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Product Details:
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| Product Name: | Mos Field Effect Transistor | Model: | AP15N10S |
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| Pack: | SOP-8 | Marking: | AP15N10S XXX YYYY |
| VDSDrain-Source Voltage: | 100V | VGSGate-Sou Rce Voltage: | ±20V |
| High Light: | n channel mosfet transistor,high voltage transistor |
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AP15N10S Mos Field Effect Transistor / 15A 100V Logic Mosfet Switch
Mos Field Effect Transistor Introduction
Power MOSFETs are normally used in applications where voltages do not exceed about 200 volts. Higher voltages are not so easily achievable. Where the Power MOSFETs are used, it is their low ON resistance that is particularly attractive. This reduces power dissipation which reduces cost and size less metalwork and cooling is required. Also the low ON resistance means that efficiency levels can be maintained at a higher level
Mos Field Effect Transistor Features
VDS = 100V ID =15A
RDS(ON) < 120mΩ @ VGS=10V
Mos Field Effect Transistor Application
VDS = 100V ID =15A
RDS(ON) < 120mΩ @ VGS=10V
Package Marking and Ordering Information
| Product ID | Pack | Marking | Qty(PCS) |
| AP15N10S | SOP-8 | AP15N10S XXX YYYY | 3000 |
Absolute Maximum Ratings (TC=25℃unless otherwise noted)
| Symbol | Parameter | Rating | Units |
| VDS | Drain-Source Voltage | 100 | V |
| VGS | Gate-Sou rce Voltage | ±20 | V |
| ID@TA=25℃ | Continuous Drain Current, V GS @ 10V 1 | 15 | A |
| ID@TA=70℃ | Continuous Drain Current, V GS @ 10V 1 | 7 | A |
| IDM | Pulsed Drain Current2 | 30 | A |
| EAS | Single Pulse Avalanche Energy 3 | 6.1 | mJ |
| IAS | Avalanche Current | 11 | A |
| PD@TA=25 ℃ | Total Power Dissipation3 | 1.5 | W |
| TSTG | Storage Temperature Range | -55 to 150 | ℃ |
| TJ | Operating Junction Temperature Range | -55 to 150 | ℃ |
| RθJA | Thermal Resistance Junction-ambient 1 | 85 | ℃/W |
| RθJC | Thermal Resistance Junction-Case 1 | 36 | ℃/W |
Electrical Characteristics (TJ=25 ℃, unless otherwise noted
| Symbol | Parameter | Conditions | Min. | Typ. | Max. | Unit |
| BVDSS | Drain-Source Breakdown Voltage | VGS=0V , ID=250uA | 100 | --- | --- | V |
| △ BVDSS/△TJ | BVDSS Temperature Coefficient | Reference to 25℃ , ID=1mA | --- | 0.098 | --- | V/℃ |
|
RDS(ON) |
Static Drain-Source On-Resistance |
VGS=10V , I D=2A | --- | 90 | 112 | mΩ |
| VGS=4.5V , ID=1A | --- | 95 | 120 | mΩ | ||
| VGS(th) | Gate Threshold Voltage | 1.0 | 1.5 | 2.5 | V | |
| △VGS(th) | VGS(th) Temperature Coefficient | --- | -4.57 | --- | mV/℃ | |
|
IDSS |
Drain-Source Leakage Current |
VDS=80V , VGS=0V , TJ=25℃ | --- | --- | 10 |
uA |
| VDS=80V , VGS=0V , TJ=55℃ | --- | --- | 100 | |||
| IGSS | Gate-Source Leakage Current | VGS=±20V , VDS=0V | --- | --- | ±100 | nA |
| gfs | Forward Transconductance | VDS=5V , ID=2A | --- | 12 | --- | S |
