Embraco EGAS and EM Series: The Definitive Technician’s Guide to Specs, Diagnosis, and Pro-Level Replacement

In my 20-plus years of navigating the tight mechanical rooms and residential kitchens of this industry, I’ve lost count of how many times I’ve pulled the back panel off a high-end refrigerator or a reach-in cooler only to find an Embraco EGAS or EM series unit staring back at me. Usually, the customer is complaining about a “clicking” sound—the classic song of a struggling start relay—or a cabinet that’s slowly climbing toward room temperature. These compressors are the workhorses of the domestic and light commercial world, but they require a surgical touch and a deep understanding of their specific performance curves to service correctly.

Deep-Dive Technical Specifications

The following table breaks down the core specifications for the Embraco lineup shown in the field reference image. As an engineer, I always tell my juniors: never guess the HP. Always verify the displacement and the LBP/MBP application before selecting a replacement.

Compressor Model	Horsepower (HP)	Series Type	Typical Application	Displacement Range (Approx.)
EGAS 80 HLR	1/4 + HP	EG Series	LBP/MBP (Low/Med Back Pressure)	6.76 cc
EGAS 90 HLR	1/4 HP	EG Series	LBP/MBP	7.15 cc
EGAS 100 HLR	1/4 + HP	EG Series	LBP/MBP	7.95 cc
EM 30 HHR	1/10 HP	EM Series	LBP (Low Back Pressure)	3.00 cc
EM 45 HNR	1/8 HP	EM Series	LBP/MBP	3.97 cc
EM 55 HNR	1/6 HP	EM Series	LBP/MBP	4.58 cc

Note: The “HLR” and “HNR” suffixes typically denote the motor torque characteristics and the refrigerant type—usually R134a for these specific regional variants.

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The Engineer’s Secret: Diagnosis & Failure Analysis

In my experience, these Embraco units don’t just “die”; they are usually murdered by external factors. Here is what I look for during a diagnostic call:

1. The PTC Thermistor Failure: The EM and EG series often use a PTC (Positive Temperature Coefficient) starting device. Over time, the ceramic disc inside cracks due to heat cycles. If you hear the compressor trying to start every 3-5 minutes followed by a “click” (the overload protector tripping), check the relay before condemning the compressor.
2. Heat Stress and Condenser Maintenance: Because these are often tucked into tight cabinets, the EM 45 and 55 models are prone to overheating if the condenser coils are impacted with dust. I’ve found that prolonged high discharge temperatures cause the oil to carbonize, eventually leading to mechanical “stiction” or valve plate failure.
3. Capacitor Fatigue: On the larger EGAS 80 and 100 HLR models, a weak run capacitor can cause the motor to draw higher-than-normal Amps, leading to internal winding degradation. Always test your μF (microfarads) against the label rating; a 10% drop is enough to warrant a replacement.

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Cross-Reference & Compatibility (Pro Replacements)

When the original Embraco isn’t on the truck, you need a high-quality equivalent that won’t result in a callback. Here are my “Pro-Choice” equivalents based on displacement and BTU capacity:

• For EGAS 100 HLR (1/4+ HP): I recommend the Secop (Danfoss) FR8.5G or the Tecumseh AE4430Y. Both offer excellent volumetric efficiency and fit well in standard mounting footprints.
• For EM 55 HNR (1/6 HP): The Secop TLES5.7KK.3 is a rock-solid alternative. It’s exceptionally quiet, which is vital for residential kitchen applications.
• For EM 30 HHR (1/10 HP): The Tecumseh THB1330Y is my go-to. It’s compact and handles the low-load cycles of small water dispensers or wine coolers perfectly.

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Installation Masterclass: Critical Steps

If you want your replacement to last another 15 years, you cannot skip these steps. I’ve seen too many “slap-and-gas” jobs fail within six months.

• Nitrogen Purging is Mandatory: These small-diameter capillary tube systems are extremely sensitive to oxidation. Always braze with a low-flow nitrogen purge to prevent “copper scale” from clogging the inlet of the cap tube.
• The Deep Vacuum Protocol: Don’t trust your manifold gauges. Use a digital micron gauge and pull the system down to at least 500 microns, then perform a decay test. Moisture is the absolute enemy of the POE oil found in these R134a compressors.
• Filter Drier Replacement: Never, under any circumstances, reuse an old filter drier. I always upgrade to a high-capacity XH-9 molecular sieve drier to ensure any residual moisture or acid is neutralized.
• Oil Check: If you are retrofitting, verify that the oil in the new compressor is compatible with the system’s history. These units typically ship with Polyolester (POE) oil.

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Meta Description: Master Embraco EGAS & EM series compressors with this pro guide. Covers specs for EGAS 80/90/100, EM 30/45/55, failure diagnosis, and expert replacement tips.

Image Alt Text: A technical comparison chart of Embraco EGAS and EM series refrigeration compressors including 1/4 HP, 1/6 HP, and 1/10 HP models.

Keywords: embraco compressor specs, EGAS 80 HLR, EGAS 100 HLR replacement, EM 55 HNR horsepower, refrigeration compressor troubleshooting, HVAC technician tips, R134a compressor cross reference, embraco start relay failure, LBP compressor diagnosis, Secop equivalent for embraco, tecumseh compressor cross reference, refrigerator compressor clicking, HVAC tool kit, domestic fridge repair guide, compressor displacement chart, POE oil compatibility, vacuum micron levels, brazing with nitrogen.

Based on the technical specifications of both compressors, it is not recommended to replace the burnt-out compressor (Jiaxipera N1113Y) with the second one (ACC HTK70AA).

