WO2024014945A1 - Vibreur à ultrasons et circuit de protection de transistor à effet de champ - Google Patents
Vibreur à ultrasons et circuit de protection de transistor à effet de champ Download PDFInfo
- Publication number
- WO2024014945A1 WO2024014945A1 PCT/KR2023/095032 KR2023095032W WO2024014945A1 WO 2024014945 A1 WO2024014945 A1 WO 2024014945A1 KR 2023095032 W KR2023095032 W KR 2023095032W WO 2024014945 A1 WO2024014945 A1 WO 2024014945A1
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- WO
- WIPO (PCT)
- Prior art keywords
- cartridge
- vibrator
- switch
- drive circuit
- contact point
- Prior art date
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Images
Classifications
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03K—PULSE TECHNIQUE
- H03K17/00—Electronic switching or gating, i.e. not by contact-making and –breaking
- H03K17/08—Modifications for protecting switching circuit against overcurrent or overvoltage
- H03K17/081—Modifications for protecting switching circuit against overcurrent or overvoltage without feedback from the output circuit to the control circuit
- H03K17/0814—Modifications for protecting switching circuit against overcurrent or overvoltage without feedback from the output circuit to the control circuit by measures taken in the output circuit
- H03K17/08142—Modifications for protecting switching circuit against overcurrent or overvoltage without feedback from the output circuit to the control circuit by measures taken in the output circuit in field-effect transistor switches
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/05—Devices without heating means
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/50—Control or monitoring
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B06—GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS IN GENERAL
- B06B—METHODS OR APPARATUS FOR GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS OF INFRASONIC, SONIC, OR ULTRASONIC FREQUENCY, e.g. FOR PERFORMING MECHANICAL WORK IN GENERAL
- B06B1/00—Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency
- B06B1/02—Methods or apparatus for generating mechanical vibrations of infrasonic, sonic, or ultrasonic frequency making use of electrical energy
- B06B1/0207—Driving circuits
- B06B1/0223—Driving circuits for generating signals continuous in time
- B06B1/0238—Driving circuits for generating signals continuous in time of a single frequency, e.g. a sine-wave
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/10—Devices using liquid inhalable precursors
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B06—GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS IN GENERAL
- B06B—METHODS OR APPARATUS FOR GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS OF INFRASONIC, SONIC, OR ULTRASONIC FREQUENCY, e.g. FOR PERFORMING MECHANICAL WORK IN GENERAL
- B06B2201/00—Indexing scheme associated with B06B1/0207 for details covered by B06B1/0207 but not provided for in any of its subgroups
- B06B2201/70—Specific application
- B06B2201/77—Atomizers
Definitions
- the present disclosure relates to an aerosol generating device, and more particularly, to a configuration for protecting a drive circuit.
- the demand for electronic cigarettes has been on a gradual rise.
- the rising demand for e-cigarettes has accelerated the continued development of e-cigarette related functions.
- the e-cigarette related functions may include, in particular, functions according to types and characteristics of e-cigarettes.
- An aspect of the present disclosure may provide an aerosol generating device that generates aerosols.
- An aspect of the present disclosure may provide a configuration for protecting a drive circuit inserted in an aerosol generating device.
- a drive circuit of an electronic device including: a first electrical contact point that is connectable to a first end of a cartridge and a second electrical contact point that is connectable to a second end of the cartridge; a switch having a drain terminal connected to the first electrical contact point, and a source terminal connected to a ground; a first power source configured to supply a voltage to a gate terminal of the switch; a second power source configured to supply a voltage to the drain terminal of the switch; and a diode connected between the first electrical contact point and the second electrical contact point such that the diode is connected in parallel with a vibrator included in the cartridge.
- the drive circuit may further include an inductor connected between the first electrical contact point and the second power source; and a first resistor connected between the gate terminal of the switch and the ground.
- the first power source may supply an alternating current (AC) voltage to the gate terminal of the switch.
- AC alternating current
- the second power source may supply a direct current (DC) voltage to the drain terminal of the switch and a first end of the vibrator.
- DC direct current
- an electronic cigarette including the drive circuit described above.
- the diode may include at least one Zener diode configured to limit a level of a voltage to be applied to the vibrator.
- the at least one Zener diode may include a plurality of Zener diodes connected in parallel or in series.
- an electronic device including: a driver circuit configured to, when a cartridge is connected to the electronic device, drive a vibrator included in the cartridge; and a controller configured to control an operation of the drive circuit.
- the drive circuit may include: a first electrical contact point that is connectable to a first end of the cartridge and a second electrical contact point that is connectable to a second end of the cartridge; a switch having a drain terminal connected to the first electrical contact point, and a source terminal connected to the ground; a first power source configured to supply a voltage to a gate terminal of the switch; a second power source configured to supply a voltage to the drain terminal of the switch; and a diode connected between the first electrical contact point and the second electrical contact point such that the diode is connected in parallel with the vibrator.
- a drive circuit for driving a vibrator of an aerosol generating device.
- an aerosol generating device for generating aerosols.
- FIG. 1 is a block diagram of an aerosol generating device according to an example embodiment.
- FIG. 2 is a schematic diagram of an aerosol generating device according to an example embodiment.
- FIG. 3 is a perspective view of an aerosol generating device with a cartridge and a body separated from each other according to an example embodiment.
- FIG. 4 is a perspective view of an aerosol generating device with a cartridge and a body coupled to each other according to an example embodiment.
- FIG. 5a illustrates a drive circuit according to an example embodiment.
- FIGS. 5b and 5c illustrate a voltage applied to a vibrator through a drive circuit according to an example embodiment.
- FIG. 6 illustrates a full-bridge mode drive circuit according to an example embodiment.
- FIG. 7 illustrates a drive circuit for switching between a full-bridge mode and a half-bridge mode according to an example embodiment.
- FIG. 8 illustrates an equivalent circuit of a drive circuit operating in a half-bridge mode according to an example embodiment.
- first, second, and the like are used to describe various components, the components are not limited to the terms. These terms should be used only to distinguish one component from another component.
- a first component may be referred to as a second component, and similarly the second component may also be referred to as the first component.
- a third component may be “connected,” “coupled,” and “joined” between the first and second components, although the first component may be directly connected, coupled, or joined to the second component.
- At least one of A, B, and C and “at least one of A, B, or C” should be understood as including only a, only b, only c, both a and b, both a and c, both b and c, or all of a, b, and c.
- FIG. 1 is a block diagram of an aerosol generating device according to an example embodiment.
- an aerosol generating device 100 of FIG. 1 may include a controller 110, a sensing unit 120, an output unit 130, a battery 140, an atomizer 150, a user input unit 160, a memory 170, and a communication unit 180.
- the internal structure of the aerosol generating device 100 is not limited to what is shown in FIG. 1. It is to be understood by one of ordinary skill in the art to which the present disclosure pertains that some of the components shown in FIG. 1 may be omitted or new components may be added according to the design of the aerosol generating device 100.
