RU2008116173A - METHOD FOR SPECIAL SELECTION OF ELECTRIC ENERGY FROM ALL TYPES OF ELECTROCHEMICAL CURRENT SOURCES USING FREQUENCY PULSE AND ITS APPLICATION IN POWER SUPPLIES - Google Patents

Abstract

1. The method of special frequency selection of electrical energy from all types of electrochemical current sources, characterized by the fact that the selection of current is carried out by frequency pulses, provided that the specific impedance of each anode of the elements of electrochemical current sources is not more than 1.87 Ohm · cm2. ! 2. The method according to claim 1, characterized in that the frequency pulses are generated by a switching element with a control device. ! 3. A power source for implementing the method of special frequency selection of electrical energy from all types of electrochemical current sources, in which the current is taken by frequency pulses, provided that the specific impedance of each anode of the elements of electrochemical power sources is no more than 1.87 Ohm · cm2, containing filled electrolyte electrochemical current source (1) and a DC-DC converter, characterized in that the DC-DC converter contains a transformer (4), whose primary circuit consists of an electrochemical current source (1), a parallel circuit (shunt) (2) and a switching element with a control device (3), and the secondary circuit - from an inductive energy storage device (5), a storage capacitor (6) and a consumer (7). ! 4. The power supply according to claim 3, characterized by the fact that the switching element with the control device (3) is configured to transmit through the transformer (4) optimized frequency pulses going to energy storage in the inductive storage (5). ! 5. Power supply according to claim 3 or 4, characterized in that the DC-DC converter has a planar transformer (4). ! 6. Power supply according to claim 5, characterized in that o�

Claims (9)

1. A method of special frequency selection of electrical energy from all types of electrochemical current sources, characterized in that the current is selected by frequency pulses, provided that the specific impedance of each anode of the elements of electrochemical current sources is not more than 1.87 Ohm · cm ² . 2. The method according to claim 1, characterized in that the frequency pulses are generated by a switching element with a control device. 3. A power source for implementing a method of special frequency selection of electrical energy from all types of electrochemical current sources, in which current is sampled by frequency pulses, provided that the specific impedance of each anode of the elements of electrochemical current sources is not more than 1.87 Ohm · cm ² containing an electrolyte-filled electrochemical current source (1) and a DC-DC converter, characterized in that the DC-DC converter contains a transformer (4), whose primary circuit consists of an electrolyte chemical current source (1), a parallel circuit (shunt) (2) and a switching element with a control device (3), and the secondary circuit is made of an inductive energy storage device (5), a storage capacitor (6) and a consumer (7). 4. The power supply according to claim 3, characterized in that the switching element with the control device (3) is configured to transmit optimized frequency pulses through the transformer (4), which are used for energy storage in the inductive storage device (5). 5. The power supply according to claim 3 or 4, characterized in that the DC-DC converter has a planar transformer (4). 6. The power supply according to claim 5, characterized in that the ratio of the capacitance of the parallel circuit (CSh) to the area (S) and the specific differential capacitance (CD, s) of the anode is from CSh = 0.5 · (CD, s · S) up to CSh = 5 · (CD, s · S). 7. The power supply according to claim 6, characterized in that the electrochemical current source (1) has a metal anode and a gas diffusion cathode. 8. The power supply according to claim 6, characterized in that an aqueous solution of sodium chloride is used as the electrolyte solution. 9. The power supply according to claim 7, characterized in that the anode consists of magnesium.