FREESCALE AO3162

AO3162
600V,0.034A N-Channel MOSFET
General Description
The AO3162 is fabricated using an advanced high vol tage MOSFET process that is designed to deliver high levels
of performance and robustness in popular AC-DC applications. By providing low RDS(on) , C iss and C rss along with
guaranteed avalanche capability this device can beadopted quickly into new and existing offline power supply
designs.
Features
VDS
[email protected]℃
ID (at VGS=10V)
0.034A
RDS(ON) (at VGS=10V)
< 500Ω
D
G
S
Absolute Maximum Ratings TA=25°C unless otherwise noted
Parameter
Symbol
Drain-Source Voltage
VDS
VGS
Gate-Source Voltage
Continuous Drain
CurrentA,F
TA=25°C
Pulsed Drain Current B
Peak diode recovery dv/dt
TA=25°C
Power Dissipation A
IDM
dv/dt
PD
TA=70°C
Junction and Storage Temperature Range
Thermal Characteristics
Parameter
Maximum Junction-to-Ambient A
Maximum Junction-to-Ambient A
Maximum Junction-to-Lead
1/5
C
Steady-State
Steady-State
±30
V
0.028
A
0.16
5
1.39
V/ns
W
0.89
TJ, TSTG
Symbol
t ≤ 10s
Units
V
0.034
ID
TA=70°C
Maximum
600
RθJA
RθJL
-50 to 150
Typ
70
100
63
°C
Max
90
125
80
Units
°C/W
°C/W
°C/W
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AO3162
600V,0.034A N-Channel MOSFET
Electrical Characteristics (TJ=25°C unless otherwise noted)
Parameter
Symbol
Conditions
Min
ID=250µA, VGS=0V, TJ=25°C
ID=250µA, VGS=0V, TJ=150°C
Typ
Max
600
-
-
-
700
-
Units
STATIC PARAMETERS
BVDSS
Drain-Source Breakdown Voltage
BVDSS
/∆TJ
Zero Gate Voltage Drain Current
IDSS
Zero Gate Voltage Drain Current
ID=250µA, VGS=0V
-
0.69
VDS=600V, VGS=0V
-
VDS=480V, TJ=125°C
-
V
o
-
V/ C
-
1
-
10
µA
-
-
±100
2.8
3.2
4.1
nΑ
V
IGSS
Gate-Body leakage current
VDS=0V, VGS=±30V
VGS(th)
Gate Threshold Voltage
VDS=5V, ID=8µA
RDS(ON)
Static Drain-Source On-Resistance
VGS=10V, ID=0.016A
-
154
500
Ω
gFS
Forward Transconductance
VDS=40V, ID=0.016A
-
0.045
-
S
VSD
Diode Forward Voltage
IS=0.016A,VGS=0V
-
0.74
1
V
IS
Maximum Body-Diode Continuous Current
-
-
0.034
A
ISM
Maximum Body-Diode Pulsed Current
-
-
0.16
A
DYNAMIC PARAMETERS
Ciss
Input Capacitance
Coss
Output Capacitance
Crss
Reverse Transfer Capacitance
Rg
Gate resistance
VGS=0V, VDS=25V, f=1MHz
VGS=0V, VDS=0V, f=1MHz
SWITCHING PARAMETERS
Qg
Total Gate Charge
VGS=10V, VDS=400V, ID=0.01A
-
4.2
6
pF
-
0.45
0.6
pF
-
0.05
0.07
pF
14
28
42
Ω
-
0.1
0.15
nC
-
0.03
0.05
nC
nC
Qgs
Gate Source Charge
Qgd
Gate Drain Charge
-
0.05
0.08
tD(on)
Turn-On DelayTime
-
13.8
20
ns
tr
Turn-On Rise Time
-
10
15
ns
-
39.2
57
ns
-
13
19
ns
ns
nC
VGS=10V, VDS=300V, ID=0.01A,
RG=6Ω
tD(off)
Turn-Off DelayTime
tf
trr
Turn-Off Fall Time
IF=0.016A,dI/dt=100A/µs,VDS=300V
-
105
160
Qrr
Body Diode Reverse Recovery Charge IF=0.016A,dI/dt=100A/µs,VDS=300V
-
9.5
14.3
Body Diode Reverse Recovery Time
A: The value of R θJA is measured with the device mounted on 1in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The value in
any given application depends on the user's specific board design.
B: Repetitive rating, pulse width limited by junction temperature.
C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.