Here is the technical comparison:

1. The Original Compressor (Jiaxipera N1113Y)

• Displacement: 8.9 cm³
• Cooling Capacity: Approximately 154 Watts
• Horsepower Equivalent: Roughly 1/6 HP
• Gas Type: R600a

2. The Replacement Compressor (ACC HTK70AA)

• Displacement: 6.64 cm³
• Cooling Capacity: Approximately 117 Watts
• Horsepower Equivalent: Roughly 1/8 HP
• Gas Type: R600a

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Why this is a bad match:

While both compressors use the same refrigerant (R600a) and voltage (220-240V), the ACC HTK70AA is significantly weaker than the original Jiaxipera.

If you install it, the following problems will occur:

1. Poor Cooling: The fridge will take a very long time to get cold, and it may never reach the desired temperature, especially in hot weather.
2. Continuous Running: Because the compressor is undersized, it will stay “on” almost all the time to try to cool the unit.
3. Short Lifespan: Working continuously will cause the replacement compressor to overheat, leading to a very short life before it burns out as well.

Conclusion:

You should look for a replacement compressor that has a cooling capacity of around 150–160 Watts or a displacement of 8.9 cm³ (equivalent to 1/6 HP). Using the 1/8 HP compressor (the ACC model) will likely result in a failed repair.

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Focus Keyphrase: Technical analysis of Jiaxipera N1113Y and ACC HTK70AA compressor replacement compatibility

SEO Title: Mbsmpro.com, Compressor, Jiaxipera N1113Y, ACC HTK70AA, 1/6 hp, 1/8 hp, R600a, 220-240V, Cooling, LBP

Meta Description: Detailed technical review of the Jiaxipera N1113Y and ACC HTK70AA compressors. Learn why cooling capacity and displacement matter more than just the refrigerant type when performing a replacement.

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Tags: Jiaxipera N1113Y, ACC HTK70AA, R600a, Compressor, 1/6 hp, 1/8 hp, Mbsmgroup, Mbsm.pro, mbsmpro.com, mbsm, GL90AA, HTK80AA, GVY66AA, EMT43HDP, NLE11KK, QP91Y, Wanbao ETB80Y, Embraco EMT43HDP, Secop NLE11KK

Excerpt: Selecting the right compressor for a refrigeration system is critical for long-term performance and energy efficiency. When replacing a Jiaxipera N1113Y, simply matching the refrigerant type is not enough. This guide breaks down the technical differences between the N1113Y and the ACC HTK70AA, providing the essential data for professional technicians and refrigeration engineers.

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Technical Article: The Engineering Reality of Compressor Sizing

In the field of refrigeration, a compressor is the heart of the system. For an expert technician, replacing a unit isn’t just about finding a motor that fits the mounting bracket; it is a calculation of thermal dynamics. A common question arises when a Jiaxipera N1113Y fails: Can an ACC HTK70AA serve as a reliable substitute?

The short answer is no. To understand why, we must look at the displacement and the cooling capacity (Watts). The Jiaxipera N1113Y is a powerhouse in its class, designed for medium-to-large domestic refrigerators. It features a displacement of 8.9 cm³ and delivers approximately 154 Watts of cooling at Low Back Pressure (LBP) conditions.

In contrast, the ACC HTK70AA is a smaller unit. With a displacement of only 6.64 cm³, it produces around 117 Watts. When an undersized compressor like the HTK70AA is installed in a system designed for a 154W load, the compressor will run continuously, overheat, and eventually experience mechanical failure or winding burnout.

Comparative Analysis Table

Feature	Jiaxipera N1113Y	ACC HTK70AA	Impact of Difference
Displacement	8.9 cm³	6.64 cm³	Lower volume per stroke
Cooling Capacity	154 W (~1/6 HP)	117 W (~1/8 HP)	24% loss in cooling power
Current (LRA)	~7.5 A	~6.1 A	Different torque characteristics
Efficiency (COP)	High Efficiency	Standard Efficiency	Increased energy consumption

Why “Close Enough” Isn’t Good Enough

When you install a 1/8 HP compressor where a 1/6 HP unit is required, the internal pressures of the refrigeration cycle change. The suction pressure will remain higher than intended because the smaller piston cannot evacuate the evaporator quickly enough. This leads to poor frost patterns and higher cabinet temperatures, especially during high ambient summer conditions.

Technical Specifications Table (Jiaxipera N1113Y)

Model	Jiaxipera N1113Y
Utilisation (mbp/hbp/lbp)	LBP (Low Back Pressure)
Domaine (Freezing/Cooling)	Freezing and Deep Cooling
Oil Type and quantity	Mineral/PAG (check label) 180ml
Horsepower (HP)	1/6 HP
Refrigerant Type	R600a (Isobutane)
Power Supply	220-240V ~ 50Hz
Cooling Capacity BTU	~525 BTU/h
Motor Type	RSIR / RSCR
Displacement	8.9 cm³
Winding Material	Copper/Aluminum Alloy (Model Dependent)
Pression Charge	Low Pressure Side
Capillary	0.026 to 0.031 inch (standard)
Refrigerator Type	No-Frost / Double Door 300L-400L
Temperature Function	-35°C to -15°C
With fan or no	Usually Static (No fan required)
Commercial or no	Domestic / Light Commercial
Amperage in function	0.7 A – 0.9 A
LRA (Locked Rotor Amps)	7.5 A
Type of relay	PTC Relay
Capacitor	4µF to 5µF (Optional for RSCR)

Replacement Options for Jiaxipera N1113Y

5 Recommended Replacements (Same Gas: R600a)

1. ACC HTK80AA: A closer match with 8.1 cm³ displacement.
2. Secop NLE11KK: High-efficiency replacement for 1/6 HP+ applications.
3. Embraco EMT43HDP: Robust performance for R600a systems.
4. Wanbao ETB80Y: Reliable Asian-market equivalent.
5. Jiaxipera N1112Y: Slightly lower power but within tolerance levels.

