Transistors - FETs, MOSFETs - Arrays

Category Introduction

Field-effect transistors (FET) are electronic devices which use an electric field to control the flow of current. Application of a voltage to the gate terminal alters the conductivity between the drain and source terminals. FETs are also known as unipolar transistors since they involve single-carrier-type operation. That is, FETs use electrons or holes as charge carriers in their operation, but not both. Field effect transistors generally display very high input impedance at low frequencies.

Product List

378 Items

Mfr Part #	Quantity Available	UnitPrice	Series	Packaging	Product Status	FET Type	FET Feature	Drain to Source Voltage (Vdss)	Current - Continuous Drain (Id) @ 25°C	Rds On (Max) @ Id, Vgs	Vgs(th) (Max) @ Id	Gate Charge (Qg) (Max) @ Vgs	Input Capacitance (Ciss) (Max) @ Vds	Power - Max	Operating Temperature	Mounting Type	Package / Case	Supplier Device Package
NTJD5121NT1G MOSFET 2N-CH 60V 295MA SOT363 onsemi	1,899	$0.38		Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	60V	295mA	1.6Ohm @ 500mA, 10V	2.5V @ 250µA	0.9nC @ 4.5V	26pF @ 20V	250mW	-55°C ~ 150°C (TJ)	Surface Mount	6-TSSOP, SC-88, SOT-363	SC-88/SC70-6/SOT-363
NTJD4401NT1G MOSFET 2N-CH 20V 630MA SOT363 onsemi	262	$0.43		Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	20V	630mA	375mOhm @ 630mA, 4.5V	1.5V @ 250µA	3nC @ 4.5V	46pF @ 20V	270mW	-55°C ~ 150°C (TJ)	Surface Mount	6-TSSOP, SC-88, SOT-363	SC-88/SC70-6/SOT-363
NTUD3170NZT5G MOSFET 2N-CH 20V 0.22A SOT-963 onsemi	604	$0.64		Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	20V	220mA	1.5Ohm @ 100mA, 4.5V	1V @ 250µA	-	12.5pF @ 15V	125mW	-55°C ~ 150°C (TJ)	Surface Mount	SOT-963	SOT-963
FDS89161LZ MOSFET 2N-CH 100V 2.7A 8SOIC onsemi	573	$1.56	PowerTrench®	Tape & Reel (TR)	Active	2 N-Channel (Dual)	Standard	100V	2.7A	105mOhm @ 2.7A, 10V	2.2V @ 250µA	5.3nC @ 10V	302pF @ 50V	1.6W	-55°C ~ 150°C (TJ)	Surface Mount	8-SOIC (0.154", 3.90mm Width)	8-SOIC
CSD87381PT MOSFET 2N-CH 30V 15A 5PTAB Texas Instruments	334	$1.17	NexFET™	Tape & Reel (TR)	Active	2 N-Channel (Half Bridge)	Logic Level Gate	30V	15A	16.3mOhm @ 8A, 8V	1.9V @ 250µA	5nC @ 4.5V	564pF @ 15V	4W	-55°C ~ 150°C (TJ)	Surface Mount	5-LGA	5-PTAB (3x2.5)
IPG20N04S4L08ATMA1 MOSFET 2N-CH 40V 20A 8TDSON Infineon Technologies	262	$1.70	Automotive, AEC-Q101, OptiMOS™	Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	40V	20A	8.2mOhm @ 17A, 10V	2.2V @ 22µA	39nC @ 10V	3050pF @ 25V	54W	-55°C ~ 175°C (TJ)	Surface Mount	8-PowerVDFN	PG-TDSON-8-4
FDPC8014S MOSFET 2N-CH 25V 8PWRCLIP onsemi	143	$2.90	PowerTrench®	Tape & Reel (TR)	Active	2 N-Channel (Dual) Asymmetrical	Logic Level Gate	25V	20A, 41A	3.8mOhm @ 20A, 10V	2.5V @ 250µA	35nC @ 10V	2375pF @ 13V	2.1W, 2.3W	-55°C ~ 150°C (TJ)	Surface Mount	8-PowerWDFN	Power Clip 56
FDS89141 MOSFET 2N-CH 100V 3.5A 8SOIC onsemi	16	$3.03	PowerTrench®	Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	100V	3.5A	62mOhm @ 3.5A, 10V	4V @ 250µA	7.1nC @ 10V	398pF @ 50V	1.6W	-55°C ~ 150°C (TJ)	Surface Mount	8-SOIC (0.154", 3.90mm Width)	8-SOIC
