The purpose of this thesis is to develop an FPGA-based controller in application to a three-phase three-level active NPC grid-connected inverter with LCL filter. The active T-type NPC (AT-NPC) combines the advantages of two-level inverter such as low conduction losses, with positive aspects of conventional NPC inverter such as low switching losses, low common-mode voltage and superior output waveform. For grid filter, LCL filter is adopted since it provides better harmonic attenuation capability with smaller inductance compared with L filter. However, LCL filter may lead to system unstable if no proper damping method is applied. In this thesis multi-loop control structure is utilized to mitigate the LCL resonance. It involves the use of outer loop and inner loop, with the outer loop ensuring steady-state reference tracking performance and the inner loop providing fast dynamic response for system disturbance and sudden reference changes. In this thesis predictive algorithm is applied for inner current loop regulation. Predictive control has the characteristic of dead-beat response therefore it can achieve fast dynamic response with minimum distortion. However, predictive control suffers from its high sensitivity to the accuracy of feedback current. Due to the reduction of inductance in LCL filter, large current ripple will occur on inverter-side. Conventional sampling strategy may not able to retrieve average current under such condition, therefore multi-sampling strategy is applied in this thesis. By multi-sampling technique the noise rejection capability is enhanced and SNR is improved. In addition, predictive control is also sensitive to parameter variations. If magnetic saturation effect occurs the inductance will decrease, which may lead to oscillation or even unstable in predictive control. In this thesis an on-line inductance estimator is developed to identify the inductance and maintain the dynamic response of the system. The designed controllers are implemented on a mixed-signal FPGA device. Experimental verifications are carried out on a 9-kW grid-connected inverter. The results show that the grid current are under well-controlled and even a sudden reference change occurs the designed controllers can still maintain system stable. The total inductance of LCL filter has a 65.38% reduction compared with that of L filter but still remain low harmonic distortion.