850mA (Ta) Single FETs, MOSFETs

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Mfr Part #	Quantity Available	Price	Series	Package	Product Status	FET Type	Technology	Drain to Source Voltage (Vdss)	Current - Continuous Drain (Id) @ 25°C	Drive Voltage (Max Rds On, Min Rds On)	Rds On (Max) @ Id, Vgs	Vgs(th) (Max) @ Id	Gate Charge (Qg) (Max) @ Vgs	Vgs (Max)	Input Capacitance (Ciss) (Max) @ Vds	FET Feature	Power Dissipation (Max)	Operating Temperature	Grade	Qualification	Mounting Type	Supplier Device Package	Package / Case
GSFW02009 MOSFET, P-CH, SINGLE, -0.85A, -2 Good-Ark Semiconductor	30.468 In Stock	1 : 0,09000 € Cut Tape (CT) 10.000 : 0,01975 € Tape & Reel (TR)	-	Tape & Reel (TR) Cut Tape (CT)	Active	P-Channel	MOSFET (Metal Oxide)	20 V	850mA (Ta)	1.8V, 4.5V	640mOhm @ 550mA, 4.5V	1V @ 250µA	0.8 nC @ 4.5 V	±12V	58 pF @ 10 V	-	690mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SOT-883	SC-101, SOT-883
GSFC02501 MOSFET, P-CHANNEL, -25V, -0.85A, Good-Ark Semiconductor	9.969 In Stock	1 : 0,09000 € Cut Tape (CT) 3.000 : 0,01772 € Tape & Reel (TR)	-	Tape & Reel (TR) Cut Tape (CT)	Active	P-Channel	MOSFET (Metal Oxide)	25 V	850mA (Ta)	1.8V, 4.5V	640mOhm @ 550mA, 4.5V	1V @ 250µA	0.8 nC @ 4.5 V	±8V	58 pF @ 10 V	-	690mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SOT-23	TO-236-3, SC-59, SOT-23-3
GSFC1208 MOSFET, P-CH, SINGLE, -.85A, -20 Good-Ark Semiconductor	3.000 In Stock	3.000 : 0,02930 € Tape & Reel (TR)	-	Tape & Reel (TR)	Active	P-Channel	MOSFET (Metal Oxide)	20 V	850mA (Ta)	1.8V, 4.5V	640mOhm @ 550mA, 4.5V	1V @ 250µA	0.8 nC @ 4.5 V	±8V	58 pF @ 10 V	-	690mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SOT-323	SC-70, SOT-323
NDS352P MOSFET P-CH 20V 850MA SUPERSOT3 Fairchild Semiconductor	28.015 Marketplace	673 : 0,38866 € Bulk	-	Bulk	Obsolete	P-Channel	MOSFET (Metal Oxide)	20 V	850mA (Ta)	4.5V, 10V	350mOhm @ 1A, 10V	2.5V @ 250µA	4 nC @ 5 V	±12V	125 pF @ 10 V	-	500mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SOT-23-3	TO-236-3, SC-59, SOT-23-3
BSH103,215 MOSFET N-CH 30V 850MA TO236AB Nexperia USA Inc.	0 In Stock	1 : 0,39000 € Cut Tape (CT) 3.000 : 0,08497 € Tape & Reel (TR)	-	Tape & Reel (TR) Cut Tape (CT) Digi-Reel®	Not For New Designs	N-Channel	MOSFET (Metal Oxide)	30 V	850mA (Ta)	2.5V	400mOhm @ 500mA, 4.5V	400mV @ 1mA (Min)	2.1 nC @ 4.5 V	±8V	83 pF @ 24 V	-	540mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	TO-236AB	TO-236-3, SC-59, SOT-23-3
BSH103,235 MOSFET N-CH 30V 850MA TO236AB Nexperia USA Inc.	0 In Stock	1 : 0,39000 € Cut Tape (CT) 10.000 : 0,07204 € Tape & Reel (TR)	-	Tape & Reel (TR) Cut Tape (CT) Digi-Reel®	Not For New Designs	N-Channel	MOSFET (Metal Oxide)	30 V	850mA (Ta)	2.5V	400mOhm @ 500mA, 4.5V	400mV @ 1mA (Min)	2.1 nC @ 4.5 V	±8V	83 pF @ 24 V	-	540mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	TO-236AB	TO-236-3, SC-59, SOT-23-3
NDS352P MOSFET P-CH 20V 850MA SUPERSOT3 onsemi	0 In Stock	Obsolete	-	Tape & Reel (TR)	Obsolete	P-Channel	MOSFET (Metal Oxide)	20 V	850mA (Ta)	4.5V, 10V	350mOhm @ 1A, 10V	2.5V @ 250µA	4 nC @ 5 V	±12V	125 pF @ 10 V	-	500mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SOT-23-3	TO-236-3, SC-59, SOT-23-3
SI1307EDL-T1-E3 MOSFET P-CH 12V 850MA SC70-3 Vishay Siliconix	0 In Stock	Obsolete	-	Tape & Reel (TR)	Obsolete	P-Channel	MOSFET (Metal Oxide)	12 V	850mA (Ta)	1.8V, 4.5V	290mOhm @ 1A, 4.5V	450mV @ 250µA (Min)	5 nC @ 4.5 V	±8V	-	-	290mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SC-70-3	SC-70, SOT-323
SI1307EDL-T1-GE3 MOSFET P-CH 12V 850MA SC70-3 Vishay Siliconix	0 In Stock	Obsolete	-	Tape & Reel (TR)	Obsolete	P-Channel	MOSFET (Metal Oxide)	12 V	850mA (Ta)	1.8V, 4.5V	290mOhm @ 1A, 4.5V	450mV @ 250µA (Min)	5 nC @ 4.5 V	±8V	-	-	290mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SC-70-3	SC-70, SOT-323
SI1307DL-T1-E3 MOSFET P-CH 12V 850MA SC70-3 Vishay Siliconix	0 In Stock	Obsolete	TrenchFET®	Tape & Reel (TR)	Obsolete	P-Channel	MOSFET (Metal Oxide)	12 V	850mA (Ta)	1.8V, 4.5V	290mOhm @ 1A, 4.5V	450mV @ 250µA (Min)	5 nC @ 4.5 V	±8V	-	-	290mW (Ta)	-55°C ~ 150°C (TJ)	-	-	Surface Mount	SC-70-3	SC-70, SOT-323