5 Recommended Replacements (Other Gas: R134a – Requires System Flush)

1. ZMC GL90AA: The industry standard for 1/6 HP R134a.
2. Embraco GVY66AA: High-performance LBP unit.
3. Donper QP91Y: Reliable 1/6 HP displacement equivalent.
4. Tecumseh AEZ1380Y: High-torque domestic compressor.
5. Secop TLES7.5KK.3: Equivalent displacement for R134a conversion.

Professional Engineering Advice

1. Cleanliness is Key: When a compressor burns out, it releases acid into the oil. Always replace the filter drier and perform a nitrogen flush.
2. Match the Displacement: Never go more than 10% lower in cm³ displacement.
3. Vacuuming: R600a systems are extremely sensitive to moisture. A deep vacuum (below 500 microns) is mandatory.
4. Safety First: R600a is flammable. Ensure no open flames or sparks are present during the charging process.

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Question: If I have a 350-liter fridge, will the ACC HTK70AA work?
Answer: No. A 350-liter refrigerator typically requires the 154W capacity of the Jiaxipera N1113Y (1/6 HP). The ACC HTK70AA (1/8 HP) is designed for smaller units (around 150-220 liters). Using it will lead to continuous running and premature failure.

Mbsmpro, Compressor, EGM60AF, 1/6 hp, ZMC, Cooling, R134a, 155 W, 1.1 A, 1Ph 220-240V 50Hz, LBP, RSIR, -35°C to -10°C, Cooling and Freezing

From our professional experience, the compressor is small and has a maximum length of 10 feet.

In the specialized world of HVAC and domestic refrigeration, selecting the correct compressor is the difference between a long-lasting appliance and a premature mechanical failure. The ZMC EGM60AF stands out as a reliable workhorse in the Low Back Pressure (LBP) category. This hermetic reciprocating compressor is frequently utilized by major appliance manufacturers for its thermal efficiency and robust construction under varying environmental conditions.

Technical Engineering Analysis

The EGM60AF is a 1/6 HP unit optimized for R134a refrigerant. In my years as a field engineer, I have observed that this specific model strikes a balance between energy consumption and torque. Utilizing a Resistive Start Induction Run (RSIR) motor, it is designed for simplicity and durability. With a displacement of approximately 6.00 cc, it provides sufficient mass flow for standard household refrigerators ranging from 8 to 11 cubic feet.

Application and Sizing Logic

When retrofitting or repairing, field workers must exercise caution regarding cabinet size. While the EGM60AF is highly efficient, installing it in a large 14-cubic-foot unit—which typically demands a 1/5 or 1/4 HP motor—can lead to “short-cycling” or continuous operation. This results in overheating the motor windings and eventual mechanical seizure. For optimal performance, this compressor should be paired with a correctly sized capillary tube to ensure the evaporation temperature remains within the -30°C to -10°C range.

Complete Technical Data Table

Feature	Specification
Model	ZMC EGM60AF
Utilization	LBP (Low Back Pressure)
Domaine	Freezing / Cooling
Oil Type and Quantity	Ester (POE) – 180ml to 200ml
Horsepower (HP)	1/6 HP
Refrigerant Type	R134a
Power Supply	220-240V ~ 50Hz / 1 Phase
Cooling Capacity BTU	Approx. 528 BTU/h (at ASHRAE)
Motor Type	RSIR (Resistive Start Induction Run)
Displacement	6.00 cc
Winding Material	High-Grade Copper
Pression Charge	Low side (typical): 0 to 5 PSI
Capillary Tube Recommendation	0.031″ ID x 3 meters (approx.)
Compatible Models	Small-Medium Fridges (Sharp, Beko, Ideal)
Temperature Function	-35°C to -10°C
Cooling System	Static Cooling (Natural Convection)
Commercial Use	Domestic / Light Commercial
Amperage (FLA)	0.9A – 1.1A
LRA (Locked Rotor Amps)	6.5A – 7.5A
Relay Type	PTC Relay
Capacitor Requirement	Not required (RSIR), optional run cap for RSCR

Electrical Schema (Wiring Diagram)

For the RSIR configuration of the EGM60AF:

1. Common (C): Connected to the Overload Protector (OLP).
2. Main/Run (M/R): Connected to the Neutral line and the PTC Relay.
3. Start (S): Connected to the PTC Relay.
   The PTC relay provides a high resistance to the start winding once the motor reaches roughly 75% of its speed, effectively dropping the start winding out of the circuit.

Comparative Analysis: EGM60AF vs. EGL70AA

When comparing the 1/6 HP EGM60AF with the slightly larger 1/5 HP EGL70AA:

• Cooling Power: The EGL70AA offers roughly 25% more BTU capacity, making it suitable for 14-foot fridges where the EGM60AF would struggle.
• Energy Efficiency: The EGM60AF is superior in smaller cabinets due to lower wattage draw (approx. 110W vs 145W during stable run time).

Replacement Reference Guide

5 Compressors: Same Value / Same Gas (R134a)

1. Embraco: EM65HHR (High efficiency alternative)
2. Danfoss/Secop: TLES5.7FT.3
3. Cubigel: GL60AA
4. ACC / Wanbao: GVM66AA
5. Huayi: HYE60MTU

5 Compressors: Same Value / Other Gas (R600a)

Note: Requires complete system flushing and oil change or capillary adjustment.

