RU2012134852A - METHOD FOR CONTROLLING AN AUTONOMOUS POWER SUPPLY SYSTEM FOR THE SPACE VEHICLE - Google Patents

Abstract

1. A method for controlling an autonomous power supply system of a spacecraft containing a solar battery and n rechargeable batteries, a voltage stabilizer included between the solar batteries and the load and n charging and discharging devices each, comprising controlling a voltage stabilizer and charge-discharge devices depending on the input and output voltage of the system, control of the degree of charge and discharged batteries, the prohibition of the operation of the corresponding charger when reaching a specific charge level of a given battery, lifting this prohibition when a certain level of discharging a given battery is reached, prohibiting the operation of a corresponding discharge device when reaching a maximum level of discharging a given battery, lifting this prohibition upon reaching a certain charge level of a given battery, in case of loss of orientation of solar batteries in the Sun, emergency discharge of batteries, prohibit (block) from all the discharge devices, after restoring the orientation of the solar batteries to the Sun and the battery charge to a predetermined level, the operation of all discharge devices is removed, characterized in that in the power supply system with a parallel voltage regulator of the solar battery and additional stabilization of the load voltages of lower nominal value from the first load tires series stabilized converters, block the operation of these series stabilized converters, while

Claims (3)

1. A method for controlling an autonomous power supply system of a spacecraft containing a solar battery and n rechargeable batteries, a voltage stabilizer included between the solar batteries and the load and n charging and discharging devices each, comprising controlling a voltage stabilizer and charge-discharge devices depending on the input and output voltage of the system, control of the degree of charge and discharged batteries, the prohibition of the operation of the corresponding charger when reaching a specific charge level of a given battery, lifting this prohibition when a certain level of discharging a given battery is reached, prohibiting the operation of a corresponding discharge device when reaching a maximum level of discharging a given battery, lifting this prohibition upon reaching a certain charge level of a given battery, in case of loss of orientation of solar batteries in the Sun, emergency discharge of batteries, prohibit (block) from all the discharge devices, after restoring the orientation of the solar batteries to the Sun and the battery charge to a predetermined level, the operation of all discharge devices is removed, characterized in that in the power supply system with a parallel voltage regulator of the solar battery and additional stabilization of the load voltages of lower nominal value from the first load tires series stabilized converters, block the operation of these series stabilized converters, while they monitor the current of the solar battery, and remove the blocking of the series stabilized converters after exceeding the current of the solar battery of a predetermined value. 2. The method of controlling the autonomous power supply system according to claim 1, characterized in that the operation of the series stabilized converters is blocked after the current of the solar battery is exceeded, the values calculated based on the ratio: Ibc> (∑P _sp / U _sp + P _zar / U _zar ) · n · k, where Ibc - current of the solar battery, A; P _SP - power serial stabilized Converter, W; U _SP - load voltage of a series stabilized converter, V; P _zar - power for charging batteries, W; U _zar - minimum charging voltage, W; n is the number of batteries; k is the coefficient of technological stock (taking into account the efficiency of converters, etc.). 3. The method of controlling the autonomous power supply system according to claim 1, characterized in that the operation of the series stabilized converters is blocked after the current of the solar battery is exceeded, the values calculated based on the ratio: Ibs> (∑P _cn ) k / U _BS , where Ibs - current of the solar battery, A; P _SP - power serial stabilized Converter, W; k is the coefficient of technological stock (taking into account the efficiency of converters, etc.); U _BS - rated voltage of the solar battery, V.