BU1210-M3/51 datasheet pdf and Diodes - Bridge Rectifiers product details from Vishay Semiconductor Diodes Division stock available on our website
SOT-23
BU1210-M3/51 Datasheet
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In-Stock: 0 items
Specifications
Name
Value
Type
Parameter
Factory Lead Time
10 Weeks
Mount
Through Hole
Mounting Type
Through Hole
Package / Case
4-SIP, BU
Number of Pins
4
Diode Element Material
SILICON
Operating Temperature
-55°C~150°C TJ
Packaging
Tray
Published
2012
JESD-609 Code
e3
Part Status
Active
Moisture Sensitivity Level (MSL)
1 (Unlimited)
Number of Terminations
4
Terminal Finish
Matte Tin (Sn)
Additional Feature
UL RECOGNIZED
Technology
Standard
Peak Reflow Temperature (Cel)
NOT SPECIFIED
Reach Compliance Code
unknown
[email protected] Reflow Temperature-Max (s)
NOT SPECIFIED
Pin Count
4
Number of Elements
4
Diode Type
Single Phase
Current - Reverse Leakage @ Vr
5μA @ 1000V
Voltage - Forward (Vf) (Max) @ If
1.05V @ 6A
Case Connection
ISOLATED
Forward Current
3.4A
Current - Average Rectified (Io)
12A
Number of Phases
1
Peak Reverse Current
5μA
Max Repetitive Reverse Voltage (Vrrm)
1kV
Rep Pk Reverse Voltage-Max
1000V
Max Forward Surge Current (Ifsm)
150A
RoHS Status
ROHS3 Compliant
Pricing & Ordering
Quantity
Unit Price
Ext. Price
1,000
$1.18810
$1.1881
BU1210-M3/51 Product Details
BU1210-M3/51 Overview
The device has 4 pins.In this device, the forward voltage is 3.4A.Electronic components in the 4-SIP, BU package are basically the same.The mounting method of the device is Through Hole.Its normal operation is ensured by operating at a temperature of -55°C~150°C TJ.For powering this device, there is a peak reverse voltage of 5μA.
BU1210-M3/51 Features
4 pin count 3.4A forward voltage forward voltage of 3.4A 4-SIP, BU package operating at a temperature of -55°C~150°C TJ peak reverse voltage of 5μA a reverse voltage peak of 5μA
BU1210-M3/51 Applications
There are a lot of Vishay Semiconductor Diodes Division BU1210-M3/51 applications of bridge rectifiers.
Supplies for DC power equipment
SCR power bridges for solid state starters
Military and other high-reliability applications
Inductive heating – Input rectifiers
Aviation – Standby power distribution, resistive heating
Fuse-in-glass diodes design
High forward surge current capability
Low thermal resistance
Electroplating systems – Input SCRs and output rectifiers