuration from the Network Management menu and then the following screen page appears. Web Time Out: Specify the desired time that the Gateway Controller will wait before disconnecting an inactive web session. Valid range:1-1440 minutes. Deault value is 20 minutes.

  • Page 22: Wireless Configuration

    2.3.3 Wireless Configuration Click the option Wireless Configuration from the Network Management menu and then the following screen page appears. In this wireless setting page, the user can control the ON/OFF status of WiFi function of the Gateway Control, set up the 802.11 mode, configure the wireless security and encryption to prevent from unauthorized access and monitoring.
  • Page 23 SSID: When you would like your Gateway Controller to connect with the available wireless network, you need to input the network name belonging to the router/access point in the field of SSID for the purpose of security. This name is also referred to as the SSID. Encryption: There are 3 encryption modes, including Disabled, WEP, and WPA-Mixed offered for your selection.
  • Page 24 Authentication: Include Auto, Open System, or Shared Key three options for Gateway Controller’s authentication. Key Length: Include 64-bit or 128-bit encryption type. The must have the same WEP encryption length as the connected access point/router. Key Format: Select “ASCII” or “Hex” from the pull-down list to set up the key value. ASCII(American Standard Code for Information Interchange) is a code for representing char as numbers from 0-127.
  • Page 25 Pre-Shared Key Format: Select Passphrase (alphanumeric format) or Hex(64characters) (“A-F”, “a-f” and “0-9”) from the pull-down menu. Pre-Shared Key: Specify the pre-shared alphanumeric key value in the text box. The key value can be between 8 and 63 characters long or 64 HEX characters long. Symbols and spaces can also be accepted.

  • Page 26: Time Server Configuration

    2.3.4 Time Server Configuration Click the option Time Server Configuration from the Network Management menu and then the following screen page appears. Manual Time Setting: Specify the system time for the Gateway Controller manually in the field of Year, Month, Day, Hour, Minute and Second accordingly. Time Synchronization: To enable or disable the time synchronization function.
  • Page 27 Synchronization Interval: Set up the time interval to synchronize with the NTP time server. Time Zone: Select the appropriate time zone from the pull-down menu. Daylight Saving Time: Include “Disabled”, “recurring” and “date” three options to enable or disable the daylight saving time function. It is a way of getting more daytime hour(s) by setting the time to be hour(s) ahead in the morning.

  • Page 28: Port Management

    2.4 Port Management To manage the Gateway Controller and set up the port configuration, click the folder Port Management from the Main Menu and then two options will be displayed for your selection. 1. Port Configuration: Enable or disable port state, flow control, etc. for the Ethernet port of the Gateway Controller.

  • Page 29: Port Configuration

    2.4.1 Port Configuration Click the option Port Configuration from the Port Management menu and then the following screen page appears. Port: It lists the Ethernet port of the Gateway Controller. Port State: Enable or disable the current port state. Preferred Media Type: View-only field that shows copper is the media type of the Gateway Controller..

  • Page 30: Port Status

    2.4.2 Port Status In order to view the real-time port status of the Managed Industrial PoE Ethernet Switch, select Port Status from the Port Management menu and then the following screen page appears. Port : Display the Ethernet and wireless ports of the Gateway Controller.

  • Page 31: Restful

    Click the option RESTful Configuration from the RESTful menu and then the following screen page appears. We highly recommend not to do any changes on this RESTful setting page to avoid the failure of communication between SiMPNiC app and the Gateway Controller.
  • Page 32 RESTful: Enable/disable the RESTful function. RESTful Port of Auto-discovery: The port number of RESTful Port of Auto-discovery on the restful server. RESTful Event Socket Port in Server Mode: The port number of RESTful Event Socket Port on the restful server. RESTful Event Server Domain Name in Client Mode: The IP address or domain name of RESTful Event Server on the restful client.

  • Page 33: Mqtt Control

    2.6 MQTT Control To set up the MQTT connection between the Gateway Controller and external brokers, and view MQTT status, click the folder MQTT Control from the Main Menu and then some options will be displayed for your selection. 1. MQTT Configuration: Enable or disable the built-in MQTT broker function of the Gateway Controller, and edit/delete MQTT connection.

