CN202009060U - 一种电池的加热电路 - Google Patents
一种电池的加热电路 Download PDFInfo
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Abstract
本实用新型提供一种电池的加热电路,所述电池包括正向串联的第一和第二电池,所述加热电路包括第一和第二开关装置、阻尼元件R1、阻尼元件R2、电流存储元件L1、电流存储元件L2、开关控制模块、以及电荷存储元件,第一电池、阻尼元件R1、电流存储元件L1、第一开关装置、以及电荷存储元件C相串联,构成第一充放电电路;第二电池、阻尼元件R2、电流存储元件L2、电荷存储元件C以及第二开关装置相串联,构成第二充放电电路,在对电荷存储元件C充放电时,该第二充放电电路与第一充放电电路的充放电方向相反;开关控制模块与第一和第二开关装置电连接,用于控制电能在第一和第二电池以及电荷存储元件C之间的流动。该加热电路具有加热效率高的优点。
Description
技术领域
本实用新型属于电力电子领域,尤其涉及一种电池的加热电路。
背景技术
考虑到汽车需要在复杂的路况和环境条件下行驶,或者有些电子设备需要在较差的环境条件中使用,所以,作为电动车或电子设备电源的电池就需要适应这些复杂的状况。而且除了考虑这些状况,还需考虑电池的使用寿命及电池的充放电循环性能,尤其是当电动车或电子设备处于低温环境中时,更需要电池具有优异的低温充放电性能和较高的输入输出功率性能。
一般而言,在低温条件下会导致电池的阻抗增大,极化增强,由此导致电池的容量下降。
为了保持电池在低温条件下的容量,提高电池的充放电性能,本实用新型提供了一种电池的加热电路。
实用新型内容
本实用新型的目的是针对电池在低温条件下会导致电池的阻抗增大,极化增强,由此导致电池的容量下降的问题,提供一种电池的加热电路。
本实用新型提供一种电池的加热电路,所述电池包括第一电池和第二电池,所述加热电路包括第一开关装置、第二开关装置、开关控制模块、阻尼元件R1、阻尼元件R2、电流存储元件L1、电流存储元件L2、以及电荷存储元件,所述第一电池与第二电池正向串联;所述第一电池、阻尼元件R1、电流存储元件L1、第一开关装置、以及电荷存储元件C相串联,构成第一充放电电路;所述第二电池、阻尼元件R2、电流存储元件L2、电荷存储元 件C以及第二开关装置相串联,构成第二充放电电路,在对所述电荷存储元件C充放电时,该第二充放电电路的充放电方向与所述第一充放电电路的充放电方向相反;所述开关控制模块与第一开关装置和第二开关装置电连接,用于控制第一开关装置和第二开关装置交替导通,以控制电能在所述第一电池、电荷存储元件C以及所述第二电池之间的流动。
在本实用新型提供的电池的加热电路中,可通过开关控制模块控制所述第一开关装置和第二开关装置交替导通,从而实现电能于第一电池、电荷存储元件C以及第二电池之间的交替往复流动,从而导致阻尼元件R1和阻尼元件R2发热,以对第一电池和第二电池进行加热。由于就电荷存储元件C而言,第二充放电电路的充放电方向与所述第一充放电电路的充放电方向相反,由第一电池所充入电荷存储元件C的能量可顺利转移至第二电池,加热效率高。
在本实用新型提供的加热电路中,电荷存储元件与电池串联,当给电池加热时,由于串联的电荷存储元件的存在,能够避免开关装置失效短路引起的安全性问题,能够有效地保护电池。
本实用新型的其他特征和优点将在随后的具体实施方式部分予以详细说明。
附图说明
附图是用来提供对本实用新型的进一步理解,并且构成说明书的一部分,与下面的具体实施方式一起用于解释本实用新型,但并不构成对本实用新型的限制。在附图中:
图1为本实用新型第一实施方式的加热电路的电路图;
图2为本实用新型第一实施方式的加热电路的波形时序图;
图3为根据本实用新型第二实施方式的加热电路的电路图;
图4为根据本实用新型第二实施方式的加热电路的波形时序图;
图5为根据本实用新型第三实施方式的加热电路的电路图;
图6为根据本实用新型第三实施方式的加热电路的波形时序图;以及
图7为本实用新型提供的加热电路中的开关装置的一实施方式的电路图。
具体实施方式
以下结合附图对本实用新型的具体实施方式进行详细说明。应当理解的是,此处所描述的具体实施方式仅用于说明和解释本实用新型,并不用于限制本实用新型。
