2N6027G

### 2N6027G Description The 2N6027G is a programmable unijunction transistor manufactured by onsemi, designed to offer high performance and reliability in various electronic circuits. With a voltage rating of 40V and a maximum power dissipation of 300mW, this device ensures efficient operation in demanding applications. The 2N6027G features a low gate-to-anode leakage current of 10nA and a valley current of 50µA, contributing to its excellent performance in high-precision circuits. Its output voltage is 11V, making it suitable for a wide range of applications. ### 2N6027G Features - Voltage - Offset (Vt): 1.6 V - ECCN: EAR99 - Current - Gate to Anode Leakage (Igao): 10 nA - Product Status: Obsolete - Current - Valley (Iv): 50 µA - Power Dissipation (Max): 300 mW - Voltage: 40V - REACH Status: REACH Unaffected - Voltage - Output: 11V - Manufacturer: onsemi - HTSUS: 8541.21.0095 - Package: Box - Current - Peak: 2 µA - Base Product Number: 2N6027 - Moisture Sensitivity Level (MSL): 1 (Unlimited) The 2N6027G's unique features, such as its low leakage current and high output voltage, set it apart from similar models in the market. Its obsolete status, however, may limit its availability. ### 2N6027G Applications The 2N6027G is ideal for use in various applications where high precision and reliability are crucial. Some specific use cases include: 1. Programmable circuits requiring high voltage and low leakage current. 2. Electronic devices that demand precise control of current and voltage. 3. High-precision measurement and control systems. ### Conclusion of 2N6027G The 2N6027G is a high-performance programmable unijunction transistor that offers excellent technical specifications and performance benefits. Its unique features, such as low leakage current and high output voltage, make it suitable for a wide range of applications. However, its obsolete status may limit its availability. Despite this, the 2N6027G remains a reliable choice for high-precision circuits and electronic devices that require exceptional performance.