TWI677154B - Protection circuit - Google Patents

Protection circuit Download PDF

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TWI677154B
TWI677154B TW107106840A TW107106840A TWI677154B TW I677154 B TWI677154 B TW I677154B TW 107106840 A TW107106840 A TW 107106840A TW 107106840 A TW107106840 A TW 107106840A TW I677154 B TWI677154 B TW I677154B
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voltage
node
resistor
terminal
electrically connected
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TW107106840A
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TW201824673A (en
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許再良
Tsai-Liang Hsu
林陳琦
Chen-Chi Lin
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群光電能科技股份有限公司
Chicony Power Technology Co., Ltd.
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Abstract

一種保護電路包含一偵測電路、一控制電路以及一開關元件。偵測電路與一定電流元件電性連接於一第一節點。偵測電路用以偵測第一節點的一第一電壓,且依據第一電壓產生一第二電壓。控制電路電性連接偵測電路。控制電路用以依據第二電壓選擇性地輸出一第一控制訊號以及一第二控制訊號。開關元件電性連接定電流元件、控制電路以及一接地端。當第二電壓大於一參考電壓時,控制電路輸出第一控制訊號以斷開開關元件,以使電流未透過定電流元件流至接地端。當第二電壓小於參考電壓時,控制電路輸出第二控制訊號以導通開關元件。A protection circuit includes a detection circuit, a control circuit, and a switching element. The detection circuit is electrically connected to a first node with a certain current element. The detection circuit is configured to detect a first voltage of the first node and generate a second voltage according to the first voltage. The control circuit is electrically connected to the detection circuit. The control circuit is used for selectively outputting a first control signal and a second control signal according to the second voltage. The switching element is electrically connected to the constant current element, the control circuit and a ground terminal. When the second voltage is greater than a reference voltage, the control circuit outputs a first control signal to turn off the switching element, so that the current does not flow to the ground terminal through the constant current element. When the second voltage is less than the reference voltage, the control circuit outputs a second control signal to turn on the switching element.

Description

保護電路protect the circuit

本揭示中所述實施例內容是有關於一種電路技術,且特別是有關於一種保護電路。The embodiments described in this disclosure are related to a circuit technology, and more particularly to a protection circuit.

在現有技術中,定電流元件可被加入至電路中,以達到定電流的目的。舉例來說,發光元件(例如:發光二極體)的亮度與驅動電流成正相關。因此,為了維持發光元件的亮度,會將發光元件與定電流元件進行串聯。In the prior art, a constant current element can be added to a circuit to achieve the purpose of constant current. For example, the brightness of a light emitting element (such as a light emitting diode) is positively related to the driving current. Therefore, in order to maintain the brightness of the light emitting element, the light emitting element and the constant current element are connected in series.

然而,當異常發生時,定電流元件的跨壓將會提高。如此,定電流元件的消耗功率以及溫度亦會相應地提高。However, when an abnormality occurs, the cross-voltage of the constant current element will increase. In this way, the power consumption and temperature of the constant current element will increase accordingly.

本揭示內容之一實施方式係關於一種保護電路包含一偵測電路、一控制電路以及一開關元件。偵測電路與一定電流元件電性連接於一第一節點。偵測電路用以偵測第一節點的一第一電壓,且依據第一電壓產生一第二電壓。控制電路電性連接偵測電路。控制電路用以依據第二電壓選擇性地輸出一第一控制訊號以及一第二控制訊號。開關元件電性連接定電流元件、控制電路以及一接地端。當第二電壓大於一參考電壓時,控制電路輸出第一控制訊號以斷開開關元件,以使一電流未透過該定電流元件流至該接地端。當第二電壓小於參考電壓時,控制電路輸出第二控制訊號以導通開關元件。An embodiment of the present disclosure relates to a protection circuit including a detection circuit, a control circuit, and a switching element. The detection circuit is electrically connected to a first node with a certain current element. The detection circuit is configured to detect a first voltage of the first node and generate a second voltage according to the first voltage. The control circuit is electrically connected to the detection circuit. The control circuit is used for selectively outputting a first control signal and a second control signal according to the second voltage. The switching element is electrically connected to the constant current element, the control circuit and a ground terminal. When the second voltage is greater than a reference voltage, the control circuit outputs a first control signal to open the switching element, so that a current does not flow through the constant current element to the ground terminal. When the second voltage is less than the reference voltage, the control circuit outputs a second control signal to turn on the switching element.

在一些實施例中,偵測電路包含一第一電阻、一第二電阻以及一延遲電路。第一電阻電性連接於第一節點與一第二節點之間。第二電阻電性連接於第二節點與接地端之間。延遲電路電性連接於第二節點與接地端之間。In some embodiments, the detection circuit includes a first resistor, a second resistor, and a delay circuit. The first resistor is electrically connected between the first node and a second node. The second resistor is electrically connected between the second node and the ground terminal. The delay circuit is electrically connected between the second node and the ground terminal.

在一些實施例中,開關元件包含一第一開關。第一開關包含一第一控制端、一第一連接端以及一第二連接端。第一控制端與控制電路電性連接於一第三節點。第一連接端電性連接接地端。第二連接端電性連接定電流元件。In some embodiments, the switching element includes a first switch. The first switch includes a first control terminal, a first connection terminal, and a second connection terminal. The first control terminal and the control circuit are electrically connected to a third node. The first connection terminal is electrically connected to the ground terminal. The second connection terminal is electrically connected to the constant current element.

在一些實施例中,控制電路包含一第三電阻、一第四電阻、一電壓比較單元、一第二開關以及一第一電容。第三電阻用以接收一輸入電壓。第四電阻電性連接於第三電阻與接地端之間。第四電阻與第三電阻串聯連接於第三節點。電壓比較單元包含一第一輸入端、一第二輸入端以及一第一輸出端。第一輸入端電性連接第二節點。第二輸入端用以接收參考電壓。第二開關包含一第二控制端、一第三連接端以及一第四連接端。第二控制端電性連接第一輸出端。第三連接端電性連接接地端。第四連接端電性連接第三節點。第一電容電性連接於第三節點與接地端之間。In some embodiments, the control circuit includes a third resistor, a fourth resistor, a voltage comparison unit, a second switch, and a first capacitor. The third resistor is used for receiving an input voltage. The fourth resistor is electrically connected between the third resistor and the ground terminal. The fourth resistor and the third resistor are connected in series at the third node. The voltage comparison unit includes a first input terminal, a second input terminal and a first output terminal. The first input terminal is electrically connected to the second node. The second input terminal is used to receive a reference voltage. The second switch includes a second control terminal, a third connection terminal and a fourth connection terminal. The second control terminal is electrically connected to the first output terminal. The third connection terminal is electrically connected to the ground terminal. The fourth connection terminal is electrically connected to the third node. The first capacitor is electrically connected between the third node and the ground terminal.

