Chip-to-chip signal transmission system and chip-to-chip capacitive coupling transmission circuit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-031/312
H04B-005/00
H04B-017/14
출원번호
US-0904032
(2013-05-29)
등록번호
US-9274167
(2016-03-01)
우선권정보
TW-102102997 A (2013-01-25)
발명자
/ 주소
Huang, Yu-Jung
Chen, Ming-Kun
Liu, Kai-Jen
출원인 / 주소
I-SHOU UNIVERSITY
대리인 / 주소
Jianq Chyun IP Office
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
A chip-to-chip signal transmission system is provided, which includes a first chip, a second chip, and a dielectric layer. A signal transmission is performed between a transmitter of the first chip and a receiver of the second chip through a transmission-metal-pad unit and a receiving-metal-pad unit
A chip-to-chip signal transmission system is provided, which includes a first chip, a second chip, and a dielectric layer. A signal transmission is performed between a transmitter of the first chip and a receiver of the second chip through a transmission-metal-pad unit and a receiving-metal-pad unit. The transmitter transmits a transmission-testing-coupling signal through the transmission-metal-pad unit according to a driving-testing signal when the transmitter receives the driving-testing signal. A first testing unit receives the transmission-testing-coupling signal and outputs a transmission-testing signal according to the transmission-testing-coupling signal. A second testing unit transmits a receiving-testing-coupling signal through the receiving-metal-pad unit according to the driving-testing signal when the second testing unit receives the driving-testing signal. The receiver receives the receiving-testing-coupling signal and outputs a receiving-testing signal according to the receiving-testing-coupling signal.
대표청구항▼
1. A chip-to-chip signal transmission system, comprising: a first chip, comprising:a transmission-metal-pad unit disposed on a surface of the first chip;a transmitter coupled to the transmission-metal-pad unit, receiving input data, and outputting a chip-to-chip coupling signal through the transmiss
1. A chip-to-chip signal transmission system, comprising: a first chip, comprising:a transmission-metal-pad unit disposed on a surface of the first chip;a transmitter coupled to the transmission-metal-pad unit, receiving input data, and outputting a chip-to-chip coupling signal through the transmission-metal-pad unit; anda first testing unit comprising a transmission-testing-metal-pad unit and a receiving-testing circuit, and the transmission-testing-metal-pad unit being coupled to the transmission-metal-pad unit;a second chip disposed above the first chip and comprising:a receiving-metal-pad unit disposed on a surface of the second chip corresponding to the transmission-metal-pad unit;a receiver coupled to the receiving-metal-pad unit, receiving the chip-to-chip coupling signal through the receiving-metal-pad unit, and outputting an output signal; anda second testing unit comprising a receiving-testing-metal-pad unit and a driving-testing circuit, and the receiving-testing-metal-pad unit being coupled to the receiving-metal-pad unit; anda dielectric layer disposed between the first chip and the second chip,wherein, when the transmitter receives a driving-testing signal, the transmitter transmits a transmission-testing-coupling signal through the transmission-testing-metal-pad unit according to the driving-testing signal, the first testing unit receives the transmission-testing-coupling signal through the transmission-metal-pad unit, and the first testing unit outputs a transmission-testing signal according to the transmission-testing-coupling signal; andwhen the second testing unit receives the driving-testing signal, the second testing unit transmits a receiving-testing-coupling signal through the receiving-testing-metal-pad unit according to the driving-testing signal, the receiver receives the receiving-testing-coupling signal through the receiving-metal-pad unit, and the receiver outputs a receiving-testing signal according to the receiving-testing-coupling signal,wherein the transmission-metal-pad unit comprises a first transmission metal pad and a second transmission metal pad, and the transmitter comprises:a first inverter, an input terminal of the first inverter receiving the input data;a second inverter, an input terminal of the second inverter being coupled to an output terminal of the first inverter, and an output terminal of the second inverter being coupled to the first transmission metal pad and outputting the chip-to-chip coupling signal through the first transmission metal pad; anda third inverter, an input terminal of the third inverter receiving the input data, and an output terminal of the third inverter being coupled to