3sk41 Datasheet Best Link
: Before soldering, always verify the pinout (gate1, gate2, source, drain) of any replacement. Different manufacturers may have different lead configurations, even for similarly numbered parts. A multimeter in diode mode can be used to identify the source and drain pins, but an actual transistor tester is strongly recommended.
To make sure you have the exact information needed, are you using this for a or to repair vintage equipment (like a Kenwood transceiver)? 3SK41 NEC/HITACHI/MOTOROLA CAN-4 Transistors
: When downloading, look for a document dated between 1985 and 1995. Later "generic" datasheets sometimes contain errors for this specific part.
The signal output. It connects to the primary RF tank circuit or intermediate frequency (IF) transformer setup. 3sk41 datasheet
The circuit uses the 3SK41 as the primary power-switching element.
VBR(GSS)cap V sub cap B cap R open paren cap G cap S cap S close paren end-sub Maximum absolute rating for both isolated gates Id(max)cap I sub d open paren m a x close paren end-sub Maximum continuous current carrying capacity Power Dissipation PDcap P sub cap D Total allowable power dissipation at room temp Forward Transfer Admittance gfs(min)g sub f s open paren m i n close paren end-sub Minimum transconductance demonstrating signal gain Input Capacitance
Providing initial signal boost for weak radio waves. : Before soldering, always verify the pinout (gate1,
A common alternative used in similar VHF applications. Conclusion
These typical or guaranteed values define how the device behaves in normal operation.
If you're restoring a vintage radio or building a high-fidelity RF front end, the 3SK41 datasheet is a must-read for its precise pinout and voltage ratings. To make sure you have the exact information
The 3SK41 is a Silicon N-Channel Dual-Gate Metal Oxide Semiconductor Field-Effect Transistor (MOSFET) housed typically in a or CAN-4 package.
) and excellent high-frequency characteristics, the 3SK41 is not built for high-power conversion; instead, it thrives in precise signal environments: