RU99121408A - MOBILE PHONE WITH CONTINUOUS RECORDING - Google Patents

Claims (24)

1. A device comprising a circuit (155) for transferring an audio signal, a microprocessor (110) associated with the circuit and receiving an audio signal from this circuit, a first memory (120) associated with the microprocessor to store the audio signal of a predetermined length according to the principle " the first came in - the first came out, "the first memory including many memory blocks (610), the second memory (125) associated with the microprocessor, means for transferring the first block from the many blocks to the second memory in response to the first user command, ation contents of the first memory in response to a first user command and a second block transfer means of a plurality of blocks to the second memory in response to receipt of a second user command within a predetermined time period.  2. The device according to claim 1, characterized in that it is adapted to process an audio signal, which is a digital signal.  3. The device according to claim 1, characterized in that it is adapted to process an audio signal that is an analog signal, further comprising a conversion unit (310) associated with a microprocessor for converting the analog audio signal to a digital audio signal before storing the audio signal predetermined lengths.  4. The device according to claim 1, characterized in that the second memory (125) contains static memory.  5. The device according to claim 1, characterized in that the second memory (125) contains a random access memory (RAM).  6. The device according to claim 1, characterized in that the second memory (125) contains an electrically erasable programmable read-only memory (EEPROM).  7. The device according to p. 2, characterized in that it is configured to encode a digital audio signal using the method of speech encoding.  8. The device according to claim 7, characterized in that it is adapted to use a method of encoding a waveform as a method of speech encoding.  9. The device according to claim 7, characterized in that it is adapted to use a linear prediction encoding method as a speech encoding method.  10. The device according to claim 1, characterized in that it further comprises a conversion unit (310) for converting the contents of the second memory into an analog audio signal and a loudspeaker (175) associated with said conversion unit for reproducing an analog audio signal in response to a second user command .  11. The device according to claim 3, characterized in that the microprocessor (110) is adapted to encode a digital audio signal using a speech encoding method before transmitting the contents of the first memory to the second memory.  12. The device according to claim 11, characterized in that it is adapted to use a method of encoding a waveform as a method of speech encoding.  13. The device according to claim 11, characterized in that it is adapted to use a linear prediction encoding method as a speech encoding method.  14. The device according to claim 11, characterized in that it is configured to select a speech encoding method by a user.  15. The device according to claim 1, characterized in that the first memory (120) and the second memory (125) are logical parts of one physical memory block.  16. A mobile phone comprising a transmitter (145) for transmitting a transmitted digital audio signal, a receiver (140) for receiving a received digital audio signal, an audio processor (150) associated with the transmitter and receiver, a microprocessor (110) associated with the transmitter, receiver and a sound processor, the first memory (120), made in the form of a first-in-first-out sequence, the first memory including a plurality of memory blocks, and the second memory (125), in which the microprocessor is configured to receive a received digital a sound signal and a transmitted digital sound signal, continuously storing these signals in the first memory, transmitting the first block of the plurality of blocks from the first memory to the second memory in response to the first user command, pausing the storage of signals in the first memory in response to the first user command and transmitting a second block from a plurality of blocks to a second memory in response to a second user command within a predetermined time period.  17. A mobile phone containing a transmitter (145) for transmitting a transmitted digital audio signal, a receiver (140) for receiving a received digital audio signal, an audio processor (150) associated with the transmitter and receiver, a microprocessor (110) associated with the transmitter, receiver and a sound processor, the first memory (120), made in the form of a first-in-first-out sequence and a second memory (125), in which the microprocessor is configured to receive a received digital audio signal and transmitted digital sound th signal continuous storage of these signals in the first memory, the first memory contents transfer to the second memory in response to a first user command, combining the received digital audio signal and transmit the digital audio signal prior to storing said signals in the first memory.  18. A mobile phone as claimed in claim 16, further comprising a loudspeaker (175) connected to the sound processor (150), in which the microprocessor (110) is configured to transmit the contents of the second memory to the sound processor as a digital message signal in the response to the second user command, and the sound processor is configured to convert the digital message signal into an analog signal and reproduce this analog signal through a speaker.  19. A mobile phone according to claim 18, wherein the microprocessor (110) is configured to decode a digital message signal using a speech decoding method before transmitting a digital message signal to a sound processor.  20. A method of recording a voice message in an electronic device, comprising the steps of continuously storing a digital audio signal of a predetermined length corresponding to the voice message in a first memory (120) on a “first come in - first come out” principle, the first memory containing a plurality of memory blocks, suspensions in response to the first user command, storing said signal in the first memory and transmitting one of the plurality of memory blocks from the first memory to the second memory (125), transmitting the second block from the plurality of blocks to the second second memory in response to a second user command within a predetermined period of time after the first user command.  21. The method according to claim 20, characterized in that it further comprises the step of reproducing the contents of the second memory (125) through the speaker (175) in response to a third user command.  22. A method of storing part of a digital audio signal in a mobile phone having a first memory (120) made in the form of a first-in-first-out (FIFO) sequence and including a plurality of blocks (610), a second memory (125) having a plurality of areas (620) memory, a keypad (165) having a first function key, a circuit (155) for transferring a digital audio signal, and a microprocessor (110) associated with the first memory, a second memory, a keypad, and said circuit, including the steps of continuously storing the sound signal in the first memory, scan the keypad to determine if the first function key was pressed, and if the first function key was pressed, pause storing the mentioned signal in the first memory and determine if there is a free area in the second memory, if the first area in the second memory is free, transfer one a plurality of memory blocks from the first memory to a free area in the second memory, and determining the existence of a free area in the second memory, in response to a second user command within the bounds of its predetermined time period after the first function key has been pressed, and transmitting the second block of the plurality of blocks of memory from the first memory to the second region in the second memory if the second region in the second memory is free.  23. The method according to p. 22, characterized in that it further comprises the steps of determining one protected area from areas in the second memory if there is no free area (620) in the second memory (125), and transmitting one of the plurality of memory blocks from the first memory to an unprotected area in the second memory if an unprotected area exists in the second memory.  24. The method according to claim 23, characterized in that it comprises the step of prompting the user of the mobile phone to determine a protected area of memory that can be overwritten if there is no unprotected area (620) in the second memory (125).