NL1031285C2 - Rechargeable battery charging device for electro-magnetic compatibility application, has converter converting beam into electrical output signal, and battery is connected to converter for charging battery on basis of output signal - Google Patents

Abstract

The device has a light source (100) i.e. high-power laser source, and a coupled fiber connection for transmitting a beam in a fiber link. The fiber connection is associated with a converter (102) for converting the beam into an electrical output signal. A rechargeable battery (103) is connected to the converter for charging the battery on a basis of the electrical output signal. A positioning unit is associated with a measurement component for rotating an object. A control unit (106) controls a set of components of the device.

Description

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Device for charging a battery, in particular for EMC applications

The present invention relates to a device 5 for charging a battery, which battery is intended in particular for supplying a relatively heavy load, and more particularly for supplying an electric motor, for example for use with positioning an antenna in EMC applications.

10 The term EMC (Electro-Magnetic Compatibility, Electro

Magnetic compatibility) stands for the entire field of applications, where systems influence each other, typically unwanted, electro-magnetically. Here, therefore, there is a first system that undesirably influences a second system, i.e.

15 is disturbing. EMC measurements in which such disturbances are measured take place in an anechoic or anechoic space consisting of a Faraday cage which is provided on the inside with absorbent material in order to obtain a homogeneous field. It is of course of great importance that the test equipment used to perform the measurements does not disturb this homogeneous field. In particular, metal parts such as electrical (galvanic) power cables must be avoided. To date, compressed air has been used to position the antenna required in certain EMC applications. The disadvantage of this is that air hoses are difficult to manipulate, in particular when the antenna tower has to be moved.

The present invention has for its object to provide a device for charging a battery, which makes it possible to supply a load substantially without interference.

To this end, the invention is distinguished in that the device comprises: 1031285 2 - a light source for emitting a light beam in a fiber connection coupled thereto; conversion means connected to this fiber connection for converting the light beam into an electrical output signal; - a rechargeable battery which is connected to the conversion means for charging the battery on the basis of the electrical output signal.

Instead of compressed air, a light bundle, typically a LASER bundle coupled to a fiber connection, is now introduced into a space. In this way, a power is thus introduced into this space without the need for galvanic (metal) cables. The optical power of the light beam is converted into an electrical power that is stored in a rechargeable battery.

According to a possible embodiment, the conversion means and the battery are accommodated in a space around which electromagnetic damping means are provided, such as a casing made of a material with electromagnetic damping properties, such as ferrite. As a result, the components included in this room cannot cause interference in the outside environment of this room.

The light source is preferably a LASER. The fiber connection for transmitting the light beam typically comprises a cable assembly of optical fiber optic cables.

According to a further developed embodiment, a load is provided in the space which can be supplied by the battery. In this way a load can thus be supplied with the aid of a LASER, and such that no electromagnetic interference elements are present around the load.

3

According to a preferred embodiment of the invention, the load is an electric motor. The invention can thus drive an electric motor with the aid of light, and without causing electromagnetic interference in the vicinity of the electric motor. The electric motor can further be coupled to positioning means for positioning an object, such as an antenna. This can concern both one, two and three-dimensional positioning.

The invention also relates to the use of a device according to the invention for EMC applications, and in particular for positioning an antenna in EMC measurements.

The invention will be further elucidated on the basis of a number of exemplary embodiments of the invention which are described in detail below with reference to the accompanying drawings. The drawings show: in figure 1 a diagram of a first exemplary embodiment of the device according to the invention; Figure 2 shows a diagram of a second exemplary embodiment of the device according to the invention; figure 3A shows a perspective view of a block with a battery, electric motor and transmission mounted therein for use in a device according to the invention; Figure 3B shows the block of Figure 2A before the assembly of the various components.

Figure 1 is a principle diagram of the device according to the invention. The device comprises a light source 100 for transmitting a light beam through medium 105 to a converter 102. Here, the power of the light beam is converted into electrical power for charging a rechargeable battery 103. If necessary, this battery 103 can be used to feed a load 104. The transducer 102, the battery 103, the load 104, and the connections between them are arranged in a space 101 around which electromagnetic damping means can be provided to damp the electromagnetic radiation caused by these components. This can be done, for example, by enclosing these parts 102, 103, 104 with a material with electromagnetic damping properties, such as ferrite.

Those skilled in the art will understand that this is only a principle diagram, and that, for example, a further control and stabilization circuit may be provided between the load 104 and the battery 103 in order to provide a suitable supply voltage / current for the load. Furthermore, a control unit 106 may be provided for checking the various components of the device. For example, the control unit 106 may check the settings of the light source, check the battery's power supply (not shown), etc.

Figure 2 shows a diagram of a further developed exemplary embodiment of the device according to the invention. The figure shows a first space 201 which is possibly surrounded by, for example, a ferrite sheath such that the electromagnetic radiation caused in this space is damped. The implementation of this space will be further detailed with reference to figures 3A and B.