- the sensing unit 120 may sense a state of the aerosol generating device 100 or a state of an environment around the aerosol generating device 100 and transmit sensed information to the controller 110. Based on the sensed information, the controller 110 may control the aerosol generating device 100 to perform various functions, such as, for example, controlling an operation of the atomizer 150, restricting smoking, determining whether an aerosol-generating item (e.g., an aerosol-generating material, a cartridge, etc.) is inserted, and displaying a notification.
- an aerosol-generating item e.g., an aerosol-generating material, a cartridge, etc.
- the sensing unit 120 may include at least one of a temperature sensor 122, an insertion detection sensor 124, or a puff sensor 126, but examples of which are not limited thereto.
- the temperature sensor 122 may sense a temperature of the atomizer 150 (or an aerosol-generating material).
- the aerosol generating device 100 may include a separate temperature sensor for sensing the temperature of the atomizer 150, or the atomizer 150 itself may perform a function as such a temperature sensor.
- the temperature sensor 122 may be disposed around the battery 140 to monitor a temperature of the battery 140.
- the insertion detection sensor 124 may sense whether the aerosol-generating item is inserted or removed.
- the insertion detection sensor 124 may include, for example, at least one of a film sensor, a pressure sensor, a light sensor, a resistive sensor, a capacitive sensor, an inductive sensor, or an infrared sensor, which may sense a signal change by the insertion or removal of the aerosol-generating item.
- the puff sensor 126 may sense a puff from a user based on various physical changes in an airflow path or channel. For example, the puff sensor 126 may sense the puff of the user based on any one of a temperature change, a flow change, a voltage change, and a pressure change.
- the sensing unit 120 may further include at least one of a temperature/humidity sensor, an atmospheric pressure sensor, a magnetic sensor, an acceleration sensor, a gyroscope sensor, a position sensor (e.g., a global positioning system (GPS)), a proximity sensor, or a red, green, blue (RGB) sensor (e.g., an illuminance sensor), in addition to the sensors 122 through 126 described above.
- a temperature/humidity sensor e.g., an atmospheric pressure sensor, a magnetic sensor, an acceleration sensor, a gyroscope sensor, a position sensor (e.g., a global positioning system (GPS)), a proximity sensor, or a red, green, blue (RGB) sensor (e.g., an illuminance sensor), in addition to the sensors 122 through 126 described above.
- GPS global positioning system
- RGB red, green, blue
- the output unit 130 may output the information about the state of the aerosol generating device 100 and provide the information to the user.
- the output unit 130 may include at least one of a display 132, a haptic portion 134, or a sound outputter 136, but examples of which are not limited thereto.
- the display 132 and a touchpad are provided in a layered structure to form a touchscreen, the display 132 may be used as an input device in addition to an output device.
- the display 132 may visually provide information about the aerosol generating device 100 to the user.
- the information about the aerosol generating device 100 may include various pieces of information, for example, a charging/discharging state of the battery 140 of the aerosol generating device 100, a state of the atomizer 150, an insertion/removal state of the aerosol-generating item, a limited usage state (e.g., an abnormal item detected) of the aerosol generating device 100, or the like, and the display 132 may externally output the information.
- the display 132 may be provided in a form, for example, a liquid-crystal display (LCD) panel, an organic light-emitting display (OLED) panel, or the like.
- the display 132 may also be provided in a form of a light-emitting diode (LED) device.
- LED light-emitting diode
- the haptic portion 134 may convert an electrical signal into a mechanical stimulus or an electrical stimulus and provide the information about the aerosol generating device 100 to the user in a haptic way.
- the haptic portion 134 may include, for example, a motor, a piezoelectric element, or an electrical stimulation device.
- the sound outputter 136 may provide the information about the aerosol generating device 100 to the user in an auditory way.
- the sound outputter 136 may convert an electrical signal into a sound signal and externally output the sound signal.
- the battery 140 may supply power to be used to operate the aerosol generating device 100.
- the battery 140 may supply power to the atomizer 150 to operate it.
- the battery 140 may also supply power required for other components (e.g., the sensing unit 120, the output unit 130, the user input unit 160, the memory 170, and the communication unit 180) included in the aerosol generating device 100 to perform their operations.
- the battery 140 may be a rechargeable battery or a disposable battery.
- the battery 140 may be, for example, a lithium polymer (LiPoly) battery, but examples of which are not limited thereto.
- the atomizer 150 may receive the power from the battery 140 to atomize the aerosol-generating material.
- the aerosol generating device 100 may further include a power conversion circuit (e.g., a direct current (DC)-to-DC (DC/DC) converter) that converts the power of the battery 140 and supplies the power to the atomizer 150.
- a power conversion circuit e.g., a direct current (DC)-to-DC (DC/DC) converter
- DC/AC DC-to-alternating current
- the controller 110, the sensing unit 120, the output unit 130, the user input unit 160, the memory 170, and the communication unit 180 may receive power from the battery 140 to perform their functions.
- the aerosol generating device 100 may further include a power conversion circuit, for example, a low dropout (LDO) circuit or a voltage regulator circuit, which converts the power of the battery 140 and supplies the power to the respective components.
- LDO low dropout
- the atomizer 150 may include a vibrator configured to generate ultrasonic vibration by an applied signal (e.g., power).
- a material of the vibrator may include a piezoelectric ceramic, but examples of which are not limited thereto.
- the vibrator may include a piezoelectric body.
- the piezoelectric body which may be a conversion element that converts electrical energy into mechanical energy, may generate ultrasonic vibration under the control of the controller 110.
- the piezoelectric body when AC power is applied to a piezoelectric body obtained through polarization, the piezoelectric body may repeatedly expand and contract. As the piezoelectric body repeatedly expands and contracts, the vibrator may vibrate at a characteristic frequency.
- a short high-frequency vibration may be generated, and the generated vibration may break the aerosol-generating material into small particles to atomize them into aerosols.
- the user input unit 160 may receive information input from the user or may output information to the user.
- the user input unit 160 may include, for example, a keypad, a dome switch, a touchpad (e.g., a contact capacitive type, a pressure resistive film type, an infrared sensing type, a surface ultrasonic conduction type, an integral tension measurement type, a piezo effect method, etc.), a jog wheel, a jog switch, or the like, but examples of which are not limited thereto.
- the aerosol generating device 100 may further include a connection interface such as a universal serial bus (USB) interface, and may use the connection interface such as the USB interface to be connected to another external device so as to transmit and receive information or charge the battery 140.
- USB universal serial bus
- the memory 170 which is hardware for storing various pieces of data processed in the aerosol generating device 100, may store data that has been processed or to be processed by the controller 110.
- the memory 170 may include at least one type of storage medium including, for example, a flash memory type memory, a hard disk type memory, a multimedia card micro type memory, a card type memory (e.g., SD or XE memory), a random-access memory (RAM), a static RAM (SRAM), a read-only memory (ROM), an electrically erasable programmable ROM (EEPROM), a programmable ROM (PROM), a magnetic memory, a magnetic disk, or an optical disc.