在一些實施例中,當第二電壓大於參考電壓時,電壓比較單元輸出一第三控制訊號至第二控制端以導通第二開關。第一控制端透過第二開關被拉降至一地電壓,使得第一開關斷開。當第二電壓小於參考電壓時,電壓比較單元輸出一第四控制訊號至第二控制端以斷開第二開關,使得第一開關依據位於第三節點的一第三電壓導通。In some embodiments, when the second voltage is greater than the reference voltage, the voltage comparison unit outputs a third control signal to the second control terminal to turn on the second switch. The first control terminal is pulled down to a ground voltage through the second switch, so that the first switch is turned off. When the second voltage is less than the reference voltage, the voltage comparison unit outputs a fourth control signal to the second control terminal to open the second switch, so that the first switch is turned on according to a third voltage at the third node.

在一些實施例中,當第一開關斷開,一第一電流透過第一電阻以及第二電阻流至接地端。當第一開關導通,一第二電流透過定電流元件以及第一開關流至接地端。In some embodiments, when the first switch is turned off, a first current flows to the ground through the first resistor and the second resistor. When the first switch is turned on, a second current flows to the ground through the constant current element and the first switch.

在一些實施例中,延遲電路包含一第二電容。第二電容用以決定電壓比較單元輸出第三控制訊號或第四控制訊號的一響應時間。In some embodiments, the delay circuit includes a second capacitor. The second capacitor is used to determine a response time for the voltage comparison unit to output the third control signal or the fourth control signal.

在一些實施例中,控制電路包含一第三電阻、一第四電阻、一控制元件以及一第一電容。第三電阻用以接收一輸入電壓。第四電阻電性連接於第三電阻與接地端之間。第四電阻與第三電阻串聯連接於第三節點。控制元件電性連接第二節點、第三節點以及接地端。第一電容電性連接於第三節點與接地端之間。In some embodiments, the control circuit includes a third resistor, a fourth resistor, a control element, and a first capacitor. The third resistor is used for receiving an input voltage. The fourth resistor is electrically connected between the third resistor and the ground terminal. The fourth resistor and the third resistor are connected in series at the third node. The control element is electrically connected to the second node, the third node, and the ground terminal. The first capacitor is electrically connected between the third node and the ground terminal.

在一些實施例中,控制元件內建參考電壓。當第二電壓大於參考電壓時,第一控制端透過控制元件被拉降至一地電壓,使得第一開關斷開。當第二電壓小於參考電壓時,第一開關依據位於第三節點的一第三電壓導通。In some embodiments, the control element has a built-in reference voltage. When the second voltage is greater than the reference voltage, the first control terminal is pulled down to a ground voltage through the control element, so that the first switch is turned off. When the second voltage is less than the reference voltage, the first switch is turned on according to a third voltage at the third node.

在一些實施例中,當第一開關斷開,一第一電流透過第一電阻以及第二電阻流至接地端。當第一開關導通,一第二電流透過定電流元件以及第一開關流至接地端。In some embodiments, when the first switch is turned off, a first current flows to the ground through the first resistor and the second resistor. When the first switch is turned on, a second current flows to the ground through the constant current element and the first switch.

在一些實施例中,延遲電路包含一第二電容。第二電容用以決定控制元件的一響應時間。In some embodiments, the delay circuit includes a second capacitor. The second capacitor is used to determine a response time of the control element.

綜上所述,在本揭示中的保護電路中,偵測電路偵測定電流元件的一端的電壓,使得控制電路依據該電壓控制開關元件是否導通。如此,可避免定電流元件的跨壓過高,進而保護電路系統。In summary, in the protection circuit in the present disclosure, the detection circuit detects the voltage at one end of the constant current element, so that the control circuit controls whether the switching element is turned on according to the voltage. In this way, excessive cross-voltage of the constant current element can be avoided, thereby protecting the circuit system.

下文係舉實施例配合所附圖式作詳細說明,但所提供之實施例並非用以限制本揭示所涵蓋的範圍,而結構運作之描述非用以限制其執行之順序,任何由元件重新組合之結構,所產生具有均等功效的裝置,皆為本揭示所涵蓋的範圍。此外,圖式僅以說明為目的,並未依照原尺寸作圖。為使便於理解,下述說明中相同元件或相似元件將以相同之符號標示來說明。The following is a detailed description with examples and the accompanying drawings, but the examples provided are not intended to limit the scope covered by this disclosure, and the description of the structure operation is not intended to limit the order of its execution, and any recombination of components The structure of the device and the device with the same effect are all covered by the present disclosure. In addition, the drawings are for illustration purposes only, and are not drawn to the original dimensions. In order to facilitate understanding, the same elements or similar elements in the following description will be described with the same symbols.

關於本文中所使用之「耦接」,可指二或多個元件相互「直接」作實體或電性接觸,或是相互「間接」作實體或電性接觸,亦可指二個或多個元件相互操作或動作。As used in this document, "coupling" may refer to two or more components making direct or physical contact with each other, or "indirect" making physical or electrical contact with each other, or two or more The elements operate or act on each other.

請參考第1圖。第1圖是依照本揭示一些實施例所繪示的一種電路系統100的功能方塊圖。以第1圖示例而言,電路系統100包含發光單元120、定電流元件140以及保護電路160。Please refer to Figure 1. FIG. 1 is a functional block diagram of a circuit system 100 according to some embodiments of the present disclosure. Taking the example in FIG. 1, the circuit system 100 includes a light emitting unit 120, a constant current element 140, and a protection circuit 160.

在一些實施例中,發光單元120包含至少一個發光元件。發光元件例如是發光二極體(LED),但本揭示內容不以此為限制。以第1圖示例而言,發光單元120包含兩個發光元件。發光單元120用以接收輸入電壓Vin。輸入電壓Vin用以驅動發光單元120中的該些發光元件,使得該些發光元件發亮。In some embodiments, the light emitting unit 120 includes at least one light emitting element. The light emitting element is, for example, a light emitting diode (LED), but the disclosure is not limited thereto. Taking the example in FIG. 1, the light emitting unit 120 includes two light emitting elements. The light emitting unit 120 is configured to receive an input voltage Vin. The input voltage Vin is used to drive the light emitting elements in the light emitting unit 120 so that the light emitting elements are illuminated.

上述發光單元120中發光元件的數量僅用以示例之目的。發光單元120中發光元件的各種數量皆在本揭示內容的考量範圍內。The number of the light-emitting elements in the above-mentioned light-emitting unit 120 is for example purposes only. Various numbers of light-emitting elements in the light-emitting unit 120 are within the scope of consideration in this disclosure.

