ADJUSTABLE SIDETONE AND ACTIVE NOISE CANCELLATION IN HEADPHONES AND SIMILAR DEVICES

Abstract

A headphone device comprising active noise cancellation means (ANC) having a feedback (FB) signal path, a feed forward (FF) signal path and a sidetone signal path, where the headphone is provided with a control member (1, 11) that can be displaced or rotated between opposite positions, where the control member (1, 11) is configured such that the gain of the FF signal path and the gain of the sidetone signal path are controllable by the control member (1, 11) in such manner that when the control member (1, 11) is at one extreme position, the gain of the FF signal path is maximum and the gain of the sidetone signal path is minimum and when the control member (1,11) is at the opposite extreme position, the gain of the FF signal path is minimum and the gain of the sidetone signal path is maximum.

Claims

1. A headphone comprising active noise cancelling means (ANC) having a feedback (FB) signal path, a feed forward (FF) signal path and a sidetone signal path, wherein the headphone is provided with a control member that can be displaced or rotated between opposite positions, wherein the control member is configured such that the gain of the FF signal path and the gain of the sidetone signal path are controllable by means of the control member in such manner that when the control member is at one extreme position, the gain of the FF signal path is maximum and the gain of the sidetone signal path is minimum and when the control member is at the opposite extreme position, the gain of the FF signal path is minimum and the gain of the sidetone signal path is maximum.

2. A headphone according to claim 1, wherein the gain of the feedback signal path is fixed at a predetermined value.

3. A headphone according to claim 1, wherein the gain of the feedback signal path is variable.

4. A headphone according to claim 1 wherein the control member is a rotary knob or similar member.

5. A headphone according to claim 1 wherein the control member is a slider control, such as a touch bar.

6. A headphone according to claim 1 wherein the sidetone signal path and FF signal path are controlled by a touch panel or by one or more buttons.

7. A headphone according to claim 6 further comprising one single button or one single touch area configured such that the user can cycle through a table containing the on/off state or intermediate settings of the sidetone and FF signal paths thereby moving one row each time the single button or single touch area is pressed or touched.

8. A headphone according to claim 6 further comprising two buttons or touch areas configured such that the user can cycle through a table containing the on/off state or intermediate settings of the sidetone and FF signal paths thereby moving one row up each time one button or area is pressed or touched and moving one row down each time the other button or area is pressed or touched.

9. A headphone according to claim 1, wherein the control member is provided on the headphone.

10. A headphone according claim 1, wherein the control member is provided on a device that is in functional communication with the headphone.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0034] Further benefits and advantages of the present invention will become apparent after reading the detailed description of non-limiting exemplary embodiments of the invention in conjunction with the accompanying drawings, wherein

[0035] FIG. 1 shows a plot schematically illustrating the effect of adjusting a single user operable member on a headphone according to an embodiment of the invention;

[0036] FIG. 2 shows pre-set options that can be activated by for instance a press button or the like as an alternative to the continuous control provided by a rotatable knob or a slider bar; and

[0037] FIG. 3 shows an example of a gain table used in an embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0038] In the following a detailed description of an example embodiment of the invention is given. It is however understood that the principles of the invention could be embodied in other ways.

[0039] With reference to FIG. 1 there is shown a plot that schematically illustrates the effect of adjusting a single user operable member 1 (in this example embodiment a rotatable knob) provided on a headphone according to an embodiment of the invention. FIG. 1 shows the gain of the sidetone path and the gain of the feed forward path as a function of the rotation of the control knob 1. In the embodiment of the invention shown in FIG. 1, the gain of the feedback path is constant and equal to 0 dB (its maximum value).

[0040] As schematically illustrated in FIG. 1, when the control knob 1 is rotated from the middle position 4 counter-clockwise 2, the gain 5 of the side tone path increases from a very low level (−X dB) to the same level (0 dB) as the gain 7 of the feedback path. When the control knob 1 is at any position from the middle position 4 and to the extreme counter-clockwise position, the gain 6 of the feed forward path remains at the very low level (−X dB). Hence, when the control knob 1 is rotated counter-clockwise 2 from the middle position 4, the user of the headphone is substantially only presented with the effect of the sidetone and the feedback path.

[0041] As indicated in FIG. 1, a rotation of the control knob 1 to large counter-clockwise positions (between about 40 and 100% counter-clockwise) in the figure would be the adjustment of the control knob 1 that a user would typically choose during normal voice calls 8, i.e. during voice calls in substantially quiet surroundings without wind noise.

