SU720779A1 - Digital frequency detector - Google Patents

Description

(54) DIGITAL FREQUENCY DETECTOR

The invention relates to communication technology and can be used in data transmission systems. A digital frequency detector is known, with a supporting limiter whose output is SOY-: dinene sd trigger inputs, the output of which is connected to the first input of the register, the second input of which is connected to the output of the reference frequency generator, while the outputs of the register are connected to the inputs of the majority blot. ..., However, such a detector has a low noise immunity. The purpose of the invention is to improve noise immunity. To do this, a digital frequency detector contains a limiter, the output of which is connected to the trigger inputs, the output of which is connected to the first input of the register, the second input of which is connected to the output of the reference frequency generator, while the register outputs are connected to the inputs of the majority unit, two waiting multivibrators and an inverter whose output is connected to the first additional trigger of the trigger, the second and third additional inputs of which are connected to the output of the first waiting multivibrator, whose input is connected to the input of the inverter, the fourth quarter of the trigger of the trigger and the output. the second one of the next multivibrator, to the input of which the output of the limiter is connected. The drawing shows the structural electrical circuit of the proposed device. The device circuit contains limiter I, trigger 2, register 3, reference frequency generator 4, majority block 5, standby multivibrators 6, 7, and inverter 8, the detector operates as follows. The input signal is fed to the limiter 1, which generates rectangular pulses, following with a repetition frequency equal to the frequency of the input signal. The output signal of the limiter 1 is fed to the counting input of the trigger 2 and to the input of the waiting multivibrator 6, including it. The duration of the output pulse of the standby multivibrator 6 is a transmutable value, which is determined by the frequency of the input signal. When a signal arrives at the detector input with a frequency of fn, duration-. The value of -c output pulses of a standby multivibrator 6 is equal to t: - P arriving at the input of the detector signal with a frequency fg, the duration t of the output igigues of a standby multivibrator 6 is equal to infinity. The output pulses of the standby multivibrator 6 rear edge include the standby multivibrator 7, the output pulses of which have a negative polarity and a constant, duration, equal to. Let the signal with the upper characteristic frequency f arrive at the input of the frequency detector, then the output of the waiting multi-vibrator 6 will maintain a constant level of the output voltage (logical 1), i.e. the duration of the output pulse is equal to infinity. In this case, the trigger 2 will be in a single state and the output of the waiting multivibrator 7 will also be a constant level of logic 1. Let the frequency of the signal at the detector input vary from f to fn. In the range of changes in the frequency of the signal from f to fn, trigger 2 and pending multavibrators 6 and 7 will retain the previous state. When the frequency of the signal reaches the value of fj, the output of the standby multivibrator 6 will generate a pulse, which, with the trailing edge, will activate the standby multivibrator 7, forming a blocking pulse, which will be generated during the frequency change of the input signal from f to fj. Thus, at the time of changing the frequency of the input signal from f to fj, flip-flop 2 will be blocked and will retain the previous state. With a further change in the frequency of the input signal from fi to fn, the blocking pulse will be absent and the trigger 2 by the pulses of the output signal of limiter 1 will switch to the Zero state and will be maintained in this state until the reverse frequency change occurs. When the input signal frequency changes from fn to f B, a blocking pulse will form and block trigger 2 until the frequency of the input signal becomes equal to fj. When the transition frequency of the input signal in. the frequency range from fj to f, trigger 2 is switched to one state. When impulse and other types of interference are disturbed to the input signal, violating the detector's operation in the trigger signal of trigger 2, which enters register 3, there appear crushing. The exclusion of fragmentation of production is as follows:

Claims (1)

720779 The output signal of the trigger 2 is fed to the information input of the register 3 n each pulse of the generator 4 is advanced by one bit. The output of each bit of the register 3 is connected to the corresponding input of the mazkoritarny unit 5. Let the register 3 have m bits, then the analysis base will be equal to t , and the decision on the value of the detector output signal is made by n bits (where type is integer numbers, with m being the sweet number and n m / 2). If the output signal of trigger 2 has a logic level of 1, but due to the influence of interference, a crash (logical O) appears, and the output signal of trigger 2 is continuously recorded and promoted by bits in regisfe 3, then at a given time each bit register 3 will take any particular value (logical o or logical 1). If the number of bits N of register 3 that are currently in state 1 logical logical O satisfies the ratio, then the output of the frequency detector will be logical 1. Thus, the splitting of the output signal is excluded. A change in the polarity of the detector output signal will occur only when the number of bits of register 3 that are in the logical O state is equal to N tn. This is also true when going back from a logical O to a logical 1 state. The use of new elements of a standby multivibrator and an inverter eliminates distortions of the detector output signal (crushing, dominance) at the time of changing the frequency of the input signal, moreover, in the proposed device it increases noise immunity of the receiving link path, and, as a result, the reliability of the received telegraph messages is increased. The invention The Pifter frequency detector, containing a limiter, the output of which is connected to the trigger inputs, the output of which is connected to the first input of the register, the second input of which is connected to the output of the reference frequency generator, while the outputs of the register are connected to the inputs of the majority block, In order to increase noise immunity, two waiting for .1Х multivibrators and an inverter are introduced, the output of which is connected to the first auxiliary input of the trigger, the second and the third additional inputs of which are connected W / O house of the first multivibrator, input which is connected to the input of the inverter, the fourth additional input of the trigger and the output of the second waiting multivibrator, the input of which is connected to the output of the limiter. Sources of information taken into account during the examination 1. Shberskiy V. I. Basics of technology send discrete messages. M., Holy, 1973, p. 212-216 (prototype).