SNVA964 June   2020 LP8866-Q1

 

  1.   LP8866-Q1 Typical Design Guidelines to Achieve CISPR 25 Class 5 Conducted and Radiated Emissions Compliance
    1.     Trademarks
    2. 1 Typical Reference Design
      1. 1.1 Design Overview
      2. 1.2 Test Condition
      3. 1.3 CISPR 25 Measurement Results
    3. 2 EMI Mitigation Techniques Discussion
      1. 2.1 Spread Spectrum
      2. 2.2 Gate Resistor
      3. 2.3 LED Current Sink Capacitors
      4. 2.4 Layout Consideration
      5. 2.5 Inductor Selection
      6. 2.6 Boost Output Ferrite Bead
      7. 2.7 Common Mode Filter
    4. 3 Summary

2.1 Spread Spectrum

Spread spectrum technique is widely used in Switched-Mode Power Supplies (SMPS) to reduce EMI around the switching frequency and its harmonics by dispersing the spectral energy of the switching signals. The spread spectrum variation range of the LP8866-Q1 device is programmable from ± 3.3% to ± 7.2% from the central switching frequency. The default variation is ± 5.3%. It can be seen from Figure 7 that enabling the spread spectrum feature of ± 5.3% variation can reduce the third switching frequency harmonics (1.2 MHz) radiated emissions average data by up to 14.48 dB and ± 5.3% variation can contribute to 3.86 dB lower result compared with ± 3.3% variation.

LP8866-Q1 snva964-re-spread-spectrum.gif
(a) Spread spectrum enabled
(± 5.3% variation)		 (b) Spread spectrum enabled
(± 3.3% variation)		 (c) Spread spectrum disabled
Figure 7. Radiated Emissions: Spread Spectrum
LP8866-Q1 snva964-ce-spread-spectrum.gif
(a) Spread spectrum enabled (± 5.3% variation) (b) Spread spectrum disabled
Figure 8. Conducted Emissions: Spread Spectrum