the second transmission metal pad and outputting the chip-to-chip coupling signal through the second transmission metal pad. 2. The chip-to-chip signal transmission system according to claim 1, wherein the receiving-metal-pad unit comprises a first receiving metal pad and a second receiving metal pad, and the receiver comprises: an amplifier circuit coupled to the first receiving metal pad and the second receiving metal pad, receiving the chip-to-chip coupling signal through the first receiving metal pad and the second receiving metal pad, and outputting an amplified coupling signal;a double-phase-to-single-phase circuit coupled to the amplifier circuit, receiving the amplified coupling signal, and outputting a single-phase signal; anda buffer circuit coupled to the double-phase-to-single-phase circuit, receiving the single-phase signal, and outputting the output signal. 3. The chip-to-chip signal transmission system according to claim 2, wherein the amplifier circuit comprises: a first active load circuit coupled to the first receiving metal pad;a second active load circuit coupled to the second receiving metal pad;a fourth inverter, an input terminal of the fourth inverter being coupled to the first active load circuit;a fifth inverter, an input terminal of the fifth inverter being coupled to an output terminal of the fourth inverter;a sixth inverter, an input terminal of the sixth inverter being coupled to the second active load circuit; anda seventh inverter, an input terminal of the seventh inverter being coupled to an output terminal of the sixth inverter. 4. The chip-to-chip signal transmission system according to claim 3, wherein the double-phase-to-single-phase circuit comprises: an eighth inverter, an input terminal of the eighth inverter being coupled to an output terminal of the seventh inverter, and an output terminal of the eighth inverter being coupled to an output terminal of the fifth inverter; anda ninth inverter, an input terminal of the ninth inverter being coupled to the output terminal of the fifth inverter, and an output to urinal of the ninth inverter being coupled to the output terminal of the seventh inverter. 5. The chip-to-chip signal transmission system according to claim 4, wherein the buffer circuit comprises: a plurality of inverters, wherein the inverters are connected with each other in series. 6. The chip-to-chip signal transmission system according to claim 1, wherein the transmission-testing-metal-pad unit comprises a first transmission-testing-metal pad and a second transmission-testing-metal pad, and the receiving-testing circuit comprises: an amplifier circuit coupled to the first transmission-testing-metal pad and the second transmission-testing-metal pad, receiving the transmission-testing-coupling signal through the first transmission-testing-metal pad and the second transmission-testing-metal pad, and outputting an amplified transmission-testing-coupling signal;a double-phase-to-single-phase circuit coupled to the amplifier circuit, receiving the amplified transmission-testing-coupling signal, and outputting a single-phase-testing signal; anda buffer circuit coupled to the double-phase-to-single-phase circuit, receiving the single-phase-testing signal, and outputting the transmission-testing signal. 7. The chip-to-chip signal transmission system according to claim 6, wherein the amplifier circuit comprises: a first active load circuit coupled to the first transmission-testing-metal pad;a second active load circuit coupled to the second transmission-testing-metal pad;a first inverter, an input terminal of the first inverter being coupled to the first active load circuit;a second inverter, an input terminal of the second inverter being coupled to an output terminal of the first inverter;a third inverter, an input terminal of the third inverter being coupled to the second active load circuit; anda fourth inverter, an input terminal of the fourth inverter being coupled to an output terminal of the third inverter. 8. The chip-to-chip signal transmission system according to claim 7, wherein the double-phase-to-single-phase circuit comprises: a fifth inverter, an input terminal of the fifth inverter being coupled to an output terminal of the fourth inverter, and an output terminal of the fifth inverter being coupled to an output terminal of the second inverter; anda sixth inverter, an input terminal of the sixth inverter being coupled to the output terminal of the second inverter, and an output terminal of the sixth inverter being coupled to the output terminal of the fourth inverter. 9. The chip-to-chip signal transmission system according to claim 8, wherein the buffer circuit comprises: a plurality of inverters, wherein the inverters are connected with each other in series. 