SU717738A1 - Noise-proof power supply source - Google Patents

Description

The invention relates to electrical engineering and can be used in power supply devices for automation, computer technology and communications. Known noiseproof HCfoHHHK power supply, which contains network filters, a power transformer, a stabilization device. A disadvantage of the known source is poor noise immunity of the powered devices, due to the presence of inductance in the filters, which has a low quality factor, especially at high frequencies. smoothing capacitor and stabilization unit C2l. The disadvantages of the known source are the inertia of the stabilization device. The maximum frequency of suppressed interference, which is limited by the total response time of the block and stabilization elements. .. The purpose of the invention is to increase the effectiveness of reliability and the expansion of the frequency range of interference suppression for the power supply. For this, two key elements, two intermediate capacitors, and a control unit are introduced into the interference-free power source, two outputs of which are connected to the control inputs of key elements connected in series to one of the power supply capacitors and the stabilization unit, the first intermediate capacitor being one output connected to the junction point of the cluster elements, the second intermediate capacitor is connected to the junction point of the second key element and the stabilization unit with one output and WTO rye and conclusions intermediate capacitor connected to the second power bus. FIG. 1 shows a similarly protected power source in FIG. 2 stress plots. Protective power supply (Fig. 1) contains a power transformer, a rectifying unit 2, a smoothing capacitor 3, the first electrical element 4, the first intermediate capacitor 5, the second key element b, Sf the intermediate capacitor 7, unit 8; rabbi | you are the key elements, block 9 stabilization. The output of the stabilization block is the output of the power source. The device operates as follows. The network voltage Uj is lowered by the power transformer 1 and is rectified by the rectifier unit 2. Smoothing capacitor 3 smooths the pulsations of the rectified voltage. On the di, on the condenser 3 has the form (Fig. 2, a). g, -; g During the conductive state of the first key element 4 and the non-conductive state of the second key element 6 (time interval b - f /, in Fig. 2), the first intermediate capacitor 5 is charged with a voltage of dOS . 2, d), and the voltage across the load is maintained by the energies of the second intermediate capacitor 7 (Fig. 2e). When the keys are reversed in opposite states, the first key element is 4 in the current state, and the second key element 6 in the conducting state (time interval t - tg) is equal to the voltage on the intermediate capacitors and their joint development. d on the load (Fig. 2, Zj). Further, the process is repeated (time intervals tg-t, tj-t. The voltage removed from the second intermediate capacitor 7 is smoothed by the stabilization unit 9, the output voltage of which has the form (Fig. 2, g). Key control unit 8 Epemey continuously forms rectangular pulses (Fig. 2.5 / b). I enter the input of the first key element 4

Claims (2)

717738 control pulses U, (Fig. 2.6), on the second key element 6 1 control pulses U (Fig; 2, B) i located with control pulses U in the phase direction. I Thanks to the operation of key elements in antiphase, the circuit for The passage of the jUHHe power supply to the load at any time in the belt is open. The control unit provides a lock that eliminates the possibility of simultaneous storage of the elements in the conducting state. Claims An interfered power supply containing a power transformer with a shielded primary winding, a rectifier unit, to the output of which a smoothing capacitor and a stabilization unit are connected, are characterized in that power supply; two key elements are introduced into it, two intermediate capacitors and a control unit, two outputs of which are connected to the control inputs of key elements in series between the smoothing capacitor and the stabilization unit, the first intermediate capacitor is connected to the junction of the second element and the stabilizing unit and the second terminals of the intermediate capacitors are connected to the junction of the second element and stabilizing unit. . second meal. Sources of information taken into account during the examination 1. I. Murakami. Causes of interference in digital integrated circuits and methods for eliminating Torandsisut Gidkhed, 1971, vol. 8, number 10. 2. Galalau VG. Jamming power supply, P. T. E., 1974, No. 6.