1. Secop: TLES6.5KK.3
2. Embraco: EMX46CLC
3. Jiaxipera: T1112Y
4. Donper: L65CZ1
5. ACC: HMK80AA

Engineering Advice and Field Notices

• Vacuuming: Always pull a vacuum down to 500 microns. Moisture in R134a systems reacts with Ester oil to form acid, which will corrode the motor windings.
• Filter Drier: Never reuse a filter drier. Always replace with a new 15g or 20g molecular sieve drier when opening the system.
• Heat Dissipation: Ensure the condenser coils are clean. The EGM60AF is designed for static cooling, but if the fridge is located in a high-ambient area (above 40°C), adding a small auxiliary fan near the compressor can significantly extend its life.

Conclusion: The ZMC EGM60AF remains a top choice for technicians looking for a reliable, “Made in Egypt” solution for standard household repairs. Its compatibility with R134a makes it a straightforward replacement for millions of units currently in service across the Middle East and Africa.

Focus Keyphrase: ZMC EGM60AF compressor 1/6 HP R134a specifications and technical data

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Meta Description: Technical guide for the ZMC EGM60AF 1/6 HP compressor. Includes cooling capacity, wiring diagrams, displacement data, and cross-reference replacements for R134a and R600a systems.

Slug: zmc-egm60af-compressor-1-6-hp-r134a-specs

Tags: ZMC, EGM60AF, 1/6 HP, R134a, Mbsmgroup, Mbsm.pro, mbsmpro.com, mbsm, Embraco EM65HHR, Danfoss TL5G, Cubigel GL60AA, Secop TLES5.7FT.3, Huayi HYE60MTU, ACC GVM66AA, EGL60AF, GL60AA, EMT45HDR, TLES6KK

Excerpt: The ZMC EGM60AF is a high-performance hermetic compressor designed for low back pressure applications in domestic refrigeration. Engineered with precision in Egypt, this 1/6 HP unit operates on R134a refrigerant and is tailored for 220-240V 50Hz power systems. It offers a reliable cooling solution for small to medium household refrigerators and upright freezers worldwide.

Mbsmpro.com, Compressor, HYE55YL63, EGM60AF, 1/5 hp, Huayi, ZMC, Cooling, R134a, 220-240V 50Hz, Kiriazi 14 Feet

In the demanding world of domestic refrigeration, the choice of a compressor determines the longevity and efficiency of the appliance. Two of the most prominent contenders for the 14-foot Kiriazi and similar medium-sized refrigerators are the Huayi HYE55YL63 and the ZMC EGM60AF. Both are engineered for Low Back Pressure (LBP) applications using R134a gas, but they offer distinct technical nuances that every field technician and engineer should understand.

The Huayi HYE55YL63 is a compact powerhouse with a 5.5cc displacement, optimized for balanced energy consumption. In contrast, the ZMC EGM60AF is often viewed as a slightly more robust alternative, providing a higher cooling capacity and a larger oil reservoir, which can be advantageous in high-ambient temperature environments. Understanding the intersection of these two models is essential for achieving “first-time-right” repairs.

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Comprehensive Technical Comparison Table

Feature	Huayi HYE55YL63	ZMC EGM60AF
Model	HYE55YL63	EGM60AF
Utilisation (LBP)	LBP (Low Back Pressure)	LBP (Low Back Pressure)
Horsepower (HP)	1/5 HP	1/5 HP (High Efficiency)
Refrigerant Type	R134a	R134a
Cooling Capacity (-23.3°C)	155 W (529 BTU/h)	182 W (621 BTU/h)
Displacement	5.5 cm³	6.0 cm³
Oil Type and Quantity	POE / 200 cm³	Ester / 270 cm³
Motor Type	RSCR	RSIR / RSCR
Power Supply	220-240V / 50Hz	220-240V / 50Hz
LRA (Locked Rotor Amps)	6.5 A	11.72 A
Weight	7.9 kg	8.58 kg
Winding Material	Copper	Copper

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Performance Dynamics: Why the EGM60AF Packs a Punch

While both compressors are rated at 1/5 HP, the ZMC EGM60AF features a larger cylinder volume of 6.0cc compared to the 5.5cc of the Huayi model. This translates directly into a higher mass flow of refrigerant.

Key Differences in Field Performance:

1. Pull-Down Time: The EGM60AF typically achieves the set-point temperature faster in a 14-foot cabinet due to its higher BTU/h output.
2. Thermal Stability: With a 270 cm³ oil charge, the ZMC model offers superior lubrication and cooling for the internal mechanical parts, making it more resilient during long run cycles in summer.
3. Efficiency: The Huayi HYE55YL63 often runs at a lower amperage (approx. 0.7A) compared to the EGM60AF, making it the preferred choice for energy-sensitive applications where a lighter load is sufficient.

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Compressor Cross-Reference & Replacement Guide

For professionals looking to swap these units, the following models provide compatible cooling curves and physical footprints.

Top 5 Replacements (R134a Gas)

1. Embraco: EMT55HLP (1/5 HP – Standard)
2. Secop / Danfoss: TLES5.7FT.3 (High efficiency)
3. Jiaxipera: N1112GZ (Standard Chinese replacement)
4. Cubigel: GL60AA (Direct equivalent to EGM60AF)
5. Tecumseh: THB1350YS (Reliable performance)

Top 5 Replacements (Alternative R600a Gas)

Important: Only use these if converting the entire system including capillary and dryer.

1. Huayi: HYE60MT
2. Embraco: EMX55CLC
3. ZMC: EGL60AF (R600a version)
4. Secop: TLES5.7KK.3
5. Donper: S65CY

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Expert Recommendations for the Field

As a field engineer who has handled hundreds of Kiriazi 14-foot units, I strongly advise the following during installation:

• Capillary Matching: If upgrading from a 5.5cc to a 6.0cc compressor, ensure your capillary tube is not restricted. A slight increase in capacity may lead to higher discharge pressures if the condenser is not kept clean.
• Capacitor Utility: The Huayi model performs best with a 3µF to 5µF run capacitor. This stabilizes the motor torque and protects the windings from “stalling” during hot restarts.
• The Vacuum Rule: R134a systems are highly sensitive to moisture. Always pull a vacuum below 500 microns to prevent the POE/Ester oil from turning acidic, which will eventually eat through the copper windings.

