FreeCalypso > hg > fc-rfcal-tools
comparison doc/Rx-cal-theory @ 63:131abadbd74d
doc/Rx-cal-theory written
| author | Mychaela Falconia <falcon@freecalypso.org> |
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| date | Sun, 28 May 2017 03:21:34 +0000 |
| parents | |
| children | e7b9a9903f14 |
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| 62:a98873b713c3 | 63:131abadbd74d |
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| 1 The incoming radio signal from the antenna passes through a chain of amplifiers | |
| 2 before it reaches the Calypso DSP, and the dBm power measurement reported by the | |
| 3 latter is significantly greater than the actual power level at the antenna | |
| 4 connector. The mobile station firmware needs to be able to determine the actual | |
| 5 input level from the DSP's power measurement (not only for reporting purposes, | |
| 6 but also to select the proper AGC setting), hence it needs to know the | |
| 7 difference in dB between the DSP's power measurement and the input signal level | |
| 8 in dBm. For this purpose the firmware maintains a constant called GMagic, | |
| 9 defined as: | |
| 10 | |
| 11 GMagic = PM - IL - AGC | |
| 12 | |
| 13 where PM is the DSP's power measurement in notional dBm, IL is the input level | |
| 14 in actual dBm, and AGC is the AGC programmable gain setting in dB. GMagic is | |
| 15 the sum of all amplifier gains and insertion losses along the Rx signal path, | |
| 16 and is on the order of about 100 dB, although the fw reckons it in half-dB | |
| 17 units. | |
| 18 | |
| 19 Some Calypso device manufacters have calibrated the GMagic constant for each | |
| 20 band on a per-unit basis, and the unit-to-unit difference is on the order of | |
| 21 1-2 half-dB units, i.e., rarely more than 1 dB. The difference from one board | |
| 22 design to another tends to be a little greater, on the order of 10 half-dB | |
| 23 units, and is probably due to the difference in insertion losses at various | |
| 24 points in the Rx signal path. (Ideally these insertion losses should be zero, | |
| 25 but the world is not ideal.) | |
| 26 | |
| 27 GMagic calibration is done by connecting a signal generator putting out a | |
| 28 precisely controlled signal to the DUT's antenna connector or RF test port, | |
| 29 making a power measurement with the Calypso DSP and computing GMagic per the | |
| 30 simple equation above. | |
| 31 | |
| 32 Our FreeCalypso version of the GMagic calibration procedure is closely based on | |
| 33 the Sara version, described on pages 28-32 of the Sara document | |
| 34 rf_calibration.pdf (see TI-docs). The LoCosto calibration document does not | |
| 35 include a GMagic calibration procedure, but LoCosto is a very different beast, | |
| 36 with both the baseband processor and the RF transceiver in the same chip, and | |
| 37 using that mysterious DRP - perhaps LoCosto doesn't need GMagic calibration, | |
| 38 perhaps it is absorbed into DRP calibration instead. | |
| 39 | |
| 40 Per the available Sara RF calibration document, we set the signal generator's | |
| 41 output level to -74.5 dBm, and set the AGC in the Rita RF chip to 34 dB for the | |
| 42 GMagic calibration step. However, we use the ARFCNs from the LoCosto document: | |
| 43 37 for the EGSM band, 698 for DCS, 661 for PCS and 189 for GSM850. The old Sara | |
| 44 document covers only 900 and 1800 MHz bands (I'm guessing Sara probably did not | |
| 45 support 1900 MHz, let alone 850), the LoCosto document is quadband throughout, | |
| 46 and the LoCosto ARFCNs are closer to the true centre of each band. | |
| 47 | |
| 48 RSSI channel compensation | |
| 49 ========================= | |
| 50 | |
| 51 The GMagic constant is calibrated at the centre frequency for each downlink | |
| 52 band, but the true value of this "magic gain" varies slightly with the frequency | |
| 53 channel. The drawing on page 34 of the Sara document suggests that this | |
| 54 frequency channel-dependent variation is caused by frequency-dependent variation | |
| 55 in the insertion loss of the Rx SAW filters. This frequency channel-dependent | |
| 56 variation in the "magic gain" is customarily calibrated on a per-unit basis | |
| 57 (even on LoCosto, apparently), and the available documents suggest that this | |
| 58 calibration is done in order to make RSSI reporting more accurate. | |
| 59 | |
| 60 Once again our FreeCalypso version of this RSSI channel calibration procedure | |
| 61 is based on the Sara document, rather than LoCosto, except for the ARFCNs. The | |
| 62 LoCosto document gives ARFCN ranges for Rx channel calibration for all 4 bands, | |
| 63 and these ranges fully agree with what Openmoko's factory programmed in their | |
| 64 /gsm/rf/rx/calchan.* files, thus we have adopted the ARFCN ranges and test | |
| 65 ARFCNs from LoCosto for all 4 bands. | |
| 66 | |
| 67 Note that the LoCosto document indicates the use of a different signal generator | |
| 68 level (-68.5 dBm instead of -74.5), and tells the operator to set the AGC gain | |
| 69 to 0 dB. The latter must be a LoCosto-ism, as it is definitely not correct for | |
| 70 our Calypso+Iota+Rita chipset. If we set the signal generator level to | |
| 71 -68.5 dBm, we would need to get the Rita AGC to 28 dB, but the Mother of | |
| 72 FreeCalypso decided to go with the safer choice of using the Sara settings of | |
| 73 -74.5 dBm generator level, 34 dB AGC. | |
| 74 | |
| 75 FreeCalypso Rx calibration tools | |
| 76 ================================ | |
| 77 | |
| 78 The present suite of RF calibration tools includes two programs for Rx path | |
| 79 calibration: | |
| 80 | |
| 81 fc-rfcal-gmagic | |
| 82 | |
| 83 This program is a study-only tool. It measures the GMagic constant for | |
| 84 the user-specified band (either at that band's default ARFCN or at a | |
| 85 user-specified ARFCN) and prints it out, but does not write anything | |
| 86 into the Calypso device's FFS. | |
| 87 | |
| 88 fc-rfcal-rxband | |
| 89 | |
| 90 This program is intended for production use. It performs both the | |
| 91 GMagic and the RSSI channel compensation calibration steps, uploads the | |
| 92 results to the DUT and saves them in FFS. |