在一些實施例中,定電流元件140與發光單元120以串聯的方式電性連接於節點N1,如第1圖所示。定電流元件140用以使流經發光單元120的電流值為固定。在一些實施例中,定電流元件140為被動式的定電流元件。在一些其他的實施例中,定電流元件140為主動式的定電流元件。In some embodiments, the constant current element 140 and the light emitting unit 120 are electrically connected to the node N1 in a serial manner, as shown in FIG. 1. The constant current element 140 is used to make the current value flowing through the light emitting unit 120 constant. In some embodiments, the constant current element 140 is a passive constant current element. In some other embodiments, the constant current element 140 is an active constant current element.

在一些實施例中,保護電路160電性連接發光單元120以及定電流元件140於節點N1。以第1圖示例而言,保護電路160包含偵測電路162、控制電路164以及開關元件166。In some embodiments, the protection circuit 160 is electrically connected to the light emitting unit 120 and the constant current element 140 at the node N1. Taking the example in FIG. 1, the protection circuit 160 includes a detection circuit 162, a control circuit 164, and a switching element 166.

在一些實施例中,偵測電路162電性連接節點N1。偵測電路162用以偵測位於節點N1的電壓Vcom,且依據電壓Vcom產生電壓Vp。控制電路164電性連接偵測電路162,以接收電壓Vp。控制電路164用以依據電壓Vp選擇性地輸出控制訊號CT1以及控制訊號CT2。開關元件166電性連接控制電路164,以接收控制訊號CT1或控制訊號CT2。另外,開關元件166電性連接於定電流元件140以及接地端GND之間。In some embodiments, the detection circuit 162 is electrically connected to the node N1. The detection circuit 162 is configured to detect a voltage Vcom at the node N1 and generate a voltage Vp according to the voltage Vcom. The control circuit 164 is electrically connected to the detection circuit 162 to receive the voltage Vp. The control circuit 164 is used for selectively outputting the control signal CT1 and the control signal CT2 according to the voltage Vp. The switching element 166 is electrically connected to the control circuit 164 to receive the control signal CT1 or the control signal CT2. In addition, the switching element 166 is electrically connected between the constant current element 140 and the ground terminal GND.

在一些實施例中,當電壓Vp小於一參考電壓(例如:第2圖中的參考電壓Vref)時,控制電路164輸出控制訊號CT2以導通開關元件166,使得電路系統100正常地運作。In some embodiments, when the voltage Vp is less than a reference voltage (for example, the reference voltage Vref in FIG. 2), the control circuit 164 outputs a control signal CT2 to turn on the switching element 166 so that the circuit system 100 operates normally.

在一些實施例中,當電壓Vp大於參考電壓Vref時,控制電路164輸出控制訊號CT1以斷開開關元件166,進而達到保護電路系統100的目的。詳細運作內容將於下述段落進行描述。In some embodiments, when the voltage Vp is greater than the reference voltage Vref, the control circuit 164 outputs a control signal CT1 to turn off the switching element 166, thereby achieving the purpose of protecting the circuit system 100. The detailed operation content will be described in the following paragraphs.

假設發光單元120的跨壓為Vf。位於節點N1的電壓Vcom可由以下公式(1)得到:Vin代表輸入電壓,且Vf代表發光單元120的跨壓。It is assumed that the cross-voltage of the light emitting unit 120 is Vf. The voltage Vcom at the node N1 can be obtained from the following formula (1): Vin represents the input voltage, and Vf represents the cross-voltage of the light-emitting unit 120.

由上述公式(1)可知,當輸入電壓Vin增加時,電壓Vcom會相應地增加。當電壓Vcom增加時,定電流元件140的消耗功率以及溫度會相應地增加。也就是說,當輸入電壓Vin過高時,電路系統100將會存在危險。It can be known from the above formula (1) that when the input voltage Vin increases, the voltage Vcom increases accordingly. When the voltage Vcom increases, the power consumption and temperature of the constant current element 140 increase accordingly. That is, when the input voltage Vin is too high, the circuit system 100 will be in danger.

由於電壓Vp是依據電壓Vcom所產生,因此,在一些實施例中,當電壓Vcom增加時,電壓Vp會相應地增加。當電壓Vp大於參考電壓Vref時,控制電路164輸出控制訊號CT1以斷開開關元件166。如此,電路系統100的主迴路(輸入電壓Vin、發光單元120、定電流元件140、開關元件166與接地端GND所形成的迴路)將形成斷路。在這種情況下,將不會有電流流經定電流元件140。藉此,可避免定電流元件140的消耗功率以及溫度過高,進而保護電路系統100。Since the voltage Vp is generated based on the voltage Vcom, in some embodiments, when the voltage Vcom increases, the voltage Vp increases accordingly. When the voltage Vp is greater than the reference voltage Vref, the control circuit 164 outputs a control signal CT1 to turn off the switching element 166. In this way, the main circuit of the circuit system 100 (the circuit formed by the input voltage Vin, the light emitting unit 120, the constant current element 140, the switching element 166, and the ground terminal GND) will form an open circuit. In this case, no current will flow through the constant current element 140. Thereby, the power consumption and temperature of the constant current element 140 can be prevented from being too high, thereby protecting the circuit system 100.

另外,在一些實施例中,當發光單元120中的發光元件發生損壞(例如:短路)時,發光單元120的跨壓Vf會下降。由上述公式(1)可知,當跨壓Vf下降時,電壓Vcom會相應地增加。如前所述,在一些實施例中,當電壓Vcom增加時,電壓Vp會相應地增加。當電壓Vp大於參考電壓Vref時,控制電路164會輸出控制訊號CT1以斷開開關元件166。如前所述,在這種情況下,將不會有電流流經定電流元件140。藉此,可避免定電流元件140的消耗功率以及溫度過高,進而保護電路系統100。In addition, in some embodiments, when the light emitting element in the light emitting unit 120 is damaged (for example, a short circuit), the cross-voltage Vf of the light emitting unit 120 may decrease. It can be known from the above formula (1) that when the cross-voltage Vf decreases, the voltage Vcom increases correspondingly. As mentioned previously, in some embodiments, as the voltage Vcom increases, the voltage Vp increases accordingly. When the voltage Vp is greater than the reference voltage Vref, the control circuit 164 outputs a control signal CT1 to turn off the switching element 166. As mentioned earlier, in this case, no current will flow through the constant current element 140. Thereby, the power consumption and temperature of the constant current element 140 can be prevented from being too high, thereby protecting the circuit system 100.

