TWM447631U - Power converting apparatus - Google Patents
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本創作是有關於一種電源轉換裝置,且特別是有關於一種電源轉換裝置的過溫保護機制。The present invention relates to a power conversion device, and more particularly to an over temperature protection mechanism for a power conversion device.
請參照圖1,圖1繪示習知的電源轉換裝置100電路圖。電源轉換裝置100藉由驅動器110依據脈寬調變信號PWM來產生控制信號CTRL。控制信號CTRL被傳送至功率電晶體PM的閘極,並控制功率電晶體PM的導通以及斷開。透過功率電晶體PM週期性的導通以及斷開動作,電源轉換裝置100可針對所接收的輸入電壓進行轉換而產生輸出電壓。Please refer to FIG. 1 . FIG. 1 is a circuit diagram of a conventional power conversion device 100 . The power conversion device 100 generates the control signal CTRL by the driver 110 according to the pulse width modulation signal PWM. The control signal CTRL is transmitted to the gate of the power transistor PM and controls the conduction and disconnection of the power transistor PM. Through the periodic conduction and disconnection of the power transistor PM, the power conversion device 100 can convert the received input voltage to generate an output voltage.
為了確保功率電晶體PM或其它易產生高溫的元件不會因為溫度過高導致燒毀,可將熱敏電阻RNTC放置於需保護元件旁,而習知的電源轉換裝置100設置由熱敏電阻RNTC、比較器CMP1以及電流源I1所建構的溫度偵測器電路。其中,電流源I1提供電流流經熱敏電阻RNTC,而熱敏電阻RNTC與比較器CMP1所連接的端點則據以產生電壓。比較器CMP1將這個電壓與預設的臨界電壓Vref進行比較,來判定環境溫度是否過高,並據以產生過溫保護信號OTP。In order to ensure that the power transistor PM or other components that are prone to high temperatures do not burn due to excessive temperature, the thermistor RNTC can be placed next to the component to be protected, and the conventional power conversion device 100 is provided by the thermistor RNTC, The comparator CMP1 and the temperature detector circuit constructed by the current source I1. Wherein, the current source I1 supplies a current through the thermistor RNTC, and the end point of the thermistor RNTC and the comparator CMP1 is connected to generate a voltage. The comparator CMP1 compares this voltage with a preset threshold voltage Vref to determine whether the ambient temperature is too high and accordingly generates an overtemperature protection signal OTP.
在電源轉換裝置100晶片化條件下,功率電晶體PM以及熱敏電阻RNTC通常都是外掛在晶片外的元件。因 此,習知的電源轉換裝置100需要兩個獨立的接腳GD以及OT來分別連接功率電晶體PM以及熱敏電阻RNTC。如此一來,會造成晶片面積的增加,導致產品成本的增加。Under the wafer-forming conditions of the power conversion device 100, the power transistor PM and the thermistor RNTC are typically components that are external to the wafer. because Therefore, the conventional power conversion device 100 requires two independent pins GD and OT to respectively connect the power transistor PM and the thermistor RNTC. As a result, the wafer area is increased, resulting in an increase in product cost.
本創作提供一種電源轉換裝置,不需要為進行溫度增測而增加額外的接腳。This creation provides a power conversion device that does not require additional pins for temperature increase.
本創作提出一種電源轉換裝置,包括功率電晶體、熱敏電阻以及溫度偵測電路。功率電晶體耦接至輸入電壓,功率電晶體的控制端接收控制信號。功率電晶體依據控制信號以轉換輸入電壓以產生輸出電壓。熱敏電阻串接在功率電晶體的控制端以及參考接地電壓間,其中,熱敏電阻具有負溫度係數。溫度偵測電路耦接熱敏電阻以及功率電晶體,用以產生控制信號並藉由控制信號提供驅動電流至功率電晶體的控制端。溫度偵測電路更依據偵測驅動電流來產生過溫保護信號。The present invention proposes a power conversion device including a power transistor, a thermistor, and a temperature detecting circuit. The power transistor is coupled to the input voltage, and the control terminal of the power transistor receives the control signal. The power transistor converts the input voltage according to a control signal to generate an output voltage. The thermistor is connected in series between the control end of the power transistor and the reference ground voltage, wherein the thermistor has a negative temperature coefficient. The temperature detecting circuit is coupled to the thermistor and the power transistor for generating a control signal and providing a driving current to the control end of the power transistor by the control signal. The temperature detecting circuit generates an over temperature protection signal according to the detected driving current.
