SU731579A1 - Analogue-digital device for determining spectral curve parameters - Google Patents

Description

The invention relates to computing measuring equipment and is intended for automatic determination of the parameters of spectral curves.

Known analog-to-digital device for determining the parameters of spectral curves, containing an analog-to-digital converter, an extremum pointer, an extremum trigger, keys, an analog storage device, a divider, a zero-organ, a pulse generator, a counter and the connections between them [1].

Upon receipt of the maximum signal resulting from the action of interference, the values of the extremum, its position and the time interval from the extremum to some part of this extremum were incorrectly recorded. This device, having reacted to the first extremum, regardless of its nature, does not respond to other extremums; we are at the same peak.

The aim of the invention is to increase noise immunity.

This goal is achieved ’in that an analog-to-digital device for determining 2 parameters of spectral curves, containing an analog-to-digital conversion. the driver through which the input of the device is connected to the first input of the extremum pointer, the output of which is connected to the first input of the extremum trigger, the output of which is connected to the first inputs of the first, second and third keys, the pulse generator 5 is connected to the counter through the second input of the first key, and the second inputs of the second and third keys are connected to the input of the device, and the output of the second key through a series-connected analog-storage unit and divider is connected to the first input of the first zero-organ, while the output of This key is connected to its second input, a second zero-organ and an OR element are introduced, the output of which is connected to the second input of the extremum trigger, while 5 its first input is connected to the output of the first zero-organ, and the second input is connected to the second input of the extremum pointer, the second input of the counter and the output of the second zero-organ, the first input of which is connected to the input of the divider, and the second input to the output of the third key.

In FIG. 1 is a structural diagram of an analog-digital device for determining the parameters of spectral curves; 5 in FIG. 2 is a graph of curves.

The device contains an analog-to-digital converter 1, an extremum indicator 2, an extremum trigger 3, keys first 4, a second 5 · and a third 6, analog-memory 0 block 7, a divider 8, a first zero-organ 9 and a second zero-organ 10, a generator pulses AND, counter 12, element OR 13.

The device operates as follows.

In the initial state, the extremum trigger is in the zero state, keys 4, 5, 6 are open. The extremum pointer and counter are reset to zero. An analog-to-digital converter receives an input signal, from the output of which a digital code corresponding to the input signal is removed. At the moment of the appearance of the extreme value of the input signal, the digital code corresponding to the extreme value of the input signal is removed from the output b of the extremum pointer, and the signal marking the time of the appearance of the extremum is taken from output a. This signal transfers the extreme trigger to a single state, the keys 4, 5, 6 with the control inputs of which the extreme trigger is connected, closes. Via key 4, pulses from the generator begin to flow into the counter.

The extreme value of the input signal through key 5 enters the analog-memory unit and is stored in it. From its output, the extreme value of the input signal is fed to the first input of the second null organ and divider, in which the extreme value of the input signal is divided by K, in particular in two. From the output of the divider, the signal goes to the first input of the first zero-organ. The second inputs of the first and second nullorgan through key 6 receives the current value of the input signal, starting with the extreme value.

From this moment, the first null-organ starts comparing the current value of the input signal U _x with the K-th part of the stored extreme value, KU ₃ - at the output of the divider, i.e.

KU _s -U _x > 0, (1) and the second null-organ checks that the condition

U ₃ -U _X <M, (2)

So, if the extremum (maximum) is the result of interference (Fig. 2, point C), then the second null organ, when condition (2) is fulfilled (point B), produces a signal that is a sign of falsehood of the extremum. This signal sets the extremum pointer, counter, and through the second input of the OR element an extremum trigger, which, opening the keys 4, 5, 6, stops the pulses from the generator to the counter and the current input signal U _x at the output of the null organs 9, 10, block 7.

Upon receipt of the true extremum of FIG. 2, point A, condition (2) is satisfied, and a signal is generated at the input of null-organ 9 at the moment D (Fig. 2), i.e., at the moment when the current value of the input signal U _{x is} equal to the Kth part of the stored extremum, in the particular case of half the extremum of the condition [1] fulfilling. · This signal, passing through the first input of the OR element, sets the extremum trigger to zero, which opens the keys 4, 5, 6.

