CPFC6D36NP-100M06 Filters |
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Allicdata Part #: | 308-1557-2-ND |
Manufacturer Part#: |
CPFC6D36NP-100M06 |
Price: | $ 1.41 |
Product Category: | Filters |
Manufacturer: | Sumida America Components Inc. |
Short Description: | CMC 2.5A 2LN 600 OHM SMD |
More Detail: | 2 Line Common Mode Choke Surface Mount 600 Ohms @ ... |
DataSheet: | CPFC6D36NP-100M06 Datasheet/PDF |
Quantity: | 7000 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
1000 +: | $ 1.28520 |
3000 +: | $ 1.24236 |
5000 +: | $ 1.19952 |
Series: | CPFC |
Packaging: | Tape & Reel (TR) |
Lead Free Status / RoHS Status: | -- |
Part Status: | Active |
Moisture Sensitivity Level (MSL): | -- |
Filter Type: | Power Line |
Number of Lines: | 2 |
Impedance @ Frequency: | 600 Ohms @ 100MHz |
Current Rating (Max): | 2.5A |
DC Resistance (DCR) (Max): | 20 mOhm |
Voltage Rating - DC: | -- |
Voltage Rating - AC: | -- |
Operating Temperature: | -20°C ~ 100°C |
Ratings: | -- |
Approvals: | -- |
Features: | -- |
Mounting Type: | Surface Mount |
Size / Dimension: | 0.244" L x 0.209" W (6.20mm x 5.30mm) |
Height (Max): | 0.150" (3.80mm) |
Package / Case: | Horizontal, 4 J-Lead |
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CPFC6D36NP-100M06 Application Field and Working Principle
Common Mode Chokes, such as CPFC6D36NP-100M06, are electronic components used in a range of applications. They are designed to filter out excessive noise interference commonly found in power systems. This article will discuss the application field and working principle of a particular common mode choke, CPFC6D36NP-100M06.
Application Field
The CPFC6D36NP-100M06 finds various applications in the industrial and consumer electronics. It can be used in a wide variety of power systems thanks to its high ripple current resistance, compact design, and fast response time. Therefore, it is mainly used in power supply and electronic communication systems that require efficient noise reduction, while also maintaining high levels of power transfer efficiency.
In addition, common mode chokes have been increasingly used in low voltage applications such as solar energy storage systems, wearable electronics, and home appliances. These choke configurations can also be used in motor control circuits, energy management systems, and automotive electronics to reduce harmonic content and noise from radios and other electromagnetic sources. They are also applicable in systems where high levels of noise immunity need to be established (e.g. medical electronics).
Working Principle
A common mode choke, such as CPFC6D36NP-100M06, works by blocking common mode signals and allowing differential mode signals to pass. Common mode noise is the type of noise generated in the form of electrical pulses which affects the power system performance. This type of noise is blocked by the choke which acts as a filter in the power system.
Differential mode noise is another form of noise generated in the form of voltage spikes which affects the power electronics performance. The common mode choke prevents this type of noise from passing through the power system. This is done by blocking the differential mode noise while allowing the common mode signals to pass.
In order for the choke to work effectively, it must have high impedance from the common mode frequency, while maintaining low impedance for the differential mode frequencies. The CPFC6D36NP-100M06 achieves this by having a high inductance value. This ensures that the choke blocks the common mode noise, resulting in an improved power system performance.
Conclusion
In summary, the CPFC6D36NP-100M06 is a common mode choke designed for use in various power and electronic communication systems, such as solar energy storage systems and motor control circuits. Its function is to block common mode noise, while allowing differential mode signals to pass through the system. This is achieved by having a high inductance value, which ensures that the choke has a high impedance from the common mode frequency while maintaining low impedance for the differential mode frequencies. This, in turn, results in improved power system performance.
The specific data is subject to PDF, and the above content is for reference
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