Bibliographic Details
| Title: |
An Ultra-Low-Noise Buck Converter for Noise-Sensitive Applications |
| Authors: |
Besharati Rad, Amir, Kargaran, Masoud, Moosavi, Seyed Mohamad Razi, Meghdadi, Masoud, Medi, Ali |
| Source: |
IEEE Transactions on Power Electronics; February 2024, Vol. 39 Issue: 2 p2169-2179, 11p |
| Abstract: |
An ultra-low-noise buck converter for noise-sensitive applications is presented, which utilizes a novel pseudo average current-mode control (ACMC) with an adaptive ramp generator to decrease the baseband noise. Also, in order to suppress electromagnetic interference (EMI) and high-frequency spurs, spread spectrum and secondary filter are used, respectively. The proposed ACMC buck converter suppresses the switching frequency perturbation effect on the output voltage, and as a result in the spread spectrum condition, only a small amount of noise is added to the output voltage in the baseband frequency. For the spread spectrum with an external clock, a phase-locked loop is used, which synchronizes the internal oscillator and adapts the ramp generator slope to suppress spread spectrum baseband noise. The proposed ACMC converter achieves only 58 $\mu V_\mathrm{rms}$ noise in 100 Hz–100 kHz frequency range. Also, a $\pm$10% random spread spectrum architecture suppresses the EMI level by 11 dB while achieving only 88 $\mu V_\mathrm{rms}$ and 156 $\mu V_\mathrm{rms}$ noise for internal and external clock synchronization, respectively. The peak efficiency of the converter is 95% and the output voltage disturbance is 100 mV at a 2-A load step with 16 $\mu$s settling time. The proposed design is implemented on a 180-nm BCD technology occupying a 1.65×3.70 mm$^{2}$ die size. |
| Database: |
Supplemental Index |