- the memory 170 may store an operating time of the aerosol generating device 100, a maximum number of puffs, a current number of puffs, at least one temperature profile, data associated with a smoking pattern of the user, or the like.
- the communication unit 180 may include at least one component for communicating with another electronic device.
- the communication unit 180 may include a short-range wireless communication unit 182 and a wireless communication unit 184.
- the short-range wireless communication unit 182 may include a Bluetooth communication unit, a Bluetooth low energy (BLE) communication unit, a near-field communication (NFC) unit, a wireless local area network (WLAN) (e.g., Wi-Fi) communication unit, a ZigBee communication unit, an infrared data association (IrDA) communication unit, a Wi-Fi direct (WFD) communication unit, an ultra-wideband (UWB) communication unit, and an Ant+ communication unit, but examples of which are not limited thereto.
- BLE Bluetooth low energy
- NFC near-field communication
- WLAN wireless local area network
- IrDA infrared data association
- WFD Wi-Fi direct
- UWB ultra-wideband
- the wireless communication unit 184 may include a cellular network communication unit, an Internet communication unit, and a computer network (e.g., a local area network (LAN) or wide-area network (WAN)) communication unit, but examples of which are not limited thereto.
- the wireless communication unit 184 may use subscriber information (e.g., international mobile subscriber identity (IMSI)) to identify and authenticate the aerosol generating device 100 in a communication network.
- subscriber information e.g., international mobile subscriber identity (IMSI)
- the controller 110 may control an overall operation of the aerosol generating device 100.
- the controller 110 may include at least one processor.
- the processor may be implemented as an array of a plurality of logic gates or as a combination of a general-purpose microprocessor and a memory storing a program executable by the microprocessor.
- a general-purpose microprocessor and a memory storing a program executable by the microprocessor.
- it is to be understood by one of ordinary skill in the art to which the present disclosure pertains that it may be implemented in other types of hardware.
- the controller 110 may control an operation of the atomizer 150 by controlling the supply of power from the battery 140 to the atomizer 150.
- the controller 110 may control the supply of power by controlling the switching of a switching element of a drive circuit 138 disposed between the battery 140 and the atomizer 150.
- the controller 110 may analyze a sensing result obtained by the sensing of the sensing unit 120 and control processes to be performed thereafter. For example, the controller 110 may control power to be supplied to the atomizer 150 to start or end the operation of the atomizer 150 based on the sensing result obtained by the sensing unit 120. For another example, the controller 110 may control an amount of power to be supplied to the atomizer 150 and a time for which the power is to be supplied thereto, such that the atomizer 150 may vibrate at a predetermined frequency or maintain a desired frequency, based on the sensing result obtained by the sensing unit 120.
- the controller 110 may control the output unit 130 based on the sensing result obtained by the sensing unit 120. For example, when the number of puffs counted through the puff sensor 126 reaches a preset number, the controller 110 may inform the user that the aerosol generating device 100 is to be ended soon, through at least one of the display 132, the haptic portion 134, or the sound outputter 136.
- the controller 110 may control such a power supply time and/or power supply amount for the atomizer 150 by controlling the drive circuit 138 based on a state of the aerosol-generating item sensed by the sensing unit 120. For example, based on a type or remaining amount of the aerosol-generating item, the controller 110 may control a vibration frequency of the vibrator of the atomizer 150.
- Example embodiments described herein may be implemented in the form of a recording medium including computer-executable instructions, such as a computer-executable program module.
- a computer-readable medium may be any available medium that is accessible by a computer and includes all of a volatile medium, a non-volatile medium, a removable medium, and a non-removable medium.
- the computer-readable medium may include both a computer storage medium and a communication medium.
- the computer storage medium includes all of a volatile medium, a non-volatile medium, a removable medium, and a non-removable medium implemented by any method or technology for storing information such as computer-readable instructions, data structures, program modules, or other data.
- the communication medium typically includes computer-readable instructions, data structures, other data in modulated data signals such as program modules, or other transmission mechanisms and includes any information transfer medium.
- FIG. 2 is a schematic diagram of an aerosol generating device according to an example embodiment.
- an aerosol generating device 200 may include a cartridge 220 containing an aerosol-generating material and a body 210 connected to the cartridge 220.
- the cartridge 220 of the aerosol generating device 200 may be coupled to the body 210 with the aerosol-generating material stored therein. For example, as at least a portion of the cartridge 220 is inserted into the body 210, the cartridge 220 and the body 210 may be coupled. As another example, as at least a portion of the body 210 is inserted into the cartridge 220, the cartridge 220 and the body 210 may be coupled.
- the cartridge 220 and the body 210 may be coupled by at least one of a snap-fit method, a screw coupling method, a magnetic coupling method, or an interference fit method, but a method of coupling the cartridge 220 and the body 210 is not limited to the foregoing example methods.
- the cartridge 220 may include a housing 222, a mouthpiece 224, a storage portion 230, a transfer portion 240, a vibrator 250, and an electrical terminal 260.
- the housing 222 of the aerosol generating device 200 may form an overall outer shape of the cartridge 220 together with the mouthpiece 224, and components for an operation of the cartridge 220 may be disposed inside the housing 222.
- the housing 222 may be formed in a rectangular parallelepiped shape, but the shape of the housing 222 is not limited to the foregoing example.
- the housing 222 may be formed in the shape of a polygonal prism (e.g., a triangular prism or a pentagonal prism) or in the shape of a cylinder.
- the mouthpiece 224 of the aerosol generating device 200 may be disposed in one area of the housing 222 and include an outlet 224e for discharging an aerosol generated from the aerosol-generating material to the outside.
- the mouthpiece 224 may be disposed in an area opposite to another area of the cartridge 220 coupled to the body 210.
- a user may receive an aerosol from the cartridge 220 as he or she brings a mouth into contact with the mouthpiece 224 and inhales.
- the inhalation or puff performed by the user there may be a pressure difference between the outside of the cartridge 220 and the inside of the cartridge 220, and an aerosol generated in the cartridge 220 may be discharged to the outside of the cartridge 220 via the outlet 224e by the pressure difference between the inside and the outside of the cartridge 220. That is, the user may receive the aerosol discharged to the outside of the cartridge 220 via the outlet 224e as he or she brings a mouth into contact with the mouthpiece 224 and inhales.
- the storage portion 230 of the aerosol generating device 200 may be disposed in an inner space of the housing 222 and store the aerosol-generating material.
- the expression of "storing an aerosol-generating material” may indicate a function of simply containing the aerosol-generating material , serving as a container, or may involve an additional function of retaining the aerosol-generating material by using sponge, cotton, cloth, or porous ceramic structure.
- the storage portion 230 may store the aerosol-generating material in one state, for example, a liquid state, a solid state, a gaseous state, or a gel state.
- the aerosol-generating material may include a liquid composition.