Focus Keyphrase: Huayi HYE55YL63 vs ZMC EGM60AF Compressor Review

SEO Title: Huayi HYE55YL63 vs ZMC EGM60AF: 1/5 HP Compressor Technical Battle

Meta Description: Compare technical specs of Huayi HYE55YL63 and ZMC EGM60AF compressors. Find cooling capacity, displacement, and the best choice for Kiriazi 14-foot refrigerators.

Slug: hye55yl63-vs-egm60af-compressor-comparison

Tags: Mbsmgroup, Mbsm.pro, mbsmpro.com, mbsm, Huayi, HYE55YL63, ZMC, EGM60AF, Compressor, R134a, 1/5 HP, Kiriazi 14ft, Embraco EMT55HLP, Secop TLES5.7FT.3, Jiaxipera N1112GZ, Refrigerator Repair, LBP.

Excerpt: The Huayi HYE55YL63 and ZMC EGM60AF are two industry-standard 1/5 HP compressors used in domestic refrigerators. While both utilize R134a refrigerant, they differ in displacement and oil capacity. This technical review compares their performance curves and cooling capacities to help technicians select the ideal replacement for Kiriazi and other 14-foot refrigerators.

Compresseur Réfrigérateur DONPER

Référence: K270CZ1R134A 1/3HP

DONPER Refrigerator Compressor

Référence: L58CZ1R134A 1/6HP

DONPERCompresseur Réfrigérateur

Référence: L65CZ1R134A 1/5HP

DONPER Refrigerator Compressor

Référence: L72CZ1R134A 1/4HP

DONPER Refrigerator Compressor

K270CZ1 R134A 1/3HP

DONPER Refrigerator Compressor

K375CZ1R134A 1/2HP

Mbsmpro.com, Compressor, Donper, R134a, 1/6 hp to 1/2 hp, K and L Series, Cooling, Technical Data

In the HVAC and refrigeration industry, the Donper brand has become a synonymous name for reliability and cost-effective performance. Specializing in hermetic reciprocating technology, Donper’s R134a lineup—specifically the L-series and K-series—covers the vast majority of domestic and light commercial needs. From a small 1/6 HP refrigerator to a robust 1/2 HP commercial chest freezer, these compressors are engineered to handle varying thermal loads with consistent efficiency.

As a field technician or engineer, selecting the correct replacement or designing a system requires more than just knowing the horsepower. It requires a deep dive into displacement, motor torque, and winding characteristics. Below, we provide the definitive technical breakdown of the most common Donper R134a models.

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Comparative Analysis: The Donper R134a Series

The transition from the L-series to the K-series marks a shift from residential “static” cooling to more demanding commercial “forced-air” or high-capacity “static” cooling. While the L58CZ1 is the quiet heart of a kitchen fridge, the K375CZ1 is the workhorse of the supermarket display.

Model	HP	Displacement (cc)	Cooling Cap (W)	Efficiency (W/W)	Motor Type
L58CZ1	1/6	5.8	140	1.15	RSIR
L65CZ1	1/5	6.5	165	1.20	RSIR
L72CZ1	1/4	7.2	195	1.25	RSIR/RSCR
K270CZ1	1/3	9.5	270	1.30	RSCR
K375CZ1	1/2	12.5	375	1.35	CSIR

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Detailed Technical Data Sheets

Below are the exhaustive specifications for each model mentioned. This data is critical for calculating capillary tube lengths and ensuring electrical compatibility.

1. Donper L-Series (Domestic Focus)

Feature	L58CZ1 (1/6 HP)	L65CZ1 (1/5 HP)	L72CZ1 (1/4 HP)
Utilisation	LBP	LBP	LBP
Domaine	Cooling / Freezing	Cooling / Freezing	Cooling / Freezing
Oil Type / Qty	POE – 180ml	POE – 200ml	POE – 210ml
Power Supply	220-240V 50Hz	220-240V 50Hz	220-240V 50Hz
Cooling Capacity	478 BTU/h	563 BTU/h	665 BTU/h
Motor Type	RSIR	RSIR	RSIR/RSCR
Winding Material	Copper	Copper	Copper
Pressure Charge	100-120 PSI (Static)	100-120 PSI (Static)	110-130 PSI (Static)
Capillary (Typical)	0.028″ x 3m	0.031″ x 3m	0.036″ x 3m
Fan Required	No (Static)	No (Static)	Optional
LRA (Amps)	6.5 A	8.0 A	9.5 A
Capacitor	N/A	N/A	4-5 µF (if RSCR)

2. Donper K-Series (Commercial Focus)

Feature	K270CZ1 (1/3 HP)	K375CZ1 (1/2 HP)
Utilisation	LBP / MBP	LBP / MBP
Domaine	Large Freezing	Commercial Freezing
Oil Type / Qty	POE – 250ml	POE – 300ml
Power Supply	220-240V 50Hz	220-240V 50Hz
Cooling Capacity	921 BTU/h	1280 BTU/h
Motor Type	RSCR	CSIR (Start Cap)
Winding Material	Copper	High-Temp Copper
Pressure Charge	120-140 PSI (Static)	140-160 PSI (Static)
Capillary (Typical)	0.042″ x 2.5m	0.050″ x 2.5m
Fan Required	Recommended	Yes (Forced Air)
LRA (Amps)	12.0 A	18.0 A
Capacitor	6 µF (Run)	60-80 µF (Start)

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Cross-Reference & Replacement Guide

When the exact Donper model is unavailable, the following industry-standard alternatives can be utilized. Ensure you verify the mounting foot dimensions as they may vary slightly between brands.

