Image not available
Illustrative purposes only
BSC123N08NS3GATMA1
Power MOSFET, N Channel, 80 V, 55 A, 0.0123 ohm, PG-TDSON, Surface Mount
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: INFINEON
- Product type: Single MOSFETs
- Transistor Polarity:N Channel; Continuous Drain Current Id:55A; Drain Source Voltage Vds:80V; On Resistance Rds(on):0.0103ohm; Rds(on) Test Voltage Vgs:10V; Threshold Voltage Vgs:2.8V;
- MSL: MSL 1 - Unlimited
- SVHC: No SVHC (25-Jun-2025)
- No. of Pins: 8Pins
- Channel Type: N Channel
- Product Range: -
- Qualification: -
- Power Dissipation: 66W
- Transistor Mounting: Surface Mount
- Rds(on) Test Voltage: 10V
- Transistor Case Style: PG-TDSON
- Drain Source Voltage Vds: 80V
- Operating Temperature Max: 150°C
- Continuous Drain Current Id: 55A
- Drain Source On State Resistance: 0.0123ohm
- Gate Source Threshold Voltage Max: 2.8V
| Delivery and price | |
|---|---|
| Units per pack | 5000 |
| Price | 0.434 € |
| Current stock | 1000+ |
| Lead time | 30 days |
Datasheet
"%&$!"#C 3 9@/; % ;+8<3<=9; 6KGYZWKX
|"<br>>77+;B<br>roduct|"<br>>77+;B<br>roduct|"<br>>77+;B<br>roduct|
|---|---|---|
|)9H|0(|J|
|'9H"[Z#$YMd|)*&+|Y"|
|$9|--|6|
**==> picture [28 x 11] intentionally omitted <==**
**----- Start of picture text -----**<br>
' 9H"[Z#<br>**----- End of picture text -----**<br>
|*|*|Qualified according|according|according|according toJEDEC|JEDEC|JEDEC|)#|fortarget|target|target|target applications|applications|applications||||||||r—<br>Ai)|Halogen-Free||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|*||alogen-free|according||||to IEC61249-2-21||||||||||||||||||
||||||||||||||||||||||||||
|||A^VK|||||||||||||||||||||||
||||||||||||||||||||||||||
||||||1|3|i||8|v3<br>Ss|||||||||||S$ aif<br>S$al <br>SBI<br>GE||ieD<br> (a3 jeD<br>3)<br>(6}D<br>KS<br>|<br>15] D||
||||||||||||||||||||||||||
|||>GIQGMK|||E=%I9HDC%0||||||||||||||||||||
||||||||||||||||||||||||||
|||;GWQOTM|||)*+C(0CH||||||||||||||||||||
|Maximum ratings,|||||at|V<br>=25 °C,|||unless otherwise specified||||||||||||||||
|>GWGSKYKW|||||||||||@^SHUR||3UTJOYOUTX||||||||||CGRZK|BTOY|
|Continuous drain current|||||||||||$9||)=H<br>)=H|~~=10V,~~<br>~~av ~~||(8<br>(8<br>|||--<br>+-<br>~~=25°C Po~~<br> ~~|°° i:Po~~|||||6|
||||||||||||||)=H<br>'T@6<br>/<br>=10V,<br>=50|||(6<br>/ *#<br>=25°C,|||||||))||
||||||||||||$9$\aX_Q||(8||||||||||**(||
|~~Avalanche~~|~~Avalanche~~|~~Avalanche energy, ~~||~~single pulse~~||||||#6H<br>)=H<br>~~| | ~~|||$9<br> ~~=33 A,~~||'=H|=H|~~=25 ~~|||"<br>|/(<br>q*(<br> ~~Po~~|||Y@<br>J|
)#
*#
+# ,#
V
|>GWGSKYKW||@^SHUR|3UTJOYOUTX||CGRZK|||BTOY|
|---|---|---|---|---|---|---|---|---|
|||%[|(8||..|||K|
||||(6<br>'T@6<br>/ *#<br>=25 °C,<br>=50||*&-||||
|(V (_S<br>Operatingandstoragetemperature~~Pf~~<br>~~IEC climatic category; DI IEC 68-1 PoP~~|||||-55 ... 150<br>~~55/150/56~~|||°C|
|>GWGSKYKW||@^SHUR|3UTJOYOUTX||CGRZKX|||BTOY|
|||||SOT%|Y^V%||SG]%||
## %
||||'T@8|T@8|N[[Y||%|%||)&1|A'K|
