SU1051374A2 - Wave recorder - Google Patents

Abstract

VOLNOGRAF, avtom.Sv. No. 943526, distinguished by the fact that, in order to expand the operating range and sensitivity in such an extended range, the time interval generator is designed as an RC circuit connected to the preamplifier via an amplitude selector formed by a series-connected rectifier, pulse counter and key, output the rectifier is additionally connected directly to the charge circuit of an RC circuit, which is connected by one output to a triggering unit through a null organ, and the other to a recorder, full as a pulse counter, through a pulse shaper formed by a coincidence circuit, to one of the inputs of which a crystal oscillator is connected, and to another - a trigger with two inputs connected to the specified zero-organ and an additional zero-organ, also connected to the output of the RC circuit , (L, in this case, the threshold voltage on the main null organ is превышает times higher than the threshold voltage on the additional organ. SP with |; ib

Description

1 The invention relates to oceanographic measurements and can be used to determine the parameters of wind waves on the seas, reservoirs, both in the coastal zone, and in the drift of ships. A known sungraph containing a vibrating sensitive element, triggered by a triggering unit, is connected to the output of an acoustic receiver through a pre-amplifier, an amplitude selector and a driver for the duration of the time interval, as well as a recorder connected to the output of a preliminary accelerator G J. No. 943526 is known to a wave recorder in which the posting of an acoustic receiver is improved by using several pickups located symmetrically to a vibrating sensing element in a plane perpendicular to its axis and connected to the preamplifier through a C 2 summat. capillary waves under the conditions of occurrence of separated turbulent flows. However, the use of the dependence of the oscillation frequencies of a string — the vibrating element on the depth of its immersion — limits the measurement range. The sufficient accuracy of the measurements is preserved only when immersed in half of the string. The purpose of the invention is to expand the working range of measurements and increase the sensitivity over the entire range. To achieve this goal, a wave recorder contains a vibrating sensitive element triggered by a trigger unit connected to the output of an acoustic receiver formed by several pickups arranged symmetrically to the vibrating junction element in a plane perpendicular to its axis, through an adder, preamplifier, amplitude, and the driver of the duration of the time interval, and the recorder, also connected to the output of the preamplifier, the driver of the time int It was made as an RC pep connected to a pre-amplifier via an amplitude selector electrically formed by series-connected rectifier, pulse counter and key, the rectifier output is additionally connected directly to the charging circuit of the RC circuit, which is connected to the start-up unit through its own output a nullorgan, and the other with a recorder, designed as a pulse counter, through a pulse shaper generator formed by a coincidence circuit, to one of the inputs of which a crystal oscillator is connected, and the other is a trigger with two inputs connected to the specified zero-organ and an additional zero-organ, also connected to the RC circuit, and the threshold voltage on the main zero-organ is E times the threshold voltage on the additional zero-organ. With this arrangement, the damping factor of the vibrating element is measured, and not the oscillation frequency. An analytical study of the oscillatory process showed that the attenuation coefficient varies monotonically as a function of the immersion depth, while the frequency change curve bends at a point corresponding to an immersion half the length of the element. Significantly, the slope of the attenuation coefficient curve, which determines the sensitivity of the waveguide, is greater than the slope of the frequency curve. The drawing shows a block diagram of the waveguide in FIG. 2 is a timing diagram corresponding to the operation of the block diagram. The waveguide works in the following way. After the wave recorder is immersed, water is supplied to its measuring circuit. In this case, the start-up block 1 is triggered, a short pulse with a duration T is received on the electromagnet 2 (fig. 2a) and a string 3 oscillates at a frequency lJ. alternating current (Fig. 26J.) This voltage on preamplifier 6 is converted by means of rectifier 7 to

Claims (1)

WAVNOGRAPH, by author No. 943526, characterized in that, in order to expand the operating range and increase the sensitivity in such an extended range, the time interval shaper is made as an RC circuit connected to the preamplifier through an amplitude selector formed by a rectifier, pulse counter and key connected in series, the output the rectifier is additionally included directly in the charge circuit of the RC-capacitance circuit, which is connected with one of its outputs to the start-up unit via a zero-organ, and the other with a recorder made as a pulse counter, through a pulse train generator formed by a coincidence circuit, a crystal oscillator is connected to one of the inputs, and a trigger with two inputs connected to the specified zero organ and an additional zero organ also connected to the RC circuit output is connected to the other, at the same time, the threshold voltage at the main null organ is € times higher than the threshold voltage at the additional organ. SU ,, 1051374> 1 105