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Datasheet: 200CNQ035 (International Rectifier)

SCHOTTKY RECTIFIER

 

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International Rectifier
BASE
ANODE 2
63.50 [2.500]
60.96 [2.400]
23.55 [.927]
20.42 [.804]
14.99 [.590]
15.75 [.620]
20.32 [.800]
17.78 [.700]
39.75 [1.565]
40.26 [1.585]
80.01 [3.150]
34.925 [1.375]
3.35 [.132]
3.02 [.119]
90.17 [3.550]
92.71 [3.650]
7.49 [.295]
6.99 [.275]
2X
10.41 [.410]
9.65 [.380]
4.70 [.185]
4.95 [.195]
1/4-20 SLOTTED HEX
COMMON
CATHODE
REF.
TERMINAL
LUG
COMMON CATHODE
ANODE 1
TERMINAL
LUG
NOTES:
1. DIMENSIONS ARE SHOWN IN MILLIMETERS [INCHES].
2. CONTROLLING DIMENSION: MILLIMETER
Modified JEDEC
Outline TO-244AB
Dimensions in millimeters and (inches)
I
F(AV)
Rectangular
200
A
waveform
V
RRM
range
35 to 45
V
I
FSM
@ tp = 5 s sine
26,000
A
V
F
@
100Apk, T
J
=125C
0.49
V
(per leg)
T
J
range
- 55 to 150
C
Characteristics
200CNQ... Units
Major Ratings and Characteristics
The 200CNQ center tap Schottky rectifier module series has
been optimized for low reverse leakage at high temperature.
The proprietary barrier technology allows for reliable opera-
tion up to 150 C junction temperature. Typical applications
are in high current switching power supplies, plating power
supplies, UPS systems, converters, free-wheeling diodes,
welding, and reverse battery protection.
150 C T
J
operation
Center tap module
High purity, high temperature epoxy encapsulation for
enhanced mechanical strength and moisture resistance
Low forward voltage drop
High frequency operation
Guard ring for enhanced ruggedness and long term
reliability
Description/Features
TO-244AB
SCHOTTKY RECTIFIER
200 Amp
200CNQ... SERIES
www.irf.com
1
Bulletin PD-2.257 rev. D 07/01
200CNQ... Series
2
Bulletin PD-2.257 rev. D 07/01
www.irf.com
T
J
Max. Junction Temperature Range
- 55 to 150
C
T
stg
Max. Storage Temperature Range
- 55 to 150
C
R
thJC
Max. Thermal Resistance Junction
0.40
C/W DC operation
* See Fig. 4
to Case (Per Leg)
R
thJC
Max. Thermal Resistance Junction
0.20
C/W DC operation
to Case (Per Package)
R
thCS
Typical Thermal Resistance, Case
0.10
C/W Mounting surface , smooth and greased
to Heatsink
wt
Approximate Weight
79 (2.80)
g (oz.)
T
Mounting Torque Base
Min.
24 (20)
Max.
35 (30)
Mounting Torque Center Hole
Typ.
13.5 (12)
Terminal Torque
Min.
35 (30)
Max.
46 (40)
Case Style
TO - 244AB
Modified JEDEC
V
FM
Max. Forward Voltage Drop
0.54
V
@ 100A
(Per Leg) * See Fig. 1
(1)
0.68
V
@ 200A
0.49
V
@ 100A
0.64
V
@ 200A
I
RM
Max. Reverse Leakage Current
10
mA
T
J
= 25 C
(Per Leg) * See Fig. 2
(1)
500
mA
T
J
= 125 C
V
F(TO)
Threshold Voltage
0.32
V
T
J
= T
J
max.
r
t
Forward Slope Resistance
0.81
m
C
T
Max. Junction Capacitance (Per Leg)
5200
pF
V
R
= 5V
DC
, (test signal range 100Khz to 1Mhz) 25C
L
S
Typical Series Inductance (Per Leg)
7.0
nH
From top of terminal hole to mounting plane
dv/dt Max. Voltage Rate of Change
10000
V/ s
(Rated V
R
)
Part number
200CNQ035
200CNQ040
200CNQ045
V
R
Max. DC Reverse Voltage (V)
V
RWM
Max. Working Peak Reverse Voltage (V)
Voltage Ratings
Absolute Maximum Ratings
Parameters
200CNQ Units
Conditions
A
I
F(AV)
Max. Average Forward
(Per Leg)
100
A
50% duty cycle @ T
C
= 114 C, rectangular wave form
Current
* See Fig. 5
(Per Device)
200
I
FSM
Max. Peak One Cycle Non-Repetitive
26,000
5s Sine or 3s Rect. pulse
Surge Current (Per Leg) * See Fig. 7
1550
10ms Sine or 6ms Rect. pulse
E
AS
Non-Repetitive Avalanche Energy
135
mJ
T
J
= 25 C, I
AS
= 20 Amps, L = 0.67 mH
(Per Leg)
I
AR
Repetitive Avalanche Current
20
A
Current decaying linearly to zero in 1 sec
(Per Leg)
Frequency limited by T
J
max. V
A
= 1.5 x V
R
typical
(1) Pulse Width < 300s, Duty Cycle <2%
Thermal-Mechanical Specifications
Parameters
200CNQ Units
Conditions
T
J
= 25 C
T
J
= 125 C
V
R
= rated V
R
Parameters
200CNQ Units
Conditions
Kg-cm
(Ibf-in)
Electrical Specifications
35
40
45
Following any rated
load condition and with
rated V
RRM
applied
200CNQ... Series
3
Bulletin PD-2.257 rev. D 07/01
www.irf.com
Fig. 2 - Typical Values Of Reverse Current
Vs. Reverse Voltage (Per Leg)
Fig. 3 - Typical Junction Capacitance
Vs. Reverse Voltage (Per Leg)
Fig. 4 - Max. Thermal Impedance Z
thJC
Characteristics (Per Leg)
Fig. 1 - Max. Forward Voltage Drop Characteristics
(Per Leg)
1
10
1 00
10 0 0
0
0.2
0.4
0.6
0.8
1
In
s
t
a
n
t
a
n
e
o
u
s
F
o
r
w
a
r
d
C
u
r
r
e
n
t
-
I (
A
)
T = 150 C
T = 125 C
T = 25 C
J
J
J
F
FM
Forw a rd V olta g e D rop - V (V )
0 .01
0.1
1
1 0
10 0
1 0 00
10 0 00
0
5
1 0
1 5
2 0
2 5
30
3 5
40
4 5
R
R
125 C
100 C
75 C
50 C
25 C
R
e
v
e
r
s
e C
u
r
r
ent
-
I

