Claims
- 1. An analog-to-digital converter made in the form of a discrete electronic component, comprising:an analog-to-digital conversion circuit for converting an analog input signal into a sequence of digital samples, an output stage for supplying said sequence in serial form outside said component, and a first signal detection circuit generating a standby output signal, available at a pin of said electronic component, whereby a level of said standby output signal depends on the presence or absence of significant data in said sequence of digital samples.
- 2. The converter according to claim 1, wherein said first signal detection circuit comprises a first comparator for comparing said digital samples with a first predefined threshold value.
- 3. The converter according to claim 2, wherein said first threshold value is stored in a first register accessible in writing from outside said component.
- 4. The converter according to claim 2, wherein said first comparator is a hysteresis comparator.
- 5. The converter according to claim 1, wherein said first signal detection circuit comprises a first counter whose value is incremented each time a digital sample is lower in absolute value than said first predefined threshold value, wherein said first signal detection circuit indicates an absence of signal when the value in said first counter reaches a second predefined threshold value.
- 6. The converter according to claim 5, wherein said second predefined threshold value is stored in a second register accessible in writing from outside said component.
- 7. The converter according to claim 5, wherein said first counter is reinitialized each time a sample is greater in absolute value than said first predefined threshold value.
- 8. The converter according to claim 7, wherein said first counter is reinitialized each time a predefined number of successive samples is greater in absolute value than said first predefined threshold value.
- 9. The converter according to claim 5, wherein said value in said first counter is decremented each time a data supplied by said analog-to-digital converter is greater than the first predefined threshold value.
- 10. The converter according to claim 1, wherein said output stage is put in standby mode based upon the standby output signal.
- 11. The converter according to claim 1, further comprising:a digital-to-analog conversion circuit for converting a digital input sequence into an analog sequence, an output stage for supplying outside said component said analog sequence, and a second signal detection circuit for indicating outside said component the presence or absence of significant signal in said analog sequence.
- 12. The converter according to claim 11, wherein said second signal detection circuit comprises a second comparator for comparing said input sequence with a third predefined threshold value.
- 13. The converter according to claim 12, wherein said third predefined threshold value is stored in a third register accessible in writing from outside said component.
- 14. The converter according to claim 12, wherein said second comparator is a hysteresis comparator.
- 15. The converter according to claim 12, wherein said second signal detection circuit comprises a second counter whose value is incremented each time a data in said digital input sequence is lower than said third threshold value, wherein said second signal detection circuit indicates an absence of signal when the value in said second counter reaches a fourth predefined threshold value.
- 16. The converter according to claim 15, wherein said fourth predefined threshold value is stored in a fourth register accessible in writing from outside said component.
- 17. The converter according to claim 15, wherein said second counter is reinitialized each time a data in said digital input sequence is greater than said third predefined threshold value.
- 18. The converter according to claim 17, wherein said second counter is reinitialized each time a predefined number of successive samples is greater in absolute value than said third predefined threshold value.
- 19. The converter according to claim 15, wherein said value in said second counter is decremented each time a data in said digital input sequence is greater than said third threshold value.
- 20. The converter according of claim 11, wherein at least said digital-to-analog conversion circuit is put in standby mode in the absence of significant data in said digital input sequence.
- 21. The converter according to claim 11, wherein said output stage is put in standby mode in the absence of significant data in said digital input sequence.
- 22. A digital-to-analog converter made in the form of a discrete electronic component, comprising:a digital-to-analog conversion circuit for converting a digital input sequence into an analog sequence, an output stage for supplying said analog sequence outside said component, and a second signal detection circuit for indicating outside said component the presence or absence of significant data in said analog sequence.
- 23. The converter according to claim 22, wherein said second signal detection circuit comprises a second comparator for comparing said input sequence with a third predefined threshold value.
- 24. The converter according to claim 23, wherein said third threshold value is stored in a third register accessible in writing from outside said component.
- 25. The converter according to claim 23, wherein said second comparator is a hysteresis comparator.
- 26. The converter according to claim 23, wherein said second signal detection circuit comprises a second counter whose value is incremented each time a data in said digital input sequence is lower than said third predefined threshold value, and wherein said second signal detection circuit indicates an absence of signal when the value in said second counter reaches a fourth predefined threshold value.
- 27. The converter according to claim 26, wherein said fourth predefined threshold value is stored in a fourth register accessible in writing from outside said component.
- 28. The converter according to claim 26, wherein said second counter is reinitialized each time a data in said digital input sequence is greater than said third predefined threshold value.
- 29. The converter according to claim 28, wherein said second counter is reinitialized each time a predefined number of successive samples is greater in absolute value than said third predefined threshold value.
- 30. The converter according to claim 26, wherein said value in said second counter is decremented each time a digital input data is greater than said second predefined threshold value.
- 31. The converter according to claim 22, wherein at least said digital-to-analog conversion circuit is put in standby mode in the absence of significant data in said digital input sequence.
- 32. The converter according to claim 22, wherein said output is put in standby mode in the absence of significant data in said digital input sequence.
