DE102009040644A1 - Safety device for power supply utilized for wirelessly transmitting inductive energy to e.g. laptop, has evaluation and switching device activating power supply device for power transmission during exact positioning of peripheral device - Google Patents

Abstract

The device has a primary coil (2) that is loaded with power by a power supply device (5), and a radio frequency identification (RFID)-reader (7). A movable peripheral device (4) is provided with a RFID tag (8) i.e. passive transponder, that is arranged within a secondary coil (6). An evaluation and switching device (14) activates the power supply device for power transmission during clear identification and exact positioning of the peripheral device for power transmission. The primary coil is arranged coaxial to a RFID-reading coil (11).

Description

The invention relates to a security device for a wireless, in particular inductively transmitting energy to a mobile peripheral device, for this purpose, having a primary coil which can be acted upon by a power supply device with energy primary energy supplier.

Mobile deployable, electrically powered devices such as telephones, electric toothbrushes, mains-independent vacuum cleaners or the like have quite powerful batteries that are charged in or at charging stations. For this purpose, the charging stations have power supply units through which a mains voltage of an energy supply company for especially used in a household electrical appliances are reduced to a relatively low charging voltage. Charging cables with specially designed plugs are usually provided for the production of the electrically necessary contacts for charging the batteries, or the devices themselves can be plugged into the charging stations. Thus, the handling of such devices is largely unproblematic and particularly safe for users due to the low charging voltages.

A wired energy transfer is safe, but often very impractical. In that regard, there is a widespread need for wireless power transmission between an energy supplier and an electrically powered, mobile peripheral device.

By means of such a wireless energy transmission, for example, the accumulator of an electric toothbrush can be charged or a ferromagnetic cookware can be heated by inductively generated eddy currents on an induction hob of a cooker.

Another application example of wireless power transmission was presented at the Intel Developer Forum in August 2008 in San Francisco. The method presented in this forum, called Wireless Resonant Energy Link, WREL for short, is used for the wireless power supply of preferably notebooks, laptops or the like, and although it takes up the principle of a resonant transformer, but without the use of the usual core of a transformer. The wireless resonant energy link method couples via a primary coil of an energy supplier and a secondary coil of the mobile peripheral device.

A wireless energy transmission is also used in Radio Frequency Identification technology, abbreviated RFID, an identification method using electromagnetic waves.

RFID methods are used in many variants, especially in the logistics industry, but are also used for the identification of persons or animals, to name only two important fields of application.

In this identification method, mobile peripherals are provided with a transponder or RFID tag whose identifier can be read by a reader. In particular, small, batteryless RFID tags without their own power draw their energy to power a microchip storing the identifier from received radio waves, a short range electromagnetic high frequency field generated by the reader, which is from an induction coil, hereinafter referred to as the primary coil.

While the RFID technology itself as well as a charging station for an accumulator of an electric toothbrush hardly poses a health risk to an organism, the use of largely freely accessible primary coils, for example an induction hob or a recessed into a worktop for the power supply of a computer primary coil is extremely questionable in that an object unintentionally introduced into the field of the primary coil, in particular a ferromagnetic metal, will heat up immediately. The thus caused danger of triggering a fire or a burn injury by taking the hot object is regularly not taken into account. Furthermore, it can be critical if people with, for example, a pacemaker get in the vicinity of such a strong alternating electromagnetic field.

Against this technical background, the invention has the object to provide a safety device for a wireless, in particular inductively transmitting energy to a mobile peripheral device, this one having an energized by a power supply device primary coil energy supplier to provide that without a special, mechanical coupling between such a mobile peripheral device and an energy provider ensures that only one of these charging station associated, mobile peripheral device is powered wirelessly when this peripheral device is positioned sufficiently accurately with respect to the primary coil.

This technical problem is solved by a safety device for the above-explained energy supplier according to the Claim 1 by the measures that the energy supplier is provided with an RFID reader, that the peripheral device is provided with an RFID tag and that an evaluation and switching device only with a clear identification and sufficient for energy transfer positioning of the peripheral device Energy supply device for power transmission unlocks.

