LUGUANG FRF1006G

FRF1001G-FRF1007G
Isolated 10.0AMP.Glass Passivated Fast Recovery Rectifiers
ITO-220AB
Features
Glass passivated chip junction.
High efficiency, Low VF
High current capability
High reliability
High surge current capability
Low power loss
Mechanical Data
Cases: ITO-220AB molded plastic
Epoxy: UL 94V-0 rate flame retardant
Polarity: As marked
High temperature soldering guaranteed:
260 oC /10 seconds 0.25”,(6.35mm) from
case.
Mounting position: Any
Weight: 2.24 grams
Mounting torque: 5 in – 1bs. max.
Dimensions in inches and (millimeters)
Maximum Ratings and Electrical Characteristics
Rating at 25 oC ambient temperature unless otherwise specified.
Single phase, half wave, 60 Hz, resistive or inductive load.
For capacitive load, derate current by 20%
Symbol FRF
FRF
FRF
FRF
FRF
FRF
FRF
1001G 1002G 1003G 1004G 1005G 1006G 1007G
Type Number
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC Blocking Voltage
Maximum Average Forward Rectified Current
See Fig. 1
Peak Forward Surge Current, 8.3 ms Single
Half Sine-wave Superimposed on Rated Load
(JEDEC method )
Maximum Instantaneous Forward Voltage
@ 5.0A
V RRM
V RMS
V DC
50
35
50
100
70
100
200
140
200
400
280
400
600
420
600
800
560
800
1000
700
1000
Units
V
V
V
I(AV)
10
A
IFSM
125
A
VF
1.3
V
Maximum DC Reverse Current @ T C =25 C
o
at Rated DC Blocking Voltage @ T C =125 C
IR
5.0
100
Maximum Reverse Recovery Time ( Note 1)
Trr
Typical Junction Capacitance (Note 3)
Cj
uA
uA
nS
pF
o
C/W
o
C
o
Typical Thermal Resistance RθJC (Note 2)
R θJC
150
250
40
5.0
-65 to +150
500
Operating and Storage Temperature Range
T J ,T STG
1. Reverse Recovery Test Conditions: IF =0.5A, IR =1.0A, IRR =0.25A
Notes:
2. Thermal Resistance from Junction to Case Per Leg Mounted on Heatsink.
3. Measured at 1MHz and Applied Reverse Voltage of 4.0 Volts D.C.
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FRF1001G-FRF1007G
Isolated 10.0AMP.Glass Passivated Fast Recovery Rectifiers
RATINGS AND CHARACTERISTIC CURVES (FRF1001G THRU FRF1007G)
1000
10
INSTANTANEOUS REVERSE CURRENT. ( A)
AVERAGE FORWARD CURRENT. (A)
FIG.2- TYPICAL REVERSE CHARACTERISTICS
PER LEG
FIG.1- MAXIMUM FORWARD CURRENT DERATING
CURVE
12
8
6
4
2
0
50
100
150
o
CASE TEMPERATURE. ( C)
FIG.3- MAXIMUM NON-REPETITIVE FORWARD
SURGE CURRENT
100
Tj=125 0C
10
1
Tj=25 0C
PEAK FORWARD SURGE CURRENT. (A)
150
TJ=125 0C
125
0.1
8.3ms Single Half Sine Wave
JEDEC Method
100
0
20
40
60
80
100
120
140
PERCENT OF RATED PEAK REVERSE VOLTAGE. (%)
75
FIG.5- TYPICAL INSTANTANEOUS FORWARD
CHARACTERISTICS PER LEG
50
80
25
40
0
2
5
10
20
50
100
NUMBER OF CYCLES AT 60Hz
FIG.4- TYPICAL JUNCTION CAPACITANCE
150
125
CAPACITANCE.(pF)
20
INSTANTANEOUS FORWARD CURRENT. (A)
1
100
75
50
10
4
2
1
0.4
Tj=25oC
Pulse Width=300 s
1% Duty Cycle
0
25
0
0.1
Tj=25 C
f=1.0MHz
Vsig=50mVp-p
0.5
1
0.2
5
10
50
100
0.1
0.8
500 1000
REVERSE VOLTAGE. (V)
0.9
1.0
1.1
1.2
1.3
FIG.6- REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM
50W
NONINDUCTIVE
10W
NONINDUCTIVE
trr
+0.5A
(-)
DUT
(+)
50Vdc
(approx)
(-)
PULSE
GENERATOR
(NOTE 2)
1W
NON
INDUCTIVE
1.4
INSTANTANEOUS FORWARD VOLTAGE. (V)
OSCILLOSCOPE
(NOTE 1)
NOTES: 1. Rise Time=7ns max. Input Impedance=
1 megohm 22pf
2. Rise Time=10ns max. Sourse Impedance=
50 ohms
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0
-0.25A
(+)
-1.0A
1cm
SET TIME BASE FOR
5/ 10ns/ cm
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1.5