在本創作之一實施例中,上述之溫度偵測電路包括驅動器、電流偵測器以及比較器。驅動器接收脈寬調變信號,並依據脈寬調變信號產生控制信號,且藉由控制信號以提供驅動電流至功率電晶體的控制端。電流偵測器耦接驅動器以依據偵測驅動電流來產生比較電壓。比較器耦接電流偵測器。比較器接收比較電壓,並針對比較電壓及預設的臨界電壓進行比較以產生過溫保護信號。In an embodiment of the present invention, the temperature detecting circuit includes a driver, a current detector, and a comparator. The driver receives the pulse width modulation signal and generates a control signal according to the pulse width modulation signal, and provides a driving current to the control end of the power transistor by the control signal. The current detector is coupled to the driver to generate a comparison voltage according to the detected driving current. The comparator is coupled to the current detector. The comparator receives the comparison voltage and compares the comparison voltage with a preset threshold voltage to generate an overtemperature protection signal.
在本創作之一實施例中,上述之驅動器包括第一電晶 體以及第二電晶體。第一電晶體,具有第一端、第二端以及控制端,其第一端接收操作電壓,其第二端耦接至功率電晶體的控制端,第一電晶體的控制端接收脈寬調變信號。第二電晶體,具有第一端、第二端以及控制端,其第二端接收參考接地電壓,其第一端耦接至功率電晶體的控制端,第二電晶體的控制端接收脈寬調變信號。In an embodiment of the present invention, the driver includes a first electronic crystal Body and second transistor. The first transistor has a first end, a second end and a control end, the first end of which receives the operating voltage, the second end of which is coupled to the control end of the power transistor, and the control end of the first transistor receives the pulse width modulation Change the signal. a second transistor having a first end, a second end, and a control end, the second end of which receives a reference ground voltage, the first end of which is coupled to the control end of the power transistor, and the control end of the second transistor receives the pulse width Modulate the signal.
在本創作之一實施例中,上述之第一電晶體以及第二電晶體不同時被導通。In an embodiment of the present invention, the first transistor and the second transistor are not simultaneously turned on.
在本創作之一實施例中,上述之電流偵測器依據流經第一電晶體的驅動電流以獲得偵測電流。電流偵測器並轉換偵測電流以產生比較電壓。In an embodiment of the present invention, the current detector is configured to obtain a detection current according to a driving current flowing through the first transistor. The current detector converts the detection current to generate a comparison voltage.
在本創作之一實施例中,上述之電流偵測器包括轉導放大器以及電阻。轉導放大器的二輸入端分別耦接至第一電晶體的第一端及第二端,其輸出端耦接至比較器接收比較電壓的端點。電阻的第一端耦接至轉導放大器的輸出端並產生比較電壓,電阻的第二端耦接至參考接地電壓。In one embodiment of the present invention, the current detector includes a transconductance amplifier and a resistor. The two input ends of the transconductance amplifier are respectively coupled to the first end and the second end of the first transistor, and the output end thereof is coupled to the end of the comparator receiving the comparison voltage. The first end of the resistor is coupled to the output of the transconductance amplifier and generates a comparison voltage, and the second end of the resistor is coupled to the reference ground voltage.
在本創作之一實施例中,電源轉換裝置更包括變壓器以及整流器。變壓器的一次側耦接在功率電晶體的第一端及輸入電壓間。整流器耦接至變壓器的二次側,並針對變壓器的二次側上的電壓進行整流,並藉以產生輸出電壓。In an embodiment of the present invention, the power conversion device further includes a transformer and a rectifier. The primary side of the transformer is coupled between the first end of the power transistor and the input voltage. The rectifier is coupled to the secondary side of the transformer and rectifies the voltage on the secondary side of the transformer to generate an output voltage.
在本創作之一實施例中,上述之整流器包括二極體以及電容。二極體的陽極耦接變壓器的二次側,其陰極產生輸出電壓。電容的一端耦接二極體的陰極,電容的另一端耦接至參考接地電壓。In one embodiment of the present invention, the rectifier described above includes a diode and a capacitor. The anode of the diode is coupled to the secondary side of the transformer, and the cathode produces an output voltage. One end of the capacitor is coupled to the cathode of the diode, and the other end of the capacitor is coupled to the reference ground voltage.
