Patent application number | Description | Published |
20100127917 | SIMULATING MEASUREMENT APPARATUS AND METHOD - The invention discloses a simulating measurement apparatus. The simulating measurement apparatus comprises a storing module, a controlling module, and a simulating module. The storing module is used for storing simulating parameter information. The simulating parameter information comprises at least one emitting simulating parameter, at least one receiving simulating parameter, and a radio beam channel transmitting simulating parameter. The controlling module generates a controlling signal according to the simulating parameter information. The simulating module generates a simulating measurement result of radio beams transmitted in the space between an emitting antenna and a receiving antenna by simulating the transmitting behavior of a plurality of RE signals according to the controlling signal. | 05-27-2010 |
20100149336 | MICRO SUPERVISORY SYSTEM - The micro supervisory system of the invention includes a casing, an image capture module, a display device, a gas generator, and a wireless transmission module. The image capture module is disposed in the casing, and captures an image and then generates an image signal. The display device receives the image signal and then generates a driving signal. The gas generator is disposed in the casing, and receives the driving signal and then generates a gas for anti-riot scenarios. The wireless transmission module receives and then transmits the image signal to the display device. Meanwhile, the wireless transmission module receives and then transmits the driving signal to the gas generator. Therefore, the tear gas can be released from the gas generator and is used for expelling people. The micro supervisory system of the invention can be applied to military spies, anti-riot supervision, and calamity supervision. | 06-17-2010 |
Patent application number | Description | Published |
20090085580 | Apparatus for testing catalysis electrode of fuel cell - An apparatus is disclosed for testing a catalysis electrode of a fuel cell. The apparatus includes a driving module, a loading module, a containing module and an analyzing unit. The containing module includes a hollow threaded bolt, a sleeve and a contact plate. The hollow threaded bolt is operatively connected to driving module. The sleeve receives and is operatively connected to the hollow threaded bolt. The contact plate is located below the hollow threaded bolt in the sleeve. The analyzing unit includes a working electrode, an auxiliary electrode and a reference electrode. The working electrode is connected to the contact plate. The auxiliary electrode includes an end located below the containing module in the loading module. The reference electrode is connected to the loading module. | 04-02-2009 |
20090090615 | Apparatus and method for controlling the oxidation state of catalyst - An apparatus is disclosed for controlling the oxidation state of catalyst for use in a fuel cell. The apparatus includes a holder, a working electrode disposed in the holder, an auxiliary electrode located right above the working electrode, a reference electrode disposed in the holder and a power supply connected to all of the electrodes. | 04-09-2009 |
20110021342 | Method for Making RU-SE and RU-SE-W Nanometer Catalyst - A method is disclosed for making Ru—Se and Ru—Se—W catalyst. In the method, carrier is processed with strong acid and poured into first ethylene glycol solution. Ultra-sonication and high-speed stirring are conducted on the first ethylene glycol solution, thus forming carbon paste. The carbon paste is mixed with second ethylene glycol solution containing at least one nanometer catalyst precursor and an additive. High-speed stirring is conducted to form mixture. The mixture is heated so that Ru—Se catalyst is reduced. The mixture is filtered to separate the carrier. Then, the carrier is washed with de-ionized water. Conducting drying and hydrogen reduction are conducted to make the Ru—Se catalyst on the carrier. | 01-27-2011 |
Patent application number | Description | Published |
20100216207 | Apparatus and method for growing algae by ionizing radiation - An apparatus is disclosed for growing algae by ionizing radiation. The apparatus includes a container for containing medium for the growth of algae, a filter disposed in the container, a 3-dimensional rack disposed in the container, an adherent element wound on the 3-dimension rack so that spores of the algae can be planted in the adherent element, a radiation element disposed in the container for irradiating the spores and a timepiece connected to the radiation element. | 08-26-2010 |
20100243082 | Liquid isotope delivery system - A liquid isotope delivery system includes a pressure-controlling unit, an input unit, a target chamber, a proton-radiating unit and a storage unit. The pressure-controlling unit includes a first regulating valve, a second regulating valve connected to the first regulating valve and a third regulating valve connected to the first regulating valve. The input unit is connected to the second regulating valve. The target chamber is connected to the third regulating valve and the input unit. The proton-radiating unit is located near the target chamber. The storage unit is connected to the target chamber. | 09-30-2010 |
20110108429 | Method of recycling Cd-112 isotope - Cd-112 isotope is recycled from a Cd-112 chemical separated solution or a remainder of an electroplating solution having a Cd-112 target. The present invention recycles Cd-112 isotope with a low cost, a high purity and a high recycle rate. The recycled Cd-112 isotope can be easily stored. And, the Cd-112 isotope can be used as an imaging agent in nuclear medicine. | 05-12-2011 |
20110178325 | Automatic Process for Synthesizing F-18-FDDNP - Disclosed is an automatic process for synthesizing F-18-FDDNP. The automatic process includes a preparation subroutine and a synthesis subroutine. The automatic process is efficient and simple. That is, it can be used to produce a large amount of chemicals in a short period of time. Furthermore, it reduces the risk of human exposure to radiation. | 07-21-2011 |