EP1865747B1 - Audio system with inductive transmission and broadband transmission - Google Patents

Description

The present invention relates to a hearing system with at least two hearing devices, which are designed for wireless communication with one another, and a transmission station, by means of which messages can be transmitted between the hearing devices. Hearing devices are understood to mean not only hearing aids but also headsets, headphones and the like.

It is known to transmit audio signals for hearing aids in the baseband via inductively coupled coils analog. For example, so-called telephone coils are used to transmit the voice signals when making a call. In addition, induction loops are used in museums, churches and the like to send signals to hearing aids. In addition, coils are also used to transmit signals from one hearing aid to another in a cross-supply (hearing aid wearer carries two hearing aids).

The analog transmission of the audio signals is typically carried out with the aid of a modulated carrier. For this purpose the hearing aids have corresponding AM / FM receivers. In the case of cross-supply, the behind-the-ear hearing aids also have AM / FM transmitters.

In addition to the wireless transmission of signals and a wired transmission between the hearing aids is possible. In addition, a wired transmission from an external audio device to a hearing aid via an audio shoe connector is possible.

In the article " An Ultra Wideband Transceiver Architecture for Low Power, Low Rate, Wireless Systems ", IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY, VOL. 54, NO. 5, SEPTEMBER 2005, pages 1623-1631 A broadband pulse transmission technique for wireless systems is described. The transmission technology is characterized by low power consumption. The data transmission rate is comparatively high for hearing aid conditions.

From the patent US Pat. No. 5,751,820 a communication system for hearing aids for wireless transmission is known. In the hearing aid, a transceiver is housed, which communicates bidirectionally with a remote processing unit.

Furthermore, the document describes DE 602 02 618 T2 a cellular system for asymmetric wireless communication with a carrier wave for the downlink and ultra-broadband for the uplink. A mobile communication device has a carrier wave-based receiver and an ultra-wideband transmitter. Since less power is required for an ultra-wideband broadcast than for a carrier wave broadcast, the mobile communication device benefits from this power saving. On the other hand, the communication from the base station communication device to the mobile communication device is by a carrier wave transmission.

From the publication WO 02 28 143 A2 a hearing aid system with two hearing aids and an external processor unit is known. Bidirectional communication is possible between these components. Each of these components contains a transmitting and receiving unit.

In addition, the document discloses US 2005/0283207 A1 a transmission between an external hearing aid and a low power implant. For this purpose, the hearing device and the implant each have a transmitting and receiving unit with a coil for inductive transmission. For transmission, ultra-wideband pulses of very short duration are used.

Furthermore, in the document EP 1 531 650 A2 a hearing instrument system described in which a plurality of hearing aids are wirelessly connected to a base unit. Between Hearing aids and the base unit is also a bidirectional connection possible.

The object of the present invention is to propose a hearing device with which wireless communication with low energy consumption and increased data transmission rate is possible. In addition, a corresponding hearing system is to be specified, in which several hearing devices communicate in the manner mentioned.

According to the invention, this object is achieved by a hearing system according to claim 1.

Preferably, digitally modulated magnetic field signals can be transmitted between the hearing devices. For a secure transmission with low hardware cost is possible.

The bandwidth of each of the broadband pulse transmitters is at least 100 MHz. As a result, a relatively high data rate can be realized.

Each of the broadband pulse transmitters is connected to a miniaturized electrical antenna. Their maximum extension is preferably between 8 and 20 mm. Thus, the size of the hearing devices and in particular the hearing aids can be reduced.

According to a preferred embodiment, bidirectional, quasi-simultaneous communication can be carried out between the hearing devices via the transmission station. For this purpose, it may be advantageous to transmit control information from the transmission station during the communication.

This quasi-simultaneous bi-directional communication is possible in that the communication in a time window in one direction and in a subsequent time window in the other direction. This allows the transceivers to be realized with little effort.

In addition, the transmitting station may have a bidirectional interface to an external configuration device. In particular, it is favorable if configuration data can be transmitted from the configuration device via the transmission station to one of the hearing devices. Thus, the transmitting station receives the dual functionality of transmitting signals between the hearing devices, but also signals from a configuration device to a hearing device.

The present invention will now be described with reference to the accompanying drawing which shows a schematic diagram of a system according to the invention with two hearing aids.

The embodiments described in more detail below represent preferred embodiments of the present invention.

The FIG shows a hearing aid wearer who carries a left hearing aid HG-L in his left ear and a right hearing aid HG-R in his right ear. The communication between both hearing aids via a portable base unit BG. This base unit BG can wear the hearing aid wearer, for example, in his breast pocket and it takes over the function of the transmission station.

In each of the hearing aids HG-R and HG-L digital receiver and transmitter for audio signals are separated. Both are adapted to the extreme requirements of hearing aids in terms of size and power requirements. If the remote station of the communication is a portable base unit BG with less critical requirements, then more complexity can be used for the transmitters and receivers incorporated therein, with the aim of compensating for the limitations in the hearing aids.

For the receiver in the hearing aids HG-R and HG-L, a miniaturized coil is used in a favorable embodiment. Their maximum extension is preferably between 4 and 8 mm. Such coils are used, for example, for remote controls of hearing aids.

