Catalog
33 V Bidirectional Flat-Clamp surge protection device
Key Features
• Functional Safety-CapableDocumentation available to aid functional safety system designProtection against 1-kV, 42-Ω IEC 61000-4-5 surge test for industrial signal linesBidirectional polarity enables protection against bipolar signaling or miswiring conditionsClamping voltage of 40 V at 27-A of 8/20-µs surge currentStandoff voltage: ±33 VSmall 3 mm × 3 mm SON footprintSurvives over 5,000 repetitive strikes of 25-A 8/20-µs surge currentRobust surge protectionIEC61000-4-5 (8/20 µs): 27 AIEC61643-321 (10/1000 µs): 3 ALow leakage current2.5-nA typical at 27°C450-nA maximum at 85°CLow capacitance: 54 pFIntegrated level 4 IEC 61000-4-2 ESD protectionFunctional Safety-CapableDocumentation available to aid functional safety system designProtection against 1-kV, 42-Ω IEC 61000-4-5 surge test for industrial signal linesBidirectional polarity enables protection against bipolar signaling or miswiring conditionsClamping voltage of 40 V at 27-A of 8/20-µs surge currentStandoff voltage: ±33 VSmall 3 mm × 3 mm SON footprintSurvives over 5,000 repetitive strikes of 25-A 8/20-µs surge currentRobust surge protectionIEC61000-4-5 (8/20 µs): 27 AIEC61643-321 (10/1000 µs): 3 ALow leakage current2.5-nA typical at 27°C450-nA maximum at 85°CLow capacitance: 54 pFIntegrated level 4 IEC 61000-4-2 ESD protection
Description
AI
The TVS3301 device shunts up to 27 A of IEC 61000-4-5 fault current to protect systems from high-power transients or lightning strikes. The device survives the common industrial signal line EMC requirement of 1-kV IEC 61000-4-5 open circuit voltage coupled through a 42-Ω impedance. The TVS3301 uses a feedback mechanism to ensure precise flat clamping during a fault, keeping system exposure lower than traditional TVS diodes. The tight voltage regulation allows designers to confidently select system components with a lower voltage tolerance, lowering system costs and complexity without sacrificing robustness. The TVS3301 has a ±33-V operating range to enable operation in systems that require protection against reverse wiring conditions.
In addition, the TVS3301 is available in a small SON footprint designed for space constrained applications, offering a significant size reduction compared to standard SMA and SMB packages. Low device leakage and capacitance ensure a minimal effect on the protected line. To ensure robust protection over the lifetime of the product, TI tests the TVS3301 against 5000 repetitive surge strikes at 125°C with no shift in device performance.
The TVS3301 is part of TI’s Flat-Clamp family of surge devices. For a deeper look at the Flat-Clamp family, refer to theFlat-Clamp Surge Protection Technology for Efficient System Protectionwhite paper.
The TVS3301 device shunts up to 27 A of IEC 61000-4-5 fault current to protect systems from high-power transients or lightning strikes. The device survives the common industrial signal line EMC requirement of 1-kV IEC 61000-4-5 open circuit voltage coupled through a 42-Ω impedance. The TVS3301 uses a feedback mechanism to ensure precise flat clamping during a fault, keeping system exposure lower than traditional TVS diodes. The tight voltage regulation allows designers to confidently select system components with a lower voltage tolerance, lowering system costs and complexity without sacrificing robustness. The TVS3301 has a ±33-V operating range to enable operation in systems that require protection against reverse wiring conditions.
In addition, the TVS3301 is available in a small SON footprint designed for space constrained applications, offering a significant size reduction compared to standard SMA and SMB packages. Low device leakage and capacitance ensure a minimal effect on the protected line. To ensure robust protection over the lifetime of the product, TI tests the TVS3301 against 5000 repetitive surge strikes at 125°C with no shift in device performance.
The TVS3301 is part of TI’s Flat-Clamp family of surge devices. For a deeper look at the Flat-Clamp family, refer to theFlat-Clamp Surge Protection Technology for Efficient System Protectionwhite paper.
