ESDA051-1JY Datasheet Automotive 5 V TVS in SOD323 Features AEC-Q101 qualified Unidirectional devices ECOPACK2 compliant component ISO 10605 / IEC 61000-4-2: C = 150 pF, R = 330 , exceeds level 4 30 kV (air discharge) 30 kV (contact discharge) ISO 10605: C = 330 pF, R = 330 , exceeds level 4 30 kV (air discharge) 30 kV (contact discharge) IEC 61000-4-4 ISO 7637-3 Fast transient pulse a: Vs = -150 V Fast transient pulse b: Vs = +150 V Slow transient negative pulse: Vs = -85 V Slow transient positive pulse: Vs = +85 V Application Protection of electronic circuits in ICE vehicles, electrical vehicle and hybrid electric vehicles such as e-bikes, cars and buses. The low clamping voltage during ESD and Product status link EOS surges provides an efficient protection of the equipment to ensure robustness ESDA051-1JY and longevity of the vehicle. Description This ESDA051-1JY is unidirectional single TVS protection devices designed to protect sensitive equipement against ESD transients and EOS surges. This device is packaged in SOD323. DS13147 - Rev 1 - November 2019 www.st.com For further information contact your local STMicroelectronics sales office.ESDA051-1JY Characteristics 1 Characteristics Table 1. Absolute maximum ratings (T = 25 C) amb Symbol Parameter Value Unit ISO10605 / IEC 61000-4-2 (C = 150 pF, R = 330 ): Contact discharge 30 Air discharge 30 V Peak pulse voltage ISO10605 (C = 330 pF, R = 330 ) kV PP Contact discharge 30 Air discharge 30 ISO 10605 - C = 330 pF, R = 2 k 30 I Peak pulse current 8/20 s 20 A PP T Operating junction temperature range -55 to +150 C j T Storage temperature range -55 to +150 C stg T Maximum lead temperature for soldering during 10 s 260 C L Figure 1. Electrical characteristics - parameter definitions Table 2. Electrical characteristics - parameter values (T = 25 C, unless otherwise specified) amb 8 / 20s V at C at F I at V V at 1 mA RM RM BR (1) 0 V 10 mA V I R CL PP D Type Max. Min. Typ. Max. Typ. Max. Max. Max. Typ. A V V V V V V V A pF ESDA051-1JY 3 5 6.2 6.5 6.8 0.78 0.9 12.8 20 0.3 190 1. To calculate V max versus I appli: V max = V max + R x I appli. CL PP CL BR D PP DS13147 - Rev 1 page 2/11