基於上述,本創作藉由將熱敏電阻連接在功率電晶體的控制端上,並透過偵測流至熱敏電阻上的驅動電流的大小,來判知電源轉換裝置所處的環境溫度是否過高,進以產生過溫保護信號。如此一來,不需要額外的接腳來連接熱敏電阻,在電源轉換裝置進行晶片化的過程中,可以降低所需要的晶片面積,提升價格競爭力。Based on the above, the present invention determines whether the ambient temperature of the power conversion device is over by connecting the thermistor to the control terminal of the power transistor and detecting the magnitude of the drive current flowing to the thermistor. High, to generate an over-temperature protection signal. In this way, no additional pins are needed to connect the thermistor, and the wafer area required for the power conversion device can reduce the required wafer area and increase the price competitiveness.
為讓本創作之上述特徵和優點能更明顯易懂,下文特舉實施例,並配合所附圖式作詳細說明如下。In order to make the above features and advantages of the present invention more comprehensible, the following embodiments are described in detail with reference to the accompanying drawings.
請參照圖2,圖2繪示本創作實施例的電源轉換裝置200的示意圖。電源轉換裝置200包括功率電晶體PM、熱敏電阻RNTC以及溫度偵測電路210。功率電晶體PM耦接至輸入電壓Vin。功率電晶體PM的控制端接收控制信號CTRL。功率電晶體PM據控制信號CTRL以轉換輸入電壓Vin以產生輸出電壓Vout。熱敏電阻RNTC則串接在功率電晶體PM的控制端(例如是閘極)以及參考接地電壓GND間,其中,熱敏電阻RNTC具有負溫度係數,也就是說,熱敏電阻RNTC的電阻值與其所處環境的環境溫度成反比。Please refer to FIG. 2. FIG. 2 is a schematic diagram of the power conversion device 200 of the present embodiment. The power conversion device 200 includes a power transistor PM, a thermistor RNTC, and a temperature detecting circuit 210. The power transistor PM is coupled to the input voltage Vin. The control terminal of the power transistor PM receives the control signal CTRL. The power transistor PM converts the input voltage Vin to generate an output voltage Vout according to a control signal CTRL. The thermistor RNTC is connected in series between the control terminal (for example, the gate) of the power transistor PM and the reference ground voltage GND, wherein the thermistor RNTC has a negative temperature coefficient, that is, the resistance value of the thermistor RNTC. It is inversely proportional to the ambient temperature of the environment in which it is located.
溫度偵測電路210耦接至熱敏電阻RNTC以及功率電晶體PM。溫度偵測電路210產生控制信號CTRL,並藉由所產生的控制信號CTRL來提供流往功率電晶體PM控制端的驅動電流。由於熱敏電阻RNTC與功率電晶體PM控 制端是耦接在一起的,因此,這個驅動電流除了要對功率電晶體PM的控制端上的寄生電容充電外,還需要驅動熱敏電阻RNTC。The temperature detecting circuit 210 is coupled to the thermistor RNTC and the power transistor PM. The temperature detecting circuit 210 generates a control signal CTRL and provides a driving current to the control terminal of the power transistor PM by the generated control signal CTRL. Due to thermistor RNTC and power transistor PM control The terminals are coupled together. Therefore, in addition to charging the parasitic capacitance on the control terminal of the power transistor PM, this driving current needs to drive the thermistor RNTC.
當熱敏電阻RNTC所處環境的環境溫度上升時,熱敏電阻RNTC的電阻值會隨之下降,如此一來,要驅動電阻值逐漸下降的熱敏電阻RNTC所需要的驅動電流的電流值也會隨之上升。在此同時,溫度偵測電路210會依據偵測驅動電流的大小,來得知熱敏電阻RNTC的電阻值的變化狀態,並進以得知環境溫度的變化狀態。也就是說,溫度偵測電路210可在當驅動電流來產生過溫保護信號。When the ambient temperature of the environment in which the thermistor RNTC is placed rises, the resistance value of the thermistor RNTC decreases, so that the current value of the drive current required to drive the thermistor RNTC whose resistance value gradually decreases is also Will rise accordingly. At the same time, the temperature detecting circuit 210 knows the change state of the resistance value of the thermistor RNTC according to the magnitude of the detected driving current, and further knows the changing state of the ambient temperature. That is to say, the temperature detecting circuit 210 can drive the current to generate an over-temperature protection signal.
