SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode

Overview of SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode

Diode modules are assemblies consisting of multiple diodes that are packaged together to form a single, easy-to-install unit. They are widely used in power electronics for rectification (converting AC to DC), protecting circuits from overvoltage and reverse current, and many other applications. Diode modules typically contain different types of diodes, such as fast recovery diodes, Schottky diodes, etc., to suit specific application requirements.

Features of SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode

High reliability: By integrating multiple diodes, the risk of single component failure is reduced.

Simplified design: Using modules can reduce PCB space requirements and simplify circuit design.

High efficiency: Some diode modules use advanced materials and technologies to provide lower forward voltage drop and higher efficiency.

Good heat dissipation: Many modules are designed with efficient heat dissipation paths to ensure stable operation under high power conditions.

Easy to install and maintain: Standardized packaging makes installation and replacement easier and faster.

(SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode)

Specification of SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode

The SOD123 500mW W2 BZT52C2V7 2.7 V Zener diode manages voltage in electronic circuits. It maintains a steady 2.7 V reverse break down voltage. This component suits applications needing precise voltage control. The gadget manages as much as 500mW power dissipation. Its small SOD123 bundle fits space-limited PCB designs.

The diode runs within a -55 ° C to +150 ° C temperature array. This ensures reliability across severe environments. A reverse leak present below 0.1 μA at 1V decreases power waste. The Zener voltage resistance stays within ± 5%. This precision supports consistent efficiency in voltage stablizing tasks.

This diode shields delicate components from voltage spikes. It clamps excess voltage to secure degrees. Common uses consist of power products, voltage referrals, and customer electronics. It maintains signals in communication devices. Automotive systems utilize it for overvoltage defense.

The SOD123 plan includes a lead-free finish. It follows RoHS criteria. Surface-mount layout streamlines automated assembly. 2 cathode bands mark polarity for proper setup. The diode endures soldering temperature levels up to 260 ° C.
Low vibrant resistance enhances voltage regulation under lots modifications. This trait stops output variations. The element works with currents up to 190mA. Thermal management remains secure due to the plan’s heat dissipation residential properties.

Producers examine each unit for voltage precision and leakage. Set testing guarantees regular quality. Long-lasting dependability is verified through stress and anxiety simulations. Storage conditions call for completely dry atmospheres below 40 ° C.

The BZT52C2V7 fits high-density motherboard. Its small size does not jeopardize performance. Designers pair it with current-limiting resistors for optimum function. The diode’s quick reaction time counters abrupt voltage rises. Compatibility with reflow soldering streamlines manufacturing.

Electrical parameters straighten with market standards. Technical documentation includes in-depth thermal resistance data. Engineers reference datasheets for derating guidelines. Correct use stops thermal runaway. Voltage resistance tightens up under lower temperature problems.

This Zener diode functions as an affordable option for voltage clamping. Its equilibrium of dimension and power meets modern electronic devices needs. Efficiency remains steady over prolonged functional durations.

(SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode)

Applications of SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode

The SOD123 500mW W2 BZT52C2V7 2.7 V Zener diode handles voltage policy in electronic circuits. It preserves a steady 2.7 V across its terminals when reverse-biased. This makes it useful for shielding delicate elements from voltage spikes. The diode’s 500mW power score permits it to deal with moderate current levels without overheating. Its compact SOD123 plan fits space-constrained designs.

This Zener diode works in voltage securing applications. It limits voltage swings in signal lines. For instance, it safeguards microcontroller inputs from going beyond secure levels. It also maintains voltage in low-power circuits. Power materials use it as a reference for basic voltage policy. It guarantees downstream parts receive consistent voltage even if input varies.

The diode protects circuits from overvoltage occasions. It triggers when voltage surpasses 2.7 V, drawing away excess current. This stops damages to transistors or ICs. It matches battery-powered gadgets where voltage surges may take place during billing. Automotive electronic devices make use of similar diodes to shield against load-dump transients.

Signal conditioning circuits take advantage of its precise break down voltage. It clips or clamps air conditioner signals to specified levels. Audio equipment could use it to avoid distortion from loud signals. Sensor interfaces utilize it to maintain input voltages within ADC arrays.

Its reduced leakage existing reduces power loss throughout normal procedure. The gadget runs reliably across a temperature variety of -65 ° C to +150 ° C. This makes it ideal for commercial or outdoor settings. The SOD123 package’s glass body makes sure longevity. It withstands mechanical stress during assembly.

Designers choose this diode for cost-sensitive jobs. It carries out crucial protection without complex circuitry. Replacement is simple due to standardized product packaging. Supply availability guarantees very easy sourcing for automation.

The diode’s 2.7 V rating targets specific usage cases. Usual applications include voltage referral for low-power sensors. It maintains predisposition voltages in analog circuits. Portable gadgets use it to safeguard USB ports or billing modules. Solar-powered systems count on it to regulate low-voltage outcomes.

Proper warm administration extends its lifespan. A PCB layout with ample copper location improves thermal dissipation. Developers should make sure reverse current keeps within datasheet limitations. Combining it with a collection resistor maximizes efficiency in the majority of circuits. Testing under top lots problems verifies dependability.

The BZT52C2V7 matches both prototyping and industrial products. Its equilibrium of dimension, expense, and efficiency satisfies basic voltage guideline requirements. Designers trust its consistency in preserving circuit stability under varying conditions.

Company Profile

PDDN Photoelectron Technology Co., Ltd.(sales@pddn.com) is one of the leading enterprises in power electronics technology and power products, which is fully involved in developing solar inverters， transformers, voltage regulators, distribution cabinets, thyristors， modules， diodes， heaters, and other electronic devices or semiconductors. We will be committed to providing users with high-quality, efficient products and considerate service.

It accepts payment via Credit Card, T/T, West Union, and Paypal. PDDN will ship the goods to customers overseas through FedEx, DHL, by sea, or by air. If you want high-quality SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode, please send us inquiries; we will be here to help you.

Payment Methods

L/C, T/T, Western Union, Paypal, Credit Card etc.

Shipment

By sea, by air, by express, as customers request.

Storage Conditions

1) Store in a dry environment at room temperature.

2) Avoid damp and high temperature.

3) Use immediately after opening the inner packing bag.

5 FAQs of SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode

What is the SOD123 500mW W2 BZT52C2V7 2.7V Zener diode? It is a small surface-mount diode designed to maintain a stable voltage. It operates at 2.7V. It protects circuits from voltage spikes. The SOD123 package makes it suitable for compact electronics.

What does the 500mW rating mean? This value shows the maximum power the diode can handle without damage. Power equals voltage multiplied by current. Exceeding 500mW may cause overheating or failure. Proper heat management ensures reliability.

How does this Zener diode regulate voltage? It works in reverse-bias mode. When voltage exceeds 2.7V, the diode conducts electricity. This keeps the voltage across it steady. It diverts excess current away from sensitive components.

Where is this diode commonly used? It fits in voltage regulation tasks. Examples include power supplies, battery-operated devices, or protection circuits. It prevents overvoltage in USB ports, sensors, or microcontrollers. Its small size suits space-limited designs.

How do I select the right Zener diode for my project? Check the required voltage and power. The BZT52C2V7 is ideal for 2.7V applications. Ensure the circuit’s max current stays below 500mW divided by 2.7V (around 185mA). Consider temperature effects for stable performance.

(SOD123 500mw W2 BZT52C2V7 2.7V Zener Diode)