Allicdata Part #: | T86D157M6R3EBSL-ND |
Manufacturer Part#: |
T86D157M6R3EBSL |
Price: | $ 0.00 |
Product Category: | Capacitors |
Manufacturer: | Vishay Sprague |
Short Description: | CAP TANT 150UF 6.3V 20% 2917 |
More Detail: | 150µF Molded Tantalum Capacitors 6.3V 2917 (7343 M... |
DataSheet: | T86D157M6R3EBSL Datasheet/PDF |
Quantity: | 1000 |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
Lead Free Status / RoHS Status: | Lead free / RoHS non-compliant |
1 +: | 0.00000 |
Operating Temperature: | -55°C ~ 125°C |
Failure Rate: | -- |
Features: | Fail Safe with Built-in Fuse |
Ratings: | COTS |
Manufacturer Size Code: | D |
Lead Spacing: | -- |
Height - Seated (Max): | 0.122" (3.10mm) |
Size / Dimension: | 0.287" L x 0.169" W (7.30mm x 4.30mm) |
Package / Case: | 2917 (7343 Metric) |
Mounting Type: | Surface Mount |
Lifetime @ Temp.: | -- |
Series: | TANTAMOUNT®, T86 |
ESR (Equivalent Series Resistance): | 300 mOhm |
Type: | Molded |
Voltage - Rated: | 6.3V |
Tolerance: | ±20% |
Capacitance: | 150µF |
Moisture Sensitivity Level (MSL): | -- |
Part Status: | Obsolete |
Lead Free Status / RoHS Status: | -- |
Packaging: | Tape & Reel (TR) |
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Tantalum capacitors are an essential component in the world of electronics. Commonly seen in the form of cylindrical cans or surface mount chips, tantalum capacitors offer advantages of low ESR, high capacitance density, and long life. The T86D157M6R3EBSL is a type of surface mount tantalum capacitor that can be used for a variety of applications. In this article, we will discuss the application field and working principle of T86D157M6R3EBSL capacitors.
As a type of electrolytic capacitor, the T86D157M6R3EBSL consists of a tantalum pellet as its anode, a metal oxide film as its cathode, and an electrolyte solution as its dielectric material. The tantalum pellet has a high surface area-to-volume ratio, which allows it to store a larger amount of charge compared to other types of electrolytic capacitors. The metal oxide film serves as the cathode and is able to conduct electrons to the anode.
Tantalum capacitors are widely used in applications such as computing, telecom, and consumer electronics. One of the most common applications of T86D157M6R3EBSL is in the power supply filter circuit due to its strong ripple start capability and high capacitance density. It is also used in pulse bypass filters, noise suppression circuits, and as a bypass capacitor in RF applications. The T86D157M6R3EBSL is also well-suited for decoupling applications, where it is used to suppress power supply noise.
The working principle of a T86D157M6R3EBSL capacitor is based on the principles of electrostatics. When a voltage is applied across the leads of the capacitor, the positive electrode or anode attracts electrons that are released from the negative electrode or cathode. These electrons accumulate at the anode, while the cathode suffers from a lack of electrons, causing a potential difference between the two electrodes. This difference in potential is known as the electric field, and it creates an electric field around the capacitor.
The electric field established between the anode and the cathode is responsible for storing the energy and for the capacitor’s ability to conduct current. As current flows through the capacitor, the voltage across the leads changes, causing a shift in the electric field between the anode and the cathode. This shift allows for charge to flow through the capacitor. Thus, the T86D157M6R3EBSL capacitor’s ability to conduct current is a result of the electric field established between the two electrodes.
In summary, the T86D157M6R3EBSL is a type of tantalum capacitor that is used for a variety of applications. Its advantages include low ESR, high capacitance density, and long life. The T86D157M6R3EBSL is often used in power supply filter circuits, pulse bypass filters, noise suppression circuits, and in decoupling applications. Its working principle is based on the principles of electrostatics, whereby an electric field is established between the anode and the cathode, enabling current to flow through the capacitor.
The specific data is subject to PDF, and the above content is for reference
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