Product Description
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Model Number: |
CBB65 air conditioner capacitor |
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Type |
Polypropylene film capacitor |
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Safety approvals: |
CQC/VDE/TUV/CL |
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Approval standard |
GB/T3667,EN65712 |
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Climatic category |
25/70/21,25/85/21,40/70/21,40/85/21 |
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Rated voltage |
150VAC~600VAC(50-60Hz) |
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Capacitance range |
3uf~100uf |
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Capacitance tolerance |
+_5%(J),+_10%(K),+10%(U),-5%(U) |
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Testing voltage |
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Between terminals |
2*Un(VAC)/5s |
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Between terminals and case |
2*Un+1000(VAC)/5s(>=2000VAC) |
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Insulation Resistance(20) |
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Between terminals |
>=2000MΩ,UF(500VDC,5s) |
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Tangent of loss angle(20) |
<=0.002(100Hz) |
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Class of safety protection |
S0/S3 |
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Fault Currency |
10,000AFC(UL810) |
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Place of CHINAMFG |
CHINA |
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Packing |
More pieces in 1 inner box or polybag as customer request. |
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Color |
accept customization |
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Supplier type |
OEM factory |
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Capacitance(uf) |
250/300VAC |
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400-450VAC |
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Cylindrical |
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Ocal |
Cylindrical |
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Ocal |
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D |
H |
L*W*H |
H |
D |
L*W*H |
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10uf |
40 |
55 |
51.5*31.5*65 |
30 |
60 |
51.5*31.5*65 |
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15uf |
40 |
55 |
51.5*31.5*65 |
35 |
60 |
/ |
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20uf |
40 |
65 |
51.5*31.5*65 |
40 |
60 |
51.5*31.5*75 |
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25uf |
40 |
65 |
51.5*31.5*65 |
40 |
60 |
51.5*31.5*85 |
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30uf |
/ |
/ |
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40 |
70 |
71.5*45*75 |
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35uf |
40 |
75 |
71.5*45*75 |
45 |
70 |
/ |
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40uf |
/ |
/ |
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45 |
70 |
71.5*45*85 |
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45uf |
45 |
75 |
71.5*45*75 |
45 |
80 |
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50uf |
45 |
85 |
71.5*45*85 |
45 |
90 |
71.5*45*100 |
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60uf |
45 |
95 |
71.5*45*100 |
50 |
90 |
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What’s a dual run AC capacitor ?
* A capacitor is an electric component that temporarily stores an electrical charge and AC capacitor is a key component to start
air conditioner motors.
* A dual run capacitor supports “TWO” electric motors, 1 section for the condenser fan motor and the other for the compressor
motor. Beacause of technological innovation, the dual run capacitor can saves space by combining 2 capacitors into 1 case.
* Round cylinder-shaped dual run capacitors are commonly used for air conditioning, it can help in the starting of the compressor
and the condenser fan motor.
* Air conditioner capacitor is small in size, lightweight, heat resisting and anti-explosion.
Dual capacitors come in a variety of sizes, depending on the capacitance (µF or MFD) and the voltage.
1. The capacitance (µF or MFD) must be the same or stay within ±6% of its original value. Example: 45 µF cap can be substituted
by 42.3 to 47.7 µF with the same or better voltage ratings capacitor .
2. A 440 volt capacitor can be used in place of a 370 volt capacitor, as it can work better, but the 370 volt capacitor can’t be
used in place of a 440 volt capacitor.It will work for a while or will fail prematurely, because exceeding the capacitor’s
rated voltage will cause the dielectric to break down and the capacitor to short out.
“TIME” to Replace
The Dual Run AC Capacitor needs to be replaced when the following conditions occur:
1. The fan wouldn’t spin – the condenser fan motor maybe died.
2. The air conditioner is making humming sound, but no air flow.
3. Air conditioner stopped cooling – the compressor in the condenser maybe not coming on.
“SUPER EASY” to Install
* First, Shut off power to the A/C at both the thermostat and the breaker box. Secondly, taking out the capacitor.
* What’s important, make sure you know which wire is for which terminal – 3 terminals on the top are labeled “Herm”/”H” for
the compressor motor, “Fan”/”F” for the fan and “C” for the common line.
* Direct replacement, no need to change wiring or adapter.
* Last but not least, self-install will save you a substantial amount of money!
What is a starting capacitor and a running capacitor for a motor?
As we all know, a single-phase AC motor is not like a three-phase motor. It can turn when it is powered. It needs a starting torque to rotate, and the clockwise and anti-clockwise of this torque determines the steering of the motor, and there are many
ways to start. Among them, the capacitor start is one, which is customarily called the start capacitor, and the single-phase motor needs it to rotate smoothly.
