Your MOBOTIX camera is equipped with an integrated 10/100 Mbps Ethernet interface to connect the camera to local networks.
From the factory, the camera is pre-configured for a class A subnet:
The Quick Installation wizard is the easiest and most secure way for initially configuring the camera. It is performed automatically when the Admin Menu is opened for the first time.
Once you have selected the language, this wizard helps to configure the following basic settings:
Note: Depending on the settings you have selected, not all dialogs mentioned above will be displayed.
It is recommended that you use the Ethernet Interface dialog only if you feel comfortable with the terms and services involved. Invalid entries may render your camera unreachable!
|Ethernet||Enable/disable the Ethernet interface. The factory default setting is on.|
You can assign a host name to the camera that should describe e.g. the camera's location in more detail. Using this name, it is easy to identify a specific camera (e.g. when configuring a MultiView screen).
Note: In order to access the camera on your local network using its host name, a DNS service needs to be available and a DNS server has to be specified.
|BOOTP/DHCP||Provided these services are available on your network, the camera can use them to automatically obtain its network configuration. Ask your network administrator whether these services are available. If the configuration using BOOTP/DHCP has been successful, all other settings in the menu are ignored. If the configuration using BOOTP/DHCP fails, your settings or the factory default settings are used.|
|Additional IPv4 Address||
The camera can manage two different network configurations. If you configure your camera for your network, select On in order to store the factory default configuration as alias configuration. Thus, you can make sure that the camera remains accessible using the factory default configuration.
Note: The alias configuration cannot be defined independently.
|IP Address||You can access the camera in the network via its IP address. Ask your network administrator which IP address is available.|
|Subnet mask||In order for computers to be able to communicate in a network, the IP address needs to be assigned a matching network mask. Again, it is your network administrator who will tell you which network mask to use.|
|Lower Limit of DHCP Range||
If the camera's DHCP server feature has been activated, it automatically assigns up to 150 IP addresses to other devices. Enter the first (lowest) IP address in this field. Make sure that you follow these rules:
|Upper Limit of DHCP Range||
If the camera's DHCP server feature has been activated, it automatically assigns up to 150 IP addresses to other devices. Enter the last (highest) IP address in this field. Make sure that you follow these rules:
|IPv6 Operating Mode||Determines whether or not the camera should use IPv6 connections. In Auto mode, the camera automatically obtains an address from a router in the network. The obtained address is usually created on the base of the camera's MAC address.|
|IPv6 Address||Manually assigned IPv6 address of the camera. Usually, the IPv6 address of the camera is assigned automatically. Ask your network administrator for an IPv6 address that you can use. If no other address has been assigned, the camera by factory default uses a local IPv6 address in the form of fd00::10.x.y.z.|
|Prefix Length||This parameter sets the size of the network of an IPv6 address (similar to the network mask of an IPv4 address). Ask your network administrator for the proper value.|
Power to the camera is usually supplied via the network cabling (Power-over-Ethernet). The selected PoE class of the camera also controls the power supply of the PoE switch. This setting also controls the power supply of the expansion modules attached to the camera.
When using PoE Class 2, for example, you can connect only one expansion module (MxBus) to the camera. If you would like to connect more than one expansion module, you need to set the camera to PoE Class 3.
Click on Change to start the Power over Ethernet (PoE) wizard. This wizard shows additional information and will guide you through the process step by step.
Caution! If the total power consumption of the camera and the connected peripherals is higher than the power provided by the PoE switch for the selected class, the switch can disconnect the camera from the power supply. In this case, you need to remove all connected modules, reboot the camera and select a higher PoE class before you try to reconnect the MxBus modules!
|Link Speed and Duplex||This parameter should be left at its default setting in order to guarantee the best connection quality for this camera and software version. When connection problems with a switch occur, you can try to see if a different setting produces better results.|
|Default Route and Gateway IP Address||A gateway acts a relay between individual networks and it coordinates the data traffic between these networks. The default route sets the gateway that is to be used if no other gateway has been specified for a special route.|
In some dialogs (e.g. FTP Profiles), you can replace the IP address by a symbolic name (e.g.
