Hearing device comprising a feedback cancellation system based on signal energy relocation

The invention claimed is: 1. A hearing device, comprising: an input transducer for converting an input sound to an electric input signal representing sound; an output transducer for converting a processed electric output signal to an output sound or mechanical vibration; and a signal processing unit operationally coupled to the input and output transducers and configured to apply a requested forward gain to the electric input signal or a signal originating therefrom, the input transducer, the signal processing unit and the output transducer forming part of a forward path of the heating device, the forward path applying a resulting forward gain to the electric input signal and providing a resulting signal, wherein the hearing device further comprises: a feedback reduction unit for reducing a risk of howl due to acoustic or mechanical feedback of an external feedback path from the output transducer to the input transducer, the forward path and the external feedback path defining a loop path exhibiting a roundtrip loop delay, wherein the feedback reduction unit is configured to modulate said requested forward gain in time, to provide that the resulting forward gain exhibits a first, relatively high gain in a first time period and a second, relatively low gain in a second time period, wherein at least one of said first time period and said second time period is determined in dependence of said roundtrip loop delay. 2. A hearing device according to claim 1 wherein the first and second time periods are repeated and follow immediately after one another without a pause between them. 3. A hearing device according to claim 1 wherein the modulation of the requested forward gain provided by the feedback reduction unit exhibits a predetermined or adaptively determined gain pattern over time with predefined and/or adaptively determined and adjusted gains A 1 , . . . , A N in corresponding time periods T 1 , . . . , T N . 4. A hearing device according to claim 3 wherein the applied gain pattern comprises repeated occurrence of a predefined gain pattern A 1 , . . . , A N , wherein the repetition time or cycle time is T 1 +, . . . , +T N . 5. A hearing device according to claim 3 wherein N is equal to two or three. 6. A hearing device according to claim 1 wherein the first and second time periods are subdivided into a number of sub time periods T H1 , T H2 , . . . , T HNH and T L1 , T L2 , . . . , T LNL , respectively, where NH and NL are the number of sub time periods of T H and T L , respectively, and wherein each time period has its corresponding relatively high (A H1 , A H2 , . . . , A HNH ) and relatively low (A L1 , A L2 , . . . , A LNL ) gain, respectively. 7. A hearing device according to claim 6 wherein an applied gain pattern comprises repeated occurrence of a predefined gain pattern (A H1 , A H2 , . . . , A HNH , A L1 , A L2 , . . . , A LNL ), wherein the repetition time or cycle time is T H1 +T H2 + . . . +T HNH +T L1 +T L2 + . . . +T LNL . 8. A hearing device according to claim 1 wherein said second time period TL is selected either similar to or smaller than the loop delay or an averaged round trip loop delay Tloop or selected in relation to the loop delay by Tloop/2<TL<Tloop*2. 9. A hearing device according to claim 1 , comprising a control unit for estimating a current loop or average loop delay or a deviation from a typical loop delay or a typical average loop delay. 10. A hearing device according to claim 1 , wherein the first and second time periods and the first and second gains are configured to conserve energy in the resulting signal compared to the signal before said modulation of said requested forward gain. 11. A hearing device according to claim 1 configured to provide that the increased gain and/or the reduced gain is/are variable during said first and second time periods. 12. A hearing device according to claim 1 comprising a time to time-frequency conversion unit for providing the electric input signal or a signal derived therefrom in a number of frequency bands. 13. A hearing device according to claim 12 configured to provide that the gain modulation over time is performed in one or more selected or all frequency bands. 14. A hearing device according to claim 12 adapted to provide that said relatively high gain and/or said relatively low gain is/are configurable for at least some of the frequency bands. 15. A hearing device according to claim 13 , configured to provide that each selected band exhibit individual gain modulation characteristics. 16. A hearing device according to claim 12 configured to provide that gain modulation is enabled/disabled in each frequency band separately based on one or more detectors for monitoring a current input signal of the hearing device and/or on the current acoustic environment. 17. A hearing device according to claim 16 wherein said one or more detectors comprises a feedback detector. 18. A hearing device according to claim 12 adapted to provide that said relatively high gain and said relatively low gain are only applied in frequency bands expected to be at risk of howl. 19. A hearing device according to claim 12 adapted to provide that said relatively high gain and said relatively low gain are only applied in frequency bands above a first threshold frequency. 20. A hearing device according to claim 19 adapted to provide that said relatively high gain and said relatively low gain are only applied in frequency bands below a second threshold frequency. 21. A hearing device according to claim 12 wherein the start time of gain patterns of at least some of the frequency bands are shifted relative to each other. 22. A hearing device according to claim 21 wherein gain patterns of neighboring frequency bands are shifted relative to each other. 23. A hearing device according to claim 1 wherein the gain modulation is applied only in a specific feedback cancellation mode of operation. 24. A hearing device according to claim 1 wherein the relatively low gain is equal to zero. 25. A hearing device according to claim 1 comprising a feedback cancellation system comprising an adaptive filter for estimating a current external feedback path. 26. A hearing device according to claim 1 being constituted by or comprising a hearing aid, a headset, an active ear protection system or a combination thereof. 27. A method of operating a hearing device comprising a forward path for applying a forward gain to an electric input signal and providing a resulting signal, the method comprising: providing an electric input signal representing sound; applying a requested forward gain to the electric input signal or a signal originating therefrom and providing a processed signal; providing a resulting signal for conversation to an output sound; and reducing a risk of howl due to acoustic or mechanical feedback of an external feedback path leaking the output sound to the input sound by modulating said requested forward gain in time, the resulting forward gain exhibiting a first, relatively high gain in a first time period and a second, relatively low gain in a second time period, wherein the forward path and the external feedback path define a loop path exhibiting a roundtrip loop delay, and at least one of said first time period and said second time period is determined in dependence of a roundtrip loop delay.