However, some single-phase motors have more than 1 capacitor, and some motors have 2 capacitors. Why? Because some motors are equipped with a starting capacitor and a running capacitor, what is going on?
The difference between start capacitors and run capacitors.
Running capacitor: It is connected to the secondary winding to form an alternating magnetic field after phase-shifting the alternating current, and forms an approximately circular elliptical rotating magnetic field with the alternating magnetic field of the main winding. So he can be the same capacitor, but its role is different.
No matter what kind of capacitor, it has a starting effect at the beginning of the motor. However, when the motor reaches about 75% of the rated speed, the starting capacitor is automatically disconnected by the centrifugal switch, and the running capacitor continues to work with the motor. The process of starting the motor is actually the process of “column phase”. Because a single-phase motor is different from a three-phase motor, there is no phase difference, and a rotating magnetic field cannot be generated. The function of the capacitor is to make the starting winding current of the motor lead the running winding by 90 electrical angles in time and space to form a phase difference. Among them, the running capacitor also plays the role of balancing the current between the main and auxiliary windings. Since the starting capacitor works for an instant and a short time, the withstand voltage is required to be above 250V, while the running capacitor needs to work for a long time, and the withstand voltage is required to be above 450V.
The starting capacitor is to make the starting coil of the single-phase motor energized at the time of starting, and then cut off after starting. The running capacitor is to make the motor perform capacitance compensation during the operation, so the starting capacitor cannot be less, and the running capacitor can not be used.
The running capacitor is the starting capacitor used when the press is working normally. When the press starts, it starts the press together with the running capacitor. After the press is turned up, the start capacitor is disconnected. The running and starting capacitors are together, but 1 of the starting capacitors is open, and the starting capacitor is useless when the motor turns. What is the difference between the starting capacitor and the running capacitor? That is the capacity of the starting capacitor is large, generally 2-5 times that of the running capacitor, while the capacity of the running capacitor is small, and the capacity difference between the 2 is huge and easy to distinguish.
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| Application: | Home |
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| Certification: | ISO9001, CE, CCC, RoHS |
| Type: | Polypropylene Film Capacitor |
| Samples: |
US$ 0.01/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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What factors should be considered when selecting an AC motor for a particular application?
When selecting an AC motor for a particular application, several factors need to be considered to ensure the motor meets the requirements and performs optimally. Here are the key factors to consider:
- Power Requirements: Determine the power requirements of the application, including the required torque and speed. The motor should have adequate power output to meet the demands of the specific task. Consider factors such as starting torque, running torque, and speed range to ensure the motor can handle the load effectively.
- Motor Type: There are different types of AC motors, including induction motors, synchronous motors, and brushless DC motors. Each type has its own characteristics and advantages. Consider the application’s requirements and factors such as speed control, efficiency, and starting torque to determine the most suitable motor type.
- Environmental Conditions: Assess the environmental conditions in which the motor will operate. Factors such as temperature, humidity, dust, and vibration levels can impact motor performance and longevity. Choose a motor that is designed to withstand the specific environmental conditions of the application.
- Size and Space Constraints: Consider the available space for motor installation. Ensure that the physical dimensions of the motor, including its length, diameter, and mounting arrangement, are compatible with the available space. Additionally, consider the weight of the motor if it needs to be mounted or transported.
- Efficiency: Energy efficiency is an important consideration, as it can impact operational costs and environmental sustainability. Look for motors with high efficiency ratings, which indicate that they convert electrical energy into mechanical energy with minimal energy loss. Energy-efficient motors can lead to cost savings and reduced environmental impact over the motor’s lifespan.
- Control and Speed Requirements: Determine if the application requires precise speed control or if a fixed speed motor is sufficient. If variable speed control is needed, consider motors that can be easily controlled using variable frequency drives (VFDs) or other speed control mechanisms. For applications that require high-speed operation, select a motor that can achieve the desired speed range.
- Maintenance and Serviceability: Assess the maintenance requirements and serviceability of the motor. Consider factors such as the accessibility of motor components, ease of maintenance, availability of spare parts, and the manufacturer’s reputation for reliability and customer support. A motor that is easy to maintain and service can help minimize downtime and repair costs.
- Budget: Consider the budget constraints for the motor selection. Balance the desired features and performance with the available budget. In some cases, investing in a higher quality, more efficient motor upfront can lead to long-term cost savings due to reduced energy consumption and maintenance requirements.
By carefully considering these factors, it is possible to select an AC motor that aligns with the specific requirements of the application, ensuring optimal performance, efficiency, and reliability.
How do AC motors contribute to the functioning of household appliances?
