Dive into the heart of electronic components with our comprehensive guide to the Ceramic Capacitor 104 Value Datasheet. Understanding this seemingly simple datasheet is crucial for anyone working with or curious about the fundamental building blocks of modern technology. This resource will demystify the "104" designation and reveal the vital information contained within its datasheet.
Demystifying the "104" Ceramic Capacitor What It Means and Why It Matters
The "104" designation on a ceramic capacitor isn't just a random string of numbers; it's a shorthand that reveals its capacitance value. Specifically, "104" translates to 0.1 microfarads (µF) or 100 nanofarads (nF). This is derived from a three-digit code where the first two digits represent the significant figures of the capacitance, and the third digit indicates the multiplier (the number of zeros to follow). So, for "104", we have 10 followed by 4 zeros, which equals 100,000 picofarads (pF). Converting this to more commonly used units, 100,000 pF is 100 nF, or 0.1 µF. This precise capacitance value is the bedrock upon which circuits are designed and function correctly.
Ceramic capacitors, known for their compact size, high dielectric strength, and excellent frequency response, are ubiquitous in electronic devices. They perform a variety of essential tasks within a circuit, including:
- Filtering out unwanted noise in power supplies.
- Coupling AC signals between different stages of an amplifier.
- Decoupling to provide a local reservoir of charge for integrated circuits.
- Timing applications in oscillators.
The "104" capacitor, due to its common capacitance value, is found in a vast array of applications, from small portable electronics to larger industrial equipment. Understanding its role and limitations, as detailed in its datasheet, is key to successful circuit design and troubleshooting.
When examining a Ceramic Capacitor 104 Value Datasheet, you'll find more than just the capacitance value. A typical datasheet will include critical specifications such as:
| Parameter | Description |
| Capacitance | The primary value, usually 0.1µF or 100nF. |
| Tolerance | How close the actual capacitance is to the stated value (e.g., ±10%, ±20%). |
| Voltage Rating | The maximum DC voltage the capacitor can withstand without failing. |
| Temperature Coefficient | How the capacitance changes with temperature. |
| ESR (Equivalent Series Resistance) | Internal resistance that affects performance at high frequencies. |
| Dielectric Material | The type of ceramic used, which influences other characteristics. |
This detailed information allows engineers and hobbyists to select the appropriate capacitor for their specific needs, ensuring optimal circuit performance and longevity.
Ready to get hands-on? We have compiled the essential Ceramic Capacitor 104 Value Datasheet information for you to refer to directly. Use this resource to understand the exact specifications of this common component and ensure your projects are built with the right parts.