What Does An Ac Capacitor Do? Discover Its Crucial Role In Cooling Efficiency

An AC capacitor is a crucial component in an air conditioner that helps it start and run efficiently. Without it, the AC may struggle to start, cool effectively, or even work at all. Understanding the role of an AC capacitor can help prevent uncomfortable situations and costly repairs.

Did you know that the key to your air conditioner’s cooling efficiency lies in a tiny component called the AC capacitor? This unassuming device, often overlooked, plays a crucial role in the proper functioning of your cooling system. Without it, your AC would struggle to start, cool your home effectively, or even work at all.

Imagine this scenario: you return home on a sweltering summer day, eagerly anticipating the cool relief of your air-conditioned sanctuary. But to your dismay, the AC only blows warm air or refuses to turn on entirely.

Frustrating, right? Understanding the role of an AC capacitor can save you from such uncomfortable situations and potentially costly repairs. Whether you’re a homeowner, DIY enthusiast, or HVAC technician, grasping the importance of this small but mighty device is essential. In this article, we’ll delve into the inner workings of AC capacitors, explore common issues they can cause, and equip you with the knowledge to troubleshoot and replace them if needed.

Prepare to unlock the secret behind your air conditioner’s cooling prowess.

Bestseller No. 1

TAIXUAN AC Capacitor 35/5 uF 370V/440V CBB65 Round Dual Run Start AC Capacitors 35 5 MFD 440 VAC Capacitor for Air Conditioner AC Unit Fan Motor Start or Heat Pump or Condenser Straight Cool(35+5uf)

• AC Capacitor: TAIXUAN .35+5 uF ±6% 370/440 VAC 50/60HZ CBB65 dual run start capacitor replacement for 370 or 440 Volt capacitors.
• Capacitor Size: Diameter(1.97 inch/50 mm) Height(3.35 inch/85mm).
• Operating Temperature: -40℃ to +70℃/-104℉ to +158℉. Frequency: 50/60 Hz. Safety rated: 10,000 AFC – Available Fault Current.
• Certification Standard: Compliant with the TOUGHEST U.S. standards for AC motor run capacitors including EIA-456-A Specifications and IEC 60252-1:2001 – UL & CUL Listed.
• Applicable Models: 35/5 uF Capacitor Replacement for 97F9834 , Z97F9834 , HC98JA036 , P291-3553R , HC98CA036 , HV98CA035 , 97F9834, R100335-05, 89M73, HC98JA036D , TT-CAP-35/5/440R, RC0102 , TRCFD355 , 12283 , Z97F9848 , Z97F9899 , 97F9899 , CAP050350440RS , 12266 , C3355R.

$16.99

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Bestseller No. 2

45+5 uF 45/5 MFD ±6% 370V/440V CBB65 AC Capacitor, Dual Run Round Capacitor Replacement, 45 5 uF 440 Volt HVAC Capacitor for AC Unit Fan Motor Start or Heat Pump or Condenser Straight Cool

• 【AC Capacitor】45+5 uF ±6% 370/440 VAC 50/60HZ CBB65 dual run start capacitor replacement for 370 or 440 Volt capacitors
• 【Capacitor Size】Diameter(60 mm/2.36 inch) Height(100 mm/3.94 inch)
• 【Operating Temperature】-40 ℃ to +70℃ / -104 ℉ to +158 ℉ ，Safety Rated: 10,000 AFC – Available Fault Current
• 【UL Certified Replacement Capacitor】Built to the TOUGHEST U.S. standards for AC motor run capacitors including EIA-456-A and IEC 60252-1:2001, guaranteed to last for more than 5 years
• 【Suitable Model】45/5 uF Capacitor Replacement for 97F9895 , Z97F995 , 97F9895BZ3 , 27L880 , TRCD455 , TRCFD455 , PRCFD455 , 27L889 , 97F9851 , 97F9851S , 12788 , RC0114 , Z97F9895 , 97F9895 , TT-CAP-45/5/440R , HC98KA046 , TP-CAP-45/5/440R , CAP050450440RT , HC98JA046 , HCKS450D050R440Z , 00662441180262

