RFIS40N10LE

Harris Corporation RFIS40N10LE

Name: RFIS40N10LE
Brand: Harris Corporation
SKU: RFIS40N10LE
Availability: InStock
Rating: 5.0 (2 reviews)
Author: Jinftry

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Part Number： RFIS40N10LE
Manufacturer： Harris Corporation
Description:40A, 100V, 0.040OHM, N-CHANNEL,
Category： Transistors - FETs, MOSFETs - Arrays
Datasheet： RFIS40N10LE Datasheet
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Package/Case： -
Package： Bulk
RoHS： Lead free / RoHS Compliant
Stock Quantity： 28756
Stock Resource：Spot Inventory / Athorized Dstributor / Factory Excess Stock
Quality Guarantee：1 year quality assurance 》
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What is RFIS40N10LE

Harris Corporation Part Number RFIS40N10LE（Transistors - FETs, MOSFETs - Arrays）, developed and manufactured by Harris Corporation, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.

RFIS40N10LE is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately [email protected] Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.

RFIS40N10LE Specifications

Part NumberRFIS40N10LE
CategoryTransistors - FETs, MOSFETs - Arrays
ManufacturerHarris Corporation
Description40A, 100V, 0.040OHM, N-CHANNEL,
PackageBulk
Series-
Operating Temperature-
Mounting Type-
Package / Case-
Supplier Device Package-
Power - Max-
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-

Application of RFIS40N10LE

FETs and MOSFET Arrays (FETs, MOSFETs) are widely used in various fields. In the field of communication, they are widely used in key components such as RF front ends, signal amplifiers and filters to improve the transmission efficiency and signal quality of communication systems. In the computer field, FET and MOSFET array as an important part of CPU, GPU and other core processors, assume the key role of data processing and computing tasks. In addition, in automotive electronics, industrial automation, medical equipment and other fields, FET and MOSFET arrays also play an important role, such as for motor drive control, power management, sensor signal processing and so on.

RFIS40N10LE Datasheet

RFIS40N10LE Datasheet , Bulk

RFIS40N10LE Classification

Transistors - FETs, MOSFETs - Arrays

FETs and MOSFET arrays (FETS, MOSFETs-Arrays) are composed of multiple Field-Effect transistors. FET) or Metal-Oxide-Semiconductor Field-Effect Transistor (MOSFET) is an integrated circuit module. This array design provides high power processing capabilities while maintaining good thermal management and control characteristics. An FET or MOSFET array typically includes multiple transistors that can be connected in series, parallel, or in combination to meet specific current and voltage requirements.

FAQ about Transistors - FETs, MOSFETs - Arrays

1. What is the difference between transistors, FETs and MOSFETs?

The main differences between transistors, FETs and MOSFETs are their structure, working principle and application scenarios.
Transistor
A transistor is a three-terminal semiconductor device used to switch or amplify signals. It is divided into two main types: bipolar junction transistor (BJT) and field effect transistor (FET).
BJT: It consists of three layers of alternating P-type and N-type semiconductor materials, and uses two types of charge carriers (electrons and holes). It controls the collector current through the base current, with high gain but low input impedance.
FET: Including JFET and MOSFET, it uses electric fields to control charge carriers in semiconductor materials. FET is a unipolar transistor involving single-carrier operation.
FET (Field-Effect Transistor)
FET is a transistor that uses electric fields to control charge carriers in semiconductor materials. It is divided into JFET and MOSFET.
JFET: The simplest field effect transistor, which uses gate voltage to control the current between the drain and source. It is divided into two types, N-channel and P-channel, with high input impedance and low noise characteristics.
MOSFET: A four-terminal semiconductor field-effect transistor that controls the current between the source and drain through the gate voltage. MOSFET has high input impedance and is widely used in power amplifiers and switches, as well as embedded system design.
MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor)
MOSFET is a type of FET with four terminals: source, gate, drain, and body (or substrate). The body of the MOSFET is usually connected to the source terminal, making it appear as a three-terminal device in the circuit diagram. Due to its high input impedance, MOSFET plays an important role in integrated circuits, mainly used in power amplifiers and switches, and occupies an important position in embedded system design.
2. What is MOSFET and how does it work?

MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor), that is, metal-oxide-semiconductor field effect transistor, is a transistor that uses electric field effect to control conduction and shutdown. MOSFET controls the flow of current between the source and drain by applying voltage to the gate. Its working principle is as follows:
Working principle:
When a positive voltage is applied to the gate, the electric field causes the impurities in the substrate to form an "open" n-type or p-type conductive area, i.e., a channel, between the gate and the substrate. A capacitor is formed between the oxide layer above the channel and the gate, called the gate capacitance. When the channel conductive area extends to the source and drain, the MOSFET is in the on state. In the on state, the voltage difference between the source and the drain drives the current to flow through the conductive area.
When a negative voltage is applied to the gate, the channel on the substrate shrinks, the conductivity weakens, and the current between the source and the drain decreases. When the gate voltage continues to decrease, the channel eventually disappears, the MOSFET is in the off state, there is no conductive path between the source and the drain, and the MOSFET is in a high-resistance state.
3. What are the two types of MOSFET transistors?

There are two main types of MOSFET transistors: enhancement MOSFET and depletion MOSFET.
Enhancement MOSFET
When the gate voltage of the enhancement MOSFET is zero, there is no conductive channel between the source and the drain. Only when the gate voltage reaches a certain threshold voltage, the conductive channel will be formed and the current will begin to flow. This type of MOSFET requires a positive voltage to be applied to the gate to turn on, and is in a high-resistance state when no voltage is applied.
Depletion-type MOSFET
When the gate voltage of a depletion-type MOSFET is zero, a conductive channel already exists between the source and drain. Applying a negative gate voltage can reduce or deplete the conductive channel, thereby controlling the current. This type of MOSFET is already turned on when no voltage is applied, and needs to be turned off by applying a negative voltage.

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Harris Corporation

Harris Semiconductor was founded in 1992. It is a global multinational company with a history of nearly 100 years. It is recognized as the world's leading supplier of high-quality welding materials. It mainly produces high-quality...