RU98113317A - DIGITAL CALIBRATION OF THE TRANSMITTER - Google Patents

Claims (10)

1. A radio receiver comprising: an analog radio receiver for receiving and processing a radio signal; an analog-to-digital converter for converting the received signal and the processed signal from the specified analog radio into a digital signal; a digital computing part for processing said digital signal; and a memory device for storing at least one calibration amount, said memory device being connected to transmit data to said computing part, wherein said computing part uses at least one said calibration amount to compensate for the first errors introduced into said the received and processed signal by an analog radio receiver, in which the specified analog-to-digital converter is selected as an N-bit converter, in which N is selected to compensate for quantization errors introduced into the indicated digital signal by the indicated first errors.  2. A radio transmitter comprising: a digital computing part for processing a transmitted information signal; a digital-to-analog converter for converting said information signal from said digital computing part into an analog signal; an analog radio transmitting part for processing and transmitting said analog signal; and a memory device for storing at least one calibration value, wherein said memory device is connected to transmit data to said digital computing part, said digital computing part uses at least one said calibration value to compensate for errors introduced into said analog a signal of said analogue radio transmitting part, and wherein said digital-to-analog converter is selected as an N-bit converter, in which N is selected in this way, to compensate for the quantization errors introduced into the specified analog signal by the specified compensation performed using the specified digital computing part.  3. A method for calibrating a transceiver, comprising the steps of: processing a digital signal in said transceiver using digital signal processing; reading the calibration value from the memory device; using the specified calibration value in the specified digital signal processing program to change the value of the specified signal; outputting the specified modified signal; converting said altered signal from a digital signal to an analog signal using a digital-to-analog converter; setting the dimension of the specified digital-to-analog converter to compensate for quantization errors introduced into the specified analog signal by the specified calibration value used in the specified digital signal processing; supplying the specified analog signal to the analog part of the transmitter of the specified transceiver; and transmitting said analog signal through an air interface.  4. The method according to claim 3, further comprising the following steps: obtaining an analog signal through an air interface; processing said analog signal using the analog receiver portion of said transceiver; and converting said processed analog signal into said digital signal using an analog-to-digital converter, said digital signal being processed by said digital signal processing method.  5. The method according to claim 4, further comprising the following stage: setting the dimension of said analog-to-digital converter to compensate for quantization errors introduced into said digital signal by errors associated with said analog receiving part.  6. A method for calibrating a transceiver, comprising the following steps: setting at least one calibration parameter to an initial value; providing at least one input signal for the specified transceiver, each of which has a corresponding output; measuring the output of the specified transceiver associated with each of at least one input signal; determining values for said at least one calibration parameter based on said measured output; and transmitting or receiving signals using the indicated specific values for calibrating the transceiver.  7. A method for calibrating a transceiver, comprising the steps of: providing a first input signal at a predetermined channel frequency; changing the level of the first input signal in accordance with a set of signal level values; measuring the first output of the specified transceiver for each of the specified set of signal strength values; determining a nominal magnitude of gain compensation and a nominal magnitude of bias compensation based on said first outputs; and calibrating said transceiver using said nominal gain compensation value and said bias compensation nominal value to adjust one received signal and the signal to be transmitted.  8. The method according to claim 7, further comprising the following steps: providing a second input signal with a predetermined signal level value for each of the set of channel frequencies; measuring the second output of the specified transceiver for each channel frequency in the specified set of channel frequencies; determining a set of channel offset compensation values based on said second outputs; and calibrating said transceiver using at least one of a set of channel offset compensation values in addition to said nominal gain compensation and offset compensation values.  9. The method according to claim 8, characterized in that said calibration step further comprises the following operations: interpolation of two channel offset compensation values between which the current channel is located to obtain offset compensation values for the specified current channel.  10. The method according to p. 8, characterized in that said calibration step further comprises the following operation: selecting at least one specified set of channel offset compensation values as the specified value, the compensation value being related to the channel frequency in the specified set and this the frequency is closest to the frequency at which the specified transceiver is currently operating.