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BLRCH169A203B44
heavy duty PowerLogic PFC Capacitor, 16.9/20.3 kvar – 440 V – 50/60Hz
- Stock status:
- In stock
- Manufacturer:
- Schneider
- Product code:
- BLRCH169A203B44
Main documents
Range of product | PowerLogic |
---|---|
product or component type | Heavy duty capacitor |
Network frequency | 50/60 Hz |
Series name | HDuty |
Network harmonic content | <= 20 % |
Electrical parameters | 16.9 kvar 440 V 50 Hz 20.3 kvar 440 V 60 Hz |
Maximum permissible voltage | 1.1 x Un (8 hours over 24 hours) |
continuous overcurrent capacity | 1.8 x In |
Rated voltage | 440 V AC 50/60 Hz |
Dielectric losses | < 0.2 W/kvar |
---|---|
Power losses | < 0.5 W/kVAr |
capacitance tolerance | – 5 % to 10 % |
Voltage test | 2.15 x Un AC between terminals for 10 s <= 660 V – 3 kV AC between terminal and container for 10 s >= 660 V – 6 kV AC between terminal and container for 10 s |
Inrush current | 250 x In |
Maximum switching operation per year | 7000 |
Service life in hours | 130000 h |
Dielectric material | Metallized polypropylene film with Zn/Al alloy, special resistivity & profile, special edge (wave cut) |
Impregnation material | Non-PCB dry PUR resin Biodegradable |
Type of installation | Indoor installation |
Connections – terminals | ClampTite terminal |
Mounting mode | Upright/horizontal |
Diameter | 116 mm |
Height | 242 mm |
net weight | 2.5 kg |
Standards | IEC 60831-2 IEC 60831-1 |
---|---|
IP degree of protection | IP20 |
Operating altitude | 2000 m |
Temperature class | D |
Ambient air temperature for operation | -25…55 °C |
Relative humidity | 95 % |
Unit Type of Package 1 | PCE |
---|---|
Number of Units in Package 1 | 1 |
Package 1 Height | 57.5 cm |
Package 1 Width | 53.5 cm |
Package 1 Length | 73.5 cm |
Package 1 Weight | 2.5 kg |
Product Description
Schneider Electric
Schneider Electric is a multinational corporation specializing in energy management and automation solutions. With operations in over 100 countries, the company offers a wide range of products and services for various industries, including residential, commercial, and industrial.
Schneider Electric is focused on sustainability and innovation, aiming to help their customers manage energy efficiently and reduce their environmental impact.
Schneider Power Factor Correction
Power Factor Correction (PFC) is an essential aspect of electrical systems management, aimed at improving the efficiency and stability of power delivery. Schneider Electric offers a range of Power Factor Correction solutions designed to optimize the power factor in electrical networks, thereby reducing energy losses, improving voltage stability, and minimizing penalties from utilities for low power factor.
Schneider Capacitor
Schneider Electric offers a comprehensive range of capacitors designed for various power factor correction and energy efficiency applications. These capacitors help improve the power factor in electrical networks, thereby reducing energy losses, enhancing voltage stability, and minimizing costs associated with poor power factor.
Key Capacitor Solutions from Schneider Electric:
- VarPlus Can Capacitors
- VarSet Capacitor Banks
- VarPlus Box Capacitors
- AccuSine PCS+ Active Harmonic Filters
Implementation and Benefits:
1. Energy Efficiency:
By improving the power factor, Schneider Electric capacitors help reduce energy consumption and losses in electrical systems, leading to significant cost savings.
2. Enhanced System Performance:
Improved power factor leads to better voltage stability and reduced strain on electrical equipment, prolonging their lifespan and reducing maintenance costs.
3. Cost Savings:
Many utilities charge penalties for low power factor. Implementing Schneider capacitors helps avoid these penalties and reduce overall electricity costs.
4. Improved Capacity:
Enhancing the power factor frees up capacity in the electrical network, allowing for the addition of more loads without the need for costly infrastructure upgrades.
