Patent application number | Description | Published |
20110223575 | SYSTEM AND METHOD FOR LEARNING CONCEPT MAP - A system for creating the learning organizational tool known as a concept map to thereby facilitate learning includes a manipulation-sensing device with a wireless data transceiver, an information integration platform, and a data processing device. The wireless manipulating-sensing device allows users to physically manipulate the concept map and then transmit/receive data related to the results of the physical manipulation via a wireless network. The wireless manipulation-sensing device includes a plurality of conceptual modules for recording data in the process of learning a concept map, a plurality of connecting modules for recording data of the connection relations between the conceptual modules, and a plurality of connecting wires connected between the plurality of conceptual modules and the plurality of connecting modules to form connection relations therebetween. The information integration platform receives the results of the physical manipulation transmitted from the conceptual modules to form concept map information by translation. The data processing device receives the concept map information formed by the information integration platform. In addition, a method for learning a concept map using the system described above is further provided. | 09-15-2011 |
20120214146 | INTERACTIVE LEARNING SYSTEM - An interactive learning system includes a sensing network constituted by a plurality of sensing/transmitting modules, and a transmission network formed by the sensing network and a data processing device. The sensing/transmitting modules sense movements and vibrations thereof and interactive statuses between the sensing/transmitting modules and other sensing/transmitting modules, so as to generate messages that indicate the movements, the vibrations and the interactive statuses, and transmit the sensed messages to the data processing device by the transmission network, for interactive messages to be displayed through a human-machine interface of the data processing device. As such, learners' conceptions can be perceived and shown by the actual operations of the sensing/transmitting modules, which allows teachers to grasp learners' conceptions and thereby increase their interactions. | 08-23-2012 |
Patent application number | Description | Published |
20130334578 | MOLECULE SENSOR DEVICE - A molecule sensor included in a molecule sensor device has a semiconductor substrate, a bottom gate, a source portion, a drain portion, and a nano-scale semiconductor wire. The bottom gate is for example a poly-silicon layer formed on the semiconductor substrate and electrically insulated from the semiconductor substrate. The source portion is formed on the semiconductor substrate and insulated from the semiconductor substrate. The drain portion is formed on the semiconductor substrate and insulated from the semiconductor substrate. The nano-scale semiconductor wire is connected between the source portion and the drain portion, formed on the bottom gate, insulated from the bottom gate, and has a decoration layer thereon for capturing a molecular. The source portion, drain portion, and nano-wire semiconductor wire are for example another poly-silicon layer. The bottom gate receives a specified voltage to change an amount of surface charge carriers of the nano-scale semiconductor wire. | 12-19-2013 |
20150014171 | MICROFLUIDIC PARTICLE SEPARATION DEVICE - A microfluidic particle separation device includes a substrate and a plurality of electrode bars formed on the substrate, disposed around as array center, angularly spaced apart from one another, and extending radially with respect to the array center so as to form a radially-extending electrode array that is capable of inducing circular or elliptical shear flow of the liquid through travelling-wave electroosmosis when being applied with a travelling-wave electric potential. | 01-15-2015 |
Patent application number | Description | Published |
20120161216 | ESD Protection Circuit - One embodiment of the disclosure provides an electrostatic discharge protection circuit, including a first resistor, a p-type field effect transistor, a capacitance device and an n-type field effect transistor. The first resistor has a first terminal coupled to a first rail and a second terminal coupled to a first node. The p-type field effect transistor has a source coupled to the first rail, a gate coupled to the first node and a drain coupled to a second node. The capacitance device has a first terminal coupled to a second rail or the second node and a second terminal coupled to the first node. The n-type field effect transistor has a source coupled to the second rail, a gate coupled to the second node and a drain coupled to the first node. | 06-28-2012 |
20130128400 | ELECTROSTATIC DISCHARGE PROTECTION APPARATUS AND METHOD THEREFOR - An electrostatic discharge (ESD) protection apparatus includes a clamp circuit, a detection circuit and a control circuit. The clamp circuit has a first terminal and a second terminal respectively coupled to a first rail line and a second rail line. In response to an ESD event, the clamp circuit generates a first coupling potential at its coupling terminal. The detection circuit, coupled to the coupling terminal of the clamp circuit and the second rail line, outputs a detection signal in response to the first coupling potential. The control circuit, coupled to the first and second rail lines, the detection circuit and the clamp circuit, outputs a conduction signal to a control terminal of the clamp circuit in response to the detection signal. The clamp circuit is conducted in response to the conduction signal so that ESD between the first and second rail lines is performed through the clamp circuit. | 05-23-2013 |
20130234199 | ESD Protection Circuit - One embodiment of the disclosure provides an electrostatic discharge protection circuit. The electrostatic discharge protection circuit includes a p-type field effect transistor, a capacitance device and an n-type field effect transistor. The p-type field effect transistor has a source coupled to an input/output terminal, a gate coupled to a first node and a drain coupled to a second node. The capacitance device has a first terminal coupled to a first rail and a second terminal coupled to the first node. The n-type field effect transistor has a source coupled to the first rail, a gate coupled to the second node and a drain coupled to the first node. | 09-12-2013 |
20130301172 | ELECTROSTATIC DISCHARGE PROTECTION APPARATUS AND ASSOCIATED METHOD - An electrostatic discharge (ESD) protection apparatus, coupled between a first rail line and a second rail line, includes a clamp circuit and a detection circuit. The detection circuit includes an electronic element having an equivalent capacitance value, and a transistor having a gate, a first input and a second input respectively coupled to a first node, the first rail line and a drive terminal of the clamp circuit. In response to an ESD event, leakage currents pass between the first input and the gate and between the second input and the gate to equivalently form parasitic resistance therein, respectively. The parasitic resistances and the electronic element form a delay circuit to provide a drive voltage between the gate and the first input, and to provide a trigger current for conducting the clamp circuit, so that the first and second rail lines perform an ESD operation via the clamp circuit. | 11-14-2013 |