STF13N80K5 Trans MOSFET N-CH 800V 12A 3-Pin(3+Tab) TO-220FP Tube
Product Attributes
|
EU RoHS |
Compliant with Exemption |
|
ECCN (US) |
EAR99 |
|
Part Status |
Active |
|
HTS |
8541.29.00.95 |
|
SVHC |
Yes |
|
SVHC Exceeds Threshold |
Yes |
|
Automotive |
No |
|
PPAP |
No |
|
Product Category |
Power MOSFET |
|
Configuration |
Single |
|
Process Technology |
SuperMESH |
|
Channel Mode |
Enhancement |
|
Channel Type |
N |
|
Number of Elements per Chip |
1 |
|
Maximum Drain Source Voltage (V) |
800 |
|
Maximum Gate Source Voltage (V) |
±30 |
|
Maximum Gate Threshold Voltage (V) |
5 |
|
Operating Junction Temperature (°C) |
-55 to 150 |
|
Maximum Continuous Drain Current (A) |
12 |
|
Maximum Gate Source Leakage Current (nA) |
10000 |
|
Maximum IDSS (uA) |
1 |
|
Maximum Drain Source Resistance (mOhm) |
450@10V |
|
Typical Gate Charge @ Vgs (nC) |
27@10V |
|
Typical Gate Charge @ 10V (nC) |
27 |
|
Typical Input Capacitance @ Vds (pF) |
870@100V |
|
Maximum Power Dissipation (mW) |
35000 |
|
Typical Fall Time (ns) |
16 |
|
Typical Rise Time (ns) |
16 |
|
Typical Turn-Off Delay Time (ns) |
42 |
|
Typical Turn-On Delay Time (ns) |
16 |
|
Minimum Operating Temperature (°C) |
-55 |
|
Maximum Operating Temperature (°C) |
150 |
|
Supplier Temperature Grade |
Industrial |
|
Packaging |
Tube |
|
Maximum Positive Gate Source Voltage (V) |
30 |
|
Maximum Diode Forward Voltage (V) |
1.5 |
|
Mounting |
Through Hole |
|
Package Height |
16.4(Max) |
|
Package Width |
4.6(Max) |
|
Package Length |
10.4(Max) |
|
PCB changed |
3 |
|
Tab |
Tab |
|
Standard Package Name |
TO |
|
Supplier Package |
TO-220FP |
|
Pin Count |
3 |
|
Lead Shape |
Through Hole |
introduction
A field effect tube is an electronic device used to control and regulate the current in an electronic circuit. It is a small triode with very high current gain. Fets have been widely used in electronic circuits, such as power amplifier, amplifier circuit, filter circuit, switching circuit and so on.
The principle of the field effect tube is the field effect, which is an electrical phenomenon that refers to some semiconductor materials, such as silicon, after the application of an applied electric field, the activity of its electrons is significantly improved, thus changing its conductive properties. Therefore, if an electric field is applied to the surface of a semiconductor material, its conductive properties can be controlled, so as to achieve the purpose of regulating the current.
Fets are divided into N-type fets and P-type Fets. N-type Fets are made of N-type semiconductor materials with high forward conductivity and low reverse conductivity. P-type Fets are made of P-type semiconductor materials with high reverse conductivity and low forward conductivity. The field effect tube composed of N-type field effect tube and P-type field effect tube can realize current control.
The main feature of the FET is that it has a high current gain, which is suitable for high frequency and high sensitivity circuits, and has the characteristics of low noise and low cutoff noise. It also has the advantages of low power consumption, low heat dissipation, stability and reliability, and is an ideal current control element.
Fets work in a similar way to ordinary triodes, but with a higher current gain. Its working circuit is generally divided into three parts: source, drain and control. The source and drain form the path of the current, while the control pole controls the flow of the current. When a voltage is applied to the control pole, the flow of the current can be controlled, so as to achieve the purpose of regulating the current.
In practical applications, Fets are often used in high frequency circuits, such as power amplifiers, filter circuits, switching circuits, etc. For example, in power amplifiers, Fets can amplify the input current, thereby increasing the output power; In the filter circuit, the field effect tube can filter out the noise in the circuit. In the switching circuit, the FET can realize the switching function.
In general, Fets are an important electronic component and are widely used in electronic circuits. It has the characteristics of high current gain, low power consumption, stability and reliability, and is an ideal current control element
