초록 ▼

Electro-optical measuring device for absolute distances to a target point. In addition to the beam polarization being modulated as is required for the Fizeau method, the invention provides that the modulation means contain a modulator crystal (8; 7) having electrodes which are connected to a variabl

Electro-optical measuring device for absolute distances to a target point. In addition to the beam polarization being modulated as is required for the Fizeau method, the invention provides that the modulation means contain a modulator crystal (8; 7) having electrodes which are connected to a variable DC source (11; 10), and that a control apparatus (19) is provided which initiates the determination of the value of the modulation phase in the region of minimum brightness at the associated modulation frequency, successively for different DC voltage values, over a full cycle of the basic polarization of the modulator crystal, stores and averages the measured values, repeats the measurement at a slightly changed modulation frequency if the mean value is not zero, and uses interpolation to determine the modulation frequency which is associated with the mean modulation phase value of zero. The measuring device is particularly suitable for coupling to a tracking system based on interferometry.

대표청구항 ▼

[ I claim:] [1.] An electro-optical measuring device for absolute distances to a target point having means for producing a collimated, linear-polarized laser beam, electro-optical modulation means for modulating and demodulating the polarization of the laser beam with a specific sequence of modulati

[ I claim:] [1.] An electro-optical measuring device for absolute distances to a target point having means for producing a collimated, linear-polarized laser beam, electro-optical modulation means for modulating and demodulating the polarization of the laser beam with a specific sequence of modulation frequencies, a reflector which is coupled to the target point, electro-optical detection means for determining the value of the modulation phase in the region of minimum brightness between the transmitted, modulated laser beam and the demodulated laser beam received from the target point, and for determining the associated modulation frequency, as well as having means for calculating the distance from two adjacent modulation frequencies with the modulation phase zero, wherein the modulation means (5) contain a modulator crystal (8; 7) having electrodes which are connected to a variable DC source (11; 10), and a control apparatus (19) is provided which initiates the determination of the value of the modulation phase in the region of minimum brightness at the associated modulation frequency, successively for different DC voltage values, over a full cycle of the basic polarization of the modulator crystal (8; 7), stores and averages the measured values, repeats the measurement at a slightly changed modulation frequency if the mean value is not zero, and uses interpolation to determine the modulation frequency which is associated with the mean modulation phase value of zero.