|Publication number||US20060052143 A9|
|Application number||US 10/496,601|
|Publication date||Mar 9, 2006|
|Filing date||Nov 27, 2002|
|Priority date||Nov 28, 2001|
|Also published as||DE60237163D1, EP1449267A1, EP1449267B1, EP2221708A2, EP2221708A3, EP2221708B1, US7869589, US8953779, US20050054390, US20100315370, US20150130625, WO2003047007A1|
|Publication number||10496601, 496601, PCT/2002/956, PCT/FI/2/000956, PCT/FI/2/00956, PCT/FI/2002/000956, PCT/FI/2002/00956, PCT/FI2/000956, PCT/FI2/00956, PCT/FI2000956, PCT/FI2002/000956, PCT/FI2002/00956, PCT/FI2002000956, PCT/FI200200956, PCT/FI200956, US 2006/0052143 A9, US 2006/052143 A9, US 20060052143 A9, US 20060052143A9, US 2006052143 A9, US 2006052143A9, US-A9-20060052143, US-A9-2006052143, US2006/0052143A9, US2006/052143A9, US20060052143 A9, US20060052143A9, US2006052143 A9, US2006052143A9|
|Original Assignee||Juhani Tuovinen|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (12), Referenced by (28), Classifications (28), Legal Events (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
1. Field of the Invention
This invention relates to a solution for generating tactile feedback to a user of an apparatus when the user presses a key on a keypad of the apparatus. Such tactile feedback, which is perceptible by touch, makes it possible for the user to know when the key has been pressed long and hard enough for the apparatus to register the keystroke.
2. Description of the Prior Art
Several different solutions are previously there known for indicating to a user of an apparatus that a key has been pressed long and hard enough to enable the keystroke to be registered.
A previously known solution is to provide each key with a mechanism which produces a “click” that can be felt and/or heard by a user when the user presses a key. The problem with such prior art mechanical solutions is the space required by the mechanism. It is in practice necessary to design the key such that the key is allowed to move a predetermined distance before it reaches the location where the “click” is generated. The space required by the movement and the space required by the mechanism itself mean that the entire keypad turns out to be relatively thick.
Another previously known solution is to provide an apparatus with means for generating a sound signal each time a keystroke is registered. Such a solution has typically been used in connection with thin membrane keypads since this solution does not increase the thickness of the keypad because the means necessary for generating the sound can be located somewhere else in the apparatus. The problem with this prior art solution is, however, that the “beep” generated in connection with each keystroke is rather annoying, and most users would thus prefer to turn off such a “beep”. This, however, is not possible in practice because then the user will not know when a keystroke has been registered, since this solution does not give any tactile feedback to the user. Thus the user might, by mistake, press the same key several times although the intention was only to press once.
An object of the present invention is to solve the above-mentioned problems and to provide an apparatus with improved means for generating tactile feedback to a user in connection with a keystroke.
Another object of the present invention is to provide an apparatus with means for generating tactile feedback which requires less space than in the previous solutions.
The above-mentioned and other objects of the invention are achieved by an apparatus as claimed in attached independent claim 1.
The invention is based on the idea of utilizing a piezoelectric element in an apparatus in order to provide the user with tactile feedback in connection with a keystroke. The piezoelectric element is small enough to be integrated such an element into a membrane keypad of an apparatus, for instance. A piezoelectric element can be controlled to create vibration which propagates to the key pressed by a user. The space needed in the prior art solutions for a mechanism to produce a suitable “click” at each keystroke can be significantly minimized by the invention, since the piezoelectric element can create vibration where the key which has been pressed is pushed back in a direction towards a finger of the user.
The most significant advantages of the present invention are that tactile feedback can be generated employing a simpler solution which requires less space than the prior art solutions, the energy consumption in connection with generating tactile feedback is low, and that the price of the means necessary for generating tactile feedback is relatively low.
In a first preferred embodiment the present invention, the apparatus includes a controller arranged to identify a key in said keypad pressed by the user, and to check whether or not the pressed key has been available as an option at that particular moment. If the key has been available as an option, a piezoelectric element is controlled to generate first kind of vibration. If, on the other hand, the key has not been available as an option, a piezoelectric element is controlled to generate second kind of vibration. This embodiment makes it possible to give the user such tactile feedback that the user can immediately feel whether the user has pressed a “right” key or a “wrong” key.
In a second preferred embodiment, the apparatus is a media terminal comprising means for establishing telecommunication connections, and the apparatus is arranged to generate an alerting sound signal with said at least one piezoelectric element in response to an incoming call. This embodiment is advantageous as it makes it possible to save space in the media terminal, since the alerting sound signal can be created with the same piezoelectric element as is used to generate tactile feedback when a key is pressed. This can be achieved when the media terminal is programmed to feed such a signal to the piezoelectric element that the piezoelectric element generates vibration that can be heard.
