SU974297A1 - Amplitude detector volt ampere characteristic linearity meter - Google Patents

Description

The invention relates to radio measurement technology, as well as to other areas of radio electronics (broadcasting, communications, radio navigation, etc.) that use amplitude detection.

A known linearity meter of the dynamic characteristic of detectors of AN oscillations, containing a master RF generator, two modulating generators, two amplitude modulators, high frequencies. phase shifter, phase meter, adder ^{, s} and selective meter [1].

The disadvantages of the known meter are the limited sensitivity, complexity and complexity of the measurement method.

Closest to the proposed is a device for measuring non-linear characteristics, containing two RF generators, the outputs of which through attenuators are connected to the inputs of the adder, the output of which through a filter is connected to the first input terminal of the device, the filter, the input of which is connected to the second input terminal of the device, and the output - with selective level meter [2] ..

However, this meter is characterized by insufficient measurement accuracy. The purpose of the invention is the expansion of the functionality of the meter and improving the accuracy of measurements.

This goal is achieved by the fact that in the linearity meter the volt characteristic of the amplitude detector contains the main RF generator connected to the first input of the adder, the output of which through the attenuator is connected to the first input terminal of the meter? an additional RF generator, the output of which through the attenuator is connected to the second input of the adder, a filter, the input of which is connected to the second input terminal of the meter, an indicator, a unit for maintaining the frequency difference, a controlled divider, an amplitude detector, a switch are introduced, and the second output of the main RF generator is connected through the unit for maintaining the frequency difference with an additional high-frequency generator, the output of the filter of the difference frequency through the controlled divider and amplitude detector is connected to the input of the oscillographic indicator, 5 s the synchronizing input of which is connected to the third output of the main RF generator, the fourth output of which is connected through a switch to the control input of the amplitude detector. The main RF oscillator is made in the form of a master RF generator, the output of which is connected to the first input of the amplitude modulator, and of the low-frequency oscillator of amplitude oscillation, the output of which through the switch co-15 is single with the second input of the amplitude modulator.

In FIG. 1 shows a block diagram of a meter; in FIG. 2 - current-voltage characteristic of the tested 20 amplitude detector; in FIG. 3 - voltage at the input of the detector 6 in calibration mode.

The meter contains the main RF generator 1, which consists of a master high-frequency oscillator 2, a low-frequency oscillation oscillator 3, an amplitude modulator 4, a switch 5, an attenuator 6, an adder 7, an attenuator 8, a verified amplitude 30 detector 9, a filter 10 differential frequency, switch 11, a controlled voltage divider 12, an amplitude detector 13, an oscillographic indicator 14, an additional high-frequency generator 15, a unit 16 for maintaining the frequency difference of the generators.

The device works as follows.

Using the RF generator 1, _{4 is} generated _{(J the} voltage with the frequency is generated (J ^ = = £ 2 5 ΐ n using the 15 “E ^ sino ^ t generator. The automatic frequency control system 16 maintains a constant and stable frequency difference between the generators 1 and 15 lines = 10 ^ - 0) ^. The sawtooth swing voltage from the output of the generator 3 is supplied to the input of the amplitude modulator 4 and changes the amplitude of its output voltage U ₃ v, / given: limits = E ₃ (t) sin t = E ₃ 0 + m (tjjsinuijt.

In the absence of a swing voltage, that is, when m (t) = 0, the amplitude of the carrier oscillation £ _{3 is} set using the RF attenuator 8 to the center of the ⁵⁵ checked section of the detector characteristic (Fig. 2 a). The amplitude of the swing voltage determines m (t) and the width of this section. Using the RF attenuator 6, the amplitude E _{2 of the} voltage is significantly reduced so that at the input of the adder 7 it is significantly less than the minimum value of the variable amplitude E ₃ (i), i.e. "LE ₃ CH | _min . After addition, at the output of the adder, 7 ' ^U 2 ^{+ (J} 3 ^{= E} 2 ^{5in W} 2 ^{t +} (ijslnuiyt =

Since the tested amplitude detector 9 does not respond to the frequency and phase of the voltage supplied to it, they are further interested in the amplitude of the resulting voltage

Ε _β = E * + E | (t) + 2E _a E ₃ (t) c <> sawt =

- E * WΊΠ + —t ~ ⁺ cos Δΐν <

³ f Ej (t).