A second space 208 is provided with a LASER source 200, a power supply 207 for this LASER source, a radio link block 207 and a control unit 206. The control unit 206 is further connected to a display and input unit 211. The control unit 206 controls the LASER supply 207 via line 220, for example by means of a LASER start signal and a LASER stop signal. In the case of a problem with the incoming LASER bundle occurring in space 201, a control signal can be transmitted via the bi-directional connection 215 to radio connection block 207, which in turn sends a signal via connection 216 to the LASER supply 207.

The LASER bundle transmitted from the LASER source 200 is guided by means of one or more optical fiber cables from the cable assembly 205 to conversion means 202. For safety purposes, the assembly can also contain one or more optical fiber optic cables to form a return path. Note that it is also possible to transmit the control signals via one of the fiber optic cables that are intended to transmit the optical power light beam.

The conversion means 202 converts the optical signal into an electrical signal for charging a rechargeable battery 203 via a charging circuit. The rechargeable battery 203 is connected to an electric motor 204.

The activation and deactivation of the electric motor 204 takes place here with the aid of a switching element, for example transistor 227, the base 222 of which can be controlled with an appropriate signal. Furthermore, a protection circuit 212 may be provided which is activated in the event of problems with the incoming LASER bundle.

The exemplary embodiment of Fig. 2 is intended for positioning an antenna 213 which is connected via a reduction 214 (of for example 1:15) to the electric motor 204. The transmission system between the electric motor and the antenna will be further discussed with reference to Fig. 3A .

Furthermore, it is possible to provide manual adjustment means 230, 231 for registering two reference positions (e.g., 0 and 90 degrees) of the antenna. These can be, for example, two rotary knobs 330, 331 (see Fig. 3A), which are coupled to control means 6 (not shown) for controlling the motor 204 in accordance with the rotational rotation of the rotary knobs. further, position determining means 225 are provided for feedback to the radio link block 210 of a signal representative of the position of the antenna.

The space 201 shown schematically in Figure 2 will now be described with reference to Figures 3A and 3B. Figure 3Δ shows a block 301 in which the different parts of space 201 can be mounted. A battery 303 is provided with an elongated recess 350 in the block 301. The electric motor is rotatably mounted around a shaft 332 in a recess 351. Two discs 332, 333 are mounted on the shaft 332, which discs can be coupled by means of belts (not shown). are with discs 335, 336 mounted on a second axis 342. This second axis is provided with a third disc 337, which in turn can be coupled via a belt (not shown) to a third axis 341. An antenna can be mounted on this third axis. Those skilled in the art will understand that this is only a possible transmission, and that many variants are conceivable, partly depending on the displacement that the antenna must perform. For example, it is also possible to use a transmission that permits vertical displacement of an antenna. Furthermore, the skilled person will understand that the system can also be used to move other objects in addition to an antenna.

The other electronics (not shown), including the conversion means and the control means, can be placed in the space above the axes 332 and 342. Furthermore, position-determining means 325 are provided on the shaft 332 which feed back a signal representative of the position to control means.

7

After mounting all the parts in the block 301, this block is optionally encased by an enclosure, not shown, of a material with electromagnetic damping properties, such as ferrite.

Although the exemplary embodiments described above are intended for EMC applications and possibly have an enclosure made of a material with electromagnetic damping properties, the person skilled in the art will understand that the invention is also applicable for other applications, whether or not with a ferrite enclosure. .

Those skilled in the art will furthermore realize that many modifications and variants of the exemplary embodiments illustrated above are possible which fall within the scope of the invention, and that the scope of protection is only determined by the following claims.

1031285

Claims (13)

A device for charging a battery, comprising: 5. a light source and fiber connection coupled thereto for emitting a light beam in this fiber connection; - conversion means connected to this fiber connection for converting the light beam into an electrical output signal; 10. a rechargeable battery which is connected to the conversion means for charging the battery on the basis of the electrical output signal. Device according to claim 1, characterized in that the light source is a LASER, in particular a high-power LASER. Device according to one of the preceding claims, characterized in that the fiber connection comprises a number of optical fiber optic cables. 4. Device as claimed in any of the foregoing claims, characterized in that a load, in particular a relatively heavy load, is provided which can be supplied by the battery. Device according to claim 4, characterized in that the load comprises an electric motor. Device as claimed in claim 5, characterized in that the electric motor is connected to positioning means. Device as claimed in claim 6, characterized in that the positioning means are connected to an object, such as a measuring component, and in particular an antenna. Device as claimed in claim 7, characterized in that the positioning means are effective to cause a rotation of the object. 1031285 « Device as claimed in claim 7, characterized in that the positioning means are effective for causing a vertical movement of the object. Device as claimed in any of the foregoing claims, characterized in that the conversion means and the rechargeable battery are accommodated in a space around which an electromagnetic damping means is arranged. 11. Device as claimed in claim 10, characterized in that the electromagnetic damping means is a jacket arranged around the space 10 from a material with electromagnetic damping properties, such as ferrite. Use of a device according to any one of the preceding claims for EMC (Electro-Magnetic Compatibility) applications. Use according to claim 12 for positioning an antenna in an EMC application. 1031285