請參考第2圖。第2圖是依照本揭示一些實施例所繪示的第1圖的電路系統100的電路圖。為易於理解之目的,第2圖中與第1圖中相似的元件將指定相同的標號。Please refer to Figure 2. FIG. 2 is a circuit diagram of the circuit system 100 of FIG. 1 according to some embodiments of the present disclosure. For ease of understanding, similar elements in Figure 2 to those in Figure 1 will be assigned the same reference numerals.

在一些實施例中,偵測電路162包含電阻R1、電阻R2以及延遲電路1622。電阻R1與電阻R2是以串聯的方式電性連接於節點N2。電阻R1與電阻R2形成一分壓電路。另外,延遲電路1622與電阻R2則是以並聯的方式電性連接。在一些實施例中,延遲電路1622包含電容C2。In some embodiments, the detection circuit 162 includes a resistor R1, a resistor R2, and a delay circuit 1622. The resistor R1 and the resistor R2 are electrically connected to the node N2 in a series manner. The resistor R1 and the resistor R2 form a voltage dividing circuit. In addition, the delay circuit 1622 and the resistor R2 are electrically connected in parallel. In some embodiments, the delay circuit 1622 includes a capacitor C2.

用另一種方式解釋,電阻R1電性連接於節點N1與節點N2之間。電阻R2與電容C2皆是電性連接於節點N2與接地端GND之間。Explained in another way, the resistor R1 is electrically connected between the node N1 and the node N2. The resistor R2 and the capacitor C2 are both electrically connected between the node N2 and the ground terminal GND.

在一些實施例中,控制電路164與偵測電路162電性連接於節點N2。以第2圖示例而言,控制電路164包含電壓比較單元U1、開關Q2以及電容C1、電阻R3以及電阻R4。In some embodiments, the control circuit 164 and the detection circuit 162 are electrically connected to the node N2. Taking the example in FIG. 2, the control circuit 164 includes a voltage comparison unit U1, a switch Q2, a capacitor C1, a resistor R3, and a resistor R4.

在一些實施例中,電壓比較單元U1是以運算放大器實現,但本揭示內容不以此為限制。電壓比較單元U1包含輸入端IN1、輸入端IN2以及輸出端O1。輸入端IN1電性連接節點N2,以接收電壓Vp。輸入端IN2用以接收參考電壓Vref。在一些實施例中,參考電壓Vref是由一直流(DC)電壓源所提供。開關Q2包含控制端B、連接端E以及連接端C。控制端B電性連接輸出端O1。連接端E電性連接接地端GND。連接端C電性連接節點N3。電容C1電性連接於節點N3與接地端GND之間。電阻R3用以接收輸入電壓Vin。電阻R4與電阻R3以串聯的方式電性連接於節點N3。電阻R4電性連接於電阻R3與接地端GND之間。In some embodiments, the voltage comparison unit U1 is implemented by an operational amplifier, but the disclosure is not limited thereto. The voltage comparison unit U1 includes an input terminal IN1, an input terminal IN2, and an output terminal O1. The input terminal IN1 is electrically connected to the node N2 to receive the voltage Vp. The input terminal IN2 is used to receive the reference voltage Vref. In some embodiments, the reference voltage Vref is provided by a direct current (DC) voltage source. The switch Q2 includes a control terminal B, a connection terminal E, and a connection terminal C. The control terminal B is electrically connected to the output terminal O1. The connection terminal E is electrically connected to the ground terminal GND. The connection terminal C is electrically connected to the node N3. The capacitor C1 is electrically connected between the node N3 and the ground terminal GND. The resistor R3 is used to receive the input voltage Vin. The resistor R4 and the resistor R3 are electrically connected to the node N3 in series. The resistor R4 is electrically connected between the resistor R3 and the ground terminal GND.

以第2圖示例而言,開關Q2是以單獨一個N型雙載子接面電晶體(BJT)實現,但本揭示內容不以此為限制。各種得以實現開關Q2的開關元件皆在本揭示內容的考量範圍內。舉例來說,在一些實施例中,開關Q2可為金屬氧化物半導體場效電晶體(MOSFET)或絕緣閘雙極電晶體(IGBT)。Taking the example in FIG. 2 as an example, the switch Q2 is implemented by a single N-type junction junction transistor (BJT), but this disclosure is not limited thereto. Various switching elements that can implement the switch Q2 are within the scope of this disclosure. For example, in some embodiments, the switch Q2 may be a metal oxide semiconductor field effect transistor (MOSFET) or an insulated gate bipolar transistor (IGBT).

在一些實施例中,開關元件166與控制電路164電性連接於節點N3。在一些實施例中,開關元件166包含開關Q1。以第2圖示例而言,開關Q1是以單獨一個N型金屬氧化物半導體場效電晶體(MOSFET)實現,但本揭示內容不以此為限制。各種得以實現開關Q1的開關元件皆在本揭示內容的考量範圍內。舉例來說,在一些其他的實施例中,開關Q1可為雙載子接面電晶體(BJT)或絕緣閘雙極電晶體(IGBT)。In some embodiments, the switching element 166 and the control circuit 164 are electrically connected to the node N3. In some embodiments, the switching element 166 includes a switch Q1. Taking the example in FIG. 2 as an example, the switch Q1 is implemented by a single N-type metal-oxide-semiconductor field-effect transistor (MOSFET), but this disclosure is not limited thereto. Various switching elements that can implement the switch Q1 are within the scope of this disclosure. For example, in some other embodiments, the switch Q1 may be a bipolar junction transistor (BJT) or an insulated gate bipolar transistor (IGBT).

以第2圖示例而言,開關Q1包含控制端G、連接端S以及連接端D。在一些實施例中,控制端G為閘極端,連接端S為源極端,且連接端D為汲極端。控制端G電性連接電阻R3於節點N3。連接端S電性連接接地端GND。連接端D電性連接定電流元件140。在一些實施例中,定電流元件140包含電阻R5。電阻R5電性連接於節點N1與連接端D之間。Taking the example in FIG. 2, the switch Q1 includes a control terminal G, a connection terminal S, and a connection terminal D. In some embodiments, the control terminal G is a gate terminal, the connection terminal S is a source terminal, and the connection terminal D is a drain terminal. The control terminal G is electrically connected to the resistor R3 to the node N3. The connection terminal S is electrically connected to the ground terminal GND. The connection terminal D is electrically connected to the constant current element 140. In some embodiments, the constant current element 140 includes a resistor R5. The resistor R5 is electrically connected between the node N1 and the connection terminal D.

