TAIWAN GOMET TECHNOLOGY CO., LTD.
|TAIWAN GOMET TECHNOLOGY CO., LTD. Patent applications|
|Patent application number||Title||Published|
|20140136380||Cloud Management Method of Electronic Devices - A cloud management method of electronic devices is disclosed herein. The method comprises collecting at least one first information from a electronic device by an information collector comprising a safe power switch; calculating a temporary safe interruption value by the information collector via analyzing a predetermined number of times of a working current or voltage of the electronic device, or calculating a safe interruption value by a local server or a first server; and writing back the temporary safe interruption value or the safe interruption value to the safe power switch. Preferably, a power supply of the electronic device is cut off by the safe power switch in response to the working current or voltage surpassing the temporary safe interruption value or the safe interruption value.||05-15-2014|
|20140046596||DRINKING WATER REMINDING SYSTEM AND REMINDING METHOD THEREOF - Disclosed is a drinking water reminding system and the reminding method thereof. The water intake of user is measured by the operation of a reminder of the drinking water reminding system, and a collector of the drinking water reminding system is provided for adjusting the daily drinking water demand of user according to environmental parameters or the physiological parameters of user. The drinking water reminding system reminds the user to drink water if the drinking water reminding system determines that the user has taken insufficient water according to predetermined conditions and measurement results, drinking water reminding system.||02-13-2014|
|20140007071||FIRMWARE OVERWRITING METHOD IN PAIRED USE WIRELESS MICROPHONE AND RECEIVER||01-02-2014|
|20130040674||Method of Beacon Synchronization For Base Stations - The present invention discloses a method of beacon synchronization for base stations, which comprises the following steps: receiving or transmitting a beacon by a first base station or a second base station; scanning at least one channel by the second base station to search for a channel of the first base station; calculating a time difference between the beacon sent by the first base station and the beacon sent by the second base station; and adjusting a time of transmitting the beacon sent by the second base station to synchronize the beacon sent by the second base station with the beacon sent by the first base station. Wherein, a wireless signal of the second base station is interfered by the first base station.||02-14-2013|
|20120302277||BIDIRECTIONAL MICROPHONE SYSTEM - A bidirectional microphone system is disclosed, including a base station, a wireless microphone and an external control device. A bidirectional wireless communication may be performed between the wireless microphone and the base station. The external control device is connected to the wireless microphone for controlling the wireless microphone via at least one push button on the external control device. The external control device is also provided with light-emitting elements to show the function or status of the wireless microphone. The wireless microphone is provided with a global positioning system or a G-sensor for locating the coordinates of the wireless microphone under different situations. When the wireless microphone is in an emergency and located beyond the wireless communication range, the wireless microphone emits a high-power pulsed radio frequency signal for antenna of the base station to locate the position of the wireless microphone.||11-29-2012|
|20110058693||WIRELESS MICROPHONE DEVICE - The present invention provides a wireless microphone device which comprises a casing, an antenna element and a transceiver. A concave recession is formed on a side surface of the casing. One end of the antenna element is disposed on a bottom surface of the concave recession, and the other end of the antenna element is extending upwardly with an oblique angle relative to the side surface. The transceiver is disposed inside the casing, and transmits or receives a microphone signal by the antenna element. Consequently, according to the present invention, the wireless microphone with the obliquely disposed antenna element can avoid the radio wave from being blocked or absorbed by a user's body, and thereby the efficiency of the antenna element receiving or transmitting the radio wave would not be reduced.||03-10-2011|
|20100113086||WIRELESS MICROPHONE SYSTEM AND METHOD OF SIGNAL SYNCHRONIZATION THEREOF - The present invention discloses a wireless microphone system and a method of signal synchronization thereof, which comprises the following steps: receiving or transmitting a first channel wireless signal to at least one first wireless microphone through a first base station; receiving or transmitting a second channel wireless signal to at least one second wireless microphone through a second base station; and controlling a slave base station through a master base station, such that the first and the second channel wireless signals are synchronously received or transmitted. When any one of the base stations is not received a beacon for a duration of time, the base stations automatically switch to be the master base station and start to transmit the beacon. When other base stations receive the beacon, they switch back to be the slave base stations and use the received beacon as the basis of synchronization time correction.||05-06-2010|
|20100112939||BIDIRECTIONAL WIRELESS MICROPHONE SYSTEM WITH AUTOMATIC LOGIN FUNCTION - A bidirectional wireless microphone system with an automatic login function comprises at least one wireless microphone, a base station and a data processing unit. The wireless microphone and the base station are able to wirelessly communicate with and transmit data, such as a sound signal, coordinate position or image, to each other. The data processing unit is connected to the base station to store and process the data transmitted between the wireless microphone and the base station. While the wireless microphone completes a process of registration to the base station by engaging a first registration contact on the wireless microphone with a corresponding second registration contact on the base station, a process of logging in to the data processing unit, which can be, for example, a computer or an application program, is completed at the same time to thereby simplify the registration and login process and save operating time.||05-06-2010|
|20100110191||BIDIRECTIONAL WIRELESS TRANSMISSION AND COMMUNICATION SYSTEM - A bidirectional wireless transmission and communication system is disclosed, including a base station, a wireless microphone and an external control device. A bidirectional wireless transmission and communication may be performed between the wireless microphone and the base station. The external control device is connected to the wireless microphone wirelessly or via a cable for controlling the wireless microphone via at least one push button on the external control device. The external control device is also provided with at least one light-emitting element to show the function operating state of the wireless microphone. The wireless microphone is internally provided with a global positioning system and a G-sensor for locating the coordinates of the wireless microphone under different situations. When the wireless microphone is located beyond the wireless communication range, the wireless microphone emits a high-power pulsed radio frequency signal for the base station to locate the position of the wireless microphone.||05-06-2010|
Patent applications by TAIWAN GOMET TECHNOLOGY CO., LTD.