2SC4467 Transistor Pinout, Equivalent, Uses, Features and Other Useful Information
2SC4467 is an NPN transistor available in TO-3PN package. In this post we are going to discuss 2SC4467 transistor pinout, equivalent, uses, features and other useful information.
Absolute Maximum Ratings:
- Package Type: TO-3PN
- Transistor Type: NPN
- Max Collector Current(IC): 8A
- Max Collector-Emitter Voltage (VCE): 120V
- Max Collector-Base Voltage (VCB): 160V
- Max Emitter-Base Voltage (VEBO): 6V
- Max Collector Dissipation (Pc): 80Watt
- Minimum & Maximum DC Current Gain (hFE): 50 To 180
- Max Storage & Operating temperature: -55 to +150 Centigrade
PNP Complementary:
PNP Complementary of 2SC4467 is 2SA1694
Replacement & Equivalent
MJW3281A, 2SC4468, 2SC3519/A, 2SC3855, 2SC3284, 2SC2581, 2SC6011A/O/P/Y, 2SC2579, 2SC3854, 2SC2580, 2SD1524, 2SD1522, 2SC4434, 2SC4275, 2SC3855, 2SC3054, 2SC2723.
2SC4467 Transistor Explained / Description:
2SC4467 is an NPN transistor available in TO-3PN package. It is designed for general purpose and audio applications. It has many good features such as high voltage, good collector current, transition frequency of upto 20MHz, good linearity, fast switching speed and availability of its PNP complementary.
Looking at the absolute maximum ratings of the transistor the collector-emitter voltage is 120V, collector current is 8A, collector-base voltage is 160V, base current is 3A, emitter-base voltage is 6V, collector power dissipation is 80W and storage & junction temperature is from -55°C to 150°C.
According to hFE classification this transistor manufactured in three different versions and each version can be identified with the help of the alphabetical code written after the part number. If the code is “O” then the DC current gain will be 50 to 100, if the code is “P” then the gain will be 70 to 140 and if the code is “Y” then the DC gain will be 90 to 180.
How to Use This Transistor:
As we know that it is a Bipolar junction transistor so it’s using procedure will be same as other BJTs by applying signal to its base pin, connecting emitter pin with the negative rail of the circuit and getting the output from the collector pin.
This is a basic explanation on how this transistor works or how you can use this transistor. But to build a proper working circuit you must have to use some passive components to get better results.
Applications:
Audio Amplifiers
DC to DC Converters
Battery Management Systems
PWM Circuits
Audio Amplifier Stages
Switching Regulators
Switching load of up to 8A
Safe Operating Guidelines:
Here are some important guidelines to safely operate the transistor.
- Do not drive the transistor to its absolute maximum ratings and always stay 20% below from these ratings.
- Always use a suitable heatsink with the transistor.
- Check pin layout before use.
- Storing and operating temperature range is from -55°C to +150°C.
Datasheet:
To download the datasheet just copy and paste the below link in your browser.
https://www.alldatasheet.com/datasheet-pdf/view/439534/ISC/2SC4467.html