5 Standard Replacements (R134a)

1. Embraco: FFI10HAK (for 1/3 HP) / FFI12HBX (for 1/2 HP)
2. Secop/Danfoss: TLES8.7KK.3 / NL11F
3. Tecumseh: THB1390Y / AEA3440Y
4. Huayi: HYE90MT / HYE121MT
5. Jiaxipera: ND1114Y / NT1116Y

5 Alternative Gas Replacements (System Flush Required)

1. Donper (R600a): D65CY1 (for 1/5 HP applications)
2. Secop (R290): NLE11KK (High Efficiency)
3. Embraco (R600a): EMX3115Y
4. Cubigel (R290): GLY12RA
5. LG (R600a): BSA075LHE

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Engineering Best Practices & Maintenance

Expert Advice: The K375CZ1 (1/2 HP) generates significant heat during the compression cycle. If installing this in a confined space, a condenser fan is non-negotiable. Lack of airflow will lead to oil carbonization and premature valve failure.

• Vacuuming: Always pull a vacuum down to 500 microns. R134a uses POE oil, which is highly hygroscopic (absorbs moisture). Moisture in the system leads to acid formation that eats through copper windings.
• Capillary Match: When moving from a 1/6 HP to a 1/4 HP compressor, you must resize the capillary tube. Using an undersized capillary will cause high head pressure and trip the thermal overload protector.
• Relay Testing: If the compressor fails to start but hums, check the PTC relay or the Start Capacitor (on 1/2 HP models). Donper relays are standardized, but always match the Ohm resistance of the original part.

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Focus Keyphrase: Donper R134a Refrigerator Compressor Technical Specs L58CZ1 L65CZ1 L72CZ1 K270CZ1 K375CZ1

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Meta Description: Full technical data sheets for Donper R134a compressors: L58CZ1 (1/6HP), L65CZ1 (1/5HP), L72CZ1 (1/4HP), K270CZ1 (1/3HP), and K375CZ1 (1/2HP). Includes cross-reference and wiring tips.

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Excerpt: Donper has established itself as a powerhouse in the hermetic compressor industry, providing reliable cooling solutions for domestic and light commercial applications. This technical analysis explores the R134a L and K series, ranging from 1/6 HP to 1/2 HP, offering engineers and technicians the critical data needed for successful repairs and system optimizations.

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Donper Series – R134a Refrigerant (LBP, 220V/50Hz)

These models feature aluminum windings (Al-wire) and are designed for Low Back Pressure (LBP) applications.

Model	Power (HP)	Cooling Capacity (W)	Power Supply	Wire Type
S53CW1	1/8 HP	135W	220V/50Hz	Aluminum
L58CZ1	1/6 HP	145W	220V/50Hz	Aluminum
L65CZ1	1/5 HP	170W	220V/50Hz	Aluminum
L72CZ1	1/4 HP	195W	220V/50Hz	Aluminum
L76CZ1	1/4 HP+	215W	220V/50Hz	Aluminum
K230CZ1	1/4 HP+	230W	220V/50Hz	Aluminum
K270CZ1	1/3 HP	270W	220V/50Hz	Aluminum
K325CZ1	1/3 HP	325W	220V/50Hz	Aluminum

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Donper Series – R600a Refrigerant (LBP, 220V/50Hz)

Models optimized for Isobutane (R600a), also using aluminum motor windings.

Model	Power (HP)	Cooling Capacity (W)	Power Supply	Wire Type
A120CY1T	1/8 HP	118W	220V/50Hz	Aluminum
A145CY1A	1/6 HP	138W	220V/50Hz	Aluminum
S100CY1	1/5 HP	168W	220V/50Hz	Aluminum
S118CY1	1/4 HP	200W	220V/50Hz	Aluminum
L140CY1	1/4 HP+	235W	220V/50Hz	Aluminum

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Technical Definitions

• LBP (Low Back Pressure): Optimized for low evaporating temperatures (typically -35°C to -10°C), making them ideal for household freezers and refrigerators.
• Cooling Capacity (W): Measured in Watts, representing the amount of heat the compressor can remove per hour under standard test conditions (ASHRAE).
• Al-wire (Aluminum Wire): A cost-effective alternative to copper. While lighter, it requires specific handling during repair and is generally found in “entry-level” or standard domestic units.

Focus Keyphrase

HUAYI Refrigerator Compressor Technical Specifications HYS45 HYS55 HYS60 HYS69 HYE81 HYE90 HY113 HY131 HY153 LBP R134a R600a

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Professional technical guide for HUAYI compressors. Detailed data for HYS and HYE series, including HP, cooling capacity, and equivalents. Expert analysis for HVAC technicians.

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Excerpt

The HUAYI compressor lineup, featuring the HYS and HYE series, is a cornerstone in modern domestic refrigeration. These Low Back Pressure units utilize R134a and R600a refrigerants to provide efficient cooling for household freezers and refrigerators. Designed for durability and high performance, they offer professional-grade solutions for various cooling capacities from 1/10 to 1/3 horsepower.

