Compresseur NJ9232GK R-404a 1 1/4HP 230V

Compresseur NJ9232GK R-404a 1 1/4HP 230V

• Référence eunasa: 21077
• Gamme: Froid Commercial / Industriel
• Type de machine: Divers
• Type de produit: Compresseur
• Sous-type de produit: Compresseur
• Marque: Aspera
• Original

• Modèle: NJ9232GK
• Gaz: R-404a
• Température/Pression: Moyenne / Haute
• Puissance: 1 1/4 HP
• Voltage: 230 V
• Type De Courant: Monophasé
• Fréquence: 50 Hz
• Type De Compresseur: Hermétique
• Décalage: 26.11 cm³
• Cons.Énergie -10ºC: 1089 W
• Cons.Énergie -5ºC: 1191 W
• Cons.Énergie 0ºC: 1289 W
• Cons.Énergie +5ºC: 1383 W
• Cons.Énergie +10ºC: 1472 W
• T° De Condensation: 45 °C
• Capacidad Frigorífica -20°C: 1224 Kcal/h
• Capacidad Frigorífica -15°C: 1587 Kcal/h
• Capacidad Frigorífica -10°C: 2030 Kcal/h
• Capacidad Frigorífica -5°C: 2551 Kcal/h
• Capacidad Frigorífica 0°C: 3151 Kcal/h
• Capacidad Frigorífica 5°C: 3830 Kcal/h
• Capacidad Frigorífica 10°C: 4589 Kcal/h
• Tipo Test: Ashare 46

 

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Visit Link for more informations; https://www.mbsm.pro/c-bzn175l5z

https://mbsm.pro/wp-content/uploads/uploads/Mbsm-tn-media-Compressor-C-BZ120-1-6-hp-120w-Mhbp-r12-C-BZ-C-BZN-KULTHORN-KULTHORN.pdf

The C-BZ120 is a model of compressor manufactured by Kulthorn Kirby, a well-known company in the refrigeration and air conditioning industry. Here’s a breakdown of the details you provided:

1. Model: C-BZ120
2. Power: 1/6 horsepower (HP)
3. Wattage: 120W
4. Refrigerant: R12 (a chlorofluorocarbon refrigerant, now largely phased out due to environmental concerns)
5. Series: C-BZ or C-BZN (likely indicating variations or specific configurations of the compressor)
6. Brand: Kulthorn Kirby

Key Features:

• 1/6 HP: This indicates the motor’s power output, suitable for small refrigeration systems.
• 120W: The electrical power consumption of the compressor.
• R12 Refrigerant: This compressor was designed for use with R12, which was commonly used in older refrigeration systems. Due to its ozone-depleting properties, R12 has been replaced by more environmentally friendly refrigerants like R134a or R600a.
• MHBP: This likely stands for “Medium High Back Pressure,” indicating the compressor is designed for medium-temperature applications, such as commercial refrigeration or air conditioning systems.

Applications:

The C-BZ120 compressor is typically used in small refrigeration units, such as:

• Domestic refrigerators
• Small commercial coolers
• Beverage dispensers
• Ice machines

Notes:

https://mbsm.pro/wp-content/uploads/uploads/Mbsm-tn-media-__Compressor-C-BZ120-1-6-hp-120w-Mhbp-r12-C-BZ-C-BZN-KULTHORN-KULTHORN.pdf

• Since R12 is no longer widely used, retrofitting may be required if you plan to use this compressor with modern refrigerants.
• Ensure compatibility with your system’s specifications before installation.

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1. Compressor (Model S36G)

• Purpose: The core component for pressurizing refrigerant in a cooling cycle.
• Model S36G: Likely a specific compressor model (possibly from a brand like Secop, Danfoss, or a regional manufacturer). Verify with manufacturer documentation for exact specs.
• Application: Small-scale systems (e.g., commercial water coolers, medical devices, or compact refrigeration) due to the small refrigerant charge.

