180V Zener diodes for various applications
Manufacturer: ['microsemi', 'semtech']
The 1N4988 Series is a collection of high-performance, general-purpose silicon rectifier diodes designed to meet the rigorous demands of various electronic applications. These diodes are engineered to handle reverse voltage ratings of up to 50 volts and offer a maximum forward current of 1 ampere, making them an excellent choice for both commercial and industrial uses. The 1N4988 Series is particularly recognized for its low forward voltage drop, which enhances efficiency and reduces power loss in circuit designs.
One of the standout features of the 1N4988 Series is its robust thermal performance. With a maximum junction temperature of 150°C, these diodes are capable of operating in high-temperature environments, ensuring reliability even in challenging conditions. Their encapsulation in a DO-41 package provides a compact form factor while allowing for effective heat dissipation, making them suitable for applications that require durability and longevity.
The versatility of the 1N4988 Series makes it suitable for a wide array of applications. Common use cases include power supply circuits, where they are employed in rectification processes to convert alternating current (AC) to direct current (DC). They are also ideal for use in battery chargers, where efficiency and thermal management are crucial. Additionally, these diodes find applications in motor control circuits, protection circuits, and signal demodulation, solidifying their role as a fundamental component in various electronic systems.
In summary, the 1N4988 Series of rectifier diodes stands out for its combination of performance, reliability, and versatility. Whether utilized in consumer electronics, automotive systems, or industrial machinery, these diodes deliver consistent performance and are engineered to meet the demands of modern electronic applications. Their design characteristics and operational capabilities make them an indispensable choice for engineers looking to enhance circuit efficiency and reliability across diverse applications.
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