Methods and apparatus are provided that relate to receiving a bit pattern that is representative of a binary data sequence; generating a multi-bit data byte sequence that is representative of the bit pattern by, for at least one bit in the bit pattern: outputting a larger-valued multi-bit data byte that is larger than a byte-sequencer reference data byte according to a first criteria, outputting a smaller-valued multi-bit data byte that is smaller than the byte-sequencer reference data byte according to a second criteria; and encoding the generated multi-bit data byte sequence by, for each generated multi-bit data byte: outputting a single bit whose value is indicative of whether the generated multi-bit data byte is larger or smaller than a current reference multi-bit data byte and updating the current reference multi-bit data byte based on the generated multi-bit data byte.

Methods and apparatus are provided that relate to receiving a bit pattern that is representative of a binary data sequence; generating a multi-bit data byte sequence that is representative of the bit pattern by, for at least one bit in the bit pattern: outputting a larger-valued multi-bit data byte that is larger than a byte-sequencer reference data byte according to a first criteria, outputting a smaller-valued multi-bit data byte that is smaller than the byte-sequencer reference data byte according to a second criteria; and encoding the generated multi-bit data byte sequence by, for each generated multi-bit data byte: outputting a single bit whose value is indicative of whether the generated multi-bit data byte is larger or smaller than a current reference multi-bit data byte and updating the current reference multi-bit data byte based on the generated multi-bit data byte.

An electronic device includes circuitry configured to determine that a first codec associated with a signal corresponds to one of one or more codecs supported by another device that is connected to the electronic device via a first communication link. A signal path is configured between a radio device configured to receive the signal and the electronic device based on a correspondence between the first codec associated with the signal and the one or more codecs supported by the another device. The signal is transmitted to the other device via the first communication link encoded with one of the one or more codecs supported by the other device.

A wireless-communication device includes a user interface configured to receive audio signals; a cryptographic module configured to encrypt the audio signals into a binary data sequence; a generator module configured to: receive a bit pattern representative of the binary data sequence; and generate a byte sequence representative of the bit pattern by generating a byte that is greater than the preceding byte when the current bit is of a first value and that is lesser than the preceding byte when the current bit is of a second value; an audio codec configured to generate transmission bits by generating a transmission bit having the first value when the current byte is greater than the preceding byte and having the second value when the current byte is lesser than the preceding byte; and a transceiver configured to convey the transmission bits to a receiver.

An electronic device includes circuitry configured to determine that a first codec associated with a signal corresponds to one of one or more codecs supported by another device that is connected to the electronic device via a first communication link. A signal path is configured between a radio device configured to receive the signal and the electronic device based on a correspondence between the first codec associated with the signal and the one or more codecs supported by the another device. The signal is transmitted to the other device via the first communication link encoded with one of the one or more codecs supported by the other device.

A wireless-communication device includes a user interface configured to receive audio signals; a cryptographic module configured to encrypt the audio signals into a binary data sequence; a generator module configured to: receive a bit pattern representative of the binary data sequence; and generate a byte sequence representative of the bit pattern by generating a byte that is greater than the preceding byte when the current bit is of a first value and that is lesser than the preceding byte when the current bit is of a second value; an audio codec configured to generate transmission bits by generating a transmission bit having the first value when the current byte is greater than the preceding byte and having the second value when the current byte is lesser than the preceding byte; and a transceiver configured to convey the transmission bits to a receiver.

An embodiment takes the form of a method carried out by a communication device. A binary data sequence is obtained at a communication device for transmission via a Bluetooth data link configured according to an audio-codec-based Bluetooth profile, wherein an audio codec is configured to receive a multi-bit data byte and output a single bit indicating whether the received multi-bit data byte is larger or smaller than a prior output reference byte, a multi-bit data byte sequence is generated based on the binary data sequence, the multi-bit data byte sequence is provided to the audio codec to induce the codec to generate a one-bit per-sample binary sequence representative of the binary data sequence, and, the generated one-bit per-sample binary sequence is transmitted via the Bluetooth data link.

An embodiment takes the form of a method carried out by a communication device. A binary data sequence is obtained at a communication device for transmission via a Bluetooth data link configured according to an audio-codec-based Bluetooth profile, wherein an audio codec is configured to receive a multi-bit data byte and output a single bit indicating whether the received multi-bit data byte is larger or smaller than a prior output reference byte, a multi-bit data byte sequence is generated based on the binary data sequence, the multi-bit data byte sequence is provided to the audio codec to induce the codec to generate a one-bit per-sample binary sequence representative of the binary data sequence, and, the generated one-bit per-sample binary sequence is transmitted via the Bluetooth data link.

A method includes manipulating at least one electric signal received from one or more electronic components to provide a slope substantially proportional to a discrete integer data value of n discrete integer data values, n being a positive integer greater than or equal to 3, said discrete integer data value represented by using one of n distinct slopes, said one of n distinct slopes to be transmitted utilizing a particular reference voltage of n predetermined reference voltages. The method further includes transmitting data as the particular reference voltage of the n predetermined reference voltages to at least one electronic component utilizing slope manipulation.