SU779910A1 - Device for testing phase meters at fixed frequencies - Google Patents

Description

The invention relates to the field of electrical measuring equipment, in particular to the field "iiaaoBbix and the measurement between two electrical voltages, can be used to calibrate phase meters and Lazokompatoro at frequencies from 0.001 Hz to 30 kHz. A device for checking phase meters at discrete frequencies is known, which contains a reference oscillator loaded through a frequency synthesizer at the common inputs of mixers in two identical channels made of successively connected phase shifters, Schmidt trigger, differential switch, diode, counter circuit, mixer, low-pass filter, attenuator, output terminal p.J. A disadvantage of the known calibrator is the low accuracy of the order of 0.1-0.2 and the impossibility of the Fixed discrete setting of phase displacements, and therefore the calibration time is significant, since the setting of phase shifts is performed using a phase shifter and setting large angles close to 360 , requires multiple rotations of the phase shift knob. It is also known a phase increment calibrator device containing a master oscillator, two identical channels, each of which is made of a series-connected circular phase shifter, Schmidt trigger, counting trigger, scaling circuit, low pass filter, output amplifier, attenuator, and output terminal. It is also equipped with a pulse pair sensor connected to a start button made of two Schmidt triggers, whose inputs are connected via a switch to a master oscillator, and two triggers connected to each other by closed outputs, the input of one of the triggers connected to the start button, and the other input is connected to the output of one of Schmidt's flip-flops, the output of the second Schmidt's flip-flop via a differentiating circuit, a diode and a coincidence circuit is connected to the input of one of the mentioned counting flip-flops in the canape; mentioned channels are connected to the circular phase shifter E through a frequency divider with a multiplicity e.g., two. The disadvantage of this calibrator is that it is small and there is no

automatic pointer input phase. Shifts, and protection of 6 tons of erroneous phase inputs from random impulse noise. This results in the introduction of a single angle, e.g. 10, false angles of the phase becoming 20 or 30 °. With the introduction of large angles (more bO) there are cases of incorrect angle setting, since it was necessary to count the number of clicks on the button, which, with a large number of clicks, leads to miscalculations and incorrect input of the phase shift. Its disadvantage is also the absence of a wide frequency range.

The object of the present invention is to improve the accuracy of a discrete phase shift increment in a band. . frequencies. -

This goal is achieved by the installation — for checking phase meters at fixed frequencies, containing a reference oscillator connected through a frequency synthesizer to the common inputs of mixers in two identical channels made of a series-connected phase rotator, Schmidt trigger of a differentiating circuit, a diode, a recalculated Circuit, a mixer, -filter filter, attenuator, output terminal, equipped with a discrete shift node, made of Schmidt trigger, RS-trigger, element And diode and telephone dialer, set. The contacts of which are connected with a constant voltage source and the input of an additional Schmidt trigger, the output of which is connected to the input S of the RS trigger, connected to the output of the first input of the element I, the second input of which is connected to the output of the differentiating circuit, and the output to the input of the RS RS -trigger and through the diode to the input of the offset circuit of one of the channels, and the normally closed contacts of the telephone dialer are connected to the outputs of the differentiating circuit and element I.

The drawing shows the predla. Mega device.

Installation .dif phaseframe groove on (Fixed frequencies, contains the reference; generator 1, loaded via frequency synthesizer 2 to the common inputs of mixers 3, 4 in two identical channels 5, 6; made of series-connected phase shifters 7, 8; trigger II {9 , Yu differentiating circuits 11, 12 diodes 13, 14 conversion circuits 15, 16 low-pass filters 17, 18 attenuators 19 20 output clamps 21, 22. The installation also has a discrete offset node 23 made of Schmidt trigger 24, L5-t15igger 25, element And 26, Loda 27, and telephone number abiratel 28, patterned contacts 29 which are coupled to a source of DC voltage Nogo .30 and the input trigger

Schmidt 24, and normally closed KonTaThj 31 with the outputs of the differentiating circuit 11 and the element And 26.

The device works in the following way.

