Method for controlling a drive apparatus of a micro-oscillation mirror, control device and deflector mirror apparatus

    公开(公告)号:US11988826B2

    公开(公告)日:2024-05-21

    申请号:US16973199

    申请日:2019-06-04

    摘要: A method for controlling a drive apparatus (18) of a micro-oscillation mirror (16), a control device (28) and a deflector mirror apparatus (14) are described. In the method, at least one actuation signal (20) is generated, and the drive apparatus (18) is actuated therewith in such a way that it drives the micro-oscillation mirror (16) in an oscillating fashion, At least one position signal (26) which characterizes the deflection (22) of the micro-oscillation mirror (16) is sensed. The at least one actuation signal (20) is closed-loop controlled on the basis of the at least one position signal (26) in such a way that the micro-oscillation mirror (16) is driven at its resonant frequency, The amplitude of the at least one position signal (26) is continuously compared with at least one threshold value (38a, 38b, 38c). At least one time interval (42a, 42b, 42c) between at least two passes of the at least one position signal (26) through at least one threshold value (38a, 38b, 38c) is determined. The at least one actuation signal (20) is closed-loop controlled on the basis of the at least one time interval (42a, 42b, 42c).

    METHOD FOR CONTROLLING A DRIVE APPARATUS OF A MICRO-OSCILLATION MIRROR, CONTROL DEVICE AND DEFLECTOR MIRROR APPARATUS

    公开(公告)号:US20210382298A1

    公开(公告)日:2021-12-09

    申请号:US17283835

    申请日:2019-10-07

    IPC分类号: G02B26/08 B81B3/00

    摘要: A method for controlling a drive apparatus (20) of a micro-oscillation mirror (16), a control device (28) and a deflector mirror apparatus (14) are described. The drive apparatus (20) has at least two comb drives (22a, 22b) which are arranged on different radial sides of a pivoting axis (18) of the micro-oscillation mirror (16). In the method, at least two actuation signals AS1, AS2) are generated, and the at least two comb drives (22a, 22b) are therefore actuated at least temporarily in such a way that they drive the micro-oscillation mirror (16) in an oscillating fashion. At least one elongation signal (P1, P2), which characterizes the elongation (26) of the micro-oscillation mirror (16) is generated using at least one comb drive (22a, 22b). At least one of the actuation signals (AS1, AS2) is adapted to the oscillation of the micro-oscillation mirror (16) on the basis of at least one of the elongation signals (P1, P2), At least one of the comb drives (22a, 22b) is connected, by means of at least one switching apparatus (34), alternately to an actuation apparatus (32) for receiving at least one actuation signal (AS1, AS2) or to an elongation-detection apparatus (24) for generating at least one elongation signal (P1, P2).

    Optoelectronic detection device, method for the operation of such a detection device, and motor vehicle with such a detection device

    公开(公告)号:US11994587B2

    公开(公告)日:2024-05-28

    申请号:US16765328

    申请日:2018-11-26

    摘要: In an optoelectronic detection device (1) with at least one optical transmitting unit (3) with an electromagnetic pulse generator (4) for emitting electromagnetic emitted pulses (5), and at least one optical receiver for receiving reflected emitted pulses (7) that provides a reception signal, formed depending on the reflected emitted pulse, to an evaluation device (10), wherein the optical receiver (2) is configured to provide a trigger signal (11) for the control of the optical transmitter (3), an improved compensation of the optoelectronic detection device for errors resulting from temperature or ageing should be achieved. This is achieved in that the optical receiver (2) is configured to provide the trigger signal (11) to the evaluation device (10), the optical transmitter (3) is configured to provide a feedback signal (12) to the evaluation unit (10), wherein the feedback signal (12) corresponds to the time point of the transmission of the transmitted electromagnetic pulse (5) by the electromagnetic pulse generator (4), and the evaluation device (10) is configured to determine the time difference between the trigger signal (11) and the feedback signal (12).

    Method for controlling a drive apparatus of a micro-oscillation mirror, control device and deflector mirror apparatus

    公开(公告)号:US12055705B2

    公开(公告)日:2024-08-06

    申请号:US17283835

    申请日:2019-10-07

    摘要: A method for controlling a drive apparatus (20) of a micro-oscillation mirror (16), a control device (28) and a deflector mirror apparatus (14) are described. The drive apparatus (20) has at least two comb drives (22a, 22b) which are arranged on different radial sides of a pivoting axis (18) of the micro-oscillation mirror (16). In the method, at least two actuation signals AS1, AS2) are generated, and the at least two comb drives (22a, 22b) are therefore actuated at least temporarily in such a way that they drive the micro-oscillation mirror (16) in an oscillating fashion. At least one elongation signal (P1, P2), which characterizes the elongation (26) of the micro-oscillation mirror (16) is generated using at least one comb drive (22a, 22b). At least one of the actuation signals (AS1, AS2) is adapted to the oscillation of the micro-oscillation mirror (16) on the basis of at least one of the elongation signals (P1, P2), At least one of the comb drives (22a, 22b) is connected, by means of at least one switching apparatus (34), alternately to an actuation apparatus (32) for receiving at least one actuation signal (AS1, AS2) or to an elongation-detection apparatus (24) for generating at least one elongation signal (P1, P2).

