DE29924936U1 - Information system for components of a rechargeable battery - Google Patents

Abstract

The charging of the battery is controlled by a controller (21) which is connected between a mains input (24) and a current source (22). Information about the battery is stored in a memory (25) which may also store information about the charging appts.. The memory is preferably non-volatile such as E2PROM. When used with a power tool the memory stores the profile of the tool.

Description

The This invention relates generally to apparatus for obtaining product usage information and in particular for obtaining usage information of components, which belong to a system with rechargeable batteries.

rechargeable Battery systems comprise three main components: (1) A rechargeable Battery or battery unit, (2) a charger for charging the battery and (3) a battery-powered device, such as portable power tools and certain kitchen and household appliances. Knowledge about How a user uses and handles each of these components deliver useful Insights, in turn, in future Product constructions can be implemented.

typically, Such information comes from surveys of users either won individually or in groups. Those from such surveys However, the information obtained relates to the perception of patterns of use the user, which is often subjective and inaccurate.

It Therefore, an object of the invention is an apparatus for obtaining actual To provide product usage information.

According to the present invention, the device comprises a battery or may be connected to a battery and has a memory for storing usage profile information about the device or the battery. The apparatus may be a charging device for charging a battery having a power source for supplying power to the battery, a control unit connected to the battery and the power source for controlling the charging of the battery, and a memory connected to the control unit To store information about the battery. The memory may also store information about the loader. Preferably, the memory is a non-volatile memory, such as an E ² PROM.

additional Features and advantages of the present invention are described in and will become clear from the accompanying drawings and the following detailed description.

The associated Drawings illustrate preferred embodiments of the invention according to the practical application of their principles, being in the Characters:

1 is a schematic circuit diagram of a battery charger according to the present invention,

2 FIG. 3 is a schematic circuit diagram of a battery according to the present invention; FIG.

3 is a schematic circuit diagram of a cordless tool according to the present invention, and

4 a block diagram of a data reading device according to the present invention is.

The Invention will now be described with reference to the accompanying figures, wherein like reference numerals designate like parts. All technical Teachings of U.S. Pat. Nos. 4,388,582 and 4,392,101 hereby incorporated by reference into this specification.

Regarding 1 is a battery 10 with a charger 20 connected. The battery 10 includes a plurality of battery cells 11 , which are connected in series and the voltage and the storage capacity of the battery 10 pretend. The battery 10 contains three battery contacts: the first battery contact 12 , the second battery contact 13 and the third battery contact 14 , The battery contact 12 is the B + connector (positive) for the battery 10 , The battery contact 14 is the B or negative / common connection. The battery contact 13 is the S or measurement connection. The battery contacts 12 and 14 get that from the charger 20 supplied charging current (preferably from the power source 22 as discussed below) to the battery 10 charge.

As in 1 shown are the battery cells 11 between the battery contacts 12 and 14 connected. In addition, there is also between the battery contacts 13 and 14 a temperature sensor device 15 such as a resistor with negative temperature coefficient (NTC) or thermistor R _T. The temperature sensor device is preferably in close proximity to the cells 11 arranged to monitor the battery temperature. Those skilled in the art will recognize that other components, such as capacitors, etc., or circuits may be used to provide a signal representative of battery temperature.

The battery 10 may also have an identifier as known in the art, such that the charger 20 identify the type and capacity of the battery and charge it accordingly.

The charger 20 preferably comprises a control unit 21 which in turn has a positive connection (B +) 16 and a negative terminal (B-) 17 which, via the battery contacts 12 and 14 with the battery 10 are connected. The posi tive connection can also act as an input, preferably as an analog / digital input, allowing the control unit 21 can detect the battery voltage. In addition, the control unit 21 comprise another input TC, preferably an analog / digital input connected to the temperature sensor device 15 over the third battery contact 13 (S) is connected. This allows the control unit 21 to monitor the battery temperature. The control unit 21 can be a microprocessor 23 to control the load and monitor operations. The control unit 21 can be a power source 22 control the battery 10 Power supplies. This current may be a fast charging current and / or a compensating current. The power source 22 can in the control unit 21 be integrated.

