Jinjiana Electronic Co.,Ltd was established in 2008, located in Shenzhen, China. We professionally supplying new and original electronic components (e.g. Integrated circuit,diodes,transistors, capacitors, relays, connectors, semiconductors, modules, sensor, inductor). Meanwhile, we established our own factory in Shenzhen, which covers an area of over 2000 square meters and there are more than 500 professional employees. So, we can guarantee a monthly supply of more than 1,000,000pcs.

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Thanks for your inquiry! We will respond within 24 hours. As one of the leading manufacturers of Electronic Components, YFABC provides ic chips, triodes, resistors and so on. Take a look at the following products.

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Since its inception, Jinjiana International Co., Ltd. has been adhering to the tenet of "creating value for customers" and the principle of "reputation first, quality assurance, and long-term win-win" to establish long-term relationships with various suppliers, distributors and manufacturers at home and abroad. Friendly trade partnership to achieve win-win for suppliers and customers. (YFABC) has more than 15 years of experience in electronic components. We provide competitive prices, excellent quality control, fast production and delivery, low MOQ, professional sales team. 100% QC inspection before shipment, 100% brand new and original. Committed to providing customers with the highest quality electronic components. In the electronic component market, （YFABC） adheres to the concept of providing original products, high-end after-sales service and service guarantee for customers in need. We do our best to contribute to the world's electronic chip components. We promise: Jinjiana International Co., Ltd. is your most assured and reliable supplier of electronic components!

Integrated circuit is a general term for semiconductor component products, including integrated circuit boards, diodes, triodes and other special electronic components. Different electronic components are often classified and distinguished by usage/ integrated circuit function/ fabrication process/ integration level.

Electronic components are the most essential part of electronic equipment, which undertakes the functions of computing and storage, and covers almost all electronic equipment for civilian use. Electronic components are vital parts that enable different electronic systems to function. Their applications are varied and range from simple to highly complex designs. Some of the most common applications of electronic components include power management, signal amplification, data processing, and system control, among others. These components are integrated into a range of devices, from small consumer gadgets to large industrial machinery.

YFABC provides professional pre-sales, in-sales and after-sales services, 100% service, 100% satisfaction. ① Quality control ② Packaging inspection ③ Sample service ④ Shipping speed and mode of transportation ⑤ Spot stock ⑥ 24-hour after-sales service ⑦ Return and exchange service

Low Voltage Mosfet, Low Power Mosfets Manufacturer

YFABC's Low Voltage MOS Transistor is a reliable and highly efficient transistor designed to work in applications that require low voltage and low power. It is capable of switching up to 40V and can handle up to 250mA of current. It is available in a variety of packages including SOT-23, SOT-223, and SMD. The low voltage and low power requirements make it ideal for use in low-power and wearable applications.

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Different Model Numbers Of Low Voltage MOS Transistor

A low Voltage MOS Transistor is an integrated circuit device for electrical applications, which offers low power consumption and high performance. ZKHK's low Voltage MOS Transistor is used in a wide range of electronic applications from consumer electronics to industrial electronics.

P55N06L

P5506BSG

P3055E

P2703BDG

P130NS04ZB

P1212AT

P1203BD8

P117AAT

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Common Design Considerations For Low Voltage MOS Transistors

Some common design considerations for low voltage MOS transistors include gate-source voltage, drain-source voltage, gate oxide thickness, and drain-source resistance. These factors must be optimized to ensure the transistor can properly switch and handle the current load. Gate-source voltage must be kept low to reduce charge injection and minimize the risk of latch-up. Drain-source voltage should be low enough to reduce leakage current. Gate oxide thickness should be chosen to minimize the channel resistance and improve switching speed. Drain-source resistance should be optimized to reduce power dissipation and minimize the voltage drop across the transistor.

Benefits Of Using Low Voltage MOS Transistors In Low-power Applications

Low voltage MOS transistors offer significant power savings in low-power applications due to their lower voltage requirements. This reduces the amount of energy lost as heat and increases the efficiency of the system as a whole.
Low voltage MOS transistors also reduce the complexity of the power supply circuitry since the lower voltage levels are easier to regulate and control.
Finally, low voltage MOS transistors are easier to integrate into existing systems, since they require fewer levels of voltage conversion and can be connected directly to the power supply.

What Are The Typical Operating Conditions For Low Voltage MOS Transistors?

Low voltage MOS transistors typically operate in a voltage range of 0.3V to 5V and a current range of 1uA to 1A. The gate voltage is usually between 0V and 5V. Generally, the temperature should be kept below 125°C, and the device should be operated in an environment with a relative humidity of less than 95%. It is important to ensure that the gate-source voltage does not exceed the maximum value specified by the manufacturer. Also, it is important to prevent any excessive power dissipation, as this can cause the device to overheat and damage it.