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2. Refrigerant (R134a, 32g)

• R134a: A common hydrofluorocarbon (HFC) refrigerant used in medium-temperature systems (e.g., refrigerators, AC units, water coolers).
• 32g Charge: Indicates a small system, typical for portable or compact units. Ensure the charge matches manufacturer specifications to avoid inefficiency or damage.

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3. Water-Cooler System

• Water-Cooled Condenser: Uses water (instead of air) to dissipate heat, improving efficiency. Requires a water supply, pump, and possibly a cooling tower.
• Applications: Often found in commercial settings (e.g., water dispensers, industrial chillers, or high-efficiency HVAC systems).

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4. BLY-F/950

• Likely a component model, such as:
  • Filter drier: Removes moisture/contaminants from refrigerant.
  • Pressure switch: Safety device to control system pressure.
  • Control board/Valve: Part of the system’s electrical or flow regulation.
  • Check manufacturer manuals or suppliers for exact function.

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Key Considerations

1. Compatibility: Ensure the compressor (S36G) is designed for R134a and water-cooled operation.
2. Refrigerant Charge: Confirm 32g is correct (undercharging/overcharging affects performance).
3. Water Cooling: Check for scale buildup, water flow rate, and pump functionality.
4. BLY-F/950 Replacement: Cross-reference with OEM parts or contact the system manufacturer.

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Troubleshooting Tips

• Low Cooling Efficiency: Check refrigerant charge, water flow, or condenser cleanliness.
• Component Failure: Test the BLY-F/950 part (e.g., continuity for switches, clogging in filter driers).
• Noise/Leaks: Inspect the compressor and refrierant lines.
• 

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Compressor BPM1084Z, B1085A, AE8ZA7: A Comprehensive Overview

In the world of refrigeration and air conditioning systems, compressors play a pivotal role in ensuring efficient operation. One such compressor that has gained significant attention for its reliability and performance is the BPM1084Z/B1085A/AE8ZA7 , which is widely used in applications requiring precise temperature control. This article delves into the specifications, features, and applications of this compressor, making it easier to understand why it’s a popular choice for various industries.

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Key Specifications

Below is a summary of the key specifications of the BPM1084Z/B1085A/AE8ZA7 compressor:

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1. Model Identification

The BPM1084Z, B1085A, and AE8ZA7 are essentially different model numbers for the same compressor, often used interchangeably depending on the manufacturer or supplier. These models belong to the rotary compressor family, known for their compact design and high efficiency.

2. Refrigerant Compatibility

This compressor is designed to work with R134a , a widely-used refrigerant renowned for its environmental friendliness compared to older alternatives like R12. R134a is non-flammable, ozone-friendly, and suitable for low-temperature applications such as freezing systems.

3. Power and Efficiency

With a nominal power consumption of 102 watts and a displacement of 4.15 cubic centimeters , this compressor strikes an excellent balance between energy efficiency and cooling capacity. Its 1/8 HP rating makes it ideal for small-scale applications where space and power usage are critical considerations.

4. RSIR Design

The “RSIR” designation refers to the internal configuration of the compressor. It stands for Rotary Scroll Internal Reversing , indicating that the compressor uses a rotary mechanism combined with scroll technology for smooth and quiet operation. The internal reversing feature enhances versatility by allowing the compressor to handle both cooling and heating cycles when paired with appropriate systems.

Applications

The BPM1084Z/B1085A/AE8ZA7 compressor is particularly well-suited for applications involving freezing systems due to its ability to maintain consistent temperatures at lower levels. Some common use cases include:

• Commercial Refrigeration: Used in small walk-in coolers, beverage chillers, and display cases.
• Home Appliances: Integrated into compact freezers, wine coolers, and mini-split air conditioners.
• Automotive Air Conditioning: Suitable for smaller vehicles or auxiliary cooling systems.
• Laboratory Equipment: Employed in precision cooling systems for sensitive instruments and samples.