- the liquid composition may be, for example, a liquid including a tobacco-containing material that includes a volatile tobacco flavor component or may be a liquid including a non-tobacco material.
- the liquid composition may include, for example, one of water, a solvent, ethanol, a plant extract, a fragrance, a flavoring agent, and a vitamin mixture, or include a mixture of these ingredients.
- the fragrance may include, as non-limiting examples, menthol, peppermint, spearmint oil, various fruit-flavored ingredients, or the like.
- the flavoring agent may include an ingredient that provides the user with a variety of flavors or scents.
- the vitamin mixture may be a mixture of at least one of vitamin A, vitamin B, vitamin C, or vitamin E, but examples of which are not limited thereto.
- the liquid composition may also include an aerosol former such as glycerin and propylene glycol.
- the liquid composition may include, for example, glycerin and propylene glycol in any weight ratio, to which a nicotine salt is added.
- the liquid composition may also include two or more types of nicotine salt.
- the nicotine salt may be formed by adding a suitable acid including an organic acid or an inorganic acid to nicotine.
- the nicotine which is either naturally generated nicotine or synthetic nicotine, may have a concentration of any appropriate weight relative to a total solution weight of the liquid composition.
- the acid for forming the nicotine salt may be appropriately selected in consideration of an absorption rate of nicotine in the blood, an operating temperature of the aerosol generating device 200, a flavor or taste, solubility, and the like.
- the acid for forming the nicotine salt may include, as non-limiting examples, a single acid selected from the group consisting of benzoic acid, lactic acid, salicylic acid, lauric acid, sorbic acid, levulinic acid, pyruvic acid, formic acid, acetic acid, propionic acid, butyric acid, valeric acid, caproic acid, caprylic acid, capric acid, citric acid, myristic acid, palmitic acid, stearic acid, oleic acid, linoleic acid, linolenic acid, phenylacetic acid, tartaric acid, succinic acid, fumaric acid, gluconic acid, saccharic acid, malonic acid, or malic acid, or a mixture of two or more acids selected from the foregoing
- the transfer portion 240 of the aerosol generating device 200 may absorb the aerosol-generating material.
- the aerosol-generating material stored or contained in the storage portion 230 may be transferred from the storage portion 230 to the vibrator 250 through the transfer potion 240, and the vibrator 250 may generate aerosols by atomizing the aerosol-generating material of the transfer portion 240 or the aerosol-generating material received from the transfer portion 240.
- the transfer portion 240 may include at least one of cotton fibers, ceramic fibers, glass fibers, or porous ceramics, but examples of which are not limited thereto.
- the transfer portion 240 may be disposed near the storage portion 230 to receive a liquid aerosol-generating material from the storage portion 230.
- the aerosol-generating material stored in the storage portion 230 may be discharged to the outside of the storage portion 230 through a liquid supply port formed in one area of the storage portion 230 facing toward the transfer portion 240, and the transfer portion 240 may absorb at least a portion of the aerosol-generating material discharged from the storage portion 230 to absorb the aerosol-generating material discharged from the storage portion 230.
- the cartridge 220 may further include an absorber (not shown) that is disposed to cover at least a portion of the vibrator 250 where an aerosol is generated and transfers the aerosol-generating material absorbed by the transfer portion 240 to the vibrator 250.
- the absorber may be formed with a material that absorbs an aerosol-generating material.
- the absorber may include, for example, at least one material of SPL 30(H), SPL 50(H)V, NP 100(V8), SPL 60(FC), and melamine.
- the aerosol-generating material may thus be absorbed by the absorber in addition to the transfer portion 240, and the amount of the aerosol-generating material being absorbed may thus be improved.
- the vibrator 250 of the aerosol generating device 200 may be disposed inside the housing 222 and generate aerosols by converting a phase of the aerosol-generating material stored in the cartridge 220.
- the vibrator 250 may generate aerosols by heating or vibrating the aerosol-generating material.
- the absorber may function as a physical barrier that prevents "spitting" of particles that fail to be fully atomized during an aerosol generating process and are discharged directly to the outside of the aerosol generating device 200.
- the "spitting” may refer to a phenomenon that some large particles of an aerosol-generating material fail to be fully atomized and are discharged to the outside of the cartridge 220.
- the absorber included in the cartridge 220 may reduce the probability of the spitting, thereby improving the smoking satisfaction of the user.
- the absorber may be disposed between one surface of the vibrator 250 where an aerosol is generated and the transfer portion 240 so that the aerosol supplied to the transfer portion 240 is transferred to the vibrator 250.
- one area of the absorber may contact one area of the transfer portion 240 facing a -z direction
- another area of the absorber may contact one area of the vibrator 250 facing a +z direction. That is, the absorber may be disposed on a top surface (e.g., in the +z direction) of the vibrator 250 to supply the aerosol-generating material absorbed by the transfer portion 240 to the vibrator 250.
- the vibrator 250 of the aerosol generating device 200 may change a phase of the aerosol-generating material, using an ultrasonic vibration method that atomizes the aerosol-generating material through ultrasonic vibration.
- the vibrator 250 may generate vibration having a short period, and the vibration generated from the vibrator 250 may be ultrasonic vibration.
- a frequency of the ultrasonic vibration may be in a range of approximately 100 kilohertz (kHz) to approximately 10 megahertz (MHz) (desirably, in a range of approximately 100 kHz to 3.5 MHz), but examples of which are not limited thereto.
- the vibrator 250 may vibrate in a longitudinal direction (e.g., a z-axis direction) of the cartridge 220 or the housing 222.
- a longitudinal direction e.g., a z-axis direction
- example embodiments are not limited to the direction in which the vibrator 250 vibrates, and the direction in which the vibrator 250 vibrates may be changed to various directions (e.g., one of an x-axis direction, a y-axis direction, and a z-axis direction or a combination thereof).
- the aerosol-generating material supplied from the storage portion 230 to the vibrator 250 by such a short-period vibration generated from the vibrator 250 may be vaporized and/or changed into particles to be atomized into aerosols.
- the vibrator 250 may include a piezoelectric ceramic, and the piezoelectric ceramic may be a functional material that generates power (or a voltage) by a physical force (or a pressure) and reversely generates a vibration (or a mechanical force) at the application of the power to convert the power and the mechanical force reciprocally. That is, as the power is applied to the vibrator 250, the short-period vibration (or the physical force) may be generated, and the generated vibration may break the aerosol-generating material into small particles and atomize the aerosol-generating material into aerosols.
- the vibrator 250 may be electrically connected to other components of the aerosol generating device 200 through the electrical terminal 260.
- the electrical terminal 260 may be disposed on one surface of the cartridge 220.
- the electrical terminal 260 may be disposed on a coupling surface of the cartridge 220 where the cartridge 220 is coupled to the body 210 of the aerosol generating device 200.
- the electrical terminal 260 may be disposed on one surface of the housing 222 opposite the mouthpiece 224.
- the vibrator 250 may be electrically connected to at least one of a drive circuit 212, a controller 214, or a battery 216 of the body 210 through the electrical terminal 260 disposed inside the housing 222 of the cartridge 220.
