RU2006120505A - INTELLIGENT DC CONVERTER FOR DYNAMICALLY CHANGING LOADS - Google Patents

Claims (3)

1. Intelligent DC-DC voltage converter for dynamically changing load, consisting of a module for two-channel conversion of DC voltage (Direct Current) to DC voltage (DC / DC module), the first channel of which contains an inverter of the first conversion channel, the input of which is the first power input DC / DC module, powered from the main network and connected to the primary winding of the transformer of the first conversion channel, the secondary winding of which is connected to the load through the rectifier l the first conversion channel, and the second conversion channel of the DC / DC module contains an inverter of the second conversion channel, the input of which is the second power input of the DC / DC module, powered by a backup network and connected to the primary winding of the transformer of the second conversion channel, the secondary winding of which is connected to the load through the rectifier of the second conversion channel, the control voltage at the load through the voltage sensor is connected to the first input of the analog-to-digital converter of the control system of the module D C / DC, the analog-to-digital converter of the DC / DC module control system is connected to the first input of the DC / DC module microcontroller, the first output of the DC / DC module microcontroller is connected through the driver block of the power keys of the first channel of the DC / DC module control system conversion to the inverter input of the first conversion channel, the second output of the microcontroller of the DC / DC module control system through the driver block of the power keys of the second channel of the conversion of the DC / DC module control system is connected to the input and the inverter of the second conversion channel, characterized in that the second, ..., Nth and (N + 1) th DC / DC modules (identical to the first DC / DC module), surge-switching filters of the first and second conversion channel, current sensors of the inverter of the first and second conversion channel, temperature sensor of the first DC / DC module, output filters of the first and second conversion channel, load current sensors of the first and second conversion channel, power supplies from the main and backup networks, power supply isolation circuit the clock is real a time management module first DC / DC, the nonvolatile memory management unit first DC / DC, the control information exchange system bus adapter module first DC / DC; the first, second and third transducer load current sensors, an information exchange bus, an external control system, wherein the pulse-switching surge filter of the first conversion channel is included between the main network and the inverter of the first conversion channel, the pulse-switching surge filter of the second conversion channel is connected between the backup network and the inverter of the second conversion channel, the current sensor of the inverter of the first conversion channel is connected between the inverter of the first channel and the primary winding of the transformer of the first conversion channel, the current sensor of the inverter of the second conversion channel is connected between the inverter of the second conversion channel and the primary winding of the transformer of the second conversion channel, the inverter output of the first conversion channel is connected to the second input of the analog-to-digital converter of the control system of the first DC / DC module, the inverter output of the second conversion channel is connected to the third input of the analog-to-digital converter of the control system of the first DC module / DC, the output of the inverter current sensor of the first conversion channel is connected to the fourth input of the analog-to-digital converter of the control system of the first DC / DC module, the output of the inverter current sensor of the second conversion channel is connected to the fifth input of the analog-to-digital converter of the control system of the first DC / DC module, output the load current sensor of the first conversion channel is connected to the sixth input of the analog-to-digital converter of the control system of the first DC / DC module, the output of the load current sensor of the second conversion channel connected to the seventh input of the analog-to-digital converter of the control system of the first DC / DC module; the rectifier output of the first conversion channel and, sequentially connected the output filter of the first conversion channel and the load current sensor of the first conversion channel, as well as the output of the rectifier of the second conversion channel and, sequentially connected the output filter of the second conversion channel and the load current sensor of the second conversion channel, form a common power output first DC / DC module; the adapter of the information exchange bus of the control system of the first DC / DC module is connected to the second input-output of the microcontroller of the control system of the first DC / DC module, the non-volatile memory of the control system of the first DC / DC module is connected to the third input of the control system microcontroller of the first DC / DC module, to the fourth the real-time clock of the control system of the first DC / DC module, to the fifth, the temperature sensor of the first DC / DC module, the input of the power supply unit from the main network is connected to the output of the surge switching filter n of the first conversion channel, the first output of the power supply unit from the main network is connected to the power supply input of the filter of pulse-switching overvoltages of the first conversion channel, the second output of the power supply unit from the main network is connected to the first input of the isolation circuit of the power supply circuits, the input of the power supply from the backup network is connected to the filter output pulse-switching overvoltage of the second conversion channel, the first output of the power supply from the backup network is connected to the power input of the filter of the pulse-switching overvoltage of the WTO of the conversion channel, the second output of the power supply unit from the backup network is connected to the second input of the power circuit isolation circuit, the output of the power circuit isolation circuit is connected to the power inputs of the microcontroller of the control system of the first DC / DC module, the driver block of power keys of the first channel of conversion of the control system of the first DC module / DC, power key driver block of the second channel of the conversion of the control system of the first DC / DC module, the analog-to-digital converter of the control system of the first DC / DC module and the bus adapter formational exchange of the control system of the first DC / DC module, the second input-output of the data exchange bus adapter of the control system of the first DC / DC module, which is the information input-output of the first DC / DC module, is connected to the data exchange bus, the first power inputs of the second, .. ., The Nth and (N + 1) th DC / DC modules are connected to the main network, the second power inputs of the second, ..., Nth and (N + 1) th DC / DC modules are connected to the backup network , the common power outputs of the first, second, ..., Nth and (N + 1) -th DC / DC modules through the first, second and three tii load current sensors of the converter are connected to the load, the outputs of the first, second and third load current sensors are connected to the eighth, ninth and tenth inputs of the analog-to-digital converter of the control system of the first, second, ..., Nth and (N + 1) -th DC / DC module, information inputs and outputs of the second, ..., Nth and (N + 1) -th DC / DC modules are connected to the data exchange bus, to which the input-output of an external control system is also connected. 2. The intelligent DC voltage converter for a dynamically changing load according to claim 1, characterized in that the pulse-switching surge filter of the first and second conversion channels contains a series inductance, an output electrolytic capacitor and an active pulse-voltage surge suppression unit, consisting of in parallel included insulated-gate bipolar transistor and resistor, as well as an input voltage sensor and bi an insulated gate transistor, consisting of a comparator and an insulated gate driver block of a bipolar transistor, connected in series, with the voltage from the input voltage sensor connected to the first input of the comparator and the voltage reference to the second input from the voltage divider from two resistors connected respectively to the power supplies from the main and backup network. 3. The intelligent DC voltage converter for dynamically changing load according to claim 1 or 2, characterized in that the microcontroller of the control system of the first, second, ..., Nth and (N + 1) -th DC / DC modules is made with the ability to automatically monitor the operability of the control systems of DC / DC modules after applying power to the converter and determining the degree of readiness of the converter to receive the load, automatically switching over to the power supply from the backup network in the event of an accident in the main network, and returning to power from the main network when the establishment of the main network and shutdown of the backup network, the formation of control actions on the inverters of the first and second conversion channels in order to stabilize the voltage at the load when finding the voltage level of the main or backup network in an acceptable range of voltage values, including so many DC / DC converter modules into operation that corresponds to the value of the total load current of the converter, output to the hot reserve and, accordingly, conservation of the resource of power equipment not working under heat the remaining DC / DC modules, evenly distributing the load between parallel working DC / DC modules, transferring (at rated load) to the hot standby only one of the DC / DC modules, automatically putting the backup DC / DC module into operation when the load increases beyond the nominal or in case of a single failure (in case of failure of one of the DC / DC modules), informing the external control system about the fact of a failure in the converter (and, therefore, about its operation without reserve power).