Ultra-Low Capacitance TVS Diode Arrays for Ultra-High-Speed Interfaces - SP3208/SP3213 Series

Littelfuse’s ultra-low capacitance diode arrays in 0201 DFN bidirectional discrete TVS

Image of Littelfuse SP3208 and SP3213 Series TVS Diode ArraysLittelfuse's SP3208 and SP3213 series provide ultra-low capacitance, bidirectionality, and a high level of protection for electronic equipment that may experience destructive electrostatic discharges (ESD). The typical capacitance of 0.08 pF helps ensure excellent signal integrity on the most challenging consumer electronics interfaces. It can safely absorb repetitive ESD strikes at ±12 kV (contact discharge, IEC 61000-4-2) without performance degradation and safely dissipate 2 A of 8/20 μs surge current (IEC 61000-4-5 2nd edition).

The lower capacitance helps customers who struggle with signal integrity. There are passive low -capacitance devices, but they are not regarded as good ESD protection devices. Voltages as low as 10 V can deliver permanent damage to the chips that they are protecting, and the turn on voltages for competitive passives is as high as 500 V.

Features
  • 30 GHz passband, enabling all of the interfaces except 40 GHz and above fiber optic
  • 0201DFN drop-in compatibility to existing solutions
  • Enhancements in the interconnect to reduce parasitic resistance, capacitance, and inductance
  • AEC-Q101 qualified
  • SP3213 PPAP capable
Applications
  • Ultra-high-speed data lines
  • USB 3.2, 3.1, 3.0, and 2.0
  • HDMI 2.1, 2.0, 1.4a, and 1.3
  • DisplayPort™
  • Thunderbolt (light peak)
  • V-by-One®
  • Low-powered antenna interfaces
  • LVDS interfaces
  • Consumer, mobile, and portable electronics
  • Tablet PCs and external storage with high-speed interfaces

Resources

SP3208 and SP3213 Diodes

ImageManufacturer Part NumberDescriptionAvailable QuantityView Details
TVS DIODE ARRAY 5VWM 2A UDFN-2SP3208-01UTGTVS DIODE ARRAY 5VWM 2A UDFN-215080 - ImmediateView Details
TVS DIODE ARRAY 5VWM 2A UDFN-2SP3213-01UTGTVS DIODE ARRAY 5VWM 2A UDFN-214370 - ImmediateView Details
Published: 2019-07-11