10. The chip-to-chip signal transmission system according to claim 1, wherein the receiving-testing-metal-pad unit comprises a first receiving-testing-metal pad and a second receiving-testing-metal pad, and the driving-testing circuit comprises: a seventh inverter, an input terminal of the seventh inverter receiving the driving-testing signal;an eighth inverter, an input terminal of the eighth inverter being coupled to an output terminal of the seventh inverter, and an output terminal of the eighth inverter being coupled to the first receiving-testing-metal pad and outputting the receiving-testing-coupling signal through the first receiving metal pad; anda ninth inverter, an input terminal of the ninth inverter receiving the driving-testing signal, and an output terminal of the ninth inverter being coupled to the second transmission-testing-metal pad and outputting the receiving-testing-coupling signal through the second transmission metal pad. 11. A chip-to-chip capacitive coupling transmission circuit, disposed on a chip, the chip-to-chip capacitive coupling transmission circuit comprising: a transmission-metal-pad unit disposed on a surface of the chip;a transmitter coupled to the transmission-metal-pad unit, receiving input data, and outputting a first chip-to-chip coupling signal through the transmission-metal-pad unit;a receiving-metal-pad unit disposed on the surface of the chip;a receiver coupled to the receiving-metal-pad unit, receiving a second chip-to-chip coupling signal through the receiving-metal-pad unit, and outputting an output signal;a first testing unit comprising a transmission-testing-metal-pad unit and a receiving-testing circuit, and the transmission-testing-metal-pad unit being coupled to the transmission-metal-pad unit; anda second testing unit comprising a receiving-testing-metal-pad unit and a driving-testing circuit, and the receiving-testing-metal-pad unit being coupled to the receiving-metal-pad unit,wherein, when the transmitter receives a driving-testing signal, the transmitter transmits a transmission-testing-coupling signal through the transmission-metal-pad unit according to the driving-testing signal, the first testing unit receives the transmission-testing-coupling signal through the transmission-testing-metal-pad unit, and the first testing unit outputs a transmission-testing signal according to the transmission-testing-coupling signal; andwhen the second testing unit receives the driving-testing signal, the second testing unit transmits a receiving-testing-coupling signal through the receiving-testing-metal-pad unit according to the driving-testing signal, the receiver receives the receiving-testing-coupling signal through the receiving-metal-pad unit, and the receiver outputs a receiving-testing signal according to the receiving-testing-coupling signal,wherein the transmission-metal-pad unit comprises a first transmission metal pad and a second transmission metal pad, and the transmitter comprises:a first inverter, an input terminal of the first inverter receiving the input data;a second inverter, an input terminal of the second inverter being coupled to an output terminal of the first inverter, and an output terminal of the second inverter being coupled to the first transmission metal pad and outputting the first chip-to-chip coupling signal through the first transmission metal pad; anda third inverter, an input terminal of the third inverter receiving the input data, and an output terminal of the third inverter being coupled to the second transmission metal pad and outputting the first chip-to-chip coupling signal through the second transmission metal pad. 12. The chip-to-chip capacitive coupling transmission circuit according to claim 11, wherein the receiving-metal-pad unit comprises a first receiving metal pad and a second receiving metal pad, and the receiver comprises: an amplifier circuit coupled to the first receiving metal pad and the second receiving metal pad, receiving the second chip-to-chip coupling signal through the first receiving metal pad and the second receiving metal pad, and outputting an amplified coupling signal;a double-phase-to-single-phase circuit coupled to the amplifier circuit, receiving the amplified coupling signal, and outputting a single-phase signal; anda buffer circuit coupled to the double-phase-to-single-phase circuit, receiving the single-phase signal, and outputting the output signal. 