  • Page 34: Mqtt Configuration

    2.6.1 MQTT Configuration Message Queuing Telemetry Transport (MQTT) is a publish/subscribe messaging transport protocol. It is light weight, open, simple, and designed so as to be easy to implement. These characteristics make it ideal for the use in many situations, including constrained environments such as for communication in Machine to Machine (M2M) and Internet of Things (IoT) contexts where a small code footprint is required and/or network bandwidth is at a premium.
  • Page 35 Current/Total/Max Agents: View-only field. Current: This shows the number of registered account currently. Total: This shows the amount of total registered accounts. Max: This shows the maximum accounts are available for registration. The maximum number is 5. Enable: Check to enable MQTT function or vice versa. The default setting is disable. Clean Session: The clean session flag indicates the broker, whether the client would like to establish a persistent session or not.
  • Page 36 Client ID: The client identifier (short Client ID) is an identifier of each MQTT client connecting to a MQTT broker. Specify the client identifier name, up to 23 alphanumeric characters User Enable: Check to activate the account or vice versa. User Name: Specify the authorized user login name, up to 255 alphanumeric characters Password: Enter the desired user password, up to 255 alphanumeric characters.
  • Page 37 Will Enable:When Gateway Controller’s disconnection occurs, all subscribers will be notified with the Will Message if this function is enabled. Will Retain:The Will Message will be retained in server if this function is enabled. This function only works when publishing the Will message. Will QoS: Once this function is enabled, the broker must record the Will Topic that the Gateway Controller subscribes when the Gateway Controller disconnects.

  • Page 38: Mqtt Http Auth-Code Get Configuration

    2.6.2 MQTT HTTP Auth-Code Get Configuration Upload the required CA (Certificate Authority) for the Gateway Controller’s authentication when connecting with the specified broker. Select MQTT HTTP Auth-Code Get from the MQTT Control menu and then the following screen page appears. Connect: From the Connect pull-down list, choose the desired broker based on the settings of MQTT Configuration.

  • Page 39: Mqtt Auth-Code Get Configuration

    2.6.3 MQTT Auth-Code Get Configuration The Gateway Controller has both built-in TFTP and FTP clients. Users may update their CA, CLI-Cert, CLI_key to the Gateway Controller. Select MQTT Auth-Code Get from the MQTT Control menu and then the following screen page appears. Protocol: Select the preferred protocol, either FTP or TFTP.

  • Page 40: Z-Wave

    2.7 Z-Wave Z-Wave is a wireless communications specification designed to allow devices in the home (lighting, access controls, entertainment systems and household appliances, for example) to communicate with one another for the purposes of home automation. The section shows the configuration and displays the status.

  • Page 41: Z-Wave Network Manager

    2.7.1 Z-Wave Network Manager Add Node: Click Add Node to turn the Gateway Controller into the Include mode. Under the Inclusion mode, the Gateway Controller is allowed to bring a sensor into a network. The Inclusion Mode will time out after 120 seconds. It also can be manually stopped using Abort button.
  • Page 42 Initiate (Classic): Be provided for testing only. Note: Executing the said actions Add Node, Remove Node, Remove Failed Node, Replace Failed Node or Initiate would cause Z-Wave process restart and application busy. Send Node Info: This is to be used to ask for NIF from all nodes in a network to get known of the capabilities of the node.

  • Page 43: Add And Remove The Sensors To/From An Existing Z-Wave Network

    2.7.1.1 Add and Remove the Sensors to/from an Existing Z-Wave Network To add the controller to an existing network: 1. Click Add Node on the Z-Wave Network Manager setting page. 2. Wait for inclusion request from the sensor. 3. Once the sensor is successfully included, the Gateway Controller will return to the Z- Wave Network Manager setting page and this sensor will be on the list of nodes.(See the figure below.) To remove the controller from an existing network:...

  • Page 44: Remove Failed Node From An Existing Z-Wave Network

    2.7.1.2 Remove Failed Node from an Existing Z-Wave Network 1. Click Send Node Info to refresh the list of nodes. 2. Specify the failed node on the list . 3. Click Remove Failed Node on the Z-Wave Network Manager setting page. 4.

