WO2014134813A1 - 一种电子烟的加热控制方法及装置 - Google Patents
一种电子烟的加热控制方法及装置 Download PDFInfo
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- WO2014134813A1 WO2014134813A1 PCT/CN2013/072309 CN2013072309W WO2014134813A1 WO 2014134813 A1 WO2014134813 A1 WO 2014134813A1 CN 2013072309 W CN2013072309 W CN 2013072309W WO 2014134813 A1 WO2014134813 A1 WO 2014134813A1
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- heating
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- heating element
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- 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
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- 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
Definitions
- the present invention relates to the field of electric heating products, and more particularly to a heating control method and apparatus for an electronic cigarette.
- E-cigarette is a kind of substitute that uses atomized heating to generate atomization and provides a cigarette to smokers. It has become more and more popular among smoking consumers.
- the electronic cigarette includes batteries, control circuits and heating elements. .
- the existing electronic cigarettes there are two heating methods, one is full voltage output heating, and the other is constant voltage output heating.
- the two methods have the following defects: the former heating effect is affected by voltage, and the latter is heated.
- the taste of the atomized smoke is relatively fixed, and it is impossible to achieve the smoking taste and effect of simulating real smoke.
- the technical problem to be solved by the present invention is that the prior art electronic cigarette is fixed in a fixed manner, and the atomized smoke has a relatively fixed mouthfeel.
- a heating control method and apparatus for electronic cigarettes capable of diversifying control of heating by a microcontroller are provided.
- the technical solution adopted by the present invention to solve the technical problem thereof is to construct a heating control method for an electronic cigarette, comprising the following steps:
- step S1 sensing whether there is a smoking signal through a sensor or a switch, and if yes, performing step S2;
- the heating element is heated by a constant power method.
- the step S3 includes:
- the step S1 includes the following steps:
- the semiconductor switch is a triode, a field effect transistor or a thyristor IGBT.
- the invention also constructs a heating control device for an electronic cigarette, comprising: a heating element; a power supply battery for supplying the electronic cigarette, a semiconductor switch for controlling whether the power supply battery heats the heating element, and a smoking signal detection for detecting whether there is a smoking signal; a module, and a microcontroller respectively connected to the heating element, the smoking signal detecting module and the semiconductor switch control end; the microcontroller further comprising a timer, when the smoking signal detecting module detects the smoking signal, controlling The semiconductor switch is turned on and starts to start timing, and the heating element is heated by a full output power; when the timer count reaches a first preset time At T0, the heating element is heated in a constant power mode.
- the microcontroller further includes:
- a calculating unit configured to be connected to the collecting module, configured to calculate a duty ratio of the pulse width modulation signal according to the voltage of the power supply battery and the preset constant power;
- the control unit is connected to the calculation unit for controlling conduction of the semiconductor switch according to the calculated pulse width modulation signal, and further heating control of the heating element.
- the microcontroller further includes:
- a clearing unit connected to the timer, is used to clear the count value of the timer.
- the heating control device for an electronic cigarette according to the present invention, further includes:
- a setting module is connected to the microcontroller for setting a first preset time T0 and a preset constant power.
- the semiconductor switch is a triode, a field effect transistor or a thyristor IGBT.
- the heating control method and device for implementing the electronic cigarette of the present invention have the following beneficial effects: when a smoking signal is detected, the microcontroller first passes The full output power mode heats the heating element and then at the first preset time T0 After that, the microcontroller uses constant power to heat the heating element; so that the electronic cigarette quickly reaches a temperature, rapidly atomizes the oil on the heating element, and heats it in a constant power mode in the subsequent heating process. Therefore, the electronic cigarette does not cause the heating effect of the heating element to be bad due to the voltage change of the power supply battery, affecting the atomization effect, thereby affecting the user's smoking taste.
- FIG. 1 is a flow chart showing an embodiment of a heating control method for an electronic cigarette according to the present invention
- FIG. 2 is a specific flow chart of step S3 in Figure 1;
- Fig. 3 is a block diagram showing the structure of an embodiment of a heating control device for an electronic cigarette according to the present invention.
