8.11 A 48V-to-5V Buck Converter with Triple EMI Suppression Circuit Meeting CISPR 25 Automotive Standards

Yi Hsiang Kao, Chieh Sheng Hung, Hui Hsuan Chang, Wei Cheng Huang, Rong Bin Guo, Hsing Yen Tsai, Ke Horng Chen, Kuo Lin Zeng, Ying Hsi Lin, Shian Ru Lin, Tsung Yen Tsai

研究成果: Conference contribution同行評審

摘要

In automotive-used switching regulator applications, the characteristic of extreme conversion ratio (48V to 5V) and high switching frequency (fSW) will give rise to considerable electromagnetic interference (EMI) issues, which is a tremendous obstacle to meeting CISPR 25 automotive standards. As shown in Fig. 8.11.1 (top), if VBattery and VSW nodes are considered, the EMI problem can be divided into two areas. Region I is caused by fSW harmonic tones (<50 MHz) and Region II is caused by VSW spurious ringing and high dv/dt of VSW (>50 MHz). Prior techniques utilize spread-spectrum modulation (SSM) to reduce noise at VSW by increasing fSW spread spectrum (ΔfSW) or decreasing modulation frequency (fM) in Region I [1-3, 6]. Moreover, EMI filters can be used to mitigate EMI problems in Region II [4, 5]. However, fSW harmonic overlap issues are more common in Region II, making EMI suppression less effective in conventional SSM techniques. Spurious Noise Compression (SNC) scheme in [1] modulates fSW with noise (Vn) from Zener diode to largely flatten EMI spikes. Besides, with the aid of Tri-Slope Gate Driving (TSGD), dv/dt and di/dt at VSW during rising edge can be finely tuned to further lower the noise level. Unfortunately, [1] cannot alleviate EMI at VBattery and TSGD cannot control the falling edge of VSW. The multi-rate SSM (MR-SSM) technique in [2] solves the EMI power aliasing spikes by modulating fSW with predefined multi-rate ontime pattern and adaptively synchronizing off-time; however, it fails to optimize the EMI performance as Random SSM does since the fM of MR-SSM will lie in a predefined value. The condition-adaptive Δf3-EMI control in [3] takes input voltage (VIN), load current (ILOAD), and spectrum overlapping issues into consideration to adjust ΔfSW and fM to optimize the EMI reduction. However, it lacks slew rate control when turning on and off the power switches, which induces unsatisfactory EMI reduction in Region II.

原文English
主出版物標題2024 IEEE International Solid-State Circuits Conference, ISSCC 2024
發行者Institute of Electrical and Electronics Engineers Inc.
頁面164-166
頁數3
ISBN(電子)9798350306200
DOIs
出版狀態Published - 2024
事件2024 IEEE International Solid-State Circuits Conference, ISSCC 2024 - San Francisco, 美國
持續時間: 18 2月 202422 2月 2024

出版系列

名字Digest of Technical Papers - IEEE International Solid-State Circuits Conference
ISSN(列印)0193-6530

Conference

Conference2024 IEEE International Solid-State Circuits Conference, ISSCC 2024
國家/地區美國
城市San Francisco
期間18/02/2422/02/24

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