DE102006013779A1 - Switching power supply system for use with e.g. mobile telephone, has energy storage module with firmware unit for adjusting predetermined voltage signal for regulation, which requires storage module, and memory reading signal - Google Patents

Abstract

The system has a switching power supply module (1) with an integrated memory unit (10) e.g. rewritable memory, and an energy storage module (2) electrically connected with a side of the switching power supply module. The storage module comprises a firmware unit (20) for adjusting a predetermined voltage signal for regulation, which requires the storage module. The memory reads the predetermined voltage signal. An independent claim is also included for a method for automatically adjusting a voltage by a switching power supply system.

Description

The The invention relates to a switching power supply system for automatic adjustment the voltage and a method for automatically adjusting the voltage by means of the switching power supply system and in particular the automatic Setting an output voltage for the switching power supply module, if one Memory unit reads a predetermined voltage message. Further, if that Switching power supply module is used in a predetermined unscheduled state, the unscheduled condition converted into an unscheduled digital code, and the unscheduled digital code becomes stored in the memory unit.

It is very important for portable electronic devices like e.g. Notebooks, PDAs or cell phones to have batteries that work well, and it's a tough problem, the designers want to solve. in the Generally need Users buy many different power adapters to use them for different Output voltages according to the different requirements from different electronic devices. Although the User can buy a power adapter with which the output voltage can be adjusted by hand, it is uncomfortable for the user.

According to the invention is a switching power supply system for automatically adjusting the Voltage and a method for automatically adjusting the voltage provided by the switching power supply system. If the storage unit reads a predetermined voltage message, the output voltage the switching power supply module is set automatically. If the switching power supply module in a predetermined unscheduled condition In addition, the unscheduled state becomes an unscheduled digital code converted, and the unscheduled digital code is stored in the storage unit. In other words, can the switching power supply module its output voltage by reading the Predetermined voltage message set automatically without replacing the switching power supply module or other switching power supply modules.

One The first aspect of the invention is a switching power supply system for automatic Setting the voltage, which is a switching power supply module and a Energy storage module has. One side of the switching power supply module is electrically connected to a voltage source, and the switching power supply module has a built-in storage unit. The energy storage module is with electrically connected to the other side of the switched-mode power supply module, and the energy storage module has a firmware unit to to provide a predetermined voltage message required by the switched-mode power supply module. Thereby becomes an output voltage of the switching power supply module automatically set when the memory unit the predetermined voltage message read.

One second aspect of the invention is a method of automatic Adjusting the voltage by means of a switching power supply system, which comprising: providing a predetermined voltage message, the requires an energy storage module, by means of a firmware unit of an energy storage module; Read the predetermined voltage message by means of a built-in memory unit of a switched-mode power supply module, which is connected to one side of the energy storage module; and automatic adjustment an output voltage of the switching power supply module by means of the predetermined voltage message, which has read the storage unit.

It It is understood that both the foregoing general description as well as the following detailed description are exemplary and a more detailed explanation of the invention as claimed should. Other advantages and features of the invention will become apparent the following description, the drawings and the claims.

The Various objects and advantages of the invention will become more readily apparent in the following detailed description when incorporated in Connection with the attached Drawing is read, in the:

1 Figure 4 is a functional block diagram of a switched mode power supply system for automatically adjusting the voltage according to the invention;

2 a flow chart of a method for automatically adjusting the voltage by means of a switching power supply system according to the invention.

Regarding 1 According to the invention, a switching power supply system for automatically adjusting the voltage is provided. The switched-mode power supply system has a switched-mode power supply module 1 and an energy storage module 2 on.

One side of the switching power supply module 1 is electrical with a voltage source 3 connected, and the switching power supply module 1 has a built-in memory unit 10 on. The storage unit 10 may be a rewritable memory. Further, the energy storage module 2 with the other side of the switching power supply module 1 electrically connected, and the energy storage module 2 has a firmware unit 20 to provide a Predictive Voltage message that the En ergiespeichermodul 2 needed. The energy storage module 2 can be a portable battery.

Further, the predetermined voltage message may be converted to a digital voltage code. The switching power supply module 1 is set automatically according to the digital voltage code. Furthermore, the digital voltage code has eight settings, that of an output voltage of the switching power supply module 1 of 12V, 15V, 16V, 17V, 18V, 19V, 20V and 24V. For example, the firmware unit provides 20 when the output voltage that the energy storage module 2 12V is needed, a 12V voltage message and the 12V voltage message is converted to a 12V digital code. Therefore, the output voltage of the switching power supply module 1 automatically set to 12V when the storage unit 10 The 12V digital code reads from the firmware unit 20 is delivered. In other words, the output voltage of the switching power supply module 1 automatically set when the storage unit 10 reads the digital voltage code or the predetermined voltage message.