- FIG. 1 A flow chart showing a method of controlling heating of an electronic cigarette of the present invention, wherein the electronic cigarette includes a battery that supplies an electronic cigarette power source, a sensor or button that provides a smoking signal, a heating element, a semiconductor switch for controlling power supply to the heating element, and Microcontroller, as shown As shown in Figure 1, in an embodiment of the method of the present invention, the following steps are included:
- step S1 Detecting whether there is a smoking signal through the sensor or the button switch. If the sensor detects or the button switch is triggered, it indicates that a smoking signal occurs, and step S2 is performed; in step S1
- the smoking signal may be generated by a sensor or by a manual control button; if manually generated: by setting a button on the surface of the electronic cigarette, when the button is pressed, it is equivalent to issuing a start to smoke.
- the signal is automatically generated: the user sucks the nozzle on the electronic cigarette, thereby causing the air pressure in the electronic cigarette to change, thereby generating a smoking signal;
- S2 Start the timer and control the conduction of the semiconductor switch, and use the full output power to heat the heating element.
- the full output power mode is used, and the voltage pair of the power supply battery can be used as much as possible. Heating the heating element, so that the heating element atomizes the smoke oil as soon as possible, reducing the waiting time of the user;
- the heating element is heated in a constant power manner.
- the heating element is heated by constant power, so that the heating element can stably atomize the smoke oil, and the heating effect of the heating element is not good due to the voltage change of the power supply battery, which affects the atomization effect. In turn, affecting the taste of the user.
- step S3 specifically includes the following content (as shown in FIG. 2):
- step S3 the following steps are further included:
- step S1 includes the following steps before:
- the first preset time T0 can be set to 1 Second, in the specific implementation, the first preset time T0 can be set according to user requirements or different smoke oil categories. So that the heating element can heat the smoke oil as soon as possible and atomize.
- the preset constant power can also be set according to the user's needs or different types of smoke oil, so that the atomization effect of the heating element on the smoke oil is more humanized and the user experience is improved. Different e-cigarettes can be set to different constant powers to achieve different smoke effects.
- the first preset time T0 can be fixed or adjusted according to the voltage value of the current power supply battery.
- the semiconductor switch is a triode, a field effect transistor or a thyristor IGBT.
- FIG. 3 it is a structural block diagram of a heating control device for an electronic cigarette according to the present invention, comprising a heating element 10; a power supply battery for supplying power to the electronic cigarette. 20, a semiconductor switch 30 for controlling whether the power supply battery heats the heating element, a smoking signal detecting module 40 for detecting whether there is a smoking signal, and a power supply battery 20 and a smoking signal detecting module respectively 40 and a semiconductor switch 30 connected to the control terminal of the semiconductor switch 50; the microcontroller 50 further includes a timer 51 when the smoking signal detecting module 40 When the smoking signal is detected, the semiconductor switch 30 is controlled to be turned on and the timer 51 is started to start timing, and the heating element 10 is heated by full output power; when the timer 51 When the count value reaches the first preset time T0, the heating element 10 Heating in a constant power mode.
- the smoking signal may be automatically generated or manually generated; for example, manually: by setting a button on the surface of the electronic cigarette, when the button is pressed, a Smoking signal; if it is automatically generated: the user sucks the nozzle on the electronic cigarette, which in turn causes the air pressure in the electronic cigarette to change, thereby generating a smoking signal.
- the microcontroller is in the initial heating phase (first preset time) T0) adopts full full output power mode, which can use the voltage of the power supply battery to heat the heating element as much as possible, so that the heating element atomizes the smoke oil as soon as possible, reducing the waiting time of the user; T0 After that, the heating is controlled by constant power control of the heating element, so that the heating element can stably atomize the smoke oil, and the heating effect of the heating element is not good due to the voltage change of the power supply battery, thereby affecting the atomization effect, and further Affect the taste of the user.
- microcontroller 50 includes:
- the power supply battery For collecting the voltage of the power supply battery; the power supply battery is affected by the use time and the use environment, and the voltage that can be supplied changes;
- the duty cycle D of the signal that is, the value of the duty ratio D is adjusted to k. In actual use, the k can be 60%.
- the frequency of the pulse width modulated signal is also adjustable, such as the frequency can be adjusted to 100 Hz.
- Control unit 54 is coupled to the computing unit 53 for controlling the semiconductor switch 30 based on the calculated pulse width modulation signal The conduction is further controlled by heating the heating element.