需要指出的是,除非特别说明,当下文中提及时,术语“开关控制模块”为任意能够根据设定的条件或者设定的时刻输出控制指令(例如脉冲波形)从而控制与其连接的开关装置相应地导通或关断的控制器,例如可以为PLC;当下文中提及时,术语“开关”指的是可以通过电信号实现通断控制或者根据元器件自身的特性实现通断控制的开关,既可以是单向开关,例如由双向开关与二极管串联构成的可单向导通的开关,也可以是双向开关,例如金属氧化物半导体型场效应管(Metal Oxide Semiconductor Field Effect Transistor,MOSFET)或带有反并续流二极管的IGBT;当下文中提及时,术语“双向开关”指的是可以通过电信号实现通断控制或者根据元器件自身的特性实现通断控制的可双向导通的开关,例如MOSFET或带有反并续流二极管的IGBT;当下文中提及时,单向半导体元件指的是具有单向导通功能的半导体元件,例如二极管等;当下文中提及时,术语“电荷存储元件”指任意可以实现电荷存储的装置,例如可以为电容等;当下文中提及时,术语“电流存储元件”指任意可以对电流进行存储的装置,例如可以为电感等;当下文中提及时,术语“正向”指能量从电池向储能电路流动的方向,术语 “反向”指能量从储能电路向电池流动的方向;当下文中提及时,术语“电池”包括一次电池(例如干电池、碱性电池等)和二次电池(例如锂离子电池、镍镉电池、镍氢电池或铅酸电池等);当下文中提及时,术语“阻尼元件”指任意通过对电流的流动起阻碍作用以实现能量消耗的装置,例如可以为电阻等;当下文中提及时,术语“主回路”指的是电池与阻尼元件、开关装置以及储能电路串联组成的回路。
这里还需要特别说明的是,考虑到不同类型的电池的不同特性,在本实用新型中,“电池”可以指不包含内部寄生电阻和寄生电感、或者内部寄生电阻的阻值和寄生电感的电感值较小的理想电池,也可以指包含有内部寄生电阻和寄生电感的电池包;因此,本领域技术人员应当理解的是,当“电池”为不包含内部寄生电阻和寄生电感、或者内部寄生电阻的阻值和寄生电感电感值较小的理想电池时,阻尼元件R1和阻尼元件R2分别指的是第一电池和第二电池外部的阻尼元件,电流存储元件L1和电流存储元件L2分别指的是第一电池和第二电池外部的电流存储元件;当“电池”为包含有内部寄生电阻和寄生电感的电池包时,阻尼元件R1和阻尼元件R2既可以分别指第一电池和第二电池外部的阻尼元件,也可以分别指第一电池包和第二电池包内部的寄生电阻,同样地,电流存储元件L1和电流存储元件L2既可以分别指第一电池和第二电池外部的电流存储元件,也可以分别指第一电池包和第二电池包内部的寄生电感。
为了保证电池的使用寿命,可以在低温情况下对电池进行加热,当达到加热条件时,控制加热电路开始工作,对电池进行加热,当达到停止加热条件时,控制加热电路停止工作。
在电池的实际应用中,随着环境的改变,可以根据实际的环境情况对电池的加热条件和停止加热条件进行设置,以保证电池的充放电性能。
图1为本实用新型第一实施方式的加热电路的电路图。如图1所示,本 实用新型提供了一种电池的加热电路,所述电池包括第一电池和第二电池,其中,所述加热电路包括第一开关装置10、第二开关装置20、阻尼元件R1、阻尼元件R2、电流存储元件L1、电流存储元件L2、开关控制模块100、以及电荷存储元件C,所述第一电池与第二电池正向串联;所述第一电池、阻尼元件R1、电流存储元件L1、第一开关装置10、以及电荷存储元件C相串联,构成第一充放电电路;所述第二电池、阻尼元件R2、电流存储元件L2、电荷存储元件C以及第二开关装置20相串联,构成第二充放电电路,在对所述电荷存储元件C充放电时,该第二充放电电路的充放电方向与所述第一充放电电路的充放电方向相反;所述开关控制模块100与第一开关装置10和第二开关装置20电连接,用于控制第一开关装置10和第二开关装置20交替导通,以控制电能在所述第一电池、电荷存储元件C以及所述第二电池之间的流动。
其中,所述开关控制模块100可控制所述第一开关装置10和第二开关装置20进行开关状态切换,例如第一开关装置10由导通状态切换为关断状态,而第二开关装置20由关断状态切换为导通状态,从而使由一电池存储于电荷存储元件C内的电能流入另一电池。该电能的流动会伴随着的电流的产生,通过不断使电流流经阻尼元件R1和阻尼元件R2,该阻尼元件R1和阻尼元件R2可产生热量,从而对该第一电池E1和第二电池E2进行加热。
图2为本实用新型第一实施方式的加热电路的波形时序图。以下结合图2描述本实用新型提供的加热电路的具体工作过程。首先,开关控制模块100控制第一开关装置10导通、第二开关装置20断开,第一电池E1、阻尼元件R1、电流存储元件L1、第一开关装置10以及电荷存储元件C构成一充放电电路,该充放电电路进行充放电(如图2中的时间段t1~t2所示,时间段t1表示该充放电电路的充电时间段,在该时间段t1结尾处,电荷存储元件C的电容电压UC为正半周期峰值,电容电流IC经正半周期之后为零;时 间段t2表示该充放电电路的放电时间段)。在其一充放电周期结束之后(此时电荷存储元件C的电流IC经负半周期之后为零),开关控制模块100控制第一开关装置10断开、第二开关装置20导通,第二电池E2、阻尼元件R2、电流存储元件L2、电荷存储元件C以及第二开关装置20构成一充放电电路,该充放电电路进行充放电(如图2中的时间段t3~t4所示,时间段t3表示该充放电电路的充电时间段,时间段t4表示该充放电电路的放电时间段)。在该充放电电路一充放电周期结束之后(此时电荷存储元件C的电流IC经正半周期之后为零,整个加热电路完成一完整工作周期),开关控制模块100再次控制第一开关装置10导通、第二开关装置20断开,如此循环往复,使得电流不断流过阻尼元件R1和阻尼元件R2,该阻尼元件R1和阻尼元件R2可产生热量,从而对该第一电池E1和第二电池E2进行加热,直至加热完毕为止。
在本实用新型加热电路的以上工作过程中,可使得电流于所述第一电池E1和第二电池E2之间交替往复流动,实现了两个正向串联的电池的交替加热,加热效率高。
图3为根据本实用新型第二实施方式的加热电路的电路图。优选地,如图3所示,本实用新型的加热电路还包括电流存储元件L10和电流存储元件L20,该电流存储元件L10串联于所述第一充放电电路中,该电流存储元件L20串联于所述第二充放电电路中。藉此,可利用该电流存储元件L10和电流存储元件L20,实现电容电流IC(即,流经第一和第二电池以及第一和第二开关装置的电流)的双向限流,减小了流经第一和第二电池以及第一和第二开关装置的电流大小,达到了保护第一和第二电池以及第一和第二开关装置的目的。图4为该根据本实用新型第二实施方式的加热电路的波形时序图,如图4所示,相比于图2所示的电容电流IC,图4所示电容电流IC的波形较为平滑,其峰值及谷值皆远小于图2所示的电容电流IC的峰值及谷值。
图5为根据本实用新型第三实施方式的加热电路的电路图。优选地,如图5所示,本实用新型的加热电路还可包括电流存储元件L10、电流存储元件L20、单向半导体元件D1、单向半导体元件D2、单向半导体元件D10以及单向半导体元件D20,所述单向半导体元件D10与所述第一开关装置10相串联,相串联的电流存储元件L10与所述单向半导体元件D1并联于相串联的单向半导体元件D10与第一开关装置10两端,以对第一充放电电路进行反向限流;以及所述单向半导体元件D20与所述第二开关装置20相串联,相串联的电流存储元件L20与所述单向半导体元件D2并联于相串联的单向半导体元件D20与第二开关装置20两端,以对第二充放电电路进行反向限流。藉此,可实现电容电流(即,流经第一电池E1和第二电池E2的电流)的单向限流(即,对第一电池E1和第二电池E2充电时进行限流),从而相比于第二实施方式的加热电路(双向限流),可在保护第一和第二电池以及第一和第二开关装置的同时,进一步提升加热效率。图6为该根据本实用新型第三实施方式的加热电路的波形时序图,如图6所示,相比于图4所示的电容电流IC,图6所示电容电流IC于正半周期的峰值较高。
图7为本实用新型提供的加热电路中的开关装置的一实施方式的电路图。如图7所示,所述第一开关装置10和/或第二开关装置20可包括开关K11和与该开关K11反向并联的单向半导体元件D11,所述开关控制模块100与开关K11电连接,用于通过控制开关K11的导通和关断来控制开关装置10正向支路的导通和关断。对该开关K11的导通和关断控制可于图2、图4以及图6中所示的网格区段进行,所述开关控制模块100可在流经第一开关装置10或第二开关装置20的电流过零时或之后,控制第一开关装置10和第二开关装置20进行开关状态切换。
本实用新型所提供的加热电路具备以下优点:
