Fast charging technology, as a core part of modern electronic equipment, is rapidly developing and evolving. Driven by the fast charging market, industries such as smartphones and electric vehicles are increasingly demanding fast and efficient charging solutions. Innovation in fast charging technology not only focuses on improving charging speed, but also emphasizes safety. Looking to the future, fast charging technology will be combined with wireless charging and more efficient battery technology to achieve a qualitative leap and bring users a more convenient and environmentally friendly charging experience. With the development of technology and the expansion of the market, the fast charging industry is expected to continue to maintain rapid growth.
When we talk about the application of MOSFET in fast charging technology, there are actually several headaches.
First of all, because fast charging requires a large current, the MOSFET will heat up very much, and how to deal with this heat becomes a big problem. Then, there are also efficiency challenges. When switching quickly, the MOSFET easily loses part of its energy, which affects the charging efficiency. In addition, fast charging equipment hopes to be as small as possible, but this requires the MOSFET to be small and also to deal with the heat problem. Because MOSFET switches quickly, it may interfere with other electronic equipment, which is also a problem. Finally, the fast charging environment has high requirements on the withstand voltage and current of MOSFETs, which is a test for their performance. Working in this environment for a long time may also affect their service life and reliability. In short, although MOSFET is critical for fast charging, it does face many challenges.
WINSOK MOSFET may be able to help you solve the above problems. The main application models of WINSOK MOSFET in fast charging are:
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 |
60 |
18 |
1 |
2 |
3 |
7 |
9 |
3760 |
SOP-8 |
|
Single |
N-Ch |
100 |
16 |
1.4 |
1.7 |
2.5 |
8.9 |
11 |
4000 |
SOP-8 |
|
Single |
P-Ch |
-30 |
-8.2 |
-1.5 |
-2 |
-2.5 |
16 |
20 |
2050 |
SOP-8 |
|
Single |
P-Ch |
-30 |
-13 |
-1.2 |
-2 |
-2.5 |
9.6 |
15 |
1550 |
SOP-8 |
|
N+P |
N-Ch |
30 |
7 |
1 |
1.5 |
2.5 |
18 |
28 |
550 |
SOP-8 |
|
P-Ch |
-30 |
-6 |
-1 |
-1.5 |
-2.5 |
30 |
38 |
645 |
|||
Single |
N-Ch |
100 |
85 |
2 |
3 |
4 |
10 |
13 |
2100 |
TO-220 |
Other brand material numbers corresponding to the above WINSOK MOSFET are:
The corresponding material numbers of WINSOK MOSFET WSD3050DN are: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.
The corresponding material numbers of WINSOK MOSFET WSD30L40DN are:AOS AON7405,AONR21357,AON7403,AONR21305C.ST Microelectronics STL9P3LLH6.PANJIT PJQ4403P.NIKO-SEM P1203EEA,PE507BA.
The corresponding material numbers of WINSOK MOSFET WSP6020 are:AOS AO4262E,AO4264E,AO4268.Onsemi,FAIRCHILD FDS86450.PANJIT PJL9436.NIKO-SEM P0706BV.Potens Semiconductor PDS6904-5.
The corresponding material numbers of WINSOK MOSFET WSP16N10 are:AOS AO4290,AO4290A,AO4294,AO4296.VISHAY Si4190ADY.Potens Semiconductor PDS0960.DINTEK ELECTRONICS DTM1012.
The corresponding material numbers of WINSOK MOSFET WSP4435 are:AOS AO4335,AO4403,AO4405,AO4411,AO4419,AO4435,AO4449,AO4459,AO4803,AO4803A,AO4807,AO4813.Onsemi,FAIRCHILD FDS4465BZ,FDS6685.VISHAY Si4431CDY.ST Microelectronics STS10P3LLH6,STS5P3LLH6,STS6P3LLH6,STS9P3LLH6.TOSHIBA TPC8089-H.PANJIT PJL9411.Sinopower SM4310PSK.NIKO-SEM P3203EVG.Potens Semiconductor PDS3907.DINTEK ELECTRONICS DTM4435,DTM4437.
The corresponding material numbers of WINSOK MOSFET WSP4407 are:AOS AO4407,AO4407A,AOSP21321,AOSP21307.Onsemi,FAIRCHILD FDS6673BZ.VISHAY Si4825DDY.ST Microelectronics STS10P3LLH6,STS5P3LLH6,STS6P3LLH6,STS9P3LLH6.TOSHIBA TPC8125.PANJIT PJL94153.Sinopower SM4305PSK.NIKO-SEM PV507BA,P1003EVG.Potens Semiconductor PDS4903.DINTEK ELECTRONICS DTM4407,DTM4415,DTM4417.
The corresponding material numbers of WINSOK MOSFET WSP4606 are:AOS AO4606,AO4630,AO4620,AO4924,AO4627,AO4629,AO4616.Onsemi,FAIRCHILD ECH8661,FDS8958A.VISHAY Si4554DY.PANJIT PJL9606.Sinopower SM4901CSK.NIKO-SEM P5003QVG.Potens Semiconductor PDS3710.DINTEK ELECTRONICS DTM4606,DTM4606BD,DTM4606BDY.
The corresponding material numbers of WINSOK MOSFET WSR80N10 are:AOS AOTF290L.Onsemi,FAIRCHILD FDP365IU.ST Microelectronics STP80N10F7.Nxperian PSMN9R5-100PS.INFINEON,IR IPP086N10N3 G ,IPP086N10N3 G.NXP PSMN9R5-100PS.TOSHIBA TK100E08N1,TK100A08N1.Potens Semiconductor PDP0966.
Post time: Nov-28-2023