$14.90

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Bestseller No. 3

BOJACK 7.5 uF ±6% 7.5 MFD 370V/440V CBB65 Oval Run Start Capacitor for AC Motor Run or Fan Start and Cool or Heat Pump Air Conditione

• BOJACK 7.5 uf MFD 370V/440VAC Oval Run Start Capacitor
• Operating Temperature Range -40 ℃ to +70 ℃/ -104℉ to +158℉
• This Capacitor Will Run Compressor And Fan Motor
• UL Recognized,Engineered For Safety 10 000 AFC Anti Explosion Pressure Switch
• Replacement for :27L566BZ3 , 27L566 , 27L566S , 97F9001 , Z97F9001 ,97F9001BX ,CPT-00120 ,TP-CAP-7.5/440,TOCF7.5

$9.90

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SaleBestseller No. 4

2PCS CBB61 5uf 2-Wire 250V AC Ceiling Fan Capacitor by Red Snail

• CBB61 5uf 2-Wire 250V AC Ceiling Fan Capacitor
• Package Include: 2 PCS.

$6.99

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Bestseller No. 5

BOJACK 45+5 uF 45/5 MFD ±6% 370V/440VAC CBB65 Dual Run Circular Start Capacitor for AC Motor Run or Fan Start or Condenser Straight

• BOJACK 45+5uF ±6% 370V/440V CBB65B Dual run circular start capacitor
• Capacitor dimension: Diameter(65 mm/2.56 inch) Height(95 mm/3.74 inch)
• Operating temperature: -40 ℃ to +70℃/-104℉to+158℉ ，Safety rated: 10,000 AFC
• Three terminals on the top are labeled “Herm”/”H” for the compressor motor, “Fan”/”F” for the fan, and “C” for the common line.
• Replacement for 97F9895 , Z97F995 , 97F9895BZ3 , 27L880 , TRCD455 , TRCFD455 , PRCFD455 , 27L889 , 97F9851 , 97F9851S , 12788 , RC0114 , Z97F9895 , 97F9895 , TT-CAP-45/5/440R , HC98KA046 , TP-CAP-45/5/440R , CAP050450440RT , HC98JA046 , HCKS450D050R440Z , 00662441180262

$21.90

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Bestseller No. 6

45/5 uF Capacitor 45+5 MFD 370V/440VAC CBB65 Round Dual Run Start AC Capacitors for Air Conditioner AC Unit Fan Motor Start or Heat Pump or Condenser Straight

• TAIXUAN 45+5 uf or 45+5 MFD 440 Volt AC Capacitor. Replaces BOTH 370 VAC & 440 VAC capacitors
• Operating temperature: -40 ℃ to +70℃/-104℉to+158℉ , Safety rated: 10,000 AFC
• Capacitor dimension: Diameter(1.97 inch) Height(4.92 inch), Cylindrical aluminum outer shell, With pressure-isolation explosion-proof device.
• Built to the TOUGHEST USA standards for AC motor run capacitors including EIA-456-A and IEC 60252-1:2001
• Replacement for 97F9895 , Z97F995 , 97F9895BZ3 , 27L880 , TRCD455 , TRCFD455 , PRCFD455 , 27L889 , 97F9851 , 97F9851S , 12788 , RC0114 , Z97F9895 , 97F9895 , TT-CAP-45/5/440R , HC98KA046 , TP-CAP-45/5/440R , CAP050450440RT , HC98JA046 , HCKS450D050R440Z , 00662441180262.

$9.99

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Bestseller No. 7

VEXUNGA 7.5uF 370/440VAC 50/60Hz CBB65 CBB65A Oval Run Start Capacitor 7.5 MFD 370V/440V Air Conditioner Capacitors for AC Unit Fan Motor Start or Pool Pump or Air Condenser Straight Cool

• VEXUNGA 7.5uF ±6% 370/440 VAC CBB65A oval run start capacitor replacement for BOTH 370 & 440 Volt capacitors.
• 7.5 MFD Capacitor size measures ( 1.24inch / 31.5mm ) x ( 2.03inch / 51.5mm ) x ( 2.17inch / 55mm ) .
• Operating temperature: -40℃ to +70℃/-104℉ to +158℉. Frequency: 50/60 Hz. Safety rated: 10,000 AFC – Available Fault Current.
• Compliant with the TOUGHEST U.S. standards for AC motor run capacitors including EIA-456-A Specifications and IEC 60252-1:2001 – UL & CUL Listed.
• 7.5uF Capacitor Replacement for 27L566BZ3 , 27L566 , 27L566S , 97F9001 , Z97F9001 , 97F9001BX , CPT-00120 , TP-CAP-7.5/440 , TOCF7.5 .

