MUR180ERLG ON Semiconductor, MUR180ERLG Datasheet - Page 4
MUR180ERLG
Manufacturer Part Number
MUR180ERLG
Description
DIODE ULTRA FAST 1A 800V DO-41
Manufacturer
ON Semiconductor
Series
SWITCHMODE™r
Datasheet
1.MUR180EG.pdf
(6 pages)
Specifications of MUR180ERLG
Voltage - Forward (vf) (max) @ If
1.75V @ 1A
Voltage - Dc Reverse (vr) (max)
800V
Current - Average Rectified (io)
1A
Current - Reverse Leakage @ Vr
10µA @ 800V
Diode Type
Standard
Speed
Fast Recovery =< 500ns, > 200mA (Io)
Reverse Recovery Time (trr)
100ns
Mounting Type
Through Hole
Package / Case
DO-204AL, DO-41, Axial
Product
Ultra Fast Recovery Rectifier
Configuration
Single
Reverse Voltage
800 V
Forward Voltage Drop
1.75 V
Recovery Time
100 ns
Forward Continuous Current
1 A
Max Surge Current
35 A
Reverse Current Ir
10 uA
Mounting Style
Through Hole
Maximum Operating Temperature
+ 175 C
Minimum Operating Temperature
- 65 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Capacitance @ Vr, F
-
Lead Free Status / Rohs Status
Details
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
MUR180ERLG
Manufacturer:
ON/安森美
Quantity:
20 000
Figure 6 was used to demonstrate the controlled avalanche
capability of the new “E’’ series Ultrafast rectifiers. A
mercury switch was used instead of an electronic switch to
simulate a noisy environment when the switch was being
opened.
up linearly; and energy is stored in the coil. At t
is opened and the voltage across the diode under test begins
to rise rapidly, due to di/dt effects, when this induced voltage
reaches the breakdown voltage of the diode, it is clamped at
BV
which now starts to decay linearly through the diode, and
goes to zero at t
is opened; and calculating the energy that is transferred to
the diode it can be shown that the total energy transferred is
equal to the energy stored in the inductor plus a finite amount
of energy from the V
breakdown (from t
The unclamped inductive switching circuit shown in
When S
By solving the loop equation at the point in time when S
DUT
W
W
EQUATION (1):
EQUATION (2):
and the diode begins to conduct the full load current
AVAL
AVAL
1
MERCURY
SWITCH
is closed at t
[ 1
[ 1
S
2
.
1
2
2
Figure 6. Test Circuit
1
LI
LI
DD
to t
2
LPK
2
LPK
0
power supply while the diode is in
the current in the inductor I
2
I
) minus any losses due to finite
L
BV
DUT
BV
+V
40 mH COIL
DUT
DD
I
DUT
D
–V
DD
1
MUR180E, MUR1100E
V
the switch
D
CH1
CH2
L
http://onsemi.com
CH1
ramps
Figure 8. Current−Voltage Waveforms
500V
1
50mV
1
4
SAVEREF SOURCE
CH2
ACQUISITIONS
component resistances. Assuming the component resistive
elements are small Equation (1) approximates the total
energy transferred to the diode. It can be seen from this
equation that if the V
breakdown voltage of the device, the amount of energy
contributed by the supply during breakdown is small and the
total energy can be assumed to be nearly equal to the energy
stored in the coil during the time when S
Equation (2).
information obtained for the MUR8100E (similar die
construction as the MUR1100E Series) in this test circuit
conducting a peak current of one ampere at a breakdown
voltage of 1300 V, and using Equation (2) the energy
absorbed by the MUR8100E is approximately 20 mjoules.
condition, the new “E’’ series provides added protection
against those unforeseen transient viruses that can produce
unexplained random failures in unfriendly environments.
The oscilloscope picture in Figure 8, shows the
Although it is not recommended to design for this
t
0
A
Figure 7. Current−Voltage Waveforms
20ms
REF
I
L
953 V
217:33 HRS
DD
voltage is low compared to the
STACK
VERT
REF
t
1
BV
DUT
I
D
CHANNEL 2:
I
0.5 AMPS/DIV.
CHANNEL 1:
V
500 VOLTS/DIV.
TIME BASE:
20 ms/DIV.
L
DUT
1
was closed,
t
2
V
DD
t
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