PowerPDU 4C & NETIO 4 NETIO 4All MANUAL FIRMWARE 3.4.0 and later 1 27.5.
Table of Contents Introduction .......................................................................................................... 4 1 Safety notices .................................................................................................. 4 2 General characteristics ....................................................................................... 5 3 Specification ................................................................................................... 6 3.1 Features .......
Introduction Thank you for purchasing this product of NETIO products a.s. Before using your product, please read this User Manual (MAN) and the included Quick Installation Guide (QIG) to avoid problems with incorrect installation or use. Caution: The product works with mains voltage. Mishandling may damage it or result in injury or death. 1 Safety notices 1. The manufacturer is not liable for any damage caused by incorrect use of the device or by operating it in an unsuitable environment. 2.
2 General characteristics NETIO PowerPDU 4C, NETIO 4 and NETIO 4All (NETIO 4x) are the ultifunctional Power Distribution Units (PDU). With LAN/Wi-Fi network interfaces, the output power ports for connected appliances can be controlled over the Web interface, with our mobile app, using Lua scripts or over one of the available open M2M API protocols. To control the device over the Web, all you need is a web browser; NETIO 4x includes a built-in Web server.
3 Specification 3.1 Features Four controlled 110/230V power outputs Each power output has a status LED and a control button Each output has an integrated a surge protector After restarting or powering up the device, each output is set to its pre-configured state (ON / OFF/ LAST – the last state before the device was powered off) Wi-Fi interface: IEEE 802.11abgn @ 2.
3.2 NETIO PowerPDU 4C specifications Power 100–240 V; 50/60 Hz; 10 A Switched outputs NETIO PowerPDU 4C: 10 [8] A total per device / 8 A per output Internal consumption Max 4.1 W Output relay Micro-disconnection (µ) (resistive load) 1E5 switching cycles, max. 1.
3.3 Drawings Figure 2.
3.4 NETIO 4 / 4All specifications Power 230 V; 50 Hz; max 15 A Switched outputs NETIO 4/4All: 15 [8] A total per device / 8 A per output Electrical load Resistance load only Fuse Built-in 15 A protection fuse Internal consumption Max 4.1 W Output relay Micro-disconnection (µ) (resistive load) 1E5 switching cycles, max. 1.5 kV pulse voltage Switch heat and fire resistance class 1 NETIO 4 interfaces 1x Ethernet RJ-45 10/100 Mbit/s 1x Wi-Fi 802.11b/g/n 2.
4 Configuration and control Before the first use 1. Connect your NETIO 4x to a LAN with a network cable. 2. Connect the power cable of your NETIO 4x to a mains electrical outlet. 3. Switch your NETIO 4x on with the rocker switch at the back or on the side. 4. Allow about a minute for your NETIO 4x to start up.
If your network uses a DHCP server, simply click the IP address in NETIO Discover to open the web interface. Without a DHCP server in the network, NETIO 4x defaults to the following IP address at its wired Ethernet interface: 192.168.1.78 For the NETIO 4x device to be accessible, the controlling system must use an IP address in the same subnet, such as 192.168.1.77. Figure 3.
4.1.2 Initial configuration over Wi-Fi - only NETIO 4 and NETIO 4All By default, NETIO 4 and NETIO 4All act as a Wi-Fi access point. They can be connected to from a WiFi client device without a wired network. The procedure depends on the operating system. For example, in Windows 10, go to Settings > Network & Internet > Wi-Fi > Show available networks and select the Netio4 network. After selecting the network, enter 12345678-Netio4 as the network key/default password.
4.2 Login to device web To log in, use admin / admin. (default login username / password) 4.3 Restoring factory defaults This operation deletes all user settings and restores default values. It is useful when the device is in an unknown state or does not behave as described in this manual. Reset to factory defaults can be performed over the web interface (see the System settings section) or by holding down buttons 1 and 2 while powering up the device.
5 5.1 Web interface Outputs Controlling the outputs In the left menu, choose Outputs. An overview of outputs appears. The four buttons next to each output control the respective output and its automated functions. The power button below the line at the bottom switches all outputs on/off at the same time. Figure 5. Controlling the outputs The Power button directly controls the respective output. When the output is on, the button is green; when the output is off, the button is grey.
The Watchdog button indicates an active Watchdog function when lit (see below for details). When the button is green, the Timer / Watchdog function is active. When the button is grey, the function is inactive. Both functions can be configured for each output individually at the “Timer/Scheduler” and “Watchdog” tabs. 5.1.1 General Click the icon with the output number to open detailed configuration for that output. The General tab configures basic parameters for controlling the output. Figure 6.