Advantages

1. Compact Size: The compressor’s small footprint makes it easy to install in confined spaces without compromising performance.
2. Low Noise Levels: Thanks to its rotary-scroll design, the BPM1084Z operates quietly, making it suitable for environments where noise reduction is essential.
3. Energy Efficiency: With only 102 watts of power consumption, it offers significant savings over time while maintaining effective cooling.
4. Reliability: Built with robust materials and advanced engineering, this compressor ensures long-term durability and minimal maintenance requirements.
5. Compatibility: Designed to work seamlessly with R134a refrigerant, it aligns with modern standards for environmentally safe systems.

Maintenance Tips

To ensure optimal performance and longevity of the BPM1084Z/B1085A/AE8ZA7 compressor, consider the following maintenance practices:

• Regular Cleaning: Keep the compressor clean and free from dust or debris to prevent overheating.
• Oil Checks: Ensure the compressor is adequately lubricated using the recommended oil type specified by the manufacturer.
• System Inspections: Periodically inspect the refrigerant charge and piping for leaks or blockages.
• Operational Monitoring: Monitor the system’s pressure and temperature readings to detect potential issues early.

Conclusion

The BPM1084Z/B1085A/AE8ZA7 compressor exemplifies the perfect blend of efficiency, reliability, and adaptability. Whether you’re looking to equip a commercial freezer, a home appliance, or specialized laboratory equipment, this compressor delivers dependable performance tailored to meet your needs. By understanding its specifications and adhering to proper maintenance guidelines, users can maximize its lifespan and enjoy consistent results across various applications.

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D51C10RAW5, D51C90RAW5, D57C10RAW5, D57C13RAX5, D66C13RAW5, D66C13RAX5, D77C15RAW5, , D77C18RAX5, , D91C18RAW5, , D91C21RAX5, , D110C21RAX5, D110C21RAZ5, D110C21RBX5, D110C24GAX5,  DA57C11RAY5, DA66C12RAY5, DA77C15RAY5, , D, B, DB66C10RAW5, DB66C12RAY5, DB66C14RBX5, DB73C13RAY5, DB77C14RAY5, DB77C16RBX5, DB86C16RAY5, DB91C14RAW5, DB91C19RAY5, DB91C21RAX5, DB110C19RAW5, DB110C22RAW5, DD57C10RAW5, DD57C12GAX5, DD66C13RAW5, DD66C14GAX5, DD77C15GAX5, DD77C15RAW5, DD86C18RAW5,  DG51C89RAW5, DGH51C90RAX, DG57C90GCW5, DG57C96RAW5, DG66C11RAW5, DG66C13GAX5, DG73C12RAW5, DG77C14RAW5, DG77C16GAX5, DG91C18RAW5, DG91C21RAX5 , DGH66C13GAX, DGH66C96RAW, DGH73C14RAE, DGH73C14RAX, DGH73C15GAX, DGH73C15RAX, DGH77C13RAW, DGH86C16RAW, DGH86C19GAX, DGK57C97RLX, DGK66C90RPW, DHS51C74RAW, DHS57C80RAW, DHS66C10RAW, DHS66C88RAW, DHS73C10RAW, DHS73C13RAW, DHS86C15RAW, DKK57C11RAE, DKK66C13RAE , QA66C12GAX5, QA66C14GAX5, QA66C15GAX5, QA77C17GAX5, QA91C22GAX5 , QB51C74GAW5, QB51C95GPW5, QB51C99GAW0, QB51C99GAX0, QB51C99GLX5, QB57C11GAX0, QB57C11GLX5, QB57C11GPX5, QB57C86GAX0, QB57C87GAW5, QB66C13GAX5, QB66C13GLX5, QB66C13GPX5, QB66C16GAX0, QB66C97GAW5, QB73C12GAW5, QB73C15GAX5, QB73C16GAX5, QB77C13GAW5, QB77C16GAX5, QB77C16GLX5, QB77C16GPX5, QB77C18GAX0, QB86C13GAW5, QB86C18GAX5, QB91C16GAW5, QB91C18GAX0, QB91C19GAX5, QB91C21RPX5, QB91C24GAX0, QB110C19GAW5, QB110C25CAX0, QB110C25GAX5, MGA57C95RPX, MGA66C11RPX, MGA73C15RPX, MGA77C16RLX , QBH51C90GLX, QBH57C10GLX, QBH57C10GPX, QBH57C15RLX, QBH66C13GPX, QBH66C13RLX, QBH73C13GAE, QBH73C15RLX, QBH73C16GPX, QBH73C20RLX, QBH77C16RLX, QBH86C19RLX, QBH86C19RPX, QA51K13GAW5, QA77K18CAW5, QA91K21CAW5, QA110K23CAW5, QA125K26CAW5, QA125K29CAX5, , , QA43K11CAS0, , QA77K18CAX0 , SB24C50GAW5, SB30C50GAW5, SB35C65GAW5, SB35C67RAY5, , SB43C80GAW5, SB43C90RAY5, SB48C10RAY5, SB48C12GAX5, SB48C95GAW5, SBH35C57GPW, SBH48C11RLX, , SF39C74RAX5, SF39C78GAX5, SF43C76RAX5, SF43C83RAW5, SF48C10RAX5, SF48C91RAW5, SF51C10RAX5, SF51C91RAW5, SFH39C64RAW, SFH39C73RLX, SFH43C80RAW, SFH48C11RAX, SFH48C87RAW, SFH48C99RAX, SFH51C11RAX, SFH51C99RAX,  SBH35C68RLE, , SB30C70GAX0, , SB35C80GAX0

