摘要:
In a device used to inspect substrates visually, an imaging region and a magnification are specified ahead of time for every component and stored as library data in a memory. The memory also contains CAD data, which include the class of each component on the substrate and its location. During initialization, a control unit links the location data for a component extracted from the CAD data to corresponding library data and specifies a field of view and a magnification for every component on the substrate. Using this data, the control unit creates on the substrate a number of viewing zones to be inspected at various magnifications and stores the data specifying these zones in the memory. When a substrate is to be inspected, the control unit uses the data specifying these zones to control the position and magnification of an imaging unit to collect image data from each zone successively and display them on a monitor.
摘要:
An X stage (21) arranged on the front edge of a table (11) is movable in the X-axis direction along a rail (23). The X stage (21) supports a light projecting device (70) for illuminating a printed circuit board (PCB) and an imaging device (80) for imaging an inspection area illuminated by the light projecting device (70). An image obtained by the imaging device (80) is displayed on a display device (13). A Y stage (41) is movably provided along a rail (33) on a base (10). A board supporting member (50) for supporting the board (PCB) is pivotably attached to the Y stage (41) at front portion thereof. An inspector judges whether or not soldering is acceptable while seeing the image displayed on the display device (13). When it is judged that soldering is unacceptable, the inspector can correct an unacceptable soldered portion by drawing out the Y stage (41) forward and obliquely raising the board supporting member (50).
摘要:
A method and device for supporting the repair of defective portions of a substrate when the defective portions have been discovered during an inspection process. A recorder records defective data associated with the defective portions. A data sorter sorts the defective data by grouping together defective data relating to a same type of defect. A data indicator highlights a defective location on the substrate where the defective portions were found in an order determined by defective data relating to the same type of defect or in an order determined by defective data relating to defects requiring the same type of repair. The data indicator also indicates the type of repair required and the tools to be used in the repair of the defective portions.
摘要:
Disclosed is a method of and apparatus for inspecting a printed circuit board (PCB) for the nature of its soldered parts comprising three ring-shaped light sources which project light of different hues, the highest light source being any hue other than red, to a part mounted on a PCB at different angles and heights from above, a camera to record the reflected images, and a procedure used to check the recorded patterns to determine if the soldering is acceptable.
摘要:
An electronic sphygmomanometer starts from pressurization and then enters a decompression process. When measurement of blood pressure starts, only a standard pressure release rate voltage is applied to a valve from a standard pressure release rate voltage supply circuit through a decompression control circuit. The valve allows air to be discharged slowly at the standard pressure release rate. If the pressure release rate should be increased for decompression, target pressure release rate acceleration value voltage according to the position of a dial is supplied from an external control signal supply unit. The standard pressure release rate voltage is added to the target voltage and the resultant voltage is supplied to the valve via the decompression control circuit. The valve increases the pressure release rate by the amount corresponding to the external control signal voltage. In this case, even if the dial is returned to zero position, the pressure release rate never falls below the standard pressure release rate.
摘要:
A portable electrocardiograph includes an electrode unit brought into contact with a living body of a subject, a processing circuit measuring an electrical signal detected by the electrode unit with being in contact with the living body as an electrocardiographic waveform, and a display unit displaying a measurement result of the electrocardiographic waveform. In measurement, when a CPU of the processing circuit receives the electrical signal of the electrocardiographic waveform via the electrode unit, an amplifier circuit, a filter circuit, and an A/D converter, the CPU detects whether or not baseline fluctuation in the electrocardiographic waveform deviates from a predetermined range in which analysis of the waveform is acceptable, based on the received electrical signal. If the CPU detects deviation from the predetermined range, it displays such information on the display unit as a measurement result.
摘要:
A portable electrocardiograph serving as a biological information measurement device includes a negative electrode and a positive electrode brought in contact with a living body, a processing circuit processing a biological electric signal detected by these measurement electrodes, an output terminal for supplying the obtained biological information to an external terminal unit, a first contact point electrically connected to the negative electrode and the positive electrode, a second contact point electrically connected to the processing circuit, a cover covering the output terminal in a cover-closed state and exposing the output terminal in a cover-opened state. The portable electrocardiograph is structured such that the first contact point is electrically connected to the second contact point when the cover is closed and the first contact point is electrically disconnected from the second contact point when the cover is opened.
摘要:
A portable electrocardiograph includes a first electrode on an outer surface of a device main body and a second electrode drawn outside the device main body via a connection cable. The first electrode and the second electrode are brought into contact with a body surface. Then, a potential difference between the first and second electrodes is measured in order to measure an electrocardiographic waveform. In this manner, a noise caused by a myoelectric potential produced in muscles other than cardiac muscle is not superposed on the electrocardiographic waveform, and the electrocardiographic waveform can precisely be measured in a stable manner.
摘要:
An operator actuates keyboard (22) to register board name of a board for teaching (ST11), sets a reference board (1S) on a Y-axis table unit (4) to actuate a start key (ST12), inputs reference points of the reference board (1S) to be set to an original position (ST13), takes a picture of a predetermined area on the reference board to teach a mounting position (ST14), and reads data about component image and its decision criteria of the corresponding component from a component kind table (19) to be stored as teaching data (ST15). This operation is repeatedly executed until all components are taught to a mounted component inspection device which inspects mounting qualities of a plurality of components mounted on an inspected board.