7.2 Special LED indications
(for the normal LED indications, see section 3.4)
'Mains on' flashes and there is no output voltage.
Bulk and absorption LEDs flash synchronously
(simultaneously).
Absorption and float LEDs flash synchronously
(simultaneously).
7.3 VE.Bus LED indications
Equipment included in a VE.Bus system (a parallel or 3-phase arrangement) can provide so-called VE.Bus LED indications. These LED
indications can be subdivided into two groups: OK codes and error codes.
7.3.1 VE.Bus OK codes
If the internal status of a device is in order but the device cannot yet be started because one or more other devices in the system
indicate an error status, the devices that are in order will indicate an OK code. This facilitates error tracing in a VE.Bus system, since
devices not requiring attention are easily identified as such.
Important: OK codes will only be displayed if a device is not in inverter or charging operation!
A flashing 'bulk' LED indicates that the device can perform inverter operation.
•
A flashing 'float' LED indicates that the device can perform charging operation.
•
NOTE: In principle, all other LEDs must be off. If this is not the case, the code is not an OK code.
However, the following exceptions apply:
•
The special LED indications above can occur together with the OK codes.
•
The 'low battery' LED can function together with the OK code that indicates that the device can charge.
7.3.2 VE.Bus error codes
A VE.Bus system can display various error codes. These codes are displayed with the 'inverter on', 'bulk', 'absorption' and 'float' LEDs.
To interpret a VE.Bus error code correctly, the following procedure should be followed:
1.
The device should be in error (no AC output).
2.
Is the 'inverter on' LED flashing? If not, then there is no VE.Bus error code.
3.
If one or more of the LEDs 'bulk', 'absorption' or 'float' flashes, then this flash must be in phase opposition to the 'inverter on' LED,
i.e. the flashing LEDs are off if the 'inverter on' LED is on, and vice versa. If this is not the case, then there is no VE.Bus error
code.
4.
Check the 'bulk' LED, and determine which of the three tables below should be used.
5.
Select the correct column and row (depending on the 'absorption' and 'float' LEDs), and determine the error code.
6.
Determine the meaning of the code in the tables below.
The device is in 'charger only' operation and mains supply is present. The
device rejects the mains supply or is still synchronising.
Voltage sense error. The voltage measured at the voltage sense connection
deviates too much (more than 7 V) from the voltage on the positive and
negative connection of the device. There is probably a connection error.
The device will remain in normal operation.
NOTE: If the "inverter on" LED flashes in phase opposition, this is a VE.Bus
error code (see further on).
The battery temperature as measured has an extremely unlikely value. The
sensor is probably defective or has been incorrectly connected. The device
will remain in normal operation.
NOTE: If the "inverter on" LED flashes in phase opposition, this a VE.Bus
error code (see further on).
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