- the vibrator 250 may be electrically connected to the electrical terminal 260 disposed inside the cartridge 220 through a first conductor, and the electrical terminal 260 may be electrically connected to the drive circuit 212 of the body 210 through a second conductor. That is, the vibrator 250 may be electrically connected to components of the body 210 through the electrical terminal 260 as a medium.
- the vibrator 250 may generate ultrasonic vibration by receiving power from the battery 216 of the body 210 through the electrical terminal 260.
- the vibrator 250 may be electrically connected to the controller 214 of the body 210 through the electrical terminal 260, and the controller 214 may control an operation of the vibrator 250 through the drive circuit 212.
- the electrical terminal 260 may include, for example, at least one of a pogo pin, a wire, a cable, a printed circuit board (PCB), a flexible PCB (FPCB), or a C-clip, but the electrical terminal 260 is not limited to the foregoing examples.
- the vibrator 250 may be implemented as a mesh-shaped or plate-shaped vibration receiving potion that performs both a function of absorbing an aerosol-generating material and maintaining the aerosol-generating material in an optimal state to be converted into aerosols and a function of transferring vibration to the aerosol-generating material to generate aerosols, without using a separate transfer portion (e.g., the transfer portion 240).
- the aerosols generated by the vibrator 250 may be discharged to the outside of the cartridge 220 through an airflow path 223 to be supplied to the user.
- the airflow path 223 may be positioned inside the cartridge 220 and may be connected to the vibrator 250 and the outlet 224e of the mouthpiece 224. Accordingly, the aerosols generated by the vibrator 250 may flow along the airflow path 223 and may be discharged to the outside of the cartridge 220 or the aerosol generating device 200 through the outlet 224e. The user may receive the aerosols as the user brings their mouth into contact with the mouthpiece 224 and inhales the aerosols discharged from the outlet 224e.
- the airflow path 223 may include at least one inlet through which air outside the cartridge 220 is introduced into the cartridge 220.
- the inlet may be disposed in at least a portion of the housing 222 of the cartridge 220.
- the inlet may be disposed on a coupling surface (e.g., a bottom surface) of the cartridge 220 where the cartridge 220 and the body 210 are coupled.
- the airflow path 223 may be connected from the inlet to a space where an aerosol is generated by the vibrator 250 and may be connected from the space to the outlet 224e.
- the air introduced through the inlet may be transferred to the vibrator 250, and the transferred air may move to the outlet 224e together with the aerosol generated by the vibrator 250, thereby circulating the air inside the cartridge 220.
- At least a portion of the airflow path 223 may be arranged such that an outer circumferential surface is surrounded by the storage portion 230 in the housing 222. In another example embodiment, at least a portion of the airflow path 223 may be arranged between an inner wall of the housing 222 and an outer wall of the storage portion 230.
- An arrangement structure of the airflow path 223 is not limited to the foregoing examples, and the airflow path 223 may be arranged in various structures to circulate the airflow between the inlet, the vibrator 250, and the outlet 224e.
- the body 210 may include the drive circuit 212, the controller 214, and the battery 216 therein, and one end portion of the body 210 may be connected to one end portion of the cartridge 220.
- the body 210 may be coupled to the bottom surface or the coupling surface of the cartridge 220.
- the drive circuit 212 may supply power to the vibrator 250.
- a magnitude of the power supplied to the vibrator 250 may be determined by the controller 214.
- a vibration frequency of the vibrator 250 or the like may be controlled by the magnitude of the power.
- the drive circuit 212 may be provided in the form of a class-E power amplifier circuit, a half-bridge circuit, or a full-bridge circuit, but examples of which are not limited thereto.
- the controller 214 may control an overall operation of the aerosol generating device 200. For example, the controller 214 may control an amount of aerosol generated by the vibrator 250 by controlling the power supplied from the battery 216 to the vibrator 250. For example, the controller 214 may control the power supplied to the vibrator 250 such that the vibrator 250 may vibrate at a predetermined frequency.
- the controller 214 may be implemented as an array of a plurality of logic gates or as a combination of a general-purpose microprocessor and a memory storing therein a program executable by the microprocessor. In addition, it is to be understood by one of ordinary skill in the art to which the present disclosure pertains that the controller 214 may be implemented in other types of hardware.
- the controller 214 may analyze a sensing result obtained by at least one sensor included in the aerosol generating device 200 and control subsequent processes to be performed thereafter. For example, the controller 214 may control the power to be supplied to the vibrator 250 to start or end an operation of the vibrator 250 based on the sensing result obtained by the at least one sensor. In addition, the controller 214 may control an amount of power to be supplied to the vibrator 250 and a time for which the power is to be supplied thereto, such that the vibrator 250 may generate an appropriate amount of aerosol based on the sensing result obtained by the at least one sensor.
- the battery 216 may supply power to be used to operate the aerosol generating device 200. For example, when the body 210 is electrically coupled to the cartridge 220, the battery 216 may supply power to the vibrator 250.
- the battery 216 may supply power required for operations of other hardware components (e.g., a sensor, a user interface, a memory, and the controller 214) included in the aerosol generating device 200.
- the battery 216 may be a rechargeable battery or a disposable battery.
- the battery 216 may include, for example, a nickel-based battery (e.g., a nickel-metal hydride battery or a nickel-cadmium battery) or a lithium-based battery (e.g., a lithium-cobalt battery, a lithium-phosphate battery, a lithium-titanate battery, a lithium-ion battery, or a lithium-polymer battery).
- a nickel-based battery e.g., a nickel-metal hydride battery or a nickel-cadmium battery
- a lithium-based battery e.g., a lithium-cobalt battery, a lithium-phosphate battery, a lithium-titanate battery, a lithium-ion battery, or a lithium-polymer battery.
- a cross-sectional shape viewed in a direction transverse to a longitudinal direction of the cartridge 220 and/or the body 210 of the aerosol generating device 200 may be circular, elliptical, square, rectangular, or various polygonal shapes.
- the cross-sectional shape of the cartridge 220 and/or the body 210 is not limited to the foregoing example shapes or is not necessarily a shape that linearly extends when the aerosol generating device 200 extends in the longitudinal direction.
- the cross-sectional shape of the aerosol generating device 200 may extend long to be curved in a streamlined shape or bent in a particular area at a preset angle, thereby allowing the user to hold it easier by hand, and the cross-sectional shape of the aerosol generating device 200 may change along the longitudinal direction.
- FIG. 3 is a perspective view of an aerosol generating device with a cartridge and a body separated from each other according to an example embodiment
- FIG. 4 is a perspective view of an aerosol generating device with a cartridge and a body coupled to each other according to an example embodiment.
- an aerosol generating device 300 shown in FIGS. 3 and 4 may be a modified example of the aerosol generating device 200 shown in FIG. 2 (or the aerosol generating device 100 of FIG. 1), and a cartridge 220-1 and a body 210-1 shown in FIGS. 3 and 4 may be modified examples of the cartridge 220 and the body 210 shown in FIG. 2, respectively, and the repeated description thereof will therefore be omitted here.