| Rg | Gate Resistance | VDS=0V , VGS=0V , f=1MHz | --- | 2 | 4 | |
| Qg | Total Gate Charge (10V) | --- | 19.5 | --- | ||
| Qgs | Gate-Source Charge | --- | 3.2 | --- | ||
| Qgd | Gate-Drain Charge | --- | 3.6 | --- | ||
| Td(on) | Turn-On Delay Time |
VDD=50V , VGS=10V , |
--- | 16.2 | --- | |
| Tr | Rise Time | --- | 3 | --- | ||
| Td(off) | Turn-Off Delay Time | --- | 44 | --- | ||
| Tf | Fall Time | --- | 2.6 | --- | ||
| Ciss | Input Capacitance | --- | 1535 | --- | ||
| Coss | Output Capacitance | --- | 60 | --- | ||
| Crss | Reverse Transfer Capacitance | --- | 37.4 | --- | ||
| IS | Continuous Source Current 1,5 |
VG=VD=0V , Force Current |
--- | --- | 4 | A |
| ISM | Pulsed Source Current 2,5 | --- | --- | 8 | A | |
| VSD | Diode Forward Voltage2 | VGS=0V , IS=1A , TJ=25℃ | --- | --- | 1.2 | V |
| Symbol | Parameter | Conditions | Min. | Typ. | Max. | Unit |
| BVDSS | Drain-Source Breakdown Voltage | VGS=0V , ID=250uA | 100 | --- | --- | V |
| △ BVDSS/△TJ | BVDSS Temperature Coefficient | Reference to 25℃ , ID=1mA | --- | 0.098 | --- | V/℃ |
|
RDS(ON) |
Static Drain-Source On-Resistance |
VGS=10V , I D=2A | --- | 90 | 112 | mΩ |
| VGS=4.5V , ID=1A | --- | 95 | 120 | mΩ | ||
| VGS(th) | Gate Threshold Voltage | 1.0 | 1.5 | 2.5 | V | |
| △VGS(th) | VGS(th) Temperature Coefficient | --- | -4.57 | --- | mV/℃ | |
|
IDSS |
Drain-Source Leakage Current |
VDS=80V , VGS=0V , TJ=25℃ | --- | --- | 10 |
uA |
| VDS=80V , VGS=0V , TJ=55℃ | --- | --- | 100 | |||
| IGSS | Gate-Source Leakage Current | VGS=±20V , VDS=0V | --- | --- | ±100 | nA |
| gfs | Forward Transconductance | VDS=5V , ID=2A | --- | 12 | --- | S |
| Rg | Gate Resistance | VDS=0V , VGS=0V , f=1MHz | --- | 2 | 4 | |
| Qg | Total Gate Charge (10V) | --- | 19.5 | --- | ||
| Qgs | Gate-Source Charge | --- | 3.2 | --- | ||
| Qgd | Gate-Drain Charge | --- | 3.6 | --- | ||
| Td(on) | Turn-On Delay Time |
VDD=50V , VGS=10V , |
--- | 16.2 | --- | |
| Tr | Rise Time | --- | 3 | --- | ||
| Td(off) | Turn-Off Delay Time | --- | 44 | --- | ||
| Tf | Fall Time | --- | 2.6 | --- | ||
| Ciss | Input Capacitance | --- | 1535 | --- | ||
| Coss | Output Capacitance | --- | 60 | --- | ||
| Crss | Reverse Transfer Capacitance | --- | 37.4 | --- | ||
| IS | Continuous Source Current 1,5 |
VG=VD=0V , Force Current |
--- | --- | 4 | A |
| ISM | Pulsed Source Current 2,5 | --- | --- | 8 | A | |
| VSD | Diode Forward Voltage2 | VGS=0V , IS=1A , TJ=25℃ | --- | --- | 1.2 | V |
Note :
1.The data tested by surface mounted on a 1 inch2 FR-4 board with 2OZ copper.
2.The data tested by pulsed , pulse width ≦ 300us , duty cycle ≦ 2%
3.The EAS data shows Max. rating . The test condition is VDD=25V,VGS=10V,L=0.1mH,IAS=11A
4.The power dissipation is limited by 175℃ junction temperature
5.The data is theoretically the same as ID and IDM , in real applications , should be limited by total power dissipation
Attention
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