SU924916A2 - Device for monitoring analogue-digital image signal converter - Google Patents

Description

one

The invention relates to radio engineering and can be used to control the quality of operation of analog-to-digital converters (ADCs) of a television video signal used in communication systems with pulse-code modulation;

According to the main author. St. N is known to control the ADC image signals,. sergeants (its test signal generator, consisting of a sawtooth voltage generator with a line frequency, the output of which is connected to the ADC input, a semi-frame sync pulse generator and a horizontal sync pulse generator, and a video monitoring unit, to the external sync inputs of which the semi-frame sync pulse generator outputs generator line (s sync pulses, and the outputs of the ADC are connected And elements, the second inputs of which are connected to the output of the shift register, one of the inputs of the shift register through the first delay line and the first differentiating element connected in series are connected to the generator output of half-frame sync pulses, which is also connected to the prohibition element connected by the second input through the second differentiating element and the frequency divider, to the second input of which the second differentiating element is connected to the second input, the output of the horizontal sync pulse generator, and the output of the prohibition element is connected to the inputs of the shift register, while

15 outputs of the elements AND through the element OR are connected to the input of the video monitoring unit.

However, the known device is not 2Q can control the operation of the ADC in a dynamic mode, i.e. in real terms of his work.

Claims (1)

The purpose of the invention is to provide control in a dynamic mode. To achieve this goal, a memory block, an additional AND, T-flip-flop and a sampling pulse generator are inserted into the analog-to-digital converter control unit, the memory block being connected between the analog-to-digital converter outputs and the corresponding inputs of the And elements, the sampling pulse generator input combined with the input of the frequency divider, and the output is connected to the inputs of the analog-digital converter, T-flip-flop and an additional element -I, the output of which is connected to the input gate of the bl Single memory and the other input - with the output T trig-ger. FIG. 1 shows the structural electrical circuit of the proposed device; on .fig. 2 - time diagrams of his work. The device contains an analog-to-digital converter (/ BF) 1, a generator of 2 test signals, a signal from the generator 3 of the measuring signal, a generator of k half-frame clock pulses and a generator of 5 horizontal clock pulses, elements 6, 7, 8, shift register 9, the first line of delay H , first and second differentiating elements .11 and 12, second delay line 13, frequency divider 1, prohibition element 15, element OR 16, video control unit 17, memory block 18, additional element 19, T-flip-flop 20 and sampling pulse generator 21 . The device works as follows. Signals of a given amplitude and frequency ffty are sent to the input of the ADC 1 from the output of the generator 3. The sampling frequency f of the ADC 1 is selected appropriately and set at the output of the generator 21. Let us determine the value of the frequency fy needed to obtain a code table that reflects the measurement signal equal to dynamic range of the converter (AB interval, Fig. 2). The change of the signal by such a value occurs during the half of the period Tftv of the input signal. Let the capacity of the memory block 18 be equal to M cells, i.e. during the period of lower sync pulses, it is necessary to record M times. On the other hand, for period T, sampling 1 should be performed (Fig. 2). Then the M2, / 2, or T output should be performed, where dTd is the increment of the oscillation period of the sampling generator T. On the other hand, 2Td 4-2 L Td Tech, hence J - - lT - Y - (2I - 1 2TJTT 2 sampling f. is: 2M) A 2f. 2M-G where fftx is the frequency of the input signal. With a fixed volume of memory block 18, by changing the value of dT, it is possible to vary the size of the analyzed section of the input signal. With a decrease in dTd, the magnitude of such a segment decreases, which, for a fixed M, allows us to examine in detail the operation of the A / D converter 1 in a certain zone of the dynamic range. A sequence of codes from the output of the A / D converter 1 with frequency f d is fed to the input of memory block 18. The codes are recorded in block 18 at a frequency twice as low as f d. This is achieved by using the T-flip-flop 20 and the And 19 element. Thus, the codes recorded with the frequency in the memory block 18 are the digital equivalent of the input signal section. Upon completion of the filling of the memory block 18, the recording is automatically terminated. Moving the memory unit 18 to the Read position and setting the appropriate frequency at the output of the generator 21, the continuous reading of information from the memory unit 18 begins. At the same time, an image is formed on the screen of the video monitoring unit 17 corresponding to the section of the real input signal digitized by the controlled ADC 1. In accordance with the proposed device, a laboratory model was developed and manufactured, the operation of which provided the possibility of operational control of the ADC operation in the sample rate f, # 20 MHz and the frequency of the input signal f 6 MHz. The invention of the control device analog-to-digital signal converter from the image by author. St. (G, characterized in that, in order to ensure control in the dynamic mode, a memory block, an additional element I, a T-trigger and a discretization pulse generator are inserted into it, the memory block being connected between the analog outputs -digital converter and the corresponding inputs of the AND elements, the input of the sampling pulse generator is combined with the input of the frequency divider | and the output is connected to the inputs of the analog digital converter T-flip-flop and an additional element And whose output is connected to the input of the strobe memory of the memory block and, and the other entrance - with the departure of the T-flip-flop.