- the microcontroller 50 further includes: a clearing unit 55, and the 51 Timer connection for clearing the count value of the timer.
- the microcontroller 50 clears the count value of the timer through the clearing unit.
- the heating control device further includes: a setting module 60, and the microcontroller 50 Connection for setting the first preset time T0 and the preset constant power.
- the first preset time T0 can be set to 1 second or 3 seconds or 1-5 Second, in the specific implementation, the first preset time T0 can be set according to user requirements or different smoke oil categories. So that the heating element can heat the smoke oil as soon as possible and atomize.
- the setting module can also preset a constant power in the microcontroller according to user requirements or different types of smoke oil. The constant power is precisely controlled by pulse width modulation, so that the atomization effect of the heating element on the smoke oil is more humanized. Improve user experience, smoking taste is not affected by battery voltage.
- the first preset time T0 can be fixed or adjusted according to the voltage value of the current power supply battery.
- the setup module 60 can be integrated into the microcontroller 50 during implementation.
- the semiconductor switch 30 for controlling the supply of the heating element is a triode, a field effect transistor or a thyristor IGBT. .
Abstract
一种电子烟的加热控制方法及装置,其中,该方法包括以下步骤:S1、通过传感器或开关感测是否有抽烟信号,如果是,则执行步骤S2;S2、启动定时器计时,并控制半导体开关导通对加热元件采用全输出功率方式加热;S3、当定时器的计数值到达第一预设时间T0时,对加热元件采用恒定功率方式加热。采用本发明电子烟的加热控制方法和装置,采用两种加热方式对加热元件进行加热,优化雾化效果,使吸烟口感更好且不受电池电压影响。
Description
本发明涉及 电加热产品领域 ,更具体地说,涉及一种电子烟的加热控制方法及装置。
电子烟是一种利用对烟液进行加热产生雾化,给吸烟者提供一种香烟的替代品,已经越来越受到吸烟消费者的欢迎,电子烟包括电池、控制电路以及加热元件等单元组成。在现有的电子烟中,加热方式有两种,一种是全电压输出加热,一种是恒定电压输出加热,采用这两种方式具有以下缺陷:前者加热效果受电压影响,后者因加热方式固定,则雾化出的烟雾的口感也是相对固定,无法达到模拟真烟的抽烟口感和效果。
本发明要解决的技术问题在于,针对现有技术的电子烟的加热方式固定、雾化的烟雾的口感也相对固定的缺陷,
