Claims
- 1. A PC card having radio frequency (RF) communication capability, comprising:a digital baseband; an RF section; an RF interface coupling said digital baseband to said RF section, wherein said RF interface further comprises a delta-sigma digital-to-analog converter having a digital input and an analog output comprising: a storage means having stored outputs of a delta-sigma converter fed by a number of predetermined interpolated samples corresponding to all possible values of said digital input; said storage means coupled to receive said digital input; a plurality of digital-to-analog converters coupled to said storage means to receive said stored outputs, said plurality of digital-to-analog converters clocked by multi-phase clocks wherein each phase applied to each of said plurality of digital to analog converters is delayed with respect to a next one by an oversampling period equal to the Nyquist period divided by the number of predetermined interpolated samples; and a summer coupled to said plurality of digital-to-analog converters for summing all output from said plurality of digital-to-analog converters to generate said analog output.
- 2. The PC card of claim 1 wherein said storage means is a read/write programmable memory.
- 3. The PC card of claim 1 wherein said storage means is a read only memory.
- 4. The PC card of claim 1 wherein said PC card is connectable to a computer.
- 5. The PC card of claim 1 wherein said PC card is connectable to a personal digital assistant (PDA).
- 6. The PC card of claim 1 wherein said PC card is connectable to a wireless MP3 player.
- 7. The PC card of claim 1 wherein said digital baseband further comprises:a digital signal processor (DSP); a microcontroller unit (MCU) coupled to said DSP; an ASIC backplane coupled to said DSP and said MCU; and an interface for coupling an external data source to said digital signal processor (DSP).
- 8. The PC card of claim 1 wherein said RF section comprises a duplexer coupling said receiver and to a power amplifier to an antenna.
- 9. The PC card of claim 8 wherein said RF section further comprises a modulator coupling said RF interface to a power amplifier.
- 10. The PC card of claim 9 wherein said RF section further comprises a synthesizer coupled to said modulator and to said receiver.
- 11. The PC card of claim 9 wherein said delta-sigma digital-to-analog converter is located within said RF interface.
- 12. A WLAN communications system, comprising:a WLAN access point; and a PC card coupled to a computer, said PC card being capable of communicating with said WLAN access point via radio frequency (RF) communication, said PC card further comprising: a digital baseband; an RF section; an RF interface coupling said digital baseband to said RF section, wherein said RF interface further comprises a delta-sigma digital-to-analog converter having a digital input and an analog output comprising: a storage means having stored outputs of a delta-sigma converter fed by a number of predetermined interpolated samples corresponding to all possible values of said digital input; said storage means coupled to receive said digital input; a plurality of digital-to-analog converters coupled to said storage means to receive said stored outputs, said plurality of digital-to-analog converters clocked by multi-phase clocks wherein each phase applied to each of said plurality of digital to analog converters is delayed with respect to a next one by an oversampling period equal to the Nyquist period divided by the number of predetermined interpolated samples; and a summer coupled to said plurality of digital-to-analog converters for summing all output from said plurality of digital-to-analog converters to generate said analog output.
- 13. The WLAN communications system of claim 12 wherein said storage means is a read/write programmable memory.
- 14. The WLAN communications system of claim 12 wherein said storage means is a read only memory.
- 15. The WLAN communications system of claim 12 wherein said wireless LAN access point is a consumer premises equipment (CPE).
- 16. The WLAN communications system of claim 12 wherein said digital baseband further comprises:a digital signal processor (DSP); a microcontroller unit (MCU) coupled to said DSP; an ASIC backplane coupled to said DSP and said MCU; and an interface for coupling an external computer to said digital signal processor (DSP).
- 17. The WLAN communications system of claim 12 wherein said RF section comprises a duplexer coupling a receiver and a power amplifier to an antenna.
- 18. The WLAN communications system of claim 17 wherein said RF section further comprises a modulator coupling a synthesizer to said power amplifier and said receiver coupled to said synthesizer.
