Such DC-DC converters are used in, for example, onboard chargers for charging lead-acid batteries with the power of onboard lithium-ion batteries. Insulated-type DC-DC converters using transformers have been known.
The present disclosure relates to a DC-DC converter and a vehicle. 16, 2021, the entire contents of which are incorporated herein by reference. This application is based upon and claims the benefit of priority from Japanese Patent Application No. A vehicle comprising the DC-DC converter according to claim 1. The DC-DC converter according to claim 3, further comprising a control circuit configured to control an amount of power for conversion of the DC input voltage to the DC output voltage on the basis of a measured value of the output voltage or a measured value of an output current supplied to a load.ĩ. The DC-DC converter according to claim 1, further comprising a control circuit configured to control an amount of power for conversion of the DC input voltage to the DC output voltage on the basis of a measured value of the output voltage or a measured value of an output current supplied to a load.Ĩ. The DC-DC converter according to claim 3, wherein the smoothing circuit is an LC-type low-pass filter.ħ. The DC-DC converter according to claim 1, wherein each of the smoothing circuits is an LC-type low-pass filter.Ħ. The DC-DC converter according to claim 3, wherein output terminals of the multiple rectifier circuits are connected to one another.ĥ. A DC-DC converter comprising: a DC-AC conversion circuit configured to convert a DC input voltage to a primary-side AC voltage a transformer including a primary-side coil to which the primary-side AC voltage is applied, and multiple secondary-side coils magnetically coupled to the primary-side coil multiple rectifier circuits provided in one-to-one correspondence with the multiple secondary-side coils, each of the multiple rectifier circuits being configured to output a rectification voltage resulting from full-wave rectification on the secondary-side AC voltage output from the corresponding secondary-side coil out of the multiple secondary-side coils and a smoothing circuit configured to synthesize rectification voltages output from the multiple rectifier circuits and receive a synthesized rectification voltage, and output a DC output voltage resulting from smoothing the synthesized rectification voltage.Ĥ. The DC-DC converter according to claim 1, wherein output terminals of the multiple rectifier circuits are connected to one another.ģ. A DC-DC converter comprising: a DC-AC conversion circuit configured to convert a DC input voltage to a primary-side AC voltage a transformer including a primary-side coil to which the primary-side AC voltage is applied, and multiple secondary-side coils magnetically coupled to the primary-side coil multiple rectifier circuits provided in one-to-one correspondence with the multiple secondary-side coils, each of the multiple rectifier circuits being configured to output a rectification voltage resulting from full-wave rectification on the secondary-side AC voltage output from the corresponding secondary-side coil out of the multiple secondary-side coils multiple smoothing circuits provided in one-to-one correspondence with the multiple rectifier circuits, each of the multiple smoothing circuits being configured to smooth the rectification voltage output from the corresponding rectifier circuit out of the multiple rectifier circuits and an output circuit connected to respective output terminals of the multiple smoothing circuits, the output circuit being configured to output a DC output voltage.Ģ. The output circuit outputs a DC output voltage.ġ. The output circuit is connected to respective output terminals of the smoothing circuits. Each of the smoothing circuits smooths the rectification voltage output from the corresponding rectifier circuit out of the rectifier circuits. The smoothing circuits are provided in one-to-one correspondence with the rectifier circuits. Each of the rectifier circuits outputs a rectification voltage resulting from full-wave rectification on the secondary-side AC voltage output from the corresponding secondary-side coil out of the secondary-side coils. The rectifier circuits are provided in one-to-one correspondence with the secondary-side coils. The transformer includes a primary-side coil to which the primary-side AC voltage is applied, and secondary-side coils magnetically coupled to the primary-side coil. The DC-AC conversion circuit converts a DC input voltage to a primary-side AC voltage.
A DC-DC converter includes a DC-AC conversion circuit, a transformer, rectifier circuits, smoothing circuits, and an output circuit.