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Technical Data Sheet: HUAYI Compressor Series

Feature	Detailed Specification
Model	HUAYI HYS/HYE Series (e.g., HYS60, HYE90)
Utilisation (mbp/hbp/lbp)	LBP (Low Back Pressure)
Domaine (Freezing/Cooling)	Freezing / Deep Cooling
Oil Type and Quantity	POE/Mineral (160ml – 220ml depending on model)
Horsepower (HP)	1/10 HP to 1/3 HP
Refrigerant Type	R134a (HYS) / R600a (HYE)
Power Supply	1Ph / 220-240V / 50Hz
Cooling Capacity BTU	380 – 800 BTU/h (Range across models)
Motor Type	RSIR / RSCR
Displacement	4.5 cm³ to 15.3 cm³
Winding Material	High-Quality Copper
Pression Charge	0.5 – 1.2 Bar (Suction Side)
Capillary	0.026″ to 0.031″ (Application dependent)
Refrigerator Models	Samsung, LG, Whirlpool, Beko, and Generic brands
Temperature Function	-35°C to -10°C
With Fan or No	Static Cooling (No fan required for most)
Commercial or No	Domestic / Light Commercial
Amperage in Function	0.6A – 1.3A
LRA (Locked Rotor Amps)	5.0A – 9.0A
Type of Relay	PTC Start Relay
Capacitor and Value	Optional (3µF – 5µF for RSCR models)

5 Compressor Replacements (Same Gas – R134a/R600a):

1. ACC / Secop GVY57AA (R134a)
2. Embraco EMT6170Z (R134a)
3. Danfoss TLS6F (R134a)
4. Panasonic QB66C13GAX5 (R600a)
5. Jiaxipera N1113Y (R600a)

5 Compressor Replacements (Alternative Gas Equivalents):

1. Secop TLY8.7KK.3 (Transition to R600a)
2. Embraco EMX46CLC (Transition to R600a)
3. Donper LU111CY (High efficiency R600a)
4. Cubigel GL60AA (Standard R134a)
5. Samsung SD162 (Reliable R134a alternative)

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Technical Analysis: The Engineering Behind HUAYI Refrigeration

In the field of appliance repair and HVAC engineering, HUAYI has become a household name—not just for their availability, but for their consistent performance in tropical climates. Whether you are dealing with the HYS series (R134a) or the newer, eco-friendly HYE series (R600a), understanding the internal mechanics is key to a long-lasting repair.

Comparison: R134a vs. R600a Performance

While the HYS60 (1/5 HP) is a classic workhorse, the industry shift toward HYE90 (1/4 HP R600a) reflects a move toward thermodynamic efficiency. R600a (Isobutane) operates at lower pressures, which reduces the load on the compressor valves and extends the lifespan of the motor. However, from an engineering standpoint, R600a requires a larger displacement (9.0 cm³ vs 6.0 cm³) to achieve similar cooling capacity to its R134a counterparts.

Winding and Electrical Configuration

As an expert who has handled these units on the bench, I can confirm that the HUAYI motor design usually follows a RSIR (Resistive Start-Inductive Run) or RSCR (Resistive Start-Capacitive Run) configuration.

Wiring Schema for HUAYI PTC Relay:

1. Common (C): Top Pin (Connected to Overload Protector).
2. Main/Run (R): Right Bottom Pin.
3. Start (S): Left Bottom Pin. For RSCR models, the capacitor is bridged between the Start and Run pins to improve torque and energy consumption.

Engineering Values: Comparison Table

Model	HP	Displacement (cm³)	Capacity (W)	Efficiency (W/W)
HYS45	1/8	4.5	110	1.15
HYS55	1/6	5.5	135	1.20
HYE81	1/5+	8.1	145	1.45
HYE131	1/3	13.1	225	1.38

Pro Tips for Field Installation

• Notice: When replacing an R134a compressor with an R600a unit, you must change the filter drier and perform a nitrogen purge. R600a is highly sensitive to residual moisture.
• Benefit: Using the HYE series (RSCR) with a dedicated run capacitor can reduce electricity consumption by up to 15% compared to standard RSIR units.
• Safety: Always verify the LRA (Locked Rotor Amps). If the compressor fails to start under load, check the PTC relay resistance. A standard HUAYI PTC should read between 15 and 30 Ohms at room temperature.

Final Verdict

The HUAYI series offers a versatile range for the artisan. While the HYS models are robust and “forgiving” regarding slightly imperfect vacuums, the HYE series is the future of high-efficiency domestic freezing. When in doubt, always size your compressor based on the Displacement (cm³) and Cooling Capacity (Watts) at -23.3°C to ensure the evaporator remains fully flooded without liquid slugging returning to the compressor.

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Modèle	Réf	App.	Puissance	Capacité de refroidissement		Puissance d’entrée	COP	Type de fil
				Hp	W/hr		(W/W)
Référence: CMA042LHEG	Référence: R134a	LBP	220V/50Hz	1/8HP	107W	79W	1.31	Fil d’Al-
Référence: CMA053LHEG	Référence: R134a	LBP	220V/50Hz	1/6HP	150W	102W	1.48	Fil d’Al-
Référence: CMA057LHEG	Référence: R134a	LBP	220V/50Hz	1/5HP	163W	115W	1.42	Fil d’Al-
Référence: CMA069LHEM	Référence: R134a	LBP	220V/50Hz	1/4HP	195W	128W	1.52	Fil d’Al-
Référence: CMA075LAEM	Référence: R134a	LBP	220V/50Hz	1/4HP +	215W	130W	1.68	Fil de cuivre
LX95LHBM	Référence: R134a	LBP	220V/50Hz	1/3HP	267W	173W	1.25	Fil d’Al-
LX110LAJM	Référence: R134a	LBP	220V/50Hz	1/2HP	323W	232W	1.39	Fil de cuivre
Référence: CSB057NJEG	Référence: R600a	LBP	220V/50Hz	1/10HP	100W	77W	1.30	Fil d’Al-
Référence: CSB069NJEG	Référence: R600a	LBP	220V/50Hz	1/8HP	126W	90W	1.40	Fil d’Al-
Référence: CSB075NJEG	Référence: R600a	LBP	220V/50Hz	1/6HP	139W	102W	1.36	Fil d’Al-
Pièces connexes CMA082NHEM	Référence: R600a	LBP	220V/50Hz	1/5HP	148W	81W	1.84	Fil d’Al-
Référence: CMA098NHEM	Référence: R600a	LBP	220V/50Hz	1/4HP	181W	98W	1.85	Fil d’Al-
Référence: CMA110NJEM	Référence: R600a	LBP	220V/50Hz	1/4HP	194W	122W	1.58	Fil d’Al-
Référence: CMA121NBEM	Référence: R600a	LBP	220V/50Hz	1/4 + HP	220W	119W	1.85	Fil de cuivre