在另一方面,電源轉換裝置200更包括變壓器T1、整流器250以及電阻Rcs。變壓器T1的一次側耦接在功率電晶體PM的第一端及輸入電壓Vin間,變壓器T1的二次側耦接至整流器250。當功率電晶體PM依據控制信號CTRL依序導通及斷開,變壓器T1會透過其一次側上的電壓變化轉換並傳送至其二次側上。整流器250則接收變壓器T1二次側上的電壓並進行整流,來產生輸出電壓Vout。On the other hand, the power conversion device 200 further includes a transformer T1, a rectifier 250, and a resistor Rcs. The primary side of the transformer T1 is coupled between the first end of the power transistor PM and the input voltage Vin, and the secondary side of the transformer T1 is coupled to the rectifier 250. When the power transistor PM is turned on and off in sequence according to the control signal CTRL, the transformer T1 is converted and transmitted to the secondary side through the voltage change on the primary side thereof. The rectifier 250 receives the voltage on the secondary side of the transformer T1 and rectifies it to produce an output voltage Vout.
整流器250則包括二極體D1以及電容C1,二極體D1的陽極耦接至變壓器T1的二次側,二極體D1的陰極與電容C1的一端相耦接,電容C1未耦接二極體D1的端點則耦接至參考接地電壓GND。The rectifier 250 includes a diode D1 and a capacitor C1. The anode of the diode D1 is coupled to the secondary side of the transformer T1, the cathode of the diode D1 is coupled to one end of the capacitor C1, and the capacitor C1 is not coupled to the pole. The end of the body D1 is coupled to the reference ground voltage GND.
在本實施例中,由於熱敏電阻RNTC與功率電晶體PM的控制端耦接至相同的端點上,因此,在進行電源轉換裝置200的晶片化時,只需要提供單一個接腳GD來連 接熱敏電阻RNTC與功率電晶體PM即可,不需要提供額外的接腳。In this embodiment, since the thermistor RNTC and the control terminal of the power transistor PM are coupled to the same end point, when performing the wafer formation of the power conversion device 200, only a single pin GD needs to be provided. even Connect the thermistor RNTC and the power transistor PM, no need to provide additional pins.
此外,電阻Rcs串接在功率電晶體PM的第二端以及參考接地電壓GND間,可用以偵測流經功率電晶體PM的電流。In addition, the resistor Rcs is connected in series between the second end of the power transistor PM and the reference ground voltage GND to detect the current flowing through the power transistor PM.
以下請參照圖3,圖3繪示本創作實施例的溫度偵測電路210的示意圖。溫度偵測電路210包括電流偵測器211、驅動器212以及比較器CMP2。驅動器212透過接腳GD耦接熱敏電阻RNTC。驅動器212接收脈寬調變信號PWM,並依據脈寬調變信號PWM產生控制信號CTRL。驅動器212並藉由控制信號CTRL以透過接腳GD提供驅動電流至功率電晶體PM的控制端。Please refer to FIG. 3 . FIG. 3 is a schematic diagram of the temperature detecting circuit 210 of the present embodiment. The temperature detecting circuit 210 includes a current detector 211, a driver 212, and a comparator CMP2. The driver 212 is coupled to the thermistor RNTC through the pin GD. The driver 212 receives the pulse width modulation signal PWM and generates a control signal CTRL according to the pulse width modulation signal PWM. The driver 212 also supplies a driving current to the control terminal of the power transistor PM through the control pin GD through the control pin GD.
電流偵測器211耦接至驅動器212,依據偵測驅動器212所提供驅動電流來產生比較電壓CPV。比較器CMP2耦接電流偵測器211並接收比較電壓CPV,比較器CMP2另接收預先設定的臨界電壓Vref進行比較,並藉以產生過溫保護信號OTP。The current detector 211 is coupled to the driver 212 to generate a comparison voltage CPV according to the driving current provided by the detection driver 212. The comparator CMP2 is coupled to the current detector 211 and receives the comparison voltage CPV. The comparator CMP2 further receives a preset threshold voltage Vref for comparison, and generates an over-temperature protection signal OTP.
