IRF 162CNQ030

Bulletin PD-2.366 05/00
162CNQ030
SCHOTTKY RECTIFIER
160 Amp
Characteristics
162CNQ... Units
IF(AV) Rectangular
waveform
160
A
VRRM range
30
V
IFSM @ tp = 5 µs sine
7900
A
VF
0.46
V
- 55 to 150
°C
@ 80 Apk, TJ = 125°C
(per leg)
TJ
range
TO-249AA
Description/Features
Major Ratings and Characteristics
The 162CNQ030 non isolated, center tap Schottky rectifier
module series has been optimized for very low forward voltage
drop, with moderate leakage. The proprietary barrier technology
allows for reliable operation up to 150° C junction temperature.
Typical applications are in switching power supplies, converters,
free-wheeling diodes, and reverse battery protection.
150° C TJ operation
Isolated heatsink
Center tap module
High purity, high temperature epoxy encapsulation for
enhanced mechanical strength and moisture resistance
Very low forward voltage drop
High frequency operation
Guard ring for enhanced ruggedness and long term
reliability
Low profile, high current package
(NON ISOLATED BASE)
Outline TO-249AA
Dimensions in millimeters and (inches)
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162CNQ030
Bulletin PD-2.366 05/00
Voltage Ratings
Part number
VR
162CNQ030
Max. DC Reverse Voltage (V)
30
VRWM Max. Working Peak Reverse Voltage (V)
Absolute Maximum Ratings
Parameters
IF(AV) Max. Average Forward
Current
* See Fig. 5
IFSM
162CNQ Units Conditions
(Per Leg)
(PerDevice)
80
160
A
50% duty cycle @ T C = 109 °C, rectangular wave form
Max. Peak One Cycle Non-Repetitive
7900
A
5µs Sine or 3µs Rect. pulse
Surge Current (Per Leg) * See Fig. 7
980
EAS
Non-Repetitive Avalanche Energy
(Per Leg)
72
mJ
IAR
RepetitiveAvalancheCurrent
(Per Leg)
16
A
Following any rated
load condition and with
10ms Sine or 6ms Rect. pulse rated VRRM applied
TJ = 25 °C, IAS = 16 Amps, L = 0.84 mH
Current decaying linearly to zero in 1 µsec
Frequency limited by TJ max. VA = 1.5 x VR typical
Electrical Specifications
Parameters
VFM
162CNQ Units Conditions
Max. Forward Voltage Drop
(Per Leg) * See Fig. 1
(1)
0.53
0.65
V
V
@ 80A
@ 160A
TJ = 25 °C
TJ = 125 °C
0.46
V
@ 80A
0.63
V
@ 160A
IRM
Max. Reverse Leakage Current
(Per Leg) * See Fig. 2
(1)
5
280
mA
mA
TJ = 25 °C
TJ = 125 °C
CT
Max. Junction Capacitance (Per Leg)
3700
pF
VR = 5VDC (test signal range 100Khz to 1Mhz) 25°C
LS
Typical Series Inductance (Per Leg)
8.0
nH
Measured from terminal hole to terminal hole
10,000
V/ µs
dv/dt Max. Voltage Rate of Change
(Rated VR)
VR = rated VR
(1) Pulse Width < 300µs, Duty Cycle <2%
Thermal-Mechanical Specifications
Parameters
162CNQ Units Conditions
TJ
Max. Junction Temperature Range
- 55 to 150
°C
Tstg
Max. Storage Temperature Range
- 55 to 150
°C
RthJC Max. Thermal Resistance Junction
to Case (Per Leg)
0.70
°C/W DCoperation
RthJC Max. Thermal Resistance Junction
to Case (Per Package)
0.35
°C/W DCoperation
RthCS Typical Thermal Resistance, Case
to Heatsink
0.10
°C/W Mounting surface , smooth and greased
wt
Approximate Weight
T
MountingTorque
Case Style
2
58 (2.0)
g (oz.)
Min.
40 (35)
Max.
58 (50)
Kg-cm
(Ibf-in)
TO - 249AA
* See Fig. 4
JEDEC
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162CNQ030
Bulletin PD-2.366 05/00
1000
1000
Reverse Current - IR (mA)
100
100
125˚C
100˚C
10
75˚C
1
50˚C
25˚C
0.1
0.01
0
T J = 150˚C
10
20
Reverse Voltage - VR (V)
30
Fig. 2 - Typical Values Of Reverse Current
Vs. Reverse Voltage (Per Leg)
T = 125˚C
J
10000
T = 25˚C
J
T = 25˚C
J
Junction Capacitance - C T (p F)
Instantaneous Forward Current - I F (A)
TJ = 150˚C
10
1
1000
0
0.2
0.4
0.6
0.8
1
Forward Voltage Drop - V FM (V)
1.2
0
Fig. 1 - Max. Forward Voltage Drop Characteristics
(PerLeg)
5
10
15
20
25
Reverse Voltage - VR (V)
30
Fig. 3 - Typical Junction Capacitance
Vs. Reverse Voltage (Per Leg)
Thermal Impedance Z
thJC
(°C/W)
1
0.1
D = 0.75
D = 0.50
D = 0.33
D = 0.25
D = 0.20
PDM
t1
0.01
Single Pulse
(Thermal Resistance)
t2
Notes:
1. Duty factor D = t1/ t2
2. Peak Tj = Pdm x ZthJC + Tc
0.001
0.00001
0.0001
0.001
0.01
0.1
t 1 , Rectangular Pulse Duration (Seconds)
1
10
Fig. 4 - Max. Thermal Impedance ZthJC Characteristics (Per Leg)
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162CNQ030
160
70
150
60
Average Power Loss (Watts)
Allowable Case Temperature (°C)
Bulletin PD-2.366 05/00
140
130
DC
120
110
Square Wave
100 (D = 0.50)
80% Rated Vr Applied
90
D = 0.75
D = 0.50
D = 0.33
D = 0.25
D = 0.20
50
40
RMS Limit
DC
30
20
10
see note (2)
0
80
0
20
40
60
0
80 100 120 140
40
60
80
100
120
Fig. 6 - Forward Power Loss Characteristics
(Per Leg)
Fig. 5 - Max. Allowable Case Temperature
Vs. Average Forward Current (Per Leg)
Non-Repetitive Surge Current - IFSM (A)
20
Average Forward Current - IF(AV) (A)
Average Forward Current - IF(AV) (A)
10000
1000
At Any Rated Load Condition
And With Rated Vrrm Applied
Following Surge
100
10
100
1000
10000
Square Wave Pulse Duration - tp (microsec)
Fig. 7 - Max. Non-Repetitive Surge Current (Per Leg)
L
IRFP4 60
D UT
Rg = 25 ohm
C UR R E N T
M O N IT O R
H IG H - SP E E D
SW IT C H
FR E E - W H E E L
D IO D E
+
V d = 2 5 V o lt
40 HFL4 0 S02
Fig. 8 - Unclamped Inductive Test Circuit
(2) Formula used: TC = TJ - (Pd + PdREV) x RthJC ;
Pd = Forward Power Loss = IF(AV) x V FM @ (IF(AV) / D) (see Fig. 6);
PdREV = Inverse Power Loss = VR1 x IR (1 - D); IR @ VR1 = 80% rated VR
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162CNQ030
Bulletin PD-2.366 05/00
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