Radio transceiver on a chip

US 6,477,148 B1
Filed: 05/05/2000
Issued: 11/05/2002
Est. Priority Date: 02/20/1997
Status: Expired due to Term

First Claim

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1. A radio on a single integrated circuit chip, comprising:

an antenna section for transmitting at least one high frequency transmit signal and receiving at least one high frequency receive signal, the transmission of said at least one high frequency transmit signal segregated from the reception of said at least one high frequency receive signal using time division duplexing;

a single heterodyne down-conversion section coupled to said antenna section, for down-converting each high frequency receive signal directly to a low intermediate frequency signal;

a bandpass filter coupled to the down-conversion section for channel filtering the low intermediate frequency signal;

a discriminator coupled to the bandpass filter for detecting a received data signal from the low intermediate frequency signal;

a shaping filter for shaping a data signal to be transmitted; and

a variable controlled oscillator coupled to the antenna section and to the shaping filter for generating the at least one high frequency transmit signal in response to the shaped data signal, wherein the variable controlled oscillator is further coupled to the down-conversion section for use in down-converting each high frequency receive signal.

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Abstract

An entire radio transceiver can be completely integrated into one IC chip. In order to integrate the IF filters on the chip, a heterodyne architecture with a low IF is used. A single, directly modulated VCO is used for both up-conversion during transmission, and down-conversion during reception. Bond-wires are used as resonators in the oscillator tank for the VCO. A TDD scheme is used in the air interface to eliminate cross-talk or leakage. A Gaussian-shaped binary FSK modulation scheme is used to provide a number of other implementation advantages.

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19 Claims

1. A radio on a single integrated circuit chip, comprising:
- an antenna section for transmitting at least one high frequency transmit signal and receiving at least one high frequency receive signal, the transmission of said at least one high frequency transmit signal segregated from the reception of said at least one high frequency receive signal using time division duplexing;
  
  a single heterodyne down-conversion section coupled to said antenna section, for down-converting each high frequency receive signal directly to a low intermediate frequency signal;
  
  a bandpass filter coupled to the down-conversion section for channel filtering the low intermediate frequency signal;
  
  a discriminator coupled to the bandpass filter for detecting a received data signal from the low intermediate frequency signal;
  
  a shaping filter for shaping a data signal to be transmitted; and
  
  a variable controlled oscillator coupled to the antenna section and to the shaping filter for generating the at least one high frequency transmit signal in response to the shaped data signal, wherein the variable controlled oscillator is further coupled to the down-conversion section for use in down-converting each high frequency receive signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The radio of claim 1 wherein the down-conversion section comprises an image rejection device.
  - 3. The radio of claim 2 wherein the image rejection device includes a first mixer for mixing the at least one high frequency receive signal with a local oscillator signal from the variable controlled oscillator and a second mixer for mixing the at least one high frequency receive signal with a ninety degree phase-shifted local oscillator signal.
  - 4. The radio of claim 3 wherein the image rejection device further includes at least one phase shifter for phase-aligning the outputs of the first and second mixers and an adder for combining said phase-aligned outputs.
  - 5. The radio of claim 1 wherein the transmission of the at least one high frequency transmit signal and the reception of the at least one high frequency receive signal is performed in accordance with a frequency-division duplex scheme, such that the at least one high frequency transmit signal is transmitted at a first frequency and the at least one high frequency receive signal is received at a second frequency, wherein said first frequency differs from said second frequency.
  - 6. The radio of claim 1, wherein the at least one high frequency receive signal and the at least one high frequency transmit signal are modulated using frequency shift keying.
  - 7. The radio of claim 6, wherein the shaping filter comprises a Gaussian shaping filter.
  - 8. The radio of claim 6 wherein the discriminator comprises a frequency modulation discriminator stage.
  - 9. The radio of claim 1 further comprising a power amplifier through which the variable controlled oscillator is coupled to the antenna section.
  - 10. The radio of claim 1, wherein the low intermediate frequency signal is centered at about 3 MHz.
  - 11. The radio of claim 1, wherein the bandpass filter comprises a CMOS gyrator filter.
  - 12. The radio of claim 1, wherein the variable controlled oscillator uses bond-wire inductors as resonators.
  - 13. The radio of claim 1, wherein the transmission of the at least one high frequency transmit signal and the reception of the at least one high frequency receive signal is performed in accordance with a frequency hopping scheme.
  - 14. The radio of claim 13, wherein the transmission of each high frequency transmit signal and the reception of each high frequency receive signal comprise a duplex frame, each duplex frame sent at a new hop frequency in accordance with the frequency hopping scheme.
  - 15. The radio of claim 1, wherein data transfer is performed using automatic retransmission request error correction.
  - 16. The radio of claim 1, wherein speech coding is performed using continuous variable slope delta modulation.
  - 17. The radio of claim 1, wherein all active components are integrated on a single integrated circuit chip, and at least one of a passive loop filter and a passive variable controlled oscillator resonator is located external to the single integrated circuit chip.
  - 18. The radio of claim 1, further comprising a reference filter for autotuning at least the bandpass filter to the discriminator.
  - 19. The radio of claim 1, wherein the variable controlled oscillator includes a phase locked loop.

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Current Assignee
Telefonaktiebolaget LM Ericsson
Original Assignee
Telefonaktiebolaget LM Ericsson
Inventors
Gardenfors, Karl Håkan Torbjörn, Haartsen, Jacobus Cornelis, Mattisson, Sven
Primary Examiner(s)
ZIMMERMAN, BRIAN A

Application Number

US09/565,223
Time in Patent Office

914 Days
Field of Search

370/280, 370/282, 370/290, 455/76, 455/83, 455/87, 455/226.4, 455/318, 340/572.4, 330/253
US Class Current

370/280
CPC Class Codes

H04B 1/3833   Hand-held transceivers

H04B 1/408   the transmitter oscillator ...

H04B 1/44   Transmit/receive switching

H04B 1/715   Interference-related aspects

H04B 15/00   Suppression or limitation o...

H04B 2001/7152   with means for suppressing ...

H04J 3/10   Arrangements for reducing c...

H04L 27/122   using digital generation of...

H04L 5/1461   Suppression of signals in t...

Radio transceiver on a chip

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Radio transceiver on a chip

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Abstract

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