WO2012083738A1 - 防止输入反接损坏的方法和装置 - Google Patents

防止输入反接损坏的方法和装置 Download PDF

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Publication number
WO2012083738A1
WO2012083738A1 PCT/CN2011/079819 CN2011079819W WO2012083738A1 WO 2012083738 A1 WO2012083738 A1 WO 2012083738A1 CN 2011079819 W CN2011079819 W CN 2011079819W WO 2012083738 A1 WO2012083738 A1 WO 2012083738A1
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Prior art keywords
current
controlled switch
protected device
current direction
control circuit
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PCT/CN2011/079819
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English (en)
French (fr)
Inventor
周英捷
曹喜
杜鸿殿
叶绿华
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华为技术有限公司
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Publication of WO2012083738A1 publication Critical patent/WO2012083738A1/zh

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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02HEMERGENCY PROTECTIVE CIRCUIT ARRANGEMENTS
    • H02H11/00Emergency protective circuit arrangements for preventing the switching-on in case an undesired electric working condition might result
    • H02H11/002Emergency protective circuit arrangements for preventing the switching-on in case an undesired electric working condition might result in case of inverted polarity or connection; with switching for obtaining correct connection

Definitions

  • the present invention relates to the field of preventing input damage, and more particularly to a method and apparatus for preventing input reverse connection damage. Background technique
  • a diode is added to the capacitor access circuit, and the unidirectional conduction characteristic of the diode is used.
  • the current is supplied to the load through the diode.
  • the diode is not conducting. At this time, no current flows through the capacitor, so the capacitor is not damaged.
  • Embodiments of the present invention provide a device protection circuit to reduce voltage drop losses caused by the use of diodes to prevent input reverse connection damage.
  • the technical solution is as follows:
  • the circuit includes: a protected device, a control circuit, and a controlled switch;
  • the controlled switch is connected in series between the protected device and a power source;
  • the control circuit is connected to the controlled switch for determining whether the current current direction is a current direction in which the protected device operates normally, and if the current direction of the protected device is working normally, the control circuit makes The controlled switch is turned on; if it is not the direction of current in which the protected device is operating normally, the control circuit causes the controlled switch to be non-conducting.
  • the controlled switch includes any one of a relay, a MOS tube, a thyristor rectifying element, and a contactor.
  • the circuit further includes a slow start control device;
  • the slow start control device is serially connected between the control circuit and the relay, and is used to slowly start the relay when the control circuit recognizes that the current current direction is a current direction in which the protected device operates normally. Avoid pinching the contacts of the relay.
  • the embodiment of the invention further provides a method for preventing input reverse connection damage, the method comprising:
  • the controlled switch is controlled to be non-conducting.
  • the determining whether the current current direction is a current direction in which the protected device operates normally; if the current direction of the protected device is working normally, controlling the controlled switch guide Passing the current through the protected device specifically includes:
  • Determining whether the current current direction is a current direction in which the protected device operates normally If the current direction of the protected device is normal, the relay is slowly activated to pass the current current through the protected device.
  • the control circuit determines whether the current current direction is a current direction in which the protected device works normally, and if the current direction of the protected device is working normally, the control circuit makes The controlled switch is turned on; if it is not the current direction in which the protected device operates normally, the control circuit makes the controlled switch non-conductive, thereby avoiding damage of the device caused by reverse connection of the input, increasing The user experience; when the current flows through the controlled switch, the controlled switch generates only a small voltage drop, so that the controlled switch does not generate a large amount of heat, which reduces the heat dissipation burden of the device in practical applications.
  • FIG. 1 is a circuit diagram of the use of a diode to prevent input reverse connection damage provided in the background art of the present invention
  • Embodiment 2 is a device protection circuit provided in Embodiment 1 of the present invention
  • 3 is a device protection circuit provided in Embodiment 2 of the present invention
  • Embodiment 4 is a flow chart of a method for preventing input reverse connection damage provided in Embodiment 3 of the present invention.
  • FIG. 5 is a flow chart of a method for preventing input reverse connection damage provided in Embodiment 4 of the present invention. detailed description
  • an embodiment of the present invention provides a device protection circuit, where the circuit includes: a protected device 1, a control circuit 2, and a controlled switch 3;
  • the controlled switch 3 is connected in series between the protected device 1 and a power source;
  • the control circuit 2 is connected to the controlled switch 3 for determining whether the current current direction is the current direction of the protected device 1 in normal operation, and if the current direction of the protected device 1 is working normally, The control circuit 2 turns on the controlled switch 3; if it is not the current direction in which the protected device 1 is operating normally, the control circuit 2 makes the controlled switch 3 non-conductive.
  • the controlled switch 3 includes any one of a relay, a MOS transistor, a thyristor rectifier component, and a contactor.
  • the control circuit 2 determines whether the current current direction is the current direction in which the protected device 1 operates normally.
  • the control circuit 2 makes the current The controlled switch 3 is turned on; if it is not the current direction of the protected device 1 operating normally, the control circuit 2 makes the controlled switch 3 non-conducting, avoiding the device caused by the reverse connection of the input Damage, increasing the user experience; when current flows through the controlled switch, the controlled switch produces only a small voltage drop, and the resulting voltage drop is much smaller than the voltage drop generated by the diode, such that the controlled switch It does not generate a lot of heat, which reduces the heat dissipation burden of the device in practical applications.
  • Example 2
  • a device protection circuit is provided by taking a protected device as a capacitor 4 and a controlled switch as a relay 5.
  • the circuit includes: a capacitor 4, a control circuit 2, and a relay 5,
  • the slow start control device 6 the relay 5 is connected in series between the capacitor 4 and the power source; the slow start control device 6 is connected in series between the control circuit 2 and the relay 5.
  • the control circuit 2 is configured to determine whether the current current direction is the current direction in which the capacitor 4 operates normally. If the current direction of the capacitor 4 is normal, the relay 5 is slowly turned on by the slow start control device 6, so that the relay 5 is turned on. Current electricity The flow passes through the protected device; if it is not the current direction in which the capacitor 4 operates normally, the control circuit 2 does not slow the relay 5 through the slow start control device 6, so that the relay 5 does not conduct, and the current does not pass through the protected device.
  • the slow start control device 6 can be any device existing in the prior art for realizing the relay 5 to be restarted.
  • the control circuit 2 determines whether the current current direction is the current direction in which the protected device 1 operates normally. If the current direction of the protected device 1 is normal, the control circuit 2 makes the current The controlled switch 3 is turned on; if it is not the current direction of the protected device 1 operating normally, the control circuit 2 makes the controlled switch 3 non-conducting, avoiding the device caused by the reverse connection of the input Damage, increasing the user experience; when the current flows through the controlled switch, the controlled switch generates only a small voltage drop, so that the controlled switch does not generate a large amount of heat, and the device is lightened in practical applications. Heat dissipation burden.
  • the controlled switch 3 is a relay
  • the relay 5 is slowly activated by the slow start control device 6, and the contact of the relay 5 is prevented from being pinched.
  • an embodiment of the present invention provides a method for preventing input reverse connection damage, the method comprising: S301: acquiring a current current direction;
  • S302 Determine whether the current current direction is a current direction in which the protected device operates normally, and if it is a current direction in which the protected device operates normally, perform S303; if not, the current direction in which the protected device operates normally , executing S304;
  • S303 controlling the controlled switch to be turned on, so that the current current passes through the protected device
  • S304 Control the controlled switch to be non-conductive.
  • the controlled switch can be a relay, a MOS transistor, a thyristor rectifier component, or a contactor.
  • the embodiment of the present invention determines whether the current current direction is the current direction in which the protected device operates normally; if the current direction of the protected device is working normally, the controlled controlled switch is turned on, so that the current current passes through Protecting the device; if the current direction of the protected device is not working normally, controlling the controlled switch to be non-conducting, avoiding damage of the device caused by reverse connection of the input, increasing user experience; current flowing through the When the switch is controlled, the controlled switch generates only a small voltage drop, so that the controlled switch does not generate a large amount of heat, which reduces the heat dissipation burden of the device in practical applications.
  • the protected device is a capacitor
  • the controlled switch is a relay.
  • the method of inputting reverse connection damage includes:
  • S403 suspending the relay to enable current current to pass through the protected device
  • the embodiment of the present invention determines whether the current current direction is the current direction in which the protected device operates normally; if the current direction of the protected device is working normally, the controlled controlled switch is turned on, so that the current current passes through Protecting the device; if the current direction of the protected device is not working normally, controlling the controlled switch to be non-conducting, avoiding damage of the device caused by reverse connection of the input, increasing user experience; current flowing through the
  • the controlled switch When the switch is controlled, the controlled switch generates only a small voltage drop, so that the controlled switch does not generate a large amount of heat, which reduces the heat dissipation burden of the device in practical applications.
  • the controlled switch is a relay, the relay is slowly activated to prevent the contact of the relay from being pinched.

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  • Relay Circuits (AREA)
  • Protection Of Static Devices (AREA)

Description

防止输入反接损坏的方法和装置 本申请要求于 2010年 12月 23日提交中国专利局、 申请号为 201010612461.6、 发明名 称为 "防止输入反接损坏的方法和装置" 的中国专利申请的优先权, 其全部内容通过引用 结合在本申请中。 技术领域
本发明涉及防止输入损坏技术领域, 特别涉及一种防止输入反接损坏的方法和装置。 背景技术
随着通信服务需求的不断增长, 电子元器件的应用范围也不断扩大。 为使配电盒满足 通信服务中的特殊需求, 通常采用在配电盒内增加大容量的电容来实现。 但由于配电盒内 的一些电子器件, 如电容、 三极管、 IC (Integratedcircuit, 集成电路板) 等有接入方向的要 求, 如果反接, 则将导致器件的损坏, 因此, 如何减少由输入反接而引起的器件的损坏已 逐步受到重视。
现有技术中, 以实现防止由电容反接而引起电容击穿为例, 如图 1 所示, 在电容接入 电路中加入二极管, 利用二极管的单向导通特性, 当正向电压输入时, 电流通过二极管给 负载供电, 当反接输入时, 二极管不导通, 此时电容没有电流流过, 因此不会造成电容的 损坏。
但由于电流流过二极管会产生 0.6V左右的压降, 而实际应用中电流又往往很大, 都是 数十、 数百安的电流流过, 此时二极管将会产生很大的压降损耗, 从而产生大量的热量, 在实际应用中使应用的设备的难以散热。 发明内容
本发明实施例提供了一种器件保护电路, 以减少由采用二极管防止输入反接损坏而带 来的压降损耗。 所述技术方案如下:
所述电路包括: 被保护器件, 控制电路, 及受控开关;
所述受控开关串接于所述被保护器件和电源之间; 所述控制电路与所述受控开关相连, 用于判读当前电流方向是否为所述被保护器件正 常工作的电流方向, 如果是所述被保护器件正常工作的电流方向, 则所述控制电路使所述 受控开关导通; 如果不是所述被保护器件正常工作的电流方向, 则所述控制电路使所述受 控开关不导通。
所述受控开关包括继电器、 MOS管、 可控硅整流元件、 接触器中的任一种。
当所述受控开关为继电器时, 所述电路还包括缓启控制装置;
所述缓启控制装置串接于所述控制电路与所述继电器之间, 用于当所述控制电路识别 当前电流方向是所述被保护器件正常工作的电流方向时, 缓启所述继电器, 避免所述继电 器的触点捏死。
本发明实施例还提供了一种防止输入反接损坏的方法, 所述方法包括:
获取当前电流方向;
判断所述当前电流方向是否为所述被保护器件正常工作的电流方向;
如果是所述被保护器件正常工作的电流方向, 则控制受控开关导通, 使当前电流通过 所述被保护器件;
如果不是所述被保护器件正常工作的电流方向, 则控制所述受控开关不导通。
当所述受控开关为继电器时, 所述判断所述当前电流方向是否为所述被保护器件正常 工作的电流方向; 如果是所述被保护器件正常工作的电流方向, 则控制受控开关导通, 使 当前电流通过所述被保护器件具体包括:
判断所述当前电流方向是否为所述被保护器件正常工作的电流方向, 如果是所述被保 护器件正常工作的电流方向, 则对所述继电器进行缓启, 使当前电流通过被保护器件。
本发明实施例提供的技术方案, 通过所述控制电路判读当前电流方向是否为所述被保 护器件正常工作的电流方向, 如果是所述被保护器件正常工作的电流方向, 则所述控制电 路使所述受控开关导通; 如果不是所述被保护器件正常工作的电流方向, 则所述控制电路 使所述受控开关不导通, 避免了由输入反接而引起的器件的损坏, 增加了用户体验; 电流 流过所述受控开关时, 所述受控开关只产生很小的压降, 使得所述受控开关不会产生大量 的热量, 在实际应用中减轻设备的散热负担。 附图说明
图 1是本发明背景技术中提供的采用二极管防止输入反接损坏的电路图;
图 2是本发明实施例 1中提供的一种器件保护电路; 图 3是本发明实施例 2中提供的一种器件保护电路;
图 4是本发明实施例 3中提供的一种防止输入反接损坏的方法流程图;
图 5是本发明实施例 4中提供的一种防止输入反接损坏的方法流程图。 具体实施方式
为使本发明的目的、 技术方案和优点更加清楚, 下面将结合附图对本发明实施方式作 进一步地详细描述。
实施例 1
如图 2所示, 本发明实施例提供了一种器件保护电路, 所述电路包括: 被保护器件 1, 控制电路 2, 及受控开关 3 ;
所述受控开关 3串接于所述被保护器件 1和电源之间;
所述控制电路 2与所述受控开关 3相连, 用于判读当前电流方向是否为所述被保护器 件 1正常工作的电流方向, 如果是所述被保护器件 1正常工作的电流方向, 则所述控制电 路 2使所述受控开关 3导通; 如果不是所述被保护器件 1正常工作的电流方向, 则所述控 制电路 2使所述受控开关 3不导通。
其中, 所述受控开关 3包括继电器、 MOS管、 可控硅整流元件、 接触器中的任一种。 本发明实施例通过所述控制电路 2判读当前电流方向是否为所述被保护器件 1正常工 作的电流方向, 如果是所述被保护器件 1正常工作的电流方向, 则所述控制电路 2使所述 受控开关 3导通; 如果不是所述被保护器件 1正常工作的电流方向, 则所述控制电路 2使 所述受控开关 3 不导通, 避免了由输入反接而引起的器件的损坏, 增加了用户体验; 电流 流过所述受控开关时, 所述受控开关只产生很小的压降, 且产生的压降要远小于二极管产 生的压降, 使得所述受控开关不会产生大量的热量, 在实际应用中减轻设备的散热负担。 实施例 2
如图 3所示, 本发明实施例以被保护器件为电容 4、 受控开关为继电器 5为例, 提供了 一种器件保护电路, 所述电路包括: 电容 4, 控制电路 2, 继电器 5, 缓启控制装置 6: 继电器 5串接于电容 4和电源之间; 所述缓启控制装置 6串接于控制电路 2与所述继 电器 5之间。
所述控制电路 2, 用于判读当前电流方向是否为电容 4正常工作的电流方向, 如果是电 容 4正常工作的电流方向, 则通过缓启控制装置 6缓启继电器 5, 使继电器 5导通, 当前电 流通过被保护器件; 如果不是电容 4正常工作的电流方向, 则所述控制电路 2不通过缓启 控制装置 6缓启继电器 5, 使继电器 5不导通, 当前电流不通过被保护器件。
其中, 缓启控制装置 6可以为现有技术中已有的, 用于实现使继电器 5缓启的任何装 置。
本发明实施例通过所述控制电路 2判读当前电流方向是否为所述被保护器件 1正常工 作的电流方向, 如果是所述被保护器件 1正常工作的电流方向, 则所述控制电路 2使所述 受控开关 3导通; 如果不是所述被保护器件 1正常工作的电流方向, 则所述控制电路 2使 所述受控开关 3 不导通, 避免了由输入反接而引起的器件的损坏, 增加了用户体验; 电流 流过所述受控开关时, 所述受控开关只产生很小的压降, 使得所述受控开关不会产生大量 的热量, 在实际应用中减轻设备的散热负担。 另外, 当所述受控开关 3 为继电器时, 本发 明实施例, 通过缓启控制装置 6缓启所述继电器 5, 避免所述继电器 5的触点捏死。 实施例 3
如图 4所示, 本发明实施例提供了一种防止输入反接损坏的方法, 该方法包括: S301 : 获取当前电流方向;
S302: 判断所述当前电流方向是否为所述被保护器件正常工作的电流方向, 如果是所 述被保护器件正常工作的电流方向, 则执行 S303 ; 如果不是所述被保护器件正常工作的电 流方向, 则执行 S304;
S303 : 控制受控开关导通, 使当前电流通过被保护器件;
S304: 控制受控开关不导通。
可选的, 受控开关可以为继电器、 MOS管、 可控硅整流元件、 接触器。
本发明实施例通过判断所述当前电流方向是否为所述被保护器件正常工作的电流方 向; 如果是所述被保护器件正常工作的电流方向, 则控制受控开关导通, 使当前电流通过 被保护器件; 如果不是所述被保护器件正常工作的电流方向, 则控制所述受控开关不导通, 避免了由输入反接而引起的器件的损坏, 增加了用户体验; 电流流过所述受控开关时, 所 述受控开关只产生很小的压降, 使得所述受控开关不会产生大量的热量, 在实际应用中减 轻设备的散热负担。 实施例 4
如图 5 所示, 本发明实施例被保护器件为电容、 受控开关为继电器为例提供了一种防 止输入反接损坏的方法, 该方法包括:
S401 : 获取当前电流方向;
S402: 判断所述当前电流方向是否为所述电容正常工作的电流方向, 如果是, 则执行 S403 , 如果不是, 则执行 S404。
S403 : 对所述继电器进行缓启, 使当前电流通过被保护器件;
S404: 控制所述继电器不导通。
本发明实施例通过判断所述当前电流方向是否为所述被保护器件正常工作的电流方 向; 如果是所述被保护器件正常工作的电流方向, 则控制受控开关导通, 使当前电流通过 被保护器件; 如果不是所述被保护器件正常工作的电流方向, 则控制所述受控开关不导通, 避免了由输入反接而引起的器件的损坏, 增加了用户体验; 电流流过所述受控开关时, 所 述受控开关只产生很小的压降, 使得所述受控开关不会产生大量的热量, 在实际应用中减 轻设备的散热负担。 另外, 当所述受控开关为继电器时, 对所述继电器进行缓启, 避免所 述继电器的触点捏死。 以上实施例提供的技术方案中的全部或部分内容可以通过软件编程实现, 其软件程序 存储在可读取的存储介质中, 存储介质例如: 计算机中的硬盘、 光盘或软盘。 以上所述仅为本发明的较佳实施例, 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、 改进等, 均应包含在本发明的保护范围之内。

Claims

权 利 要 求 书
1、 一种器件保护电路, 其特征在于, 所述电路包括: 被保护器件, 控制电路, 及受控开 关;
所述受控开关串接于所述被保护器件和电源之间;
所述控制电路与所述受控开关相连, 用于判读当前电流方向是否为所述被保护器件正常 工作的电流方向, 如果是所述被保护器件正常工作的电流方向, 则所述控制电路使所述受控 开关导通; 如果不是所述被保护器件正常工作的电流方向, 则所述控制电路使所述受控开关 不导通。
2、 根据权利要求 1所述电路, 其特征在于, 所述受控开关包括继电器、 MOS管、 可控 硅整流元件、 接触器中的任一种。
3、 根据权利要求 1所述电路, 其特征在于, 当所述受控开关为继电器时, 所述电路还包 括缓启控制装置;
所述缓启控制装置串接于所述控制电路与所述继电器之间, 用于当所述控制电路识别当 前电流方向是所述被保护器件正常工作的电流方向时, 缓启所述继电器, 避免所述继电器的 触点捏死。
4、 一种防止输入反接损坏的方法, 其特征在于, 所述方法包括:
获取当前电流方向;
判断所述当前电流方向是否为所述被保护器件正常工作的电流方向;
如果是所述被保护器件正常工作的电流方向, 则控制受控开关导通, 使当前电流通过所 述被保护器件;
如果不是所述被保护器件正常工作的电流方向, 则控制所述受控开关不导通。
5、 根据权利要求 4所述的方法, 其特征在于, 当所述受控开关为继电器时, 所述判断所 述当前电流方向是否为所述被保护器件正常工作的电流方向; 如果是所述被保护器件正常工 作的电流方向, 则控制受控开关导通, 使当前电流通过所述被保护器件具体包括:
判断所述当前电流方向是否为所述被保护器件正常工作的电流方向, 如果是所述被保护 器件正常工作的电流方向, 则对所述继电器进行缓启, 使当前电流通过被保护器件。
PCT/CN2011/079819 2010-12-23 2011-09-19 防止输入反接损坏的方法和装置 WO2012083738A1 (zh)

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CN105245104A (zh) * 2015-10-30 2016-01-13 江阴万事兴技术有限公司 智能光伏功率调节器及调节方法

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