5.1.2 Scheduler/Timer The Scheduler/Timer function can be used to switch the output on and off at specified times. Select a schedule to specify when the output should be turned on. After selecting a schedule, the on-times for the output according to that schedule are shown graphically. Click Save Changes to confirm the schedule change. After the changes are saved, the Timer/Scheduler is immediately active and sets the output state accordingly.
5.1.3 Watchdog function The Watchdog function monitors a device connected to an output and restarts it if necessary. The device needs to be accessible over the network using the ping command (it needs to have an IP address assigned). If the monitored device is inaccessible, the specified output is power-cycled. A device is considered inaccessible if it fails to respond to Ping requests within a specified interval. (Ping is a service that allows checking the connection between two network interfaces.
The other options how to use Watchdog are described in following application notes: AN09 IP WatchDog 1 of 2 - PING based failure detection for 1 or 2 devices (Lua script) AN24 IP WatchDog 1 to 1 – Device LAN connectivity detection and indication (Lua script) 18
AN25 IP WatchDog 2 from 10 – list of monitored devices, failure indication by power output (Lua script) 19
5.1.4 Consumption metering - only NETIO PowerPDU 4C and NETIO 4All All power measurement and metering functions are available on the NETIO PowerPDU 4C and NETIO 4All models only. Figure 9. Consumption metering Power in watts [W] is the product of the immediate current and voltage (P = U * I). Current in amps [A] shows the immediate current flowing through the given output. True Power Factor expresses the ratio of active and apparent power, or the ratio of resistance and impedance.
Other totals are calculated from the values measured at individual inputs. Figure 10.
5.2 M2M API Protocols All M2M protocols use the same values for the action parameter to control the outputs.
5.2.1 SNMP Figure 11.
Figure 12. SNMP configuration for version 3 Enable SNMP Enables SNMP functions in the system kernel. Port Port where the device listens for SNMP M2M API commands. Range: 1 – 65535. The device warns you if you specify a port number that is already in use. However, to be sure, we recommend using either the standard SNMP port 161, or port numbers above 1024. SNMP version 1,2c – unsecured, unencrypted. Generally used to monitor the device. 3 – complex security via encryption and authentication.
The following values can be set for SNMP v3 only. Allow READ-WRITE access Select this option if outputs need to be controlled over SNMP (to allow switching the outlets on and off). Allow READ-ONLY access Select this option if outputs should not be controlled and SNMP is only used to read their states (on/off). Username Username for SNMP authentication using the user-based security model. This is unrelated to the username/password for NETIO 4x administration.
For details about the M2M SNMP API, visit our website: http://netio-products.
5.2.2 TELNET/KSHELL Figure 13. Configuring the TELNET/KSHELL protocol Enable Telnet/KSHELL Enables Telnet/KSHELL functions in the system kernel. Port Port where the device listens for Telnet/KSHELL M2M API commands. Range: 1 – 65535. The device warns you if you specify a port number that is already in use. However, to be sure, we recommend to use either the standard Telnet port 23, or port numbers above 1024.
For a list of telnet commands (login, port list, ...
5.2.3 MQTT Figure 14.
Figure 15. MQTT configuration in MS Azure mode Enable MQTT Enables MQTT functions in the system kernel. MQTT status Off – MQTT is disabled Connected – NETIO 4x is connected to the MQTT broker Error – error in communication with the MQTT broker MQTT mode Generic – generic MQTT broker MS Azure – for connecting to the MS Azure IoT Hub Broker host Domain name or IP address of the MQTT broker. Broker port Port for the communication with the MQTT broker.
Update period Update messages are sent in these intervals. Device connection String Only MS Azure mode: Device-specific connection string. It is generated in the Device Explorer.
5.2.4 Serial console - NETIO PowerPDU 4C only Figure 16. Configuring the serial console Status Informative indication of the serial line communication status. Possible states: connected waiting for connection failed to send serial event to actions Off The function is turned off Use in actions Check this box if you need to react to serial port communication in Lua scripts.
Port TCP port where NETIO PowerPDU 4C listens for data for the Serial Console M2M API. Speed Baudrate (must match the baudrate configured at the remote device).
