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A 16b 12GS/S single/dual-rate DAC with successive bandpass delta-sigma modulator achieving <-67dBc IM3 within DC-to-6GHz tunable passbands

机译：具有连续带通Δ-Σ调制器的16b 12GS / S单/双速率DAC在DC至6GHz可调通带内实现<-67dBc IM3

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The agile allocation of signal bands over RF frequencies and high in-band spectral purity (both SFDR and NSD) can enable higher-order modulation in high-throughput flexible wireless/wireline transmitters, where signals are often channelized at certain center frequencies. Using a Nyquist DAC to cover the entire signal spectrum is thus unnecessary, as this trades the achievable dynamic range with the bandwidth. For such applications, a narrowband Nyquist DAC followed by a mixer, RF mixing DAC [1], or exploiting higher Nyquist zones [2] are typically adopted; these are either limited by deliverable output power or nearby spectral images due to lower input data rates. A dual-rate hybrid DAC [3] uses a delta-sigma modulated LSB path to compensate for the non-idealities of the Nyquist path, allowing high linearity and a low noise floor within the Nyquist band while limiting out-of-band quantization noise. Still, this only synthesizes the baseband signal and is difficult when covering wide RF spectra due to the DSM OSR requirements.

机译：在RF频率上灵活分配信号频带和高带内频谱纯度（SFDR和NSD）都可以在高通量灵活无线/有线发射机中实现更高阶的调制，在这些无线/有线发射机中，信号通常以某些中心频率进行信道化。因此，无需使用Nyquist DAC来覆盖整个信号频谱，因为这可以用带宽来交换可实现的动态范围。对于此类应用，通常采用窄带Nyquist DAC，然后是混频器，RF混频DAC [1]或利用较高的Nyquist区域[2]。由于输入数据速率较低，它们要么受到可输出的输出功率的限制，要么受到附近频谱图像的限制。双速率混合DAC [3]使用delta-sigma调制的LSB路径来补偿奈奎斯特路径的非理想性，从而在限制奈米带外量化噪声的同时，在奈奎斯特频带内实现了高线性度和低本底噪声。。尽管如此，由于DSM OSR要求，这仅能合成基带信号，并且在覆盖宽射频频谱时很困难。

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《IEEE International Solid- State Circuits Conference》|2018年|362-364|共3页
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Shiyu Su; Mike Shuo-Wei Chen;
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Power harmonic filters; Finite impulse response filters; Timing; Band-pass filters; Frequency measurement; Radio frequency; Quantization (signal);

机译：功率谐波滤波器;有限脉冲响应滤波器;定时;带通滤波器;频率测量;射频;量化（信号）;

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外文文献

1. A 16-bit 12-GS/s Single-/Dual-Rate DAC With a Successive Bandpass Delta-Sigma Modulator Achieving <−67-dBc IM3 Within DC to 6-GHz Tunable Passbands [J] . Shiyu Su, Mike Shuo-Wei Chen Solid-State Circuits, IEEE Journal of . 2018,第12期

机译：具有连续带通Δ-Σ调制器的16位12-GS / s单/双速率DAC，在DC至6GHz可调通带内实现<-67dBc IM3
2. A 12 bit 1 GS/s Dual-Rate Hybrid DAC With an 8 GS/s Unrolled Pipeline Delta-Sigma Modulator Achieving > 75 dB SFDR Over the Nyquist Band [J] . Su Shiyu, Tsai Tu-I, Sharma Praveen Kumar, Solid-State Circuits, IEEE Journal of . 2015,第4期

机译：一个12位1 GS / s双速率混合DAC，具有8 GS / s展开式管道Delta-Sigma调制器，在奈奎斯特频带上实现> 75 dB SFDR
3. A 12-Bit 2 GS/s Dual-Rate Hybrid DAC With Pulse-Error Pre-Distortion and In-Band Noise Cancellation Achieving > 74 dBc SFDR and <−80 dBc IM3 up to 1 GHz in 65 nm CMOS [J] . Shiyu Su, Mike Shuo-Wei Chen Solid-State Circuits, IEEE Journal of . 2016,第12期

机译：具有脉冲误差预失真和带内噪声消除功能的12位2 GS / s双速率混合DAC在65 nm CMOS中在1 GHz时达到> 74 dBc SFDR和<-80 dBc IM3
4. A 16b 12GS/S single/dual-rate DAC with successive bandpass delta-sigma modulator achieving <-67dBc IM3 within DC-to-6GHz tunable passbands [C] . Shiyu Su, Mike Shuo-Wei Chen IEEE International Solid-State Circuits Conference . 2018

机译：具有连续带通Δ-Sigma调制器的16B 12GS /双速率DAC在DC-TO-6GHz可调通带中实现<-67dBc IM3
5. A multi-bit delta-sigma modulator with a passband tunable from DC to half the sampling frequency. [D] . Yamamoto, Kentaro. 2007

机译：一种多位delta-sigma调制器，其通带可从DC调整为采样频率的一半。
6. Continuous compensation of binary-weighted DAC nonlinearities in bandpass delta-sigma modulators [O] . Ghyslain Gagnon -1

机译：Bandpass Delta-Sigma调制器中二元加权DAC非线性的连续补偿

A 16b 12GS/S single/dual-rate DAC with successive bandpass delta-sigma modulator achieving <-67dBc IM3 within DC-to-6GHz tunable passbands

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