Further, an unscheduled state is converted to an unscheduled digital code when the switching power supply module 1 is used in a predetermined unscheduled state, such as overload, overcurrent or short circuit, and the unscheduled digital code is stored in the memory unit 10 saved. Therefore, designers or users know what happens when the switching power supply module is used while the unscheduled state occurs according to the unscheduled digital code.

Regarding 2 According to the invention there is provided a method of automatically adjusting the voltage by means of a switched-mode power supply system according to the invention. The steps of the method include: first, providing a predetermined voltage message that is an energy storage module 2 required, by means of a firmware unit 20 an energy storage module 2 (S100), Reading the predetermined voltage message by means of a built-in memory unit 10 a switching power supply module 1 that with one side of the energy storage module 2 is connected (S102); and automatically adjusting an output voltage of the switching power supply module 1 by means of the Predetermined-voltage-message, the memory unit 10 has read (S104).

In addition, the method further comprises: recording unscheduled conditions during use of the switched mode power supply module 1 occur, by means of the memory unit 10 wherein the unscheduled states into corresponding unscheduled digital codes by means of the switching power supply module 1 and the corresponding unscheduled digital codes in the memory unit 10 get saved. Therefore, designers or users know what happens when the switching power supply module 10 is used while the unscheduled condition occurs according to the unscheduled digital code.

Finally, the switching power supply module 1 automatically adjust its output voltage by reading the Predetermined Voltage message without the switching power supply module 1 replace or use another switching power supply module. Further, when the switching power supply module 1 is used in a predetermined unscheduled condition such as congestion, overcurrent or short circuit, the unscheduled condition is converted to an unscheduled digital code, and the unscheduled digital code in the memory unit 10 saved. Therefore, designers or users know what will happen when the switching power supply module 1 is used while the unscheduled condition occurs according to the unscheduled digital code.

Even though the invention with reference to its preferred best embodiments It is understood that the invention is not limited to theirs Details limited is. Many different substitutions and modifications have been made in The previous description suggested and others become experts come to mind. Therefore, all such substitutions and modifications within the scope of the invention as defined in the appended claims is to be involved.

Claims (12)

Switching power supply system for automatically adjusting the voltage, comprising: a switching power supply module ( 1 ), one side of which is connected to a voltage source ( 3 ) and wherein the switching power supply module ( 1 ) a built-in memory unit ( 10 ) having; and an energy storage module ( 2 ) connected to the other side of the switching power supply module ( 1 ), and wherein the energy storage module ( 2 ) a firmware unit ( 20 ) to provide a predetermined voltage message indicating the energy storage module ( 2 ) needed; wherein an output voltage of the switching power supply module ( 1 ) is set automatically when the memory unit ( 10 ) reads the predetermined voltage message. Switched-mode power supply system according to claim 1, wherein the memory unit ( 10 ) is a rewritable memory. A switched-mode power supply system according to claim 1, wherein the predetermined voltage message is converted to a digital voltage code and the switching power supply module ( 1 ) is set automatically according to the digital voltage code. The switched-mode power supply system of claim 3, wherein the digital voltage code has eight settings, that of an output voltage of switching power supply module of 12V, 15V, 16V, 17V, 18V, 19V, 20V and 24V. Switching power supply system according to claim 1, wherein the energy storage module ( 2 ) is a portable battery. A switched-mode power supply system according to claim 1, wherein when the switching power supply module ( 1 ) is used in a predetermined unscheduled state, the unscheduled state is converted into an unscheduled digital code and the unscheduled digital code in the memory unit ( 10 ) is stored. A method of automatically adjusting the voltage using a switched mode power supply system, comprising: providing a predetermined voltage message that is an energy storage module ( 2 ), by means of a firmware unit ( 20 ) of an energy storage module ( 2 ); Reading the predetermined voltage message by means of a built-in memory unit ( 10 ) of a switching power supply module ( 1 ) connected to one side of the energy storage module ( 2 ) connected is; and automatically adjusting an output voltage of the switching power supply module ( 2 ) by means of the predetermined voltage message that the memory unit ( 2 ) has read. Method according to claim 7, wherein the memory unit ( 2 ) is a rewritable memory. The method of claim 7, wherein the predetermined voltage message is converted into a digital voltage code and the switching power supply module set automatically according to the digital voltage code becomes. The method of claim 9, wherein the digital voltage code has eight settings corresponding to an output voltage of the switching power supply module of 12V, 15V, 16V, 17V, 18V, 19V, 20V and 24V. Method according to claim 7, wherein the energy storage module ( 2 ) is a portable battery. The method of claim 7, further comprising: recording unscheduled conditions that occur while the switched mode power supply module 1 ) is used by means of the memory unit ( 10 ), the unscheduled states being converted into corresponding unscheduled digital codes by means of the switching power supply module ( 1 ) and the corresponding unscheduled digital codes in the memory unit ( 10 ) get saved.