The RVG4M58-104M-TG is a multilayer ceramic capacitor (MLCC) manufactured by Murata Electronics North America. This capacitor is part of the RVG series, which is designed for general-purpose applications requiring a balance of performance and size. The '104M' in the part number signifies a capacitance of 100 nF (nanofarads) or 0.1 µF (microfarads), with 'M' indicating the tolerance. The RVG4M58 likely refers to specific size and voltage characteristics within the RVG series, while the TG suffix might indicate the packaging or termination type used for this particular component.

Applications:

• Decoupling capacitors in digital and analog circuits
• Bypassing capacitors to filter out unwanted noise
• Smoothing capacitors in power supplies
• Filtering applications in signal processing circuits
• Timing circuits

Features:

• Small physical size due to multilayer construction
• High capacitance-to-volume ratio
• Stable capacitance over a wide temperature range
• Low equivalent series resistance (ESR) for efficient performance
• Lead-free terminations for environmental compliance
• RoHS compliant

Benefits:

• Reduces noise and improves signal integrity in electronic circuits
• Helps to stabilize voltage levels in power supplies
• Enables smaller and more compact electronic designs
• Enhances the reliability and lifespan of electronic devices
• Contributes to environmentally friendly manufacturing practices

Additional Details:

MLCCs like the RVG4M58-104M-TG are made by stacking multiple layers of ceramic dielectric material and metal electrodes. This construction allows for high capacitance values in a small package. The 'M' tolerance code usually indicates a ±20% capacitance tolerance. Designers should consult the Murata datasheet for detailed specifications, including voltage rating, temperature coefficient, and operating temperature range. Proper soldering techniques are crucial to ensure reliable connections and prevent damage to the capacitor during assembly. These capacitors are often used in high-volume manufacturing due to their reliability and ease of placement.