[0042] When the control knob 1 is rotated from the middle position 4 clockwise 3, the gain 6 of the feed forward path increases from a very low level (−X dB) to the same level (0 dB) as the gain 7 of the feedback path. When the control knob 1 is at any position from the middle position 4 and to the extreme clockwise position, the gain 6 of the sidetone path remains at the very low level (−X dB). Hence, when the control knob 1 is rotated clockwise 3 from the middle position 4, the user of the headphone is substantially only presented with the effect of the feed forward and the feedback path.

[0043] As indicated in FIG. 1, a rotation of the control knob 1 to large clockwise positions (between about 40 and 100% clockwise) in the figure would be the adjustment of the control knob 1 that a user would typically choose during voice calls in very noisy environments 10.

[0044] As indicated in FIG. 1, a rotation of the control knob 1 to mid-wise positions (between 40% counter-clockwise and 40% clockwise) in the figure would be the adjustment of the control knob 1 that a user would typically choose during outdoor voice calls 9.

[0045] In an embodiment of the invention, during a voice call, it is proposed to use the below settings (c.f. FIG. 1):

[0046] 1) FB ANC is always active irrespective of control knob 1 rotation or slider position.

[0047] 2) Turning the control knob 1 clockwise 3 from the middle position 4—or displacing a corresponding slider control member from its middle position towards one side—will change the gain or level of FF ANC from −X dB to 0 dB (0 to 100% FF ANC).

[0048] 3) Turning the control knob 1 counter-clockwise 2 from the middle position 4—or displacing a corresponding slider control member from its middle position towards the opposite side—will change the sidetone gain or level From −X dB to 0 dB (0 to 100% sidetone)

[0049] Alternatively, the sidetone and FF ANC could also be operated by a touch panel or by one or more buttons as described below.

[0050] In case of a single button or one single touch area, the user would for instance cycle through a table of settings, such as the one shown in FIG. 2, moving one row for each button press/touch.

[0051] In case of two buttons, one button could be configured to move one row up in the table and the other button could be configured to move one row down in the table.

[0052] During a voice call the user can select different presets for sidetone and feed-forward ANC settings on the product itself (by toggling between 3 or more presets, for instance 5 or more rows, to facilitate a finer adjustment resolution) to obtain the preferred setting according to the environment the headset is used in, such as quiet, noisy, or windy conditions.

[0053] Preset 1: In relatively quiet environments, the user will typically prefer to have maximum (100%) sidetone to be able to hear his or her own voice clearly and naturally.

[0054] Preset 2: In windy environments the user will typically prefer a setting where the sidetone and the feed-forward part of the ANC system are both set to minimum (0%)—to minimize wind noise.

[0055] Preset 3: In very noisy environments the user will typically prefer a setting where the sidetone is set to minimum (0%) and the feed-forward ANC is set to maximum (100%)—to maximize noise cancellation.

[0056] In all presets, the feedback part of the ANC system will typical be at maximum (100%) to reduce the occlusion effect, i.e. to reduce the boomy sound of own voice inside the head when the ears are blocked.

[0057] With reference to FIG. 2 there is shown a table of preset options that can be activated by for instance a press button or the like as an alternative to the continuous or stepwise control provided by a rotatable knob or a slider bar corresponding to Preset 1 through 3 mentioned above.

[0058] With reference to FIG. 3 there is shown an example of a gain table used in an embodiment of the invention. It is however understood that other numerical values than those given in the table can be used and that such values would also fall within the scope of the invention.

[0059] The table comprises six columns I, II . . . VI. Column I show the effect of the feedback ANC expressed in percent and column II similarly shows the effect of the feed forward ANC in percent. Column III shows the amount of sidetone also expressed in percent. Columns IV, V and VI show the respective gains of the feedback (FB) signal path, the feed forward (FF) signal path and the sidetone signal path expressed in dB.

[0060] FIG. 3 further illustrates that the choice of ANC and Sidetone settings—and hence the choice of the respective gains—can be obtained by the user by means of a single control member, in the figure by means of a slide bar 11 (for instance a touch bar) that, when displaced as indicated by arrow S from one extreme position providing maximum ANC effect and no sidetone effect to the other extreme position giving no feed-forward ANC effect and maximum sidetone effect, determines the balance between the FB, FF and sidetone contributions to the acoustic output from the headphone. Hereby the user can obtain the combination of these contributions that he or she judges to be the best according to the acoustic environment in which the headphone is being used as well as to the user's specific preferences. It is of course understood that other control means, such as the rotatable knob 1 in FIG. 1, could be used as an alternative to the slide bar 11.

[0061] References 5 (FIG. 1), 6 (FIGS. 1) and 7 (FIG. 1) indicate that the gain values shown in the respective of these columns corresponds to the curves 5, 6 and 7 respectively in FIG. 1.