This precludes inadvertent heating of a randomly introduced into the field of the primary coil, in particular ferromagnetic object, since there is no energy transfer without a clear identification of the same. Since this is done even with no sufficient for energy transfer positioning of the peripheral device, moreover, a power transmission with very high efficiency is ensured. In addition, energy is also saved by such a measure, since the entire circuit complex for wireless energy transmission to the peripheral device can be switched off when the peripheral device is removed. By contrast, the power supply of the RFID reader hardly matters.

If the RFID technology naturally provides a clear identification of the mobile peripheral device, the arrangement of an RFID read coil relative to the RFID tag is not insignificant for the sufficiently exact positioning for an energy transmission. In a constructive embodiment of the device according to the invention, it is therefore provided that the primary coil and an RFID read coil are arranged coaxially, even lying in a common plane.

It can be provided that the RFID read coil is disposed radially inward, which may be useful if the field emitted by the RFID tag field has a very strong bundling and thus preferably a strong directional characteristic perpendicular to that of the RFID read coil or Primary coil clamped plane. In this case, an exact positioning of the peripheral device takes place precisely when the RFID tag is positioned directly in front of or above the RFID read coil.

Alternatively and preferably, an arrangement of the RFID read coil takes place radially outward, as a result of which positioning of the peripheral device may be less accurate, but sufficient for wireless energy transmission.

If the mobile peripheral device, for example, provided with a secondary coil, an arrangement of the RFID tag is preferably carried out centrally within the secondary coil, so that the secondary coil with the RFID tag within the spanned by the RFID read coil radius, whereby a sufficiently accurate positioning of the Peripherieäts for energy transfer is ensured, since then the primary coil and the secondary coil are directly opposite each other.

In a further embodiment, it can be thought of here that the RFID tag is embedded in a flat side of the secondary coil facing the energy transmission of the primary coil. Disturbing influences of the secondary coil are then hardly expected.

The arrangement of the RFID tag within the secondary coil also has the advantage that a lateral field emission of the RFID tag is shielded at least to a certain extent by the metal of the secondary coil.

In a further variant of the device according to the invention is dispensed with a separately designed RFID read coil and the primary coil of the power supplier is used as a read coil. Which of the two alternatives is selected will be determined essentially by the operating parameters, in particular the operating frequencies of both the primary coil and the RFID system used. It can be further thought that the primary coil is timed clocked for the wireless power supply and the reading of the RFID tag is used. With suitable operating parameters, if appropriate, both signals can also be connected together to the primary coil.

Since the RFID tag of the mobile peripheral device only has to have a short range and the data exchange between the RFID tag and the reader is limited only to the identification, the RFID tag can be comparatively simple and thus cost-effective, for example, as a passive transponder. This offers a low-cost RFID system that works at low frequencies.

The essence of the invention will be further explained with reference to the drawing. The only 1 The drawing shows a highly schematic of a central cross section perpendicular to a plane spanned by a primary coil of a safety device according to the invention.

1 shows one in a table top 1 , a worktop or the like inserted primary coil 2 an energy supplier 3 , The energy provider 3 serves the wireless power supply of a mobile peripheral device 4 in the embodiment, for example, a laptop, a notebook or the like.

The primary coil 2 is from a power supply device 5 fed, leaving the primary coil 2 a magnetic alternating field radiates.

The peripheral device 4 has a secondary coil 6 on, in by the alternating magnetic field of the primary coil 2 a voltage is induced for operation of the peripheral device 4 can be used.

Thus a wireless energy transfer to the peripheral device 4 only if this is identified with certainty and in particular sufficiently accurate for a wireless energy transmission with the secondary coil 6 above the primary coil 2 is positioned, is the energy supplier 3 with an RFID reader 7 and the peripheral device 4 with an RFID tag 8th Mistake.

