1. Field of the Invention
The present invention relates to a headset device, and more particularly, to a headset device capable of switching signal transmissions.
2. Description of the Prior Art
A headphone is an indispensable accessory for portable electronic products. The architecture of the headphone generally includes a headset plug for receiving electronic signals, and speakers for transforming the received electronic signals into audio wave signals. Based on listening mode, the headphone can be classified into mono and stereo. A mono headphone has only one speaker suitable for voice communication. A stereo headphone has two speakers, one for transmitting a left-channel signal and the other for transmitting a right-channel signal, making the stereo headphone suitable for media-oriented applications. In recent years, with a rapid growth of mobile phone use, integration of the headphone with a microphone, or a headset, is widely adopted in the mobile phones. Through the headset, a user can enjoy hands-free operation of the mobile phone for safety and convenience. Headset plugs of the headset can be divided into two different types: three-segment plugs and four-segment plugs, both of which have the same plug size. The three-segment plug is adapted to mono voice communication, whereas the four-segment plug is suitable for use in stereo. Each segment of the headset plug is defined as a signal interface, and can exchange electronic signals with an electronic product, such as a mobile phone, an MP3 player, or a PDA, by coupling with a headset jack on the electronic product.
Please refer to
In order to process the audio signals correctly, all signals transmitted via the four-segment headset jack 50 correspond to the signal interfaces of the three-segment headset plug 30 or the four-segment headset plug 40. However, since signal allocation of the headset jack may not be the same in different mobile phones, a user has to choose the headset included with the mobile phone he purchased. Otherwise, if the signal allocation of the headset jack is different from that of the headset, the left-channel, right-channel, or microphone signals may not match with the audio signal sources when the user utilizes the headset to answer the phone or listen to music. For example, suppose the signal allocation of the four-segment headset jack 50 is: signal interface S5_1 to the left-channel signal LCH; signal interface S5_2 to the right-channel signal RCH; signal interface S5_3 to the microphone signal MIC; and signal interface S5_4 to the grounding signal GND. As shown in
However, take another case for example. Suppose the signal allocation of the four-segment headset jack 50 is the same as mentioned above, while that of the three-segment headset plug 30 is arranged as follows: signal interface S3_1 to the microphone signal MIC; signal interface S3_2 to the left-channel signal LCH; and signal interface S3_3 to the grounding signal GND. When the three-segment headset plug 30 is plugged into the four-segment headset jack 50, the signal interfaces S3_1 and S3_2 are coupled to the signal interfaces S5_1 and S5_2. As can be seen from
Therefore, signal allocation on the signal interfaces of the headset plug must be the same as that of the headset jack, so that the headset can function normally. However, the manufacturers of the headset plugs and jacks usually have no consensus on the signal allocation of the headset plugs and jacks, resulting in inconvenience for the user, e.g. a consumer can only choose the headset attached with the mobile phone he purchased. If the consumer uses other headsets produced by different manufacturers than the manufacturer of the head jack, the microphone or speaker will probably not work. In this situation, for any user who owns multiple mobile phones, it is quite inconvenient for the user to purchase a different headset for each mobile phone.
It is therefore an object of the present invention to provide a headset device capable of switching signal transmissions.
The present invention discloses a headset device capable of switching signal transmissions. The headset device includes a headset plug and a switch unit. The headset plug includes a plurality of signal interfaces for transmitting a plurality of signals. The switch unit is coupled to the headset plug and is used for modifying an order in which the plurality of signal interfaces transmits the plurality of signals according to a control signal.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
Please refer to
Take a four-segment headset for example. Please refer to
Therefore, the user can choose different signal transmission modes by controlling the switch unit 320 via the control signal SC, and the four-segment headset 300 is compatible with headset jacks with different signal allocations, increasing convenience to the user. In addition, a three-segment headset can be employed in the present invention. Please refer to
Because the signal interface of a predefined last segment of both the three-segment headset plug and the four-segment headset plug is specified to transmit the grounding signal GND, the signal interface of the predefined last segment of the three-segment or four-segment headset jacks equipped on the electronic devices is also grounded for matching up the signal allocation of the headset plugs. Moreover, a reverse of the allocation of the left-channel signal LCH and the right-channel signal RCH may occur in the headset jacks compared with the headset plugs. In this situation, the user will not notice any difference when listening to sounds outputted in reverse from the speakers. However, regarding the microphone signal MIC, accurately matching of the signal allocation of the microphone signal MIC critically dominates functionality of transmitting and receiving the user's voice via the headset plug.
In order to simplify the number of times the switch unit switches to select compatible signal transmission modes, the signal transmission modes of the three-segment headset plug can be defined as the two following modes: (1) A first signal interface, a second signal interface, and a third signal interface used for transmitting an audio channel signal, the microphone signal, and the grounding signal, respectively; (2) The first signal interface, the second signal interface, and the third signal interface used for transmitting the microphone signal, the audio channel signal, and the grounding signal, respectively. As for the signal transmission modes of the four-segment headset plug, three modes can be employed as follows: (1) A first signal interface and a fourth signal interface are used for transmitting the microphone signal and the grounding signal, respectively, whereas a second signal interface and a third signal interface are used for transmitting the audio channel signal, respectively; (2) The second signal interface and the fourth signal interface are used for transmitting the microphone signal and the grounding signal, respectively, whereas the first signal interface and the third signal interface are used for transmitting the audio channel signal, respectively; (3) The third signal interface and the fourth signal interface are used for transmitting the microphone signal and the grounding signal, respectively, whereas the first signal interface and the second signal interface are used for transmitting the audio channel signal, respectively. The audio channel signal may be the left-channel signal LCH or the right-channel signal RCH. Therefore, using the signal transmission modes mentioned above reduces the number of switching times, so that the user can choose signal transmission modes compatible with the headset plug via the headset device of the present invention.
In summary, the present invention provides a headset device capable of switching signal transmissions of the headset device. The user can modify the order in which the signal interfaces transmits the corresponding signals according to the control signal, so as to select an appropriate signal transmission mode compatible with the signal allocation of the coupled headset jack. Therefore, the present invention provides four-segment and the three-segment headsets with adaptability to headset jacks of the electronic products with diverse signal allocation, increasing convenience to the user.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
Number | Date | Country | Kind |
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095146266 | Dec 2006 | TW | national |