Amplitude conversion circuit for converting signal amplitude
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G09G-003/36
H03K-019/0175
H03L-005/00
출원번호
US-0376241
(2003-03-03)
우선권정보
JP-0345939 (2002-11-28); JP-0065311 (2002-03-11)
발명자
/ 주소
Tobita, Youichi
출원인 / 주소
Mitsubishi Denki Kabushiki Kaisha
대리인 / 주소
McDermott Will &
인용정보
피인용 횟수 :
14인용 특허 :
8
초록▼
A level shifter includes first and second P-type TFTs for latching a level of first and second output nodes, first and second N-type TFTs for setting the level of the first and second output nodes, and a drive circuit. The drive circuit includes third to eighth N-type TFTs providing, in response to
A level shifter includes first and second P-type TFTs for latching a level of first and second output nodes, first and second N-type TFTs for setting the level of the first and second output nodes, and a drive circuit. The drive circuit includes third to eighth N-type TFTs providing, in response to rising and falling edges of an input signal, a voltage higher than a threshold voltage of the first and second N-type TFTs, between the gate and source of the first and second N-type TFTs, and includes first and second capacitors and a resistor element. Accordingly, even if an amplitude voltage of an input signal is smaller than the threshold voltage of the first and second N-type TFTs, the level shifter operates normally.
대표청구항▼
1. An amplitude conversion circuit converting a first signal having an amplitude corresponding to a first voltage into a second signal having an amplitude corresponding to a second voltage higher than said first voltage, comprising:first and second transistors of a first conductivity type having res
1. An amplitude conversion circuit converting a first signal having an amplitude corresponding to a first voltage into a second signal having an amplitude corresponding to a second voltage higher than said first voltage, comprising:first and second transistors of a first conductivity type having respective first electrodes both receiving said second voltage, respective second electrodes connected respectively to first and second output nodes for providing said second signal and a complementary signal of said second signal, and respective input electrodes connected respectively to said second and first output nodes;third and fourth transistors of a second conductivity type having respective first electrodes connected respectively to said first and second output nodes; anda drive circuit driven by said first signal and a complementary signal of said first signal, providing, in response to a leading edge of said complementary signal of said first signal, a third voltage higher than said first voltage between an input electrode and a second electrode of said third transistor to turn on said third transistor, and providing, in response to a leading edge of said first signal corresponding to a trailing edge of said complementary signal of said first signal, said third voltage between an input electrode and a second electrode of said fourth transistor to turn on said fourth transistor whereinsaid drive circuit includesa first capacitor having one electrode connected to the input electrode of said third transistor and the other electrode receiving the complementary signal of said first signal,a second capacitor having one electrode connected to the input electrode of said fourth transistor and the other electrode receiving said first signal, anda charge/discharge circuit for charging/discharging said first and second capacitors each to cause a voltage between one electrode and the other electrode of said first and second capacitors each to be equal to the threshold voltage of said third and fourth transistors.2. An amplitude conversion circuit converting a first signal having an amplitude corresponding to a first voltage into a second signal having an amplitude corresponding to a second voltage higher than said first voltage, comprising:first and second transistors of a first conductivity type having respective first electrodes both receiving said second voltage, respective second electrodes connected respectively to first and second output nodes for providing said second signal and a complementary signal of said second signal, and respective input electrodes both connected to said second output node;third and fourth transistors of a second conductivity type having respective first electrodes connected respectively to said first and second output nodes; anda drive circuit driven by said first signal and a complementary signal of said first signal, providing, in response to a leading edge of said complementary signal of said first signal, a third voltage higher than said first voltage between an input electrode and a second electrode of said third transistor to turn on said third transistor, and providing, in response to a leading edge of said first signal corresponding to a trailing edge of said complementary signal of said first signal, said third voltage between an input electrode and a second electrode of said fourth transistor to turn on said fourth transistor.3. The amplitude conversion circuit according to claim 1, whereinsaid charge/discharge circuit includesa voltage generation circuit generating a voltage approximately twice as high as the threshold voltage of said third and fourth transistors,first and second level shift circuits respectively provided correspondingly to said third and fourth transistors, said first and second level shift circuits each generating a voltage which is lower, by the threshold voltage of said third and fourth transistors, than an output voltage from said voltage generation circuit to provide the generated voltage to the input electrode of a corresponding one of said third and fourth transistors, andfirst and second diode elements connected in parallel with said first and second capacitors respectively.4. The amplitude conversion circuit according to claim 3, wherein said first and second diode elements include fifth and sixth transistors of the second conductivity type connected in parallel with said