D. The static characteristics in Figures 1 to 6 are obtained using <300 µs pulses, duty cycle 0.5% max.
E. These tests are performed with the device mounted on 1 in 2 FR-4 board with 2oz. Copper, in a still air environment with T A=25°C. The SOA curve
provides a single pulse rating.
F. The current rating is based on the t ≤ 10s thermal resistance rating.
THIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL
COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING
OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,
FUNCTIONS AND RELIABILITY WITHOUT NOTICE.
2/5
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AO3162
600V,0.034A N-Channel MOSFET
TYPICAL ELECTRICAL AND THERMAL CHARACTERISTICS
0.04
0.025
0.035
VDS=40V
10V
0.03
0.02
0.015
5V
0.02
ID(A)
ID (A)
0.025
25°C
0.01
0.015
4.5V
0.01
0.005
0.005
VGS=4V
0
0
0
2
4
6
8
10
0
1
VDS (Volts)
Fig 1: On-Region Characteristics
300
3
4
5
6
Normalized On-Resistance
2.5
250
VGS=10V
200
RDS(ON) (Ω
Ω)
2
VGS(Volts)
Figure 2: Transfer Characteristics
150
100
50
0
2
VGS=10V
ID=0.016A
1.5
1
0.5
0
0
0.01
0.02
0.03
0.04
-75
-25
25
75
125
175
Temperature (°C)
Figure 4: On-Resistance vs. Junction Temperature
ID (A)
Figure 3: On-Resistance vs. Drain Current and
Gate Voltage
1.2
1.0E+00
40
1.0E-01
1.1
1
125°
0.9
IS (A)
BVDSS (Normalized)
ID=30A
125°C
1.0E-02
1.0E-03
25°C
25°
0.8
1.0E-04
-100
3/5
-50
0
50
100
150
200
TJ (oC)
Figure 5: Break Down vs. Junction Temperature
0.2
0.4
0.6
0.8
1.0
VSD (Volts)
Figure 6: Body-Diode Characteristics
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AO3162
600V,0.034A N-Channel MOSFET
TYPICAL ELECTRICAL AND THERMAL CHARACTERISTICS
100.00
10
VDS=400V
ID=0.01A
10.00
Capacitance (pF)
VGS (Volts)
8
6
4
Ciss
Coss
1.00
Crss
0.10
2
0
0.01
0.00
0.03
0.06
0.09
Qg (nC)
Figure 7: Gate-Charge Characteristics
0.12
0.1
1
1
10
VDS (Volts)
Figure 8: Capacitance Characteristics
120
100µs
100
1ms
80
TJ(Max)=150°C
TA=25°C
RDS(ON)
limited
0.01
10ms
0.1s
DC
1s
10s
Power (W)
0.1
ID (Amps)
100
60
40
0.001
TJ(Max)=150°C
TA=25°C
20
0.0001
0
1
10
100
1000
VDS (Volts)
0.0001
0.001
0.01
0.1
1
10
Pulse Width (s)
Figure 10: Single Pulse Power Rating Junction-toAmbient (Note E)
Figure 9: Maximum Forward Biased Safe
Operating Area (Note E)
Zθ JC Normalized Transient
Thermal Resistance
10
1
D=Ton/T
TJ,PK=TA+PDM.ZθJA.RθJA
RθJA=125°C/W
In descending order
D=0.5, 0.3, 0.1, 0.05, 0.02, 0.01, single pulse
0.1
PD
0.01
Single Pulse
Ton
T
0.001
1E-05
0.0001
0.001
0.01
0.1
1
10
100
Pulse Width (s)
Figure 11: Normalized Maximum Transient Thermal Impedance (Note E)
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AO3162
600V,0.034A N-Channel MOSFET
Gate Charge Test Circuit & Waveform
Vgs
Qg
10V
+
+
VDC
-
VDC
DUT
Qgs
Vds
Qgd
-
Vgs
Ig
Charge
Res istive Switching Test Circuit & Waveforms
RL
Vds
Vds
DUT
Vgs
+
VDC
90%
Vdd
-
Rg
10%
Vgs
Vgs
t d(on)
tr
t d(off)
t on
tf
t off
Unclamped Inductive Switching (UIS) Test Circuit & Waveforms
L
EAR= 1/2 LI
Vds
2
AR
BVDSS
Vds
Id
+
Vgs
Vgs
VDC
-
Rg
Vdd
I AR
Id
DUT
Vgs
Vgs
Diode Recovery Tes t Circuit & Waveforms
Qrr = - Idt
Vds +
DUT
Vgs
Vds -
Isd
Vgs
Ig
5/5
L
Isd
+ Vdd
trr
dI/dt
IRM
Vdd
VDC
-
IF
Vds
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