5.2.5 JSON API Figure 17. Configuring the JSON API Enable JSON API Enables M2M JSON API functions in the system kernel. Use custom M2M HTTP(S) port Check to specify a specific port for M2M JSON API communication. Current M2M HTTP(S) port Read-only value. Indicates the port where the device currently listens for M2M JSON API commands. Current M2M security protocol Read-only value. Indicates the HTTP or HTTPs used for communication.
Enable READ-ONLY Enables Read-Only access via M2M JSON API for monitoring. You may also fill in the username and password for this mode. When left empty, the protocol will not require any authentication. Enable READ-WRITE Enables Read/Write access for monitoring and output control. You may also fill in the username and password for this mode. When left empty, the protocol will not require any authentication. Username Username for the respective access mode (Read-Only/ReadWrite).
5.2.6 XML API Figure 18. Configuring the XML API Enable XML API Enables M2M XML API functions in the system kernel. Use custom M2M HTTP(S) port Check to specify a specific port for M2M XML API communication. Current M2M HTTP(S) port Read-only value. Indicates the port where the device currently listens for M2M XML API commands. Current M2M security protocol Read-only value. Indicates the HTTP or HTTPs used for communication.
Enable READ-ONLY Enables Read-Only access via M2M XML API for monitoring. You may also fill in the username and password for this mode. When left empty, the protocol will not require any authentication. Enable READ-WRITE Enables Read/Write access for monitoring and output control. You may also fill in the username and password for this mode. When left empty, the protocol will not require any authentication. Username Username for the respective access mode (Read-Only/ReadWrite).
5.2.7 URL API Figure 19. Configuring the URL API Enable URL API Enables M2M URL API functions in the system kernel. Use custom M2M HTTP(S) port Check to specify a specific port for M2M URL API communication. Current M2M HTTP(S) port Read-only value. Indicates the port where the device currently listens for M2M URL API commands. Current M2M security protocol Read-only value. Indicates the HTTP or HTTPs used for communication.
AN19 URL API (http GET) protocol to control NETIO 4x power sockets/outlets 110 / 230V 5.2.8 Modbus/TCP Figure 20.
Enable Modbus/TCP Enables M2M Modbus/TCP API functions in the system kernel. Port Specific port for Modbus/TCP only, range 1 – 65535. The device alerts you if you specify a port number that is already occupied. However, to be sure, we recommend using port numbers above 1024. Enable WRITE (Enable output control) Enables also output control function. Enable IP filter To improve security, the IP filter can be used to specify a range of IP addresses from which Modbus/TCP commands are accepted.
5.3 Cloud Netio Cloud is a service provided by NETIO Products a.s. and allow easy central remote control and monitoring of the NETIO devices. What can you do in NETIO Cloud? Output control On/Off switch. Reset button (Short Off for defined time). Show power consumption [kWh] per output (metered device only) Settings Output name can be modified. Outputs can be placed to any of groups. Short OFF (restart) interval for reset can be set up.
Connection to NETIO Cloud can be configured on Cloud tab. Figure 22. Configuring the Cloud Enable NETIO Cloud Check to enable NETIO Cloud. Status Disconnected: Device not connected to Cloud Cloud connect faild…reconnecting: Device it trying to connect to Cloud. Connected: Device connected to NETIO Cloud. Connected and sychronised: Device connected to NETIO Cloud and account information synchronized. Last update Date and time of the last update.
DEVICE” button used. Then press “Add device” button. Remove device If this device is connected to NETIO Cloud use this button to remove/disconnect it from NETIO Cloud. Account info Use “Reload” button tu refresh account information. Credit Value of the available credit for Cloud account. Account log Log of the Cloud account events.
5.4 Users When several users use the NETIO 4x device, it is advisable to assign them different user accounts with the necessary privileges. In the left menu, select Users. NETIO 4x distinguishes three basic user categories: Figure 23. Adding a user Administrator User with full privileges. User User that can control the outputs but cannot change system settings. Guest User that cannot change any settings, may only monitor the current output states. Note NETIO 4x supports up to 5 user accounts.
Figure 24. Detailed configuration of user privileges Confirm by clicking Create user. In a similar way, existing user accounts can be edited. Custom privileges log in Allows logging in to the NETIO 4x web interface and the M2M Telnet/KSHELL API control outputs Allows controlling outputs over the web interface and the M2M Telnet/KSHELL API change output settings Allows modifying individual output settings (output name, short on/off delay etc.).