Grouping by Prefix

To better understand the codes, we can group them by their prefixes:

D-Series

These are likely standard Panasonic compressors:

• D51C10RAW5
• D51C90RAW5
• D57C10RAW5
• D57C13RAX5
• D66C13RAW5
• D66C13RAX5
• D77C15RAW5
• D77C18RAX5
• D91C18RAW5
• D91C21RAX5
• D110C21RAX5
• D110C21RAZ5
• D110C21RBX5
• D110C24GAX5

DA-Series

These may represent advanced or upgraded versions:

• DA57C11RAY5
• DA66C12RAY5
• DA77C15RAY5

DB-Series

These could be specialized or commercial-grade compressors:

• DB66C10RAW5
• DB66C12RAY5
• DB66C14RBX5
• DB73C13RAY5
• DB77C14RAY5
• DB77C16RBX5
• DB86C16RAY5
• DB91C14RAW5
• DB91C19RAY5
• DB91C21RAX5
• DB110C19RAW5
• DB110C22RAW5

DD-Series

Possibly high-efficiency or dual-stage compressors:

• DD57C10RAW5
• DD57C12GAX5
• DD66C13RAW5
• DD66C14GAX5
• DD77C15GAX5
• DD77C15RAW5
• DD86C18RAW5

DG-Series

May represent gas-cooled or hermetic compressors:

• DG51C89RAW5
• DGH51C90RAX
• DG57C90GCW5
• DG57C96RAW5
• DG66C11RAW5
• DG66C13GAX5
• DG73C12RAW5
• DG77C14RAW5
• DG77C16GAX5
• DG91C18RAW5
• DG91C21RAX5

QA-Series

Could be for air conditioning or heat pump applications:

• QA66C12GAX5
• QA66C14GAX5
• QA66C15GAX5
• QA77C17GAX5
• QA91C22GAX5

QB-Series

Likely for higher-capacity or industrial use:

• QB51C74GAW5
• QB51C95GPW5
• QB51C99GAW0
• QB51C99GAX0
• QB51C99GLX5
• QB57C11GAX0
• QB57C11GLX5
• QB57C11GPX5
• QB57C86GAX0
• QB57C87GAW5
• QB66C13GAX5
• QB66C13GLX5
• QB66C13GPX5
• QB66C16GAX0
• QB66C97GAW5
• QB73C12GAW5
• QB73C15GAX5
• QB73C16GAX5
• QB77C13GAW5
• QB77C16GAX5
• QB77C16GLX5
• QB77C16GPX5
• QB77C18GAX0
• QB86C13GAW5
• QB86C18GAX5
• QB91C16GAW5
• QB91C18GAX0
• QB91C19GAX5
• QB91C21RPX5
• QB91C24GAX0
• QB110C19GAW5
• QB110C25CAX0
• QB110C25GAX5

