473 Capacitor
The 473 capacitor has a capacitance of 47,000 pF (47 nF or 0.047 μF) and is commonly used for signal filtering, coupling, and voltage stabilization in electronic circuits.
General Information on "473" Capacitors
2A473J Capacitor, 473 Ceramic Capacitor, Capacitor 473, 473z Capacitor
The models used in combination include 4700uf 50v capacitor, 47uf capacitor, 471uf capacitor, 472uf capacitor, 473uf capacitor, high voltage capacitor, aluminum electrolytic capacitor, blown capacitor, filter capacitor, mica capacitor, 50 5 capacitor, 103 capacitor,fan capacitor,audio capacitor.
473 Capacitor
The “473” code indicates the capacitor’s capacitance value, where “47” is the significant digit and “3” is the multiplier, meaning 47×103 pF=47,000 pF47 \times 10^3 \, \text{pF} = 47,000 \, \text{pF}, equivalent to 47 nF or 0.047 μF. This versatile capacitor is widely used in electronic circuits for coupling, bypassing, and filtering. Its application spans audio equipment, RF circuits, and power supplies. The “473” code simplifies component identification in schematics, ensuring quick selection during production and repairs.
473J Capacitor
The suffix “J” represents a tolerance level of ±5%, indicating high accuracy. Such capacitors are critical in precision applications like timing circuits, audio processing, and signal filtering. The tight tolerance ensures stability and reliability, especially in sensitive circuits requiring consistent performance.
473M Capacitor
Here, the “M” denotes a ±20% tolerance, offering a more general-purpose capacitor. While less precise, it is cost-effective and works well in less critical applications, such as power decoupling or non-sensitive signal paths. These are widely used in consumer electronics and basic circuit designs.
Capacitance Values and Codes
473 Capacitor Value, 473 Capacitor Code, 473J Capacitor Value, 473M Capacitor Value
473 Capacitor Value in nF
The capacitance value of 473 is 47 nF, commonly used in circuits to smooth voltage fluctuations, filter frequencies, or decouple signals. In filtering, 47 nF capacitors excel at removing noise from power lines or analog signals, ensuring clean output.
473 Capacitor Value in μF
When expressed in microfarads, the value becomes 0.047 μF. This medium capacitance is widely used in RC circuits for timing or in audio filters. Its size and performance balance make it a preferred choice in analog applications.
473Z Capacitor Value
Capacitors with the “Z” suffix typically have unique tolerance or temperature coefficients. These are useful for circuits where temperature changes are frequent but require stable operation, like industrial machinery.
Capacitor Types and Applications
473J 630V Capacitor, 473K 400V Capacitor, 473K Capacitor Value, 473 Capacitor Guitar
473 Ceramic Capacitor
This type uses ceramic as its dielectric material, valued for its stability, low loss, and small form factor. The 473 ceramic capacitor is common in high-frequency applications such as oscillators, power line filtering, and RF circuits. Its non-polarity allows flexible installation in AC and DC circuits.
473K Capacitor Guitar
A 473K capacitor is often used in guitar tone circuits to filter high frequencies and enhance audio tone clarity. The “K” represents ±10% tolerance, ensuring that the tonal adjustments remain consistent and predictable for musicians.
473J 100V Capacitor
With a 100V rating, this capacitor is suitable for medium-voltage circuits, such as DC-DC converters or audio amplifiers. It ensures safe operation under moderate electrical stress, protecting the circuit from voltage spikes.
473 Capacitor Applications
Consumer Electronics:
- Power Filtering: 473 capacitors are used in power supply circuits to filter noise and stabilize voltage, ensuring smooth operation for devices like TVs, laptops, and mobile chargers.
- Audio Signal Coupling: These capacitors enhance audio quality by blocking DC components and allowing AC signals to pass in speakers and amplifiers.
- LED Drivers: In LED lighting systems, they smooth out power fluctuations and prevent flickering, ensuring consistent illumination.
Industrial Electronics:
- Motor Controllers: 473 capacitors smooth input power and suppress electromagnetic interference (EMI) in motor drive systems.
- Industrial Sensors: Used in sensor modules to filter power and stabilize signal processing for precise measurements.
- Power Supplies: These capacitors improve efficiency in switching power supplies by reducing ripple and noise.
Automotive Industry:
- ECU Circuits: 473 capacitors stabilize voltage in engine control units, ensuring reliable operation of vehicle sensors and actuators.
- Headlight Systems: These capacitors filter electrical noise in LED or HID headlights, improving light stability and performance.
- Infotainment Systems: Capacitors are used for signal coupling and noise suppression, enhancing sound quality in car audio systems.
Telecommunication:
- Signal Filtering: Capacitors remove noise and stabilize signals in RF circuits for better communication quality.
- Power Stabilization: They regulate voltage in base station power supplies, preventing disruptions during operation.
- Antenna Circuits: 473 capacitors fine-tune frequencies and improve signal reception in antennas and transceivers.
473 Capacitor Working Principle
The working principle of a 473 capacitor (47,000 pF or 47 nF) is based on the ability of two conductive plates to store electrical energy in an electric field, separated by a dielectric material. Here’s how it works:
Energy Storage: When a voltage is applied across the capacitor’s terminals, electrons accumulate on one plate, creating a negative charge. Simultaneously, the other plate loses electrons, creating a positive charge. This creates an electric field between the plates.
Capacitance: The amount of charge a capacitor can store depends on the surface area of the plates, the distance between them, and the dielectric constant of the material between the plates.
Charge-Discharge Cycle: The capacitor charges when connected to a power source and discharges when the circuit demands energy, allowing it to act as a temporary energy reservoir.
AC/DC Response: Capacitors block direct current (DC) but allow alternating current (AC) to pass, making them essential for filtering, coupling, and bypassing applications.
Why Choose Our 473 Capacitor
High-Quality Materials: We use premium dielectric materials such as ceramic and polyester film, ensuring long-lasting performance, stability, and reliability in diverse applications.
Precise Tolerances: Our 473 capacitors are available with tight tolerances (±5%, ±10%), making them ideal for precision applications like timing circuits and signal filtering.
Wide Voltage Range: With voltage ratings from 50V to 630V, our capacitors cater to low- and high-voltage requirements in consumer, industrial, and automotive electronics.
Versatile Applications: Perfect for power filtering, noise suppression, signal coupling, and frequency tuning across industries like telecom, automotive, and industrial electronics.
Customized Solutions: We offer customization options for size, voltage, and material to meet your specific project needs.
Competitive Pricing: Our capacitors deliver superior performance at cost-effective prices, ensuring excellent value for your investment.
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Integrated Circuit Sensor FAQs
What does the "473" marking mean?
The “473” code signifies a capacitance of 47,000 pF, equivalent to 47 nF or 0.047 μF, using the standard capacitor coding system.
What is the typical voltage rating for a 473 capacitor?
Voltage ratings vary by type but typically range from 50V to 630V, suitable for low- to medium-voltage applications in electronics.
What are common applications of a 473 capacitor?
It is used in power supply filtering, audio signal coupling, motor control circuits, and high-frequency applications like RF filtering and timing circuits.
What materials are used in 473 capacitors?
Common dielectric materials include ceramic, polyester film, and polypropylene, each selected based on application needs like stability, size, or voltage.
What do the letters "J," "K," or "M" mean after "473"?
These letters represent tolerance levels: “J” for ±5%, “K” for ±10%, and “M” for ±20%, indicating the precision of the capacitance value.