5.5 Schedules Schedules can specify when should an output be switched on or when is an action valid. To manage schedules, select Schedules in the left menu. By default, NETIO 4x contains three schedules: Always, Weekend and Work days. To create a new schedule, click Create schedule. Specify the schedule name and set the intervals when the output should be switched on.
Figure 26. Adding an interval with a precision to the second Deleting a schedule By deleting a schedule, all timers with this schedule are automatically disabled. The states of the respective outputs are unchanged; however, from that moment on, the outputs are under manual control.
5.6 Actions (Lua scripts) Actions are used to create rules that automate NETIO 4x functions. To manage actions, select Actions in the left menu. To add a new action, click Create Rule. In the top part, choose the Trigger to start the action, and the Schedule that determines when the trigger is active. To enable the action, check Enabled. Figure 27. Setting the rule trigger The trigger can be set to one of the following events: System started up The action is started after the system boots.
The action itself, i.e. what should be done when the trigger event occurs, is written as source code in the Lua programming language. Syntax highlighting is supported to make writing Lua code simpler and more user-friendly. For a basic description of the Lua langauge and its syntax, see NETIO Lua Programming section at https://wiki.netio-products.com The pre-filled action periodically activates and deactivates 2 outputs. To activate this action, check Enabled at the top and restart your NETIO 4x device.
-- Schedule: Always (in this setting is unused) --- Save the script and restart NETIO4x device. -- After restart, script starts blinking two selected power outputs. -- To stop a running script, uncheck Enabled, Save changes and restart the NETIO4x device again.
Main body of the Lua script: log("Flasher started") switch() log() Writes the “Flasher started” message to the system log Switch() First invocation of the switch function Terminating an active action An active action cannot be terminated by simply unchecking Enabled; this only prevents future activations. If the action is already active and it is not programmed to stop by itself, NETIO 4x needs to be restarted, too. Figure 29.
For more examples of Lua actions, see http://www.netio-products.com/en/lua-scripts and the Application notes section. 5.7 Settings To ensure correct operation as intended, the device settings need to be properly configured. Select Settings in the left menu to display a sub-menu with the product settings. 5.7.1 Network mode Does not apply to NETIO PowerPDU 4C. To configure the network interfaces of NETIO 4ALL and NETIO 4, first click Network Mode in the Settings menu.
If you do not want to use the Wi-Fi interface of your NETIO 4/4All at all, choose the Cable mode. In this mode, NETIO 4/4All is connected via the Ethernet (as the primary network interface) and Wi-Fi is switched off. Figure 31. Configuring the Cable network mode If you prefer to access NETIO 4/4All via a local Wi-Fi network, choose the Wi-Fi Client mode. In this mode, NETIO 4/4All connects over Wi-Fi (as the primary network interface) to the Wi-Fi access point of your network.
Figure 32. Selecting a Wi-Fi network in the Wi-Fi Client mode In this mode, a dialog with Wi-Fi configuration appears. Select your network from the list of available networks and fill in the password. If your network is currently inactive (undetected), fill in the SSID, select the security and encryption mode and fill in the password. After the configuration is finished, these settings are accessible in the Settings/Wi-Fi submenu.
Figure 33. Configuring the Wi-Fi network IP parameters in the Wi-Fi Client mode Select DHCP, if it is available in your network. Otherwise, set an IP address manually. After the configuration is finished, these settings are accessible in the Settings/Network Configuration submenu. For a detailed description of these parameters, see the Settings/Network configuration section.
In the Wi-Fi Access point mode, your NETIO 4/4All is connected via the Ethernet (primary network interface) just as in the Cable mode. However, it also serves as a Wi-Fi access point. Other devices can connect to your NETIO 4/4All over Wi-Fi (secondary network interface) and gain access to the Ethernet network (bridging between Ethernet and Wi-Fi takes place). In this mode, NETIO 4/4All does NOT provide DHCP on any network interface. After selecting this mode, the IP parameters need to be configured.
Figure 35. Configuring the Wi-Fi network parameters in the Wi-Fi Access Point mode Caution After changing the network configuration, it may be necessary to re-discover NETIO 4/4All at its new address. The discovery procedure is described in the Detecting and configuring the IP address section. The NETIO Configuration mode is similar to the Wi-Fi Access Point mode; however, Ethernet and Wi-Fi networks are isolated (no routing or bridging between Ethernet and Wi-Fi). The Wi-Fi interface has a static IP 192.
