BE1020289A3 - EQUIPPED OR EQUIPPED WITH A RECHARGEABLE BATTERY. - Google Patents

Abstract

Device (1) provided or provided with a rechargeable battery (4), the device (1) and / or the battery (4) being adapted to enable wireless charging of the battery (4), the device (1) being provided of an indication means (6) which can give an indication of the magnitude of the charging current that is possible at the current position orientation of the device and / or is provided with an indication means (6) which can give an indication of how the position and / or The orientation of the device (1) must be changed to allow a higher charging current than at the current position and orientation of the device (1).

Description

A device fitted or provided with a rechargeable battery.

The present invention relates to a device provided or provided with a rechargeable battery.

More specifically, the invention relates to such a device wherein the device and / or the battery is adapted to be able to charge the battery wirelessly using a complementary charging device for the wireless charging of batteries.

Such a device can for instance be a mobile telephone or a PDA (personal digital assistant), which are arranged to be charged wirelessly with the aid of a suitable charging device.

The battery can herein be provided with a coil, coils or other suitable electronic circuits to generate a charging current from a variable magnetic field generated by the charging device, so that the battery can be charged. Alternatively, the device can be provided with such a coil, coils or other circuits, so that the battery can be charged indirectly via the device.

When the battery of such a device is charged, the device usually gives a visible or audible indication that the charging process is in progress. This can be, depending on the device, an indication LED, a symbol on a screen, a sound or many other possible indications.

A problem with the use of charging devices for wireless charging of batteries and devices with wirelessly rechargeable batteries is that the maximum achievable charging current is highly dependent on the precise positioning of the device on or near the charging device, which usually has a relatively free positioning of the device. device on or near the charging device, since the charging device is generally usable with a variety of devices and / or is not visible at all, for example when it is incorporated into a floor, wall or furniture item.

This strong dependence is caused by the fact that, in both the device and the charging device, only one or a limited number of coils or other similar electronic circuits are present, which are not necessarily visible from the outside, but which are positioned precisely with respect to each other and must be oriented to achieve a high energy transfer.

This means that, although the user receives an indication that his device is charging, he has no idea how long this charging will take, and whether the device has a good position and orientation with respect to the charging device.

In certain cases, indications may be provided on the device and the charging device at the location of the coils or similar electronic circuits to get them in a minimally approximately correct orientation and position relative to each other.

A system is also known in which a magnet is placed in the device, and a magnet is placed in the charging device, whereby the magnetic force indicates to the user who wishes to charge a device when the device is best placed in theory.

However, these solutions are not always possible or practical, certainly when the device and / or the loading device are not specifically designed to work together, but rather are generic devices.

This is the case, for example, with so-called 'evanescent field' charging devices, which in general are not isolated individual charging devices, but can be incorporated into larger household appliances, or in walls or floors.

Finally, systems are known in which the charging device has more than one coil, or a movable coil, and thereby can adjust the position of the variable magnetic field used for charging to the position of the device with the battery to be charged.

These systems have the disadvantage that they are complex to manufacture and that the service life is limited because of the moving parts.

The present invention has for its object to provide a solution to at least one of the aforementioned and other disadvantages, in that it provides a device provided with or provided with a rechargeable battery, the device and / or the battery being arranged to be wireless for the battery. to be able to charge using at least one external charging device for the wireless charging of batteries, the device being provided with an indication means that can give an indication of the magnitude of the charging current that is possible at the current position and in the current orientation of the battery. device and / or is provided with an indication means that can indicate how the position and / or orientation of the device should be changed in order to allow a higher charging current than in the current position and in the current orientation of the device.

Such an indication of a possible charging current can be given in many ways, for example by numerical values or other indications on a screen, by the nature, intensity or pitch of sound, by intensity or color of an LED, by a voice display or in many other ways. .

This indication can be a precise indication, for example due to a numerical value, but can also be an indication that only shows a few classes, for example 'good', 'reasonable' and 'bad'.

This indication can be relative to a maximum. This maximum can be a maximum value for which the device and / or the battery are designed to work, can be a maximum related to the charging device, whereby this maximum is made known to the device by means of a communication between the charging device and the device, or can be a maximum related to a loading protocol to be used.

An indication of how the position and / or orientation of the device should be changed in order to enable a higher charging current than in the current position and in the current orientation of the device can for example consist of at least one arrow or a set of written out or audibly displayed instructions regarding a change of orientation.