A switch SW1 may communicate with the control unit 21 be connected to manually select charging processes or modes, such as a fast charging operation and a refresh operation.

With the control unit 21 is preferably a memory 25 connected. Preferably, the memory is 25 a non-volatile memory, such as an E ² PROM. Accordingly, the control unit 21 from the store 25 read and write in it. The control unit 21 can in the store 25 Store information related to the battery, such as type, capacity, charging process, etc. Similarly, the control unit may 21 in the store 25 Store information related to the charger. For example, the control unit 21 Information such as the number of charged NiCd batteries, the number of charged NiMH batteries, the number of times the switch SW1 was turned on or activated (ie, the number of times the refresh mode was selected), how many times the charging process was delayed to allow the battery to cool down, etc.

Preferably, the control unit 21 define a chain of memory locations or "packets" for storing related information. For example, to secure information about the battery start temperature, a chain of memory locations may be used 25 are organized into packages, each package representing a range of battery starting temperatures. Accordingly, for example, a package for initial temperatures below 20 ° C can be identified. A second package can be designated for initial temperatures between 20 ° and 30 °, etc. Thus becomes a battery 10 with an initial temperature of 43 ° C in the charger 20 used, the control unit would 23 read the package according to the initial temperatures between 40 ° and 45 °, increase the reading and save the new value in the package.

Similar Packages can for others Information such as charging completion process, the number of times the minus delta V was applied to the Charge to finish, the number of times in which temperature change rates used to stop loading, etc.

Professionals will recognize that the control unit 21 in the store 25 can store any type of desired information, provided that the control unit 21 receives suitable inputs. For example, the control unit 21 a signal 24 received, which comes from the power supply and represents the voltage received at an output or generator voltage, ie the mains voltage. The control unit 21 For example, then the number of times the mains voltage was below 90 volts or above 130 volts can be determined and stored.

Similarly, the control unit 21 in the store 25 also store the amount of time in which the battery is 10 with the charger 20 connected is. Such information may be useful in determining the actual conditions of use that can then be used in future chargers' designs.

Those skilled in the art will recognize that any information related to the battery charging process and / or the charger is stored in the memory 25 can be stored, as far as the control unit 21 receives appropriate inputs and sufficient space is provided.

To analyze the information, they need to be removed from the charger 20 be downloaded. Regarding 1 and 4 Such an operation can be performed by the charger 20 to a reader 50 and / or a computer 53 is connected. The reader 50 can contacts 54 . 55 and 56 have that with the various connectors of the charger 20 get connected. The reader 50 can also be a microprocessor 51 for controlling the communication between the charger 20 and the reader 50 exhibit. In the reader 50 can also be a memory 52 be provided to the contents of the memory 25 save if desired. This allows the analyzer to retrieve the information from the charger 20 download without a separate computer 53 carry and then this content of the memory 52 in the computer 53 download. The reader 50 can have enough storage space to make up of multiple chargers 20 to save downloaded information. The reader 50 For example, it can connect to the serial or parallel ports of the computer 53 to be shot.

The control unit 21 has at least one line for transmitting the contents of the memory 25 , Preferably, this line is the TC line. The control unit 21 preferably executes a complete data delivery in which the information from the memory 25 directly without further action of Steuerein unit 21 is transmitted. The control unit 21 can read the information about the reader 50 Send after a routine to establish communication ("hand-shake") between reader 50 and control unit 21 is performed. Preferably, the control unit sends 21 the information on the TC line according to a serial communication scheme. The reader 50 then receives the information, stores it in the memory 52 and / or sends it to the computer 53 for the analysis.

2 illustrates a battery 30 according to the present invention, wherein like reference numerals designate like parts. The main difference between the battery 10 and the battery 30 lies in the fact that the battery 30 with a control unit 31 equipped, preferably connected to the terminals 12 . 13 and 14 , The control unit 31 can be a microprocessor 32 for controlling the measurement and storage operations, as discussed below.

A store 33 is preferably with the control unit 31 connected. Preferably, the memory is 33 a non-volatile memory such as an E ² PROM. Accordingly, the control unit 31 on the store 33 read or write in it. The control unit 31 can in the store 33 Store information related to the battery, such as the temperature, length of the charging process, etc., in a similar manner as described above.

