MIP2K2 – (MIP2Kx) High-Performance IPD

Part number : MIP2K2

Functions : (MIP2Kx) High-Performance IPD, This is Semiconductor.

Manufacturer : Panasonic

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MIP2K2 Datasheet PDF

The texts in the PDF file :

Featuring built-in frequency jitter necessary for EMI, while also conserving power during standby! High-Performance IPD with Frequency Jitter for Small Charger/Adapter: MIP2Kx Series „ Overview MIP2Kx series is a high-performance IPD designed for 15W battery chargers and featuring built-in frequency jitter function at PWM control. It features built-in protection circuits necessary for compact power source charger circuitry. This allows a significant reduction in externally connected parts. It provides PWM control when a normal load is applied and intermittent control with low load. This results in greater efficiency for very low to maximum loads, while also conserving power during standby. Unit : mm Pin No. Pin Name 1 VDD 2 FB 3 4 5 6 7 8 CL VCC Drain ⎯ Source Source „ Feature • Built-in jitter function • Built-in charge protection circuit Built-in overcurrent, overheating, load shorting and overvoltage protection circuits „ Applications Chargers (for DSC, etc.), AC adapter DIP7-A1 „ Lineup Type No. MIP2K2 MIP2K3 MIP2K4 MIP2K5 *2 Output *1 Up to 5W Up to 8W Up to 10W Up to 15W 700V Characteristic VDSS ILIMIT 0.35A 0.50A 0.70A 1.0A R(DS)ON 16.5Ω 10Ω 7Ω 5Ω 100kHz 5.5kHz 260Hz DIP7-A1 fosc ⊿f fM Package *1 The electric power mentioned above depends on the transformer specification and ambient conditions. The information should be used only as a guide. When using it within a case, output electric power may be decided by heat of IPD. *2 All characteristic values are only for reference (still under development). „ Comparison data of conduction noise MIP2F4(without jitter function) MIP2K4(with jitter function) × Average Peak Decentralized pulse by jitter function → Lower the avarage New publication, effective from 31 Oct. 2008 M00852BE www.DataSheet.in „ Frequency jitter function By frequency jitter function, frequency jitter variation(Δf) changes periodically, by frequency of frequency jitter modulation factor (fM) as shown below. [ … ]

MIP2K2 PDF File



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