Wireless receiver and method
First Claim
1. A receiver for a wireless signal transmission system using digital amplitude modulation using a base band signal having a symbol clock frequency, the receiver comprising:
- an input for connection to an antenna for receiving a wireless signal;
a reference generator for generating a local reference frequency signal;
a mixer arranged to mix the local reference frequency signal with a received signal to extract the base band signal;
a high pass filter arranged to receive the output of the mixer and to suppress a DC component of the extracted base band signal;
an amplifier arranged downstream of the high pass filter;
an analogue-to-digital converter arranged to convert the output of the amplifier into a digital signal;
a digital signal processor arranged to receive the digital signal from the analogue-to-digital converter and configured to extract symbols from the digital signal; and
a base band signal rotation detection circuit arranged to detect rotation of the base band signal upstream of the high pass filter and having an output in communication with the digital signal processor,wherein the digital signal processor is further configured to determine a symbol clock phase by generating a coarse estimate of the symbol clock phase using the local reference frequency signal, or a reference frequency signal derived from the local reference frequency signal, and correcting the coarse estimate of the symbol clock phase based on rotations of the base band signal detected by the base band signal rotation detection circuit, and to use a determination that the symbol clock phase corresponds to a complete rotation to extract symbols from the digital signal.
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Accused Products
Abstract
A receiver and method for a wireless signal transmission system use digital amplitude modulation of a base band signal having a symbol clock frequency. The receiver includes a reference generator which generates a local reference frequency, a mixer to extract the base band signal, a high pass filter to suppress a DC component, an amplifier, an analog-to-digital converter and a digital signal processor to receive digital signals and extract symbols. A base band signal rotation detection circuit detects rotation of the base band signal upstream of the high pass filter. The digital signal processor determines a symbol clock phase by generating a coarse estimate of the symbol clock phase and correcting the coarse estimate based on detected rotations of the base band signal. A determination that the symbol clock phase corresponds to a complete rotation is used in relation to the extraction of symbols.
45 Citations
15 Claims
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1. A receiver for a wireless signal transmission system using digital amplitude modulation using a base band signal having a symbol clock frequency, the receiver comprising:
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an input for connection to an antenna for receiving a wireless signal; a reference generator for generating a local reference frequency signal; a mixer arranged to mix the local reference frequency signal with a received signal to extract the base band signal; a high pass filter arranged to receive the output of the mixer and to suppress a DC component of the extracted base band signal; an amplifier arranged downstream of the high pass filter; an analogue-to-digital converter arranged to convert the output of the amplifier into a digital signal; a digital signal processor arranged to receive the digital signal from the analogue-to-digital converter and configured to extract symbols from the digital signal; and a base band signal rotation detection circuit arranged to detect rotation of the base band signal upstream of the high pass filter and having an output in communication with the digital signal processor, wherein the digital signal processor is further configured to determine a symbol clock phase by generating a coarse estimate of the symbol clock phase using the local reference frequency signal, or a reference frequency signal derived from the local reference frequency signal, and correcting the coarse estimate of the symbol clock phase based on rotations of the base band signal detected by the base band signal rotation detection circuit, and to use a determination that the symbol clock phase corresponds to a complete rotation to extract symbols from the digital signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method at a receiver for decoding data encoded using a base band signal having a symbol clock frequency and digital amplitude modulation of a carrier wave, the method comprising:
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receiving a wireless signal at a receiver; using a local reference frequency signal generated at the receiver to extract the base band signal from the received wireless signal; high pass filtering the extracted base band signal; amplifying the extracted base band signal; converting the amplified extracted base band signal to a digital base band signal; detecting rotation of the base band signal upstream of the high pass filter; generating a coarse estimate of a symbol clock phase using the local reference frequency signal, or a reference frequency signal derived from the local reference frequency signal; correcting the coarse estimate of the symbol clock phase to a corrected symbol clock phase based on detected rotations of the base band signal; and using a determination that the corrected symbol clock phase corresponds to a complete rotation to extract symbols from the digital base band signal.
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Specification