- 19. The WLAN communications system of claim 18 wherein an input of said modulator is coupled to an output of said RF interface and an output of said receiver is coupled to an input of said RF interface.
- 20. The WLAN communications system of claim 12 wherein said delta-sigma digital-to-analog converter is located within said RF interface.
- 21. A PC card, comprising:a digital baseband; an RF section; an RF interface coupling said digital baseband to said RF section, wherein said RF interface comprises: a storage means having stored compressed outputs of a delta-sigma converter fed by a number of predetermined interpolated samples corresponding to all possible values of said digital input; said storage means coupled to receive said digital input; an expansion unit coupled to said storage means for expanding said compressed outputs; a plurality of digital-to-analog converters coupled to said expansion unit to receive said expanded stored outputs, said plurality of digital-to-analog converters clocked by multi-phase clocks wherein each phase applied to each of said plurality of digital to analog converters is delayed with respect to a next one by an oversampling period equal to the Nyquist period divided by the number of predetermined interpolated samples; and a summer coupled to said plurality of digital-to-analog converters for summing all output from said plurality of digital-to-analog converters to generate said analog output.
- 22. A PC card, comprising:circuitry for providing a digital baseband function; circuitry for providing an RF function; circuitry for providing an RF interface function, said circuitry for providing an RF interface function being coupled to said circuitry for providing a digital baseband function and said circuitry for providing an RF function, wherein said circuitry for providing an RF interface function comprises: a storage means having stored compressed outputs of a delta-sigma converter fed by a number of predetermined interpolated samples corresponding to all possible values of said digital input; said storage means coupled to receive said digital input; an expansion unit coupled to said storage means for expanding said compressed outputs; a plurality of digital-to-analog converters coupled to said expansion unit to receive said expanded stored outputs, said plurality of digital-to-analog converters clocked by multi-phase clocks wherein each phase applied to each of said plurality of digital to analog converters is delayed with respect to a next one by an oversampling period equal to the Nyquist period divided by the number of predetermined interpolated samples; and a summer coupled to said plurality of digital-to-analog converters for summing all output from said plurality of digital-to-analog converters to generate said analog output.
- 23. A WLAN communications system, comprising:a WLAN access point; and a PC card coupled to a computer, said PC card being capable of communicating with said WLAN access point via radio frequency (RF) communication, said PC card further comprising: circuitry for providing a digital baseband function; circuitry for providing an RF function; circuitry for providing an RF interface function, said circuitry for providing an RF interface function being coupled to said circuitry for providing a digital baseband function and said circuitry for providing an RF function, wherein said circuitry for providing an RF interface function comprises: a storage means having stored compressed outputs of a delta-sigma converter fed by a number of predetermined interpolated samples corresponding to all possible values of said digital input; said storage means coupled to receive said digital input; an expansion unit coupled to said storage means for expanding said compressed outputs; a plurality of digital-to-analog converters coupled to said expansion unit to receive said expanded stored outputs, said plurality of digital-to-analog converters clocked by multi-phase clocks wherein each phase applied to each of said plurality of digital to analog converters is delayed with respect to a next one by an oversampling period equal to the Nyquist period divided by the number of predetermined interpolated samples; and a summer coupled to said plurality of digital-to-analog converters for summing all output from said plurality of digital-to-analog converters to generate said analog output.
CROSS REFERENCE TO RELATED APPLICATIONS
This invention is related to copending applications: Ser. No. 09/846,846, filed Apr. 30, 2001; Ser. No. 09/846,440, filed Apr. 30, 2001; and Ser. No. 09/846,429, filed Apr. 30, 2001, all of which are herein incorporated by reference.
US Referenced Citations (12)
Non-Patent Literature Citations (1)
Entry |
“A Second Order Double-Sampled Delta-Sigma Modulator Using Individual-Level Averaging”, Chuc K. Thanh, et al., 1997 IEEE Journal of Solid-State Circuits, vol. 32, No. 8, Aug. 1997, pp. 1269-1273. |