VLZ27D-GS18

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

In the semiconductor industry, the VLZ27D-GS18 diode, is categorized as a Zener single diode. It is a typically used device in many electrical applications.

The forward voltage drop of the VLZ27D-GS18 diode measures to be around 0.84V when at a given current of 1mA. The maximum reverse voltage is 18V, and the maximum operating reverse voltage is 14V. The maximum reverse voltage is the maximum voltage that can be applied to the diode while the maximum operating reverse voltage is the maximum voltage that the diode can operate within. The voltage of a Zener single diode typically needs to be within the range of its maximum reverse voltage.

The maximum average rectified current for this office VLZ27D-GS18 diode is 0.2A, and its power dissipation stands at 500 mW via a 2800 ohm resistor. The maximum surge reverse voltage is the maximum voltage at which the diode can take a surge current for some specified period of time. This office VLZ27D-GS18 diode has a maximum surge reverse voltage of 50V.

The metallurgical construction of this diode consists of a single-piece vacuum-sealed glass enclosure, which also contains Boron Diffused Zener, an Anode and a Cathode. The Anode is the positive electrode while the Cathode is the negative electrode. The Boron Diffused Zener is the primary element of this diode. The Zener helps to ensure the breakdown voltage and thereby maintain the proper operation of the diode.

The main application fields in which the VLZ27D-GS18 diode is used are voltage regulation and as a protector for sensitive electronic components. The diode can be used for various types of voltage regulators depending on the required voltage and current. The diode is suitable for use in power distribution applications such as protection circuits, voltage dividers, and other sensitive electronic components.

In operation, the VLZ27D-GS18 diode works by using a Zener effect in order to regulate voltage. In Zener breakdown, a large electric field, called the “Zener field”, is applied across the diode material. This modifies the junction potential until it reaches the breakdown voltage. At this voltage, the diode will become reverse biased and will prevent any additional current from flowing through it. This allows the diode to maintain a constant voltage and protect sensitive electronic components from unexpected power surges.

Overall, the VLZ27D-GS18 diode is a commonly employed in semiconductor devices, and is typically used as a voltage regulator and a protector for sensitive electronic components. The main elements of this diode are the Anode, Cathode, and the Boron Diffused Zener, all contained in a single-piece vacuum-sealed glass enclosure. The diode works by using the Zener effect to regulate the voltage, and in the process, to protect sensitive electronics. The VLZ27D-GS18 diode is a reliable and effective device and therefore suitable for use in many electrical applications.

The specific data is subject to PDF, and the above content is for reference