Jae-Hong Chang, Huijung Kim, Jeong-Hyun Choi, Hangun Chung, Jungwook Heo, Sanghoon Kang, Jong-Dae Bae, Heetae Oh, Youngwoon Kim, T. Kwon, Ryan Kim, Wooseung Choo, D. Rhee, Byeong-ha Park
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引用次数: 25
摘要
近年来,DVH-H/T、T- dmb /DAB、ISDB-T等移动电视应用在世界范围内不断涌现。为了支持各种应用,开发了多标准多频段移动电视射频调谐器,作为一种成本效益高且尺寸有效的解决方案[1]。RF和Channel对更小的外形尺寸和降低功耗的需求非常高,SoC技术正在被采用以满足客户的要求。如图25.7.1所示,本文提出了一个在65nm CMOS中实现移动电视所有标准和频段的SoC。该射频SoC由三个射频前端组成,一个支持低通滤波和复杂带通滤波的双模模拟基带滤波器,一个数字控制可编程增益放大器(PGA),宽带VCO/PLL, DCXO,数据转换器,解调器,前向纠错(FEC),硬接线多协议封装前向纠错(MPE-FEC), ARM CPU和SRAM。这种移动电视射频SoC减少了电路板面积和复杂性,同时缩短了系统设计时间。
A multistandard multiband mobile TV RF SoC in 65nm CMOS
The mobile TV applications such as DVH-H/T, T-DMB/DAB, ISDB-T are recently emerging all over the world. To support various applications, the multistandard and multiband mobile TV RF tuner is developed as a cost-effective and size-effective solution [1]. The demand for smaller form factor and power consumption reduction of RF and Channel is very high, and SoC technology is being adopted to meet the customer's requirements. As shown in Fig. 25.7.1, an SoC that implements all of the standards and frequency bands of a mobile TV in a 65nm CMOS is presented in this paper. This RF SoC consists of three RF front ends, a dual-mode analog baseband filter supporting lowpass filtering and complex bandpass filtering, a digitally controlled programmable-gain amplifier (PGA), wideband VCO/PLL, DCXO, data converters, demodulator, forward error correction (FEC), hardwired multiprotocl encapsulation forward error correction (MPE-FEC), ARM CPU and SRAM. This mobile TV RF SoC reduces board area and complexity while cutting system design time.
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