A phase meter is connected to the output terminals 21, 22. Adjusting the phase shifter 7 in one of the channels 5, operating at a frequency of 1080 kg, sets a zero phase shift between the voltages (and Uti at the terminals 21, 22). Next, use your finger on the telephone dialer 28 to select the desired number, for example, the maximum possible number 9. At the same time through contact 29, pulses are passed from a constant voltage source 30 to the input of a Schmidt trigger 24, from the output of which pulses with steep fronts arrive at the setting stroke of an .S RS flip-flop 25. The last output causes the element 26 and diode 27 to begin proh to drive the pointed impulses from the differentiating circuit to the input of the reclosing circuit 15. The first impulse, passed through the element I, hits the stopping input R of the RS flip-flop 25 and overturns it to zero, closing the element 26. The next impulse from the contacts 29 performs the same action When the dial of dialer 28 returns to zero, an additional nine pulses will pass through diode 27. This will automatically introduce a phase shift in, (where K-9J is with an error of 0.02.

The latter is based on the fact that the 1 transition circuit is made of triggers with a conversion factor of 2 3, -3 2.

It is known that the trigger when it is out of balance is thrown 180 °. Entering this shift in the stages of the recalculation circuit 15, you can get a discrete shift, where n is the division ratio of the recalculation circuit. After the first division stage, i.e. at h 18, s 10.

Claims (2)

The contacts 29 of the dialer 28 will bring the coils back to their initial position. For our case, ten closures will be created and ten responses will be added to the left channel counter circuit 15, which will provide an angle of 1010 100 in front of mixer 3. When dialing any other number from 1 to 12, an angle of from 10 to 100 ° will be entered. Therefore, the passage of the phase from 0 to 360 is carried out in three sets of ten and one set of digits. Thus, the dialer automatically indicates the phase shift being entered. It also provides protection for erroneous phase shift inputs. This is done by the normal-closed contacts 31 of the dialer 28. When there is no dialing, the contacts are closed and all of them (interference from the discrete-shift node 23 is closed by the closed contacts 31. When dialing starts, they open (contact g opens with contact e) and discrete input node 23 is turned on to set phase shifts.When the telephone dial of dialer 28 returns to its place, contacts 31 are closed again and exclude node 23 from operation, protecting the circuit from spurious from the side of node -23. At its 3rd, 4th one of two signals with a frequency of 1080 kHz / 36–30 kHz and with a phase changeable via U. In mixer 3 from frequency synthesizer 2, the frequency is 30.00000030, 999999. receive a signal with frequencies from 0.001 Hz to 1999.999 Hz with a step of 0.001 Hz, having a shift of 10 .. Attenuators 13, 20 can change the amplitude 100 times (60 dB). The specified node 23 is entered into the calibration unit Phase meters of infralow and low frequencies. At present, a prototype model of the UVAP-1 installation has been created. Studies have shown that the automatic setting of the phase with the telephone dial phone's home takes 20 ms with a phase setting accuracy of 0.02 The invention of the installation for calibrating phase meters at fixed frequencies, containing a reference oscillator connected through the frequency synthesizer to the common inputs of mixers in two identical channels made (of a series-connected phase shifter, Schmidt trigger, differentiating circuit, diode, conversion circuit, mixer. Low-pass filter, attenuator, output terminal, It is distinguished by the fact that, in order to increase the accuracy of the {1) phase phase shift increment in the frequency band, it is equipped with a discrete offset node made of a Schmidt trigger, an RS flip-flop, an And element, a diode and a telephone dialer, the diagonal contacts of which with a constant voltage source and an input of an additional Schmidt trigger, the output of which is connected to the input S of the RS trigger, connected to the outputs of the first input of the element I, the second input of which is connected to the output of the differentiating circuit, and the output to the input of the RS RS trigger and black Without a diode to the input of the recalculation circuit of one of the channels, the normally closed contacts of the telephone dialer are connected to the outputs of the differentiating circuit and element I. Sources of information taken into account during the examination 1. CTIA patent 3588604, cl. 324-95, 1971. 2. USSR author's certificate 415611, cl. at 01 R 25/04, 1972: