DtSheet

SEMTECH_ELEC MUR1620CT

MUR1620CT
GLASS PASSIVATED HIGH EFFICENCY RECTIFIER
Reverse Voltage – 50 to 1000 Volts
Forward Current – 16.0 Amperes
Features
• Low forward voltage, High current capability
• Plastic package has Underwriters Laboratory Flammability
Classification 94V-O utilizing Flame Retardant Epoxy
Molding Compound.
• High surge capacity
• Low power loss, high efficiency
• Ultra fast recovery times, high voltage
Mechanical Data
• Case: Molded plastic, TO-220
• Terminals: leads solderable per
• MIL-STD-202, method 208 guaranteed
• Polarity: As marked
• Mounting Position: Any
PIN 1
PIN 2
CASE
PIN2
Positlve CT
Absolute Maximum Ratings and Characteristics
Dimensions in mm
Ratings at 25℃ ambient temperature unless otherwise specified. Single phase, half wave,60Hz, resistive or
inductive load. For capacitive load, derate current by 20%.
Symbols
Value
Units
Maximum recurrent peak reverse voltage
VRRM
200
Volts
Maximum RMS voltage
VRMS
140
Volts
Maximum DC blocking voltage
VDC
200
Volts
at TC = 100 ℃
IF(AV)
16.0
Amps
Peak forward surge current
8.3ms single half-sine-wave superimposed
on rated load (JEDEC method)
IFSM
125
Amps
Maximum forward voltage at 8.0A and TA = 25℃
VF
1.0
Volts
Typical junction Capacitance (Note1)
CJ
80
pF
Maximum reverse recovery time (Note 2)
TRR
50
nS
Typical thermal resistance (Note3)
R0JC
3.0
℃/W
10
µAmps
500
µAmps
-55 to +150
℃
Maximum average forward Rectified current
Maximum reverse current at
rated DC blocking voltage
@TA = 25℃
@TC =125℃
Operating and storage temperature range
IR
TJ ,Ts
Notes :1. Measured at 1 MHz and applied reverse voltage of 4.0 VDC.
2. Reverse recovery test conditions: IF = 0.5A, IR = 1A, IRR = 0.25A
3. Thermal resistance from junction to case per leg mounted on heatsink.
SEMTECH ELECTRONICS LTD.
®
(Subsidiary of Semtech International Holdings Limited, acompany
listed on the Hong Kong Stock Exchange, Stock Code: 724)
Dated : 23/06/2003
MUR1620CT
FIG.1 Reverse Recovery Time Characteristic and Test Circuit Diagram
10
NONINDUCTIVE
50
NONINDUCTIVE
trr
+0.5A
DUT
(-)
(+)
50Vdc
(appox)
(-)
0
PULSE
GENERATOR
(NOTE 2)
1
NON
INDUCTIVE
OSCILLOSCOPE
(NOTE 1)
-0.25A
(+)
-1.0A
1cm
SET TIME BASE FOR
5/10ns/cm
20
16
12
8
4
0
0
100
50
150
Case Temperature. (°C)
FIG.4 Maximum Non-repetitive Forward
Surge Current Per Leg
120
Tj =25°C
8.3ms Single Half Sine Wave
JEDEC Method
90
1000
100
FIG.3 Typical Reverse
Characteristics Per Leg
Tj =125°C
10
Tj =25°C
1
0.1
20 40 60
80 100 120
Percent of Rated Peak Reverse
Voltage. (%)
60
1
2
5
10
20
50
100
FIG.5 Typical Junction Capacitance
Per Leg
240
200
Tj =25°C
160
120
80
40
0
1
2
5
10 20
50 100 200 500 1000
Instantaneous Forward Current. (A)
30
Number of Cycles at 60Hz
Capacitance. (pF)
Instantaneous Reverse Current. ( A)
FIG.2 Muximum Forward Current
Derating Curve
0
4
1
Peak Forward Surge
Current. (A)
Average Forward Current. (A)
NOTES:1. Rise Time=7ns max. Input Impedance=
1 megohm 22 pf
2. Rise Time=10ns max. Sourse Impedance=
50 ohms
Reverse Voltage. (V)
100
FIG.6 Typical Forward
Characteristics Per Leg
30
10
3.0
1.0
0.3
0.1
0.03
Tj =25°C
PULSE WIDTH-300 s
1% DUTY CYCLE
0.01
0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8
Forward Voltage. (V)
SEMTECH ELECTRONICS LTD.
®
(Subsidiary of Semtech International Holdings Limited, acompany
listed on the Hong Kong Stock Exchange, Stock Code: 724)
Dated : 23/06/2003
Open as PDF
Similar pages
SEMTECH_ELEC HER301
SEMTECH_ELEC SF14
SEMTECH_ELEC FR601
SEMTECH SR2020CT
SEMTECH_ELEC HER101
SEMTECH_ELEC RS2K
SEMTECH_ELEC S05A40
SEMTECH_ELEC SR1020CT
DAESAN SFP81
DAESAN SFP162
DAESAN HEP1605
SEMTECH_ELEC UG2B
SEMTECH_ELEC 2W005G
DAESAN UFR1630
DAESAN HER1601
DAESAN HEP805
DAESAN SF82
DAESAN FP1603
SEMTECH_ELEC UF5403
SEMTECH_ELEC R30J
TSC FRA806G
SEMTECH_ELEC SB530
dtsheet © 2024
About us DMCA / GDPR Abuse here