    METHOD FOR CONTROLLING A DRIVE APPARATUS OF A MICRO-OSCILLATION MIRROR, CONTROL DEVICE AND DEFLECTOR MIRROR APPARATUS

    公开(公告)号:US20210255454A1

    公开(公告)日:2021-08-19

    申请号:US16973199

    申请日:2019-06-04

    IPC分类号: G02B26/08 G01S7/481 G02B26/10

    摘要: A method for controlling a drive apparatus (18) of a micro-oscillation mirror (16), a control device (28) and a deflector mirror apparatus (14) are described. In the method, at least one actuation signal (20) is generated, and the drive apparatus (18) is actuated therewith in such a way that it drives the micro-oscillation mirror (16) in an oscillating fashion. At least one position signal (26) which characterizes the deflection (22) of the micro-oscillation mirror (16) is sensed. The at least one actuation signal (20) is closed-loop controlled on the basis of the at least one position signal (26) in such a way that the micro-oscillation mirror (16) is driven at its resonant frequency. The amplitude of the at least one position signal (26) is continuously compared with at least one threshold value (38a, 38b, 38c). At least one time interval (42a, 42b, 42c) between at least two passes of the at least one position signal (26) through at least one threshold value (38a, 38b, 38c) is determined. The at least one actuation signal (20) is closed-loop controlled on the basis of the at least one time interval (42a, 42b, 42c).

    Method for operating an optoelectronic detection device, and optoelectronic detection device

    公开(公告)号:US12123981B2

    公开(公告)日:2024-10-22

    申请号:US17636294

    申请日:2020-08-04

    摘要: The invention relates to a method for operating an optoelectronic detection device (12) for monitoring at least one monitoring region (14) with optical monitoring signals (34), and to an optoelectronic detection device (12). In the method, at least one first receive start signal (58a) is sent to at least one first receiver (24a), and at least one second receive start signal (58b) is sent to at least one second receiver (24b). In response to the at least one first receive start signal (58a), a receive process which is carried out with the at least one first receiver (24a) is started and at least one first trigger signal (44a) is generated with the at least one first receiver (24a). In response to the at least one second receive start signal (58b), a receive process which is carried out with the at least one second receiver (24b) is started and at least one second trigger signal (44b) is generated with the at least one second receiver (24b). From the at least one first trigger signal (44a) and the at least one second trigger signal (44b), a transmission trigger signal (64) is determined, which corresponds to the later of the at least two trigger signals (44a, 44b) at least in terms of its trigger function. In response to the transmission trigger signal (64), at least one optical monitoring signal (34) is generated with at least one optical transmitter (22).

    METHOD FOR OPERATING AN OPTOELECTRONIC DETECTION DEVICE, AND OPTOELECTRONIC DETECTION DEVICE

    公开(公告)号:US20220299611A1

    公开(公告)日:2022-09-22

    申请号:US17636294

    申请日:2020-08-04

    摘要: The invention relates to a method for operating an optoelectronic detection device (12) for monitoring at least one monitoring region (14) with optical monitoring signals (34), and to an optoelectronic detection device (12). In the method, at least one first receive start signal (58a) is sent to at least one first receiver (24a), and at least one second receive start signal (58b) is sent to at least one second receiver (24b). In response to the at least one first receive start signal (58a), a receive process which is carried out with the at least one first receiver (24a) is started and at least one first trigger signal (44a) is generated with the at least one first receiver (24a). In response to the at least one second receive start signal (58b), a receive process which is carried out with the at least one second receiver (24b) is started and at least one second trigger signal (44b) is generated with the at least one second receiver (24b). From the at least one first trigger signal (44a) and the at least one second trigger signal (44b), a transmission trigger signal (64) is determined, which corresponds to the later of the at least two trigger signals (44a, 44b) at least in terms of its trigger function. In response to the transmission trigger signal (64), at least one optical monitoring signal (34) is generated with at least one optical transmitter (22).