High-Speed Audio Data Transmission Method and Apparatus

1 . A data transmission method, comprising: obtaining a data packet, wherein the data packet comprises a physical layer frame header and a protocol data unit (PDU), wherein the physical layer frame header is modulated using a first digital modulation scheme, wherein a first modulation rate of the first digital modulation scheme is equal to a value of a data transmission rate, wherein the PDU is modulated using a second digital modulation scheme, wherein a second modulation rate of the second digital modulation scheme is less than the value, wherein the data transmission rate is N times the second modulation rate, and wherein N is an integer greater than 1; and sending the data packet on a physical channel at the data transmission rate. 2 . The data transmission method of claim 1 , further comprising: generating a modulation scheme identifier of the physical channel; determining, based on the modulation scheme identifier, whether the physical layer frame header uses the first digital modulation scheme and whether the PDU uses the second digital modulation scheme; and sending the modulation scheme identifier. 3 . The data transmission method of claim 1 , wherein a bandwidth of the physical channel is 4 megahertz (MHz), and wherein the bandwidth is based on a combination of two adjacent physical channels each having a bandwidth of 2 MHz. 4 . The data transmission method of claim 1 , wherein the PDU comprises a control layer frame header and a payload, wherein the payload carries data, and wherein the control layer frame header comprises indication information that indicates a length of the data. 5 . The data transmission method of claim 1 , wherein a bandwidth of the physical channel is 2 megahertz (MHz). 6 . The data transmission method of claim 1 , wherein the first digital modulation scheme comprises Gaussian frequency-shift keying (GFSK), and wherein the second digital modulation scheme comprises either differential quadrature phase-shift keying (DQPSK) or 8-differential phase-shift keying (8DPSK). 7 . The data transmission method of claim 6 , wherein a modulation factor of the GFSK ranges from 0.45 to 0.55. 8 . The data transmission method of claim 1 , further comprising: querying a codec parameter using a Logical Link Control and Adaptation Protocol (L2CAP), wherein the codec parameter comprises a coding parameter; and encoding, based on the coding parameter, original data to obtain encoded data. 9 . A data transmission method, comprising: receiving a data packet on a physical channel, wherein the data packet comprises a physical layer frame header and a protocol data unit (PDU); demodulating the physical layer frame header using a first digital modulation scheme, wherein a first modulation rate of the first digital modulation scheme is equal to a value of a data transmission rate; and demodulating the PDU using a second digital modulation scheme to obtain data, wherein a second modulation rate of the second digital modulation scheme is less than the value, wherein the data transmission rate is N times the second modulation rate, and wherein N is an integer greater than 1. 10 . The data transmission method of claim 9 , further comprising: receiving a modulation scheme identifier of the physical channel; determining, based on the modulation scheme identifier, that the physical layer frame header uses the first digital modulation scheme; and determining, based on the modulation scheme identifier, that the PDU uses the second digital modulation scheme. 11 . The data transmission method of claim 9 , wherein a bandwidth of the physical channel is 4 megahertz (MHz), and wherein the bandwidth is based on a combination of two adjacent physical channels each having a bandwidth of 2 MHz. 12 . The data transmission method of claim 9 , wherein after demodulating the PDU using the second digital modulation scheme to obtain the data, the data transmission method further comprises returning an acknowledgement message indicating a receiving status of the data. 13 . A data transmission apparatus, comprising: a baseband processor configured to: obtain a data packet, wherein the data packet comprises a physical layer frame header and a protocol data unit (PDU), wherein the physical layer frame header is modulated using a first digital modulation scheme, wherein a first modulation rate of the first digital modulation scheme is equal to a value of a data transmission rate, wherein the PDU is modulated using a second digital modulation scheme, wherein a second modulation rate of the second digital modulation scheme is less than the value, wherein the data transmission rate is N times the second modulation rate, and wherein N is an integer greater than 1; and a transmitter coupled to the baseband processor and configured to send the data packet on a physical channel at the data transmission rate. 14 . The data transmission apparatus of claim 13 , further comprising a codec coupled to the baseband processor and configured to generate a modulation scheme identifier of the physical channel, wherein the baseband processor is further configured to determine, based on the modulation scheme identifier, whether the physical layer frame header uses the first digital modulation scheme and whether the PDU uses the second digital modulation scheme, and wherein the transmitter is further configured to send the modulation scheme identifier. 15 . The data transmission apparatus of claim 13 , wherein a bandwidth of the physical channel is 4 megahertz (MHz), and wherein the bandwidth is based on a combination of two adjacent physical channels each having a bandwidth of 2 MHz. 16 . The data transmission apparatus of claim 13 , wherein the PDU comprises a control layer frame header and a payload, wherein the payload carries data, and wherein the control layer frame header comprises indication information that indicates a length of the data. 17 . The data transmission apparatus of claim 13 , wherein a bandwidth of the physical channel is 2 megahertz (MHz). 18 . The data transmission apparatus of claim 13 , wherein the first digital modulation scheme comprises Gaussian frequency-shift keying (GFSK), and wherein the second digital modulation scheme comprises either differential quadrature phase-shift keying (DQPSK) or 8-differential phase-shift keying (8DPSK). 19 . The data transmission apparatus of claim 18 , wherein a modulation factor of the GFSK ranges from 0.45 to 0.55. 20 . The data transmission apparatus of claim 13 , wherein the baseband processor is further configured to: query a codec parameter using a Logical Link Control and Adaptation Protocol (L2CAP), wherein the codec parameter comprises a coding parameter, and encode, based on the coding parameter, original data to obtain encoded data.