1N4001 THRU 1N4007,BY133

SF51G THRU SF58G
5.0AMP .Glass Passivated Super Fast Recitifiers
DO-27/DO-201AD
FEATURE
.High current capability,
.Low forward voltage drop
.Low power loss, high efficiency
.High surge capability
.High temperature soldering guaranteed
260°C /1 0sec/0.375" lead length at 5 lbs tension
Superfast recovery time for high efficiency.
0.96(24.4)
MIN.
.220(5.6)
.187(5.0)
+
.375(9.5)
.335(8.5)
MECHANICAL DATA
.Case: Molded plastic
.Epoxy: UL94V-0 rate flame retardant
.Lead: MIL-STD- 202E, Method 208 guaranteed
.Polarity:Color band denotes cathode end
.Packaging:12mm tape per EIA STD RS-481
.Mounting position: Any
DIA.
-
0.96(24.4)
MIN.
.051(1.3)
.043(1.1)
DIA.
Dimensions in inches and (millimeters)
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
(single-phase, half-wave, 60HZ, resistive or inductive load rating at 25°C, unless otherwise stated)
SYM
BOL
Type Number
Maximum Recurrent Peak Reverse Voltage
Maximum RMS Voltage
Maximum DC blocking Voltage
Maximum Average Forward Rectified
Current .375"(9.5mm)lead length at TL =55°C
VRRM
VRMS
VDC
SF
51G
50
SF
52G
100
SF
53G
150
SF
54G
200
SF
55G
300
SF
56G
400
SF
57G
500
SF
58G
units
600
V
35
70
105
140
210
280
350
420
V
50
100
150
200
300
400
500
600
V
IF(AV)
3.0
A
IFSM
150.0
A
Peak Forward Surge Current 8.3ms single
half sine-wave superimposed on rated load
(JEDEC method)
Maximum Forward Voltage at 5.0A DC
Maximum DC Reverse Current
Ta =25°C
at rated DC blocking voltage
Ta =125°C
VF
Typical Thermal Resistance (Note 3)
Storage Temperature
Typical Junction Capacitance (Note 2)
Operation Junction Temperature
1.3
1.7
5.0
IR
trr
CJ
R(JA)
Maximum Reverse Recovery Time (Note 1)
0.95
µA
500.0
35
120
V
ns
90
pF
75
°C/W
TSTG
-55 to +150
°C
TJ
-55 to +150
°C
Note:
1. Reverse Recovery test Condition: If=0.5A,IR=1.0A,IRR=0.25A;
2. Measured at 1.0 MHz and applied reverse voltage of 4.0Vdc
3. P.C.B.Mounted on0.2×0.2”(5.0×5.0mm)[0.013mm thick]Copper Pad Area.
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RATING AND CHARACTERISTIC CURVES (SF51G THRU SF58G)
FIG .1-TY PIC A L FO R W A R D C U R R EN T
D ER A TIN G C U R V E
FIG .2-TY PIC A L IN STA N TA N EO U S FO R W A R D
C H A R A CT ER ISTIC S
2.5
Single Phase H alf
W ave 60H z
R esistive or
inductive Load
0
0
50
150
100
0V
20
V-
V
00
-4
00
50
1.0
V
0V
60
0V
TJ=25 ℃
Pulse W idth=300 μ s
1% D uty C ycle
.1
.01
200
3
50
INSTANEOUS FORWARD
CURRENT,(A)
AVERGE FORWARD
RECTIFIED CURRENT,(A)
10
5.0
.6
1. 4
1.0
1. 8
2.2
A M B IE N T TEM PER T U R E,( ℃ )
IN STA N EO U S FO R W A R D V O LTA G E,(V )
FIG .3-M A X IM U N N O N -R EPETIT IV E
FO R W A R D SU RG E C U R R EN T
FIG .4-TY PIC A L R EV ER SE
C H A R A C TER ISTIC S
200
INSTANEOUS REVERSE
CURRENT,(μA)
PEAK FORWARD SURGE
CURRENT,(A)
10
8.3m s Single H alf
Sine-W ave (JED EC
M ethod)
150
100
50
0
0
TJ=25 ℃
.1
.01
100
10
1.0
0
20
40
60
FIG .5-TEST C IR C U IT D IA G R A M A N D R EV ER SE
R EC O V ER Y TIM E C H A R A C TER SITIC
(+)
25V dc
(approx)
(-)
100
120
PER C EN T O F R A TED PEA K REV ER SE
V O LTA G E,(% )
N U M B ER O F C Y C LES A T 60H z
50 Ω
N O N IN D U C TIV E
80
10 Ω
N O N IN D U C TIV E
+0.5A
(+)
0
PU L SE
G EN ER A TO R -0.25A
(N O T E 2)
1Ω
(N O T E 1)
N O N - O SC IL O SCO PE
IN D U C TIV E
(-)
-1.0A
N O TES:1. Rise Tim e=7ns m ax, Input
Im pedance= 1 m egohm .22pF.
2. Rise Tim e=10ns m ax,
Souce Im pedance= 50 ohm s.
- 398 -
trr
140