Tang, MY
Hong Peng Tang, Petaling Jaya MY
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20160108211 | RUBBER MIXTURE AND VEHICLE TIRE - A rubber mixture and a pneumatic vehicle tire having a rubber mixture containing the following constituents: 15 to 55 phr of at least one natural polyisoprene and/or 15 to 55 phr of at least on synthetic polyisoprene and 15 to 85 phr of at least one polybutadiene and 25 to 55 phr of at least one carbon black and 1 to 10 phr of at least one ozone protection wax, wherein the ozone protection wax contains unbranched hydrocarbons having the following chain length distribution consisting of at least the three ranges A, B and C: range A: hydrocarbons having 26 to 31 carbon atoms, range B: hydrocarbons having 32 to 36 carbon atoms, range C: hydrocarbons having 37 to 47 carbon atoms, wherein the relative proportions of the ranges A to B to C are (0.7-1.5) to 1 to (0.6-1.4). The pneumatic vehicle tire contains the rubber mixture at least in an outer component. | 04-21-2016 |
Hon Peng Tang, Petaling Jaya MY
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20160108212 | RUBBER MIXTURE AND PNEUMATIC VEHICLE TIRE - A rubber mixture and a pneumatic vehicle tire including a rubber mixture containing the following constituents: 15 to 55 phr of at least one natural polyisoprene and/or 15 to 55 phr of at least one synthetic polyisoprene and 15 to 85 phr of at least one polybutadiene and 60 to 100 phr of at least one carbon black and 1 to 10 phr of at least one anti-ozone wax, wherein the anti-ozone wax contains unbranched hydrocarbons having the following chain length distribution including at least the three ranges A and B and C: range A: hydrocarbons having 26 to 31 carbon atoms, range B: hydrocarbons having 32 to 36 carbon atoms, range C: hydrocarbons having 37 to 47 carbon atoms, wherein the relative mass fractions of the ranges A to B to C are 0.7-1.5 to 0.6-1.4. The tire contains the rubber mixture at least in an outer component. | 04-21-2016 |
John Ing Ching Tang, Sarawak Sibu MY
Lok Si Tang, Subang Jaya Selangor MY
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20160033418 | COMBINATION GLOVE FOR DETECTING BREACH OF HYDROPHILIC FLUID - Provided for example is a combination glove comprising: (a) an top elastomer layer with an inner surface, the top elastomer layer being translucent or transparent; (b) an bottom elastomer layer with an outer surface, the bottom elastomer layer being darker than the top elastomer layer; and (c) a space or seam between the layers, wherein to either the inner-top or the outer-bottom surface has been adhered a hydrophilicity promoting composition of (i) a polyvinyl alcohol or (ii) an alkyl-aryl compound or a siloxane compound having a pendent one to two oxy-polymers, or (iii) a quaternary amine including an alkyl of C8 to C24, wherein the oxy-polymer is (1) a poly-oxyalkylene polymer that is predominantly oxyethylene or (2) a polyvinyl alcohol, wherein the hydrophilicity promoting composition enhances the spreading in the space or seam of any of the hydrophilic or aqueous fluid that breaches the top or bottom elastomer layer. | 02-04-2016 |
Ting Fook Tang, Bayan Lepas MY
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20140354423 | METHOD AND APPARATUS FOR LOCATING A PERSON DURING A MAN-DOWN SITUATION - A method and apparatus for more-quickly locating an individual during a man-down situation is provided herein. During operation a light source on an officer's vehicle will be directed towards the downed officer when a man-down situation has been identified. Since a light source will be pointed at the downed individual, respondents responding to the man-down situation may more-quickly locate any downed individual. | 12-04-2014 |
20150065186 | METHOD FOR OPERATING A RADIO COMMUNICATION DEVICE IN A MULTI-WATCH MODE - A method for operating a radio communication device in a multi-watch mode is provided. The radio communication device receives communications on a primary channel and at least one non-primary channel. Further, a talk-back channel is enabled to respond to communications received on the primary channel. The radio communication device determines whether there is any transmission activity in response to a communication received on the non-primary channel. The radio communication device further determines whether the communication received on the non-primary channel comprises critical information when there is no transmission activity for a pre-defined time period since the communication was received on the non-primary channel. When the radio communication device determines that the communication received on the primary channel comprises critical information, the radio communication device switches to the talk-back channel to respond to communications received on the non-primary channel. | 03-05-2015 |
20150296351 | METHOD FOR AUTOMATICALLY SWITCHING TO A CHANNEL FOR TRANSMISSION ON A MULTI-WATCH PORTABLE RADIO - A method for automatically switching to a channel for transmission on a portable radio is provided. In operation, a first microphone is assigned to respond to communications received on a primary channel and a second microphone is assigned to respond to communications received on a non-primary channel. The portable radio receives independent audio communications simultaneously on the primary channel and the non-primary channel when operating in a multi-watch mode. The portable radio determines a signal gain corresponding to a voice command received at the first and second microphones. When the signal gain for the first microphone is larger than the signal gain for the second microphone, the portable radio switches to a first talk-back channel to respond to communications received on the primary channel. Otherwise, the portable radio switches to a second talk-back channel to respond to communications received on the at least one non-primary channel. | 10-15-2015 |
Yinn Sinn Tang, Johor Bahru MY
Patent application number | Description | Published |
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20130288625 | Radio Receiver with Adaptive Tuner - A mobile radio receiver for a vehicle. The mobile radio receiver includes a tuner front-end section, a location data port, a sensor port, and a data processing unit. The location data port is used for receiving tuner location data. The sensor port is used for receiving one or more sensor signals. The data processing unit is operably connected with the tuner front-end section, with the location data port, and with the sensor port. The data processing unit further comprises predetermined tuner location data and predetermined relationship data sets for determining a set of tuner front-end section parameters based on the sensor signals. The mobile radio receiver provides an operational mode, a checking mode, a tuner parameter adjustment mode, and a tuner parameter application mode. | 10-31-2013 |
20140194079 | INCREASING EFFICIENCY OF A RADIO RECEIVER WITH AN ADAPTIVE TUNER - A mobile radio receiver for a vehicle includes a tuner front-end section, a location data port for receiving tuner location data, a sensor port for receiving sensor signal measurement data from at least one vehicle sensor, a tuner front-end section parameter server port for sending the tuner location data, the sensor signal measurement data for receiving a set of tuner front-end section parameter data, and a data processing unit. The data processing unit is operably connected to the tuner front-end section, the location data port, the sensor port, and the tuner front-end section parameter server port. The mobile radio receiver provides an operational mode, a checking mode, a tuner parameter retrieval mode, and a tuner parameter application mode. | 07-10-2014 |
20150263771 | EFFICIENCY AND OPTIMIZATION OF RF TUNER RECEPTION THROUGH INTER-CAR CORRELATION - A mobile radio receiver for a vehicle includes a tuner front-end section, an inter-vehicle communication port, and a data processing unit. The data processing unit is operably connected with the tuner front-end section and with the inter-vehicle communication port. The data processing unit has at least two pre-determined relationship data sets. In use, the inter-vehicle communication port receives a tuner front-end section parameter data pointer. The pre-determined relationship data sets are used to determine a set of tuner front-end section parameters based on the tuner front-end section parameter data pointer. The mobile radio receiver provides an operational mode, a parameter reception mode, a tuner parameter adjustment mode, and a tuner parameter application mode. | 09-17-2015 |