FreeCalypso > hg > fc-rfcal-tools
view doc/Rx-cal-theory @ 65:e7b9a9903f14
doc/Rx-cal-theory: typo fix
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 28 May 2017 05:10:32 +0000 |
parents | 131abadbd74d |
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The incoming radio signal from the antenna passes through a chain of amplifiers before it reaches the Calypso DSP, and the dBm power measurement reported by the latter is significantly greater than the actual power level at the antenna connector. The mobile station firmware needs to be able to determine the actual input level from the DSP's power measurement (not only for reporting purposes, but also to select the proper AGC setting), hence it needs to know the difference in dB between the DSP's power measurement and the input signal level in dBm. For this purpose the firmware maintains a constant called GMagic, defined as: GMagic = PM - IL - AGC where PM is the DSP's power measurement in notional dBm, IL is the input level in actual dBm, and AGC is the AGC programmable gain setting in dB. GMagic is the sum of all amplifier gains and insertion losses along the Rx signal path, and is on the order of about 100 dB, although the fw reckons it in half-dB units. Some Calypso device manufacters have calibrated the GMagic constant for each band on a per-unit basis, and the unit-to-unit difference is on the order of 1-2 half-dB units, i.e., rarely more than 1 dB. The difference from one board design to another tends to be a little greater, on the order of 10 half-dB units, and is probably due to the difference in insertion losses at various points in the Rx signal path. (Ideally these insertion losses should be zero, but the world is not ideal.) GMagic calibration is done by connecting a signal generator putting out a precisely controlled signal to the DUT's antenna connector or RF test port, making a power measurement with the Calypso DSP and computing GMagic per the simple equation above. Our FreeCalypso version of the GMagic calibration procedure is closely based on the Sara version, described on pages 28-32 of the Sara document rf_calibration.pdf (see TI-docs). The LoCosto calibration document does not include a GMagic calibration procedure, but LoCosto is a very different beast, with both the baseband processor and the RF transceiver in the same chip, and using that mysterious DRP - perhaps LoCosto doesn't need GMagic calibration, perhaps it is absorbed into DRP calibration instead. Per the available Sara RF calibration document, we set the signal generator's output level to -74.5 dBm, and set the AGC in the Rita RF chip to 34 dB for the GMagic calibration step. However, we use the ARFCNs from the LoCosto document: 37 for the EGSM band, 698 for DCS, 661 for PCS and 189 for GSM850. The old Sara document covers only 900 and 1800 MHz bands (I'm guessing Sara probably did not support 1900 MHz, let alone 850), the LoCosto document is quadband throughout, and the LoCosto ARFCNs are closer to the true centre of each band. RSSI channel compensation ========================= The GMagic constant is calibrated at the centre frequency for each downlink band, but the true value of this "magic gain" varies slightly with the frequency channel. The drawing on page 34 of the Sara document suggests that this frequency channel-dependent variation is caused by frequency-dependent variation in the insertion loss of the Rx SAW filters. This frequency channel-dependent variation in the "magic gain" is customarily calibrated on a per-unit basis (even on LoCosto, apparently), and the available documents suggest that this calibration is done in order to make RSSI reporting more accurate. Once again our FreeCalypso version of this RSSI channel calibration procedure is based on the Sara document, rather than LoCosto, except for the ARFCNs. The LoCosto document gives ARFCN ranges for Rx channel calibration for all 4 bands, and these ranges fully agree with what Openmoko's factory programmed in their /gsm/rf/rx/calchan.* files, thus we have adopted the ARFCN ranges and test ARFCNs from LoCosto for all 4 bands. Note that the LoCosto document indicates the use of a different signal generator level (-68.5 dBm instead of -74.5), and tells the operator to set the AGC gain to 0 dB. The latter must be a LoCosto-ism, as it is definitely not correct for our Calypso+Iota+Rita chipset. If we set the signal generator level to -68.5 dBm, we would need to set the Rita AGC to 28 dB, but the Mother of FreeCalypso decided to go with the safer choice of using the Sara settings of -74.5 dBm generator level, 34 dB AGC. FreeCalypso Rx calibration tools ================================ The present suite of RF calibration tools includes two programs for Rx path calibration: fc-rfcal-gmagic This program is a study-only tool. It measures the GMagic constant for the user-specified band (either at that band's default ARFCN or at a user-specified ARFCN) and prints it out, but does not write anything into the Calypso device's FFS. fc-rfcal-rxband This program is intended for production use. It performs both the GMagic and the RSSI channel compensation calibration steps, uploads the results to the DUT and saves them in FFS.