提供一种可通过微控制器多样化控制加热方式的电子烟的加热控制方法及装置。
本发明解决其技术问题所采用的技术方案是:构造一种电子烟的加热控制方法,包括以下步骤:
S1 、通过传感器或开关感测是否有抽烟信号,如果是,则执行步骤 S2 ;
S2 、启动定时器计时,并控制半导体开关导通对加热元件采用全输出功率方式加热;
S3 、当定时器的计数值到达第一预设时间 T0 时,对加热元件采用恒定功率方式加热。
在本发明所述的电子烟的加热控制方法中,所述步骤 S3 包括:
S31 、采集供电电池的电压;
S32 、根据该供电电池的电压和预设恒定功率,计算出脉冲宽度调制信号的占空比;
S33 、根据计算出的脉冲宽度调制信号控制半导体开关的导通,进而对加热元件进行恒定功率加热控制。
在本发明所述的电子烟的加热控制方法中,在所述步骤 S3 之后,还包括以下步骤:
S4 、将定时器计数值清零。
在本发明所述的电子烟的加热控制方法中,所述步骤 S1 之前包括以下步骤:
S0 、设置第一预设时间 T0 和预设恒定功率。
在本发明所述的电子烟的加热控制方法中,所述半导体开关是三极管、场效应管或晶闸管 IGBT 。
本发明还构造一种电子烟的加热控制装置中,包括:加热元件;给电子烟供电的供电电池、控制供电电池是否给加热元件加热的半导体开关、用于检测是否有抽烟信号的吸烟信号检测模块,以及分别与所述加热元件、吸烟信号检测模块及半导体开关控制端连接的微控制器;所述微控制器还包括一个定时器,当所述吸烟信号检测模块检测到吸烟信号时,控制所述半导体开关导通并启动所述定时器开始计时,对所述加热元件采用全输出功率方式加热;当所述定时器计数值到达第一预设时间
T0 时,对加热元件采用恒定功率方式加热。
在本发明所述的电子烟的加热控制装置中,所述微控制器还包括:
采集单元,用于采集供电电池的电压;
计算单元,与所述采集模块连接,用于根据该供电电池的电压和预设恒定功率,计算出脉冲宽度调制信号的占空比;
控制单元,与所述计算单元连接,用于根据计算出的脉冲宽度调制信号控制半导体开关的导通,进而对加热元件进行加热控制。
在本发明所述的电子烟的加热控制装置中,所述微控制器还包括:
清零单元,与所述定时器连接,用于将定时器的计数值清零。
在本发明所述的电子烟的加热控制装置中,所述加热控制装置还包括:
设置模块,与所述微控制器连接,用于设置第一预设时间 T0 和预设恒定功率。
在本发明所述的电子烟的加热控制装置中,所述半导体开关是三极管、场效应管或晶闸管 IGBT 。
实施本发明的 电子烟的加热控制方法及装置 ,具有以下有益效果:在检测到有抽烟信号时,该微控制器首先通过
全输出功率方式对加热元件进行加热,然后在第一预设时间 T0
后,该微控制器采用恒定功率对加热元件加热;使得电子烟先迅速的达到一个温度,迅速对在加热元件上的烟油进行雾化,及在后面的加热过程中,采用恒功率方式加热,使得电子烟不会因为供电电池的电压变化而导致加热元件的加热效果不好,影响雾化效果,进而影响用户的吸烟口感。
下面将结合附图及实施例对本发明作进一步说明,附图中:
图 1 是本发明的电子烟的加热控制方法实施例的流程图;
图 2 是图 1 中步骤 S3 的具体流程图;
图 3 是本发明的电子烟的加热控制装置实施例的结构框图 。
为了使本发明的目的更加清楚明白,以下结合附图及实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。
图 1
示出了本发明的电子烟的加热控制方法的流程图,其中,电子烟包含提供电子烟电源的电池、提供吸烟信号的传感器或按钮、加热元件、用于控制给加热元件供电的半导体开关以及微控制器,如图
1 所示,本发明方法的实施例中 , 包括以下步骤:
S1
、通过传感器或按钮开关感测是否有抽烟信号,如果传感器检测到或按钮开关被触发,则说明有吸烟信号发生,执行步骤 S2 ;在步骤 S1
中,该抽烟信号可以是传感器产生的,也可以是手动控制按钮产生的;如手动产生:通过在电子烟的表面设置一个按键,当该按键被按下时,则相当于发出了一个开始抽烟的信号;如自动产生:用户吸电子烟上的吸嘴,进而使得电子烟里的气流气压发生变化,进而产生了吸烟信号;
S2
、启动定时器计时,并控制半导体开关导通,对加热元件采用全输出功率方式加热;在该步骤中,在加热初始阶段,采用全输出功率方式,可尽最大可能的使用供电电池的电压对加热元件进行加热,使得该加热元件尽快对烟油进行雾化,减少用户等待时间;
S3 、当定时器的计数值到达第一预设时间 T0