- the cartridge 220-1 may be detachably coupled to the body 210-1.
- the cartridge 220-1 may be coupled to the body 210-1.
- the cartridge 220-1 may include a mouthpiece 10m that may move between an open position and a closed position.
- the mouthpiece 10m may be opened and closed by rotating between the open position and the closed position.
- a body portion 10b of the cartridge 220-1 may be coupled to the mouthpiece 10m through a rotation shaft.
- the mouthpiece 10m may be positioned at the open position.
- Such an open state of the mouthpiece 10m may refer to a state in which the mouthpiece 10m is stretched in a longitudinal direction (i.e., z-axis direction) of the cartridge 220-1 to easily contact the mouth of a user.
- the longitudinal direction may refer to a direction in which the cartridge 220-1 extends the longest among several directions.
- the mouthpiece 10m may be positioned at the closed position.
- Such a closed state of the mouthpiece 10m may refer to a state in which the mouthpiece 10m is folded in a direction transverse to the longitudinal direction of the cartridge 220-1 such that the mouthpiece 10m is received in the body 210-1 of the aerosol generating device 300.
- the cartridge 220-1 may include the body portion 10b including various components required to generate an aerosol and discharge the generated aerosol.
- the body portion 10b may include at least a portion of a storage portion, a vibrator, and an airflow path.
- the body 210-1 may include a coupling portion 20a to which the cartridge 220-1 is able to be coupled.
- the body 210-1 may include an accommodation groove 20a-1 in which at least a portion of the cartridge 220-1 may be accommodated or received.
- the body portion 10b of the cartridge 220-1 may be inserted into the accommodation groove 20a-1.
- the body portion 10b of the cartridge 220-1 may be provided in the shape of a substantially rectangular prism, and corners of the rectangular prism may be chamfered or rounded.
- the shape of the body portion 10b of the cartridge 220-1 is not limited to the foregoing example but may be a cylinder or a polygonal prism.
- the cartridge 220-1 and the body 210-1 may be coupled by at least one of a snap-fit method, a screw coupling method, a magnetic coupling method, or an interference fit method.
- the cartridge 220-1 may include a first magnetic body and the body 210-1 may include a second magnetic body such that the cartridge 220-1 and the body 210-1 may be coupled by a magnetic force.
- the intensity of the first magnetic body and the second magnetic body may be designed in consideration of the easiness of attaching and detaching the cartridge 220-1 and the body 210-1 and/or the operational stability of the aerosol generating device 300.
- the body 210-1 may include a button 20b.
- the button 20b may be disposed on one surface of the body 210-1.
- the button 20b may be disposed on one surface of the body 210-1 corresponding to one end 20c-1 of a cover 20c.
- the user may control an operation of the aerosol generating device 300.
- the body 210-1 may further include an accommodation portion 20s capable of accommodating or receiving therein the mouthpiece 10m of the cartridge 220-1 when the mouthpiece 10m moves to the closed position.
- the accommodation portion 20s may be disposed on one surface of the body 210-1 and may have the shape or size corresponding to that of the mouthpiece 10m.
- the mouthpiece 10m when moved to the closed position, the mouthpiece 10m may minimize a portion of the aerosol generating device 300 protruding outside, i.e., a portion protruding outside from an outer surface of the body 210-1, at the closed position, thereby improving portability.
- the body 210-1 may further include the cover 20c coupled to a portion of the body 210-1.
- the cover 20c may be coupled to at least one surface of the body 210-1.
- the cover 20c may be coupled to one side of the body 210-1 where the coupling portion 20a is positioned.
- the cover 20c may be coupled to one side of the body 210-1 where the accommodation portion 20s is positioned.
- the cover 20c may include an opening 20c-o.
- the cover 20c may include the opening 20c-o of a size corresponding to that of the mouthpiece 10m.
- the opening 20c-o may have a predetermined length and width.
- the width of the opening 20c-o may be smaller than or equal to that of a body of the cartridge 220-1 and may be larger than or equal to that of the mouthpiece 10m.
- the length of the opening 20c-o may be longer than or equal to that of the mouthpiece 10m.
- the cover 20c may extend from one end 20c-1 to another end 20c-2 to be disposed on a seating portion 20c' of the body 210-1.
- the seating portion 20c' may have the size and shape corresponding to those of the cover 20c.
- the seating portion 20c' may be a portion that extends in both directions from an inlet side of the coupling portion 20a and the accommodation potion 20s and is recessed by a predetermined depth such that the cover 20c is able to be coupled thereto.
- the cover 20c may be coupled to the body 210-1 after the cartridge 220-1 is coupled to the body 210-1.
- the cover 20c may be coupled to one side of the body 210-1 by at least one of a snap-fit method, an interference fit method, or a magnetic coupling method, but examples of a coupling method are not limited thereto.
- the cover 20c includes the opening 20c-o through which the mouthpiece 10m may pass, and it is thus possible to protect the cartridge 220-1 without interfering with the opening and closing motion of the mouthpiece 10m while the cartridge 220-1 is coupled to the body 210-1 and maintain the coupling of the cartridge 220-1 and the body 210-1.
- FIG. 4 shows the aerosol generating device 300 in which both the cartridge 220-1 and the cover 20c are both coupled to the body 210-1 and the mouthpiece 10m is positioned at the closed position.
- the body 210-1 includes the accommodation portion 20s having the size and shape corresponding to those of the mouthpiece 10m and the seating portion 20c' having the size and shape corresponding to those of the cover 20c
- the cover 20c includes the opening 20c-o having the size and shape corresponding to those of the mouthpiece 10m, and thus the aerosol generating device 300 may look solid and aesthetic.
- the cover 20c may be first separated from the body 210-1 and then the cartridge 220-1 may be separated from the body 210-1. On the other hand, the cover 20c may be installed after the body 210-1 and the cartridge 220-1 are coupled.
- FIG. 5a illustrates a drive circuit according to an example embodiment.
- a vibrator C 510 (e.g., the atomizer 150 of FIG. 1 or the vibrator 250 of FIG. 2) may be included in a cartridge 500-1 (e.g., the cartridge 220 of FIG. 2).
- the vibrator 510 may be electrically connected to a first electrical contact point 511 and a second electrical contact point 513 of a drive circuit 500 (e.g., the drive circuit 138 of FIG. 1 or the drive circuit 212 of FIG. 2).
- the controller 214 may recognize the coupling of the vibrator 510 and supply power to the drive circuit 500.
- the drive circuit 500 may be connected to a first end of the vibrator 510 through the first electrical contact point 511 and a second end of the vibrator 510 through the second electrical contact point 513.
- the cartridge 500-1 may include the vibrator C 510 and a diode D 512.
- the cartridge 500-1 may be electrically connected to the drive circuit 500.
