Abstract: An active stylus having physical writing function includes a tip shell including a first opening and a second opening, a first electrode including a first end protruded through the first opening of the tip shell and including a second end protruded through the second opening of the tip shell and entered a main body housing of the active stylus, wherein the first electrode includes conductive material. The tip shell includes non-conductive material. The first end of the first electrode is configured to leave colored traces on an object by physical friction caused between the first end of the first electrode and the object.

Abstract: A temperature and humidity sensing device including a body and a temperature and humidity sensor is provided. The body has an inlet hole, an outlet hole, and a flow channel. The inlet hole and the outlet hole are opposite to each other, and the flow channel is configured to communicate the inlet hole and the outlet hole. The temperature and humidity sensor is disposed in the flow channel. The temperature and humidity sensor is configured to sense the relative humidity of air in the surrounding environment of the body during the air in the surrounding environment of the body flows into the flow channel from the inlet hole and flows through the flow channel to flow out from the outlet hole.

Abstract: A paper feeding device includes a first transmission module mounted in a transaction device, a pickup shaft, at least one pickup roller and at least one separation roller. The pickup shaft is rotatably and pivotally connected to the transaction device. The pickup shaft is connected with the first transmission module, and the first transmission module is capable of driving the pickup shaft to rotate towards a clockwise direction or an anticlockwise direction. The at least one pickup roller is fastened around the pickup shaft. The at least one separation roller is rotatably and pivotally connected to the transaction device. An outer surface of the at least one separation roller oppositely abuts against an outer surface of the at least one pickup roller.

Abstract: A temperature and humidity sensing device including a body and a temperature and humidity sensor is provided. The body has an inlet hole, an outlet hole, and a flow channel. The inlet hole and the outlet hole are opposite to each other, and the flow channel is configured to communicate the inlet hole and the outlet hole. The temperature and humidity sensor is disposed in the flow channel. The temperature and humidity sensor is configured to sense the relative humidity of air in the surrounding environment of the body during the air in the surrounding environment of the body flows into the flow channel from the inlet hole and flows through the flow channel to flow out from the outlet hole.

Abstract: A feeding mold including a runner and a gate structure is provided. The runner is adapted to be filled with a liquid-like material. The gate structure includes a storage cavity, a running passage and a filling cavity. The storage cavity communicates with the runner and is adapted to store the liquid-like material filled by the runner. The running passage communicates with the storage cavity. The running passage is adapted to carry the liquid-like material from the storage cavity so as to evenly distribute the liquid-like material. The running passage has a protruding buffering cavity which is located between the storage cavity and the filling cavity and is adapted to change the velocity of the liquid-like material in the running passage, and lower the temperature of the liquid-like material flowed onto a surface of a workpiece.

Abstract: A feeding mold including a runner and a gate structure is provided. The runner is adapted to be filled with a liquid-like material. The gate structure includes a storage cavity, a running passage and a filling cavity. The storage cavity communicates with the runner and is adapted to store the liquid-like material filled by the runner. The running passage communicates with the storage cavity. The running passage is adapted to carry the liquid-like material from the storage cavity so as to evenly distribute the liquid-like material. The running passage has a protruding buffering cavity which is located between the storage cavity and the filling cavity and is adapted to change the velocity of the liquid-like material in the running passage, and lower the temperature of the liquid-like material flowed onto a surface of a workpiece.

Abstract: A smart battery simulating system, which is applied to test response of an embedded controller of a portable electronic device to different battery conditions, includes a smart battery simulator and an application program. The smart battery simulator is coupled to the embedded controller of the portable electronic device and a computing device, and is operable so as to receive an input signal representative of battery-specific test characteristics from the computing device, and so as to generate an output signal that corresponds to the input signal and that is to be provided to the embedded controller of the portable electronic device. The application program is installed in and is executed by the computing device so as to configure the computing device to provide the input signal to the smart battery simulator when the computing device executes the application program.

Abstract: A security access method and/or apparatus is disclosed in the present invention. The present invention discloses a security method that verifies both the user's fingerprints and the fingerprint entering sequence to determine whether an access can be authorized. By using both the fingerprints and the entering sequence as the access criteria, a highly secured device can be created using low cost commercial available components.

Abstract: A method for computing n-dimensional decomposable image transformation using the 1D approach with constrained transpose memory provides a minimized rounding/truncation error. The method minimizes transpose memory size required to fulfill a defined accuracy requirement for n-dimensional image transformation. A set of input data elements are stored. Then, a first transform, of the multiple dimension transform, is performed on the set of input data elements so as to form an array of transformed data elements, each of the transformed data elements having a larger number of bits than the input data elements. A common range of the transformed data elements is determined, and a minimum number of bits required to represent the common range without loss of information is then determined. The memory word size available for storage of the transformed data elements is compared with a minimum number of bits so as to determine an excess number of bits.