上述的偵測電路162、控制電路164以及開關元件166的配置僅用以示例之目的。偵測電路162、控制電路164以及開關元件166的各種配置皆在本揭示內容的考量範圍內。The above-mentioned configurations of the detection circuit 162, the control circuit 164, and the switching element 166 are for example purposes only. Various configurations of the detection circuit 162, the control circuit 164, and the switching element 166 are within the scope of consideration in this disclosure.

在一些實施例中,位於節點N2的電壓Vp可由以下公式(2)得到:r1代表電阻R1的電阻值,r2代表電阻R2的電阻值,Vcom代表位於節點N1的電壓,Vp代表位於節點N2的電壓,Vin代表輸入電壓,且Vf代表發光單元120的跨壓。In some embodiments, the voltage Vp at the node N2 can be obtained by the following formula (2): r1 represents the resistance value of resistor R1, r2 represents the resistance value of resistor R2, Vcom represents the voltage at node N1, Vp represents the voltage at node N2, Vin represents the input voltage, and Vf represents the cross-voltage of the light emitting unit 120.

在一些實施例中,電阻R1的電阻值r1以及電阻R2的電阻值r2可依據實際需求進行選擇,以調整電壓Vp的電壓值。In some embodiments, the resistance value r1 of the resistor R1 and the resistance value r2 of the resistor R2 may be selected according to actual needs to adjust the voltage value of the voltage Vp.

在一些實施例中,透過調整電壓Vp以及設定參考電壓Vref,可決定電壓比較單元U1輸出控制訊號CT3或CT4的條件。In some embodiments, by adjusting the voltage Vp and setting the reference voltage Vref, the conditions under which the voltage comparison unit U1 outputs the control signal CT3 or CT4 can be determined.

如前述實施例所述,當異常(例如:輸入電壓Vin過高或發光單元120短路)發生時,位於節點N1的電壓Vcom會相應地增加。由上述公式(2)可知,電壓Vp與電壓Vcom成正比。因此,當電壓Vcom增加時,電壓Vp亦會相應地增加。As described in the foregoing embodiment, when an abnormality (for example, the input voltage Vin is too high or the light-emitting unit 120 is short-circuited) occurs, the voltage Vcom at the node N1 will increase accordingly. As can be seen from the above formula (2), the voltage Vp is proportional to the voltage Vcom. Therefore, when the voltage Vcom increases, the voltage Vp also increases accordingly.

當電壓Vp大於參考電壓Vref時,電壓比較單元U1輸出控制訊號CT3至控制端B,以導通開關Q2。在一些實施例中,開關Q2為N型開關元件,且控制訊號CT3為具有邏輯值1的控制訊號。當開關Q2導通後,開關Q1的控制端G透過開關Q2被拉降至接地端GND的地電壓(例如:0伏特)。如此,開關Q1會被斷開。當開關Q1斷開,將不會有電流流經定電流元件140。而保護電流(電流I1)將透過電阻R1以及電阻R2流至接地端GND。When the voltage Vp is greater than the reference voltage Vref, the voltage comparison unit U1 outputs a control signal CT3 to the control terminal B to turn on the switch Q2. In some embodiments, the switch Q2 is an N-type switching element, and the control signal CT3 is a control signal having a logic value of 1. After the switch Q2 is turned on, the control terminal G of the switch Q1 is pulled down to the ground voltage (for example, 0 volts) of the ground terminal GND through the switch Q2. In this way, the switch Q1 is turned off. When the switch Q1 is turned off, no current will flow through the constant current element 140. The protection current (current I1) flows to the ground terminal GND through the resistor R1 and the resistor R2.

在一些實施例中,電流I1可由以下公式(3)得到:r1代表電阻R1的電阻值,r2代表電阻R2的電阻值,Vin代表輸入電壓,且Vf代表發光單元120的跨壓。In some embodiments, the current I1 can be obtained by the following formula (3): r1 represents the resistance value of the resistor R1, r2 represents the resistance value of the resistor R2, Vin represents the input voltage, and Vf represents the cross-voltage of the light-emitting unit 120.

在一些實施例中,電阻R1的電阻值r1以及電阻R2的電阻值r2可依據實際需求進行選擇,使得電流I1的電流值位於安全範圍內。In some embodiments, the resistance value r1 of the resistor R1 and the resistance value r2 of the resistor R2 may be selected according to actual requirements, so that the current value of the current I1 is within a safe range.

當異常排除後,位於節點N1的電壓Vcom會下降。由上述公式(2)可知,電壓Vp會依據電壓Vcom相應地下降。當電壓Vp小於參考電壓Vref時,電壓比較單元U1輸出控制訊號CT4至控制端B,以斷開開關Q2。在一些實施例中,開關Q2為N型開關元件,且控制訊號CT4為具有邏輯值0的控制訊號。當開關Q2斷開後,開關Q1依據位於節點N3的電壓V3而導通。When the abnormality is eliminated, the voltage Vcom at the node N1 will drop. It can be known from the above formula (2) that the voltage Vp will decrease according to the voltage Vcom. When the voltage Vp is less than the reference voltage Vref, the voltage comparison unit U1 outputs a control signal CT4 to the control terminal B to turn off the switch Q2. In some embodiments, the switch Q2 is an N-type switching element, and the control signal CT4 is a control signal having a logic value 0. When the switch Q2 is turned off, the switch Q1 is turned on according to the voltage V3 at the node N3.

在一些實施例中,電壓V3可由以下公式(4)得到:r3代表電阻R3的電阻值,r4代表電阻R4的電阻值,且Vin代表輸入電壓。In some embodiments, the voltage V3 can be obtained by the following formula (4): r3 represents the resistance value of resistor R3, r4 represents the resistance value of resistor R4, and Vin represents the input voltage.

當開關Q1導通,電流I2透過電阻R5以及開關Q1流至接地端GND。在這種情況下,電路系統100得以正常地運作。When the switch Q1 is turned on, the current I2 flows to the ground terminal GND through the resistor R5 and the switch Q1. In this case, the circuit system 100 can operate normally.

另外,控制電路164中的電容C1用以濾除雜訊。偵測電路162的電容C2用以延遲訊號。據此,在一些實施例中,電容C1的電容值遠小於電容C2的電容值。In addition, the capacitor C1 in the control circuit 164 is used to filter out noise. The capacitor C2 of the detection circuit 162 is used to delay the signal. Accordingly, in some embodiments, the capacitance value of the capacitor C1 is much smaller than the capacitance value of the capacitor C2.

另一方面,延遲電路1622的電容C2用以決定電壓比較單元U1輸出控制訊號CT3或控制訊號CT4的響應時間。On the other hand, the capacitor C2 of the delay circuit 1622 is used to determine the response time of the voltage comparison unit U1 to output the control signal CT3 or the control signal CT4.