- the cartridge 500-1 is illustrated as including the vibrator C 510 and the diode D 512 according to an example embodiment, the diode D 512 may not be included in the cartridge 500-1 but be included in the drive circuit 500.
- the drive circuit 500 may include a switch SW 514, a first power source 516, and a second power source 517. It is assumed that the drive circuit 500 is coupled to the cartridge 500-1.
- a drain terminal of the switch 514 may be connected to the first electrical contact point 511 and a source terminal thereof may be connected to the ground.
- the switch 514 may be a field-effect transistor (FET)-based switch.
- the first power source 516 may provide a voltage to a gate terminal of the switch 514
- the second power source 517 may provide a voltage to the drain terminal of the switch 514.
- the first power source 516 may provide an AC voltage to the gate terminal of the switch 514.
- a peak value of the AC voltage may be less than or equal to 4 volts (V) but is not limited thereto.
- the second power source 517 may provide a DC voltage to the drain terminal of the switch 514 and the first end (e.g., the first electrical contact point 511) of the vibrator 510.
- the DC voltage may be less than or equal to 15V (e.g., 10V) but is not limited thereto.
- both ends of the diode D 512 may be connected to the first electrical contact point 511 and the second electrical contact point 513, respectively, such that the diode D512 is connected to the vibrator 510 in parallel.
- the drive circuit 500 may further include an inductor 515, and a first resistor 518.
- the inductor 515 may be connected between the first electrical contact point 511 and the second power source 517.
- the inductor 515 may obtain a high voltage through a boost converter method and apply it to the vibrator 510.
- the first resistor 518 may be connected between the gate terminal of the switch 514 and the ground.
- the diode D 512 may include at least one Zener diode.
- the Zener diode may protect an integrated circuit (IC) by using a characteristic that the voltage is constant even when the current changes.
- the drive circuit 500 may use the diode D 512 to limit a level of voltage to be applied to the vibrator 510 to a certain level (e.g., approximately 20V) or less.
- an aerosol generating device using an ultrasonic vibrator may generate aerosols by vibrating the vibrator included in a cartridge at a high frequency.
- a high voltage e.g., 100V
- the switch 514 e.g., a FET
- the vibrator 510 or the switch 514 may be damaged under various error conditions.
- the drive circuit 500 may include the diode D 512 that limits the level of voltage to a certain level (hereinafter, referred to as a breakdown voltage) which is connected in parallel with the vibrator 510 to prevent damage to elements in the drive circuit 500 during an operation of the aerosol generating device 200.
- a breakdown voltage a certain level
- the diode D 512 may include a plurality of Zener diodes connected in parallel or in series.
- the diode D 512 may connect the plurality of Zener diodes in parallel or in series to adjust the breakdown voltage to a desired level.
- FIGS. 5b and 5c illustrate a voltage applied to a vibrator through a drive circuit according to an example embodiment
- FIG. 5b is a graph showing a voltage applied to the vibrator 510 in the absence of the diode 512 from the cartridge 500-1 of FIG. 5a. It is verified that, when a voltage is applied to the vibrator 510 through the drive circuit 500, the voltage rises to approximately 28V without limiting a voltage level.
- FIG. 5c is a graph showing a voltage applied to the vibrator 510 with the diode 512 of the cartridge 500-1 operating. It is verified that, when a voltage level is limited to 20V by the diode 512, a voltage applied to the vibrator 510 is maintained at approximately 20V or less.
- FIG. 6 illustrates a full-bridge mode drive circuit according to an example embodiment.
- a detachable part e.g., a cartridge
- another detachable part i.e., a body
- a drive circuit 600 may include, for supplying power to a vibrator 610 (e.g., the ultrasonic vibrator 222 of FIG. 2), a first electrical contact point 611 connectable to a first end of the vibrator 610, a second electrical contact point 613 connectable to a second end of the vibrator 610, an inductor 620 (e.g., a coil) connected to the first electrical contact point 611 (wherein a first end of the inductor 620 is connected to the first electrical contact point 611), a first switch SW1 631 having a source terminal connected to a second end of the inductor 620, a second switch SW2 633 having a drain terminal connected to the second end of the inductor 620 (wherein a source terminal of the second switch 633 is connected to the ground), a third switch SW3 635 having a source terminal connected to the second electrical contact point 613, a fourth switch SW4 637 having a drain terminal connected to the second electrical contact point 613 (
- the vibrator 610 may be included in a cartridge.
- the vibrator 610 may be electrically connected to the first electrical contact point 611 and the second electrical contact point 613 of the drive circuit 600.
- the controller 214 may recognize the coupling of the vibrator 610 and supply power to the vibrator 610 through the drive circuit 600.
- the first power source 601 may provide a DC voltage to the drain terminal of the first switch 631 and the drain terminal of the third switch 635.
- the DC voltage may be less than or equal to 15V (e.g., 10V) but is not limited thereto.
- the second power source 603 may provide a first AC voltage to the gate terminal of the first switch 631 and the gate terminal of the fourth switch 637
- the third power source 605 may provide a second AC voltage to the gate terminal of the second switch 633 and the gate terminal of the third switch 635.
- a peak value of the first AC voltage and a peak value of the second AC voltage may each be less than or equal to 4V, but are not limited thereto.
- the second power source 603 and the third power source 605 may operate alternately. That is, the second power source 603 and the third power source 605 may not operate simultaneously.
- a voltage between the first end and the second end of the vibrator 610 provided by the drive circuit 600 may be greater than or equal to 100V, but is not limited thereto.
- the drive circuit 600 When the drive circuit 600 is used, it is possible to apply a high voltage to generate a vibration of the vibrator 610 based on a lower switch input voltage (e.g., 10 V) than a boost converter-type drive circuit where a higher voltage (e.g., 17V) is applied to a switch.
- a lower switch input voltage e.g. 10 V
- a boost converter-type drive circuit where a higher voltage (e.g., 17V) is applied to a switch.
- a voltage applied to a switch of the drive circuit 600 is a voltage (e.g., 10V) directly applied to a drain of the switch, and thus there is no need to apply a switch that withstands a high voltage. Accordingly, a switch with a low Rds(on) resistance may be applied to the drive circuit 600, and thus issues such as overheating may be resolved.
- the drive circuit 600 may further include a diode D 612 connected to the first electrical contact point 611 and the second electrical contact point 613, thereby being connected in parallel with the vibrator 610.
- the diode D 612 may perform the same operations as the diode D 512 in the aerosol generating device described above with reference to FIGS. 5a to 5c.
- FIG. 7 illustrates a drive circuit for switching between a full-bridge mode and a half-bridge mode according to an example embodiment.
- a drive circuit 700 may further include a fifth switch 738 connected to a second electrical contact point 713, a sixth switch 739 disposed between a drain terminal of a third switch 735 and a first power source 701 (wherein a source terminal of the sixth switch 739 is connected to the drain terminal of the third switch 735, and a drain terminal of the sixth switch 739 is connected to the first power source 701).
