The RLZTE-1130A is a Zener diode manufactured by Rohm Semiconductor. This component is designed to provide stable voltage regulation and overvoltage protection in various electronic circuits. Zener diodes are commonly utilized to maintain a constant voltage output, safeguard sensitive components from voltage spikes, and generate reference voltages.

Applications

• Voltage regulation in power supplies
• Overvoltage protection circuits
• Voltage clipping applications
• Reference voltage generation
• Transient voltage suppression

Features

• Stable Zener voltage of approximately 30V
• Low reverse leakage current
• High surge current capability
• Surface Mount Device (SMD) package
• Excellent voltage clamping performance
• Pb-free plating for environmental compliance

Benefits

• Provides stable voltage regulation for reliable circuit operation.
• Protects delicate electronic components from damage due to voltage surges.
• Compact SMD package facilitates efficient and cost-effective assembly.
• Excellent clamping capability ensures effective overvoltage protection.
• Environmentally friendly due to the Pb-free plating.

Additional Details

The RLZTE-1130A Zener diode offers a nominal Zener voltage (Vz) of approximately 30V. Precise voltage and tolerance details are available in the product datasheet. The diode exhibits a low reverse leakage current (Ir), contributing to energy efficiency. It is designed to withstand high surge currents, making it suitable for transient voltage suppression. The SMD package simplifies automated assembly processes. Power dissipation typically ranges from 200-500mW, contingent on the package type and thermal conditions. It's imperative to consult the device datasheet for comprehensive electrical characteristics, including Zener voltage (Vz), reverse leakage current (Ir), and forward voltage (Vf), to ensure proper circuit design and optimal performance. The operating temperature range is generally -55°C to +150°C. The RLZTE-1130A is suited for general-purpose voltage regulation and transient voltage suppression scenarios.