The present invention relates to a multifunction slide switch and pulse generator assembly that is especially well-suited for use in portable communication devices such as mobile phones and hearing prostheses.
The invention is a multifunction control that comprises an integrally formed combination of a digital volume control, or electrical pulse generator, and a slide switch that are selectively actuable by an appropriate manipulation of a common actuation knob as illustrated in
The electrical pulse generator part of the inventive multifunction control is preferably adapted to function according to an electromechanical principle and may be embodied in a number of different forms such as the electrical pulse generators disclosed in U.S. Pat. No. 6,943,308, U.S. Pat. No. 5,380,965, Danish Patent No. 168258 B1, in addition to U.S. Pat. No. 5,711,415 and EP-A-1455370.
Alternatively, the electrical pulse generator part may operate according to a magneto-electrical principle. According to these embodiments of the invention, the electrical pulse generator part comprises a magnetic field generator coupled to a magneto-electronic sensor. A magneto-electrical pulse generator may, for example, comprise a rotatable permanent magnet assembly mounted in proximity to a set of stationary magnetically sensitive semiconductor devices, which may be disposed in a circular pattern on a substrate member. The magnetically sensitive semiconductor devices may advantageously be operatively coupled to a suitable integrated circuit device that contains voltage or current sensing means and pulse generator circuit adapted to provide electrical pulses in response to a detected rotation of the permanent magnet assembly. The multifunction control preferably comprises at least five externally accessible electrical terminals that may be provided as elongate electrically conductive legs or pins suitable for the soldering of connecting electrical leads. Alternatively, each of the externally accessible electrical terminals may be formed as short and plane electrical contacts suitable for SMD compatible mounting.
The multifunctional assembly in accordance with the present invention saves space on the surface portion of casings of portable communication devices. This advantage is considerable in view of the constant development trend for miniaturization of mobile phones and for hearing prostheses in which the development goes towards smaller and more inconspicuous devices with higher degree of cosmetic appeal to the users.
A particularly advantageous feature of the present invention is that the slide switch portion has been adapted to function with a very small horizontal actuation distance, e.g., the distance of movement from a neutral or default position to the actuated or displaced position of the horizontally displaceable portion of the multifunction control. For hearing prostheses, adaptations of the present invention preferably have a horizontal actuation distance between 0.5 mm and 1.0 mm, such as between 0.6 and 0.8 mm, or even more preferably approximately 0.76 mm.
In a first aspect, the invention relates to a multifunctional switch and impulse generator assembly comprising a base part, an upper part, and a slide switch. The base part encloses an electrical pulse generator. The upper part is rotatable in relation to the base part with an actuation knob. The electrical pulse generator is adapted to provide electrical pulses on one or more externally accessible terminals in response to clockwise and/or counterclockwise rotary motion of the actuation knob. The slide switch is operable by movement of the actuation knob between a first state, wherein a first and a second switch terminal are electrically interconnected, and a second state, wherein the first and the second switch terminal are electrically isolated.
In this context, it is desired that the rotational movement and the sliding movement are performed in at least substantially the same plane, which may be directed in any direction.
The one or more externally accessible terminals receiving the electrical pulses may also be the first and second terminals which are interconnected or isolated. But, it is preferred that these terminals are separated in order to more easily separate the signals generated by rotation and sliding.
In the present context, the terms “electrically isolated or disconnected” is a state clearly distinguishable from the state of being “electrically interconnected.” Thus, a larger ohmic resistance, such a resistance larger than 1 mega ohm or preferably larger than 10 or 100 mega ohm, normally exists between the first and second switch terminals in the electrically isolated state compared to the electrically interconnected state. In the latter state, the ohmic resistance between the first and second switch terminals is preferably smaller than 100 ohm, more preferably smaller than 10 ohm or 1 ohm.