In a third preferred embodiment, the apparatus is a media terminal comprising means for establishing telecommunication connections, and said apparatus is arranged to generate an alerting vibration signal with said at least one piezoelectric element in response to an incoming call. This embodiment makes it possible to save space by eliminating an extra component used in the prior art media terminals in order to accomplish vibration alerting. Instead, it is possible to generate such vibration alert by using the same piezoelectric element as is used to generate tactile feedback when a key is pressed. In this embodiment, it might be advantageous to have several piezoelectric elements in the media terminal since this makes it possible to generate very strong vibration. The user thus feels the vibration even if the media terminal is located in a pocket.
Preferred embodiments of the apparatus according to the present invention are disclosed in attached dependent claims 2 to 10.
In the following, the present invention will be described in closer detail by way of example and with reference to the attached drawings, in which
The apparatus also includes a piezoelectric element 3 arranged contact a lower side of the keypad 2. The piezoelectric element 3 is, in the example of
The piezoelectric element 3 includes a metallic plate 6 to which a piezo transducer 7 has been attached. Many materials, such as quartz, lithium niobate and lead-zirconate-lead-titane (PTZ) exhibit some form of piezoelectric effect and can thus be used in a piezoelectric element.
There are several piezoelectric elements commercially available which can be used in an apparatus according to the present invention. An alternative is to use a piezoelectric element GPB-A-25 0.9E available from Union Enterprise Co., 1326, Life Officetel, 61-3 Yoido-Dong, Yeoungpo-Ku, Seoul, Korea. In this case, the thickness of the piezoelectric element 3 in
The piezoelectric element 3 is supported by a soft foam frame 4 whose back side is supported by a hard layer 5. The hard layer 5 might be a part of the body of the apparatus 1.
When the controller 8 detects that the user has pressed one of the keys on the keypad 2, the controller feeds an electrical impulse to the piezoelectric element 3. This impulse causes the piezoelectric element 3 to vibrate. As the keypad 2 is a flexible membrane keypad whose lower side is in direct contact with the piezoelectric element, the user of the keypad 2 feels the vibration with his finger. The user thus receives tactile feedback informing the user that the key has been pressed hard and long enough in order for the apparatus to register the keystroke.
Suitable vibration can be generated when the voltage of the signal fed to the piezoelectric element is around 150 . . . 200 VDC and a piezo transducer whose diameter is 25 mm is used. The capacitance of the piezoelectric element may in this case be around 60 nF in order to produce vibration which can be felt by the user. If the apparatus is a media terminal, the previously mentioned voltage is not usually available in the media terminal. A way to produce the required voltage is to include a piezoelectric transformer in the apparatus.
Two kinds of piezoelectric effect exist: direct effect and inverse effect. With the direct effect, placing a force or vibration (stress) on the piezoelectric element generates a charge. The inverse piezoelectric effect means that applying a field at the same polarity of the element results in a dimensional increase, and fields of opposite polarity result in a decrease.
A piezoelectric transformer (known from the prior art) uses both the inverse and the direct piezoelectric effect. The inverse effect is used such that a sine-wave voltage is fed to a “first” piezoelectric element. This voltage causes this first piezoelectric element to vibrate. A “second” piezoelectric element is attached to the first element such that the vibration generated by the first piezoelectric element places stress on the second piezoelectric element, thus enabling an output voltage to be obtained at the output of the second piezoelectric element. Suitable dimensioning of the piezoelectric elements enables a desired output voltage to be obtained. Practical implementations exist where a piezoelectric transformer with dimensions of: 20 mm×6 mm×1 mm can be used to obtain an output voltage of 150 V (effect 1 W) when the input voltage is 3V. Such a piezoelectric transformer can be used for instance in a multimedia terminal in order to achieve the voltage required for the piezoelectric element of the present invention.
In an embodiment of the present invention the controller 8 can be programmed to generate different kinds of vibration depending on the situation. A possibility is that the controller 8 is programmed to check, at each keystroke, whether the pressed key has been available as an option at that particular moment. If the key has been available as an option, the controller can control the piezoelectric element 3 to generate first kind of vibration, in other words tactile response, to the user. If, however, the pressed key has not been available as an option, the controller can control the piezoelectric element 3 to generate second kind of vibration. The user, by sensing the second kind of vibration with his finger or by hearing the sound of the second vibration with his ears, then knows that he has pressed the wrong key. If the apparatus I is a multimedia terminal that can be used for telecommunication connections, the piezoelectric element 3 (or elements, if the multimedia terminal includes several piezoelectric elements) can be used to generate an alerting vibration signal. The prior art elements used in known mobile phones can thus be eliminated by a much smaller and lighter piezoelectric element. In this case, the controller 8 controls the piezoelectric element (or elements) to generate vibration of a frequency and intensity that can be felt by the user who has the multimedia terminal in his pocket. It is also possible to use the piezoelectric element 3 to generate an alerting sound signal. No extra buzzer is then needed in the multimedia terminal for this purpose.
