Configuration and testingConfiguration and testing
CC612(4G)_D00325_04_M_XXEN/03.2019
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6.6.1 Successful boot-up
The boot-up process begins once 12 V is supplied to the charge controller. After about
30 s, the ALARM and READY LEDs - and the PLC LED when available - on the front panel
light up. After some time, the LEDs are turned off and only the
″
READY
″
LED blinks, indica-
ting a successful boot-up. At the same time, the
″
Free LED
″
on the RFID module (if
configured) lights continuously, marking the end of the boot up sequence.
6.6.2 Connectivity to the backend
6.6.2.1 Connecting the charge controller to the backend
To connect the charge controller to the backend:
• Go to the "Settings" tab (http://192.168.123.123/operator/settings).
To access this tab, the following username and password are required:
– Username: operator
– Password: yellow_zone
• Under the menu item "Connection Type", the following options are available:
• No Backend
• GSM (3G/4G modem)
• Ethernet/USB WLAN
6.6.2.2 via GSM (3G/4G modem)
The "Access point Name (APN)" of the mobile network to be used when establishing a
connection to the backend system via the built-in 3G/4G moden is required.
Both a username ("APN Username") and password ("APN Password") are required to au-
thenticate the access point.
The system should then be able to establish an online connection to the backend system
within 20 to 120 s.
In addition, the SIM card, inserted into the charge controller SIM card slot, is activated. If
a SIM card PIN number is required, it needs to be configured on the Charging System
Operator tab (http://192.168.123.123/operator) otherwise a backend connection will not
be possible. With a data network connection established, the charging system is now
available.
APN information is supplied by your chosen mobile network operator.
6.6.2.3 via Ethernet /USB WLAN (USB 1)
If Ethernet is connected to a valid network during boot-up of the charge controller, and
a DHCP Server exists in this network, the charge controller obtains an IP address from the
DHCP server. The IP address provided to the charge controller can be influenced by as-
signing a fixed IP address for the charge controller at the DHCP server in your network.
This IP address can then be used to make a connection.
In addition, the charge controller always uses a second IP address: 192.168.124.123 in the
subnet 255.255.255.0 - on the Ethernet interface.
The main Ethernet/WLAN settings are carried out via the Operator tab
(http://192.168.123.123/operator) and include:
For Ethernet:
• - Mode for network configuration (e.g. Auto with DHCP or manual configuration)
• - Static network configurations IP (of the charge point)
• - Static network configuration NETMASK (i.e. 255.255.255.0)
For WLAN
- WLAN SSID/WLAN password
6.6.3 eHZ/Modbus/S0 meter connectivity
Refer to the webserver State tab to check if the eHz and Modbus meters have been
successfully connected. In the case of meters with an S0 interface, values are only dis-
played when charging takes place.
6.6.4 Plug locking and unlocking
After boot-up and a successful online connection, plug locking and unlocking can be te-
sted to see if the type 2 socket was correctly attached to the charge controller.
• First insert a plug that connects the charging system with a vehicle into the type 2
socket. The socket should automatically lock the plug. This locking action can nor-
mally be heard. Test by gently pulling on the plug.
• To unlock the plug, first disconnect the plug from the vehicle. This action automati-
cally unlocks the charging system socket, allowing the cable to be removed.
If there is no DHCP server in your network or it was connected during boot-
up or you have no means of determining the IP address assigned via
DHCP, then assign an IP address from the 192.168.124.x subnet to your
PC, connect it to the same Ethernet subnet and connect to the charging
system using the 192.168.124.123 IP address.
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