具體來說,當環境溫度升高時,熱敏電阻RNTC的電阻值對應下降。驅動器212產生足以驅動熱敏電阻RNTC的控制信號CTRL所具有的驅動電流以對應增加。電流偵測器211透過偵測到逐漸上升的驅動電流,並據以產生電壓值逐漸上升的比較電壓CPV。當比較電壓CPV高於臨界電壓Vref時,比較器CMP2對應產生過溫保護信號OTP以通知電源轉換裝置200溫度過高的現象已經發生。Specifically, when the ambient temperature rises, the resistance value of the thermistor RNTC decreases correspondingly. The driver 212 generates a drive current sufficient to drive the control signal CTRL of the thermistor RNTC to increase correspondingly. The current detector 211 detects a gradually rising drive current and generates a comparison voltage CPV whose voltage value gradually rises. When the comparison voltage CPV is higher than the threshold voltage Vref, the comparator CMP2 correspondingly generates an over-temperature protection signal OTP to notify that the temperature of the power conversion device 200 is too high has occurred.
附帶一提的,在電源轉換裝置200發生溫度過高的狀態下,可以暫時性的停止功率電晶體PM的導通及斷開的動作(保持在斷開狀態),或降低功率電晶體PM的導通及斷開的頻率,以使環境溫度可以適度的下降。Incidentally, in a state where the temperature of the power conversion device 200 is excessively high, the operation of turning on and off the power transistor PM (maintained in the off state) or reducing the conduction of the power transistor PM can be temporarily stopped. And the frequency of disconnection, so that the ambient temperature can be moderately reduced.
請參照圖4,圖4繪示本創作實施例的電流偵測器211以及驅動器212的實施方式。驅動器212包括做為開關的電晶體M1以及M2。電晶體M1,具有第一端、第二端以及控制端,其第一端接收操作電壓VCC,其第二端耦接至功率電晶體PM的控制端。電晶體M1的控制端接收脈寬調變信號PWM。電晶體M2同樣具有第一端、第二端以及控制端。電晶體M2的第二端接收參考接地電壓GND,其第一端耦接至功率電晶體PM的控制端。電晶體M2的控制端接收脈寬調變信號PWM。其中,電晶體M1以及M2不會同時被導通。Please refer to FIG. 4. FIG. 4 illustrates an embodiment of the current detector 211 and the driver 212 of the present embodiment. The driver 212 includes transistors M1 and M2 as switches. The transistor M1 has a first end, a second end and a control end, the first end of which receives the operating voltage VCC and the second end of which is coupled to the control end of the power transistor PM. The control terminal of the transistor M1 receives the pulse width modulation signal PWM. The transistor M2 also has a first end, a second end, and a control end. The second end of the transistor M2 receives the reference ground voltage GND, and the first end thereof is coupled to the control end of the power transistor PM. The control terminal of the transistor M2 receives the pulse width modulation signal PWM. Among them, the transistors M1 and M2 are not turned on at the same time.
其中,當電晶體M1被導通(電晶體M2被斷開時),電晶體M1在其第一端及第二端間產生驅動電流IUD,並提供驅動電流IUD至接腳GD。另外,當電晶體M2被導通(電晶體M1被斷開時),電晶體M2由其第一端汲取電流ILD至其第二端。Wherein, when the transistor M1 is turned on (when the transistor M2 is turned off), the transistor M1 generates a driving current IUD between the first end and the second end thereof, and provides a driving current IUD to the pin GD. In addition, when the transistor M2 is turned on (when the transistor M1 is turned off), the transistor M2 draws the current ILD from its first end to its second end.
電流偵測器211則包括轉導放大器GM1以及電阻RA,轉導放大器GM1的輸入端分別耦接至電晶體M1的第一端及第二端,轉導放大器GM1的輸出端則耦接至電阻RA的一端以及比較器CMP2的負輸入端。另外,電阻RA未耦接至轉導放大器GM1的端點則耦接至參考接地電 壓GND。在當驅動電流IUD流經電晶體M1的第一端及第二端時,電晶體M1的第一端及第二端上的跨壓會被傳送至轉導放大器GM1。轉導放大器GM1則依據電晶體M1的第一端及第二端上的跨壓來產生電流,並使這個電流通過電阻RA流至參考接地電壓GND。The current detector 211 includes a transconductance amplifier GM1 and a resistor RA. The input terminals of the transconductance amplifier GM1 are respectively coupled to the first end and the second end of the transistor M1, and the output end of the transconductance amplifier GM1 is coupled to the resistor. One end of the RA and the negative input of the comparator CMP2. In addition, the resistor RA is not coupled to the end of the transconductance amplifier GM1 and is coupled to the reference grounding Press GND. When the driving current IUD flows through the first end and the second end of the transistor M1, the voltage across the first end and the second end of the transistor M1 is transmitted to the transconductance amplifier GM1. The transconductance amplifier GM1 generates a current according to the voltage across the first end and the second end of the transistor M1, and causes this current to flow through the resistor RA to the reference ground voltage GND.