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Single FET, MOSFETs

Single Field Effect Transistors (FETs) and Metal-Oxide-Semiconductor Field-Effect Transistors (MOSFETs) are types of transistors used to amplify or switch electronic signals.

A Single FET operates by controlling the flow of electrical current between the source and drain terminals through an electric field generated by a voltage applied to the gate terminal. The main advantage of FETs is their high input impedance, which makes them ideal for use in signal amplification and analog circuits. They are widely used in applications such as amplifiers, oscillators, and buffer stages in electronic circuits.

MOSFETs, a subtype of FETs, have a gate terminal insulated from the channel by a thin oxide layer, enhancing their performance and making them highly efficient. MOSFETs can be further categorized into two types:

n-channel MOSFETs: where electrons are the primary carriers.
p-channel MOSFETs: where holes are the primary carriers.

MOSFETs are preferred in many applications due to their low power consumption, high-speed switching, and ability to handle large currents and voltages. They are crucial in digital and analog circuits, including power supplies, motor drivers, and radio-frequency applications.

The operation of MOSFETs can be broken down into two modes:

Enhancement Mode: In this mode, the MOSFET is normally off when the gate-source voltage is zero. It requires a positive gate-source voltage (for n-channel) or a negative gate-source voltage (for p-channel) to turn on.
Depletion Mode: In this mode, the MOSFET is normally on when the gate-source voltage is zero. Applying a gate-source voltage of opposite polarity can turn it off.

MOSFETs offer several advantages, such as:

High Efficiency: They consume very little power and can switch states rapidly, making them highly efficient for power management applications.
Low On-Resistance: They have low resistance when turned on, which minimizes power loss and heat generation.
High Input Impedance: The insulated gate structure results in extremely high input impedance, making them ideal for high-impedance signal amplification.

In summary, single FETs, particularly MOSFETs, are fundamental components in modern electronics, known for their efficiency, speed, and versatility in a wide range of applications from low-power signal amplification to high-power switching and control.