Abstract: An apparatus including a communication unit configured to communicate with a communication device and be able to output data stored in a memory to the communication device even without power supplied from a power supply to the apparatus stores, in the memory, status information to specify the status of the apparatus in a state in which the power supply supplies the power to the apparatus.

Abstract: An apparatus including a communication unit configured to communicate with a communication device and be able to output data stored in a memory to the communication device even without power supplied from a power supply to the apparatus stores, in the memory, status information to specify the status of the apparatus in a state in which the power supply supplies the power to the apparatus.

Abstract: An apparatus including a communication unit configured to communicate with a communication device and be able to output data stored in a memory to the communication device even without power supplied from a power supply to the apparatus stores, in the memory, status information to specify the status of the apparatus in a state in which the power supply supplies the power to the apparatus.

Abstract: An apparatus including a communication unit configured to communicate with a communication device and be able to output data stored in a memory to the communication device even without power supplied from a power supply to the apparatus stores, in the memory, status information to specify the status of the apparatus in a state in which the power supply supplies the power to the apparatus.

Abstract: According to one advantageous aspect of the present invention, even if communication becomes impossible during data transfer, an apparatus with a small-capacity memory is efficiently used. To realize this, in a wireless communication apparatus including a wireless communication unit, wireless communication with a communication device is performed according to a first wireless communication method and a second wireless communication method that has a communicable range wider than that in the first wireless communication method. Then, a request for executing predetermined processing and information for performing wireless communication according to the second wireless communication method with an output destination of data obtained by executing the predetermined processing is received. Upon receiving the request, the predetermined processing is executed. Based on the received information, the data obtained by executing the predetermined processing is outputted to the output destination.

Abstract: A polyethylene composition which is useful in insulations and joints of extra-high voltage power cables, and in which a cross-linking agent, comprising an organic peroxide subjected to purification processing, and an antioxidant, are blended, wherein the cross-linked composition has a dielectric loss tangent (tan.delta.) of less than or equal to 0.07% at a temperature of 90.degree. C. and under an electric field stress of 20 kV/mm. This polyethylene composition exhibits little dielectric loss, even at high temperatures or high electric field stresses, and is optimally employed in insulations and joints for extra-high voltage power cables of 275 kV or more.

Abstract: The invention relates to a piezoelectric acceleration sensor and to a piezoelectric acceleration device which use a film piezoelectric element.Speicfically, the piezoelectric acceleration sensor and the piezoelectric acceleration sensor device generate relatively large outputs when acceleration occurs along the sensing axis, but produce relatively small outputs from acceleration perpendicular to the sensing axis. In addition, the sensor and the sensor device are relatively unaffected by temperature fluctuations and are highly impact-resistant.

Abstract: A piezo-electric acceleration sensor, including: a piezo-electric polymer membrane element having an element through-hole; a diaphragm having a diaphragm through-hole and attached to the piezo-electric membrane element so that the diaphragm hole is concentric to the element through-hole to form a laminate with a laminate through-hole; and a fixing mechanism, having a sensing hole, for fixing the laminate in a stretched manner, and wherein: the laminate through-hole has about 2.25 to about 80% of the area of the sensing hole; and the diaphragm and the piezo-electric element meet the equation:(Eb.times.Tb.sup.3)/(Ep.times.Tp.sub.3).gtoreq.about 5wherein Eb, Tb, Ep and Tp are Young's modulus thickness of the diaphragm, Young's modulus, and thickness of the piezo-electric element, respectively, whereby acceleration, applied to the diaphragm, is detected based on a quantity of electricity generated due to strains in a piezo-electric element.

Abstract: A method for producing a microporous separator for an electrochemical cell comprises dissolving a copolymer of acrylonitrile into N,N-dimethylformamide, impregnating an acid- and/or alkali-resistant fibrous web with the resultant solution, and thereafter dipping the impregnated web into an aqueous coagulating bath, whereby the copolymer deposits on and between the web fibers to form a microporous matrix. The aqueous coagulating bath is selected from the group consisting of water at a temperature of 15.degree. C or below and aqueous solutions of a water-soluble acid solute, basic solute, or netural solute at a concentration of one mol / 1 or above. This method yields products having low maximum pore radii and yet low electric resistances.