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TVS diodes from HJL Electronics are specifically designed to act as highly responsive voltage clamps, offering a barrier during transient voltage events. These events can occur due to lightning strikes, power surges, electromagnetic interference (EMI), or ESD events. The TVS diode diverts excessive current away from sensitive components, preventing potential damage.
| Product | Marketing Status | Configuration | VRRM(V) max. | IF(A) max. | VF (V) max | IFSM(A) max. | IR(uA) max. | trr (ns) max | TJ(°C) max. | TJ(°C) min. | ECCN(US) | Compliance | |
| 1.0SMBJ100A | Active | Uni-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ100CA | Active | Bi-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ10A | Active | Uni-directional | 5 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ10CA | Active | Bi-directional | 5 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ110A | Active | Uni-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ110CA | Active | Bi-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ11A | Active | Uni-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ11CA | Active | Bi-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ120A | Active | Uni-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ120CA | Active | Bi-directional | 1 | 150 | -55 | EAR99 | | ||||||
| 1.0SMBJ12A | Active | Uni-directional | 12 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ12CA | Active | Bi-directional | 12 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ130A | Active | Uni-directional | 130 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ130CA | Active | Bi-directional | 130 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ13A | Active | Uni-directional | 13 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ13CA | Active | Bi-directional | 13 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ14A | Active | Uni-directional | 14 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ14CA | Active | Bi-directional | 14 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ150A | Active | Uni-directional | 150 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ150CA | Active | Bi-directional | 150 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ15A | Active | Uni-directional | 15 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ15CA | Active | Bi-directional | 15 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ160A | Active | Uni-directional | 160 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ160CA | Active | Bi-directional | 160 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ16A | Active | Uni-directional | 16 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ16CA | Active | Bi-directional | 16 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ170A | Active | Uni-directional | 170 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ170CA | Active | Bi-directional | 170 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ17A | Active | Uni-directional | 17 | 1 | 150 | -55 | EAR99 | | |||||
| 1.0SMBJ17CA | Active | Bi-directional | 17 | 1 | 150 | -55 | EAR99 | | |||||
| SMBJ26CA | Active | Bi-directional | 1 | 150 | -55 | EAR99 | |
HJL Electronics' TVS (Transient Voltage Suppression) diodes are designed to protect electronic circuits from voltage spikes and transient surges. When a sudden voltage spike occurs, the TVS diode quickly clamps the voltage to a safe level, diverting the excess energy away from sensitive components. This rapid response helps prevent damage and ensures the longevity and reliability of electronic devices.
As a proficient diodes company, HJL Electronics offers a comprehensive range of TVS diodes and Zener diodes, each with unique advantages tailored to specific applications.
TVS Diodes: Our TVS diodes excel in providing superior protection against transient voltage spikes. They are designed to react swiftly to sudden voltage surges, clamping the voltage to a safe level and safeguarding sensitive electronic components from potential damage. This makes them ideal for applications where transient protection is critical.
Zener Diodes: On the other hand, our Zener diodes are renowned for their precise voltage regulation capabilities. They maintain a stable and consistent voltage level, making them perfect for applications requiring accurate voltage control and reference. Their reliability and precision are unmatched in ensuring the optimal performance of electronic circuits.