In a preferred embodiment, the electrical pulse generator is adapted to provide the electrical pulses when the slide switch is in one of the first and second states and to prevent the providing of electrical pulses when the slide switch is in the opposite state. In that manner, accidental rotation by the user brought about when desiring to actuate the slide switch is ignored. In this context, the opposite state to the first state is the second state and vice versa.
Also, it may be preferred that the upper part comprises a cavity opening facing the base part and having an internal surface, and the base part comprises a rotatable member in operative engagement with the internal surface. As such, the pulse generator is adapted to provide electrical pulses in response to clockwise and/or clockwise rotation of the rotatable member, in one of the first and second states of the slide switch, and disengaged (not engaging the internal surface) in the opposite state of the slide switch, where no pulses are then generated as a result of rotation of the upper part.
In that manner, the rotatable member may be positioned with a rotational axis offset from a rotational/central axis of the internal surface so that sliding of the upper part slides the rotational axis of the upper part closer to the rotational axis of the rotatable member. In this manner, as the rotatable member should engage the internal surface at the position where the axes are more offset (translated), the diameter of the rotatable member is defined. Thus, moving the upper part to a position where the axes are closer to each other will make the distance between the rotatable member and the internal surface larger than the diameter of the rotatable member, and engagement there between may be prevented.
Naturally, the internal surface and the rotatable member may have any desired surfaces, such as smooth surfaces or toothed surfaces. In the last situation, the displacement preferably is sufficient to ensure disengagement of the teeth.
Especially for use in hearing aids and other situations where miniature switches are desired, the slide switch preferably comprises a biasing element maintaining or biasing the slide switch toward/in the first state or the second state. The biasing element has an actuation force, which is the force required to force the biasing element to the opposite state, in the range from about 0.5N to about 3N.
In another aspect, the invention relates to a method of operating the multifunctional switch and impulse generator assembly of the first aspect, the method comprises (i) rotating the upper part in relation to the base part so that the electrical pulse generator provides electrical pulses on the one or more externally accessible terminals, and (ii) actuating the slide switch to move from one of the first state and the second state to the opposite state, in order to electrically interconnect or electrically isolate the first and second switch terminals.
In that aspect, preferably the rotating step comprises providing the electrical pulses, when the slide switch is in one of the first and second states, and not providing pulses, when the slide switch is in the opposite state.
Also, it is preferred that the upper part comprises a cavity opening facing the base part and having an internal surface. The base part comprises a rotatable member which, in one of the first and second states of the slide switch, engages the internal surface, and which, in the opposite state of the slide switch, does not engage the internal surface. The rotating step comprises, when the slide switch is in the one of the first and second states, rotating the rotatable member and the pulse generator providing the electrical pulses in response to clockwise and/or clockwise rotation of the rotatable member, and, when the slide switch is in the opposite state, not rotating the rotatable member and the pulse generator not providing pulses.
In addition, preferably, the method further comprises the steps of biasing the slide switch toward one of the first state or the second state, and forcing the slide switch from one of the first and second states to the opposite state by a force in the range from about 0.5N to about 3N.
The multifunction control 1 of
The electrical pulse generator portion of the multifunction control 1 is actuated by imparting a clockwise or counterclockwise rotary motion to the actuation knob 6. The slide switch functionality is actuated by imparting a horizontally-oriented force to the actuation knob 6, e.g., an actuation force along a plane parallel with the substantially plane upper surface 5 of the elliptical flange 4. In the present embodiment of the invention, the slide switch is adapted to function as a momentary switch but other switch functions are naturally also contemplated.
The partially disassembled multifunction control 1 in
Teeth of the gear wheel 13 shown in
In the cross-sectional view of
The construction and operation of the actual electrical pulse generator or rotation detector that is enclosed in the base part is described in detail in EP-A-1455370, which is herein incorporated by reference in its entirety.
This application claims the benefit of U.S. Provisional Application No. 60/796,397, filed May 1, 2006, entitled “A Multi-Functional Control”, which is hereby incorporated by reference in its entirety.
Number | Date | Country | |
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60796397 | May 2006 | US |