在此同時,電阻RA耦接比較器CMP2的正輸入端的端點上會依據轉導放大器GM1所產生的電流來產生比較電壓CPV。如此一來,比較器CMP2便可以進行比較電壓CPV以及臨界電壓Vref的比較動作,以產生過溫保護信號OTP。At the same time, the resistor RA is coupled to the end of the positive input terminal of the comparator CMP2 to generate a comparison voltage CPV according to the current generated by the transconductance amplifier GM1. In this way, the comparator CMP2 can perform a comparison operation of the comparison voltage CPV and the threshold voltage Vref to generate the over-temperature protection signal OTP.
以下請參照圖5,圖5繪示本創作實施例的波形圖。其中,當脈寬調變信號PWM由低電壓準位轉態到高電壓準位時,接腳GD上的電壓對應被拉高。而在脈寬調變信號PWM由低電壓準位轉態到高電壓準位的瞬間,驅動器提供的驅動電流IUD會瞬間被拉高後,再降至一個穩定的電流準位。此時,當驅動電流IUD穩定被產生的狀態下,比較器會透過依據驅動電流IUD來轉換產生的比較電壓與臨界電壓進行比較,來對應產生過溫保護信號。Please refer to FIG. 5 below. FIG. 5 is a waveform diagram of the present embodiment. Wherein, when the pulse width modulation signal PWM is switched from the low voltage level to the high voltage level, the voltage on the pin GD is correspondingly pulled high. At the moment when the pulse width modulation signal PWM is switched from the low voltage level to the high voltage level, the driving current IUD provided by the driver is instantaneously pulled up and then reduced to a stable current level. At this time, when the driving current IUD is stably generated, the comparator compares the comparison voltage generated according to the driving current IUD with the threshold voltage to generate an over-temperature protection signal.
另外,在脈寬調變信號PWM由高電壓準位轉態到低電壓準位的瞬間,驅動器則汲取電流ILD,並使接腳GD上的電壓對應被拉。In addition, at the instant when the pulse width modulation signal PWM transitions from the high voltage level to the low voltage level, the driver draws the current ILD and causes the voltage on the pin GD to be pulled.
綜上所述,本創作將熱敏電阻連接到功率電晶體的控制端上,並藉由偵測流至功率電晶體的控制端的驅動電流的大小,來判斷環境溫度的變化情形,並據以產生過溫保 護信號。如此一來,不需要提供額外的接腳來連接熱敏電阻,有效節省電路的面積,提升產品的價格競爭力。In summary, the present invention connects the thermistor to the control terminal of the power transistor, and determines the change of the ambient temperature by detecting the magnitude of the driving current flowing to the control terminal of the power transistor, and according to Generated over temperature protection Protection signal. In this way, there is no need to provide additional pins to connect the thermistor, which effectively saves the circuit area and enhances the price competitiveness of the product.
雖然本創作已以實施例揭露如上,然其並非用以限定本創作,任何所屬技術領域中具有通常知識者,在不脫離本創作之精神和範圍內,當可作些許之更動與潤飾,故本創作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 invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and any person having ordinary knowledge in the art can make some changes and refinements without departing from the spirit and scope of the present invention. The scope of protection of this creation is subject to the definition of the scope of the patent application attached.