AC motors play a crucial role in the functioning of numerous household appliances by converting electrical energy into mechanical energy. These motors are used in a wide range of devices, powering various components and performing essential tasks. Let’s explore how AC motors contribute to the functioning of household appliances:
- Kitchen Appliances: AC motors are found in various kitchen appliances, such as refrigerators, freezers, dishwashers, and blenders. In refrigerators and freezers, AC motors drive the compressor, which circulates the refrigerant and maintains the desired temperature. Dishwashers use AC motors to power the water pumps, spray arms, and the motorized detergent dispenser. Blenders utilize AC motors to rotate the blades and blend ingredients.
- Laundry Appliances: AC motors are integral to laundry appliances like washing machines and clothes dryers. Washing machines rely on AC motors to power the agitator or the drum, facilitating the washing and spinning cycles. Clothes dryers use AC motors to rotate the drum and operate the blower fan, facilitating the drying process.
- Vacuum Cleaners: Vacuum cleaners utilize AC motors to generate suction and drive the motorized brush or beater bar. These motors power the fan or impeller, creating the necessary airflow for effective cleaning.
- Fans and Air Circulation: AC motors are employed in various types of fans, including ceiling fans, table fans, and pedestal fans. These motors drive the fan blades, producing airflow and facilitating air circulation to provide cooling or ventilation in rooms. Additionally, AC motors power exhaust fans used in kitchens, bathrooms, and range hoods to remove odors, smoke, or excess moisture.
- Air Conditioning and Heating Systems: AC motors are critical components in air conditioning and heating systems. They power the compressor, condenser fan, and blower fan, which are responsible for circulating refrigerant, dissipating heat, and delivering conditioned air throughout the house. AC motors enable the regulation of temperature and humidity levels, ensuring comfort in residential spaces.
- Garage Door Openers: AC motors are utilized in garage door openers to drive the mechanism responsible for opening and closing the garage door. These motors generate the necessary torque to lift or lower the door smoothly and efficiently.
- Other Appliances: AC motors are also found in a variety of other household appliances. For instance, they power pumps in water heaters, swimming pool filters, and sump pumps. AC motors are used in dehumidifiers, humidifiers, and air purifiers to drive the fans and other internal components. They are also present in audiovisual equipment, such as DVD players, record players, and fans used for cooling electronics.
In summary, AC motors are essential components in household appliances, enabling their proper functioning and delivering the mechanical energy required for various tasks. From kitchen appliances to laundry machines, fans, air conditioning systems, and more, AC motors provide the necessary power and functionality to enhance our daily lives.
What are the key advantages of using AC motors in industrial applications?
AC motors offer several key advantages that make them highly suitable for industrial applications. Here are some of the main advantages:
- Simple and Robust Design: AC motors, particularly induction motors, have a simple and robust design, making them reliable and easy to maintain. They consist of fewer moving parts compared to other types of motors, which reduces the likelihood of mechanical failure and the need for frequent maintenance.
- Wide Range of Power Ratings: AC motors are available in a wide range of power ratings, from small fractional horsepower motors to large industrial motors with several megawatts of power. This versatility allows for their application in various industrial processes and machinery, catering to different power requirements.
- High Efficiency: AC motors, especially modern designs, offer high levels of efficiency. They convert electrical energy into mechanical energy with minimal energy loss, resulting in cost savings and reduced environmental impact. High efficiency also means less heat generation, contributing to the longevity and reliability of the motor.
- Cost-Effectiveness: AC motors are generally cost-effective compared to other types of motors. Their simple construction and widespread use contribute to economies of scale, making them more affordable for industrial applications. Additionally, AC motors often have lower installation and maintenance costs due to their robust design and ease of operation.
- Flexible Speed Control: AC motors, particularly induction motors, offer various methods for speed control, allowing for precise adjustment of motor speed to meet specific industrial requirements. Speed control mechanisms such as variable frequency drives (VFDs) enable enhanced process control, energy savings, and improved productivity.
- Compatibility with AC Power Grid: AC motors are compatible with the standard AC power grid, which is widely available in industrial settings. This compatibility simplifies the motor installation process and eliminates the need for additional power conversion equipment, reducing complexity and cost.
- Adaptability to Various Environments: AC motors are designed to operate reliably in a wide range of environments. They can withstand variations in temperature, humidity, and dust levels commonly encountered in industrial settings. Additionally, AC motors can be equipped with protective enclosures to provide additional resistance to harsh conditions.
These advantages make AC motors a popular choice for industrial applications across various industries. Their simplicity, reliability, cost-effectiveness, energy efficiency, and speed control capabilities contribute to improved productivity, reduced operational costs, and enhanced process control in industrial settings.
editor by CX 2024-04-22