|---|---|---|---|---|---|---|---|---|---|---|---|
||||||[\|||||)0||
||||'T@6|T@6|*<br>*#<br>~~minimal footprint~~<br>~~pen esorgaee ~~|<br> <br>%<br>%<br>~~Pf~~<br> ~~| | ~~|||-(<br>~~|~~<br>~~2 |~~<br> ~~|_|~~|||
|V|=25|°C,||unless|otherwise specified|||||||
$
|~~Drain-source breakdown voltage~~|~~Drain-source breakdown voltage~~|)"7G#9HH <br>)=H"T#<br>~~| |~~|)"7G#9HH <br>)=H"T#<br>~~| |~~|)=H<br>$9<br>)9H4)=H $9<br>~~=0V, =1mA ~~|0(<br>%<br>%<br>*<br>*&0<br>+&-<br> ~~Pf]~~|J|
|---|---|---|---|---|---|---|
|Zero<br>gate<br>voltage<br>drai<br>ero gate voltage<br>drain curren|t||$9HH|)9H<br>)=H<br>(V<br>“80V,<br>=ON,<br>-95 °C|%<br>(&)<br>)|r6|
|||||)9H<br>)=H<br>(V<br>=80 V,<br>=0 V,<br>=125 °C|%<br>)(<br>)((||
|~~Gate-source leakage current~~<br>Drain-source on-state resistance|||$=HH<br>)=H<br>)9H<br>'9H"[Z#<br>)=H<br>$9<br>~~P|~~<br>~~=20 V,~~<br>~~=0V ~~<br>=10V,<br>=33A||%<br>)(<br>)((<br>%<br>)(&+<br>)*&+<br> ~~Pf]~~<br> ~~Pf]~~|Z6<br>Y"|
|||||)=H<br>$9|%<br>),&)<br>*,||
||||'=||%<br>*<br>%|"|
|I^MZ_O[ZPaOMZOQ|||,R_|g)9Hg5*g$9g'9H"[Z#YMd<br>$9|**<br>,,<br>%|H|
|em<br>fj<br>Cn Ineon<br>B C123N08N 3G|em<br>fj<br>Cn Ineon<br>B C123N08N 3G|em<br>fj<br>Cn Ineon<br>B C123N08N 3G|em<br>fj<br>Cn Ineon<br>B C123N08N 3G|em<br>fj<br>Cn Ineon<br>B C123N08N 3G|em<br>fj<br>Cn Ineon<br>B C123N08N 3G|em<br>fj<br>Cn Ineon<br>B C123N08N 3G|
|---|---|---|---|---|---|---|
||||||||
|>GWGSKYKW|@^SHUR|3UTJOYOUTX|CGRZKX|||BTOY|
||||SOT%|Y^V%|SG]%||
|Dynamic characteristics<br>~~Inputcapacitance~~<br>~~P|~~<br>~~Pf]~~|||||||
|~~Inputcapacitance~~<br>~~Outputcapacitance~~|!U__<br>~~P|~~<br>~~P|~~|)=H<br>)9H<br>+<br>" J<br>~~P|~~<br>~~P|~~ =4“OV,<br>“40V, <br>~~P|~~|%<br>~~Pf]~~<br>~~Pf]~~|),+(<br>~~Pf]~~<br>~~Pf]~~|)0/(<br>~~Pf]~~<br>~~Pf]~~|\<|
|~~Input capacitance~~<br>~~Outputcapacitance~~|![__<br>~~P|~~<br>~~P|~~||%<br>~~Pf]~~<br>~~Pf]~~|+0-<br>~~Pf]~~<br>~~Pf]~~|-)/<br>~~Pf]~~<br>~~Pf]~~||
|~~Output capacitance~~<br>Reversetransfercapacitance<br>~~Turn-ondelaytime~~|8^__<br>~~P|~~<br>~~a~~<br>~~P|~~||%<br> ~~Pf]~~<br>~~Pf~~<br>~~Pf]~~|)-<br>~~Pf]~~<br>~~Pf~~<br>~~Pf]~~|%<br>~~Pf]~~<br>~~Pf~~<br>~~Pf]~~||
|~~Turn-ondelaytime~~|.P"[Z#<br>~~P|~~|)99<br>)=H<br>$9<br>'=<br>"<br>~~P|~~<br>~~P|~~ =20A,<br>=16|%<br>~~Pf]~~|)*<br>~~Pf]~~|%<br>~~Pf]~~|Z_|
|~~Turn-on delay time~~<br>~~Turn-offdelaytime~~|.^<br>~~P|~~<br>~~P|~~||%<br>~~Pf]~~<br>~~Pf]~~|)0<br>~~Pf]~~<br>~~Pf]~~|%<br>~~Pf]~~<br>~~Pf]~~||
|~~Turn-offdelaytime~~|.P"[RR#<br>~~P|~~||%<br>~~Pf]~~|)1<br>~~Pf]~~|%<br>~~Pf]~~||
|~~Turn-off delay time~~|.R<br>~~P|~~||%<br> ~~Pf]~~|,<br>~~Pf]~~|%<br>~~Pf]~~||
|#<br>Gate Char e Characteristics<br>~~Gatetosourcecharge~~<br>~~po~~<br>~~Pf~~|||||||
|~~Gatetosourcecharge~~<br>~~po~~<br>~~Gatechargeatthreshold~~<br>~~po~~|&S_<br>~~po~~<br>~~po~~|)99<br>$9<br>)=H<br>~~P|~~<br>=40V,<br>=20A, <br>~~P|~~<br>=0to 10V<br>~~P|~~<br>~~P|~~|%<br>~~Pf~~<br>~~Pf~~|.&+<br>~~Pf~~<br>~~Pf~~|%<br>~~Pf~~<br>~~Pf~~|Z8|
