The TZM5252BGS08C24 is a Zener diode manufactured by TEMIC Semiconductors (now Vishay). This diode is designed to provide voltage regulation and transient voltage suppression in electronic circuits. Its key characteristic is its ability to maintain a stable voltage when operated in the reverse breakdown region.

Applications

• Voltage Regulation: Maintaining a stable voltage level for sensitive electronic components.
• Overvoltage Protection: Protecting circuits from damage due to voltage spikes and surges.
• Transient Voltage Suppression (TVS): Suppressing transient voltages to prevent circuit malfunctions.
• Clipping Circuits: Limiting voltage levels to protect components.
• Reference Voltage Generation: Providing a stable reference voltage for various applications.

Features

• Zener Voltage (VZ): 24V: Provides a stable Zener voltage of 24V.
• Low Reverse Leakage Current: Minimizes leakage current, improving efficiency.
• High Surge Current Capability: Can withstand high surge currents without failure.
• Small Outline Diode (SOD) Package: Compact size for space-saving designs.
• RoHS Compliant: Meets environmental regulations.

Benefits

• Stable Voltage Regulation: Ensures consistent voltage supply for connected components.
• Protection Against Voltage Spikes: Protects circuitry from damage due to overvoltage conditions.
• Improved Circuit Reliability: Reduces the risk of component failure caused by voltage fluctuations.
• Compact Design: Allows for integration into space-constrained applications.
• Environmentally Friendly: Complies with environmental standards.

Additional Details

The TZM5252BGS08C24 is typically packaged in a SOD-80 package. The power dissipation is approximately 500mW. Its operating temperature ranges from -65°C to +175°C. The specific Zener voltage is 24V, as indicated by 'C24' in the part number, and the ‘GS08’ likely pertains to specific packaging and environmental compliance details. This diode is crucial for applications requiring precise voltage regulation and protection against transient voltage events.