NX3020NAKS,115 MOSFET 2N-CH 30V 180MA 6TSSOP Nexperia USA Inc.	467	$0.41		Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	30V	180mA	4.5Ohm @ 100mA, 10V	1.5V @ 250µA	0.44nC @ 4.5V	13pF @ 10V	375mW	-55°C ~ 150°C (TJ)	Surface Mount	6-TSSOP, SC-88, SOT-363	6-TSSOP
NX3008PBKV,115 MOSFET 2P-CH 30V 220MA SOT666 Nexperia USA Inc.	1,847	$0.43	Automotive, AEC-Q101, TrenchMOS™	Tape & Reel (TR)	Not For New Designs	2 P-Channel (Dual)	Logic Level Gate	30V	220mA	4.1Ohm @ 200mA, 4.5V	1.1V @ 250µA	0.72nC @ 4.5V	46pF @ 15V	500mW	-55°C ~ 150°C (TJ)	Surface Mount	SOT-563, SOT-666	SOT-666
PMGD280UN,115 MOSFET 2N-CH 20V 0.87A 6TSSOP Nexperia USA Inc.	1,832	$0.45	TrenchMOS™	Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	20V	870mA	340mOhm @ 200mA, 4.5V	1V @ 250µA	0.89nC @ 4.5V	45pF @ 20V	400mW	-55°C ~ 150°C (TJ)	Surface Mount	6-TSSOP, SC-88, SOT-363	6-TSSOP
PMCXB900UEZ MOSFET N/P-CH 20V 600/500MA 6DFN Nexperia USA Inc.	1,412	$0.40	TrenchFET®	Tape & Reel (TR)	Active	N and P-Channel Complementary	Logic Level Gate	20V	600mA, 500mA	620mOhm @ 600mA, 4.5V	950mV @ 250µA	0.7nC @ 4.5V	21.3pF @ 10V	265mW	-55°C ~ 150°C (TJ)	Surface Mount	6-XFDFN Exposed Pad	DFN1010B-6
ECH8697R-TL-W MOSFET 2N-CH 24V 10A SOT28 onsemi	710	$0.67		Tape & Reel (TR)	Active	2 N-Channel (Dual) Common Drain	Logic Level Gate, 2.5V Drive	24V	10A	11.6mOhm @ 5A, 4.5V	-	6nC @ 4.5V	-	1.5W	150°C (TJ)	Surface Mount	8-SMD, Flat Lead	SOT-28FL/ECH8
NTMD5838NLR2G MOSFET 2N-CH 40V 7.4A 8SOIC onsemi	675	$0.85		Tape & Reel (TR)	Last Time Buy	2 N-Channel (Dual)	Logic Level Gate	40V	7.4A	25mOhm @ 7A, 10V	3V @ 250µA	17nC @ 10V	785pF @ 20V	2.1W	-55°C ~ 150°C (TJ)	Surface Mount	8-SOIC (0.154", 3.90mm Width)	8-SOIC
NTHD4508NT1G MOSFET 2N-CH 20V 3A CHIPFET onsemi	870	$0.98		Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	20V	3A	75mOhm @ 3.1A, 4.5V	1.2V @ 250µA	4nC @ 4.5V	180pF @ 10V	1.13W	-55°C ~ 150°C (TJ)	Surface Mount	8-SMD, Flat Lead	ChipFET™
NTHD4502NT1G MOSFET 2N-CH 30V 2.2A CHIPFET onsemi	132	$1.21		Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	30V	2.2A	85mOhm @ 2.9A, 10V	3V @ 250µA	7nC @ 10V	140pF @ 15V	640mW	-55°C ~ 150°C (TJ)	Surface Mount	8-SMD, Flat Lead	ChipFET™
NTHC5513T1G MOSFET N/P-CH 20V CHIPFET onsemi	58	$1.34		Tape & Reel (TR)	Active	N and P-Channel	Logic Level Gate	20V	2.9A, 2.2A	80mOhm @ 2.9A, 4.5V	1.2V @ 250µA	4nC @ 4.5V	180pF @ 10V	1.1W	-55°C ~ 150°C (TJ)	Surface Mount	8-SMD, Flat Lead	ChipFET™
CSD87312Q3E MOSFET 2N-CH 30V 27A 8VSON Texas Instruments	343	$1.69	NexFET™	Tape & Reel (TR)	Active	2 N-Channel (Dual) Common Source	Logic Level Gate	30V	27A	33mOhm @ 7A , 8V	1.3V @ 250µA	8.2nC @ 4.5V	1250pF @ 15V	2.5W	-55°C ~ 150°C (TJ)	Surface Mount	8-PowerTDFN	8-VSON (3.3x3.3)
FDPC5018SG MOSFET 2N-CH 30V PWRCLIP56 onsemi	108	$2.06	PowerTrench®	Tape & Reel (TR)	Active	2 N-Channel (Dual) Asymmetrical	Standard	30V	17A, 32A	5mOhm @ 17A, 10V	3V @ 250µA	24nC @ 10V	1715pF @ 15V	1W, 1.1W	-55°C ~ 150°C (TJ)	Surface Mount	8-PowerWDFN	Power Clip 56
CSD87352Q5D MOSFET 2N-CH 30V 25A 8SON Texas Instruments	478	$1.88	NexFET™	Tape & Reel (TR)	Active	2 N-Channel (Dual)	Logic Level Gate	30V	25A	-	1.15V @ 250µA	12.5nC @ 4.5V	1800pF @ 15V	8.5W	-55°C ~ 150°C (TJ)	Surface Mount	8-PowerLDFN	8-LSON (5x6)

