SM712: TVS Diode, Dual Channel, -7V to 12V, SOT23, Low Capacitance
Dowo Semi

The SM712 is a dual-channel TVS (Transient Voltage Suppressor) diode designed by Dowo Semi, specifically engineered to protect electronic circuits from transient voltage spikes. This component is capable of handling peak pulse power of up to 400 watts for an 8/20μs pulse, making it suitable for a wide range of applications where voltage spikes can occur. The SM712 is designed to protect two lines, with operating voltages ranging from -7V to 12V, making it versatile for various circuit designs.

The device utilizes solid-state silicon avalanche technology, ensuring rapid response to transient events, and features low capacitance, which is crucial for maintaining signal integrity in high-speed communication lines. The low clamping voltage of the SM712 minimizes stress on the protected circuit during voltage spikes, thereby enhancing the overall reliability of the system. Packaged in a compact JEDEC SOT23, the SM712 is suitable for space-constrained applications.

Key Specifications and Features

  • Peak Pulse Power: 400 Watts (tp = 8/20μs)
  • Operating Voltage Range: -7V to 12V
  • Clamping Voltage: 20V @ 5A, 26V @ 12A (tp = 8/20μs)
  • Capacitance: 75pF @ 0V, 45pF @ Working Voltage
  • Package: JEDEC SOT23
  • IEC Compatibility: ESD ±15kV (air), ±8kV (contact); EFT 40A (5/50ns); Lightning 12A (8/20μs)

SM712 Datasheet

SM712 datasheet (PDF)

SM712 Substitutes
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Applications

  • Protection of RS-485 transceivers with extended common-mode range
  • Security systems
  • Automatic Teller Machines (ATMs)
  • Hybrid Fiber-Coaxial (HFC) systems
  • Networking equipment

Category

TVS Diodes

General information

TVS diodes are semiconductor devices designed to protect electronic circuits from transient voltage spikes caused by external sources such as lightning, electrostatic discharge (ESD), and electrical fast transients (EFT). These components work by clamping the transient voltage to a safe level that the circuit can withstand, thereby preventing damage to sensitive components.

When selecting a TVS diode, engineers should consider factors such as the working voltage, peak pulse power, clamping voltage, and capacitance. The working voltage should match the voltage levels in the circuit to be protected. The peak pulse power rating indicates the maximum power the diode can dissipate during a transient event. A lower clamping voltage is generally preferable as it means less stress on the protected circuit. Capacitance is an important consideration in high-speed applications, as higher capacitance can degrade signal integrity.

TVS diodes are used in a wide range of applications, including protecting data lines, power supplies, and communication ports from voltage spikes. They are essential components in environments where electronic devices are susceptible to damage from electrical transients. The choice of package size and form factor is also important, especially in space-constrained applications, where compact, surface-mount devices like the SOT23 package are often preferred.

In summary, TVS diodes are critical for ensuring the reliability and longevity of electronic systems in the face of transient voltages. By selecting the appropriate TVS diode based on the application's specific requirements, engineers can effectively safeguard their designs against a wide range of electrical disturbances.

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