|~~Gate to source charge~~<br>~~po~~<br>~~Gatechargeatthreshold~~<br>~~po~~<br>~~Gatetodraincharge~~|&S"T#<br>~~po~~<br>~~po~~<br>~~P|~~||%<br>~~Pf~~<br>~~Pf~~<br>~~Pf]~~|+&.<br>~~Pf~~<br>~~Pf~~<br>~~Pf]~~|%<br>~~Pf~~<br>~~Pf~~<br>~~Pf]~~||
|~~Gate charge at threshold~~<br>~~po~~<br>~~Gatetodraincharge~~<br>~~Switchingcharge~~|&SP<br>~~po~~<br>~~P|~~<br>~~P|~~||%<br>~~Pf~~<br>~~Pf]~~<br>~~Pf]~~|+&0<br>~~Pf~~<br>~~Pf]~~<br>~~Pf]~~|%<br>~~Pf~~<br>~~Pf]~~<br>~~Pf]~~||
|~~Gate to drain charge~~<br>~~Switchingcharge~~<br>~~Gatechargetotal~~|&_c<br>~~P|~~<br>~~P|~~<br>~~P|~~||%<br> ~~Pf]~~<br>~~Pf]~~<br>~~Pf]~~|.&-<br>~~Pf]~~<br>~~Pf]~~<br>~~Pf]~~|%<br>~~Pf]~~<br>~~Pf]~~<br>~~Pf]~~||
|~~Switching charge~~<br>~~Gatechargetotal~~<br>~~Gateplateauvoltage~~|&S<br>~~P|~~<br>~~P|~~<br>~~P|~~||%<br>~~Pf]~~<br>~~Pf]~~<br>~~Pf]~~|)1<br>~~Pf]~~<br>~~Pf]~~<br>~~Pf]~~|*-<br>~~Pf]~~<br>~~Pf]~~<br>~~Pf]~~||
|~~Gate charge total~~<br>~~Gateplateauvoltage~~|)\XMQMa<br>~~P|~~<br>~~P|~~||%<br>~~Pf]~~<br>~~Pf]~~|,&1<br>~~Pf]~~<br>~~Pf]~~|%<br>~~Pf]~~<br>~~Pf]~~|J|
|~~Gate plateau voltage~~|&[__<br>~~P|~~|)99<br>)=H<br>~~P|~~|%<br>~~Pf]~~|*-<br>~~Pf]~~|+,<br>~~Pf]~~||
|#<br>everse Diode<br>~~**Diode**continuousforwardcurrentese|}—+—~~|||||||
|~~**Diode**continuousforwardcurrent~~|$H<br>~~ese~~|(8<br>~~ese|~~<br>=25 °C|%<br>~~|}—+—~~|%<br>~~}—+—~~|--<br>~~}—+—~~|6|
|~~**Diode**continuousforwardcurrent~~<br>pulsecurrent|$H$\aX_Q<br>~~ese~~<br>~~a~~||%<br>~~|}—+—~~<br>~~Pf~~|%<br>~~}—+—~~<br>~~Pf~~|**(<br>~~}—+—~~<br>~~Pf~~||
|~~**Diode** continuous forward current ~~<br>~~Reverserecoverytime~~|)H9<br> ~~ese~~<br>~~P|~~|)=H<br>$<<br>(V<br>~~ese |~~<br>=25<br>°C<br>~~P|~~|%<br>~~| }—+—~~<br>~~Pf]~~|(&1<br>~~}—+—~~<br>~~Pf]~~|)&*<br>~~}—+—~~<br>~~Pf]~~|J|
|~~Reverserecoverytime~~<br>~~Reverserecoverycharge~~<br>~~So~~|.^^<br>~~P|~~<br>~~So~~|)G<br>$<<br>P-<'P.<br>C<br>~~P|~~<br>=40V,<br>=20A,<br>~~=100 Al~~|%<br>~~Pf]~~<br>~~Pf~~|,-<br>~~Pf]~~<br>~~Pfft~~|%<br>~~Pf]~~<br>~~ft~~|Z_|
|~~Reverse recovery time~~<br>~~Reverserecoverycharge~~<br>~~So~~|&^^<br>~~P|~~<br>~~So~~||%<br>~~Pf]~~<br>~~Pf~~|-,<br>~~Pf]~~<br>~~Pfft~~|%<br>~~Pf]~~<br>~~ft~~|Z8|
|-#<br>~~Reverse recovery charge~~<br>~~So~~<br>~~=100 Al Pf ft~~<br>See figure 16 for gate charge parameter definition|||||||
% `[`4R"( 8#
**==> picture [22 x 8] intentionally omitted <==**
**----- Start of picture text -----**<br>
+=398<br>**----- End of picture text -----**<br>
$ 94R"( 8 ); ) =H"
**==> picture [428 x 559] intentionally omitted <==**
**----- Start of picture text -----**<br>
/' -'<br>,'<br>-'<br>+'<br>+' *'<br>)'<br>)'<br>('<br>| ' a | ' a<br>' ), ,' ., ('' (), (,' (., ' ), ,' ., ('' (), (,' (.,<br>& 3 [°C] & 3 [°C]<br>3 afeo erating area 4 Max. transient thermal im /.+8-/<br>$ 94R") 9H y; ( 8 25°C; " 4( * `T@84R". \#<br>parameter: . \ parameter: " 4. \'(<br>(' [*] ('<br>limited by on-state 4 C<br>^Q_U_`MZOQ<br>(' [)]<br>10 C ( (&-<br>x 100 C 2 (&* /<br>(' [(]<br>(&)<br>1ms '%( (&(-<br>(' ['] (&(*<br>10 ms (&()<br>single pulse<br>98<br>(' [$(] '%'( ' ' ' ' ' ' (<br>(' [$(] (' ['] (' [(] (' [)] (' [$-] (' [$,] (' [$+] (' [$*] (' [$)] (' [$(] (' [']<br>' 4@ * V<br>*<br># YUY " 4<br>*<br>" 4<br> YN83<br>(<br>**----- End of picture text -----**<br>
