A low noise, high conversion gain down-conversion mixer for WLAN 802.11a applications, which adopts the high intermediate frequency (IF) topology, is presented. The input radio frequency (RF)band, local oscillator...A low noise, high conversion gain down-conversion mixer for WLAN 802.11a applications, which adopts the high intermediate frequency (IF) topology, is presented. The input radio frequency (RF)band, local oscillator(LO)frequency band and output IF are 5.15 to 5.35, 4.15 to 4.35 and 1 GHz, respectively. Source resistive degeneration technique and pseudo-differential Gilbert topology are used to achieve high linearity, and, current bleeding technique and LC resonant loads are used to acquire a low noise figure. In addition, the mixer adopts a common-source transistor pair cross-stacked with a source follow pair(CSSF)circuit as an output buffer to enhance the mixer's conversion gain but not deteriorate the other performances. The mixer is implemented in 0.18 μm RF CMOS(complementary metal oxide semiconductor transistor)technology and the chip area of the mixer including all bonding pads is 580 μm×1 185 μm. The measured results show that under a 1.8 V supply, the conversion gain is 10.1 dB; the input 1 dB compression point and the input-referred third-order intercept point are-3.5 and 5.3 dBm, respectively; the single side band (SSB)noise figure (NF)is 8.65 dB, and the core current consumption is 3.8 mA.展开更多
基金The Science and Technology Program of Zhejiang Province (No.2008C16017)
文摘A low noise, high conversion gain down-conversion mixer for WLAN 802.11a applications, which adopts the high intermediate frequency (IF) topology, is presented. The input radio frequency (RF)band, local oscillator(LO)frequency band and output IF are 5.15 to 5.35, 4.15 to 4.35 and 1 GHz, respectively. Source resistive degeneration technique and pseudo-differential Gilbert topology are used to achieve high linearity, and, current bleeding technique and LC resonant loads are used to acquire a low noise figure. In addition, the mixer adopts a common-source transistor pair cross-stacked with a source follow pair(CSSF)circuit as an output buffer to enhance the mixer's conversion gain but not deteriorate the other performances. The mixer is implemented in 0.18 μm RF CMOS(complementary metal oxide semiconductor transistor)technology and the chip area of the mixer including all bonding pads is 580 μm×1 185 μm. The measured results show that under a 1.8 V supply, the conversion gain is 10.1 dB; the input 1 dB compression point and the input-referred third-order intercept point are-3.5 and 5.3 dBm, respectively; the single side band (SSB)noise figure (NF)is 8.65 dB, and the core current consumption is 3.8 mA.
