Due to aging population and increasing demands about the quality of medical treatment, remote medical treatment has been promoted constantly. However, to achieve the vision, we need to establish an acquisition system for physiological signals, which is small-size and portable. The most important block of the acquisition system is analog front-end. Because it determines whether the quality of signals are worthy of acquisition. In this work, an analog front-end circuit for ECG (Electrocardiogram) acquisition is implemented. Key to its performance is the AC-coupled chopped instrumentation amplifier, which uses current feedback to reject offset. Low power techniques are applied to amplifier design and further enhance the gain linearity of the amplifier. Moreover, offset either caused by circuit mismatch or caused by differential electrode, which is up to several tens of mV from AgCl electrodes, could be rejected effectively. The amplifier achieves more than 120dB CMRR. Chopping could modulates 1/f noise to high frequency band, hence the 1/f noise was filtered by the limited bandwidth of the next stage amplifier. However, we wouldn’t like to see that spikes in company with signal caused by chopping simultaneously; So, we need a chopping spike filter to get rid of them. Finally, we set up the gain and bandwidth of the whole analog front-end circuitry by means of a gain and bandwidth externally tunable amplifier in the last stage. Implemented in a 180nm CMOS technology, the area is 1.1x1.08 mm2 including PAD, the chip consumes less than 20 μW from 1.8V supply.