DE4310601C2 - Charger for the accumulator of the handset of a cordless telephone - Google Patents

Description

The invention relates to a charger according to the Preamble of claim 1.

Such chargers are usually equipped with a power supply, often in the form of a plug-in power supply, operated from a 230 V alternating current via a transformer and a bridge circuit the necessary for the operation of the charge control circuit Direct current, for example 6 V, provides.

It is such a charger with an external power supply Catalog "Electronic World 93", Conrad Electronics, September 1992, P. 433 under the name CT-Com 311.

However, an external power supply is not practical if a cordless phone is integrated into an overall system, at for example together with the monitor of a television monitor, a number extension circuit or a normal telephone. In this case there is already a system voltage available, which, however, usually not with that of Charger required charging control circuit matches, but for example, 12 V AC. One optically appealing flush-mounting or under-table mounting is not possible, especially with newer compact multiple handsets including a separate charging unit, which forms a single base belong, would be appropriate. Only then could you for example at several workplaces or several rooms inside the apartment, like in the living room, in the bedroom, in the Children's room and in the garden, each a mobile phone so discreet order that it is neither visually nor practically disturbing. Each part can be individually adapted to the environment.  

From car radios it is known to Supply the system voltage of 6, 12 or 24 V DC directly allow.

The invention is based on the problem of a charger the preamble of claim 1 so that a Operation also with a different system voltage below Avoidance of your own power supply is made possible.

The problem is solved by the features of the invention Characteristic of claim 1 solved. Further refinements of the Invention are protected in the subclaims.

An embodiment of the invention is in the drawing shown. It shows

Fig. 1, the charging control circuit of the battery charger with the two alternative ways of power supply via a power supply or an alternative auxiliary circuit,

Fig. 2 shows a schematic representation of the power supply of the battery charger via a power supply,

Fig. 3 shows a schematic representation of the power supply of the charger via a different system voltage and an additional circuit.

In Fig. 1, the supply of a system voltage of 12 V AC to a bridge circuit 20 is shown schematically on the left side, which supplies the desired charge control voltage of 6 V DC to the charge control circuit with the interposition of a capacitor C1.

The DC / DC converter for generating the 6 V from the top left is 12 V AC input voltage shown on the corresponding Connector can be plugged on.  

Alternatively, the voltage supply via a plug-in power supply is symbolically indicated on the left by arrows at connections 1 and 2 .

The charger itself generates from the uniform input voltage of 6 V DC in two parallel circuits two different voltages, namely one in the upper area Voltage of 5.1 V with a current flow of 170 mA for the Handset or the accumulator used there, in the lower Branch a voltage of 3.3 V with a current flow of 50 mA for the Spare battery stored in the charger under charging voltage.

Fig. 2 shows a power supply for the charger, a plug-in power supply that generates a transformer and a bridge circuit from 230 V AC, 6 V DC, which are supplied to the handset 30 and the spare battery 32 in parallel. The input circuit 20 in the form of the bridge circuit for the system circuit is not used in this case.

Fig. 3 shows the operation of the charger with the existing system voltage of 12 V AC, which is fed to a bridge circuit, the output of which is fed to a small additional circuit, which essentially consists of a DC / DC converter which has the voltage required for the charge control circuit generated by 6 V DC, which in turn are fed in parallel to the handset and the spare battery for charging.

Claims (6)

1. charger for the accumulator of the handset of a cordless telephone,
with an external power supply unit that generates the charging voltage (6 V DC) required for the charge control from the mains and feeds it to a first input ( 1, 2 of JP1),
marked by

• a) a second input (π) of the charger for a second (system) voltage (12 V AC) different from the charging voltage (6 V DC),
• b) a first circuit element ( 20 ) connected to the second input (π), the output ( 3, 4 of JP1) of which can be connected to the input ( 1, 2 ) of a second circuit element ( 22 ),
• d) and wherein the output ( 3, 4 ) of the second circuit element ( 22 ) can be connected to the first input ( 1, 2 ) instead of the external power supply.

2. Charger according to claim 1, characterized in that the second voltage is a (in house systems for door speakers, bell transformer and the like) usual low-voltage AC voltage (12 V AC) by the first circuit element ( 20 ) and the second circuit element ( 22nd ) is converted into the DC voltage (6 V DC) required for charging. 3. Charger according to claim 1 or 2, characterized in that the first circuit element ( 20 ), which is integrated in the charger, consists essentially of a bridge circuit (GL1) for rectification and a downstream capacitor (C1). 4. Charger according to one of claims 1 to 3, characterized in that the second circuit element ( 22 ) consists essentially of a DC / DC converter. 5. Charger according to one of claims 1 to 4, characterized by a common socket (JP1) for the first input ( 1, 2 of JP1) of the charger and for the output ( 3, 4 of JP1) of the first switching element ( 20 ), which can be connected to a common socket of the second switching element ( 22 ) in a plug connection, which on the one hand consists of an input ( 1, 2 ) and an output ( 3, 4 ), the latter alternatively to the external charger with the first input ( 1 , 2 from JP1) can be connected. 6. Charger according to one of claims 1 to 5, characterized by a parallel supply of the charging voltage (6 V DC) to the spare battery and to the battery located in the placed handset, with upstream circuits of the charging control circuit ( Fig. 1) on the handset a higher charging voltage (5.1 V, 170 mA) than on the spare battery (3.3 V, 50 mA).