MGA-Series

May represent modular or customizable compressors:

• MGA57C95RPX
• MGA66C11RPX
• MGA73C15RPX
• MGA77C16RLX

SB-Series

Could be scroll-type or semi-hermetic compressors:

• SB24C50GAW5
• SB30C50GAW5
• SB35C65GAW5
• SB35C67RAY5
• SB43C80GAW5
• SB43C90RAY5
• SB48C10RAY5
• SB48C12GAX5
• SB48C95GAW5

SF-Series

Possibly for fractional horsepower or small-scale applications:

• SF39C74RAX5
• SF39C78GAX5
• SF43C76RAX5
• SF43C83RAW5
• SF48C10RAX5
• SF48C91RAW5
• SF51C10RAX5
• SF51C91RAW5

Other Codes

Some codes have unique prefixes like QBH, DHS, DKK, etc., which may correspond to specialized or regional product lines.

Panasonic compressors are widely recognized for their reliability, efficiency, and durability. They are commonly used in a variety of applications, including air conditioning systems, refrigeration units, heat pumps, and more. Below is an overview of Panasonic compressors, their types, features, and how they are classified.

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1. Types of Panasonic Compressors

a. Rotary Compressors

• Description : These compressors use a rotating mechanism to compress refrigerant gas. They are known for their compact size, low noise, and high efficiency.
• Applications : Ideal for small to medium-sized air conditioners, refrigerators, and freezers.
• Examples :
  • D51C10RAW5
  • DB66C10RAW5

b. Scroll Compressors

• Description : Scroll compressors use two spiral-shaped scrolls to compress refrigerant. They are highly efficient and quiet, making them suitable for residential and commercial HVAC systems.
• Applications : Used in air conditioners, heat pumps, and large refrigeration systems.
• Examples :
  • SB24C50GAW5
  • SB35C65GAW5

c. Reciprocating Compressors

• Description : These compressors use pistons to compress refrigerant. They are robust and reliable but generally less efficient than rotary or scroll compressors.
• Applications : Commonly used in industrial refrigeration systems.
• Examples :
  • DGH51C90RAX
  • DG57C90GCW5

d. Variable-Speed Compressors

• Description : These compressors can adjust their speed based on the cooling or heating demand, improving energy efficiency and comfort.
• Applications : Suitable for advanced air conditioning and heat pump systems.
• Examples :
  • QB77C16GAX5
  • QB91C21RPX5

e. Hermetic Compressors

• Description : Hermetically sealed compressors are fully enclosed to prevent leaks and contamination. They are maintenance-free and highly reliable.
• Applications : Used in household appliances like refrigerators and freezers.
• Examples :
  • QA66C12GAX5
  • QA91C22GAX5

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2. Features of Panasonic Compressors

a. High Efficiency

• Panasonic compressors are designed to minimize energy consumption while maintaining optimal performance. Many models meet or exceed global energy efficiency standards.

b. Durability

• Built with high-quality materials and advanced engineering, Panasonic compressors are built to last. They undergo rigorous testing to ensure reliability under various operating conditions.

c. Low Noise

• Panasonic uses advanced technologies to reduce noise levels, making their compressors ideal for residential and commercial environments where quiet operation is essential.

d. Compatibility

• Panasonic compressors are compatible with a wide range of refrigerants, including eco-friendly options like R32 and R410A.

e. Smart Control

• Many Panasonic compressors come with built-in sensors and control systems that optimize performance based on real-time conditions.

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3. Code Breakdown for Panasonic Compressors

The alphanumeric codes used by Panasonic provide detailed information about each compressor. Here’s how they can be interpreted:

General Structure

• Prefix : Indicates the series or type of compressor (e.g., D, DB, DG, QA, QB).
• Number Segment 1 (XX) : Represents the capacity or size of the compressor.
• Separator (C) : A delimiter separating different parts of the code.
• Number Segment 2 (YY) : Specifies the version, design, or feature level.
• Suffix (ZZZ) : Describes the configuration, application, or technology.

Examples

• D51C10RAW5 :
  • Prefix: D (Standard compressor)
  • Capacity: 51 (indicative of size or power)
  • Separator: C
  • Version: 10
  • Suffix: RAW5 (Air-cooled, standard model)
• QB77C16GAX5 :
  • Prefix: QB (High-performance compressor)
  • Capacity: 77
  • Separator: C
  • Version: 16
  • Suffix: GAX5 (Gas-cooled, enhanced efficiency)

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4. Applications of Panasonic Compressors

a. Air Conditioning Systems

• Panasonic compressors are widely used in both split-type and central air conditioning systems. Their variable-speed and inverter technologies ensure precise temperature control and energy savings.

b. Refrigeration Units

• From small household refrigerators to large commercial chillers, Panasonic compressors offer reliable performance across a wide range of applications.

c. Heat Pumps

• Panasonic compressors are integral components of heat pump systems, providing efficient heating and cooling in a single unit.

d. Industrial Applications

• In industrial settings, Panasonic compressors are used for process cooling, cold storage, and other demanding applications.

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5. Popular Models

Here are some popular Panasonic compressor models and their typical applications:

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6. Advantages of Panasonic Compressors

• Energy Efficiency : Panasonic compressors are designed to reduce electricity consumption without compromising performance.
• Quiet Operation : Advanced noise reduction technologies make Panasonic compressors ideal for residential and office environments.
• Reliability : Built to withstand harsh conditions, Panasonic compressors offer long service life with minimal maintenance.
• Eco-Friendly : Many Panasonic compressors use environmentally friendly refrigerants, contributing to sustainability.

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7. Conclusion

Panasonic compressors are trusted globally for their exceptional performance, efficiency, and reliability. Whether you’re looking for a compact rotary compressor for a home refrigerator or a high-capacity scroll compressor for a commercial HVAC system, Panasonic offers a wide range of solutions tailored to your needs.

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Specifications of Sharp Refrigerator:

1. Rated Voltage:

   • 220-240 volts (suitable for use in most Arab countries).

2. Rated Frequency:

   • 50 Hz (the standard frequency in the Arab region).

3. Rated Input (Power Consumption):

   • 170-190 watts (this indicates power consumption during normal operation).

4. Rated Input of Heating Elements:

   • 138-164 watts (used during the defrosting process).

5. Defrosting Input:

   • 137-163 watts.

6. Total Gross Volume:

   • 610 liters (this includes the entire internal space of the refrigerator and freezer).

7. Total Storage Volume:

   • 577 liters (this refers to the actual usable space).

8. Climate Class:

   • T (this means the refrigerator is designed to operate in ambient temperatures up to 43°C, making it suitable for hot regions).

9. Refrigerant Type:

   • HFC-134a (a commonly used and environmentally friendly refrigerant).

10. Mass of Refrigerant:

    • 130 grams.

11. Net Weight:

    • 88 kilograms.

12. Serial Number:

    • 009,V (used for identification when contacting customer service).

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Important Notes:

• Energy Efficiency: The power consumption ranges between 170-190 watts, making this refrigerator relatively energy-efficient.
• Large Capacity: The large storage capacity (577 liters) makes it suitable for large families.
• Suitable for Hot Climates: The T climate class means it operates efficiently in high-temperature regions.
• Environmentally Friendly: The use of HFC-134a refrigerant reduces environmental impact compared to traditional refrigerants.

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Tips for Optimal Use:

Regularly clean the condenser (located at the back of the refrigerator) to ensure cooling efficiency.

Ensure adequate space around the refrigerator for proper ventilation.

Set the temperature to 4°C for the refrigerator and -18°C for the freezer to keep food fresh while saving energy.

