PL116183B2 - Method and system for reproduction of constant component in pulse electronics - Google Patents

Description

The subject of the invention is a method and a system of continuous, i.e. unclassified, DC component reproduction in pulsed electronics, especially in AC coupled systems. For the sake of accuracy, the mutual ratio of these weights should be significant, which is practically difficult to achieve. The use of this method usually worsens other parameters, and above all the rate of decay of transients. The applied DC-component restoration systems, also called leveling or contouring systems, contain a basic system consisting of a diode and a capacitor connected in series. The input voltage is applied to the free end of the capacitor and the output voltage is collected from the point of their connection. The other end of the diode is connected to a source of a given reference voltage. Depending on the direction of switching on the diode, the output voltage adheres with its lower or upper peaks to the applied reference voltage. The operation of the circuit is based on the fact that the diode causes an average charge of the capacitor over time. In the period when the diode is conducting, it introduces a charge on the capacitor equal to the charge discharged from the capacitor when it is not conducting. In order for the adhesion error to be small, the diode should have sharp characteristics and high resistance in the reverse direction. For this purpose, the real diode should work in the feedback loop of the operational amplifier and an output amplifier with high input resistance is required. The applied solutions correctly reproduce the constant component when the amplitude of the pulses and their filling are constant over time. Transients caused by their change have a significant time of decay, especially long when one of them decreases. They fade then with the time constant determined by the product of the capacitor capacity and the diode resistance in the reverse direction. In systems with high accuracy of reproducing the DC component, this time constant may be up to an order of seconds. In the method according to the invention, a zero level is separated from the output signal, which is compared with the given reference voltage. The received error signal controls the Zero level of the output voltage, bringing the zero level to the set value. The circuit that is used to implement this method is characterized by the fact that the input signal source is connected to the block shifting the zero level at its output and is the source of the output signal, at the same time through the separating block it is fed to the limiter block connected with the block forming the error signal, the output of which is it is connected to the other input of the block that shifts the zero level of the output signal. The solution according to the invention allows for a quick and accurate, depending on the gain and bandwidth of the feedback loop at the zero level, the reproduction of the constant component. The invention will be explained in more detail, for example, on the basis of the circuit shown in the drawing, in which Fig. 1 shows a block diagram of the system. In the presented system, the input Wl is the inverting input of the operational amplifier operating in the local feedback loop. The non-inverting input controls the zero level at its output. In this way the amplifier works as a block shifting the 1st zero level. The output signal from the shifting block 1 through the resistor that acts as the separator block 2 is fed to the limiting block 3 made on the reverse diode. After voltage limitation, the signal is formed by a shaper 4 in which the error signal is formed by an RC low pass filter and then a differential amplifier. The output of the forming block 4 is controlled by the non-inverting input with the zero level on the output of shift block 1. The separation of the zero level from the output signal occurs because the limiting voltage of the limiting block 3 differs by a small value from the set voltage. this one should be small but not zero. Timing of the error signal is used so that the feedback loop does not affect the transmission of pulses through the shifting block 1. Patent claims 1. The method of reproducing the constant component in pulsed electronics, especially in systems with AC feedback, characterized by the fact that it gives off from the output signal the zero level is compared to the given reference voltage, and the received error signal controls the zero level of the output voltage, bringing the zero level to the given value. 2. A DC-component reproduction system in pulsed electronics, especially in AC coupled systems, composed of shifting, separating, limiting and forming blocks, characterized in that the input signal source (Wl) is connected to the block shifting the zero level (1) to its output and is the source of the output signal, simultaneously through the separating block (2) is sent to the limiter block (3) connected with the forming block (4) an error signal, the output of which is connected to the other input of the block shifting (1) the zero level of the output signal. in J p v L 1 i. 1 and 4 i} 1 r i 2} »3 W2 Prac. Printing of the UP PRL. Mintage 120 copies Price PLN 100 PL

Claims (2)

Claims 1. Method of reproducing the DC component in pulsed electronics, especially in systems with AC coupling, characterized in that a zero level is separated from the output signal, which is compared with the set reference voltage, and the received error signal controls the zero level of the output voltage of the springs by taking the zero level to a given value. 2. A DC-component reproduction system in pulsed electronics, especially in AC coupled systems, composed of shifting, separating, limiting and forming blocks, characterized in that the input signal source (Wl) is connected to the block shifting the zero level (1) to its output and is the source of the output signal, simultaneously through the separating block (2) is sent to the limiter block (3) connected with the forming block (4) an error signal, the output of which is connected to the other input of the block shifting (1) the zero level of the output signal. in J p v L 1 i. 1 and 4 i} 1 r i 2} »3 W2 Prac. Printing of the UP PRL. Mintage 120 copies Price PLN 100 PL