Principal architectural changes in polar transmitter in DRP design for WLAN

Abstract

In Digital Radio Processor(DRP) an All-digital Phase Locked Loop(ADPLL) forms the core of the architecture with a digitally controlled oscillator(DCO) being the counterpart of Voltage Controlled Oscillator (VCO) in a conventional PLL design. In addition to this, the RF modulation is also performed digitally by feeding Frequency Control Word(FCW) into the ADPLL. This implies that the DCO should be able to support the frequency range requirements for the modulation technique. DCO modulation range for GSM and Bluetooth systems is few hundreds of KHz. However, in order to support WLAN in both 2.4 GHz (ISM band) and 5–5.9 GHz(UNII) bands the DCO needs to have 1.2 GHz modulation range at 12 GHz frequency. Such a DCO becomes extremely sensitive to supply voltage fluctuations. We propose an algorithm which reduces the modulation range requirement of the DCO and hence its sensitivity to supply voltage. In DRP, the modulated clock output of the ADPLL is used as the sampling clock for the digital logic. For GSM and Bluetooth systems the drift introduced in phase samples by using the modulated clock is negligible. However, for WLAN, merely using the modulated clock for sampling is disastrous as it will introduce intolerable drift in the phase samples when compared to phase samples generated by using a constant uniform clock. We propose a predistortion scheme for frequency control words(FCW) to correct this effect of modulated clock.