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CSBO30LHMG, CSB035LHMG, CMA042LHEG, CMAOSOLHEG, CMAOSTLMEG, CMAGEOLHEM, CMA07SLAEM, LX95LMBM, LX110LAJM, CSB057NJEG, CSB069NJEG, CSB075NJEG, CSB090NJJM, CMA110NJEM, CSBOSSLUCM, CMAOS3LHCG, CMA062LHCM, BSA075NHMV, BSAOSONAMV, BSA09ON3MV, BMK110NHMV

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The K2-C239ELFCEF appears to be a model of an air conditioning or refrigeration compressor. Based on the search results, here is the relevant information:

Key Specifications of K2-C239 Compressor:

• Model: K2-C239
• Nominal Output: 1.40 kW
• Cooling Capacity:

  • 50Hz: 4080 W (13930 BTU/hr)
  • 60Hz: 4970 W (16965 BTU/hr)

• Weight: 16 kg
• Dimensions: 323.8 mm (A) x 312 mm (B) x 274.5 mm (C) 3.

Horsepower (HP) Information:

The nominal output of 1.40 kW translates to approximately 1.2 HP (since 1 kW ≈ 1.34 HP). This makes the K2-C239 suitable for medium-capacity cooling applications, such as window coolers, split coolers, and home dehumidifiers 3.

Applications:

This compressor is designed for use in air conditioning systems, including residential and light commercial cooling units. It is part of the K2 series, which is known for its reliability and efficiency in cooling applications 313.

Additional Notes:

• The K2-C239 is part of a broader product line that includes variations like K2-C223 and K2-C262, each with slightly different cooling capacities and specifications 3.
• If you are looking for specific details about the “ELFCEF” variant, it may refer to a customized or region-specific model. You may need to contact the manufacturer or supplier for precise details 13.

For further information, you can refer to the product listings on platforms like Alibaba or manufacturer websites 313. If you need assistance with procurement or technical support, reaching out to the supplier directly is recommended.

Model Variations:

• The T182SC has multiple variants, such as T182SC.MC0, T182SC.UC2, and T182SC.NC1, which may differ slightly in specifications or regional compatibility.

Compatibility:

• Designed for use with LG HVAC systems, including air conditioners and heat pumps.
• Likely compatible with LG air conditioning units, such as the LG 18000 BTU Dual Inverter models.

Functionality:

• Provides basic temperature control features, such as heating and cooling modes.
• May support additional features like programmable schedules or Wi-Fi connectivity, depending on the variant.

Installation:

• Typically wall-mounted and designed for easy installation in residential or light commercial settings.
• Requires proper wiring and configuration to ensure compatibility with the HVAC system.

---

Applications:

• Residential Use: Controls temperature in homes, particularly for electric heating systems or air conditioning units.
• Light Commercial Use: Suitable for small offices, workshops, or other spaces requiring precise temperature control.

---

Related LG Air Conditioning Products:

The LG T182SC thermostat is often used with LG air conditioning units, such as:

• LG 18000 BTU Dual Inverter Air Conditioner: Features a Dual Inverter Compressor™ for energy efficiency, rapid cooling, and quiet operation.
• LG Split Air Conditioner (S18ATC): A 18000 BTU unit with R22 refrigerant, designed for residential use.

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▷ Starting and Running Capacitors Table

Do you need to replace a start or run  capacitor   and you don’t know which one the equipment has? In this post we will give you some tables of start and run capacitors so that you can access it when you need it.

The topic regarding the calculation of capacitors for single-phase compressors  is of great importance, because whoever is repairing needs to know when it is in poor condition and also what the replacement of the damaged part will be.

The technician who manipulates the equipment has to know that the new capacitor that he has bought to replace the old one must exactly meet the working voltage or greater than that of the original.

It is also important to highlight in this article that the compressor voltage has almost no relation to the capacitor voltage.

If you do not have the original capacitor data, you can approximate it using the following capacitor values ​​for single-phase motors that we present below.

They can be used as a guide or reference for selecting,  replacing capacitors when the exact values ​​are unknown.

Table of starting capacitors
for single-phase motors

Table of Start and Run Capacitors
for Single Phase Capacitors

In this table, which is very similar to the previous one, I attach capacitor values ​​for single-phase motors.

both working and starting capacitors, this way you will have the most user-friendly information in a single image

Capacitor Table for
Three-Phase Electric Motors

As a general rule, low-power three-phase electric motors have an operating voltage of 220 VD / 380 VY, but we must always make sure .

