SU260207A1 - METHOD OF PHASE INDICATION IN GEODESIC RADIODAL DIMENSIONS - Google Patents

Description

Geodesic phase radio ranges are known, in which a phase shifter is used as a phase meter in combination with a phase detector. To exclude phase delays within the rangefinder stations of this type, at least two readings are made at frequencies and A. At this, m each sample is recorded in a log, and the difference (or half-difference) of these samples is taken for the final result and added to the difference obtained x 50 or 100 units. Such a method is associated with recording a large number of samples and with the need for further calculations of the final propagation time, and errors are often made when performing these calculations. In addition, in the measurement process, it is difficult to control the spread at different carrier frequencies, and thus the influence of the reflected signals on the measurement results.

The proposed one does not have these drawbacks and differs from those known in that when measuring one of the frequencies, for example A +, turn the scale of the phase shifter before setting the dial indicator of the phase detector to zero and align the rotation rotary power index with the scale zero. Then, when measured at another frequency, for example, A, the scale of the phase shifter is turned again until the dial is set to zero.

The indicator of the phase detector and remove from the scale of the phase shifter versus the index the value of the difference of counts at frequencies A + and A.

In the drawing there is a diagram of a device implementing this method.

The device contains a control knob 1, rigidly connected with a scale 2, a control knob 3 connected with a rotary index 4, a disk 5, a microswitch 6 and a warning light 7.

Device Operates as follows. When measuring at frequency A, rotating the scale 2 using the knob /, the dial detector of the phase detector (not shown in the drawing) is set to zero. The counting on the scale 2 is not performed at the same time. Turning the knob 3 sets the counting index 4 against the zero scale value of 2. When measured at frequency A, knob 1 turns the scale 2 again until the zero reading of the phase detector is obtained. The number of divisions between the scales and the counting index 4 will correspond to the difference of the counts at frequencies A, i.e., the propagation time itself, with the exception of corrections for phase delays inside the rangefinder station. To obtain a reference in nanoseconds with a scale frequency of 10 MHz, the scale of the phase shifter has 50 divisions.

The analysis of phase relations shows that in the case when the counting at the frequency A + is greater than the counting at the frequency A, the resulting WO scale of the counting difference must be increased by 50 divisions. In the proposed method, this corresponds to the case when the reading index is located in the left half of the reading device of the phase generator.

In order for the operator to correctly increase the countdown by 50 divisions in the right cases, the scheme provides for an additional device consisting of a diac 5 with two diametrically opposite tides, a microswitch 6 and a warning light 7. The disk 5 is rigidly connected with index 4. When index 4 is in the left half of the reading device, the microswitch 6 contacts are closed and the warning light 7 is lit on the control panel, indicating that the final count needs to be increased by 50 divisions. And if the index 4 is located in the right half of the reading device, the microswitch contacts 6 are open and the light bulb 7 does not light up.

Subject invention

The method of phase indication in geodetic radio rangefinders with a phase meter, performed by a phase changer in combination with a phase detector; m, consisting in the fact that, to obtain the propagation time of radio waves, at least two samples are made at frequencies A + and A with the next wave calculating the difference of these samples, characterized in that, in order to obtain the difference of the samples at frequencies A + and A directly on the scale, when measured on one of the h-frequency signals, for example A +, they turn

The scale of the phase shifter, prior to the zeroing of the pointer-indicator of the phase detector, and combining the zero index of the rotator indexes with zero, then, when measured at another frequency, such as A, the scale of the phase shifter is turned again until the zero indicator of the phase detector is turned off Azovr versus index value of the difference of readings on

g frequencies A + and A.