MSD130-12 datasheet pdf and Diodes - Bridge Rectifiers product details from Microsemi Corporation stock available on our website
SOT-23
MSD130-12 Datasheet
non-compliant
In-Stock: 0 items
Specifications
Name
Value
Type
Parameter
Factory Lead Time
22 Weeks
Mount
Chassis Mount, Screw
Mounting Type
Chassis Mount
Package / Case
M3
Number of Pins
5
Diode Element Material
SILICON
Operating Temperature
-40°C~150°C TJ
Packaging
Bulk
Published
2009
Part Status
Obsolete
Moisture Sensitivity Level (MSL)
1 (Unlimited)
Number of Terminations
5
ECCN Code
EAR99
Subcategory
Bridge Rectifier Diodes
Technology
Standard
Terminal Position
UPPER
Terminal Form
UNSPECIFIED
Pin Count
5
Number of Elements
1
Element Configuration
Single
Diode Type
Three Phase
Current - Reverse Leakage @ Vr
300μA @ 1200V
Voltage - Forward (Vf) (Max) @ If
1.8V @ 300A
Forward Current
130A
Max Surge Current
1.2kA
Forward Voltage
1.8V
Average Rectified Current
130A
Number of Phases
3
Peak Reverse Current
300μA
Max Repetitive Reverse Voltage (Vrrm)
1.2kV
Peak Non-Repetitive Surge Current
1.2kA
Reverse Voltage (DC)
1.2kV
Height
30mm
Length
94mm
Width
54mm
Radiation Hardening
No
RoHS Status
RoHS Compliant
Lead Free
Lead Free
MSD130-12 Product Details
MSD130-12 Overview
The device has 5 pins.In this device, the forward voltage is 130A.A M3 package electronic component is basically a type of electronic component.There is no mounting method for the device.Keeping it at -40°C~150°C TJ ensures its normal operation.The surge current should be monitored and should not exceed zero.For powering this device, there is a peak reverse voltage of 300μA.
MSD130-12 Features
5 pin count 130A forward voltage forward voltage of 130A M3 package operating at a temperature of -40°C~150°C TJ peak reverse voltage of 300μA a reverse voltage peak of 300μA
MSD130-12 Applications
There are a lot of Microsemi Corporation MSD130-12 applications of bridge rectifiers.
High temperature and rectifiers
Inductive heating – Input rectifiers
Motor controls – Low Voltage and Medium Voltage converters
Solid state SCR based switches
High forward surge current capability
Welding equipment
Fuse-in-glass diodes design
Controlled avalanche characteristics
Aviation – Standby power distribution, resistive heating
Electroplating systems – Input SCRs and output rectifiers