  • Page 45: Z-Wave Node Controller

    2.7.2 Z-Wave Node Controller Node ID: The identification number of each node assigned. Name: The name of the sensor (Node ID 1 is for the Gateway Controller only) Room: The room name of the sensor groups. Vendor: A unique ID identifying the manufacturer of the device. Product ID: A unique ID identifying the actual product.
  • Page 46 Library Type: Several Library Type available as below. Library Type Static Controller Controller Enhanced Slave Slave Installer Routing Slave Bridge Controller Device Under Test (DUT) AV Remote AV Device Protocol Version: Shows Z-Wave module FW version. Application Version: Shows Z-Wave serial API version. Sleeping Device: Shows if the device connected is sleeping device.
  • Page 47 Note: If Generic Device Class is unable to be identified, the Generic Device Class column shows “Unknown (0xHH)”. Specific Device Class: The detailed information of class the sensor belongs to. Note: Somehow the list of nodes may show virtual nodes because bridge library is implemented.

  • Page 48: Notification Settings

    2.7.2.1 Notification Settings This is used to advertise a specific event using a notification sensor. V1 Alarm Type: Specify which alarm is being requested. V1 Alarm Level: Shows the alarm level that is application specific. Notification Type: Specify the type of the current report. Notification Status: Click drop-down arrow to determine unsolicited messages must be disabled or enabled for the specified Notification Type.
  • Page 49 Index: Shows the number of each Event Log. V1 Alarm Type: Shows which alarm is being requested. Notification Type: Shows the type of the current report. Event: Shows the event of the current report. The details of notification type & event are shown as below Notification Type Event Event Parameter(s)
  • Page 50 Unknown Event 0xFE Notification Type Event Event Parameter(s) Heat 0x04 Event /Cleared 0x00 - Event identifier for the event Alarm which is no more active. - If no Event Parameter is provided, there are no active events for the specified Notification Type.
  • Page 51 RF Lock Operation 0x03 RF Unlock Operation 0x04 Keypad Lock Operation 0x05 User Code Report (User Code Command Class V1) Keypad Unlock Operation 0x06 User Code Report (User Code Command Class V1) Manual Not Fully Locked 0x07 Operation RF Not Fully Locked 0x08 Operation Auto Lock Locked...
  • Page 52 Barrier Vacation Mode 0x47 (1 byte) 0xFF = Mode Enabled 0x00 = Mode Disabled 0x01-0xFE = Reserved Barrier Safety Beam 0x48 (1 byte) Obstacle 0xFF = Obstruction 0x00 = No Obstruction 0x01-0xFE = Reserved Access 0x06 Barrier Sensor Not 0x49 (1 byte) Control Detected/ Supervisory Error...
  • Page 53 Power has been applied 0x01 AC mains disconnected 0x02 AC mains re-connected 0x03 Surge detected 0x04 Voltage Drop/Drift 0x05 Over-current detected 0x06 Over-voltage detected 0x07 Over-load detected 0x08 Load error 0x09 Replace battery soon 0x0A Replace battery now 0x0B Battery is charging 0x0C Battery is fully charged 0x0D...
  • Page 54 - If no Event Parameter is provided, there are no active events for the specified Notification Type. Wake Up Alert 0x01 Timer Ended 0x02 Time Remaining 0x03 Event Parm 1 = hour(s) Event Parm 1 = minute(s) Event Parm 1 = second(s) Unknown Event 0xFE Notification Type...
  • Page 55 0x01=Clean 0x02=Slightly polluted 0x03=Moderately polluted 0x04=Highly polluted Unknown Event 0xFE Notification Type Event Event Parameter(s) Siren 0x0E Event /Cleared 0x00 - Event identifier for the event which is no more active. - If no Event Parameter is provided, there are no active events for the specified Notification Type.
  • Page 56 events for the specified Notification Type. Schedule Started 0x01 Event Parm 1 = <Schedule ID> Schedule Finished 0x02 Event Parm 1 = <Schedule ID> Valve Table Run Started 0x03 Event Parm 1 = <Valve Table ID> Valve Table Run Finished 0x04 Event Parm 1 = <Valve Table ID>...

  • Page 57: Power Level Settings

    2.7.2.2 Power Level Settings This is used to set the power level indicator value, which should be used by the node when transmitting RF, and the timeout for this power level indicator value before returning the power level defined by the application. Power Level: The power level indicator value to set.

  • Page 58: Association Settings

    2.7.2.3 Association Settings This is used to allow a device to show the capabilities of each association group supported by a given application resource. Group: The name of the group given. Maximum Group Members: The devices that can be added to the group at most. Group Members: The current members that are added to the group.
  • Page 59 Valid Group Count: The valid number of groups in the device. Profile: The profile defines the scope of events which triggers the transmission of commands to members of the actual association group. Event Code: Reserved field for future application. Command List It shows the commands that may be sent from the association group.

  • Page 60: Battery Status

    2.7.2.4 Battery Status This is used to show the battery status of a battery operated device. Battery Level: The percentage scale ranging from 0 to 100%. 0% indicates the battery is totally out of energy and 100% indicates fully-charged. 2.7.2.5 Door Lock Settings This is used to operate and configure a door lock device.
  • Page 61 Outside Door Handles Mode: The status of each individual outside door handle. Inside Door Handles Mode: The status of each individual inside door handle. Door Condition: The status of the door lock components. Lock Timeout Minutes: The remaining time in minute before the door lock will automatically be locked again.

  • Page 62: User Code Settings

    Lock Timeout Minutes: Set up the time in minute that a door lock must wait before automatically being locked again. The range is 0~255 in minute. Lock Timeout Seconds: Set up the time in second that a door lock must wait before automatically being locked again.
  • Page 63 Interval Seconds: Set up the wake up interval in second of a device. Valid value is 0~16777215 in second. Note: If a newly-added node is a sleeping node, the initial status of a node would be sleeping once included. The controller makes attempts to set the wake up interval of the node as 2 minutes.

  • Page 64: Sensor Multilevel Settings

    2.7.2.8 Sensor Multilevel Settings This is used to allow a sensor device to issue readings to another device. Sensor Type: Specify what type of sensor this command originates from. Click the drop- down arrow and pick designated one. Sensor Scale: To indicate what unit the sensor uses. Click the drop-down arrow and pick designated one.
  • Page 65 Current Sensor Type Sensor Scale Carbon Dioxide CO -level Ppm (Parts/million) m3/h (cubic meter/hour) Air Flow cfm (cubic feet/minute) l (liter) Tank capacity (cubic meter) gallons m (meter) Distance feet Percentage Value Degrees relative to north pole of standing eye Angle Position view Degrees relative to south pole of standing eye...

  • Page 66: Basic Settings

    Carbon Monoxide CO-level mol/m (mole per cubic meter) Soil Humidity Percentage value Sensor Type Sensor Scale Soil Reactivity pH(acidity) Soil Salinity mol/m (mole per cubic meter) Heart Rate Bpm(beats/minute) Systolic mmHg(Upper #) Blood Pressure Diastolic(lower#) Muscle Mass Fat Mass Bone Mass Total Body Water, TBW Basic Metabolic Rate, BMR J(joule)

  • Page 67: Binary Settings

    2.7.2.10 Binary Settings This is used to control devices with On/Off or Enable/Disable capability. Click On(Enable) or Off(Disable) for a device. Current State: Shows the current state is set “On” or “Off”. 2.7.2.11 Switch Multilevel Settings This is used to control devices with multilevel capability. Primary Switch Type: It shows the primary device functionality.
  • Page 68 Switch Type 0x00 0x63/0xFF Value (Direction/Endpoint (Direction/Endpoint B) 0x00 Undefined / Not supported (Secondary only) 0x01 0x02 Down 0x03 Close Open 0x04 Counter-Clockwise Clockwise 0x05 Left Right 0x06 Reverse Forward 0x07 Pull Push 0x08-0x1F Reserved Level: This is used to set a value in a supporting device. The details of value are shown as below: Value Level...

  • Page 69: Meter Settings

    2.7.2.12 Meter Settings This is intended for Z-Wave enabled devices capable of reporting energy measurements in addition to any main functionality or features e.g. an appliance module reporting the current consumption of the connected load. Supported Meter Type: Shows what type of metering device originates from. Supported Units: The unit available for the Meter Type used.

  • Page 70: Thermostat Setpoint Settings

    Meter Type: Shows the current meter type. Current State: Shows the current status of the energy measured. Rate Type: Shows if it is import or export values to be read. The Rate Type shown “Import” is an indication that the Meter Value is a consumed measurement. In contrary when the Rate Type is shown “Export”...

  • Page 71: Thermostat Mode Settings

    of decimals. As an example, the decimal value 1025 with precision 2 must be interpreted as 10.25. Scale: Click drop-down box to choose the unit used for temperature. Celsius and Fahrenheit are available. Value: Specify the actual setpoint value. The example of value is shown as below: Raw value Signed 8 bit Raw value...