舉例來說,當異常(例如:輸入電壓Vin過高或發光單元120短路)發生時,位於節點N1的電壓Vcom快速地增加。據此,電壓Vcom會對電容C2充電。在響應時間到達之前,位於節點N2的電壓Vp會因為電阻電容延遲(RC delay)效應而緩慢地增加。當響應時間到達後,電壓Vp才會增加至符合上述公式(2)。因此,藉由電容C2的設置,可避免保護電路160因為雜訊發生誤動作。For example, when an abnormality (for example, the input voltage Vin is too high or the light-emitting unit 120 is short-circuited) occurs, the voltage Vcom at the node N1 increases rapidly. Accordingly, the voltage Vcom will charge the capacitor C2. Before the response time is reached, the voltage Vp at the node N2 will slowly increase due to the RC delay effect. When the response time is reached, the voltage Vp will increase to meet the above formula (2). Therefore, by setting the capacitor C2, the protection circuit 160 can be prevented from malfunctioning due to noise.

上述的響應時間與電阻R1的電阻值r1、電阻R2的電阻值r2以及電容C2的電容值相關。據此,電阻R1、電阻R2以及電容C2可依據實際需求進行選擇,以調整上述的響應時間。暫態響應的內容應為本領域具有通常知識者所熟知,故於此不再贅述。The above-mentioned response time is related to the resistance value r1 of the resistor R1, the resistance value r2 of the resistor R2, and the capacitance value of the capacitor C2. Accordingly, the resistor R1, the resistor R2, and the capacitor C2 can be selected according to actual needs to adjust the above-mentioned response time. The content of the transient response should be familiar to those having ordinary knowledge in the art, so it will not be repeated here.

請參考第3圖。第3圖是依照本揭示一些實施例所繪示的第1圖的電路系統100的電路圖。為易於理解之目的,第3圖中與第2圖中相似的元件將指定相同的標號。Please refer to Figure 3. FIG. 3 is a circuit diagram of the circuit system 100 of FIG. 1 according to some embodiments of the present disclosure. For ease of understanding, similar elements in Figure 3 as in Figure 2 will be assigned the same reference numerals.

以下僅針對第3圖中與第2圖中不同的地方進行詳述。其餘內容請參考相關於第2圖之實施例的段落,於此不再贅述。In the following, only the differences between Figure 3 and Figure 2 will be described in detail. For the rest, please refer to the paragraphs related to the embodiment in FIG. 2, which will not be repeated here.

在一些實施例中,控制電路264與偵測電路162電性連接於節點N2。控制電路264與開關元件166電性連接於節點N3。以第3圖示例而言,控制電路264包含電阻R3、電阻R4、控制元件2642以及電容C1。In some embodiments, the control circuit 264 and the detection circuit 162 are electrically connected to the node N2. The control circuit 264 and the switching element 166 are electrically connected to the node N3. Taking the example in FIG. 3, the control circuit 264 includes a resistor R3, a resistor R4, a control element 2642, and a capacitor C1.

電阻R3用以接收輸入電壓Vin。電阻R4與電阻R3以串聯的方式電性連接於節點N3。電阻R4電性連接於電阻R3與接地端GND之間。電容C1電性連接於節點N3與接地端GND之間。The resistor R3 is used to receive the input voltage Vin. The resistor R4 and the resistor R3 are electrically connected to the node N3 in series. The resistor R4 is electrically connected between the resistor R3 and the ground terminal GND. The capacitor C1 is electrically connected between the node N3 and the ground terminal GND.

在一些實施例中,控制元件2642電性連接節點N2,以接收電壓Vp。控制元件2642更電性連接於節點N3與接地端GND之間。以第3圖示例而言,控制元件2642包含陽極端A與陰極端K。陽極端A電性連接接地端GND。陰極端K電性連接節點N3。在一些實施例中,控制元件2642是以並聯穩壓器實現,例如:積體電路元件TL432。在一些實施例中,控制元件2642中內建有參考電壓(圖未示)。In some embodiments, the control element 2642 is electrically connected to the node N2 to receive the voltage Vp. The control element 2642 is further electrically connected between the node N3 and the ground terminal GND. Taking the example in FIG. 3, the control element 2642 includes an anode terminal A and a cathode terminal K. The anode terminal A is electrically connected to the ground terminal GND. The cathode terminal K is electrically connected to the node N3. In some embodiments, the control element 2642 is implemented by a parallel regulator, such as an integrated circuit element TL432. In some embodiments, the control element 2642 has a built-in reference voltage (not shown).

上述的控制電路264的配置僅用以示例之目的。控制電路264的各種配置皆在本揭示內容的考量範圍內。The configuration of the control circuit 264 described above is for example purposes only. Various configurations of the control circuit 264 are within the scope of consideration of this disclosure.

當電壓Vp大於控制元件2642的內建參考電壓時,控制元件2642的陽極端A與陰極端K將形成短路。如此,開關Q1的控制端G透過控制元件2642被拉降至接地端GND的地電壓,使得開關Q1斷開。在這種情況下,將不會有電流流經定電流元件140。藉此,可避免定電流元件140的消耗功率以及溫度過高,進而保護電路系統100。When the voltage Vp is greater than the built-in reference voltage of the control element 2642, the anode terminal A and the cathode terminal K of the control element 2642 will be short-circuited. In this way, the control terminal G of the switch Q1 is pulled down to the ground voltage of the ground terminal GND through the control element 2642, so that the switch Q1 is turned off. In this case, no current will flow through the constant current element 140. Thereby, the power consumption and temperature of the constant current element 140 can be prevented from being too high, thereby protecting the circuit system 100.

當電壓Vp小於控制元件2642的內建參考電壓時,控制元件2642的陽極端A與陰極端K將形成開路。在這種情況下,開關Q1將依據位於節點N3的電壓V3而導通。電壓V3可由前述的公式(4)得到。如此,電路系統100得以正常地運作。When the voltage Vp is less than the built-in reference voltage of the control element 2642, the anode terminal A and the cathode terminal K of the control element 2642 will form an open circuit. In this case, the switch Q1 will be turned on according to the voltage V3 at the node N3. The voltage V3 can be obtained from the aforementioned formula (4). In this way, the circuit system 100 can operate normally.

相似的,電容C2用以決定控制元件2642的響應時間。此響應時間與電阻R1的電阻值r1、電阻R2的電阻值r2以及電容C2的電容值相關。據此,電阻R1、電阻R2以及電容C2可依據實際需求進行選擇,以調整此響應時間。暫態響應的內容應為本領域具有通常知識者所熟知,故於此不再贅述。Similarly, the capacitor C2 is used to determine the response time of the control element 2642. This response time is related to the resistance value r1 of the resistor R1, the resistance value r2 of the resistor R2, and the capacitance value of the capacitor C2. Accordingly, the resistor R1, the resistor R2, and the capacitor C2 can be selected according to actual needs to adjust the response time. The content of the transient response should be familiar to those having ordinary knowledge in the art, so it will not be repeated here.

