DE8815963U1 - Solar generator - Google Patents

Description

Uaentle Petitioner-Verweltunge-tobH PTL-HH/31/bl Theoder-Btern-Kal 1 HH &Bgr;&bgr;/31

0-6000 Frankfurt 70

"Soliurge Generator"

Ola Mauerung concerns a Selgenereter luv Crseugung

of nearby electrical voltages ge»M de» General term for test 1.

According to the generally known experience with ballast modules, there have been cases where the entire network can be brought to a standstill due to just one electrically defective module. To prevent this, each ballast module is provided with a permanent charger which replaces a corresponding defective ballast module so that the flow of power in the network is not interrupted.

The innovation is based on the task of being able to quickly and easily identify defective solar modules in a solar generator of the type mentioned.

The problem is solved by supplying current to a shunt diode to detect the associated defects.

Solar cell module is used.

- I* - HH &bgr;&bgr;/51

One advantage of the innovation is that in the case of inapck- ■'*■

tion of solar generators individual defective modules optlech

can be determined quickly without having to measure an entire string of modules or each module individually. &igr; 05 This shortens inspection times and increases the availability of solar generators.

Details of the innovation are described in the subsections.

10

The drawing shows a tapestry of the innovation, namely

Fig. 1 shows an optical module arrangement using a light-emitting diode, and

Flg. 2 one optical· Auffellenzelge using a Rotary coil indicators.

In both figures, several solar cell modules M ₁ , M ₂ ... M _n are connected in series, with each solar cell module being arranged parallel to a thunt diode O ₁ , D, O _n to fulfil the purpose mentioned at the beginning. Meanwhile, in FIG. 2, an optical pulse indicator 1, 2 ... N is connected in series to each thunt diode O ₁ , O 2 ... O _n , which can be used to detect a corresponding defective solar cell module via the associated thunt diode O ₁ , D- 9 _{Λ signal} . 1 of the modules provided Each module O ₁ , D ₂ ... O _n a light-emitting Oled« LCO is personally controlled. If a Boler cell module M ₁ , M ₂ is filled in the system, M _n ew, eo fills the

Btro« About the corresponding Bhuntdlods D ₁ , D ₂ ... O _n , where a

Voltage u« oe. 1 V is missing. However, the voltage regulator is still too small to operate an LCD with a small voltage (the red billboard LCD has the smallest voltage U _g - 1.5 V). The test continued, i.e.

Shuntdiodes D ₁ , O ₉ ... 0 world« Shuntdiodes S., B_ ... 3

- 5 - HH &thetas;&thetas;/51

To be connected in series. To limit the current to max. 10 mA, a 200 Λ resistor R is connected to each LED. If an LED lights up, it indicates that the respective module is electrically faulty. In the "alarm" mode, the module is switched on, and the LCO in the "voltage" mode is 19 V.

Claims (3)

Lleentla Patent-Verweltunge-BabH »TL-HH/Sl/bl Thaader-ttern-Kel 1 HN M/91 D-tOOO FfenhfuFt 70 lahutianearOehe 1. The increase in the voltage of the electrical system and the resulting loss of conductors, namely a parallel circuit , is used to compensate for an interruption in the voltage distribution in the OS and due to a network of defective conductors, characterized in that the voltage flowing through a shunt line (O ₁ - O _n ) is used to detect the lucent defective conductor line (M ₁ - N _n ). f. cell generator in Aneprvali 1, _so that each shunt diode (O ₁ - O _n ) has a light-emitting diode (LED) connected in parallel. 3. Solar generator according to claim 1 or 2, characterized in that in order to double the voltage of the shunt diode (D ₁ - D _n ) applied to a light-emitting diode (LED), a further shunt diode (S ₁ - S ) is connected in series, ^& eegr; - 2 - HH &Bgr;&THgr;/51 U. Solar generator according to claim 1, characterized in that a rotating coil indicator (1 - N) is connected in series to each shunt diode (D ₁ - D _n ).