  • Page 72: Configuration Settings

    The Thermostat Mode Report command MUST NOT advertise this Mode identifier. Fan only - cycle fan to circulate air. Cycle fan to circulate air - heating or cooling will be activated FURNACE according to the FURNACE set point. Dehumidification - The system will cycle cooling in relation to the room and the DRY set point temperature in order to remove moisture from ambient.
  • Page 73 0x00 0x0000 0x00000000 0xFF 0xFFFF 0xFFFFFFFF 0xFE 0xFFFE 0xFFFFFFFE 0x80 -128 0x8000 -32768 0x80000000 -2147483648 Default: This is used to specify if the default value is to be restored for all configuration parameters. Check the box to have the default factory settings must be restored for all Parameter Numbers.

  • Page 74: Z-Wave Utility

    2.8 Z-Wave Utility This is used to upgrade, backup or save Z-Wave configuration. Click the folder Z-Wave Utility from the Main Menu and then some options will be displayed for your selection. 1. Z-Wave HTTP Upgrade: To save or restore their Z-Wave configuration off-line. 2.

  • Page 75: Z-Wave Upgrade

    Config Type:There are 2 types of Config Type: Running-config and Start-up-config:  Running-config: Back up the data you’re processing  Start-up-config: Back up the data same as last saved data. Device Configuration to Local File: Click Backup and define the route where you intend to save data.

  • Page 76: Z-Wave Save Configuration

    Server IP/IPv6 Address: Enter the specific IP/IPv6 address of the FTP/TFTP file server. User Name: Enter the specific username to access the FTP file server. Password: Enter the specific password to access the FTP file server. File Location: Enter the specific path and filename within the FTP/TFTP file server.. Update Network: Click to update Z-Wave network.

  • Page 77: Z-Wave Ima

    2.9 Z-Wave IMA The Gateway Controller provides, a powerful diagnostic tool, the Z-Wave Installation and Maintenance Application (IMA) network health monitor. The Z-Wave IMA allows a technician to locally or remotely survey the Z-Wave signal quality at every node in the system. With Z-Wave IMA, it can speed up the installation and help ensure robust performance of the smart home system.

  • Page 78: Ima Last Working Route(Lwr)

    2.9.1 IMA Last Working Route(LWR) In order to view the real-time nodes’ status, including node ID, route, speed and neighborhood among the Z-wave network of the Gateway Controller, please select IMA Last Working Route from the Z-Wave IMA menu and then the following screen page appears. Node ID: Either All or a single node ID can be selected from the pull-down list to view the node information of all nodes or the specified node .

  • Page 79: Ima Transmission Diagnosis

    2.9.2 IMA Transmission Diagnosis IMA Transmission Diagnosis allows users to monitor the real-time transmission status between the specified node and the Gateway Controller. Users may monitor the node’s Z- Wave network traffic for maintenance or diagnostic purposes. Select IMA Transmission Diagnosis from the Z-Wave IMA menu and then the following screen page appears.
  • Page 80 Tries:The times of sending the analysis packets, which also can be used to judge the network condition. The bigger the value becomes, the worse the connection quaility between the specified node and the Gateway Controller.

  • Page 81: System Utility

    2.10 System Utility System Utility allows users to easily operate and maintain the system. Select the folder System Utility from the Main Menu and then the following screen page appears. 1. Ping: Ping can help you test the network connectivity between the Gateway Controller and the host.

  • Page 82: Ping

    2.10.1 Ping Ping can help you test the network connectivity between the Managed Switch and the host. Select Ping from the System Utility menu and then the following screen page appears. Enter the IP/IPv6 address of the host you would like to ping. You can also specify count and size of the Ping packets.

  • Page 83: Http Upgrade

    2.10.3 HTTP Upgrade Users may save or restore their configuration and update their Firmware off-line. Select HTTP Upgrade from the System Utility menu and then the following screen page appears. Configuration Update: There are 2 types of Config Type: Default-config and Start-up-config ...

  • Page 84: Ftp/Tftp Upgrade

    2.10.4 FTP/TFTP Upgrade The Gateway Controller has both built-in TFTP and FTP clients. Users may save or restore their configuration and update their Firmware on-line. Select FTP/TFTP Upgrade from the System Utility menu and then the following screen page appears. Protocol: Select the preferred protocol, either FTP or TFTP.

  • Page 85: Load Factory Settings

    Select Update then press Enter to instruct the Gateway Controller to update existing firmware/configuration to the latest firmware/configuration received. After a successful update, a message will pop up. The Gateway Controller will need a reset to make changes effective. 2.10.5 Load Factory Settings Load Factory Settings will set all configurations of the Gateway Controller back to the factory default settings, including the IP and Gateway address.

