Abstract: A fiber core auto-tracing method, system, and storage medium are for fabricating fiber gratings. The method includes acquiring the image of the optical fiber to be processed on the three-dimensional translation stage in real-time, adjusting the relative position of the optical fiber and the microscope objective in the Z-axis direction, until it is recognized that two boundary lines are formed between the fiber core and the cladding in the currently collected image calculating the position of the center point of the two boundary lines on the three-dimensional translation stage and adjusting the position of the fiber to be processed on the three-dimensional translation stage accordingly until the center point coincides with the XY coordinates of the laser focus. The method can quickly and accurately find the center point of the fiber core to be processed through the image recognition technology, to ensure processing accuracy.

Abstract: An automatic surface tracing method, system, and storage medium are for laser processing. The method includes, at the initial moment, identifying the state of the laser beam on the surface of the workpiece to be processed. If the state is in an out-of-focus state, the relative distance between the microscope objective and the surface of the workpiece to be processed is adjusted, and the state is simultaneously identified until it is identified as an in-focus state. The method for identifying the state of the laser beam includes capturing a position image of the laser beam on the surface of the workpiece to be processed in real-time, and identifying the state of the laser beam accordingly. The method can effectively improve the processing success rate, processing quality and processing accuracy, and is economical and efficient.

Abstract: A fiber core auto-tracing method, system, and storage medium for fabricating fiber gratings. The method includes: acquiring the image of the optical fiber to be processed on the three-dimensional translation stage in real-time; adjusting the relative position of the optical fiber and the microscope objective in the Z-axis direction, until it is recognized that two boundary lines are formed between the fiber core and the cladding in the currently collected image; calculate the position of the center point of the two boundary lines on the three-dimensional translation stage, and adjust the position of the fiber to be processed on the three-dimensional translation stage accordingly until the center point coincides with the XY coordinates of the laser focus.

Abstract: An automatic landing method, system, and storage medium for laser processing. The method includes: adjusting the relative position of the microscope objective and the workpiece to be processed along the direction of the optical axis within a preset travel range; during the adjustment process, collecting images of the workpiece to be processed in real-time and detecting the intensity of reflected light or fluorescence in real-time according to the image; determine the position of the strongest reflected light or the fluorescence initiation position according to the intensity detection data of reflected light or fluorescence. By scanning the intensity of reflected light or fluorescence, the invention achieves the purpose of quickly and accurately adjusting the laser focus to land on the surface to be processed, effectively improving the processing success rate, processing quality, and processing accuracy, and the solution is economical and efficient.

Abstract: A reciprocating servo control device for a mainshaft of a honing machine includes a bed body, a mainshaft mechanism, a driving system for hydraulic reversing and a control system, the driving system includes a mainshaft hydraulic cylinder and a mechanical-hydraulic servo valve, a valve body of the mechanical-hydraulic servo valve is connected to a piston rod of the mainshaft hydraulic cylinder via a connecting mechanism, a spool of the mechanical-hydraulic servo valve is connected to one end of a first connecting member, and the other end of the first connecting member is connected to a pilot displacement mechanism controlled by a servo driving and control system. The reciprocating servo control device adopts a mechanical position closed-loop and a hydraulic position closed-loop, to achieve numerical control of speed, position and reversing of the mainshaft hydraulic cylinder, thus a simple structure, reliable control, low price and easy adjustment can be realized.

Abstract: A disk drive is disclosed comprising a disk including a plurality of servo tracks defined by servo sectors, wherein each servo sector comprises a servo preamble. A head is actuated over the disk, wherein the head is operable to generate a read signal. The disk drive further comprises control circuitry including an analog cutoff filter operable to filter the read signal to generate a filtered read signal. The filtered read signal is sampled to generate read samples. During a normal operating mode, the analog cutoff filter is configured to have a first bandwidth. During a measurement mode, the analog cutoff filter is configured to have a second bandwidth greater than the first bandwidth, and the read samples representing at least part of the servo preamble are processed to measure a signal-to-noise ratio (SNR) and/or a fly height of the head.

Abstract: A reciprocating servo control device for a mainshaft of a honing machine includes a bed body, a mainshaft mechanism, a driving system for hydraulic reversing and a control system, the driving system includes a mainshaft hydraulic cylinder and a mechanical-hydraulic servo valve, a valve body of the mechanical-hydraulic servo valve is connected to a piston rod of the mainshaft hydraulic cylinder via a connecting mechanism, a spool of the mechanical-hydraulic servo valve is connected to one end of a first connecting member, and the other end of the first connecting member is connected to a pilot displacement mechanism controlled by a servo driving and control system. The reciprocating servo control device adopts a mechanical position closed-loop and a hydraulic position closed-loop, to achieve numerical control of speed, position and reversing of the mainshaft hydraulic cylinder, thus a simple structure, reliable control, low price and easy adjustment can be realized.