Note: The DNS servers entered here will only be used for the Ethernet interface. If an ISDN dial-out connection has been defined in the ISDN Data Connections > Dial-Out Connections dialog and this connection has been set as Default Route, the DNS servers assigned by the provider will be used.
|Domain||If you enter the host name without the domain name, the camera will automatically add the domain name specified here.|
Activates the camera features for automatically finding other network devices using Zeroconf (also called "Bonjour"). This service provides a means for network devices in a local network to communicate with one another without requiring centralized management if IP addresses, names, etc. In addition, these devices announce the services they provide within the network.
This feature also means that the camera creates an additional IPv4 Link Local address in the
|Zeroconf Name||Enter a name in this field if you would like the camera to use a Zeroconf/Bonjour name that is different from the Camera Name defined at the beginning of the dialog.|
This international standard is used for port-based network access control (NAC). The procedure requires that all network devices (i.e the MOBOTIX camera) need to authenticate themselves at the switch to obtain a network connection. Network devices without proper authentication will be rejected.
Activates the camera as IEEE 802.1X supplicant with the specified authentication procedure.
Ask your network administrator whether IEEE 802.1X is supported or required. Make sure that the switch to which the camera is connected (authenticator) has been configured accordingly. In general, the switch (authenticator) also needs an authentication server, such as a RADIUS server. The authentication procedure is controlled by the authentication server. Make sure that the camera and the authentication server always use the same procedure.
|Identity||The IEEE 802.1X network identifier or the name of the local network, to which the camera is connected.|
|User Name||The user name of the camera at the authentication server (only required for the EAP-MD5, EAP-PEAP and all variants of EAP-TTLS; EAP-TLS does not need a user name).|
The password of the camera at the authentication server (only required for the EAP-MD5, EAP-PEAP and all variants of EAP-TTLS; EAP-TLS does not need a user name).
|CA X.509 certificate||
This X.509 root certificate is needed to verify the X.509 certificate of the Authentication Server (required by all authentication procedures except EAP-MD5).
If there already is an X.509 root certificate in the camera, the relevant data ("issuer", "subject", validity) are shown in the comment next to the dialog box. This X.509 root certificate, the supplicant X.509 certificate and the corresponding private key will be deleted from the camera if you deactivate IEEE 802.1X.
|Supplicant X.509 certificate||
This is the X.509 user certificate of the camera (only required for the EAP-TLS authentication procedure).
If there already is a supplicant X.509 certificate in the camera, the relevant data ("issuer", "subject", validity) are shown in the comment box. This X.509 root certificate, the supplicant X.509 certificate and the corresponding private key will be deleted from the camera if you deactivate IEEE 802.1X.
|Supplicant X.509 private key||
This is the private key of the camera (only required for the EAP-TLS authentication procedure).
This X.509 root certificate, the supplicant X.509 certificate and the corresponding private key will be deleted from the camera if you deactivate IEEE 802.1X.
|Supplicant X.509 private key, passphrase||Contains the passphrase of the camera's private key. (Only used by the EAP-TLS authentication procedure.)|
Contact your network administrator to obtain the required information regarding IEEE 802.1X. Note, that it is not possible to create the certificates required for all authentication procedures within the camera itself (exception: EAP-MD5).
When using IEEE 802.1X in an installation, it is recommended to assign individual user names and passwords/X.509 user certificates for every network device.
If you are using the same user name and password or X.509 user certificate for every network device, one stolen device will compromise the security of the whole network. In this case, you would have to exchange the authentication information on all remaining network devices. If every network device uses individual authentication information, you can lock the authentication information of the stolen device on the authentication server. Reconfiguring the remaining devices is thus not required.
Note: The EAP-MD5 authentication procedure is considered insecure and should not be used.
Klicken Sie auf Setzen, um die Einstellungen zu aktivieren und bis zum nächsten Neustart der Kamera zu sichern.
Klicken Sie auf Voreinstellung, um diesen Dialog auf die werkseitigen Voreinstellungen zurückzusetzen (dieser Button wird nicht in allen Dialogen angezeigt).
Klicken Sie auf Wiederherstellen, um alle Änderungen seit dem letzten permanenten Speichern der Konfiguration zu verwerfen.
Beenden Sie den Dialog durch Klick auf Schließen. Hierbei wird geprüft, ob Änderungen der Gesamtkonfiguration vorliegen. Ist dies der Fall, werden Sie gefragt, ob die Gesamtkonfiguration dauerhaft gesichert werden soll.
Zum Aktivieren der neuen Einstellungen speichern Sie die Konfiguration und führen einen Neustart der Kamera durch!