目前在台灣,數位電視廣播系統的規格有應用於固定式接收的DVB-T與適用於移動式接收的DVB-H。在DVB-T/H的系統中,為了補償符碼通過通道時的失真,我們會在接收端使用頻域等化器的設計。在傳統上通道估測是依據訓練樣本來訓練頻域等化器的係數,然後再使用一維的內插技術來估測其他子通道。而在移動式的環境中,我們會使用傳統的通道估測以及二維的內插技術來追蹤因接收端的移動所造成的通道變化。 另外一種等化技術是以LMS演算法為基礎,將頻域等化器之係數收斂到最小誤差。然而LMS演算法的收斂條件需要針對每個子通道來求得適當的Step-size,當子通道數目增加時,Step-size求得將會非常繁雜且收歛速度不一。因此,我們提出一套基於自動增益控制與載波回覆概念之改進的頻域等化器演算法。此頻域等化器可使每個子通道係數在相同且單一的Step-size參數下,能夠快速收歛並且具有良好的通道雜訊抵抗能力。最後,我們提出一套以CORDIC為基礎的頻域等化器電路架構。在傳統的通道估測需要乘法以及除法器來計算等化器的係數,而以CORDIC為基礎的頻域等化器則只需要加法器便可計算等化器的係數。本論文將會討論各種應用於DVB-T/H系統的等化技術的理論與模擬,以及在FPGA上實現的結果比較。 Presently Digital Video Broadcasting standard has immobile Terrestrial(DVB-T) and mobile Handheld (DVB-H) in Taiwan. For removing the multi-path channel effects, a frequency domain equalizers is usually employed in the receiver. Conventionally, the subchannel responses are estimated by using known training sequence for channel estimation. Then one-dimension interpolation techniques are used to calculate the channel responses or the equalizer coefficients of other sub-tones. In mobile environment we use conventional channel estimation and twodimension interpolation techniques for tracking the channel variation with mobile receiver. An alternative equalization technique is to base on the LMS algorithm for converging the coefficients of FEQ to the minimum error. But it needs to compute proper step-size for each sub-channel to satisfy convergent rule. Besides, convergent speeds of all sub-channels will not be all the same while the conventional LMS algorithm is applied, especially when the sub-channel number is large. According to this reason we propose an improved equalization algorithm based on automatic gain control and carrier recovery techniques. This algorithm needs only single step-size for all sub-channels to have high and almost equal convergent speed and resistant ability to the channel effect. Finally we propose an equalization algorithm based on CORDIC. In conventional channel estimation we need multiplication and division for estimate equalization coefficients. But with the proposed equalization based on CORDIC we may estimate equalizer coefficients by adders. In this thesis we will discuss the theory, similation and FPGA emulation of several equalization techniques applied in DVB-T/H system.