SU953597A1 - Modulation depth meter - Google Patents

Description

The invention relates to a radio measurement technique and can be used in automatic control and monitoring systems for analysis. amplitude modulated (AM si | - nadov.

A digital modulation depth gauge is known, comprising a serially connected matching device, a controlled frequency generator, an electronic key, a pulse counter, a first transfer unit, a digital comparison device, a second transfer unit, an arithmetic and recording device, and serially connected control unit an integrated interval generator connected between the output of the matching device and the second input of the electronic key, the second output of the control unit being connected to The control inputs of the pulse counter, transfer units, and digital comparison device LM However, such a meter is characterized by insufficient noise immunity, since only two envelope readings are used to measure the modulation depth.

Also known is a modulation depth gauge comprising interconnected measurement torque generator and analog-code converter,

° whose inputs are interconnected and connected to the input terminal of the meter, and. the first divider of the number of pulses, the average estimator, the difference counter,

15 quad, the second pulse number divider, the square root extractor and the code dividing unit; the analogue – code converter output is connected to the inputs of the first divider

Claims (2)

20 the number of pulses and the difference counter, and the output of the average counter with the second input of the code division unit. This meter has a high noise immunity, since it determines the modulation depth from n samples of the envelope, where n is the carrier frequency ratio U; to the frequency of the envelope 51 and p tt; / fil 71 23. The disadvantages of the meter are the complexity of the hardware implementation and the measurement accuracy is not high enough due to the large number of computational operations. The purpose of the invention is to simplify the hardware implementation of the meter. The goal is achieved by the fact that a modulation depth gauge containing a measurement torque generator and analog-code conversion, whose inputs are connected to the meter input terminal, a pulse number divider in series, average counters and a difference counter and a serially connected code division block and block registration, and the inputs of the pulse number divider and the second input of the difference counter are connected to the output of the sign-code conversion of the body, the code established between the difference counter and the block of cases is entered There is an adder, while the second input of the block dividing unit is connected to the output of the analog-code converter. The drawing shows a block diagram and measure of the modulation depth. The meter contains an analog-code converter 1, a measurement moment setting unit 2, a pulse number divider 3, an average counter k, a difference counter, an adder 6, a code division unit 7, a registration unit 8 and an input terminal 9 "Let amplitude-modulated enter the meter 9 the signal which is described by the expression, Uli) - Vvr, lH-A ft) 3TCt), (); the amplitude of the carrier signal in the absence of modulation; modulation depth; a function describing the law of envelope variation; f (t) is the function describing the law of change of the modulating signal. In the general case, the functions f (t) and H (t are non-sinusoidal. However, as a rule, the carrier and envelope signals are harmonic, i.e. f (t) cos SLt, p (t) cos (u; t + H), 7k is circular frequency and start, on the carrier phase; SI is the circular frequency of the envelope. If the instantaneous values of the AM signal correspond to the maximum carrier values, i.e. 4 (t) 1, the transducer, and the IJK code, then according to learning K-Vvv, tl Oco5fti f (1): where t-; are the times at which the carrier has maximum values V. The code can be obtained either by highlighting the maximum values of the carrier and their direct analogue A second transformation, or a measurement of the average values for each half-period of the carrier. The second option is more noise-proof than the first already at the conversion stage and therefore should be preferred. The expression (2) is written as V, cosfilt, ti) formula (3) and summing the left and right parts of this equality over N points, we get: | UK- / v «/ V / H --os SL ,,. (4) where N 7i and // 51 when converting only positive maximums of the carrier and N 2y, if the maximum carrier is subject to conversion. ,,, Considering that | / cosSLtK / "| // v /, VV and is the average value of the AM signal modulo, we have Siw (Ti / N) N | V" -V / (5} I ivcosftriw) If W is large, which is usually done, then ; cos - 1 (the relative error of such an approximation R- / wHi expression (5) takes the form: |, (6) Expression (6) and it is necessary, in, the basis of the construction of the proposed modulation depth gauge. In accordance with this expression, the modulation depth is by accumulative processing of deviations of the instantaneous envelope values at N points for the period from the average modulo value of the AM signal (or the carrier amplitude in the absence of modulation). The meter works as follows. The input AM signal U (t) is fed simultaneously to the converter 1 code and set The chime is 2 measurement points, the instantaneous values of the AM signal V (t at times t (c, corresponding to the maximum carrier values) are converted into codes. These codes during the envelope period go to the divisor 3 of the number of pulses and to one of the inputs block 7 division unit. Divider 3 divider ratio is chosen equal to N. Since during the envelope period N codes of instantaneous values of the control codes arrive, and in the counter A of the average, the output codes of divider 3 are averaged, during the time of one period of the envelope the code V is fixed in it In block In fact, in codes, a code which, according to expression 6), is written is a divisor in the definition of XJ. During the next envelope period, the same N codes V | The difference is received into the counter 5, into which the received also is transferred from the counter. the previous stage, the average value of V AM signal. In counter 5, a difference | Vj is formed (- V /, which accumulates in adder 6. After the end of the period of the round curve, the quantity ./V|tV/, formed in adder 6, is entered into block 7 for dividing the codes as the second through the input, in block 7 codes are calculated by modulation lip in accordance with measure (6). The output code of block 7 is proportional to the modulation depth and is fed to block 8. Invention The modulation depth gauge containing the unit for measuring moments and the analog-code converter in The ports of which are connected to the input terminal of the meter, the serially connected divider of the number of impulses, the average counter and the difference counter and the serially connected block of codes and the registration unit, the input of the pulse divider and the second input of the difference counter are connected to the analog converter output, characterized in that the purpose of simplifying the instrumental implementation of the meter, an adder installed between the difference meter and a block dividing unit has been entered into it, the second entering the block dividing unit Connected to the output of the analog-code converter. Sources of information taken into account during the examination 1. USSR author's certificate ff 652121, cl. G 01 R 29/06, 1976. 2. USSR author's certificate number 721771, cl. G 01 R 29/06 1977 (prototype).