first and second capacitors respectively and having respective input electrodes connected to respective input electrodes of said third and fourth transistors.5. The amplitude conversion circuit according to claim 1, whereinsaid charge/discharge circuit includesa voltage generation circuit generating a voltage approximately twice as high as the threshold voltage of said third and fourth transistors,first and second level shift circuits respectively provided correspondingly to said third and fourth transistors, said first and second level shift circuits each generating a voltage which is lower, by the threshold voltage of said third and fourth transistors, than an output voltage from said voltage generation circuit to provide the generated voltage to the input electrode of a corresponding one of said third and fourth transistors, andfirst and second diode elements connected respectively between respective input electrodes of said third and fourth transistors and a node of a reference voltage.6. The amplitude conversion circuit according to claim 5, whereinsaid first and second diode elements include fifth and sixth transistors of the second conductivity type connected respectively between respective input electrodes of said third and fourth transistors and the node of said reference voltage and having respective input electrodes connected to respective input electrodes of said third and fourth transistors.7. The amplitude conversion circuit according to claim 3, wherein said voltage generation circuit includesa resistor element connected between a node of a fourth voltage and a third output node for providing the voltage approximately twice as high as the threshold voltage of said third and fourth transistors, andthird and fourth diode elements connected in series between said third output node and a node of a reference voltage.8. The amplitude conversion circuit according to claim 7, whereinsaid resistor element includes a seventh transistor connected between the node of said fourth voltage and said third output node and having an input electrode receiving a predetermined constant voltage.9. The amplitude conversion circuit according to claim 7, whereinsaid third diode element includes an eighth transistor of the second conductivity type having an input electrode and a first electrode connected to said third output node, andsaid fourth diode element includes a ninth transistor of the second conductivity type having an input electrode and a first electrode connected to a second electrode of said eighth transistor and having a second electrode connected to the node of said reference voltage.10. The amplitude conversion circuit according to claim 7, wherein said fourth voltage is equal to said second voltage.11. The amplitude conversion circuit according to claim 3, whereinsaid first level shift circuit includes a tenth transistor of the second conductivity type connected between a node of a fifth voltage and the input electrode of said third transistor and having an input electrode receiving the output voltage from said voltage generation circuit, andsaid second level shift circuit includes an eleventh transistor of the second conductivity type connected between the node of said fifth voltage and the input electrode of said fourth transistor and having an input electrode receiving the output voltage from said voltage generation circuit.12. The amplitude conversion circuit according to claim 11, wherein said fifth voltage is equal to said second voltage.13. The amplitude conversion circuit according to claim 1, wherein respective second electrodes of said third and fourth transistors receive said first signal and the complementary signal of said first signal.14. The amplitude conversion circuit according to claim 1, wherein respective second electrodes of said third and fourth transistors both receive a reference voltage.15. The amplitude conversion circuit according to claim 1, further comprising fifth and sixth transistors of the second conductivity type connected respectively in parallel with said third and fourth transistors and having respective input electrodes connected to said second and first output nodes respectively.16. The amplitude conversion circuit according to claim 1, further comprising fifth and sixth transistors of the second conductivity type connected respectively between said first and second output nodes and a node of a reference voltage and having respective input electrodes connected to said second and first output nodes respectively.17. The amplitude conversion circuit according to claim 1, further comprising:a first switching element connected in series with said first transistor between a node of said second voltage and said first output node and turned off in response to the leading edge of said complementary signal of said first signal; anda second switching element connected in series with said second transistor between the node of said second voltage and said second output node and turned off in response to the leading edge of said first signal corresponding to the trailing edge of said complementary signal of said first signal.18. The amplitude conversion circuit according to claim 17, whereinsaid first switching element includes a fifth transistor of the first conductivity type connected between the second electrode of said first transistor and said first output node and having its input electrode connected to the input electrode of said third transistor, andsaid second switching element includes a sixth transistor of the first conductivity type connected between the second electrode of said second transistor and said second output node and having its input electrode connected to the input electrode of said fourth transistor.19. The amplitude conversion circuit according to claim 1, wherein said leading edge is a rising edge, and said trailing edge is a falling edge.
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이 특허에 인용된 특허 (8)
Jeffrey A. Goswick, Fast high voltage level shifter with gate oxide protection.
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