The counter will store the code of the time interval from the moment the extreme (maximum) value of the input signal appears until the input signal decreases to half (in the particular case) of its extreme value.

Using this technical solution allows you to determine the parameters of the spectral curves against a background of random noise. This improves the quality of information processing, reduces processing time by eliminating repeated measurements of parameters.

Claims (1)

the second zero-body 10, the pulse generator And, the counter 12, the element OR 13. The device operates as follows. In the initial state the trigger of the extremum is in the zero state, the keys 4, 5, 6 are open. Pointer extremum and counter reset to zero. The input to the analog-to-digital converter receives an input signal, the output of which removes the digital code corresponding to the input signal. At the time of the occurrence of the extreme value of the input signal from the output b of the extremum indicator, a digital code is taken corresponding to the extreme value of the input signal, and from the output a, a signal indicating the moment of occurrence of the extremum is recorded. This signal translates the extremum trigger into a single state, the keys 4, 5, 6 with the control inputs of which the extremum trigger is connected are closed. Through the key 4, the pulses from the generator start to be put into the counter. The extreme value of the input signal through key 5 enters and is stored in the analog storage unit. From its output, the extremal value of the input signal is fed to the first input of the second null organ and the divider, in which the extremal value of the input signal is divided by K, in the particular case by two. From the output, the divider is arriving at the first input of the first null organ. The second inputs of the first and second nullorgan through the key 6 receive the current value of the input signal, starting with an extreme value. From this point on, the first null organ begins to compare the current value of the input signal Ux with a part of the stored extreme value, / C / 7h, at the output of the divider, i.e., ki, and the second null organ checks whether the condition U ,, (2 ) So, if an extremum (maximum) is the result of an interference (Fig. 2, point C), then the second null-organ, when condition (2) (point B) is satisfied, produces a signal that is a sign of the extremum being false. This signal sets the extremum pointer to zero, the counter and through the second input of the element OR the extremum trigger, which, opening the keys 4, 5, 6, stops the flow of pulses from the generator to the counter and the current input signal Ux at the output of the zero-bodies 9, 10, block 7. With the arrival of the true extremum of FIG. 2, point A, condition (2) is not fulfilled, but a signal is generated at the input of the null organ 9 at time D (Fig. 2), i.e. at the moment when the current value of the input signal Ux is equal to / (- part of the memorized extremum, in the particular case of half the extremum, is fulfilled conditions 1. This signal, passing through the first input of the OR element, sets the extremum trigger to zero, which opens the keys 4, 5, 6. The counter from the moment of occurrence will be stored in the counter the extreme (maximum) value of the input signal until it decreases No input signal is up to half (in a particular case) of the value of its extreme value. Using this technical solution allows determining the parameters of the spectral curves against a random number. At the same time, the quality of information processing is improved, the processing time is reduced by eliminating repeated measurements of the parameters. Analog-to-digital device for determining the parameters of the spectral curves, containing an analog-to-digital converter, through which the input of the device is connected to the nerve input an extremum kazatel, the output of which is connected to the first input of an extremum trigger, the output of which is connected to the first inputs of the first, second and third keys, a pulse generator is connected to the counter through the second input of the first key, and the second inputs of the second and third keys are connected to the device input, and the output The second key is connected through a series-connected analog-domino unit and a divider and is connected to the nerve input of the nerve null organ; the output of the third key is connected to its second input, which is different o, in order to increase the numbering capacity, a second nullorgan and an OR element are introduced, the output of which is connected to the second input of the extremum trigger, while its first input is connected to the output of the first zero-organ, and the second input is connected to the second input of the extremum indicator, the second input of the counter n the output of the second null organ whose nerve input is connected to the input of the divider, and the second input to the output of the third key. Sources of information that are irred in examination at examination 1. USSR author's certificate fo 545078, cl. H OZK 13/17, 21.02.75.