$9.69

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Bestseller No. 8

SIGANDG 60+5 MFD 60/5 uF 370 or 440 Volt CBB65B Capacitor for AC Motor Run，Condenser Straight Cool，Heat Pump， Air Conditioner，HVAC Capacitor

• SIGANDG 60+5uF ±6% 370V/440V AC Capacitors, CBB65 Dual Run Round Capacitor, used in the air conditioners, compressors and motors
• Operating Temperature: -40℃ to +70℃ / -104℉ to +158℉; Dimension: diameter 2.56 inch, height 4.72 inch
• Safety Protection Level: S1.Engineered for Safety 10000 AFC Anti Explosion Pressure Switch
• Replacement for S1-02425033700, P291-6053RS, C3605R, 27L954, TRCD605, 97F9816, PRCFD605A, Z97F9897, 97F9897, C4605R, CPT00691, HCKS600D050R440Z, TP-CAP-60/5/440R, TT-CAP-60/5/440, B9457-7500
• Three terminals on the top are labeled “Herm”/”H” for the compressor motor, “Fan”/”F” for the fan, and “C” for the common line.

$16.99

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Bestseller No. 9

BOJACK 65 uf MFD 240V AC Motor and Fan Starting Round Capacitor 50/60 Hz CBB65 10000 AFC

• BOJACK Product 65 uf MFD 240VAC Capacitor. Replaceable 240 VAC Capacitors
• Operating Temperature Range -40 ℃ to +70 ℃/ -104℉ to +158℉
• This Capacitor Will Run Compressor And Fan Motor
• Engineered For Safety 10000 AFC Anti Explosion Pressure Switch
• Size: 1.97×3.52 in / 50×89.5 mm(Diameter x Height)

$16.99

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Bestseller No. 10

Seentech 216-259 uf/MFD 110-125 VAC ±20% Round Motor Start Capacitor 50/60 Hz AC Electric Universal Fit for AC Motor Run or Fan Start and Cool or Heat Pump Air Conditioner

• SPECS – Capacitance: 216-259 uf; Rated Voltage: 110-125V; Tolerance: +/-20%; Shape: Round Motor Start; Operating Temperature Range: -40℃ to +65℃/ -40℉ to 149℉; No PCBs. Engineered for Safety with a 10,000 AFC Anti-Explosion Pressure Switch
• UNIVERSAL COMPATIBILITY: Designed for single-phase motors, this capacitor is a versatile fit for a wide range of appliances, including air conditioners, refrigerators, pumps, and more. It is important to choose a capacitor with the correct capacitance and voltage rating. You should also make sure that the capacitor is compatible with the type of motor that you are using
• BUILT TO LAST: Constructed with high-quality materials and rigorous quality control, this capacitor is built for long-lasting performance. You can trust it to keep your motor running smoothly for years to come
• EASY TO INSTALL: No need to call an appliance repair technician and pay for a service call; no need to spend money on expensive tools and hard to find parts and equipment, get your machine back up and running with ours capacitor
• MONEY BACK GUARANTEE: The product supports a 30-day return and exchange policy. Our company values the shopping experience of each customer. If you have any questions during shopping, please contact customer service promptly. We will do our best to resolve the issue

$9.67

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II. Understanding Capacitors: Basics and Components

A. Definition of a capacitor

A capacitor is an electrical component that stores and releases electrical energy. It consists of two conductive plates separated by an insulating material called a dielectric. When a voltage is applied across the plates, an electric field is created, and the capacitor stores energy in the electric field. This electrical energy can be discharged when needed.

