There is described a point-of-purchase display and method. The display includes one or more sheets. The one or more sheets when unfolded and assembled form the display. The display includes a back wall, a front wall, at least a side wall and a bottom wall. A printed electronic device is affixed to a surface of the one or more sheets. The printed electronic device is selected from the group consisting of: wires, insulators, resistors, capacitors, inductors, transformers, transistors, antennas, OLEDs and sensors. A microcontroller electrically is coupled to the printed electronic device. A connection device is coupled to the printed electronic device. A modular electronic component is coupled to the connection device.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol source; a connector able to be electrically connected to an external power supply; and a control device. The power supply unit further includes: a conductor which electrically connects the connector and the control device; a capacitor provided between the connector and the control device so as to be connected in parallel with the control device; a first circuit board on which the connector is provided; a second circuit board which is apart from the first circuit board and on which the capacitor and the control device are provided; and a conductive member which electrically connects the first circuit board and the second circuit board.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol generation source; and a charger including an information input part, and configured to be able to supply one of a first charging voltage and a second charging voltage lower than the first charging voltage to the power supply, based on an input value which is input from the information input part. A fixed value which is predetermined as one input value can be input to the information input part, and the fixed value is a value for supplying the second charging voltage to the power supply.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol source; a connector able to be electrically connected to an external power supply; and a control device configured to control at least one of charging and discharging of the power supply or configured to be able to convert power which is input from the connector into charging power for the power supply. The power supply unit further includes a zener diode which is provided between the connector and the control device so as to be connected in parallel with the control device, and a maximum value of zener voltage of the zener diode is lower than a maximum operation guarantee voltage of the control device.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol generation source; a temperature measuring unit configured to measure temperature of the power supply; and a control device configured to control first power or a first amount of power to be supplied to the power supply in a case where a measurement value of the temperature measuring unit is equal to or higher than a first threshold, to a value smaller than second power or a second amount of power to be supplied to the power supply in a case where the measurement value is lower than the first threshold.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol source; a connector able to be electrically connected to an external power supply; and a charger configured to be able to convert power which is input from the connector into charging power for the power supply. The power supply unit further includes a first zener diode which is provided between the connector and the charger so as to be connected in parallel with the charger, and the first zener diode is connected so as to be closer to an input terminal of the charger than to an output terminal of the connector.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol source; a first control device and a second control device which are configured to control at least one of charging and discharging of the power supply; a circuit board on which the first control device and the second control device are provided; a first capacitor which is provided on an input side of the first control device so as to be connected in parallel with the first control device; and a second capacitor which is provided on an input side of the second control device so as to be connected in parallel with the second control device, wherein a capacity of the first capacitor is different from a capacity of the second capacitor.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol generation source; a first circuit board including a resistor; and a second circuit board disposed apart from the first circuit board, and electrically connected to the first circuit board. The second circuit board includes at least one of: a control device configured to be able to control at least one of discharging and charging of the power supply; and a charging device configured to convert power which is input, into charging power for the power supply.

A multi-LED system includes a carrier; and a plurality of light-emitting diodes arranged on the carrier, wherein the carrier has a main body, and a plurality of electrical components are embedded in the main body.

A DC link bus includes a first and second set of conductive layers, arranged between insulation layers that separate the first set from the second set. A set of positive and negative link conductors are coupled normal to a respective set of conductive layers, and coupled together to define a respective positive bus and a negative bus. Additionally, a method of forming a DC link bus includes respectively coupling a first and a second set of parallel conductive layers to each other. Coupling a set of positive link connectors, and a set of negative link connectors, perpendicular to the first set and second set of layers, respectively, and to each other to define a positive bus and a negative bus. Interdigitally arranging the first and second set of conductive layers, spacing adjacent layers of the second set of layers to reduce an inductance between the positive and negative bus.