The NTE130 Datasheet is your key to understanding and utilizing the NTE130, a versatile silicon NPN transistor. This document provides crucial information about the device’s electrical characteristics, maximum ratings, and application circuits, enabling engineers and hobbyists alike to effectively incorporate it into their electronic designs. Understanding the datasheet allows for optimal performance and prevents potential damage to the component and connected circuitry.
Decoding the NTE130 Datasheet What You Need to Know
The NTE130 Datasheet serves as a comprehensive reference manual for anyone working with this NPN transistor. It provides vital specifications that dictate how the transistor should be used in a circuit. These specifications include parameters like maximum collector current, collector-emitter voltage, power dissipation, and operating temperature. Proper adherence to these specifications is paramount to ensure the longevity and reliability of your electronic project. Ignoring these limits can lead to device failure or unpredictable circuit behavior.
Datasheets are used in a multitude of ways. Engineers rely on them during the design phase to select appropriate components and to simulate circuit performance. Hobbyists use them to troubleshoot existing circuits or to learn about the behavior of a particular component. The datasheet includes graphs showing typical performance characteristics, which helps designers predict how the transistor will behave under different operating conditions. Some of these characteristics include:
- DC Current Gain (hFE)
- Collector-Emitter Saturation Voltage (VCE(sat))
- Transition Frequency (fT)
The information provided often goes beyond just the electrical characteristics and may include package dimensions, pin configurations, and suggested soldering techniques. Below is an example of the type of table you might find with absolute maximum ratings:
| Parameter | Symbol | Value | Unit |
|---|---|---|---|
| Collector-Emitter Voltage | VCEO | 40 | V |
| Collector Current | IC | 200 | mA |
Understanding how to interpret the data is critical. For example, knowing the maximum collector current allows you to choose appropriate resistor values in your circuit to prevent the transistor from exceeding its limits. The hFE value, or DC current gain, is essential for biasing the transistor correctly, ensuring it operates in the desired region, such as active, saturation, or cutoff. The datasheet also provides information on thermal characteristics, which is crucial for managing heat dissipation, especially at higher power levels.
Ready to dive even deeper? To get the most accurate and complete information about the NTE130 and to make sure you’re using it correctly in your projects, refer to the official NTE130 datasheet provided by NTE Electronics. This resource is the most reliable way to understand the transistor’s capabilities and limitations.