About FET Arrays & MOSFET Arrays

What are FET Arrays & MOSFET Arrays?

FET Arrays

FET Arrays, or Field-Effect Transistor Arrays, are integrated circuits that house multiple FETs on a single chip. These components are pivotal in electronic circuits for amplifying or switching electronic signals. FETs operate by using an electric field to control the flow of current, making them voltage-controlled devices. This characteristic allows FET Arrays to offer high input impedance and low power consumption, making them ideal for various applications in modern electronics.

MOSFET Arrays

MOSFET Arrays, or Metal-Oxide-Semiconductor Field-Effect Transistor Arrays, are integrated circuits that house multiple MOSFETs on a single chip. These arrays are designed to amplify or switch electronic signals efficiently. Each MOSFET within the array operates by using an electric field to control the flow of current between the source and drain terminals, with the gate terminal acting as the control input. This configuration allows for high-speed switching and low power consumption, making MOSFET Arrays ideal for a variety of electronic applications.

Types of FET Arrays

MOSFET Arrays

MOSFET Arrays are the most common type of FET Arrays, known for their high efficiency and fast switching capabilities. They are used extensively in power management applications, where they help in regulating voltage and current levels. Their ability to handle high power and frequency makes them suitable for use in power amplifiers and motor control circuits.

JFET Arrays

JFET Arrays are known for their simplicity and high input impedance. They are typically used in low-noise applications such as audio amplifiers and RF circuits. The JFET's ability to operate with minimal noise makes it a preferred choice in sensitive signal processing applications.

IGBT Arrays

IGBT Arrays combine the characteristics of MOSFETs and BJTs, offering high efficiency and fast switching. They are primarily used in high-power applications such as inverters for electric vehicles and industrial motor drives. Their robustness and ability to handle high voltages make them ideal for these demanding environments.

Types of MOSFET Arrays

1. N-Channel MOSFET Arrays

N-Channel MOSFET Arrays are characterized by their ability to conduct when a positive voltage is applied to the gate terminal. These arrays are commonly used in applications requiring high-speed switching and low on-resistance, such as in power management and motor control systems.

2. P-Channel MOSFET Arrays

P-Channel MOSFET Arrays conduct when a negative voltage is applied to the gate terminal. They are typically used in applications where a negative voltage is preferred, such as in battery-powered devices and reverse polarity protection circuits.