As a result, in the case the device is provided with an indication means which can give an indication of the magnitude of the charging current which is possible at the current position and in the current orientation of the device, the user of the device, based on the indicated indication of the size of the charging current, the position and / or orientation of the device vary and receive immediate feedback or as a result a larger charging current is obtained, whereby a good charging position can be found quickly.

In the case that the device is provided with an indication means that can give an indication of how the position and / or orientation of the device should be changed in order to enable a higher charging current than in the current position and in the current orientation of the device , the device itself indicates whether a better position and orientation for charging the battery is possible, and if so, in which direction the device should be moved in order to obtain a better position for charging the battery , allowing the user to quickly find a good charging position and orientation for the device.

In preferred embodiments, the device is a telephone or a computer or a PDA.

In an alternative embodiment, the device is an aid for wirelessly charging a battery. Such an aid comprises the means required to convert a varying magnetic field into a charging current, and can be coupled to a battery that does not have such means, so that this battery can nevertheless be charged wirelessly.

Such an aid can be embodied, for example, as a box or cover, partially or completely surrounding the battery, possibly in and together with an apparatus in which the battery is normally used.

In a further preferred embodiment, the device is provided with an indication means which can give an indication of how the position and / or orientation of the device (1) should be changed in order to enable a higher charging current than in the current position and in the current orientation of the device, wherein the device or the battery is or are provided with means to adjust the strength of a variable magnetic field and / or the magnitude of a magnetic field at such different positions on or in the device or on or in the battery field-generated current, or of means for determining the strength and direction of a variable magnetic field in at least one position.

This makes it possible to determine in a direct manner where a shorter battery charging time can potentially be obtained.

This is preferably carried out concretely in that these means comprise at least two, but preferably at least three, coils arranged at different positions in or on the device or in or on the battery, and which are suitable for separately or jointly supplying the battery with a charging current or because these means comprise a grid of sensors.

With the insight to better demonstrate the characteristics of the invention, a few preferred embodiments of an apparatus according to the invention are described below, as an example without any limiting character, with reference to the accompanying drawings, in which:

Figure 1 schematically and in perspective represents a device according to the invention in combination with a charging device; Figure 2 shows the front and back of the device of Figure 1; and figures 3 and 4 each represent the front and back of a variant of a device according to the invention.

The device 1 shown in figures 1 and 2, in this case a telephone, mainly consists of a housing 2 provided with the necessary electronic circuits 3 for the operation of the device 1, and with a rechargeable battery 4 for supplying power to the device 1 The battery 4 is provided with a coil 5 which is located on the outward side of the battery 4.

The device 1 also has a screen 6 for displaying all kinds of information, whether or not related to the operation as a telephone.

The battery 4 of the device 1 can be charged wirelessly by means of a charging device 7 which is connected to a power supply via a transformer, by placing the device 1 in the vicinity of the charging device 7, which in this case is provided with a flat surface area specific to that purpose.

This charging takes place because the charging device 7 can convert current into a variable magnetic field by means of an electronic circuit and coils 8, and the coil 5 of the battery 4 can convert this magnetic field into a charging current again thanks to an electronic circuit. for the battery 4.

The device 1 is provided with an electronic circuit for determining the charging current. The screen 6 is used as an indication means for the magnitude of the charging current, by displaying this charging current as numerical value 9.

The person who wishes to charge the device 1 can easily see at the position and in the position of the charging current shown by the indicating means and by varying the position of the device 1 on or near the charging device 7 which orientation a higher charging current can be achieved, and thus the desired, short charging time can be achieved.

Even when the device 1 does not need to be charged, the potential charging current that can be achieved can be shown at a certain position and in a specific orientation by passing the generated current through a resistor, but by determining and showing it .

The alternative embodiment of the device 1 shown in Figure 3 has the following differences with the embodiment described above:

A grid of magnetic field sensors 10 is provided on the battery 4. These sensors 10 are connected to an electronic circuit that can process the measured values and that can indicate a direction via the screen 6.

When the device 1 is in the vicinity of a charging device 7, measured values are measured by the sensors 10 and processed by the electronic circuit. If, on the basis of these measured values, it appears that a position or orientation with a more variable magnetic field at the location of the coil 5 is possible or probable due to displacement or rotation about a certain axis of the device 1, an arrow 11 is shown on screen 6, which indicates the direction in which the device 1 must be moved in order to find a stronger magnetic field. Any required rotation can also be made clear by bent arrows.

In this way the user can very easily find a good position and orientation to charge his device 1.