A bias pull-down resistor 34 can between the connections 13 and 14 be arranged.

With reference to the 2 and 4 can the information from the memory 33 be downloaded by the battery 30 with a reader 50 and / or a computer 53 is connected. The reader 50 can contacts 54 . 55 and 56 have that in contact with the terminals 12 . 13 and 14 the battery 30 come.

The reader 50 and the control unit 31 can perform a handshake to the control unit 31 to bring those in the store 33 to transmit stored information. Such an operation may simply consist of the bias on the line connected to the measuring terminal 13 is bound to pull up. The control unit 31 would detect this pull-out of the bias and then proceed to transmit the information. Preferably, the control unit performs 31 a complete data output, with the information of the memory 33 without further action of the control unit 31 be transmitted directly. The control unit 31 can read the information about the reader 50 send according to a serial communication scheme. The reader 50 then receives the information, stores it in the memory 52 and / or sends it to the computer 53 for analysis. The reader 50 It can also include enough storage space for multiple batteries 30 to save downloaded information.

3 illustrates a tool 40 according to the present invention. The tool 40 includes connections 46 and 48 for receiving electrical energy from a battery connected thereto, and includes tool circuits 41 connected to the terminals 46 and 48 , The tool circuits 41 may include power control circuits, motor circuits, etc. A control unit 42 is preferably with the connections 46 and 48 connected. The control unit 42 can be a microprocessor 43 for controlling the measurement and storage operations as discussed below. The control unit 42 can continue with a connection 47 which is used to transmit information as discussed below. A bias pull-down resistor 45 can between the connections 47 and 48 be arranged.

With the control unit 42 is preferably a memory 44 connected. The memory 44 is preferably a non-volatile memory such as an E ² PROM. Accordingly, the control unit 42 from the store 44 read or write in it. The control unit 42 can in the store 44 Store information in a manner similar to that described above, based on the tool 40 such as tool temperature, duration of use, number of times the tool has been turned on, etc. The control unit 42 receives the desired information from the tool circuits 41 ,

Now referring to 3 and 4 can the information from the memory 33 be downloaded by the tool 40 with a reader 50 and / or a computer 53 is connected. The reader 50 can contacts 54 . 55 and 56 have that in contact with the connectors 46 . 47 and 48 the battery 30 come.

The reader 50 and the control unit 42 can perform a handshake to the control unit 42 to bring those in the store 44 to transmit stored information. Such an operation can simply be to apply the bias on the connector 47 connected line ago raise. The control unit 42 would detect the pull up of the bias and then proceed to transmit the information. Preferably, the control unit performs 42 a complete data output, whereby the information of the memory 44 directly without further influence of the control unit 42 be transmitted. The control unit 42 can read the information about the reader 50 send according to a serial communication scheme. The reader 50 then receives the information, stores it in the memory 52 and / or sends it to the computer 53 for analysis. The reader 50 can contain enough space to make the most of several tools 40 to save downloaded information.

To provide more accurate usage information, it is preferred that the memory be 25 . 33 and 44 with identification codes or serial numbers preprogrammed by the reader 50 be downloaded. Using the preprogrammed identification code, the computer can then 43 better analyze the downloaded information by rejecting old information, comparing uses between downloads, etc.

professionals will realize that the information will also be used can, to the occurrence of abusive To detect uses.

professionals can other alternatives or additions to the devices and steps disclosed herein. Alles these additions and / or However, alternatives are considered equivalents of considered present invention.

Claims (8)

Battery comprising: A memory to Store usage profile information about the battery. A battery according to claim 1, wherein the stored ones Information of at least one of the group consisting of battery type, Battery capacity, charging process, Initial temperature and connection time exists. A battery according to claim 1 or 2, wherein the information are downloadable. A battery according to claim 3, wherein the information Downloadable to a computer. A battery according to claim 3 or 4, wherein the information in a reader are downloadable. A battery according to any one of the preceding claims, wherein the memory stores usage profile information about the initial temperature. A battery according to any one of the preceding claims, wherein the memory is non-volatile is. The battery of claim 7, wherein the memory comprises an E ² PROM memory.