IRF 100BGQ100

Bulletin PD-20999 rev. B 12/02
100BGQ100
100BGQ100J
100 Amp
SCHOTTKY RECTIFIER
Description/ Features
Major Ratings and Characteristics
Characteristics
This Schottky rectifier 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 applications are in
switching power supplies, converters, reverse battery protection,
and redundant power subsystems.
Values
Units
100
A
129
°C
141
A
VRRM
100
V
IFSM @ tp = 5 µs sine
6300
A
VF
0.74
V
125
°C
Guard ring for enhanced ruggedness and long term
reliability
- 55 to 175
°C
PowIRtabTM package
IF(AV) Rectangular waveform
@ TC
IDC
Maximum
@100 Apk typical
@TJ
TJ
range
175°C TJ operation
High Frequency Operation
Low forward voltage drop
Continuous High Current operation
Case Styles
100BGQ100
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100BGQ100J
1
100BGQ100, 100BGQ100J
Bulletin PD-20999 rev. B 12/02
Voltage Ratings
Part number
VR
100BGQ100, 100BGQ100J
Max. DC Reverse Voltage (V)
100
VRWM Max. Working Peak Reverse Voltage (V)
Absolute Maximum Ratings
Parameters
Values
Units
100
A
141
A
IF(AV) Max. Average Forward Current
IF(RMS) RMS Forward Current
IFSM
Max. Peak One Cycle Non-Repetitive
6300
Surge Current
800
Conditions
50% duty cycle @ TC = 129°C, rectangular wave form
TC = 120°C
5µs Sine or 3µs Rect. pulse
A
EAS
Non-RepetitiveAvalancheEnergy
9
mJ
IAR
Repetitive Avalanche Current
2
A
10ms Sine or 6ms Rect. pulse
Following any rated
load condition and
with rated VRRM applied
TJ = 25 °C, IAS = 2 Amps, L = 4.5 mH
Current decaying linearly to zero in 1 µsec
Frequency limited by TJ max. VA = 1.5 x VR typical
Electrical Specifications
Parameters
Values
Units
Conditions
Typ. Max.
VFM
IRM
Forward Voltage Drop
(1) (2)
Reverse Leakage Current (1)
VF(TO) Threshold Voltage
0.80 0.84
V
@
0.96 1.04
V
@ 100A
50A
0.64 0.66
V
@
0.74 0.77
V
@ 100A
50A
22
300
µA
TJ = 25 °C
14
18
mA
TJ = 125°C
TJ = TJ max.
TJ = 25 °C
TJ = 125 °C
VR = rated VR
0.484
V
rt
Forward Slope Resistance
2.0
mΩ
CT
Max. Junction Capacitance
1320
pF
VR = 5VDC, (test signal range 100Khz to 1Mhz) 25 °C
LS
Typical Series Inductance
3.5
nH
Measured from tab to mounting plane
10000
V/ µs
dv/dt Max. Voltage Rate of Change
(Rated VR)
(1) Pulse Width < 300µs, Duty Cycle < 2%
(2) VFM = VF(TO) + rt x IF
Thermal-Mechanical Specifications
Values
Units
TJ
Parameters
Max. Junction Temperature Range
-55 to 175
°C
Conditions
Tstg
Max. Storage Temperature Range
-55 to 175
°C
RthJC Max. Thermal Resistance Junction
to Case
0.50
°C/W
DCoperation
RthCS Typical Thermal Resistance, Case to
0.20
°C/W
Mounting surface , smooth and greased
5 (0.18)
g (oz.)
Min.
1.2 (10)
Max.
2.4 (20)
N*m
(Ibf-in)
Heatsink
wt
Approximate Weight
T
Mounting Torque
Case Style
2
PowIRtabTM
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100BGQ100, 100BGQ100J
Bulletin PD-20999 rev. B 12/02
1000
1000
T J = 175°C
Reverse Current - I R (mA)
100
150°C
10
125°C
100°C
1
75°C
0.1
50°C
0.01
25°C
0.001
0.0001
0
20
40
60
80
100
Reverse Voltage - VR (V)
T J = 175°C
Fig. 2 - Typical Values of Reverse Current
Vs. Reverse Voltage
T J = 125°C
10000
T J = 25°C
Junction Capacitance - C T (pF)
Instantaneous Forward Current - I F (A)
100
10
1
0
0.5
1
1.5
2
T = 25°C
J
1000
100
2.5
0
20
40
60
80
100
Forward Voltage Drop - V FM (V)
Reverse Voltage - VR (V)
Fig. 1 - Maximum Forward Voltage Drop Characteristics
Fig. 3 - Typical Junction Capacitance
Vs. Reverse Voltage
Thermal Impedance Z thJC (°C/W)
1
0.1
D=
D=
D=
D=
D=
0.75
0.50
0.33
0.25
0.20
PDM
Single Pulse
(Thermal Resistance)
Notes:
t1
t2
1. Duty factor D = t 1/ t 2
2. Peak TJ = PDM x Z thJC+ T C
0.01
0.00001
0.0001
0.001
0.01
0.1
1
10
100
t 1 , Rectangular Pulse Duration (Seconds)
Fig. 4 - Maximum Thermal Impedance ZthJC Characteristics
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100BGQ100, 100BGQ100J
Bulletin PD-20999 rev. B 12/02
120
170
Average Power Loss - (Watts)
Allowable Case Temperature - (°C)
180
160
150
140
DC
130
Square wave (D = 0.50)
80% Rated V R applied
120
110
100
D = 0.20
D = 0.25
D = 0.33
D = 0.50
D = 0.75
100
80
DC
RMS Limit
60
40
20
see note (3)
0
20
40
60
80
0
100 120 140 160
0
Fig. 5 - Maximum Allowable Case Temperature
Vs. Average Forward Current
Non-Repetitive Surge Current - I FSM (A)
20
40
60
80
100 120 140 160
Average Forward Current - I F(AV) (A)
Average Forward Current - I F(AV) (A)
Fig. 6 - Forward Power Loss Characteristics
10000
1000
At Any Rated Load Condition
And With Rated VRRM Applied
Following Surge
100
10
100
1000
10000
Square Wave Pulse Duration - t p (microsec)
Fig. 7 - Maximum Non-Repetitive Surge Current
L
HIGH-SPEED
SWITCH
IRFP460
DUT
Rg = 25 ohm
CURRENT
MONITOR
FREE-WHEEL
DIODE
+
Vd = 25 Volt
40HFL40S02
Fig. 8 - Unclamped Inductive Test Circuit
(3) 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 = 80% rated VR
4
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100BGQ100, 100BGQ100J
Bulletin PD-20999 rev. B 12/02
Outline Table
Case Style PowIRtabTM
Dimensions in millimeters and (inches)
Case Style PowIRtabTM "J" version
Dimensions in millimeters and (inches)
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5
100BGQ100, 100BGQ100J
Bulletin PD-20999 rev. B 12/02
Ordering Information Table
Device Code
100 BGQ 100
J
2
4
1
3
1
-
Current Rating
2
-
Essential Part Number
3
-
Voltage code: Code = VRRM
4
-
none = PowIRtabTM standard
6
J
= Short Lead Version
Data and specifications subject to change without notice.
This product has been designed and qualified for Industrial Level.
Qualification Standards can be found on IR's Web site.
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105
TAC Fax: (310) 252-7309
Visit us at www.irf.com for sales contact information. 12/02
6
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