- a first control signal provided to a gate terminal of the fifth switch 738 and a second control signal provided to a gate terminal of the sixth switch 739 may be different from each other, and the first control signal and the second control signal may be provided by the controller 214.
- FIG. 8 shows an equivalent circuit 800 of the drive circuit 700 that operates in the half-bridge mode.
- the drive circuit 700 may further include a diode D 712 connected to a first electrical contact point 711 and the second electrical contact point 713, thereby being connected in parallel with a vibrator 710.
- the diode D 712 may perform the same operations as the diode D 512 in the aerosol generating device described above with reference to FIGS. 5a to 5c.
- FIG. 8 illustrates an equivalent circuit of a drive circuit operating in a half-bridge mode according to an example embodiment.
- a direction of a current flowing through the vibrator 710 may change accordingly.
- the half-bridge mode when compared to the full-bridge mode, a maximum voltage applied to the vibrator 710 may be reduced, and total power consumed by the drive circuit 700 may also be reduced. Accordingly, when the aerosol generating device 200 needs to generate a relatively smaller amount of aerosol, the half-bridge mode may be used.
- the drive circuit 800 may further include a diode D 712 connected to the first electrical contact point 711 and the second electrical contact point 713 to be connected in parallel with the vibrator 710.
- the diode D 712 may perform the same operations as the diode D 512 in the aerosol generating device described above with reference to FIGS. 5a to 5c.
- a processing device may be implemented using one or more general-purpose or special-purpose computers, such as, for example, a processor, a controller, and an arithmetic logic unit (ALU), a DSP, a microcomputer, a field-programmable gate array (FPGA), a programmable logic unit (PLU), a microprocessor, or any other device capable of responding to and executing instructions in a defined manner.
- the processing device may run an operating system (OS) and one or more software applications that run on the OS.
- the processing device may also access, store, manipulate, process, and create data in response to execution of the software.
- OS operating system
- the processing device may also access, store, manipulate, process, and create data in response to execution of the software.
- a processing device may include multiple processing elements and multiple types of processing elements.
- the processing device may include a plurality of processors, or a single processor and a single controller.
- different processing configurations are possible, such as, parallel processors.
- the software may include a computer program, a piece of code, an instruction, or one or more combinations thereof, to independently or collectively instruct or configure the processing device to operate as desired.
- the software and/or data may be embodied permanently or temporarily in any type of machine, component, physical or virtual equipment, computer storage medium or device, or in a propagated signal wave capable of providing instructions or data to or being interpreted by the processing device.
- the software also may be distributed over network-coupled computer systems so that the software is stored and executed in a distributed fashion.
- the software and data may be stored by one or more non-transitory computer-readable recording mediums.
- the methods according to the above-described example embodiments may be recorded in non-transitory computer-readable media including program instructions to implement various operations of the above-described example embodiments.
- the media may also include, alone or in combination with the program instructions, data files, data structures, and the like.
- the program instructions recorded on the media may be those specially designed and constructed for the purposes of example embodiments, or they may be of the kind well-known and available to those having skill in the computer software arts.
- non-transitory computer-readable media examples include magnetic media such as hard disks, floppy disks, and magnetic tape; optical media such as CD-ROM discs and/or DVDs; magneto-optical media such as optical discs; and hardware devices that are specially configured to store and perform program instructions, such as read-only memory (ROM), random access memory (RAM), flash memory, and the like.
- program instructions include both machine code, such as produced by a compiler, and files containing higher-level code that may be executed by the computer using an interpreter.
- the above-described hardware devices may be configured to act as one or more software modules in order to perform the operations of the above-described examples, or vice versa.
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Abstract
Selon un mode de réalisation donné à titre d'exemple, un circuit d'attaque d'un dispositif électronique pour fournir de l'énergie à un vibreur connecté au dispositif électronique comprend une première source d'énergie qui fournit une tension à une borne de gâchette d'un commutateur, une seconde source d'énergie qui fournit une tension à une borne de drain du commutateur, et une diode connectée à un premier point de contact électrique et à un second point de contact électrique à connecter en parallèle avec le vibreur.
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| KR10-2022-0087476 | 2022-07-15 | ||
| KR20220087476 | 2022-07-15 | ||
| KR1020220141490A KR20240010377A (ko) | 2022-07-15 | 2022-10-28 | 초음파 진동자 및 fet 보호 회로 |
| KR10-2022-0141490 | 2022-10-28 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| WO2024014945A1 true WO2024014945A1 (fr) | 2024-01-18 |
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ID=89537138
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| PCT/KR2023/095032 WO2024014945A1 (fr) | 2022-07-15 | 2023-07-13 | Vibreur à ultrasons et circuit de protection de transistor à effet de champ |
Country Status (1)
| Country | Link |
|---|---|
| WO (1) | WO2024014945A1 (fr) |
Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2019150546A1 (fr) * | 2018-02-02 | 2019-08-08 | 日本たばこ産業株式会社 | Unité de source d'alimentation d'un dispositif de génération d'élément d'inhalation, et procédé de sélection d'une résistance électrique d'une batterie de résistances connue dans une unité de source d'alimentation d'un dispositif de génération d'élément d'inhalation |
| WO2020005956A1 (fr) * | 2018-06-25 | 2020-01-02 | Juul Labs, Inc. | Commande de dispositif de chauffage de dispositif vaporisateur |
| WO2020047417A1 (fr) * | 2018-08-31 | 2020-03-05 | Nicoventures Trading Limited | Circuit résonnant pour un système de génération d'aérosol |
| US20220007726A1 (en) * | 2020-07-09 | 2022-01-13 | Japan Tobacco Inc. | Power supply unit for aerosol generation device |
| US20220015448A1 (en) * | 2020-07-15 | 2022-01-20 | Altria Client Services Llc | Heating engine control circuits and nicotine electronic vaping devices including the same |
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2023
- 2023-07-13 WO PCT/KR2023/095032 patent/WO2024014945A1/fr active Application Filing
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2019150546A1 (fr) * | 2018-02-02 | 2019-08-08 | 日本たばこ産業株式会社 | Unité de source d'alimentation d'un dispositif de génération d'élément d'inhalation, et procédé de sélection d'une résistance électrique d'une batterie de résistances connue dans une unité de source d'alimentation d'un dispositif de génération d'élément d'inhalation |
| WO2020005956A1 (fr) * | 2018-06-25 | 2020-01-02 | Juul Labs, Inc. | Commande de dispositif de chauffage de dispositif vaporisateur |
| WO2020047417A1 (fr) * | 2018-08-31 | 2020-03-05 | Nicoventures Trading Limited | Circuit résonnant pour un système de génération d'aérosol |
| US20220007726A1 (en) * | 2020-07-09 | 2022-01-13 | Japan Tobacco Inc. | Power supply unit for aerosol generation device |
| US20220015448A1 (en) * | 2020-07-15 | 2022-01-20 | Altria Client Services Llc | Heating engine control circuits and nicotine electronic vaping devices including the same |
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