Capacitor
Schneider Electric capacitors and power factor correction solutions are essential for optimizing the efficiency and reliability of electrical networks. From individual capacitors like VarPlus Can and VarPlus Box to complete systems like VarSet capacitor banks and AccuSine PCS+ active harmonic filters, Schneider Electric provides a wide range of products to meet the diverse needs of industrial, commercial, and residential applications. Implementing these solutions not only improves power quality but also leads to significant energy savings and cost reductions.
BLRCH169A203B44
The BLRCH169A203B44 is a heavy-duty PowerLogic PFC Capacitor from Schneider Electric, designed to provide reliable power factor correction in stringent operating conditions.
Key Features:
- Model: PowerLogic PFC Capacitor
- Power Rating: 16.9/20.3 kVar
- Voltage: 440 V AC
- Frequency: 50/60 Hz
Product Highlights:
VarPlus Can Capacitor: The VarPlus Can capacitors offer reliable and flexible solutions for power factor correction. These capacitors are particularly effective in environments with higher voltage disturbances or where a few non-linear loads are present.
Enhanced Current Handling: The rated current of these capacitors is increased to manage the circulation of harmonic currents efficiently.
Rated Output Power: Provides a rated output power of 16.9 kVar at 440V AC and 50 Hz.
Secure Fastening: Equipped with a ClampTite terminal to ensure secure fastening.
Standards Compliance: Meets the standards of IEC 60831-1 and IEC 60831-2.
Weight: The product has a case weight of 2.5 kg.
Applications:
This capacitor is ideal for industrial environments requiring efficient power factor correction. It is designed to handle higher voltage disturbances and manage harmonic currents effectively, ensuring optimal performance in challenging conditions.
Frequently Asked Questions
How is power factor corrected?
✅Power factor correction is accomplished by adding capacitors in parallel with connected motor or lighting circuits. This technique can be implemented at various points in the electrical system: directly at the equipment, at the distribution board, or at the origin of the installation.
By improving the power factor, capacitors help enhance energy efficiency, reduce electricity costs, and improve the overall performance of the electrical network. Whether for industrial facilities, commercial buildings, or residential setups, integrating capacitors for power factor correction is essential for optimizing electrical systems.
What is PFC power factor correction?
✅ Power factor correction (PFC) involves a series of methods aimed at improving a device's power factor. To address displacement issues, external reactive components are commonly used to compensate for the circuit's total reactive power. Implementing PFC enhances energy efficiency, reduces electricity costs, and optimizes the performance of electrical systems. Whether in industrial, commercial, or residential applications, effective power factor correction is essential for maintaining a stable and efficient electrical network.
What is PFC capacitor?
✅ A power factor correction capacitor (PFC capacitor) is a device designed to enhance the power factor of an electrical circuit. For instance, if the circuit experiences a lagging current, it demands extra power from the supply. By installing a PFC capacitor, you can reduce this additional power requirement, thereby improving energy efficiency and lowering electricity costs. PFC capacitors are essential for optimizing the performance of electrical systems in industrial, commercial, and residential settings.
Where to install power factor correction capacitors?
✅Power Factor Correction Capacitors are versatile solutions that can be strategically deployed at various points within an electrical system. These include individual motors, distribution panels, or the main service panel. By installing capacitors at these key locations, you can effectively enhance power factor, improve energy efficiency, and optimize the performance of your electrical network.
How do you add capacitors?
✅Capacitors - SparkFun Learn
When capacitors are connected in parallel, their total capacitance is the sum of individual capacitances. This is similar to how resistors add up in series. For instance, if three capacitors with values of 10µF, 1µF, and 0.1µF are connected in parallel, the total capacitance would be 11.1µF (10+1+0.1).
How to test a capacitor?
✅How to Measure Capacitance with a Digital Multimeter
Connect the test leads to the terminals of the capacitor. Keep the test leads connected for a few seconds to enable the multimeter to automatically select the appropriate range. Once connected, read the measurement displayed on the multimeter. If the capacitance value falls within the measurement range, the multimeter will accurately display the value of the capacitor.
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