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129NQ135R [INFINEON]

SCHOTTKY RECTIFIER; 肖特基整流器器
129NQ135R
型号: 129NQ135R
厂家: Infineon    Infineon
描述:

SCHOTTKY RECTIFIER
肖特基整流器器

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文件: 总4页 (文件大小:115K)
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Bulletin PD-20719 rev. A 03/01  
129NQ...(R) SERIES  
120 Amp  
SCHOTTKY RECTIFIER  
D-67  
Major Ratings and Characteristics  
Description/Features  
The129NQ...(R)highcurrentSchottkyrectifiermoduleseries  
has been optimized for low reverse leakage at high  
temperature. The proprietary barrier technology allows for  
reliable operation up to 175° C junction temperature. Typical  
applicationsareinswitchingpowersupplies,converters,free-  
wheelingdiodes,andreversebatteryprotection.  
Characteristics  
129NQ...(R) Units  
I
Rectangular  
waveform  
120  
A
F(AV)  
V
range  
135 to 150  
10000  
V
A
V
175°CT operation  
Uniquehighpower,Half-Pakmodule  
ReplacestwoparallelDO-5's  
RRM  
J
I
@tp=5µssine  
FSM  
Easier to mount and lower profile than DO-5's  
V
@120Apk,T =125°C  
J
0.74  
F
High purity, high temperature epoxy encapsulation for  
enhanced mechanical strength and moisture resistance  
T
range  
-55to175  
°C  
Lowforwardvoltagedrop  
Highfrequencyoperation  
J
Guardringforenhancedruggednessandlongterm  
reliability  
129NQ150  
LugTerminalAnode  
BaseCathode  
129NQ150R  
LugTerminalCathode  
BaseAnode  
Outline D-67 HALF PAK Module  
Dimensions in millimeters and (inches)  
www.irf.com  
1
129NQ...(R) Series  
Bulletin PD-20719 rev. A 03/01  
Voltage Ratings  
Partnumber  
129NQ135  
129NQ150  
VR Max. DC Reverse Voltage (V)  
VRWM Max. Working Peak Reverse Voltage (V)  
135  
150  
Absolute Maximum Ratings  
Parameters  
IF(AV) Max.AverageForwardCurrent  
*SeeFig.5  
129NQ Units  
Conditions  
50%dutycycle@TC=117°C,rectangularwaveform  
120  
A
Following any rated  
load condition and  
IFSM Max.PeakOneCycleNon-Repetitive  
SurgeCurrent*SeeFig.7  
10000  
1200  
5µs Sineor3µsRect.pulse  
10msSineor6msRect. pulse  
A
with rated VRRMapplied  
EAS Non-RepetitiveAvalancheEnergy  
IAR RepetitiveAvalancheCurrent  
15  
1
mJ  
A
TJ=25°C, IAS=1Amps,L=30mH  
Current decaying linearly to zero in1µsec  
Frequency limitedbyTJ max.VA =1.5xVR typical  
Electrical Specifications  
Parameters  
129NQ Units  
Conditions  
VFM Max. Forward Voltage Drop  
(1)  
1.07  
1.27  
0.74  
0.86  
3
45  
3000  
7.0  
V
V
V
V
mA  
mA  
pF  
nH  
@ 120A  
TJ = 25 °C  
@ 240A  
* See Fig. 1  
@ 120A  
@ 240A  
TJ = 125 °C  
IRM  
Max. ReverseLeakageCurrent(1)  
TJ = 25 °C  
VR = rated VR  
TJ = 125 °C  
VR = 5VDC, (test signal range 100Khz to 1Mhz) 25 °C  
From top of terminal hole to mounting plane  
* See Fig. 2  
CT  
LS  
Max. Junction Capacitance  