The RFID tag 8th , preferably a passive transponder without its own power supply, further preferably has a polarization, indicated by the field 10 pronounced directional characteristic and short range. This directional characteristic is substantially perpendicular to one of an RFID read coil 11 of the RFID reader 7 spanned level 12 that are parallel to the top 13 the tabletop extends.

As a result of these design measures identifies the RFID reader 7 not just the peripheral device 4 but also will the exact positioning of the RFID tags 8th over the RFID read coil 11 ensured as an identification query of the RFID tags 8th can only be successful if its field 10 in the detection range of the RFID read coil 11 is located.

Is through the RFID reader 11 the mobile peripheral device 4 and also its sufficiently exact positioning on the top 13 the tabletop 1 above the RFID read coil 11 is detected by an evaluation and switching device 14 the power supply device 5 for wireless energy transfer from the primary coil 2 to the secondary coil 6 unlocked.

To ensure optimal wireless energy transfer, the primary coil is also included 2 as well as the secondary coil 6 likewise to position each other sufficiently exactly one above the other. The symmetry necessary for this is achieved on the one hand by the measure that the primary coil 2 and the RFID read coil 11 a coaxial arrangement, wherein the RFID read coil 11 is arranged radially outboard.

Conversely, this is the RFID tag 8th centrally in one during the energy transfer of the primary coil 11 facing flat side 15 the secondary coil 6 admitted.

Due to these measures, the RFID tag is located 8th with his field 10 sufficiently exact on the axis 16 the RFID read coil 11 because there is the communication between the RFID tag 8th and the RFID reader 7 for a data exchange and thus for an identification of the peripheral device 4 optimal.

Due to the coaxial arrangements of primary coil 2 and RFID read coil 11 on the one hand and RFID tag 8th and secondary coil 6 On the other hand then there are also the primary coil 2 and the secondary coil 6 in a sufficiently precise position for wireless power transmission.

Will be the mobile peripheral device 4 on the tabletop 1 moved or removed, the RFID reader provides the absence of the identification signal of the RFID tag 8th firmly and interrupts, indicated by the open switch 17 , the power supply of the RFID read coil 11 , which excludes that others, in the field of the primary coil 2 introduced, metallic objects can heat up or other disturbing influences can emanate from the primary coil.

LIST OF REFERENCE NUMBERS

1

tabletop

2

primary coil

3

utilities

4

peripheral

5

Power supply device

6

secondary coil

7

RFID reader

8th

RFID tag

9

10

field

11

RFID reader coil

12

level

13

top

14

Evaluation and switching device

15

flat side

16

axis

17

switch

Claims (8)

Security device for a wireless, in particular inductive, energy to a mobile peripheral device transmitting, this one having a power supply device can be acted upon by energy primary coil having energy supplier, characterized in that the energy supplier ( 3 ) with an RFID reader ( 7 ) that the peripheral device ( 4 ) with an RFID tag ( 8th ) and that an evaluation and Switching device ( 14 ) only with a clear identification and sufficient for energy transfer positioning of the peripheral device ( 4 ) the power supply device ( 5 ) for the energy transfer. Device according to claim 1, characterized in that the primary coil ( 2 ) and an RFID read coil ( 11 ) are arranged coaxially. Apparatus according to claim 2, characterized in that the RFID read coil ( 11 ) is arranged radially on the outside. Apparatus according to claim 1, characterized in that the primary coil is used as an RFID read coil. Device according to one or more of the preceding claims, characterized in that the peripheral device ( 4 ) a secondary coil ( 6 ) and that the RFID tag ( 8th ) within the secondary coil ( 6 ) is arranged. Device according to claim 5, characterized in that the RFID tag ( 8th ) centrally in one during the energy transmission of the primary coil ( 2 ) facing flat side ( 15 ) of the secondary coil ( 6 ) is admitted. Device according to one or more of the preceding claims, characterized in that the RFID tag ( 8th ) one on the from the RFID read coil ( 11 ) level ( 12 ) has perpendicular polarization. Device according to one or more of the preceding claims, characterized in that the RFID tag ( 8th ) is a passive transponder.

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