- 33. An acquisition, processing and restitution system for audio data, comprising:an analog-to-digital converter, made in the form of a single discrete component, comprising: an analog-to-digital conversion circuit for converting an analog input signal into a sequence of digital samples, an output stage for supplying said sequence in serial form outside said component, and a first signal detection circuit for indicating outside said component the presence or absence of significant data in said sequence, a digital-to-analog converter made in the form of a discrete electronic component, comprising: a digital-to-analog conversion circuit for converting a digital input sequence into an analog signal, an output stage for supplying said analog sequence outside said component, and a second signal detection circuit for indicating outside said component the presence or absence of significant data in said sequence, a signal processor for processing the sequence of digital samples supplied to or received from said analog-to-digital converter and said digital-to-analog converter, and wherein said processor is put in standby mode when said analog-to-digital converter and said digital-to-analog converter indicates an absence of significant data in said sequence.
- 34. The acquisition system according to claim 33, wherein said analog-to-digital converter and said digital-to-analog converter comprises at least one output pin for a standby-mode signal, said output pin being connected electrically to a physical interrupt input of said processor, said processor comprising a computer module capable of being executed by said processor for detecting any modification of the logical state of the interruption line and for reacting when the latter is at an active level by putting all or part of said system in standby mode.
- 35. A discrete converter, comprising:an analog-to-digital conversion circuit for converting an analog input signal into a sequence of digital samples, an output stage for supplying said sequence in serial form outside said component, a first signal detection circuit for indicating outside said component the presence or absence of significant data in said sequence, a digital-to-analog conversion circuit for converting an digital input sequence into an analog signal, an output stage for supplying said analog sequence outside said discrete converter, and a second signal detection circuit for indicating outside said discrete converter the presence or absence of significant data in said sequence.
- 36. Analog-to-digital converter made in the form of a discrete electronic component, comprising:an analog-to-digital conversion circuit for converting an analog input signal into a sequence of digital samples, an output stage for supplying said sequence in serial form outside said component, a first signal detection circuit for indicating outside said electronic component the presence or absence of significant data in said sequence, wherein said first signal detection circuit comprises a first comparator for comparing said digital samples with a first predefined threshold value, said threshold value being stored in a first register accessible in writing from outside said component, and a first counter whose value is incremented each time a digital sample is lower in absolute value than said first threshold value, an indication of absence of signal being generated when the value in said first counter reaches a second predefined threshold value.
- 37. The converter of claim 36, wherein said second predefined threshold value is stored in a second register accessible in writing from outside said component.
- 38. The converter of claim 36, wherein said first counter is reinitialized each time a sample is greater in absolute value than said first predefined threshold value.
- 39. The converter of claim 38, wherein said first counter is reinitialized each time a predefined number of successive samples is greater in absolute value than said first predefined threshold value.
- 40. The converter of claim 36, wherein said value in said first counter is decremented each time a data supplied by said analog-to-digital converter is greater than the first predefined threshold value.
- 41. Analog-to-digital converter made in the form of a discrete electronic component, comprising:an analog-to-digital conversion circuit for converting an analog input signal into a sequence of digital samples, an output stage for supplying said sequence in serial form outside said component, a first signal detection circuit for indicating outside said electronic component the presence or absence of significant data in said analog input signal, a digital-to-analog conversion circuit for converting a digital input sequence into an analog sequence, an output stage for supplying outside said component said analog signal, a second signal detection circuit for indicating outside said component the presence or absence of significant signal in said digital input sequence.
- 42. The converter of claim 41, wherein said second signal detection circuit comprises a second comparator for comparing said input sequence with a third predefined threshold value.
- 43. The converter of claim 42, wherein said third predefined threshold value is stored in a third register accessible in writing from outside said component.
- 44. The converter of claim 42, wherein said second comparator is a hysteresis comparator.
- 45. The converter of claim 42, wherein said signal detection circuit comprises a second counter whose value is incremented each time a data in said digital input sequence is lower than said third predefined threshold value,an indication of absence of signal being generated when the value in said second counter reaches a fourth predefined threshold.
- 46. The converter of claim 45, wherein said fourth threshold value is stored in a fourth register accessible in writing from outside said component.
- 47. The converter of claim 45, wherein said second counter is reinitialized each time a data in said digital input sequence is greater than said third predefined threshold value.
- 48. The converter of claim 47, wherein said second counter is reinitialized each time a predefined number of successive samples is greater in absolute value than said third predefined threshold value.
- 49. The converter of claim 45, wherein said value in said second counter is decremented each time a data in said digital input sequence is greater than said third predefined threshold value.
- 50. The converter of claim 41, wherein at least said digital-to-analog conversion circuit is put in standby mode in the absence of significant data in said digital input sequence.
- 51. The converter of claim 41, said output stage being put in standby mode in the absence of significant data in said digital input sequence.
RELATED APPLICATION
This application is a continuation of PCT application N° PCT/CH00/00600 (WO02/39588) filed Nov. 10, 2000, the content of which is hereby incorporated by reference.
US Referenced Citations (4)
Foreign Referenced Citations (1)
Number |
Date |
Country |
11008595 |
Dec 1999 |
JP |
Non-Patent Literature Citations (1)
Entry |
Analog Front-End of an ECBM Transceiver for ISDN, R. Castello et al., Custom Integrated Circuits Conference, (pp. 16.4.1-16.4.4) 1989 IEEE, XP-002173801. |
Continuations (1)
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Number |
Date |
Country |
Parent |
PCT/CH00/06600 |
Nov 2000 |
US |
Child |
10/435684 |
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US |