13. The chip-to-chip capacitive coupling transmission circuit according to claim 12, wherein the amplifier circuit comprises: a first active load circuit coupled to the first receiving metal pad;a second active load circuit coupled to the second receiving metal pad;a fourth inverter, an input terminal of the fourth inverter being coupled to the first active load circuit;a fifth inverter, an input terminal of the fifth inverter being coupled to an output terminal of the fourth inverter;a sixth inverter, an input terminal of the sixth inverter being coupled to the second active load circuit; anda seventh inverter, an input terminal of the seventh inverter being coupled to an output terminal of the sixth inverter. 14. The chip-to-chip capacitive coupling transmission circuit according to claim 13, wherein the double-phase-to-single-phase circuit comprises: an eighth inverter, an input terminal of the eighth inverter being coupled to an output terminal of the seventh inverter, and an output terminal of the eighth inverter being coupled to an output terminal of the fifth inverter; anda ninth inverter, an input terminal of the ninth inverter being coupled to the output terminal of the fifth inverter, and an output terminal of the ninth inverter being coupled to the output terminal of the seventh inverter. 15. The chip-to-chip capacitive coupling transmission circuit according to claim 14, wherein the buffer circuit comprises: a plurality of inverters, wherein the inverters are connected with each other in series. 16. The chip-to-chip capacitive coupling transmission circuit according to claim 11, wherein the transmission-testing-metal-pad unit comprises a first transmission-testing-metal pad and a second transmission-testing-metal pad, and the receiving-testing circuit comprises: an amplifier circuit coupled to the first transmission-testing-metal pad and the second transmission-testing-metal pad, receiving the transmission-testing-coupling signal through the first transmission-testing-metal pad and the second transmission-testing-metal pad, and outputting an amplified transmission-testing-coupling signal;a double-phase-to-single-phase circuit coupled to the amplifier circuit, receiving the amplified transmission-testing-coupling signal, and outputting a single-phase-testing signal; anda buffer circuit coupled to the double-phase-to-single-phase circuit, receiving the single-phase-testing signal, and outputting the transmission-testing signal. 17. The chip-to-chip capacitive coupling transmission circuit according to claim 16, wherein the amplifier circuit comprises: a first active load circuit coupled to the first transmission-testing-metal pad;a second active load circuit coupled to the second transmission-testing-metal pad;a first inverter, an input terminal of the first inverter being coupled to the first active load circuit;a second inverter, an input terminal of the second inverter being coupled to an output terminal of the first inverter;a third inverter, an input terminal of the third inverter being coupled to the second active load circuit; anda fourth inverter, an input terminal of the fourth inverter being coupled to an output terminal of the third inverter. 18. The chip-to-chip capacitive coupling transmission circuit according to claim 17, wherein the double-phase-to-single-phase circuit comprises: a fifth inverter, an input terminal of the fifth inverter being coupled to an output terminal of the fourth inverter, and an output terminal of the fifth inverter being coupled to an output terminal of the second inverter; anda sixth inverter, an input terminal of the sixth inverter being coupled to the output terminal of the second inverter, and an output terminal of the sixth inverter being coupled to the output terminal of the fourth inverter. 19. The chip-to-chip capacitive coupling transmission circuit according to claim 18, wherein the buffer circuit comprises: a plurality of inverters, wherein the inverters are connected with each other in series. 20. The chip-to-chip capacitive coupling transmission circuit according to claim 19, wherein the receiving-testing-metal-pad unit comprises a first receiving-testing-metal pad and a second receiving-testing-metal pad, and the driving-testing circuit comprises: a seventh inverter, an input terminal of the seventh inverter receiving the driving-testing signal;an eighth inverter, an input terminal of the eighth inverter being coupled to an output terminal of the seventh inverter, and an output terminal of the eighth inverter being coupled to the first receiving-testing-metal pad and outputting the receiving-testing-coupling signal through the first receiving metal pad; anda ninth inverter, an input terminal of the ninth inverter receiving the driving-testing signal, and an output terminal of the ninth inverter being coupled to the second transmission-testing-metal pad and outputting the receiving-testing-coupling signal through the second transmission metal pad.
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