5.7.2 Wi-Fi settings Does not apply to NETIO PowerPDU 4C. In the Settings menu, select Wi-Fi. Depending on the selected network mode (see Settings/Network mode), the Wi-Fi interface can be in the following modes: Inactive – in the Cable network mode. Access point – in the NETIO Configuration network mode (no bridging between Ethernet and Wi-Fi) and the Wi-Fi Access Point network mode (active bridging between Ethernet and Wi-Fi). Figure 36.
Channel Select the radio channel for your Wi-Fi network. Disable SSID broadcast Only check if you want to hide your Wi-Fi network. IP parameters of the interface are configured in the Settings/Network configuration menu. In the Wi-Fi Client network mode, NETIO 4/4All uses its Wi-Fi interface to connect to a Wi-Fi network access point. In this mode, Ethernet is a back-up connection, without bridging to Wi-Fi. Figure 37. Wi-Fi configuration in the Wi-Fi Client mode Mode Shows the Wi-Fi mode.
Password Password for accessing the wireless network, if it is secured. IP parameters of the interface are configured in the Settings/Network configuration menu. 5.7.3 Network configuration In the Settings menu on the left, select Network. This menu allows configuring the IP parameters of the Ethernet and Wi-Fi interfaces; the parameters displayed depend on the selected network mode. Network mode Ethernet Wi-Fi Cable Complete configuration accessible, default IP 192.168.1.
Figure 38. Network configuration When setting the static IP address, use an IP address and a network mask corresponding to the network to which NETIO 4x is connected. As the gateway, use the Ethernet port of your router. If your router provides DNS service, use it as the DNS server, too. If unsure, use a public DNS server such as 8.8.8.8. Pay attention to the domain configuration. Enter the Hostname, which identifies the device in your network, and your Domain name.
Caution After changing the network configuration, it may be necessary to re-discover NETIO 4x at its new address. The discovery procedure is described in section 2.1 Detecting and configuring the IP address. Click Save Changes to save the settings. 5.7.4 Security settings In the Settings menu on the left, select Security settings. NETIO 4x supports secure connection over HTTPS. To use it, simply check Turn on secure connection (HTTPS) and confirm by clicking Save Changes.
Figure 40. Confirming the security exception in your browser (Mozilla Firefox shown) The menu displays information about the certificate validity and key fingerprint. If necessary, a new certificate can be created by clicking Create New Certificate. If you wish to keep using the insecure http protocol for incoming CGI requests for Lua actions, check Allow CGI-in to use insecure connection (HTTP). In the settings, it is also possible to change the default HTTPS port to a different one.
5.7.5 Date / Time In the Settings menu on the left, select Date / Time. First, choose your city to specify the timezone where NETIO 4x is operated (may be different from the local time on the computer used to connect to NETIO 4x). The device supports two methods for setting its clock. The time can be either specified manually or synchronized automatically with a NTP server. For the automatic synchronization, it is sufficient to specify the NTP server. If you are unsure, keep the default server, pool.ntp.
5.7.6 E-mail In the Settings menu on the left, select alerts. E-mail. This setting applies to the sending of e-mail Figure 42. E-mail settings SMTP server Mail server for sending messages. When a different port than the default (25) is used, enter the server address followed by a colon and the port number, e.g. smtp.netio.eu:8025 Enable SMTP authentication Check this option if the SMTP server requires authentication. Then, fill in the Username and Password for logging in to the SMTP server.
To receive a periodic report with the device status, check Send daily reports about NETIO 4x health. The report, sent every day after midnight, contains a summary of the device load in time and events logged during the previous day. Click Save Changes to save the settings. To test the configuration, click Send Test E-mail. 5.7.7 Firmware update The Firmware section allows updating the firmware of your device. For details about the installed firmware version, click Show details. Figure 43.
click Browse to select the file with the new firmware and then click Install firmware to start the installation. Figure 44. Firmware update from a file Figure 45 – Firmware download link at the netio-products.
Firmware installation causes the NETIO 4x to restart. Do not power off or restart the device during the process; otherwise, the firmware could be damaged, rendering the device inoperable. The progress of the installation is indicated. When the installation finishes, a message about a successful update appears and you will be taken back to the login screen. During the firmware update, the red LED of output 3 flashes and the red LED of output 4 is lit (see chapter LED indicators). 5.7.
the Network Configuration section. HTTP port Current http port. If the port number is different from 80, it has to be specified in the web browser after the NETIO 4x IP address, e.g.: 192.168.0.99:888 Output start interval Delay in seconds before the NETIO 4x outputs are switched on when the device is powering up. Starting from the second output, the PowerUp Interval must elapse after the previous output was switched on.