As an alternative to using a grid of sensors, at least one sensor can be used that can detect both a magnitude and a direction of the magnetic field.

The alternative embodiment of the device 1 shown in Figure 4 has the following differences with the embodiment shown in Figure 2.

Instead of a coil 5 there are three coils 12, 13 and 14. An electronic circuit is provided for, both a numerical value 9, as in the embodiment according to Figure 2, and an arrow 11, as in the embodiment according to Figure 3. , to show.

When the device 1 is in the vicinity of a charging device 7, a charging current is generated by each of the three coils 12, 13, 14 and supplied to the battery 4.

However, depending on the position of each of the three coils 12, 13 and 14 relative to the magnetic field caused by the charging device 7, the three coils 12, 13, 14 generally generate a different charging current.

By now comparing the different charging currents, it can be determined which coil or coils 12, 13, 14 generates or generates the highest charging current.

If, on the basis of these charging currents, it appears that a position with an average more variable magnetic field at the location of the coils 12, 13, 14 is possible or probable by displacement of the device 1, an arrow 11 is shown on screen 6 indicating indicates in which device 1 must be moved in order to find a stronger magnetic field.

The total charging current is also shown as numerical value 9.

Optionally, the estimated remaining time to full charge of the battery 4, or the estimated time at which the charge is complete, can also be displayed on the screen 6 as an indication of the magnitude of the charging current.

The present invention is by no means limited to the embodiments of an apparatus according to the invention described as an example and shown in the figures, but such an apparatus can be realized in various variants without departing from the scope of the invention.

Claims (9)

A device (1) provided or provided with a rechargeable battery (4), the device (1) and / or the battery (4) being arranged to be able to charge the battery (4) wirelessly using at least one external charging device (7) for wireless charging of batteries, characterized in that the device (1) is provided with an indication means (6) which can give an indication of the magnitude of the charging current which is possible at the current position and in the current orientation of the device and / or is provided with an indication means (6) which can give an indication of how the position and / or orientation of the device (1) should be changed in order to enable a higher charging current than in the current position and in the current orientation of the device (1). A device (1) according to claim 1, characterized in that the device (1) is a telephone or a computer or a PDA. A device (1) according to claim 1, characterized in that the device (1) is an aid to be able to charge a battery wirelessly. A device (1) according to any one of the preceding claims, characterized in that the device (1) is provided with an indication means (6) which can give an indication of the magnitude of the charging current which is possible at the current position and in the current orientation of the device, wherein the device (1) is provided with an algorithm that can calculate an expected duration and / or an expected end time of a charging process from the possible charging current and the charging status of the battery (4) and is provided with means (6) for indicating this duration and / or this end time. A device (1) according to any one of the preceding claims, characterized in that the device (1) is provided with an indication means (6) which can give an indication of how the position and / or orientation of the device (1) should be changed to enable a higher charging current than in the current position and in the current orientation of the device (1), wherein the device (1) or the battery (4) is or are provided with means for at least one position to determine the strength and direction of a variable magnetic field. A device (1) according to any one of claims 1 to 4, characterized in that the device (1) is provided with an indication means (6) which can give an indication of how the position and / or orientation of the device (1) must be changed to allow a higher charging current than in the current position and in the current orientation of the device (1), wherein the device (1) or the battery (4) is or are provided with means (10, 12 , 13, 14) to determine the strength of a variable magnetic field and / or the magnitude of a current generated by such a magnetic field at different positions on or in the device (1) or on or in the battery (4). A device (1) according to claim 6, characterized in that the means for placing the strength of a variable magnetic field and / or the magnitude of a variable magnetic field at different positions on or in the device (1) or on or in the battery (4) a current to be determined by such a magnetic field at least two coils (12 or 13 or 14) or other circuits for generating a current from a variable magnetic field which at different positions in or on the device (1) or in or on the battery (4) is arranged, and which are suitable for separately or jointly providing the battery (4) with a charging current. A device (1) according to claim 7, characterized in that the means for placing the strength of a variable magnetic yeld and / or the magnitude of a variable magnetic yeld at different positions on or in the device (1) or on or in the battery (4) a current to be determined by such a magnetic field comprises at least three coils (12 or 13 or 14) or other circuits for generating a current from a variable magnetic field. A device (1) according to claim 6, characterized in that the means for placing the strength of a variable magnetic field and / or the magnitude of a variable magnetic field at different positions on or in the device (1) or on or in the battery (4) a current to be determined by such a magnetic field comprises a grid of sensors (10).