The receiver coils of the hearing aids receive the digitally modulated magnetic field signal of a transmitter, which has a much larger and thus more effective transmission coil and is installed in the base unit BG. The signal course is symbolized in the FIG by arrows from the base unit BG to the hearing aids HG-R and HG-L. The inductive transmitter is in the FIG with TX designated. It is driven by a signal processing unit P, which has a memory, and a communication interface C. Furthermore, the base unit BG a battery B, and not shown operating and display elements.

For the transmitter in the hearing aids HG-R and HG-L, a likewise miniaturized electrical antenna is used, which emits broadband pulsed signals with low transmission field strength. The technique of transmitting broadband pulsed signals is known from the aforementioned article "An Ultra-Wideband Transceiver Architecture for Low Power, Low Rate, Wireless Systems". With this technology, signals can be emitted by the transmitter with very low power consumption. These signals are shown with arrows from the hearing aids HG-R and HG-L to the base unit BG in the FIG.

Thus, the weak, broadband pulsed signals in the base unit BG can be received with sufficient quality, there is a much larger and thus more effective electrical receiving antenna installed. The receiving circuit or the receiver RX is also realized very expensive to reliably detect the weak signals.

In the event that a so-called cross-supply of the patient is necessary, the digital audio signal can be passed through the base unit BG from one hearing aid HG-R to the opposite hearing aid HG-L or vice versa. In the case of a bi-cross supply of the patient, the digital audio signals can be passed through the base unit BG from right to left and quasi-simultaneous from left to right. For this purpose, control signals are transmitted from the base unit BG, which effect an alternating transmission of the broadband pulsed signals of the hearing aids HG-R and HG-L involved.

For a configuration of the base unit BG, a bidirectional interface to a configuration unit KG is optionally provided. The interface may be either a simple serial wire interface (eg Universal Serial Bus) or a wireless interface (eg Bluetooth, Zigbee, WLAN). The bidirectional interface can also be used in a further step to reconfigure programmable hearing aids. In this case, programming data is transmitted instead of the digitized audio data, and the base unit operates as a transmitting station from and to the configuration device. The configuration device may be a PC or notebook on which the fitting software for the hearing care professional is installed.

By combining the most favorable for hearing aids, digital audio receiver method (inductive coupling) with the most favorable for hearing aid digital audio transmitter method (electric broadband pulses), it is possible to provide a wireless transmitter-receiver (transceiver) concept, the very is power and space saving. The complex functions are realized in a separate from the hearing devices or the hearing aid base unit, since it serves as a transmission station and low demands on power consumption and space requirements.

When reconfiguring programmable hearing aids, the rapid data rate of the hearing aids is a great advantage, as it allows the complete reading out of the data stored in the hearing aid very quickly.

The high data rate when communicating with a hearing aid continues to open up the possibility of implementing new hearing aid concepts. This is how the document describes DE 10228157 Hearing aids with signal processing outsourced to an external unit. This failed in practice so far on the feasibility of a fast data channel from the hearing aids to the external unit, but is now possible with the hearing devices according to the invention.

Claims (8)

1. Hearing system having

   - at least two physically separate hearing apparatuses (HG-R, HG-L) that are designed for wireless communication with one another, wherein each hearing apparatus is equipped with a transceiver that has an inductive reception device, including a receiver coil, and a digital wideband pulse transmitter, including an antenna, and

   - a transmission station (BG) that is structurally separate from the hearing apparatuses and that can be used to transmit a message from one of the hearing apparatuses to another of the hearing apparatuses, wherein the transmission station has an inductive transmission device, including a transmission coil, for sending to the hearing apparatuses and a wideband reception device, including a reception antenna, for receiving from the hearing apparatuses, wherein

   - the inductive reception device and the digital wideband pulse transmitter in each hearing apparatus are constructed separately from one another,

   - the transmission coil of the transmission station is substantially larger than the receiver coil of each hearing apparatus, and

   - the reception antenna of the transmission station is substantially larger than the antenna of each hearing apparatus.
2. Hearing system according to Claim 1, wherein digitally modulated magnetic field signals are transmittable between the hearing apparatuses (HG-R, HG-L).
3. Hearing system according to Claim 1 or 2, wherein the bandwidth of each of the wideband pulse transmitters is at least 100 MHz.
4. Hearing system according to one of Claims 1 to 3, wherein the electrical antenna of each wideband pulse transmitter is smaller than 20 mm.
5. Hearing system according to one of Claims 1 to 4, wherein a bidirectional, quasi-simultaneous communication is implementable between the hearing apparatuses (HG-R, HG-L) via the transmission station (BG).
6. Hearing system according to Claim 5, wherein the communication also involves control information being transmitted by the transmission station (BG).
7. Hearing system according to one of Claims 1 to 6, wherein the transmission station (BG) has a bidirectional interface to an external configuration device (KG).
8. Hearing system according to Claim 7, wherein the configuration data are transmittable from the configuration device (KG) to one of the hearing apparatuses (HG-R, HG-L) via the transmission station (BG).

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