3. Complementary MOSFET Arrays

Complementary MOSFET Arrays combine both N-Channel and P-Channel MOSFETs on a single chip. This configuration is ideal for creating push-pull amplifier circuits and other applications requiring complementary switching actions.

How to choose FET Arrays?

When selecting FET Arrays, several key parameters must be considered:

Voltage and Current Ratings: Ensure the FET Array can handle the maximum voltage and current levels of your application.
Switching Speed: Choose an array with the appropriate switching speed for your circuit's requirements.
Thermal Management: Consider the thermal characteristics and ensure adequate heat dissipation mechanisms are in place.
Package Type: Select a package that fits your design's space constraints and mounting requirements.

Evaluating product quality involves checking supplier certifications, reviewing datasheets for consistency, and considering customer reviews and industry reputation. Environmental factors such as temperature range and humidity should also be considered, along with installation requirements like PCB layout and soldering techniques.

How to choose MOSFET Arrays?

When selecting MOSFET Arrays, consider the following key parameters:

Voltage and Current Ratings: Ensure the array can handle the required voltage and current levels for your application.
On-Resistance (R_DS(on)): Lower on-resistance results in less power loss and higher efficiency.
Switching Speed: Choose arrays with appropriate switching speeds to match your application's frequency requirements.
Thermal Management: Evaluate the thermal characteristics and ensure adequate heat dissipation mechanisms are in place.
Package Type: Consider the physical size and mounting style that best fits your design.

To evaluate product quality and reliability, review supplier datasheets, customer reviews, and industry certifications. Consider environmental factors such as temperature range and humidity, and ensure proper installation to prevent damage and ensure optimal performance.

Applications of FET Arrays & MOSFET Arrays

Field-Effect Transistor (FET) Arrays and Metal-Oxide-Semiconductor Field-Effect Transistor (MOSFET) Arrays are integral components in modern electronics, offering versatility and efficiency in various applications. These arrays consist of multiple FETs or MOSFETs integrated into a single package, providing compact solutions for complex circuit designs. Their unique characteristics make them suitable for a wide range of industries, each with specific applications and functions.

1. Consumer Electronics

In the consumer electronics industry, FET and MOSFET arrays are pivotal in the design of power management circuits for devices such as smartphones, tablets, and laptops. These arrays help in efficiently managing battery power, reducing energy consumption, and enhancing the overall performance of the devices. They are also used in audio amplifiers and switching applications, contributing to improved sound quality and device responsiveness.

2. Automotive Industry

The automotive sector leverages FET and MOSFET arrays for various applications, including electric vehicle (EV) powertrains, battery management systems, and advanced driver-assistance systems (ADAS). These arrays are crucial for controlling high-power loads, ensuring efficient energy conversion, and enhancing the safety and reliability of automotive electronics. Their ability to handle high voltages and currents makes them ideal for automotive applications.

3. Industrial Automation

In industrial automation, FET and MOSFET arrays are employed in motor control systems, robotics, and programmable logic controllers (PLCs). They facilitate precise control of motor speed and torque, contributing to the efficiency and accuracy of automated processes. Additionally, these arrays are used in power supply circuits, ensuring stable and reliable operation of industrial equipment.

4. Telecommunications

Telecommunications infrastructure relies on FET and MOSFET arrays for signal amplification, switching, and power regulation. These arrays are essential in base stations, network routers, and other communication devices, where they help maintain signal integrity and manage power distribution. Their high-speed switching capabilities and low power loss characteristics are vital for the seamless operation of telecommunication networks.

5. Renewable Energy Systems

In the renewable energy sector, FET and MOSFET arrays play a critical role in solar inverters, wind turbine controllers, and energy storage systems. They are used to convert and regulate power from renewable sources, ensuring efficient energy transfer and storage. Their robustness and efficiency in handling variable power levels make them indispensable in optimizing the performance of renewable energy systems.

Overall, FET and MOSFET arrays are versatile components that enhance the functionality and efficiency of electronic systems across various industries. Their integration into modern technology continues to drive innovation and improve the performance of electronic devices and systems.