摘要:
A communication system uses a two-wire circuit and includes a master terminal and a backup terminal, and a main file and a backup file along with associated link control devices coupled to a plurality of satellite terminals. Each link control device functions both as a monitor and as a communication controller with priority between the link control devices for each of the files and terminals to maintain operation of the system.
摘要:
A printed circuit board includes at least one code establishing section which is readily removable or separated from the board and also includes printed wiring connected to a voltage source and to a ground. When the code establishing section is removed, the level of an output signal from the voltage source is inverted from the level of the output signal prior to removal of the code establishing section in order to establish a desired unique code. A second arrangement of the apparatus includes a main portion and two removable portions of the board with a pair of voltage sources on the main portion and a ground connection on one of the two removable portions. The method of establishing a unique address code is accomplished by removing one of the removable portions to provide an output signal of a level that is inverted from the level of an original signal. Subsequent removal of the other removable portion provides an output signal of a level that is the same level as the original signal.
摘要:
An organic electroluminescent element including: a first electrode; at least one organic deposition layer; and a second electrode, the first electrode, the organic deposition layer, and the second electrode being formed in this order, wherein the organic deposition layer satisfies the relationship 0.093
摘要:
A photoelectric conversion element comprises: a pair of electrodes; and an organic photoelectric conversion layer between the pair of electrodes, wherein one of the electrodes is a first electrode that collects electrons generated in the organic photoelectric conversion layer; the other one of the electrodes is a second electrode that collects holes generated in the organic photoelectric conversion layer; and the photoelectric conversion element further comprises a hole blocking layer that comprises silicon oxide and inhibits injection of holes into the organic photoelectric conversion layer from the first electrode while applying a bias voltage between the electrodes, the hole blocking layer being disposed between the first electrode and the organic photoelectric conversion layer, and an oxygen/silicon composition ratio of the silicon oxide is 0.5 or greater and 1.2 or less.
摘要:
According to an aspect of the invention, an imaging device includes a plurality of photoelectric conversion elements and a read-out portion. The photoelectric conversion elements are arranged above a substrate. The read-out portion reads out signal corresponding to charges which are generated from each of the photoelectric conversion elements. Each of the photoelectric conversion elements includes a first electrode that collects the charge, a second electrode that is disposed opposite to the first electrode, a photoelectric conversion layer that generates the charges and disposed between the first electrode and the second electrode, and an electron blocking layer that is disposed between the first electrode and the photoelectric conversion layer. Distance between the first electrodes of adjacent photoelectric conversion elements is 250 nm or smaller. Each of the electron blocking layers has a change in surface potential of −1 to 3 eV from a first face to a second face.
摘要:
According to an aspect of the invention, an imaging device includes a plurality of photoelectric conversion elements and a read-out portion. The photoelectric conversion elements are arranged above a substrate. The read-out portion reads out signal corresponding to charges which are generated from each of the photoelectric conversion elements. Each of the photoelectric conversion elements includes a first electrode that collects the charge, a second electrode that is disposed opposite to the first electrode, a photoelectric conversion layer that generates the charges and disposed between the first electrode and the second electrode, and an electron blocking layer that is disposed between the first electrode and the photoelectric conversion layer. Distance between the first electrodes of adjacent photoelectric conversion elements is 250 nm or smaller. Each of the electron blocking layers has a change in surface potential of −1 to 3 eV from a first face to a second face.