): Typically ranges between 10 to 20 mS (millisiemens), indicating high sensitivity. Generally around 5.0 pF. Reverse Transfer Capacitance ( Crsscap C r s s
A common alternative used in similar VHF applications. Conclusion
The 3SK41 is versatile within the RF spectrum. You will commonly find it used in: 3sk41 datasheet
Acting as the first stage of amplification.
Typically used for AGC or as the local oscillator input in mixers. Gate 1 (G1): The primary signal input lead. ): Typically ranges between 10 to 20 mS
): Extremely low (approx. 0.02 pF), which is vital for stability in high-frequency amplifiers. Typically 2.0 to 3.0 dB at 200 MHz. 4. Pinout Configuration
When reviewing the 3SK41 datasheet, the absolute maximum ratings are critical to prevent component failure. Operating beyond these limits can cause permanent damage. Drain-Source Voltage Gate 1-Source Voltage Gate 2-Source Voltage Drain Current Total Power Dissipation Storage Temperature -55 to +150 3. Electrical Characteristics Under typical operating conditions (usually at ), the 3SK41 exhibits the following performance: Forward Transfer Admittance ( Conclusion The 3SK41 is versatile within the RF spectrum
If you are looking for the specifications, this guide breaks down the essential parameters, pinouts, and application details you need for your project. 1. Overview and Key Features
Minimizes loading on preceding stages. 2. Technical Specifications (Absolute Maximum Ratings)
The is a classic N-channel dual-gate MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) that has long been a staple in high-frequency applications . Primarily designed for VHF (Very High Frequency) amplifiers and mixers, it remains a point of interest for hobbyists, vintage radio restorers, and engineers working with legacy RF circuits.