A low noise amplifier (LNA), mixer, quadrature voltage controlled oscillator (QVCO) and low pass filter (LPF) (overall called as QLMVF Cell) in two active stages for 2.4GHz ZigBee and Bluetooth low energy (BLE) direct conversion receiver is designed and presented. To achieve low power, QVCO, LNA and split trans-conductance amplifier (TCA)s are sharing bias current in the first stage. Similarly, trans impedance amplifier (TIA) and 3rd order LPF sharing the second stage bias current. The use of split TCAs avoiding I/Q cross talk even with 50% local oscillator (LO) signal and a current driven passive mixer down converting single ended RF signal into differential base band signal without the use of RF balun. The programmable LPF enables the receiver to operate in both ZigBee and BLE modes. Optimum input matching is achieved independent of bond wire effects by the use of varactor in the LNA. The design includes gain variation to achieve linearity requirements. The UMC 180nm CMOS extracted results of the QLMVF cell show, 42.5dB of conversion gain, 10dB of noise figure, less than-15dB of S11, 23dBm of 1dB compression, -8.5dBm of out band IIP3 and 57.6dB of spurious free dynamic range (SFDR). The proposed receiver front end consuming 2.7mW from 1.8V VDD and occupies an area of 1.5mm2. © 2016 IEEE.