SU843209A1 - Pulse shaper - Google Patents

Description

one

The invention relates to a pulse technique and can be used in information analysis and processing systems carried by periodic and quasi-periodic pulses of a sequence.

When analyzing information that is embedded in the indicated pulse sequences, the task often is to alert analyzing devices before the arrival of the next pulse of the sequence (ahead of switching on the analyzing device or its separate channel for a short period of time relative to the input pulse). This makes it possible, for example, to analyze the character of the rise of the pulse voltage front from the initial stage, the initial stage of transient processes associated with the appearance of a pulse, etc. In such cases, a leading voltage or current pulse is required to connect the analyzing devices. Receive . a leading signal in relation to a single pulse is physically impossible. When processing a pulse sequence, a leading signal with respect to the next pulse is obtained by delaying the previous pulse of the sequence. If tjj is the required advance time, and T is the repetition period of the analyzed pulses, then ensuring the delay of the nth pulse of the sequence by the value of T - t (j, we get a signal leading the n + 1th pulse of the sequence by exactly the value of t. The pulse delay can performed on both analog and digital elements.

A device is known which consists of a reversible pulse counter and two clock generators with unequal repetition rates.

Claims (2)

The disadvantages of such a device are the impossibility of obtaining a predetermined advance with an unknown, and in particular, varying duty cycle of the input signal and low accuracy of maintaining the magnitude of advance for pulse sequences with a short pulse duration and a large duty cycle. Also known are devices in which the delay of the pulses of the input sequence is provided with the help of waiting multivibrators or other inhibited generators triggered by pulses of the analyzed pulse sequence and having a duration of the output pulse C T - t / 2. The disadvantage of this device when receiving advance pulses is the impossibility of obtaining small (on the order of a few percent of the repetition period T) advance, as well as a disproportionate change in the advance when the period of the input pulses T changes. For example, T cc / Cmin 0, i.e. As the period changes, the output impulse is close to the leading edge of the next impulse, when, e the output impulse is close to the falling front of the acting impulse (the advance is 0, (wc i.e. almost 100 times.) The purpose of the invention is to expand the functional capabilities of the device, namely, to obtain small values of time advance and to provide a relationship between the advance value and the follow-up period of the input pulses, which is close to proportional. To achieve this goal, the pulse shaper containing a period converter is sawtooth voltage amplitude, peak detector on a key element, a cumulative condenser and a discharge resistor, included in a pars accumulator condenser, amplifier-limiter introduced resistor having one end .kotorogo connected to the other terminal of the storage capacitor and the input divisor -ogranichitel Wuxi, the other terminal of the resistor connected to the common bus, and a peak detector input coupled to an output transducer between the amplitude of the sawtooth voltage. Figure 1 presents the scheme of the device; Fig. 2 illustrates stress plots showing its operation. The pulse shaper consists of a transducer 1 period-amplitude of a sawtooth voltage, peak detector 2, which includes a key element 3 (diode, if a diode peak detector is used, or a zmitter transition of the transistor, if the peak-detector is used detection), a storage capacitor 4 and a discharge resistor 5, a resistor 6, the amplifier-limiter 7. At the same time, the output of the converter period-amplitude of the sawtooth voltage is connected to one output of the key element 3, the other A output of which is connected to the storage .kondensatora terminal 4 and terminal discharge resistor 5. The other terminal of the storage .kondensatora 4 and the other terminal of discharge resistor 5 are connected to the input of limiting amplifier 7 and the output / resistor 6, the other terminal of which is connected to the device body. The output of the limiting amplifier 7 is the output of the device, the output of the transducer 1 period-amplitude of the sawtooth voltage is with the input of the device. With the above connection of elements, a resistor 6 (of small size) is connected to the charging circuit of the storage capacitor 4 of peak detector 2 in series. (The device works as follows. The period-amplitude saw-voltage converter operates according to the principle of linear charging of the converter capacitor. the input pulse, the capacitor is discharged to zero. The discharge occurs on the leading edge of the input pulse and takes a short time, much shorter than the repetition period of the input pulses. the pulse repetition of the capacitor of the converter is charged linearly. With the appearance of the front of the next pulse of the input sequence, the capacitor of the converter I is again discharged to zero voltage, and the processes in the converter 1 are repetitive. return amplitude. The amplitude of these pulses is almost proportional to the pulse repetition period of the input sequence T (see 2). These pulses are fed to the input of peak detector 2, the peak-defect pickup capacitor n 2 is charged through key element 3 (for example, a diode connected in the forward direction, or a transistor if a peak detector with emitter detection is used) and a resistor 6 small size. As a result of the charge, the storage capacitor 4 is charged with a voltage almost equal to the amplitude of the output pulses of the converter 1. When during the reverse run of the sawtooth output voltage the converter is converted. 1 the voltage at the input of the peak detector 2 also drops to zero, the key element 3 turns off it is. The storage capacitor 4, disconnected from the output of the converter 1, is discharged through the discharge resistor 5k. Due to the large value of the resistor 5, the time constant of the discharge circuit of the capacitor 4 is large. In the initial part of the exponent discharge, the law of voltage reduction on storage capacitor 4 is close to k linear. The voltage across the capacitor 4. slowly, according to a law close to linear, decreases. The voltage at the output of converter 1 increases with the next cycle of sawtooth pulse formation. When the voltage at the input of peak detector 2 exceeds the voltage on the storage capacitor 4, the key element 3 is switched on and a new charge cycle of the storage capacitor 4 begins. A voltage pulse caused by the flow of the charging current is released to the resistor 6. Since the charging of the storage capacitor 4 is performed by the tip of the sawtooth pulse of the converter 1, the charging current flows only at the instants of time directly preceding the appearance of the next input pulse. Amplifier limiter 7 amplifies the pulses taken from the resistor 6, and converts them into pulses of standard amplitude and rectangular (more precisely, almost rectangular) shape. The leading edge of the pulse of the amplifier-limiter 7 is ahead of the pulse of the input sequence by the time tg. 9 6 If the pulse repetition period of the input sequence is increased, the amplitude of the sawtooth voltage pulses at the output of converter 1 increases. Accordingly, the voltage on the storage capacitor 4 also increases. Now, with a larger value of the period T, the storage capacitor 4 is discharged longer. The lead time tg increases, while the lead value remains approximately proportional to the pulse duration of the input sequence. The proposed device allows to obtain small advances tg, constituting units (or ten current) percent of the period T, the proportionality of the obtained advance to the pulse sequence of the input sequence T, to operate at a priori irrelevant repetition rate of the input pulses lying in the specified range -, ; and also implies the elimination of stringent requirements for accuracy of adjustment and stability of individual elements of the device. The device is expediently used to obtain leading pulses in cases of moderate (not more than 15–20%) accuracy of maintaining a given advance. An inventive pulse shaper comprising a period-amplitude sawtooth voltage converter, a peak detector at a key element, a storage capacitor and a discharge resistor connected in parallel to the storage capacitor, and a limiting amplifier, characterized in that A resistor is inserted into it, one output of which is connected to another output of the storage capacitor and the input of the limiter amplifier, the other output of the resistor is connected to the common bus, and the input the peak detector is connected to the output of the transducer period, the amplitude of the sawtooth voltage. Information sources,. taken into account during the examination 1. USSR author's certificate 511685, cl. And 03 K 5/153, 11.04.74. 2. Vazhenina Z.P. et al. Methods and Schemes of the Time Delay of Pulse Signals. Soviet Radio, 1971, .10-17, Figure 1.1. FIG. one Input pulses pn G ± 1 Voltage on the Vykodnyv storage capacitor Puz.2 pulses