Ceramic Capacitor 104 Datasheet

The Ceramic Capacitor 104 Datasheet might seem like a cryptic document at first glance, but it holds the key to understanding a ubiquitous electronic component. The “104” ceramic capacitor is found in countless devices, from smartphones to power supplies. This article will break down the essentials of a Ceramic Capacitor 104 Datasheet, explaining its key parameters and how it guides engineers in selecting the right capacitor for their applications.

Decoding the Ceramic Capacitor 104 Datasheet What You Need to Know

At its core, a Ceramic Capacitor 104 Datasheet is a technical document that specifies the electrical and physical characteristics of a “104” ceramic capacitor. The “104” designation itself is a code indicating the capacitor’s capacitance value. Specifically, it signifies 10 x 104 picofarads (pF), which equals 100,000 pF or 0.1 microfarads (µF). Datasheets provide a wealth of information beyond just capacitance. They outline crucial parameters like voltage rating, tolerance, temperature coefficient, insulation resistance, and physical dimensions. Understanding these parameters is vital for ensuring the capacitor operates reliably within the intended circuit.

Ceramic capacitors, particularly the 104 variety, are widely used for various purposes in electronic circuits. Their small size, low cost, and relatively good performance make them a go-to choice for applications such as:

• Decoupling: Filtering out noise from power lines to ensure stable voltage for integrated circuits.
• Bypass: Providing a low-impedance path for high-frequency signals, preventing them from interfering with other parts of the circuit.
• Timing circuits: Used in conjunction with resistors to create time delays or oscillations.

The selection of a capacitor depends on the requirements of the application. For example, a 104 capacitor used in a high-temperature environment needs to have a suitable temperature coefficient rating, otherwise its capacitance may drift significantly, affecting circuit performance.

Datasheets also provide information on the capacitor’s physical characteristics, such as its dimensions, lead spacing, and packaging. This is important for ensuring the capacitor fits properly on the printed circuit board (PCB) and can be easily soldered. Different manufacturers may offer the “104” capacitor in different case sizes, so checking the dimensions on the datasheet is crucial. A typical datasheet might also contain a table summarizing key specs, such as below:

To delve deeper into the specifics of a particular Ceramic Capacitor 104, we highly suggest you refer to the original manufacturer’s datasheet. It contains comprehensive and accurate details that can significantly aid in your design and selection process.