A first coil includes a first end and a second end. A second coil includes a third end and a fourth end. A secondary winding includes a first conductor and a second conductor. The first conductor is sandwiched between the first end and the third end in a first direction and is conductively connected to the first end and the third end. The second conductor is sandwiched between the second end and the fourth end in the first direction and is conductively connected to the second end and the fourth end. The first end and the second end are arranged in a second direction orthogonal to the first direction. The third end and the fourth end are arranged in the second direction. The first conductor and the second conductor are arranged in the second direction.

A switch-mode DC-DC power converter includes one or more input terminals and output terminals, and a transformer coupled between the input and output terminals. The transformer includes a plurality of winding sets. Each winding set includes a primary winding and a secondary winding magnetically coupled with one another. The primary winding and the secondary winding include the same number of turns. The primary windings of the plurality of winding sets are connected in series and the secondary windings of the plurality of winding sets are connected in parallel. The power converter also includes at least one spacer positioned to separate an adjacent pair of the plurality of winding sets. A magnetic coupling between the adjacent pair of the plurality of winding sets is less than the magnetic coupling between the primary winding and the secondary winding within each winding set.

The aerosol-generating device includes a housing, and a power supply configured to supply electrical power to a heating element by way of a transformer assembly within the housing. The transformer assembly includes a magnetic flux guide, a primary circuit including a primary winding extending around a first portion of the magnetic flux guide and electrically connected to the power supply, and a secondary circuit including a secondary winding inductively coupled to the primary winding and extending around a second portion of the magnetic flux guide. The number of turns in the primary winding is greater than the number of turns in the secondary winding. The secondary circuit includes at least two electrical contacts configured to form an electrical connection with the heating element.

The invention relates to a self-induction transformer which includes: At least two magnetic circuits (4 and 5) in connection, and at least three electrical windings (1, 2 and 3): The primary (1) which surrounds the free part of the first magnetic circuit. The secondary (2) which surrounds the linking part of the two magnetic circuits. The tertiary (3) which surrounds the free part of the second magnetic circuit

The invention relates to a self-induction transformer which includes: At least two magnetic circuits (4 and 5) in connection, and at least three electrical windings (1, 2 and 3): The primary (1) which surrounds the free part of the first magnetic circuit. The secondary (2) which surrounds the linking part of the two magnetic circuits. The tertiary (3) which surrounds the free part of the second magnetic circuit

Disclosed herein is a symmetric transformer in the context of a DC-DC isolated converter. The symmetric transformer reduces or eliminates asymmetry in the distribution of parasitic capacitance across the isolation barrier going from one end to another end of a primary coil, and as a result, undesirable electromagnetic interference (EMI) due to common mode dipole emission across the isolation barrier may be reduced.

In some embodiments, a primary winding is split into separate first and second coils, with a serial impedance connected in between the first and second coils. The transformer is symmetric in the sense that a capacitive coupling of the first coil to a secondary winding is the same as a capacitive coupling of the second coil to the secondary winding, such that common mode EMI may be reduced.

Provided is an electronic component including a secondary side coil including a plurality of coil parts, in which each of the coil parts includes: a plate-like base part; a leg part formed on the base part; and a pin part formed at a tip of the leg part.

Provided is an electronic component including a secondary side coil including a plurality of coil parts, in which each of the coil parts includes: a plate-like base part; a leg part formed on the base part; and a pin part formed at a tip of the leg part.

A high-voltage isolation withstand planar transformer and its high-voltage insulation method are provided. An insulating medium is provided between low-voltage windings and high-voltage windings. High-frequency current flows through the windings and generates a high-frequency alternating magnetic field to achieve isolated energy transmission. The low-voltage windings are connected to low-voltage side connection terminals, and the high-voltage windings are connected to high-voltage side connection terminals through a high-voltage winding leading-out foil. An annular hollow part of the low-voltage windings and the high-voltage windings is provided with a magnetic core. A stress grading method is provided to control the distribution of the electric field around the high-voltage winding leading-out foil. A voltage-balancing element group provides a voltage potential with a gradient change between the high-voltage winding leading-out foil and the low-voltage windings. The new transformer has small size, high power density and low cost.

To obtain a transformer that can easily cope with various input voltage specifications and that has improved productivity. A transformer includes: a core portion for forming a magnetic circuit; a primary winding and a secondary winding wound at the core portion; and a first connection portion having a plurality of first conductive parts arranged with an insulation interval therebetween. One or both of the primary winding and the secondary winding are divided into a plurality of division windings, and each of the plurality of division windings of the at least one divided winding has a wound part wound at the core portion, and two extending members extending from both ends of the wound part. The first connection portion is connected to one of the two extending members of each of the plurality of division windings of the at least one divided winding.