5.8 Log In the left menu, select Log. Figure 47. Log The log contains information about the operation of the device. The most recent entries are shown at the top. To see older entries, scroll down. Click Refresh to reload the log to show the most recent entries. The log can be exported to HTML; to do that, click the Export to file button and save the file. To clear all log entries, click the Clear log button. The log contains four types of entries.
6 Controlling the outputs manually In addition to being controlled by a computer, the device can be also controlled using the four buttons on the front panel. The buttons (from left to right) correspond to outputs 1 to 4. To switch the corresponding output on or off, press and hold the button for two seconds. If the output was switched off, it is switched on, and vice versa.
8 Acoustic indication Acoustic indication has the following meanings: 1x beep The device is starting. 2x beep The device is entering service mode. The process of restoring factory defaults has finished. 3x beep 9 The process of restoring factory defaults has started. NETIO Mobile2 for Android NETIO Mobile2 application is for control NETIO devices produced after 2016. Features: Switch On / Off each power socket on local network. Show power consumption on each power output (if supported).
10 Troubleshooting 10.1 Forgotten password, restoring factory defaults See Restoring factory defaults. 10.2 Firmware upgrade problems If a problem occurs during firmware upgrade (e.g. a network outage, device powered off during the upgrade), the device can be forced to start in service mode. To do so, press and hold the button for output 4 when powering up the device. Hold the button until the device beeps 2 times.
11 Application Notes (ANxx) As a demonstration of practical uses of NETIO 4x, we have prepared examples of use for all technologies implemented in the current firmware, such as Lua scripts, M2M API protocols, methods of connecting NETIOx with other sensors, devices or cloud services, and more.
Conclusion The manufacturer assumes no responsibility for any technical or printing errors and reserves the right to modify the product or this manual without prior notice. Such changes are announced at the manufacturer's website, http://netio-products.com. The manufacturer disclaims all warranties of any kind with respect to the contents of this manual, as well as all implied warranties of merchantability or fitness for a particular purpose.
Declaration of conformity Manufacturer/Importer:NETIO products a.s. Address: Product: U Pily 3/103 143 00 Praha 4, Czech Republic NETIO 4 DE, NETIO 4All DE, NETIO 4 FR, NETIO 4All FR RTTED: We hereby declare that the above-mentioned product(s) comply with essential requirements of the Government Regulations No. 483/2002 Sb. and No. 251/2003 Sb. (Directive 1999/5/EC) on radio equipment and telecommunications terminal equipment and the mutual recognition of their conformity.
Declaration of conformity Manufacturer/Importer:NETIO products a.s. Address: Product: U Pily 3/103 143 00 Praha 4, Czech Republic NETIO PowerPDU 4C RTTED: We hereby declare that the above-mentioned product(s) comply with essential requirements of the Government Regulations No. 483/2002 Sb. and No. 251/2003 Sb. (Directive 1999/5/EC) on radio equipment and telecommunications terminal equipment and the mutual recognition of their conformity.
2x 1 1 1 1 1 - - - - - - - 1 1 1 1 PowerPDU 4C PowerPDU 4PS PowerDIN 4PZ PowerBOX 3PE PowerBOX 3PF PowerBOX 3PG PowerCable Modbus 101E PowerCable Modbus 101F PowerCable Modbus 101J PowerCable Modbus 101G PowerCable Modbus 101S PowerCable IQRF 901E PowerCable IQRF 901F NETIO 4 DE NETIO 4 FR NETIO 4All DE NETIO 4All FR LAN (RJ45) Ext. Ext. Fixed Fixed - - Int. Int. Int. Int. Int. - - - Int.
√ √ √ √ √ √ √ - √ √ √ √ PowerPDU 4C PowerPDU 4PS PowerDIN 4PZ PowerBox 3Px (E,F,G) PowerCable Modbus 101x PowerCable REST 101x PowerCable MQTT 101x PowerCable IQRF 901x NETIO 4 DE NETIO 4 FR NETIO 4All DE NETIO 4All FR Web NETIO products – features HTTPs √ √ √ √ - - - - - - - √ Yes Yes Yes Yes - planed planed planed planed planed planed Yes Scheduler function Yes Yes Yes Yes - - - - - - - Yes IP Watadog function Yes Yes Yes Yes - - - -