綜上所述,在本揭示中的保護電路中,偵測電路偵測定電流元件的一端的電壓,使得控制電路依據該電壓控制開關元件是否導通。如此,可避免定電流元件的跨壓過高,進而保護電路系統。In summary, in the protection circuit in the present disclosure, the detection circuit detects the voltage at one end of the constant current element, so that the control circuit controls whether the switching element is turned on according to the voltage. In this way, excessive cross-voltage of the constant current element can be avoided, thereby protecting the circuit system.

雖然本揭示已以實施方式揭示如上,然其並非用以限定本揭示,任何本領域具通常知識者,在不脫離本揭示之精神和範圍內,當可作各種之更動與潤飾,因此本揭示之保護範圍當視後附之申請專利範圍所界定者為準。Although the present disclosure has been disclosed as above in the form of implementation, it is not intended to limit the present disclosure. Any person with ordinary knowledge in the field can make various changes and modifications without departing from the spirit and scope of the present disclosure. The scope of protection shall be determined by the scope of the attached patent application.

100‧‧‧電路系統100‧‧‧circuit system

120‧‧‧發光單元120‧‧‧light-emitting unit

140‧‧‧定電流元件140‧‧‧Constant current element

160‧‧‧保護電路160‧‧‧Protection circuit

162‧‧‧偵測電路162‧‧‧detection circuit

1622‧‧‧延遲電路1622‧‧‧ Delay circuit

164、264‧‧‧控制電路164, 264‧‧‧Control circuit

2642‧‧‧控制元件2642‧‧‧Control element

166‧‧‧開關元件166‧‧‧Switch element

Vin‧‧‧輸入電壓Vin‧‧‧ input voltage

Vf‧‧‧跨壓Vf‧‧‧ Cross pressure

Vcom、Vp、V3‧‧‧電壓Vcom, Vp, V3‧‧‧ voltage

CT1、CT2、CT3、CT4‧‧‧控制訊號CT1, CT2, CT3, CT4‧‧‧ control signals

R1、R2、R3、R4、R5‧‧‧電阻R1, R2, R3, R4, R5‧‧‧ resistance

GND‧‧‧接地端GND‧‧‧ ground terminal

N1、N2、N3‧‧‧節點N1, N2, N3‧‧‧ nodes

Q1、Q2‧‧‧開關Q1, Q2‧‧‧ Switch

G、B‧‧‧控制端G, B‧‧‧Control terminal

S、D、E、C‧‧‧連接端S, D, E, C‧‧‧Connector

U1‧‧‧電壓比較單元U1‧‧‧Voltage comparison unit

IN1、IN2‧‧‧輸入端IN1, IN2‧‧‧ input terminals

O1‧‧‧輸出端O1‧‧‧ output

I1、I2‧‧‧電流I1, I2‧‧‧ current

A‧‧‧陽極端A‧‧‧Anode

K‧‧‧陰極端K‧‧‧ cathode terminal

為讓本揭示之上述和其他目的、特徵、優點與實施例能更明顯易懂,所附圖式之說明如下: 第1圖是依照本揭示一些實施例所繪示的一種電路系統的功能方塊圖; 第2圖是依照本揭示一些實施例所繪示的第1圖的電路系統的電路圖;以及 第3圖是依照本揭示一些實施例所繪示的第1圖的電路系統的電路圖。In order to make the above and other objects, features, advantages and embodiments of the present disclosure more comprehensible, the description of the drawings is as follows: FIG. 1 is a functional block diagram of a circuit system according to some embodiments of the present disclosure. 2 is a circuit diagram of the circuit system of FIG. 1 according to some embodiments of the present disclosure; and FIG. 3 is a circuit diagram of the circuit system of FIG. 1 according to some embodiments of the present disclosure.

Claims (11)

