RU2011121696A - METHOD FOR PRODUCING SPACE VEHICLE - Google Patents

Abstract

1. A method of manufacturing a spacecraft, including the assembly of a spacecraft, including a power supply system containing solar panels, rechargeable batteries and a stabilized voltage converter, for coordinating the operation of solar and rechargeable batteries and providing stable voltage power to service system modules and payloads, preparing sources electricity to work, conducting electrical tests of the spacecraft, characterized in that the input power circuits are stabilized When the stabilized voltage converter is switched off, the stabilized voltage converter is short-circuited by the low-voltage relay switches, and the electrical connection of the solar battery power circuits to the stabilized voltage converter is short-circuited after preliminary short-circuiting them through the additional provided low-power technological circuits, followed by removal of the bypass circuits after completion electrical connection of power circuits solar panels to a stabilized converter. 2. A method of manufacturing a spacecraft according to claim 1, characterized in that power electronic switches are installed in the input power circuits of the stabilized voltage converter on the side of connecting the batteries, and the batteries are connected to the stabilized voltage converter after pre-charging the batteries and pre-charging with a limited current of said input power circuits to values

Claims (4)

1. A method of manufacturing a spacecraft, including the assembly of a spacecraft, including a power supply system containing solar panels, rechargeable batteries and a stabilized voltage converter, for coordinating the operation of solar and rechargeable batteries and providing stable voltage power to service system modules and payloads, preparing sources electricity to work, conducting electrical tests of the spacecraft, characterized in that the input power circuits are stabilized When the stabilized voltage converter is switched off, the stabilized voltage converter is short-circuited by the low-voltage relay switches, and the electrical connection of the solar battery power circuits to the stabilized voltage converter is short-circuited after preliminary short-circuiting them through the additional provided low-power technological circuits, followed by removal of the bypass circuits after completion electrical connection of power circuits solar panels to a stabilized converter. 2. A method of manufacturing a spacecraft according to claim 1, characterized in that power electronic switches are installed in the input power circuits of the stabilized voltage converter on the side of connecting the batteries, and the batteries are connected to the stabilized voltage converter after pre-charging the batteries and pre-charging limited the current of the specified input power circuits to a voltage value equal to the open-circuit current voltage pi of the appropriate battery. 3. A method of manufacturing a spacecraft according to claim 1 or 2, characterized in that after connecting the batteries to the stabilized voltage converter, they are periodically recharged from ground sources to compensate for leakage currents from the batteries when the stabilized voltage converter is turned off. 4. A method of manufacturing a spacecraft according to claim 1 or 2, characterized in that the preliminary charge of the input power circuits of the stabilized voltage converter on the battery side is carried out from the respective batteries through current-limiting resistors, and the resistance value of the current-limiting resistor R, Ohm is selected based on ratios: U _ab / I _k <R <U _ab / I _ut , where U _ab - open circuit voltage of the corresponding battery, V; I _to - the maximum permissible current through a de-energized electronic switch, A; I _ut - the value of the leakage current from the output of the battery in the off state of the stabilized voltage Converter, A.