  • Page 86: Load Factory Settings Except Network Configuration

    2.10.6 Load Factory Settings Except Network Configuration Load Factory Settings Except Network Configuration will set all configurations of the Gateway Controller back to the factory default settings. However, IP and Gateway addresses will not restore to the factory default. Load Factory Settings Except Network Configuration is very useful when network administrators need to re-configure the system “REMOTELY”...

  • Page 87: Save Configuration

    2.11 Save Configuration In order to save configuration settings permanently, users need to save configuration first before resetting the Gateway Controller. Select Save Configuration from the Main Menu and then the following screen page appears. Click the OK button to save changes or running configurations to Flash. 2.12 Reset System After any configuration changes, Reset System can make changes effective.

  • Page 88: Logout

    2.13 Logout Select Logout from the Main menu and then the following screen page appears. Click the OK button to log out.

  • Page 89: Appendix A: Dhcp Auto-Provisioning Setup

    APPENDIX A: DHCP Auto-Provisioning Setup Networking devices, such as switches or gateways, with DHCP Auto-provisioning function allow you to automatically upgrade firmware and configuration at startup process. Before setting up DHCP Server for auto-upgrade of firmware and configuration, please make sure the device that you purchased supports DHCP Auto-provisioning.
  • Page 90 Step 2. Set Up Auto Provision Server  Update DHCP client Linux Fedora 12 supports “yum” function by default. First of all, update DHCP client function by issuing “yum install dhclient” command.  Install DHCP server Issue “yum install dhcp” command to install DHCP server.
  • Page 91  Copy dhcpd.conf to /etc/dhcp/ directory Copy dhcpd.conf file provided by the vendor to /etc/dhcp/ directory. Please note that each vendor has its own way to define auto-provisioning. Make sure to use the file provided by the vendor.  Enable and run DHCP service 1.
  • Page 92 Step 3. Modify dhcpd.conf File  Open dhcpd.conf file in /etc/dhcp/ directory Double-click dhcpd.conf placed in /etc/dhcp/ directory to open it.
  • Page 93  Modify dhcpd.conf file The following marked areas in dhcpd.conf file can be modified with values that work with your networking environment. 1. Define DHCP default and maximum lease time in seconds. Default lease time: If a client does not request a specific IP lease time, the server will assign a default lease time value.
  • Page 94 5. This value is configurable and can be defined by users. 6. Specify the protocol used (Protocol 1: FTP; Protocol 0: TFTP). 7. Specify the FTP or TFTP IP address. 8. Login TFTP server anonymously (TFTP does not require a login name and password). 9.
  • Page 95  Restart DHCP service...
  • Page 96 Every time you modify dhcpd.conf file, DHCP service must be restarted. Issue “killall dhcpd” command to disable DHCP service and then issue “dhcpd” command to enable DHCP service. Step 4. Backup a Configuration File Before preparing a configuration file in TFTP/FTP Server, make sure the device generating the configuration file is set to “Get IP address from DHCP”...
  • Page 97 B. Auto-Provisioning Process This switching device is setting-free (through auto-upgrade and configuration) and its upgrade procedures are as follows: 1. ISC DHCP server will recognize the device when it receives an IP address request sent by the device, and it will tell the device how to get a new firmware or configuration. 2.

  • Page 98: Appendix B: Free Radius Readme

    APPENDIX B: Free RADIUS readme The advanced RADIUS Server Set up for RADIUS Authentication is described as below. When free RADIUS client is enabled on the device, On the server side, it needs to put this file "dictionary.sample" under the directory /raddb, and modify these three files - "users", "clients.conf"...

  • Page 99: Appendix C: Z-Wave Terminology

    APPENDIX C: Z-Wave Terminology Z-Wave Functionality Documentation Description Terminology The process of adding a node to the Z-Wave Inclusion network The process of removing a node from the Z- Exclusion Remove Wave network The process of copying network information Replication Copy from one to another A Z-Wave device capable of managing the...

  • Page 100: Appendix D: Control Command Class Table

    APPENDIX D: Control Command Class Table This section is to demonstrate which commands are used in Section 2.7.3 Node Controller. Section Title Command Class 2.7.3.1 Notification Settings Notification Command Class V.7 2.7.3.2 Power Level Settings Power Level Command Class V.1 2.7.3.3 Association Settings Association Command Class V.2...

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