(1)由于就电荷存储元件而言,第二充放电电路的充放电方向与所述 第一充放电电路的充放电方向相反,因此电能可于第一电池、电荷存储元件以及第二电池之间的交替往复流动,藉此所产生的电流可使得阻尼元件R1和阻尼元件R2发热,从而对第一和第二电池进行加热,实现了对第一和第二电池交替加热,加热效率高。
(2)由于电流存储元件的限流作用以及每一时间周期仅形成单个充放电电路,从而使得流经第一和第二电池以及第一和第二开关装置的电流较小,另外,充放电电路的构成以及电流存储元件L1、电流存储元件L2的存在亦可进一步限制流经第一和第二电池以及第一和第二开关装置的电流,从而避免了大电流损害电池以及开关装置。
(3)在使用单向限流时,可增大第一和第二电池的放电效率,同时反向充电电流受限以避免损害第一和第二电池,从而于保证了不损害第一和第二电池以及开关装置的同时,更增加热效率。
(4)在本实用新型提供的加热电路中,电荷存储元件与电池串联,当给电池加热时,由于串联的电荷存储元件的存在,能够避免开关装置失效短路引起的安全性问题,能够有效地保护电池。
虽然本实用新型已通过上述实施例所公开,然而上述实施例并非用以限定本实用新型,任何本实用新型所属技术领域中技术人员,在不脱离本实用新型的精神和范围内,应当可以作各种的变动与修改。因此本实用新型的保护范围应当以所附权利要求书所界定的范围为准。
Claims (7)
1.一种电池的加热电路,所述电池包括第一电池(E1)、第二电池(E2),其特征在于,该加热电路包括第一开关装置(10)、第二开关装置(20)、阻尼元件R1、阻尼元件R2、电流存储元件L1、电流存储元件L2、开关控制模块(100)、以及电荷存储元件C,
所述第一电池(E1)与第二电池(E2)正向串联;
所述第一电池(E1)、阻尼元件R1、电流存储元件L1、第一开关装置(10)、以及电荷存储元件C相串联,构成第一充放电电路;
所述第二电池(E2)、阻尼元件R2、电流存储元件L2、电荷存储元件C、以及第二开关装置(20)相串联,构成第二充放电电路,在对所述电荷存储元件C充放电时,该第二充放电电路的充放电方向与所述第一充放电电路的充放电方向相反;
所述开关控制模块(100)与第一开关装置(10)和第二开关装置(20)电连接,用于控制第一开关装置(10)和第二开关装置(20)交替导通,以控制电能在所述第一电池(E1)、电荷存储元件C以及所述第二电池(E2)之间的流动。
2.根据权利要求1所述的加热电路,其特征在于,所述阻尼元件R1和阻尼元件R2分别为所述第一电池(E1)和第二电池(E2)内部的寄生电阻,所述电流存储元件L1和电流存储元件L2分别为所述第一电池(E1)和第二电池(E2)内部的寄生电感,所述电荷存储元件C为电容。
3.根据权利要求1所述的加热电路,其特征在于,该加热电路还包括电流存储元件L10和电流存储元件L20,该电流存储元件L10串联于所述第一充放电电路中,该电流存储元件L20串联于所述第二充放电电路中。
4.根据权利要求3所述的加热电路,其特征在于,所述电流存储元件L10和电流存储元件L20为电感。
5.根据权利要求1所述的加热电路,其特征在于,该加热电路还包括电流存储元件L10、电流存储元件L20、单向半导体元件D1、单向半导体元件D2、单向半导体元件D10以及单向半导体元件D20,
所述单向半导体元件D10与所述第一开关装置(10)相串联,相串联的所述单向半导体元件D1与电流存储元件L10并联于相串联的单向半导体元件D10与第一开关装置(10)两端,以对所述第一充放电电路进行反向限流;以及
所述单向半导体元件D20与所述第二开关装置(20)相串联,相串联的电流存储元件L20与所述单向半导体元件D2并联于相串联的单向半导体元件D20与第二开关装置(20)两端,以对所述第二充放电电路进行反向限流。
6.根据权利要求5所述的加热电路,其特征在于,所述电流存储元件L10和电流存储元件L20为电感。
7.根据权利要求1-6中任一项权利要求所述的加热电路,其特征在于,所述第一开关装置(10)和/或第二开关装置(20)包括开关K11和与该开关K11反向并联的单向半导体元件D11,所述开关控制模块(100)与开关K11电连接,用于通过控制开关K11的导通和关断来控制开关装置(10)的正向支路导通和关断。
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