Due to the above choice of the ratio of the amplitudes E ^ and | E _E (+) 1m1n ^with any required degree of accuracy, approximately

E2 = E ₃ (t) + Ejjcos

The resulting amplitude acting on the tested amplitude detector 9 voltage contains two components (Fig. 2 6). The first of them (t) has a large magnitude and relatively slowly (with a swing frequency) moves the operating point within the test section of the detector 9 characteristics. The second E ^ cosauit has a small value and a high frequency du compared to the swing frequency. The output voltage of the detector It contains a component with a frequency dis that stands polosorym filter 10. in view of the smallness of the amplitude of this component is determined by the average slope a detector 9 at a point corresponding to a given value E ₃ (i), on a small part (1 E ₂ . E. Approximately differential transconductance characteristics of the detector 9 in this point. When changing E ₃ (1), m. E. By moving the operating point within the scanned area characteristics of the detector 9, the amplitude component of a frequency Δω at its output changes in accordance with change the steepness of the characteristic (Fig. 2 c). From the output of the filter 10, a voltage with a frequency Δυο and a varying amplitude is supplied through the divider 12 to the amplitude detector 13. At its output, a voltage proportional to the change in the amp

Of the amplitude of the component with the frequency dso when moving the operating point with the oscillation frequency, that is, proportional to the change in the steepness of the detector 9. This voltage during the forward swing of the amplitude, that is, during the forward sweep of the oscilloscope, is observed on the oscilloscope 14. It is possible to measure on the screen the deviation of the slope of the characteristic from a constant value at any point in the section of the characteristic being tested. The switch 11 and the controlled divider 12 make it possible to calibrate the device path, which is used to measure relative changes in the amplitude of the component with a frequency du proportional to the relative changes in slope. During calibration, the swing voltage is disconnected from the amplitude modulator 4, then Ej (t) = GO = E ^ = const. The oscillation voltage is supplied to the switch 11, which periodically switches the controlled divider .12, so that the amplitude of the component with the frequency Di) at the detector input 13 me-25 changes to a calibrated relative value Δ-n — rm-> for example a - 1% ί ¹ '(Fig. 3). This allows you to adjust the gain of the amplifier for the vertical deviation of the oscilloscope indicator 14 to establish the desired image scale -> image, for example 0.1% per 1 cm.

Thus, the device allows for quick automated measurement of small nonlinearities of the amplitude detection paths with high sensitivity, i.e., to greatly simplify and speed up the process of adjusting and checking such paths. Its advisable ^uc "use in the manufacture of broadcasting, television, etc. connected receivers * AM signals, the modulation of gauges and other devices with amplitude detectors.

Claims (2)

