RU63130U1 - POWER SUPPLY FOR MOBILE PHONE - Google Patents

Abstract

The utility model relates to devices for charging mobile phone batteries and can be used both in the presence of an AC network and in the absence thereof. The power source for the mobile phone consists of at least one photoelectric converter (PEC) - a solar battery, a battery connected to the PEC through a diode-capacitor block, and the PEC is designed to be placed on the surface of a mobile phone or on the battery of a mobile phone . The technical result of the proposed utility model is to increase the reliability, service life of the battery and the entire product as a whole, as well as providing ease of use of the device and making the product compact with constant functionality.

Description

The utility model relates to devices for charging mobile phone batteries and can be used both in the presence of an AC network and in the absence thereof.

There is a known solar charger made in the form of solar batteries and a portable charger with an adapter plug such as a car cigarette lighter (see Internet site www.force.ru/products/sun.php).

The disadvantage of this device is the large area of solar panels, the inconvenience of use.

The technical result of the proposed utility model is to increase the reliability, service life of the battery and the entire product as a whole, as well as ensuring ease of use of the device and making the product compact.

The technical result of the utility model is achieved by performing a power source for a mobile phone from at least one photoelectric transducer (PEC) - a solar battery, a rechargeable battery connected to the PEC through a diode-capacitor block, and the PEC is designed to be placed on the surface of a mobile phone or mobile phone battery.

In addition, the rechargeable battery is mainly a nickel-metal hydride battery, or another type of battery, capable of consuming any weak current when charging from an external power source, provided that the power source generates sufficient voltage to charge the battery. For example, a lithium-ion battery is not applicable in this case, since for its charging in its internal structure it requires a sufficiently large current and stable conditions of the supply voltage.

In addition, the diode-capacitor block contains a capacitor and at least two high-speed Schottky diodes located

between the PEC and the capacitor, capacitor and battery, respectively.

In addition, the power source for the mobile phone can be equipped with a step-up voltage converter connected to the battery and designed to be connected to the power input of the mobile phone.

In addition, the power source may contain a connector for connecting an adapter to it - a network power supply unit designed for alternative recharging of the battery.

In addition, the power source may include an LED or other light source connected to the battery through a switch and intended for local illumination.

The utility model is illustrated by drawings, where Fig. 1 shows a connection diagram of power supply elements; figure 2 is the same with an additional element; figure 3 is the same with additional sections of the solar cells and the battery.

The power source for the mobile phone contains at least one photoelectric converter 1 (PEC) - a small solar cell connected to the battery 2 through a diode-capacitor block 3 made of a capacitor 4 and at least two high-speed Schottky diodes 5 and 6, located between the photomultiplier tube 1 and the capacitor 4, the capacitor 4 and the battery 2, respectively, allowing to ensure that the battery 2 does not have cyclic, and, accordingly, the memory effect when charging it from the photomultiplier 1 and whether from a network adapter 7 included in the electronic circuit parallel to the photomultiplier 1 (Fig. 1) and having corresponding connectors. The battery 2 is a nickel-metal hydride battery, so that it is able to consume any weak current coming from the photovoltaic cell 1, which has a small area, provided that the photomultiplier 1 generates the necessary voltage, sufficient to recharge the battery 2. So

Thus, by performing a small-area photomultiplier 1, it is possible to place it on the surface of a mobile phone 8 or on the rechargeable battery 2 of a mobile phone 8. In an embodiment, a power supply for ensuring reliable operation of the electronic circuit of a mobile phone 8 includes a step-up voltage converter 9, ensuring the stable operation of the mobile phone 8 when using the battery 2 with a low operating voltage, insufficient to power my mobile phone 8 (figure 2, 3).

In the case of using battery 2 with a low operating voltage, the solar cell 1 (solar battery) has a working voltage of 2 V and is capable of providing battery 2 with a nominal voltage of 1.2 V with high-quality charging without the use of additional devices - charging controllers. Because the working voltage of the photomultiplier 1 is 2 V, the voltage loss on the two Schottky diodes 5 and 6 is 0.4 V, therefore, the incoming voltage to the battery 2 is not more than 1.6 V, which does not exceed the required maximum charge voltage threshold for nickel-metal hydride batteries, those. it is possible to charge the battery 2 in a quality manner and cannot be recharged. In the case of using a battery 2 with a working voltage of 2.4 V, a photomultiplier 1 with a working voltage of 3.5 V is used (Fig. 3), however, such a system does not lose reliability and even if it is used for a long time, this battery 2, although it may partially lose its capacity, but this slightly affects the performance of the product as a whole, given the constant working condition of the battery 2 provided by the built-in telephone housing 8 or placed on the surface of the battery 2 of the solar cell 2 (solar batteries). Also in an embodiment, the power source comprises an LED or other light source connected to the battery 2 through a switch (not shown) and intended for local illumination.

The principle of operation of the power source for mobile phone 8 is as follows. After the start of the flow of charging current from the solar cell 1 or from the network adapter 7, the capacitor 4 of the diode-capacitor block 3 and then the battery 2 are charged. After the flow of the charging current ceases, the capacitor 4 is discharged by transferring its capacity through the diode 6 to the battery 2, i.e. . acts as a capacitive buffer with one-way communication. The diode 5 ensures the absence of feedback between the photomultiplier tube 1 and the capacitor 4, and the diode 6 between the capacitor 4 and the battery 2.

Thus, the use of a diode-capacitor unit 3 in the charging circuit of the battery 2 can significantly increase the service life of the battery 2 and the entire product. Due to the use of a rechargeable battery 2 of a nickel-metal hydride type, it is possible to use a photomultiplier tube 1 of a small area and consisting of several sections, which allows usability and compactness of the product by placing a photomultiplier tube 1 on the surface of the battery pack 2 or by placing it in the housing of a mobile phone 8.

Claims (8)

1. A power source for a mobile phone, comprising at least one photoelectric converter (PEC) and a battery connected to the PEC through a diode-capacitor unit, wherein the PEC is designed to be placed on the surface of a mobile phone or on the battery of a mobile phone. 2. The source according to claim 1, characterized in that the solar cell is a solar battery. 3. The source according to claim 1, characterized in that the battery is a battery capable of consuming any current when it is charged from an external power source, provided that the power source generates sufficient voltage to charge the battery. 4. The power source according to claim 3, characterized in that the battery is a Nickel-metal hydride battery. 5. The source according to claim 1, characterized in that the diode-capacitor block contains a capacitor and at least two high-speed Schottky diodes located between the solar cells and the capacitor, capacitor and battery, respectively. 6. The source according to claim 1, characterized in that it is equipped with a step-up voltage converter connected to the battery and designed to connect to the power input of the mobile phone. 7. The power source according to claim 1, characterized in that it contains a connector for connecting an adapter to it - a network power supply and intended for alternative recharging of the battery. 8. The power source according to claim 1, characterized in that it contains an LED or other light source connected to the battery through a switch and intended for local illumination.