B. Components of a capacitor

A capacitor comprises three main components:

• Conductive Plates: These are the two metallic plates that store the electrical charge. They are typically made of aluminum or tantalum and have a large surface area to maximize the capacitance.
• Dielectric: The dielectric is an insulating material placed between the conductive plates. It prevents direct contact between the plates, allowing the capacitor to store and release energy. Common dielectrics include ceramic, electrolytic, and polyester film.
• Terminals: The terminals are the connection points on the capacitor that allow for electrical connections to other components in a circuit.

These three components work together to make capacitors an essential part of various electronic devices, including air conditioning systems.

III. Role of Capacitors in an AC System

A. Introduction to AC systems

Before we explore the role of capacitors in an AC system, it’s important to understand the basics of how an AC system operates. Air conditioners work by transferring heat from the indoor environment to the outdoors, resulting in cooler air inside.

An AC system consists of several key components, including a compressor, condenser, evaporator, and fan. The compressor plays a vital role in the cooling process, as it compresses the refrigerant gas and circulates it through the system.

B. Functions of capacitors in an AC system

Capacitors serve multiple functions in an AC system, contributing to its overall efficiency and performance. The specific roles of capacitors in an AC system include:

• Starting the Compressor: Capacitors are responsible for providing the initial jolt of electrical energy to start the compressor. The compressor’s motor requires a high amount of torque to start rotating, and capacitors provide the necessary boost to overcome the inertia and get the motor running.
• Running the Compressor: Once the compressor is started, capacitors continue to provide a steady flow of electrical energy to keep the motor running smoothly. They help maintain a consistent and efficient operation of the compressor, ensuring optimal cooling performance.
• Power Factor Correction: Capacitors also help improve the power factor in an AC system. Power factor is a measure of how effectively the system utilizes the incoming electrical power. By correcting the power factor, capacitors can reduce the strain on the electrical grid and improve overall energy efficiency.

Without capacitors, an AC system would struggle to start, resulting in frequent motor failures, decreased cooling efficiency, and increased energy consumption.

IV. Types of Capacitors Used in AC Systems

A. Electrolytic capacitors

Electrolytic capacitors are commonly used in AC systems due to their high capacitance values and low cost. They consist of two conductive plates separated by an electrolyte, usually a conductive liquid or gel. Electrolytic capacitors are polarized, meaning they must be connected in the correct polarity to function properly.

1. Construction and working principle

Electrolytic capacitors have a metal foil as one of the conductive plates, coated with an oxide layer to increase the capacitance. The other plate is a conductive liquid or gel electrolyte. When a voltage is applied, the electrolyte facilitates the flow of charge, allowing the capacitor to store and release electrical energy.

2. Advantages and disadvantages

• Advantages: Electrolytic capacitors have high capacitance values, making them suitable for applications that require high energy storage. They are also cost-effective and readily available.
• Disadvantages: One drawback of electrolytic capacitors is their polarization. If connected in reverse polarity, they may fail or even explode. They also have limited temperature and voltage ratings compared to other types of capacitors.

B. Film capacitors

Film capacitors are another common type used in AC systems. They are known for their reliability, high voltage ratings, and good frequency response. Film capacitors are non-polarized, meaning they can be connected in either direction without causing damage.

1. Construction and working principle

Film capacitors consist of two conductive plates separated by a thin polymer film as the dielectric. The film is made from materials such as polyester, polypropylene, or polycarbonate. When a voltage is applied, the electric field is formed, allowing the capacitor to store and release electrical energy.

2. Advantages and disadvantages

• Advantages: Film capacitors have high reliability, excellent frequency response, and high voltage ratings. They are also non-polarized, making them easy to use in various applications.
• Disadvantages: Film capacitors tend to be bulkier and more expensive compared to electrolytic capacitors. They may also have lower capacitance values.

C. Ceramic capacitors

Ceramic capacitors are compact, cost-effective, and widely used in AC systems and other electronic devices. They are known for their stability and high operating temperature range. Ceramic capacitors can be either polarized (usually not used in AC systems) or non-polarized.

1. Construction and working principle

Ceramic capacitors consist of two conductive plates separated by a ceramic material as the dielectric. The ceramic material can be made from various compositions, such as ceramic barium titanate or ceramic multilayer. When a voltage is applied, the electric field is formed, enabling the capacitor to store and release electrical energy.