**==> picture [426 x 298] intentionally omitted <==**
**----- Start of picture text -----**<br>
5 B: . out ut characteristics 6 B: . drain-source on resistance<br>$ 94R") 9H ); ( V =25°C ' 9H"[Z#4R"$ 9 ); ( V =25°C<br>parameter: ) =H parameter: ) =H<br>()' ,'<br>10V [7] ley 45v 5V 5.5V<br>6.5V<br>+'<br>/'<br>6V Gq *'<br>= < & £<br>)'<br>+' Hf 5.5V 6V<br>! 6.5V<br>7V=——<br>8V<br>('<br>5V 10V<br>45V<br>' '<br>' ( ) * ' (' )' *' +' ,'<br>' 4@ " 4<br>F<br>" 4<br> 4@!UT"<br>%<br>**----- End of picture text -----**<br>
**==> picture [265 x 27] intentionally omitted <==**
**----- Start of picture text -----**<br>
B: B:<br>$ 94R") =H )s | 9H [g5*g][$] 9 [g]['] 9H"[Z#YMd , R_4R"$ 9 ), ( V<br>**----- End of picture text -----**<br>
**==> picture [422 x 265] intentionally omitted <==**
**----- Start of picture text -----**<br>
parameter: ( V<br>-' (''<br>,'<br>/'<br>+'<br>-'<br>| *' |<br>+'<br>)'<br>)'<br>('<br>' '<br>' ( ) * + , - ' +' /' ()' (-'<br>' 7@ " 4<br>*<br>" 4 ) LX<br>**----- End of picture text -----**<br>
## B:
' 9H"[Z#4R"( V ); $ 9 =33 A; ) =H
) =H"`T#4R"( V ); ) =H4) 9H
**==> picture [204 x 245] intentionally omitted <==**
**----- Start of picture text -----**<br>
),<br>)'<br>Gq (,<br>YMd<br>`e\<br>('<br>,<br>'<br>$-' $)' )' -' ('' (+' (/'<br>& P P [°C]<br>F<br>ES<br> 4@!UT"<br>% 4@!UT"<br>**----- End of picture text -----**<br>
**==> picture [422 x 557] intentionally omitted <==**
**----- Start of picture text -----**<br>
+<br>)'<br>*<br>330 A<br>33 A<br>Gq (,<br>YMd =<br>)<br>`e\<br>('<br>(<br>,<br>'<br>'<br>$-' $)' )' -' ('' (+' (/'<br>$-' $)' )' -' ('' (+' (/'<br>& P P [°C] & P [°C]<br>B: .ca +-3=+8-/< 12 Forward characteristics of reverse diode<br> 4R") 9H) 9H 9H =O; ) =H =H + =1 " J $ <4R") H9#<br>parameter: ( V<br>(' [+] ('''<br>8U__<br>(' [*] 150°C, max<br>('' 25°C<br>8[__<br>a (' [)] <<br>150°C<br>('<br>8^__<br>(' [(]<br>(' ['] ( i max<br>' )' +' -' /' '%' '%, (%' (%, )%'<br>' 4@ ' @4<br>F<br>ES<br>% 4@!UT" ' 7@!YN"<br>! " 6<br>**----- End of picture text -----**<br>
> ! 4R") 9H) 9H 9H =O; ) =H =H + =1 " J
**==> picture [426 x 613] intentionally omitted <==**
**----- Start of picture text -----**<br>
13 Avalanche characteristics 14 B: . gate charge<br>$ 6H4R". 6J ); ' =H =25 " ) =H4R"& SM`Q ); $ 9 =20 A pulsed<br>parameter: ( V"_`M^`# parameter: ) 99<br>('' ()<br>40V<br>('<br>16V 64V<br>/<br>25 °C<br>< (' 125 °C_ 100 °C 2 -<br>+<br>)<br>( '<br>'%( ( (' ('' (''' ' , (' (, )'<br>* 1C [us] $ MGYK [nc]<br>15 Drain-source breakdown voltage 16 Gate charge waveforms<br>) 7G"9HH#4R"( V ); $ 9 =1mA<br>(''<br>' =H<br>0, & ,<br>0'<br>/,<br>/'<br>) S _"`T#<br>.,<br>.'<br>-, & S"`T# & _c $ MGYK<br>-' & S_ & SP<br>$-' $)' )' -' ('' (+' (/'<br>& P |<br>" 1C ' 7@<br> 2?!4@@"<br>'<br>**----- End of picture text -----**<br>
