DE2759259A1 - Frequency keyed signal recognition system - measures signal period using stabilised reference frequency, and two stores set accordingly - Google Patents

Abstract

The signal is modulated by a lower or a higher frequency, depending on its binary value. Period duration is measured by a quartz stabilised reference frequency; and the measurement result is compared with two programmed thresholds, Zo, Zo + delta Z. A first store (8) takes a certain binary value when the result is greater than Zo + delta Z, and the opposite binary value when it is smaller than Zo. The store retains its value when the result lies between the two thresholds, and a second store (12) is set to a corresponding binary value when the majority or all of a number of results have produced this binary value.

Description

Method for detecting the frequency of a bin

frequency-modulated signal The invention relates to a method to detect the frequency of a binary frequency-modulated signal, the corresponding its binary valence with a lower frequency fus or an upper frequency fos is sent.

Digital frequency demodulators are known, respectively.

German registrations state that a patent has already been applied for P 26 38 345.9 and P 26 30 957.9. However, these frequency demodulators have one low signal-to-noise ratio.

The invention is based on the object of a method for detection to indicate the frequency of a binary frequency-modulated signal that passes through a high frequency stability and high immunity to interference.

According to the invention, this object is achieved in that a period duration measurement is carried out with a quartz-stable reference frequency that the measurement results this period measurement with two programmed threshold values Zo and Zo + #Z be compared that a certain binary value annI: DTtt, if a measurement result is greater than Zo + AZ, that this memory is the complementary Binary value assumes, if a measurement result is smaller than Zo, that the memory is its Maintain value if the measurement result is between the two threshold values, and that a second memory is set to a corresponding binary value when the Majority (or all) of a limited set of measurement results this binary value has delivered.

Compared to other digital frequency demodulators, the method has according to the invention, due to its behavior as a frequency comparator with hysteresis, the advantage of a larger signal-to-noise ratio.

For this purpose, a memory is only set to a new value if the measured period duration is greater or less than the set threshold values is. As long as the period between the two threshold values (within the H; -sterese), the old value is retained.

A further improvement of the disturbance behavior results from the "statistical Evaluation "of the measurement results an output memory only then set to a new binary value if the loan number is a limited number of Lies results has delivered this binary value.

The method according to the invention is described in the following Embodiment explained in more detail with reference to the drawing.

In the figure, 1 designates a terminal at which the frequency-modulated Input signal is present. The input signal becomes one that works as a frequency divider Counter 2 supplied. The division ratio of this frequency divider: t ###, where N is the number of HF periods used for period duration measurement. N + 1 is therefore the length of a period duration measurement cycle. The output of the counter 2 is fed to a control unit 3, where it is divided into time-shifted control cycles. These control the functional sequence in the following way: 1. A programmable, Counter 4 loaded with -ZO started. The counter 4 counts for the duration of N HF periods the periods of a reference frequency fQ which is generated in a crystal oscillator 5. With a received HF of 36 kHz, the quartz frequency is in a running device 13.8 MHz 2nd times the counting, the counter 4 is stopped.

The content of the counter 4 is checked and the result is saved. This pushed with the help of the Comparator 6 with downstream Gate 7; Z means the counter reading, VZ the sign, EN the counter enable, IO the load input, CL the clock input of the counter 4.

There are three possible results: a) The counter result is smaller than the programmed Z0.

This means that the frequency is greater than the upper frequency threshold is. If this result is available, a first result memory 8 is set to "C".

b) the counter result is greater than the programmed number Zo, but smaller than Zo + Zo. This means that the frequency between upper and lower cr Frequency threshold is. If this result is available, the result memory is retained 8 its old state.

c) The counting result is greater than Z0 + Z, i.e. the frequency is less than the lower frequency threshold.

In this case, the result memory 8 is set to "1".

This means that the result memory only inserts its content when there is a change in frequency occurs above the frequency threshold. A frequency hysteresis is obtained in the circuit. The corresponding saved result is available at terminal 9.

4. The content of the results memory 8 is ul a shift register 10 (input TN) is loaded.

With the help of an adjustable matrix 11, the content of consecutive Register cells checked for equivalence; in the event of equivalence, a results memory is created 12 (the current state of the same appears at terminal 13) with the corresponding one State loaded. Instead of this evaluation, you can also check the frequency of measurement results evaluate.

5. After the evaluation has finished, counter 4 is reloaded with -Z0.

The upper frequency threshold fo and the lower frequency-N. fQ threshold fu result with fo =, fu = Z0 N. fQ, fQ crystal frequency.

Zo + # Z + 1

Claims (1)

P a t e n t a n s p r u c h Procedure for detecting the frequency one of a frequency-modulated signal that corresponds to its binary valence is sent with a lower frequency fus or an upper frequency fos, thereby characterized in that a period measurement with a quartz-stable reference frequency it is carried out that the measurement results of this period end measurement are programmed with two Threshold values Zo and Zo + #Z are compared that a first memory (8) one assumes certain binary value when a measurement result is greater than Zo + A Z that this memory assumes the complementary binary value if a measurement result is smaller as Zo it becomes that the memory retains its value if the measurement result is between the two threshold values, and that a second memory (12) on a corresponding Binary value is set when the majority (or all) of a limited Mcngc of Measurement results has delivered this binary value.