2. Advantages and disadvantages

• Advantages: Ceramic capacitors are compact, cost-effective, and have a wide range of capacitance values. They also have high stability and can operate in a wide temperature range.
• Disadvantages: One drawback of ceramic capacitors is their piezoelectric effect, which can cause noise or interference in certain applications. They may also have lower voltage ratings compared to other types of capacitors.

D. Tantalum capacitors

Tantalum capacitors are known for their high capacitance values and excellent stability. They are commonly used in AC systems and electronics that require low-profile and miniaturized components.

1. Construction and working principle

Tantalum capacitors consist of two conductive plates separated by a tantalum oxide layer as the dielectric. The tantalum oxide layer is created through a process called anodization. When a voltage is applied, the electric field is established, allowing the capacitor to store and release electrical energy.

2. Advantages and disadvantages

• Advantages: Tantalum capacitors have high capacitance values, excellent stability, and a small form factor. They also have low equivalent series resistance (ESR) and can operate at high temperatures.
• Disadvantages: Tantalum capacitors are more expensive compared to other types. They are also polarized and sensitive to reverse voltage, requiring careful installation and usage.

V. Capacitor Failure and Common Issues

A. Factors leading to capacitor failure

Although capacitors are designed to be reliable, they can still experience failure due to various factors. Some common causes of capacitor failure include:

• Age and Wear: Like any electronic component, capacitors have a limited lifespan. Over time, the dielectric can degrade, reducing the capacitor’s performance and eventually leading to failure.
• Overheating: Excessive heat can cause the dielectric to break down, leading to a loss of capacitance or even a short circuit. High ambient temperatures or improper ventilation in an AC system can contribute to capacitor overheating.
• Overvoltage or Voltage Surges: Capacitors have voltage ratings, and exceeding these ratings can cause them to fail. Voltage surges from lightning strikes or power grid fluctuations can also damage capacitors.

B. Symptoms of a failed capacitor

Identifying a failed capacitor is crucial for troubleshooting AC system issues. Some common symptoms of a failed capacitor include:

• No Cooling: If the capacitor responsible for starting the compressor fails, the AC system may not cool at all.
• Intermittent Cooling: A faulty capacitor can lead to sporadic cooling, where the AC may cool for a while and then stop abruptly.
• Clicking Sounds: Failed capacitors can cause audible clicking sounds as the compressor tries to start but fails.
• High Energy Consumption: Inefficient capacitors can lead to increased energy consumption, resulting in higher electricity bills.

C. Common issues associated with capacitors

In addition to outright failure, capacitors can also experience other issues that affect their performance. Some common issues associated with capacitors in AC systems include:

• Reduced Capacitance: Capacitors can lose their capacitance over time, which affects their ability to store and release electrical energy.
• Leakage Current: Capacitors may exhibit leakage current, which causes a gradual discharge of stored energy even when not in use. This can lead to energy wastage and decreased efficiency.
• High Equivalent Series Resistance (ESR): A high ESR can cause energy losses and reduce the capacitor’s overall performance.

Frequently Asked Questions (FAQ)

Conclusion: The Role and Issues of Capacitors in AC Systems

In conclusion, capacitors are essential components in AC systems, playing a crucial role in starting and running the compressor, as well as improving power factor correction. They store and release electrical energy, providing the initial boost to start the compressor and ensuring consistent and efficient operation.

Capacitors also help improve energy efficiency by correcting the power factor in an AC system. There are several types of capacitors commonly used in AC systems, including electrolytic capacitors, film capacitors, ceramic capacitors, and tantalum capacitors.

Each type has its advantages and disadvantages, such as high capacitance values, reliability, or small form factors. However, capacitors can experience failure due to factors such as age, wear, overheating, or overvoltage. Identifying the symptoms of a failed capacitor, such as no cooling, intermittent cooling, clicking sounds, or high energy consumption, is crucial for troubleshooting AC system issues.

In addition to outright failure, capacitors can also experience other issues that affect their performance, such as reduced capacitance, leakage current, or high equivalent series resistance (ESR). It is important to address these issues to maintain the efficiency and performance of the AC system. Overall, understanding the role of capacitors in AC systems and being aware of their common issues can help ensure the proper functioning and longevity of the system.