100‧‧‧電源轉換裝置100‧‧‧Power conversion device
110‧‧‧驅動器110‧‧‧ drive
200‧‧‧電源轉換裝置200‧‧‧Power conversion device
210‧‧‧溫度偵測電路210‧‧‧ Temperature detection circuit
211‧‧‧電流偵測器211‧‧‧ Current Detector
212‧‧‧驅動器212‧‧‧ drive
250‧‧‧整流器250‧‧‧Rectifier
PWM‧‧‧脈寬調變信號PWM‧‧‧ pulse width modulation signal
CTRL‧‧‧控制信號CTRL‧‧‧ control signal
PM‧‧‧功率電晶體PM‧‧‧Power transistor
I1‧‧‧電流源I1‧‧‧current source
RNTC‧‧‧熱敏電阻RNTC‧‧‧Thermistor
CMP1、CMP2‧‧‧比較器CMP1, CMP2‧‧‧ comparator
Vref‧‧‧臨界電壓Vref‧‧‧ threshold voltage
OTP‧‧‧過溫保護信號OTP‧‧‧Over temperature protection signal
D1‧‧‧二極體D1‧‧‧ diode
C1‧‧‧電容C1‧‧‧ capacitor
RNTC‧‧‧熱敏電阻RNTC‧‧‧Thermistor
Vin‧‧‧輸入電壓Vin‧‧‧Input voltage
Vout‧‧‧輸出電壓Vout‧‧‧ output voltage
Rcs、RA‧‧‧電阻Rcs, RA‧‧‧ resistance
T1‧‧‧變壓器T1‧‧‧ transformer
GD、OT‧‧‧接腳GD, OT‧‧‧ pin
M1~M2‧‧‧電晶體M1~M2‧‧‧O crystal
VCC‧‧‧操作電壓VCC‧‧‧ operating voltage
IUD‧‧‧驅動電流IUD‧‧‧ drive current
ILD‧‧‧電流ILD‧‧‧ current
GM1‧‧‧轉導放大器GM1‧‧‧Transduction Amplifier
圖1繪示習知的電源轉換裝置100電路圖。FIG. 1 is a circuit diagram of a conventional power conversion device 100.
圖2繪示本創作實施例的電源轉換裝置200的示意圖。FIG. 2 is a schematic diagram of a power conversion device 200 of the present embodiment.
圖3繪示本創作實施例的溫度偵測電路210的示意圖。FIG. 3 is a schematic diagram of the temperature detecting circuit 210 of the present embodiment.
圖4繪示本創作實施例的電流偵測器211以及驅動器212的實施方式。FIG. 4 illustrates an embodiment of the current detector 211 and the driver 212 of the present embodiment.
圖5繪示本創作實施例的波形圖。FIG. 5 is a waveform diagram of the present embodiment.
200‧‧‧電源轉換裝置200‧‧‧Power conversion device
210‧‧‧溫度偵測電路210‧‧‧ Temperature detection circuit
250‧‧‧整流器250‧‧‧Rectifier
D1‧‧‧二極體D1‧‧‧ diode
C1‧‧‧電容C1‧‧‧ capacitor
PM‧‧‧功率電晶體PM‧‧‧Power transistor
RNTC‧‧‧熱敏電阻RNTC‧‧‧Thermistor
Vin‧‧‧輸入電壓Vin‧‧‧Input voltage
CTRL‧‧‧控制信號CTRL‧‧‧ control signal
Vout‧‧‧輸出電壓Vout‧‧‧ output voltage
GND‧‧‧參考接地電壓GND‧‧‧reference ground voltage
Rcs‧‧‧電阻Rcs‧‧‧ resistance
T1‧‧‧變壓器T1‧‧‧ transformer
GD‧‧‧接腳GD‧‧‧ pin
Claims (8)
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TW101212912U TWM447631U (en) | 2012-07-04 | 2012-07-04 | Power converting apparatus |
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TW101212912U TWM447631U (en) | 2012-07-04 | 2012-07-04 | Power converting apparatus |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI474592B (en) * | 2013-04-29 | 2015-02-21 | Chicony Power Tech Co Ltd | Bypass apparatus for negative temperature coefficient thermistor |
US9966867B2 (en) | 2015-06-18 | 2018-05-08 | Semiconductor Components Industries, Llc | Dead time compensation for synchronous rectifiers in adaptive output powers |
-
2012
- 2012-07-04 TW TW101212912U patent/TWM447631U/en unknown
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI474592B (en) * | 2013-04-29 | 2015-02-21 | Chicony Power Tech Co Ltd | Bypass apparatus for negative temperature coefficient thermistor |
US9966867B2 (en) | 2015-06-18 | 2018-05-08 | Semiconductor Components Industries, Llc | Dead time compensation for synchronous rectifiers in adaptive output powers |
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