>7$A4@=<$/
For -@9AB?4D=A@ further information on technology, delivery terms and conditions and prices, please contact the nearest Infineon Technologies Office (www. infineon.com).
Due to technical requirements, components may contain dangerous substances. For information on 34B@=@;C the types in question, please contact the nearest Infineon Technologies Office. The Infineon
Updated at April 29, 2026
Infineon Technologies is a globally recognized leader in semiconductor solutions, renowned for driving innovation in power management, energy efficiency, and modern mobility. With a strong legacy of engineering excellence, the company provides highly reliable components designed to meet the rigorous demands of industrial, automotive, and advanced commercial applications. The core of our Infineon portfolio is centered on their industry-leading discrete semiconductors. We offer an extensive selection of single and dual MOSFETs, alongside a robust range of single IGBTs and advanced IGBT modules. These flagship power transistors are essential for high-efficiency power conversion and motor control, providing engineers with superior thermal performance and minimized switching losses. Beyond advanced field-effect transistors, the selection includes a comprehensive array of diodes and rectifiers, heavily featuring Schottky diodes, as well as fast-recovery and RF/PIN diodes. This power foundation is further supported by bipolar transistors, intelligent power modules, and thyristor SCR modules, delivering the critical building blocks required for complex power system designs. To support broader system integration, the portfolio also encompasses specialized solutions such as solid-state relays, AC/DC LED driver ICs, and Bluetooth communications modules. From high-power industrial rectifiers to wireless connectivity adapters, Infineon equips designers with the precision components needed to build efficient, scalable, and fully connected electronic systems.
About Novapart
Novapart is a B2B electronic component broker specialising in stock shortages and cost reduction. We source hard-to-find parts and identify compliant alternatives across a catalogue of 410,000+ components from 500+ manufacturers.
Learn more →Stock Shortage Specialist
When a component is unavailable, discontinued or has an unacceptable lead time, we tap into our network of vetted European and Asian distributors to source what you need — without compromising on quality or traceability.
Request a quote →Compliant Alternatives
We identify pin-to-pin, electrically equivalent substitutes that meet the same certifications (RoHS, AEC-Q100, REACH) as your original specification — validated against datasheets, not just part numbers. Often at a lower cost.
BOM Analysis service →