The Rohm Semiconductor UDSZTE-17 5.6B is a Zener diode designed for voltage regulation and transient voltage suppression in a variety of electronic circuits. Zener diodes are specifically designed to operate in the reverse breakdown region to provide a stable voltage reference. The 5.6B designation indicates a Zener voltage of approximately 5.6V.

Applications:

• Voltage regulation in power supplies.
• Overvoltage protection in sensitive electronic circuits.
• Clipping or shaping waveforms.
• Voltage reference in measurement equipment.
• Transient voltage suppression in automotive electronics.
• Protection of microcontrollers and other ICs from voltage spikes.
• Use in communication devices to protect sensitive RF components.

Features:

• Precise Zener voltage: Provides a stable voltage reference.
• Low reverse leakage current: Minimizes power consumption.
• High surge current capability: Withstands transient voltage events.
• Small package size: Allows for compact designs.
• High reliability: Ensures consistent performance over time.
• Pb-free and RoHS compliant: Environmentally friendly.

Benefits:

• Stable voltage regulation: Ensures reliable operation of connected circuits.
• Protection against overvoltage and transient voltage events: Prevents damage to sensitive electronic components.
• Improved system reliability: Enhances the robustness of electronic products.
• Simplified design: Easy to implement and integrate into existing circuits.
• Reduced component count: Provides a cost-effective solution for voltage regulation.

Additional Details:

The UDSZTE-17 5.6B has a Zener voltage of approximately 5.6V at a specified test current. It features a low reverse leakage current, typically in the nanoampere range. The surge current capability is specified in the datasheet and indicates the diode's ability to withstand transient voltage events. The diode is available in a small SMD (Surface Mount Device) package. Refer to the Rohm Semiconductor datasheet for complete electrical characteristics and application information.