Typical Series Inductance  
dv/dt Max. Voltage Rate of Change  
( Rated VR )  
10,000 V/ µs  
(1) Pulse Width < 300µs, Duty Cycle < 2%  
Thermal-Mechanical Specifications  
Parameters  
129NQ Units  
Conditions  
TJ  
Max.JunctionTemperatureRange  
-55to175  
-55to175  
0.40  
°C  
°C  
Tstg Max.StorageTemperatureRange  
RthJC Max.ThermalResistanceJunction  
toCase  
°C/W DC operation *SeeFig.4  
RthCS TypicalThermalResistance,Caseto  
Heatsink  
0.15  
°C/W Mountingsurface,smoothandgreased  
wt  
T
ApproximateWeight  
MountingTorque  
25.6(0.9) g(oz.)  
40(35)  
Min.  
Max.  
Min.  
Max.  
Non-lubricatedthreads  
58(50)  
58(50) (Ibf-in)  
Kg-cm  
TerminalTorque  
CaseStyle  
86(75)  
HALF PAK Module  
2
129NQ...(R) Series  
Bulletin PD-20719 rev. A 03/01  
1000  
100  
10  
1000  
100  
10  
T
= 175˚C  
J
150˚C  
125˚C  
100˚C  
1
75˚C  
0.1  
50˚C  
25˚C  
0.01  
0.001  
T
= 175˚C  
= 125˚C  
J
0
30  
60  
90  
120  
150  
T
J
ReverseVoltage-VR(V)  
Fig.2-Typical Values Of Reverse Current  
Vs. Reverse Voltage  
T
J
=
25˚C  
10000  
1000  
100  
T
= 25˚C  
J
1
0
40  
80  
120  
160  
0
0.5  
1
1.5  
2
2.5  
ForwardVoltageDrop-VFM(V)  
Fig.1-Max. Forward Voltage Drop Characteristics  
ReverseVoltage-VR(V)  
Fig.3-Typical Junction Capacitance  
Vs. Reverse Voltage  
1
D = 0.75  
D = 0.50  
D = 0.33  
D = 0.25  
D = 0.20  
0.1  
0.01  
P
DM  
t
1
t
2
Notes:  
Single Pulse  
(Thermal Resistance)  
1. Duty factor D = t / t  
1
2
2. Peak T = P x Z  
+ T  
C
J
DM  
thJC  
0.001  
0.00001  
0.0001  
0.001  
t1,RectangularPulseDuration(Seconds)  
Fig.4-Max. Thermal Impedance ZthJC Characteristics  
0.01  
0.1  
1
10  
100  
3
129NQ...(R) Series  
Bulletin PD-20719 rev. A 03/01  
180  
160  
140  
120  
140  
120  
100  
80  
D = 0.20  
D = 0.25  
D = 0.33  
D = 0.50  
D = 0.75  
DC  
RMS Limit  
DC  
60  
Square wave (D = 0.50)  
Rated V applied  
100  
80  
R
40  
20  
see note (2)  
60  
0
0
40  
80  
120  
160  
200  
0
20 40 60 80 100 120 140 160 180  
AverageForwardCurrent-IF(AV)(A)  
AverageForwardCurrent-IF(AV)(A)  
Fig. 5 - Max. Allowable Case Temperature  
Fig.6-Forward Power Loss Characteristics  
Vs. Average Forward Current  
10000  
1000  
At Any Rated Load Condition  
And With Rated V  
Following Surge  
Applied  
RRM  
100  
10  
100  
1000  
10000  
SquareWavePulseDuration-tp(microsec)  
Fig.7-Max. Non-Repetitive Surge Current  
L
HIG H-SPEED  
SW ITCH  
IRFP460  
DUT  
FREE-W HEEL  
DIO DE  
Rg = 25 ohm  
V d = 25 Volt  
+
CURRENT  
M ONITOR  
40HFL40S02  
Fig.8-Unclamped Inductive Test Circuit  
(2) Formula used: TC = TJ - (Pd + PdREV) x RthJC  
;
Pd = Forward Power Loss = IF(AV) x VFM @ (IF(AV) / D) (see Fig. 6);  
PdREV = Inverse Power Loss = VR1 x IR (1 - D); IR @ VR1 = rated VR  
4

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