Digital isolator and digital signal transmission method

What is claimed is: 1. A digital isolator comprising: a) an encoding circuit configured to receive and encode an input digital signal, in order to generate an encoded signal, wherein a rising edge of the input digital signal is encoded as a first pulse sequence, and a falling edge of the input digital signal is encoded as a second pulse sequence; b) an isolation element comprising a capacitor or a transformer, the isolation element being coupled to the encoding circuit, and being configured to transmit the encoded signal in an electrically isolated manner; and c) a decoding circuit configured to receive the encoded signal through the isolation element, and to decode the encoded signal, in order to generate an output digital signal consistent with the input digital signal, d) wherein the first pulse sequence comprises a plurality of first pulse groups, and a time interval between the first pulse groups is a first time, wherein the second pulse sequence comprises a plurality of second pulse groups, and a time interval between the second pulse groups is a second time different from the first time, and wherein each of the first pulse groups and the second pulse groups comprises at least one pulse. 2. The digital isolator of claim 1 , wherein: a) the encoding circuit is configured to generate the encoded signal when detecting the rising edge or the falling edge of the input digital signal; and b) the decoding circuit is configured to generate a rising edge when the first pulse sequence in the encoded signal is detected, and to generate a falling edge when the second pulse sequence in the encoded signal is detected. 3. The digital isolator of claim 1 , wherein a number of the first pulse groups in the first pulse sequence is the same as a number of the second pulse groups in the second pulse sequence. 4. The digital isolator of claim 1 , wherein the first pulse sequence comprises a plurality of identical first pulse groups, and the second pulse sequence comprises a plurality of identical second pulse groups. 5. The digital isolator of claim 4 , wherein each first pulse group and each second pulse group are different in at least one of a number, an amplitude, a width, a polarity, and an arrangement of pulses. 6. The digital isolator of claim 1 , wherein the first pulse sequence comprises a plurality of different first pulse groups, and the second pulse sequence comprises a plurality of different second pulse groups. 7. The digital isolator of claim 6 , wherein pulses in the different first pulse groups are different in at least one of an amplitude, a width, a polarity, and an arrangement. 8. The digital isolator of claim 6 , wherein pulses in the different second pulse groups are different in at least one of an amplitude, a width, a polarity, and an arrangement. 9. The digital isolator of claim 1 , wherein a number of pulses in each first pulse group and each second pulse group is the same. 10. The digital isolator of claim 9 , wherein pulses in each first pulse group and pulses in each second pulse group are different in at least one of a polarity, a width, and an amplitude. 11. The digital isolator of claim 1 , wherein each first pulse group comprises a plurality of identical pulses, and each second pulse group comprises a plurality of identical pulses. 12. The digital isolator of claim 1 , wherein each first pulse group comprises a plurality of pulses that are different in at least one of a polarity, a width, and an amplitude. 13. The digital isolator of claim 1 , wherein each second pulse group comprises a plurality of pulses that are different in at least one of a polarity, a width, and an amplitude. 14. A method of digital signal transmission, the method comprising: a) receiving and encoding an input digital signal to generate an encoded signal; b) encoding a rising edge of the input digital signal as a first pulse sequence, and a falling edge of the input digital signal as a second pulse sequence; c) transmitting the encoded signal in an electrically isolated manner; and d) receiving and decoding the encoded signal to generate an output digital signal consistent with the input digital signal, e) wherein the first pulse sequence comprises a plurality of first pulse groups, and a time interval between the first pulse groups is a first time, wherein the second pulse sequence comprises a plurality of second pulse groups, and a time interval between the second pulse groups is a second time different from the first time, and wherein each of the first pulse groups and the second pulse groups comprises at least one pulse. 15. The method of claim 14 , further comprising: a) generating the encoded signal when detecting the rising edge or the falling edge of the input digital signal; b) generating a rising edge when the first pulse sequence in the encoded signal is detected; and c) generating a falling edge when the second pulse sequence in the encoded signal is detected. 16. The method of claim 14 , wherein the first pulse sequence comprises a plurality of identical first pulse groups, and the second pulse sequence comprises a plurality of identical second pulse groups. 17. The method of claim 16 , wherein each first pulse group and each second pulse group are different in at least one of a number, an amplitude, a width, a polarity, and an arrangement of pulses. 18. The method of claim 14 , wherein the first pulse sequence comprises a plurality of different first pulse groups, and the second pulse sequence comprises a plurality of different second pulse groups. 19. The method of claim 18 , wherein pulses in the different first pulse groups are different in at least one of an amplitude, a width, a polarity, and an arrangement. 20. The method of claim 18 , wherein pulses in the different second pulse groups are different in at least one of an amplitude, a width, a polarity, and an arrangement.