时,对加热元件采用恒定功率方式加热。在该步骤中,采用恒定功率控制加热元件加热,使得该加热元件可稳定的对烟油进行雾化,不会因为供电电池的电压变化而导致加热元件的加热效果不好,影响雾化效果,进而影响用户口感。
进一步的,该步骤 S3 具体包括以下内容(如图 2 所示):
S31 、采集供电电池的电压;该供电电池受使用时间和使用环境的影响,其可提供的电压会发生变化;
S32
、根据该供电电池的电压和预设恒定功率,计算出脉冲宽度调制信号的占空比;在具体实施中,设置一个恒定功率 P ,该 P=U2/R
,因为电池电压 U 会发生变化,为保证功率 P 恒定,则在公式中增加一个系数 k ,则恒定功率 P' = U2/R*k ,根据该 k
的值调整脉冲宽度调制信号的占空比 D ,也即该将占空比 D 的值调整为 k 。在实际使用中,该 k 可以是 60%
。该脉冲宽度调制信号的频率也是可调的,如可将频率调整为 100Hz 。不同的电子烟可设置不同的恒定功率,达到不一样的烟雾效果。
S33 、根据计算出的脉冲宽度调制信号控制半导体开关的导通,进而对加热元件进行恒定功率加热控制。
进一步的,该步骤 S3 之后,还包括以下步骤:
S4 、将定时器计数值清零。当微控制器采用恒定功率控制加热元件加热时,将定时器的计数值进行清零。
进一步的,该步骤 S1 之前还包括以下步骤:
S0 、设置第一预设时间 T0 和预设恒定功率。该第一预设时间 T0 可设置为 1
秒,在具体实施时,可根据用户需求或不同的烟油类别,设置该第一预设时间 T0
,使得加热元件可尽快对烟油加热,进行雾化。也可根据用户需求或不同的烟油类别设置预设恒定功率,使得加热元件对烟油的雾化效果更加人性化,提高用户体验。不同的电子烟可设置不同的恒定功率,达到不一样的烟雾效果。该第一预设时间
T0 可以是固定设置的,也可以是根据当前供电电池的电压值相应调节。
进一步的,该半导体开关是三极管、场效应管或晶闸管 IGBT 。
如图 3 所示,是本发明的电子烟的加热控制装置的结构框图,包括 加热元件 10 ;给电子烟供电的供电电池
20 、控制供电电池是否给加热元件加热的半导体开关 30 、用于检测是否有抽烟信号的吸烟信号检测模块 40 ,以及分别与该供电电池 20 、吸烟信号检测模块
40 及半导体开关 30 控制端连接的微控制器 50 ;该微控制器50 还包括一个定时器 51 ,当该吸烟信号检测模块 40
检测到吸烟信号时,控制该半导体开关 30 导通并启动该定时器 51 开始计时,对该加热元件 10 采用全输出功率方式加热;当该定时器 51
计数值到达第一预设时间 T0 时,对加热元件 10
采用恒定功率方式加热。在具体实施过程中,吸烟信号该抽烟信号可以是自动产生的,也可以是手动产生的;如手动产生:通过在电子烟的表面设置一个按键,当该按键被按下时,则输入了一个抽烟信号;如自动产生:用户吸电子烟上的吸嘴,进而使得电子烟里的气流气压发生变化,进而产生了吸烟信号。该微控制器在初始加热阶段(第一预设时间
T0 内)采用全全输出功率方式,可尽最大可能的使用供电电池的电压对加热元件进行加热,使得该加热元件尽快对烟油进行雾化,减少用户等待时间;在达到第一预设时间
T0
后,对加热采用恒定功率控制加热元件加热,使得该加热元件可稳定的对烟油进行雾化,不会因为供电电池的电压变化而导致加热元件的加热效果不好,影响雾化效果,进而影响用户口感。
进一步的,该微控制器 50 包括:
采集单元 52
,用于采集供电电池的电压;该供电电池受使用时间和使用环境的影响,其可提供的电压会发生变化;
计算单元 53 ,与该采集模块 52
连接,用于根据该供电电池的电压和预设恒定功率,计算出脉冲宽度调制信号的占空比;在具体实施中,设置一个恒定功率 P ,该 P=U2/R
,因为电池电压 U 会发生变化,为保证功率 P 恒定,则在公式中增加一个系数 k ,则恒定功率 P' = U2/R*k ,根据该 k
的值调整脉冲宽度调制信号的占空比 D ,也即该将占空比 D 的值调整为 k 。在实际使用中,该 k 可以是 60%
。该脉冲宽度调制信号的频率也是可调的,如可将频率调整为 100Hz 。
控制单元 54 ,与该计算单元 53 连接,用于根据计算出的脉冲宽度调制信号控制半导体开关 30
的导通,进而对加热元件进行加热控制。
进一步的,在本发明的另一实施例中,该微控制器 50 还包括:清零单元 55 ,与该 51
定时器连接,用于将定时器的计数值清零。当微控制器采用恒定功率控制加热元件加热时,微控制器 50 通过清零单元对定时器的计数值进行清零。
