Allicdata Part #: | V3F6HM3/I-ND |
Manufacturer Part#: |
V3F6HM3/I |
Price: | $ 0.07 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | Vishay Semiconductor Diodes Division |
Short Description: | 3A,60V,SMF,TRENCH SKY RECT. |
More Detail: | Diode Schottky 60V 3A Surface Mount DO-219AB (SMF) |
DataSheet: | V3F6HM3/I Datasheet/PDF |
Quantity: | 1000 |
10000 +: | $ 0.06522 |
Specifications
Series: | Automotive, AEC-Q101, eSMP®, TMBS® |
Part Status: | Active |
Diode Type: | Schottky |
Voltage - DC Reverse (Vr) (Max): | 60V |
Current - Average Rectified (Io): | 3A |
Voltage - Forward (Vf) (Max) @ If: | 620mV @ 3A |
Speed: | Fast Recovery = 200mA (Io) |
Current - Reverse Leakage @ Vr: | 600µA @ 60V |
Capacitance @ Vr, F: | 310pF @ 4V, 1MHz |
Mounting Type: | Surface Mount |
Package / Case: | DO-219AB |
Supplier Device Package: | DO-219AB (SMF) |
Operating Temperature - Junction: | -40°C ~ 150°C |
Description
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Diodes - Rectifiers - Single
The V3F6HM3/I is one of the most commonly used diodes for rectification in various applications within the electronics industry. A rectifier is an electrical device used for converting alternating current (AC) to direct current (DC). A single diode is a device comprised of two terminals (an anode and a cathode), with only one open electric circuit connection at any given time. The V3F6HM3/I is an ideal component for rectification because it is efficient, compact, and cost-effective, and can be used for a variety of applications, such as DC-DC converters, power supplies, microwave ovens, and electronic instrumentation.
The V3F6HM3/I is a single-phase, low-voltage, thermally-stabilized, and low-cost diode. It is also capable of blocking power and reverse current in both directions. The diode has a rated forward current of 3A and a reverse voltage of 6V. Additionally, the V3F6HM3/I is suitable for use in high-temperature environments up to +150°C and is often used in the aerospace and automotive industries for applications such as high-voltage motors and DC-DC converters. In comparison to other diodes of its kind, the V3F6HM3/I is usable in powerful applications due to its high reverse voltage and high current capability.
The working principle of the V3F6HM3/I revolves around its simple one-way electrical connection. Due to its construction, the diode allows current to flow in one direction (forward bias) and restricts current to flow in the opposite direction of the bias (reverse bias). This rectification and blocking action are possible due to the physical and internal construction of the V3F6HM3/I.
Internally, the V3F6HM3/I consists of an array of P-type and N-type semiconductor materials such as copper, nickel, and silicon, which allow for the current flow to be negatively charged and positively charged, respectively. The P-type material is the anode, which connects the positive end of the source voltage, and the N-type material is the cathode, which connects the negative end of the source voltage.
When a voltage is applied to the diode, the P-type material acts as a gate, letting the electrons move freely through the structure, while the N-type material restricts the flow. When the positive end of the source voltage is connected to the anode of the diode, the diode’s semiconductor materials act as a resistor (resistance is measure in ohms), allowing the electrons to pass through with no interruption — this is called forward biasing mode.
On the other hand, when a voltage is applied in the reverse direction of the diode, the semiconductor materials act as a barrier, preventing the current from flowing through the diode. This is called reverse biasing mode. In this mode, the only current that can flow through the V3F6HM3/I is called its “leakage current”, which is usually very low.
Applications for the V3F6HM3/I are vast and include DC-DC converters, power supplies, microwave ovens, and instrumentation. It is also used in automotive braking systems and high-voltage DC motors. The diode has a wide range of uses due to its efficiency, cost-effectiveness, reliability, and high current capability.
The V3F6HM3/I is one of the most commonly used diodes for rectification in various applications within the electronics industry. A rectifier is an electrical device used for converting alternating current (AC) to direct current (DC). A single diode is a device comprised of two terminals (an anode and a cathode), with only one open electric circuit connection at any given time. The V3F6HM3/I is an ideal component for rectification because it is efficient, compact, and cost-effective, and can be used for a variety of applications, such as DC-DC converters, power supplies, microwave ovens, and electronic instrumentation.
The V3F6HM3/I is a single-phase, low-voltage, thermally-stabilized, and low-cost diode. It is also capable of blocking power and reverse current in both directions. The diode has a rated forward current of 3A and a reverse voltage of 6V. Additionally, the V3F6HM3/I is suitable for use in high-temperature environments up to +150°C and is often used in the aerospace and automotive industries for applications such as high-voltage motors and DC-DC converters. In comparison to other diodes of its kind, the V3F6HM3/I is usable in powerful applications due to its high reverse voltage and high current capability.
The working principle of the V3F6HM3/I revolves around its simple one-way electrical connection. Due to its construction, the diode allows current to flow in one direction (forward bias) and restricts current to flow in the opposite direction of the bias (reverse bias). This rectification and blocking action are possible due to the physical and internal construction of the V3F6HM3/I.
Internally, the V3F6HM3/I consists of an array of P-type and N-type semiconductor materials such as copper, nickel, and silicon, which allow for the current flow to be negatively charged and positively charged, respectively. The P-type material is the anode, which connects the positive end of the source voltage, and the N-type material is the cathode, which connects the negative end of the source voltage.
When a voltage is applied to the diode, the P-type material acts as a gate, letting the electrons move freely through the structure, while the N-type material restricts the flow. When the positive end of the source voltage is connected to the anode of the diode, the diode’s semiconductor materials act as a resistor (resistance is measure in ohms), allowing the electrons to pass through with no interruption — this is called forward biasing mode.
On the other hand, when a voltage is applied in the reverse direction of the diode, the semiconductor materials act as a barrier, preventing the current from flowing through the diode. This is called reverse biasing mode. In this mode, the only current that can flow through the V3F6HM3/I is called its “leakage current”, which is usually very low.
Applications for the V3F6HM3/I are vast and include DC-DC converters, power supplies, microwave ovens, and instrumentation. It is also used in automotive braking systems and high-voltage DC motors. The diode has a wide range of uses due to its efficiency, cost-effectiveness, reliability, and high current capability.
The specific data is subject to PDF, and the above content is for reference
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