Hearing aid device with in-the-ear-canal microphone

The invention claimed is: 1. A hearing aid device, comprising: a receiver configured to be arranged in the ear canal; a directional microphone comprising two microphones, termed a front and a rear microphone, respectively, or one microphone having two sound inlets, termed a front and a rear sound inlet, respectively; a feedback suppression system for counteracting acoustic feedback on the basis of sound signals detected by the directional microphone; an open fitting providing ventilation, wherein the two microphones or the two different sound inlets of the directional microphone are arranged in the ear canal at the same side of the receiver and sound is allowed to propagate between the microphones or between the inlets of the directional microphone and the receiver, the hearing aid device further comprises a mould or a housing provided with the front microphone and the rear microphone, the mould or housing being configured to be inserted into the ear canal in such a way that the receiver or the sound outlet of the receiver is arranged closer to the eardrum than the rear microphone or the rear sound inlet, and that the rear microphone or the rear sound inlet, is arranged between the receiver and the front microphone or the front sound inlet, and the microphones or sound inlets are spatially positioned relative to each other to provide that the acoustic feedback received at the rear microphone or the rear sound inlet exceeds the acoustic feedback received at the front microphone or the front sound inlet by at least 3 dB, when the hearing aid device is arranged in a normal ear canal. 2. A hearing aid device according to claim 1 wherein the feedback suppression system comprises a delay unit for delaying the rear microphone signal picked up by the rear microphone and a combination unit for subtracting the delayed rear microphone signal from the front microphone signal picked up by the front microphone. 3. A hearing aid device according to claim 1 wherein the open fitting providing ventilation is implemented in that the hearing aid device comprises a dome or an ear mould provided with one or more ventilation apertures, where the sum of the cross-sectional area(s) of the ventilation apertures is at least 5% of the cross-sectional area of the ear canal so that: ∑ i ⁢ a i ≥ 0.05 ⁢ ⁢ A , ( 1 ) where a i is the cross-sectional area of the i'th ventilation aperture and where A is the cross-sectional area of the ear canal. 4. A hearing aid device according to claim 1 , further comprising: a dome or an ear mould; and the front microphone and the rear microphone, wherein the rear microphone is arranged on the inner side of the dome or the ear mould, and the rear microphone is arranged adjacent to the receiver. 5. A hearing aid device according to claim 1 , wherein the hearing aid device comprises the rear microphone and the receiver that are integrated in one unit. 6. A hearing aid device according to claim 1 , wherein the hearing aid device comprises a housing having a first portion and a second portion, where each of the two portions are basically box-shaped or cylindrical and where the longitudinal axis of the first portion is angled relative to the longitudinal axis of the second portion and where the housing has a geometry that fits the anatomy of the ear canal. 7. A hearing aid device according to claim 6 , wherein the first portion comprises the front microphone and the rear microphone, and the receiver is housed in the second portion. 8. A hearing aid device according to claim 6 , wherein the front and rear microphones and the receiver are not located on a common straight line, but reflect the angle between first and second portion of the housing. 9. A hearing aid device according to claim 1 , wherein the hearing aid device comprises the rear microphone and the front microphone, and the hearing aid device is configured for attenuating the signal picked up by the rear microphone 3 dB or more relative to the signal picked up by the front microphone. 10. A hearing aid device according to claim 1 , wherein the hearing aid device comprises: a directional system comprising two microphones or the directional microphone comprising two sound inlets; and a processing unit configured to execute a procedure for optimising the directional system of the hearing aid device. 11. A hearing aid device, comprising: a receiver configured to be arranged in the ear canal; a directional system including two microphones, termed a front and a rear microphone, respectively, or one directional microphone having two sound inlets, termed a front and a rear sound inlet, respectively; a processing unit configured to execute a procedure for optimising said directional system; a feedback suppression system for counteracting acoustic feedback on the basis of sound signals detected by the directional microphone; an open fitting providing ventilation, wherein the two microphones or the two different sound inlets of the directional microphone are arranged in the ear canal at the same side of the receiver and sound is allowed to propagate between the microphones or between the inlets of the directional microphone and the receiver, the hearing aid device further comprises a mould or a housing provided with the front microphone and the rear microphone, the mould or housing being configured to be inserted into the ear canal in such a way that the receiver or the sound outlet of the receiver is arranged closer to the eardrum than the rear microphone or the rear sound inlet, and that the rear microphone or the rear sound inlet, is arranged between the receiver and the front microphone or the front sound inlet, and the microphones or sound inlets are spatially positioned relative to each other to provide that the acoustic feedback received at the rear microphone or the rear sound inlet exceeds the acoustic feedback received at the front microphone or the front sound inlet by at least 3 dB, when the hearing aid device is arranged in a normal ear canal, the processing unit is configured to play a sound signal from the receiver and thereby detect a level difference between the two microphones or the two sound inlets, in order to provide a level match, where the same sound signal is used to detect a delay difference between the two microphones or the two sound inlets of the directional microphone. 12. A hearing aid device according to claim 10 , wherein the processing unit for optimising the directional system of the hearing aid device is configured to use a feedback unit to estimate a transfer function of an emitted signal from the receiver to the received signal from each m