1N5820RLG ON Semiconductor, 1N5820RLG Datasheet - Page 4
1N5820RLG
Manufacturer Part Number
1N5820RLG
Description
DIODE SCHOTTKY 20V 3A DO201AD
Manufacturer
ON Semiconductor
Datasheet
1.1N5822RLG.pdf
(8 pages)
Specifications of 1N5820RLG
Voltage - Forward (vf) (max) @ If
475mV @ 3A
Voltage - Dc Reverse (vr) (max)
20V
Current - Average Rectified (io)
3A
Current - Reverse Leakage @ Vr
2mA @ 20V
Diode Type
Schottky
Speed
Fast Recovery =< 500ns, > 200mA (Io)
Mounting Type
Through Hole
Package / Case
DO-201AD, Axial
Rectifier Type
Schottky Diode
Configuration
Single
Peak Rep Rev Volt
20V
Avg. Forward Curr (max)
3
Rev Curr
2000uA
Peak Non-repetitive Surge Current (max)
80A
Forward Voltage
0.85@9.4AV
Operating Temp Range
-65C to 125C
Package Type
DO-201AD
Operating Temperature Classification
Military
Mounting
Through Hole
Pin Count
2
Product
Schottky Diodes
Peak Reverse Voltage
20 V
Forward Continuous Current
3 A
Max Surge Current
80 A
Forward Voltage Drop
0.85 V @ 9.4 A
Maximum Reverse Leakage Current
2000 uA
Operating Temperature Range
- 65 C to + 125 C
Mounting Style
Through Hole
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Reverse Recovery Time (trr)
-
Capacitance @ Vr, F
-
Lead Free Status / Rohs Status
Compliant
Other names
1N5820RLGOSTR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
1N5820RLG
Manufacturer:
ON
Quantity:
3 000
Part Number:
1N5820RLG
Manufacturer:
VISHAY/威世
Quantity:
20 000
runaway must be considered when operating this rectifier at
reverse voltages above 0.1 V
accomplished by use of equation (1).
where T
taking reverse power dissipation and thermal runaway into
consideration. The figures solve for a reference temperature
as determined by equation (2).
Substituting equation (2) into equation (1) yields:
ambient temperature at which thermal runaway occurs or
where T
transition from one boundary condition to the other is
evident on the curves of Figures 1, 2, and 3 as a difference
in the rate of change of the slope in the vicinity of 115°C. The
data of Figures 1, 2, and 3 is based upon dc conditions. For
Reverse power dissipation and the possibility of thermal
Figures 1, 2, and 3 permit easier use of equation (1) by
Inspection of equations (2) and (3) reveals that T
T
T
P
P
R
T
T
A(max)
A(max)
F(AV)
R(AV)
A(max)
J(max)
R
qJA
J
= T
= 125°C, when forward power is zero. The
= Junction-to-ambient thermal resistance
J(max)
= Average forward power dissipation
= Average reverse power dissipation
= Maximum allowable junction temperature
= T
= Maximum allowable ambient temperature
(125°C or the temperature at which thermal
runaway occurs, whichever is lowest)
= T
Table 1. Values for Factor F
*Note that V
†Use line to center tap voltage for V
Square Wave
Sine Wave
J(max)
R
Circuit
* R
Load
* R
* R
qJA
qJA
R(PK)
P
P
RWM
qJA
R(AV)
F(AV)
[ 2.0 V
Resistive
P
F(AV)
. Proper derating may be
NOTE 3 — DETERMINING MAXIMUM RATINGS
0.75
0.5
in(PK)
Half Wave
* R
.
Capacitive*
1N5820, 1N5821, 1N5822
qJA
in.
1.3
1.5
P
R(AV)
R
http://onsemi.com
is the
(2)
(3)
(1)
Resistive
4
0.75
Full Wave, Bridge
0.5
use in common rectifier circuits, Table 1 indicates suggested
factors for an equivalent dc voltage to use for conservative
design, that is:
The factor F is derived by considering the properties of the
various rectifier circuits and the reverse characteristics of
Schottky diodes.
12-volt dc supply using a bridge circuit with capacitive filter
such that I
Voltage = 10 V
**Values given are for the 1N5821. Power is slightly lower
for the 1N5820 because of its lower forward voltage, and
higher for the 1N5822. Variations will be similar for the
MBR-prefix devices, using P
EXAMPLE: Find T
Step 1. Find V
Step 2. Find T
Step 3. Find P
Step 4. Find T
V
Capacitive
R(equiv)
DC
0.65
0.75
= 2.0 A (I
(rms)
@
F(AV)
= V
NV
R
@ V
T
R(equiv).
I (FM)
I (AV)
A(max)
A(max)
from Figure 2. Read T
, R
(FM)
R(equiv)
from Figure 6. **Read P
R
Resistive
qJA
F(AV)
+ 10 and I F(AV) + 1.0 A.
= 9.2 V and R
A(max)
1.0
1.5
Center Tapped*†
from equation (3).
= 108 * (0.85) (40) = 74°C.
Read F = 0.65 from Table 1,
= 40°C/W.
Full Wave,
F
= 1.0 A), I
= (1.41) (10) (0.65) = 9.2 V.
F(AV)
for 1N5821 operated in a
Capacitive
from Figure 6.
qJA
1.3
1.5
(FM)
R
= 40°C/W.
/I
= 108°C
(AV)
F(AV)
= 10, Input
= 0.85 W
(4)
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