To do this, it is best to look at the motor’s nameplate. Where the voltages and connection will be indicated to know the type of  Capacitor they use.

Fan run capacitor table

If you need to change a running or permanent fan capacitor, this table attached below can guide you to resolve the fault of the equipment you are repairing:

Understanding Starting Capacitors for Compressors: A Comprehensive Guide

Introduction
Starting capacitors play a crucial role in the efficient operation of compressors, especially in single-phase motors. They help generate the necessary starting torque and ensure smooth operation. This guide provides a detailed overview of starting capacitors, their importance, and how to select the right one for your compressor. We’ll also explore key specifications and troubleshooting tips to ensure optimal performance.

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1. What is a Starting Capacitor?

A starting capacitor is an electrical component used in single-phase motors to create a phase shift, which generates the torque needed to start the motor. Without a starting capacitor, single-phase motors would struggle to start due to insufficient torque.

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2. Key Functions of Starting Capacitors

• Generate Starting Torque: Provides the necessary torque to start the compressor motor.
• Phase Shift Creation: Creates a 90-degree phase shift to simulate a second phase in single-phase motors.
• Smooth Operation: Ensures the motor starts smoothly without excessive current draw.

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3. Table: Starting Capacitor Specifications for Compressors

Compressor Model	Power (W)	Voltage (V)	Capacitance (µF)	Max. Current (A)	Release Current (A)
BSA15	150	230	10	1.55	1.6
BSA10	250	230	15	2.43	2.07
B10A19	300	230	20	3.0	2.56
B12A12	350	230	25	3.5	2.95
B16A13	500	230	30	5.15	4.85
B9A11	750	230	35	7.0	5.9

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4. How to Calculate the Right Capacitor for Your Compressor

The capacitance of a starting capacitor is critical for optimal performance. Here’s a simple formula to calculate the required capacitance:

Formula:

C=P×1062πfV2cos⁡(ϕ)C=2πfV2cos(ϕ)P×106​

Where:

• CC = Capacitance (in microfarads, µF)
• PP = Motor power (in watts, W)
• ff = Frequency (in hertz, Hz, typically 50 or 60 Hz)
• VV = Voltage (in volts, V)
• cos⁡(ϕ)cos(ϕ) = Power factor (typically 0.85 for motors)

Example Calculation:
For a motor with:

• Power (PP) = 150 W
• Voltage (VV) = 230 V
• Frequency (ff) = 50 Hz
• Power factor (cos⁡(ϕ)cos(ϕ)) = 0.85

C=150×1062π50×2302×0.85≈10.61 μFC=2π×50×2302×0.85150×106​≈10.61μF

In this case, a 10 µF capacitor would be ideal.

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5. Common Issues with Starting Capacitors

• Failed Capacitor: A faulty capacitor can prevent the motor from starting or cause it to overheat.
• Incorrect Capacitance: Using a capacitor with the wrong capacitance can lead to insufficient torque or excessive current draw.
• Overheating: Poor ventilation or excessive load can cause the capacitor to overheat and fail.

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6. Troubleshooting Tips

1. Check Continuity: Use a multimeter to test the capacitor for continuity. A failed capacitor will show no continuity.
2. Measure Capacitance: Use a capacitance meter to ensure the capacitor’s value matches the required specifications.
3. Inspect for Physical Damage: Look for bulging, leaks, or burn marks on the capacitor, which indicate failure.
4. Test Under Load: Ensure the compressor starts smoothly and does not draw excessive current during startup.

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7. Advantages of Using the Right Starting Capacitor

• Improved Motor Lifespan: Reduces stress on the motor during startup.
• Energy Efficiency: Minimizes power consumption during operation.
• Reliable Performance: Ensures consistent and reliable compressor operation.

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8. Conclusion

Selecting the right starting capacitor for your compressor is essential for ensuring efficient and reliable operation. By understanding the specifications, calculating the correct capacitance, and performing regular maintenance, you can extend the lifespan of your compressor and avoid costly repairs.

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