In the electronics and automation industry, the application of MOSFETs (metal-oxide-semiconductor field-effect transistors) has become a key factor in improving the performance of electronic speed regulators (ESR). This article will explore how MOSFETs work and how they play a vital role in electronic speed control.
The basic working principle of MOSFET:
A MOSFET is a semiconductor device that turns the flow of electric current on or off through voltage control. In electronic speed regulators, MOSFETs are used as switching elements to regulate the current flow to the motor, allowing precise control of the motor speed.
Applications of MOSFETs in electronic speed regulators:
Taking advantage of its excellent switching speed and efficient current control capabilities, MOSFETs are widely used in electronic speed regulators in PWM (Pulse Width Modulation) circuits. This application ensures that the motor can operate stably and efficiently under various load conditions.
Choose the right MOSFET:
When designing an electronic speed regulator, choosing the right MOSFET is crucial. Parameters to consider include maximum drain-source voltage (V_DS), maximum continuous leakage current (I_D), switching speed, and thermal performance.
The following are the application part numbers of WINSOK MOSFETs in electronic speed regulators:
|
Part number |
Configuration |
Type |
VDS |
ID (A) |
VGS(th)(v) |
RDS(ON)(mΩ) |
Ciss |
Package |
|||
|
@10V |
|||||||||||
|
(V) |
Max. |
Min. |
Typ. |
Max. |
Typ. |
Max. |
(pF) |
||||
|
Single |
N-Ch |
30 |
50 |
1.5 |
1.8 |
2.5 |
6.7 |
8.5 |
1200 |
DFN3X3-8 |
|
|
Single |
P-Ch |
-30 |
-40 |
-1.3 |
-1.8 |
-2.3 |
11 |
14 |
1380 |
DFN3X3-8 |
|
|
Single |
N-Ch |
30 |
100 |
1.5 |
1.8 |
2.5 |
3.3 |
4 |
1350 |
DFN5X6-8 |
|
|
Single |
N-Ch |
30 |
120 |
1.2 |
1.7 |
2.5 |
1.9 |
2.5 |
4900 |
DFN5X6-8 |
|
|
Single |
N-Ch |
30 |
150 |
1.4 |
1.7 |
2.5 |
1.8 |
2.4 |
3200 |
DFN5X6-8 |
|
The corresponding material numbers are as follows:
WINSOK WSD3050DN corresponding material number:AOS AON7318,AON7418,AON7428,AON7440,AON7520,AON7528,AON7544,AON7542.Onsemi,FAIRCHILD NTTFS4939N,NTTFS4C08N.VISHAY SiSA84DN.Nxperian PSMN9R8-30MLC.TOSHIBA TPN4R303NL.PANJIT PJQ4408P. NIKO-SEM PE5G6EA.
WINSOK WSD30L40DN corresponding material number: AOS AON7405,AONR21357,AONR7403,AONR21305C. STMicroelectronics STL9P3LLH6.PANJIT PJQ4403P.NIKO-SEMP1203EEA,PE507BA.
WINSOK WSD30100DN56 corresponding material number: AOS AON6354,AON6572,AON6314,AON6502,AON6510.Onsemi,FAIRCHILD NTMFS4946N.VISHAY SiRA60DP,SiDR390DP,SiRA80DP,SiDR392DP.STMicroelectronics STL65DN3LLH5,STL58N3LLH5.INFINEON/IR BSC014N03LSG,BSC016N03LSG,BSC014N03MSG,BSC016N03MSG.NXP NXPPSMN7R0-30YL.PANJIT PJQ5424.NIKO-SEMPK698SA.Potens Semiconductor PDC3960X.
WINSOK WSD30160DN56 corresponding material number: AOS AON6382,AON6384,AON6404A,AON6548.Onsemi,FAIRCHILD NTMFS4834N,NTMFS4C05N.TOSHIBA TPH2R903PL.PANJIT PJQ5426.NIKO-SEM PKE10BB.Potens Semiconductor PDC3902X.
WINSOK WSD30150DN56 corresponding material number: AOS AON6512,AONS32304.Onsemi,FAIRCHILD FDMC8010DCCM.NXP PSMN1R7-30YL.TOSHIBA TPH1R403NL.PANJIT PJQ5428. NIKO-SEM PKC26BB,PKE24BB.Potens Semiconductor PDC3902X.
Optimize the performance of the electronic speed regulator:
By optimizing the operating conditions and circuit design of the MOSFET, the performance of the electronic speed regulator can be further improved. This includes ensuring adequate cooling, selecting the appropriate driver circuit, and ensuring that other components in the circuit can also meet performance requirements.
Post time: Oct-26-2023