(54). LINEARITY METER OF VOLTAMPERAL CHARACTERISTICS OF AMPLITUDE DETECTOR The invention relates to radio measuring equipment, as well as to other areas of radio electronics (broadcasting, communications, radio navigation, etc.), which use amplitude detection. -generator, two modulating oscillators, two amplitude modulators, a high-frequency phase shifter, a phase meter, an adder, and a C 1 selective meter. The disadvantages of the known meter are the limited sensitivity, complexity and laboriousness of the measurement procedure. Closest to the present invention is a device for measuring a nonlinear characteristic containing two RF generators, the outputs of which are connected via attenuators to the inputs of an adder, the code of which through a filter is connected to the first input terminal of the device, the filter whose input is connected to the second input terminal of the device, and the output is with a selective level 2 meter. However, this meter is characterized by insufficient measurement accuracy. The purpose of the invention is to expand the functionality of the meter and improve measurement accuracy. The goal is achieved by the fact that the linearity-current characteristic amplitude detector of the amplitude detector contains the main RF-HfeHepaTOp connected to the first input of the adder, the output of which through the attenuator is connected to the first input terminal of the meter additional RF-generator, the output of which through the attenuator is connected to the second input an adder, a filter whose input is connected to the second input terminal of the meter, an indicator, a block for maintaining the frequency difference, a controlled divider, an amplitude detector, a switchboard are inserted The second output of the main HF generator is connected via a frequency difference support unit with an additional RF generator, the output of the differential frequency filter is controlled by a controlled divider and the amplitude detector is connected to the oscillographic indicator input, the synchronization input of which is connected to the third output of the main RF generator, the fourth output which is connected via a switch with the control input of the amplitude detector. The main high-frequency generator is made in the form of a master high-frequency generator, the output of which is connected to the first input of an amplitude modulator, the low-frequency oscillation swing generator, the output of which is connected via a switch to the second input of the amplitude modulator. FIG. 1 shows a structural diagram of the meter; in fig. 2 - volt-ampere characteristic of the amplitude detector being tested; in fig. 3 - voltage at the input of the detector 6 in the calibration mode. The meter contains a main RF generator 1, consisting of a master high-frequency generator 2, a low-frequency generator 3 amplitude sweep, amplitude modulator 4, switch 5, attenuator 6, adder 7, attenuator 8, verifiable amplitude detector 9, filter 10 difference frequency, switch 11, controlled voltage divider 12, amplitude detector 13, axillographic indicator 14, additional high frequency generator 15, unit 16 supporting the difference between the frequency of the generators. The device is working as follows. With the help of the RF generator 1, a voltage is formed with a frequency c; U E 5-inuU) t, using the generator 15 Uij Еп21па) 2. The automatic frequency control system 16 maintains a constant and stable difference in the frequency of the oscillators 1 and 15 lsh. The sawtooth voltage swept from the output of the generator 3 is fed to the input of the amplitude modulator 4 and changes the amplitude of its output voltage U in,; zatzannyh: limits and ,, 3 (1; sin E3 -) m (t) sinu) jt. In the absence of oscillation voltage, i.e. with rp (-t) 0, the amplitude of the carrier oscillation E3 is set with the help of the RF attenuator 8 to the dent of the tested section of the characteristic torus (Fig. 2 a). The magnitude of the swing voltage determines m (t) and the width of this region. With the help of the RF attenuator 6, the amplitude of the voltage Urj is significantly reduced, so that at the input of the adder 7 it is much less than the minimum value of the amplitude variables EZ (T), i.e. lE IminAfter adding at the output of the adder, 7 tUjt-t-EjCt SinUljtz 62 Sin + V (t; J. POSK, just the tested amplitude detector 9 does not respond to the frequency and the voltage of the incoming voltage, then are interested in the amplitude of the resulting voltage If E fEj + E (t) (t) cosawt li- sozd If EZ ("; jv Due to the above choice of the ratio of amplitudes Ej and lEj (t) Im4n with any required degree of accuracy, approximately E (. The resulting amplitude acting on the amplitude under test The voltage detector 9 contains two components (Fig. 26). The first of them has a large value and compares extremely slowly (with a frequency of swing) mixes the operating point within the tested section of the detector characteristic 9. The second E cosjujlet is small and high compared with the swing frequency frequency auj, the output voltage of the detector contains a component With a band filter 1O. Considering the smallness of E, the amplitude of this component is determined by the average steepness of the detector 9 at a point corresponding to a given value of Ej (i) in a small area (t Е, i.e., approximately differentiated slope Characteristics detector 9 at the indicated point. When changing E3 (t), T. that is, when moving the operating point within the tested area, the characteristics of the detector 9, the amplitude of the component with the frequency dsh at its output changes in accordance with changes in the slope of the characteristic (Fig. 2c). From the output of the filter 10, the voltage with the frequency Lyo and the variable amplitude through the divider 12 enters the amplitude detector 13. At its output, a voltage is allocated proportional to the change in the amplitude of the amplitude by the component with the frequency dso at the displacement of the working point with the swing frequency, t e, proportional to the change in the steepness of the detector characteristic 9. This voltage during the forward stroke of the amplitude shaking wave, i.e. during the forward stroke of the sweep scanner, is observed on the crash scanner screen 14, It is possible to measure the deviation on the screen characteristic slopes from a constant value at any point of the tested section of the characteristic. The switch 11 to the controlled divider 12 allows to project the path of the device, which is used to measure the relative changes in the scientific research institute of the amplitude of the component with the frequency Doo, proportional to the relative changes in the steepness. During calibration, the swing voltage is disconnected from the amplitude modulator 4, then 3) E |, con5t. Tension swing post. It goes to switch 11, which periodically switches the controlled divider, 12, so that the amplitude of the component with frequency -Di at the detector input is changed by a calibrated relative, for example, 1% value (Fig. 3). This allows adjusting the gain of the vertical deflection amplifier of the indicator indicator 14 to set the desired image scale, for example, O, 1% by 1 cm. Thus, the device allows quick automated measurement of small non-linearities of amplitude detection paths with high sensitivity, t, e . dramatically simplify and speed up the process of adjustment and npoBefvki such paths. It is advisable to use it in the manufacture of broadcasting, television, communications, etc. AM signal receivers, modulation meters, and other devices with amplitude detectors. Formula of invention 1, Linear meter of current-voltage characteristic of the amplitude detector, containing the main RF generator connected to the first input of the adder, the output of which through the attenuator is connected to the first input terminal of the meter, additional RF generator, the output of which through the attenuator is connected to the second input the adder, the filter, the input of which is connected to the second input terminal of the meter, the indicator, which is so that, in order to expand the functionality of the meter and increase the accuracy measurements, a frequency difference maintenance unit, a controlled divider, an amplitude detector, a switch are introduced, the second output of the main RF generator is connected through the frequency difference support unit with an additional r RF generator, the output of the difference frequency filter through a controlled distant amplifier and amplitude detector connected to the input of an oscillographic indicator, the synchronizing input of which is connected to the third output of the main RF-generator, the fourth output of which is connected via a switch to the control input of the amplitude UD detector, 2, Pop meter, 1, differing from that with the fact that the main RF generator is made in the form of a master RF generator, the output of which is connected to the first input of the amplitude modulator, the amplitude wobbler through a switch connected to the second input of the amplitude modulator. Sources of information taken into account in the examination 1, Author's certificate of USSR 308377, class, G 01 R 23 / ОО, 197О. 2, Borisov B, P. Measurement of non-linear characteristics of equipment and tract communication, M., Svy, 1969,, 11-19 (prototype). L 974297 § Fi1.g 9- i