(
m
A)
Re verse V olta g e - V (V )
T = 150 C
J
10 0 0
1 0 00 0
0
1 0
2 0
3 0
4 0
5 0
R
T
J
u
n
c
ti
o
n
C
a
p
a
c
i
ta
n
c
e
-
C

(
p
F
)
Re verse V olta g e - V (V )
T = 2 5 C
J
0.0 01
0 .01
0.1
1
0 .0 0 00 1
0 .0 0 01
0 .00 1
0.0 1
0 .1
1
10
th
J
C
t , R ec ta n g u la r P ulse D u ra tio n (Se c o n d s)
Sin g le Pu lse
(Therm a l R e sista n c e )
1
T
h
er
m
a
l
I
m
p
e
d
a
n
c
e Z
(
C
/
W
)
D = 0 .7 5
D = 0 .5 0
D = 0 .3 3
D = 0 .2 5
D = 0 .2 0
J
D M
thJ C
C
N o te s:
1. D uty fac tor D = t / t
2. Pe ak T = P x Z + T
2
t
1
t
P
D M
1
2
200CNQ... Series
4
Bulletin PD-2.257 rev. D 07/01
www.irf.com
Fig. 7 - Max. Non-Repetitive Surge Current (Per Leg)
Fig. 5 - Max. Allowable Case Temperature
Vs. Average Forward Current (Per Leg)
Fig. 8 - Unclamped Inductive Test Circuit
Fig. 6 - Forward Power Loss Characteristics
(Per Leg)
6 0
7 0
8 0
9 0
10 0
11 0
12 0
13 0
14 0
15 0
16 0
0
3 0
6 0
9 0
1 20
15 0
D C
Al
l
o
w
a
b
l
e
C
a
s
e
T
e
m
p
er
a
t
u
r
e -
(
C
)
F(A V )
Ave rag e Forw ard C urre n t - I (A )
see n ote (2)
Squa re w ave (D = 0.50)
80% Ra te d V a pp lie d
R
0
10
20
30
40
50
60
70
80
0
3 0
6 0
9 0
12 0
15 0
D C
A
v
er
a
g
e P
o
w
e
r
L
o
s
s
-
(
W
a
t
t
s
)
F(A V)
RM S Lim it
D = 0.20
D = 0.25
D = 0.33
D = 0.50
D = 0.75
A ve ra g e Forw ard C urren t - I (A)
1000
10000
100000
10
100
1000
10000
FS
M
N
o
n
-
R
e
p
e
t
i
t
i
v
e
S
u
r
g
e

C
u
r
r
e
n
t -
I


(
A
)
p
At An y Rated Load C ond ition
An d W ith Rate d V Ap plie d
Follow in g Surg e
RRM
Squa re W a ve Pulse D ura tion - t (m ic rose c )
FR EE-W HE EL
D IO D E
40H FL40S02
C UR RE N T
M O N ITO R
H IG H -SPE ED
SW ITC H
IRFP460
L
D UT
Rg = 25 ohm
V d = 25 V olt
+
(2) Formula used: T
C
= T
J
- (Pd + Pd
REV
) x R
thJC
;
Pd = Forward Power Loss = I
F(AV)
x V
FM
@ (I
F(AV)
/
D) (see Fig. 6);
Pd
REV
= Inverse Power Loss = V
R1
x I
R
(1 - D); I
R
@ V
R1
= 80% rated V
R
200CNQ... Series
5
Bulletin PD-2.257 rev. D 07/01
www.irf.com
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. 07/01
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.
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