ESDA6V1SC6Y

ESDAxxSCxY Automotive quad-line Transil™ transient voltage suppressor (TVS) for ESD protection Datasheet - production data Applications Where ESD and EOS transient overvoltage protection in susceptible equipment is required, such as: • Information - entertainment • Signal communications • Connectivity 627/ • Comfort and convenience 627/ Description The ESDAxxSCxY devices are monolithic voltage suppressors designed to protect components which are connected to data and transmission lines against ESD. Features • 4 unidirectional Transil functions They clamp the voltage just above the logic level supply for positive transients, and to a diode drop below ground for negative transient. • 400 W peak pulse power (8/20 µs) Benefits • High EOS and ESD protection levels Figure 1. Pin configuration • Suitable for high density boards • AEC-Q101 qualified  Complies with the following standards:  • ISO 10605: C = 150 pF, R = 330 Ω – 30 kV (air discharge) – 30 kV (contact discharge)    October 2015 This is information on a product in full production.      627/ 627/ • ISO 10605: C = 330 pF, R = 330 Ω – 30 kV (air discharge) – 30 kV (contact discharge) • ISO 7637-2 – Pulse 1: VS = -100 V – Pulse 2a: VS = +50 V – Pulse 3a: VS = -150 V – Pulse 3b: VS = +100 V  Table 1. Device summary Order code VBR(min.) Package ESDA5V3SC6Y 5.3 SOT23-6L ESDA6V1SC6Y 6.1 SOT23-6L ESDA14V2SC5Y 14.2 SOT23-5L ESDA14V2SC6Y 14.2 SOT23-6L ESDA25SC6Y 25 SOT23-6L DocID028400 Rev 1 1/15 www.st.com Characteristics 1 ESDAxxSCxY Characteristics Table 2. Absolute ratings (Tamb = 25 °C) Symbol VPP PPP Parameter Peak pulse voltage Peak pulse power (8/20µs) Value ISO10605 (C = 150 pF, R = 330 Ω) Contact discharge Air discharge ISO10605 (C = 330 pF, R = 330 Ω) Contact discharge Air discharge Unit 30 30 kV 30 30 ESDA5V3SC6Y, ESDA6V1SC6Y 300 ESDA14V2SC5Y, ESDA14V2SC6Y, ESDA25SC6Y 400 ESDA5V3SC6Y ESDA6V1SC6Y ESDA14V2SC5Y, ESDA14V2SC6Y ESDA25SC6Y 22 18 14 9 A W IPP Peak pulse current (8/20µs) Tj Operating junction temperature range -40 to +150 °C Tstg Storage temperature range -65 to +150 °C TL Maximum lead temperature for soldering during 10 s 260 °C Figure 2. Electrical characteristics (definitions) 6\PERO3DUDPHWHU 9%5 %UHDNGRZQYROWDJH ,50 /HDNDJHFXUUHQW# 950 950 6WDQGRIIYROWDJH 9&/ &ODPSLQJYROWDJH ,33 3HDNSXOVHFXUUHQW ,) )RUZDUGFXUUHQW 9) )RUZDUGYROWDJH 5G '\QDPLFLPSHGDQFH &/,1( /LQHFDSDFLWDQFH 2/15 , ,) 9) 9&/ 9%5 950 ,50 6ORSH 5G DocID028400 Rev 1 ,33 9 ESDAxxSCxY Characteristics Table 3. Electrical characteristics - values (Tamb = 25 °C) VBR at IR Order code VCL at Ipp(1) IRM at VRM max. max. αT(2) Cline max. typ. min. max. V V mA µA V V A V mA 10-4/C pF ESDA5V3SC6Y 5.3 5.9 1 2 3 21 22 1.25 200 5 320 ESDA6V1SC6Y 6.1 7.2 1 2 5.2 19 18 1.25 200 6 190 ESDA14V2SC5Y, ESDA14V2SC6Y 14.2 15.8 1 5 12 35 14 1.25 200 10 100 25 30 1 1 24 51 9 1.2 10 10 60 ESDA25SC6Y max. VF at IF 1. 8/20 µs waveform 2. Δ VBR = αT* (Tamb - 25 °C) * VBR (25 °C) Figure 3. Pulse power versus junction temperature  Figure 4. Peak pulse power versus exponential pulse duration (typical values) 333 :  3SS: —V         7Mƒ&          Figure 5. Clamping voltage versus peak pulse current (typical values, 8/20 μs waveform)  W S —V   ,SS $  ,5QD  (6'$96&