The same piezoelectric element can easily be used for the abovementioned different tasks in practice since the only necessary change is to program the controller to feed different kinds of waveforms to the piezoelectric element 3.
The keypad in the embodiment of
Controller 8′ is programmed in a slightly different manner than the corresponding controller in the embodiment of
The keys on the keypad 2 of
When a user presses a key on the keypad, the controller 8′ identifies the pressed key. When the key has been identified, the controller checks to which group of keys the pressed key belongs, and after that, the controller further checks which piezoelectric element is located closest to the identified group of keys. This closest piezoelectric element is then controlled by the controller to generate tactile feedback to the user as explained in connection with
The other functions of the controller 8′ are similar to those explained in connection with the embodiment of
Only the parts of the apparatus which are associated with the keypad are shown in
A touch-sensitive transparent cover 2′ forms an upper surface of the touch screen keypad. Each corner of the rectangular cover 2′ is supported by a piezoelectric element 3. The piezoelectric elements 3 are similar to those shown in
The PCB 10 also supports a display circuit 9. This display can be used both to display information to the user of the apparatus and to display the numbers or letters of the “keys”, which, in the embodiment of
Tactile feedback given to a user in connection with a keystroke is generated by one or more of the piezoelectric elements 3 generating vibration that causes the entire cover 2′ to vibrate.
The piezoelectric elements can be controlled as explained in connection with
A waveform as depicted in
When a piezoelectric element is to be used to generate a vibrating alarm, the used frequency is lower and the audible sound is subdued. A way to achieve a more silent alarm is to make the leading edge of the waveform somewhat slanted. A typical simple vibration signal with this leading edge slant 15 is depicted in
The power supply 16 as well as the controller 8 are both preferably powered from the same low voltage power supply 17, which typically is the battery of a portable terminal.
Each piezoelectric element is connected to at least one switch 21 controlled 22 by the controller 8 or contained in the controller. Each piezoelectric element can also be controlled by multiple switches and the controller can also independently control multiple piezoelectrical elements.
The controller 8 controls the operation of a piezoelectric element with the help of a switch. The switch 21 is typically a high-voltage transistor. The controller operates the switch to generate such waveforms over the piezoelectric element 3 that were depicted in
In order to vary the leading edge of the waveform waveform and give it a slant a variable serial resistor 19 can be inserted in the circuit. Only manual adjustment is shown in
The voltages acting on the piezoelectric element 3 are shown by way of examples in
The serial resistor 19 adjusts the level of the audible vibrations by changing the slant 31 of the leading edge, as indicated in
Although not shown, the controller 8 can independently control additional piezoelectric elements. Each independent element will have its own switch or switches separately controlled by the controller through additional control lines like the set of control lines 22, 24 depicted in
It is to be understood that the above description and the accompanying drawings are only intended to illustrate the present invention. It should thus be understood that the invention is not restricted to be used only in connection with media terminals even though the invention has been explained by way of example in connection with media terminals. It will be obvious to those skilled in the art that the invention can be varied and modified also in other ways without departing from the scope and spirit of the invention disclosed in the attached claims.
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|U.S. Classification||455/575.1, 455/567, 379/433.07|
|International Classification||H03K17/96, B06B1/02, G06F3/02, H04M9/00, H01H13/84, H04B1/38, B06B1/06, H01L41/09, B41J5/08, H04M1/00|
|Cooperative Classification||G08B7/06, G08B3/10, G08B6/00, G06F3/016, G06F3/0202, B06B1/0215, H03K2217/96062, H01H13/84, H01H2215/052, H03K17/96|
|European Classification||H03K17/96, B06B1/02D2, H01H13/84, G06F3/01F, G06F3/02A|
|Apr 20, 2005||AS||Assignment|
Owner name: NOKIA CORPORATION, FINLAND
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:TUOVINEN, JUHANI;REEL/FRAME:016120/0739
Effective date: 20040910
|Jun 11, 2014||FPAY||Fee payment|
Year of fee payment: 4
|May 9, 2015||AS||Assignment|
Owner name: NOKIA TECHNOLOGIES OY, FINLAND
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:NOKIA CORPORATION;REEL/FRAME:035601/0919
Effective date: 20150116