进一步的,在本发明提供的另一加热控制装置实施例还包括:设置模块 60 ,与该微控制器50
连接,用于设置第一预设时间 T0 和预设恒定功率。该第一预设时间 T0 可设置为 1 秒或 3 秒或 1-5
秒,在具体实施时,可根据用户需求或不同的烟油类别,设置该第一预设时间 T0
,使得加热元件可尽快对烟油加热,进行雾化。设置模块看也可根据用户需求或不同的烟油类别,在微控制器中预设恒定功率,该恒定功率通过脉宽调制进行精确控制,使得加热元件对烟油的雾化效果更加人性化,提高用户体验,吸烟口感不受电池电压的影响。该第一预设时间
T0 可以是固定设置的,也可以是根据当前供电电池的电压值相应调节。在具体实施过程中,可以将设置模块 60 集成在微控制器 50 中。
在上面的各个实施例中,用于控制加热元件供电的半导体开关 30 是三极管、场效应管或晶闸管 IGBT
。
以上所述仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明的保护范围之内。
Claims (10)
- 一种电子烟的加热控制方法,其特征在于,包括以下步骤:S1 、通过传感器或开关感测是否有抽烟信号,如果是,则执行步骤 S2 ;S2 、启动定时器计时,并控制半导体开关导通对加热元件采用全输出功率方式加热;S3 、当定时器的计数值到达第一预设时间 T0 时,对加热元件采用恒定功率方式加热。
- 根据权利要求 1 所述的电子烟的加热控制方法,其特征在于,所述步骤 S3 包括:S31 、采集供电电池的电压;S32 、根据该供电电池的电压和预设恒定功率,计算出脉冲宽度调制信号的占空比;S33 、根据计算出的脉冲宽度调制信号控制半导体开关的导通,进而对加热元件进行恒定功率加热控制。
- 根据权利要求 2 所述的电子烟的加热控制方法,其特征在于,在所述步骤 S3 之后,还包括以下步骤:S4 、将定时器计数值清零。
- 根据权利要求 3 所述的电子烟的加热控制方法,其特征在于,所述步骤 S1 之前包括以下步骤:S0 、设置第一预设时间 T0 和预设恒定功率。
- 据权利要求 4 所述的电子烟的加热控制方法,其特征在于,所述半导体开关是三极管、场效应管或晶闸管 IGBT 。
- 一种电子烟的加热控制装置,其特征在于,包括:加热元件( 10 );给电子烟供电的供电电池( 20 )、控制供电电池是否给加热元件加热的半导体开关( 30 )、用于检测是否有抽烟信号的吸烟信号检测模块( 40 ),以及分别与所述供电电池( 20 )、吸烟信号检测模块( 40 )及半导体开关( 30 )控制端连接的微控制器( 50 );所述微控制器( 50 )还包括一个定时器( 51 ),当所述吸烟信号检测模块( 40 )检测到吸烟信号时,控制所述半导体开关( 30 )导通并启动所述定时器( 51 )开始计时,对所述加热元件( 10 )采用全输出功率方式加热;当所述定时器( 51 )计数值到达第一预设时间 T0 时,对加热元件( 10 )采用恒定功率控制方式进行加热。
- 根据权利要求 6 所述的电子烟的加热控制装置,其特征在于,所述微控制器( 50 )还包括:采集单元( 52 ),用于采集供电电池的电压;计算单元( 53 ),与所述采集模块( 52 )连接,用于根据该供电电池的电压和预设恒定功率,计算出脉冲宽度调制信号的占空比;控制单元( 54 ),与所述计算单元( 53 )连接,用于根据计算出的脉冲宽度调制信号控制半导体开关的导通,进而对加热元件( 10 )进行加热控制。
- 根据权利要求 7 所述的电子烟的加热控制装置,其特征在于,所述微控制器( 50 )还包括:清零单元( 55 ),与所述定时器( 51 )连接,用于将定时器的计数值清零。
- 根据权利要求 8 所述的电子烟的加热控制装置,其特征在于,所述加热控制装置还包括:设置模块( 60 ),与所述微控制器( 50 )连接,用于设置第一预设时间 T0 和预设恒定功率。
- 根据权利要求 9 所述的电子烟的加热控制装置,其特征在于,所述半导体开关( 30 )是三极管、场效应管或晶闸管 IGBT 。
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US20140251324A1 (en) | 2014-09-11 |
US9603386B2 (en) | 2017-03-28 |
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