一種保護電路,包含:一偵測電路,與一定電流元件及一發光單元電性連接於一第一節點,該偵測電路用以偵測該第一節點的一第一電壓,且依據該第一電壓產生一第二電壓;一控制電路,電性連接該偵測電路,該控制電路用以依據該第二電壓選擇性地輸出一第一控制訊號以及一第二控制訊號;一開關元件,電性連接該定電流元件、該控制電路以及一接地端,其中當該第二電壓大於一參考電壓時,該控制電路輸出該第一控制訊號以斷開該開關元件,以使一電流未透過該定電流元件流至該接地端,當該第二電壓小於該參考電壓時,該控制電路輸出該第二控制訊號以導通該開關元件。A protection circuit includes a detection circuit electrically connected to a first node with a certain current element and a light-emitting unit. The detection circuit is used to detect a first voltage of the first node, and according to the first A voltage generates a second voltage; a control circuit electrically connected to the detection circuit, the control circuit is configured to selectively output a first control signal and a second control signal according to the second voltage; a switching element, The constant current element, the control circuit, and a ground terminal are electrically connected. When the second voltage is greater than a reference voltage, the control circuit outputs the first control signal to disconnect the switching element so that a current does not pass The constant current element flows to the ground terminal. When the second voltage is less than the reference voltage, the control circuit outputs the second control signal to turn on the switching element. 如申請專利範圍第1項所述之保護電路,其中該偵測電路包含:一第一電阻,電性連接於該第一節點與一第二節點之間;一第二電阻,電性連接於該第二節點與該接地端之間;以及一延遲電路,電性連接於該第二節點與該接地端之間。The protection circuit according to item 1 of the scope of patent application, wherein the detection circuit includes: a first resistor electrically connected between the first node and a second node; a second resistor electrically connected between Between the second node and the ground terminal; and a delay circuit electrically connected between the second node and the ground terminal. 如申請專利範圍第2項所述之保護電路,其中該開關元件包含:一第一開關,包含一第一控制端、一第一連接端以及一第二連接端,其中該第一控制端與該控制電路電性連接於一第三節點,該第一連接端電性連接該接地端,該第二連接端電性連接該定電流元件。The protection circuit according to item 2 of the scope of patent application, wherein the switching element includes: a first switch including a first control terminal, a first connection terminal, and a second connection terminal, wherein the first control terminal and the The control circuit is electrically connected to a third node, the first connection terminal is electrically connected to the ground terminal, and the second connection terminal is electrically connected to the constant current element. 如申請專利範圍第3項所述之保護電路,其中該控制電路包含:一第三電阻,用以接收一輸入電壓;以及一第四電阻,電性連接於該第三電阻與該接地端之間,該第四電阻與該第三電阻串聯連接於該第三節點;一電壓比較單元,包含一第一輸入端、一第二輸入端以及一第一輸出端,其中該第一輸入端電性連接該第二節點,該第二輸入端用以接收該參考電壓;一第二開關,包含一第二控制端、一第三連接端以及一第四連接端,其中該第二控制端電性連接該第一輸出端,該第三連接端電性連接該接地端,該第四連接端電性連接該第三節點;以及一第一電容,電性連接於該第三節點與該接地端之間。The protection circuit according to item 3 of the scope of patent application, wherein the control circuit includes: a third resistor for receiving an input voltage; and a fourth resistor electrically connected between the third resistor and the ground terminal. In the meantime, the fourth resistor and the third resistor are connected in series to the third node; a voltage comparison unit includes a first input terminal, a second input terminal, and a first output terminal, wherein the first input terminal is electrically To the second node, the second input terminal is used to receive the reference voltage; a second switch includes a second control terminal, a third connection terminal and a fourth connection terminal, wherein the second control terminal is electrically The first output terminal is electrically connected, the third connection terminal is electrically connected to the ground terminal, the fourth connection terminal is electrically connected to the third node, and a first capacitor is electrically connected to the third node and the ground. Between ends. 如申請專利範圍第4項所述之保護電路,其中當該第二電壓大於該參考電壓時,該電壓比較單元輸出一第三控制訊號至該第二控制端以導通該第二開關,該第一控制端透過該第二開關被拉降至一地電壓,使得該第一開關斷開,當該第二電壓小於該參考電壓時,該電壓比較單元輸出一第四控制訊號至該第二控制端以斷開該第二開關,使得該第一開關依據位於該第三節點的一第三電壓導通。The protection circuit according to item 4 of the scope of patent application, wherein when the second voltage is greater than the reference voltage, the voltage comparison unit outputs a third control signal to the second control terminal to turn on the second switch. A control terminal is pulled down to a ground voltage through the second switch, so that the first switch is turned off. When the second voltage is less than the reference voltage, the voltage comparison unit outputs a fourth control signal to the second control. To disconnect the second switch, so that the first switch is turned on according to a third voltage at the third node. 如申請專利範圍第5項所述之保護電路,其中當該第一開關斷開,一第一電流透過該第一電阻以及該第二電阻流至該接地端,當該第一開關導通,一第二電流透過該定電流元件以及該第一開關流至該接地端。The protection circuit according to item 5 of the scope of patent application, wherein when the first switch is turned off, a first current flows to the ground through the first resistor and the second resistor, and when the first switch is turned on, a A second current flows to the ground through the constant current element and the first switch. 如申請專利範圍第5項所述之保護電路,其中該延遲電路包含一第二電容,該第二電容用以決定該電壓比較單元輸出該第三控制訊號或該第四控制訊號的一響應時間。The protection circuit according to item 5 of the scope of patent application, wherein the delay circuit includes a second capacitor, and the second capacitor is used to determine a response time for the voltage comparison unit to output the third control signal or the fourth control signal. . 如申請專利範圍第3項所述之保護電路,其中該控制電路包含:一第三電阻,用以接收一輸入電壓;一第四電阻,電性連接於該第三電阻與該接地端之間,該第四電阻與該第三電阻串聯連接於該第三節點;一控制元件,電性連接該第二節點、該第三節點以及該接地端;以及一第一電容,電性連接於該第三節點與該接地端之間。The protection circuit according to item 3 of the scope of patent application, wherein the control circuit includes: a third resistor for receiving an input voltage; a fourth resistor electrically connected between the third resistor and the ground terminal The fourth resistor and the third resistor are connected in series to the third node; a control element is electrically connected to the second node, the third node and the ground terminal; and a first capacitor is electrically connected to the third node Between the third node and the ground terminal. 如申請專利範圍第8項所述之保護電路,其中該控制元件內建該參考電壓,當該第二電壓大於該參考電壓時,該第一控制端透過該控制元件被拉降至一地電壓,使得該第一開關斷開,當該第二電壓小於該參考電壓時,該第一開關依據位於該第三節點的一第三電壓導通。The protection circuit according to item 8 of the scope of patent application, wherein the control element has the built-in reference voltage, and when the second voltage is greater than the reference voltage, the first control terminal is pulled down to a ground voltage through the control element. So that the first switch is turned off, and when the second voltage is less than the reference voltage, the first switch is turned on according to a third voltage at the third node. 如申請專利範圍第9項所述之保護電路,其中當該第一開關斷開,一第一電流透過該第一電阻以及該第二電阻流至該接地端,當該第一開關導通,一第二電流透過該定電流元件以及該第一開關流至該接地端。The protection circuit according to item 9 of the scope of patent application, wherein when the first switch is turned off, a first current flows to the ground through the first resistor and the second resistor, and when the first switch is turned on, a A second current flows to the ground through the constant current element and the first switch. 如申請專利範圍第9項所述之保護電路,其中該延遲電路包含一第二電容,該第二電容用以決定該控制元件的一響應時間。The protection circuit according to item 9 of the scope of patent application, wherein the delay circuit includes a second capacitor, and the second capacitor is used to determine a response time of the control element.
TW107106840A 2016-12-30 2016-12-30 Protection circuit TWI677154B (en)

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TW201238388A (en) * 2011-03-02 2012-09-16 Green Solution Tech Co Ltd LED driving circuit and short-circuit protection circuit
TW201315281A (en) * 2011-09-30 2013-04-01 Luxul Technology Inc Shunt-type AC LED driving circuit
US20130307424A1 (en) * 2012-05-16 2013-11-21 Richard Landry Gray Device and Method for Driving an LED Light
US20140152186A1 (en) * 2012-11-30 2014-06-05 Shenzhen China Star Optoelectronics Co., Ltd Led backlight driving circuit, backlight module, and lcd device
TWM501708U (en) * 2012-11-16 2015-05-21 Anwell Semiconductor Corp High stability LED control circuit

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TW201238388A (en) * 2011-03-02 2012-09-16 Green Solution Tech Co Ltd LED driving circuit and short-circuit protection circuit
TW201315281A (en) * 2011-09-30 2013-04-01 Luxul Technology Inc Shunt-type AC LED driving circuit
US20130307424A1 (en) * 2012-05-16 2013-11-21 Richard Landry Gray Device and Method for Driving an LED Light
TWM501708U (en) * 2012-11-16 2015-05-21 Anwell Semiconductor Corp High stability LED control circuit
US20140152186A1 (en) * 2012-11-30 2014-06-05 Shenzhen China Star Optoelectronics Co., Ltd Led backlight driving circuit, backlight module, and lcd device

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