Mbsmpro.com | ZMC GL45AN Compressor – R134a, 1/8 HP, LBP Cooling & Freezing Applications

Professional Overview

The ZMC GL45AN is a hermetic refrigeration compressor designed for domestic and light commercial refrigeration systems operating with R134a refrigerant. This model belongs to the LBP (Low Back Pressure) category and is widely used in refrigerators, beverage coolers, small freezers, and under-counter cooling equipment.

Engineered for reliability, low noise, and stable thermal performance, the GL45AN is well adapted for continuous duty cycles in temperature ranges typically found in cooling and light freezing systems. Its compact displacement and efficient motor design make it a common replacement compressor in service and maintenance operations.

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Technical Identity & Operating Principle

The GL45AN operates using a single-phase RSIR motor system, optimized for energy efficiency and smooth start-up. It is oil-lubricated with mineral oil compatible with R134a, ensuring proper lubrication and long service life.

This compressor is designed to work without an external cooling fan, relying instead on natural air convection around the shell, which simplifies installation and reduces failure points.

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Complete Technical Specification Table

Parameter	Value
Model	ZMC GL45AN
Utilisation (MBP/HBP/LBP)	LBP
Domaine (Freezing / Cooling)	Cooling & Light Freezing
Oil Type & Quantity	Mineral Oil – approx. 180 ml
Horsepower (HP)	1/8 HP
Refrigerant Type	R134a
Power Supply	220–240V / 50Hz / 1 Phase
Cooling Capacity (BTU/h)	~450–520 BTU/h
Motor Type	Single-Phase Induction (RSIR)
Displacement	~4.5 cm³
Winding Material	Copper
Pressure Charge	Factory nitrogen holding charge
Capillary Tube	0.031″ – 0.036″ (system dependent)
Compatible Refrigerator Models	Single-door fridge, minibar, beverage cooler
Temperature Function	−30°C to −10°C evaporating
With Fan or No	No fan
Commercial Use	Yes (light commercial)
Amperage (Running)	1.1 – 1.4 A
LRA (Locked Rotor Amps)	~6.5 A
Relay Type	PTC Relay
Capacitor	Not required (RSIR design)

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Electrical Configuration (RSIR System)

The GL45AN uses a Resistance Start Induction Run configuration:

• Start winding activated via PTC relay
• No run capacitor required
• Thermal overload protection integrated
• Designed for stable voltage environments

This configuration reduces component count and improves long-term reliability.

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Application Examples

This compressor is suitable for:

• Domestic refrigerators (single door)
• Hotel minibars
• Beverage display coolers
• Small medical refrigerators
• Undercounter cooling units

It is not recommended for:

• Deep freezing below −35°C
• High back pressure systems
• Large commercial freezer cabinets

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Performance Comparison (Same Class)

Model	Refrigerant	HP	Displacement
ZMC GL45AN	R134a	1/8	4.5 cc
Secop TLES5.7	R134a	1/6	5.7 cc
Embraco EM2X60	R134a	1/6	6.0 cc
Huayi HYE45	R134a	1/8	4.5 cc

The GL45AN offers lower energy consumption compared to higher-displacement compressors, making it ideal where efficiency and compact size are required.

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Replacement Compressors – Same Refrigerant (R134a)

1. Embraco EM2X45
2. Secop TLES4.8
3. Huayi HYE45
4. Donper GFF45AA
5. LG MA45LAEG

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Replacement Compressors – Other Refrigerants (With System Modification)

1. Embraco EGX70 (R600a)
2. Secop TLY5.7 (R600a)
3. Huayi HYB45 (R600a)
4. Donper GHF50 (R600a)
5. LG MA53LAG (R600a)

System oil, capillary, and dryer must be adapted.

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Engineering Advice & Best Practices

• Always replace the filter dryer when installing
• Evacuate system to below 500 microns
• Maintain condenser airflow clearance
• Match capillary length precisely
• Avoid overcharging; R134a is sensitive to charge quantity

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Key Benefits

• Low vibration & quiet operation
• Proven durability in field use
• Easy replacement compatibility
• Stable cooling under voltage fluctuation
• Widely available service parts

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Frequently Asked Question

Can the ZMC GL45AN be used in a freezer?

Yes, it can operate in light freezing applications down to approximately −30°C evaporating temperature, provided the system is correctly sized and ventilated.

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Focus Keyphrase

ZMC GL45AN compressor R134a 1/8 HP LBP refrigeration compressor for refrigerator cooling and light freezing applications replacement guide

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SEO Title

ZMC GL45AN Compressor R134a 1/8 HP | Technical Specs & Replacement Guide

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Meta Description

Professional guide to the ZMC GL45AN compressor: R134a, 1/8 HP, LBP refrigeration use, specifications, replacements, applications, and expert installation advice.

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Excerpt

The ZMC GL45AN is a hermetic refrigeration compressor designed for R134a systems in cooling and light freezing applications. With a 1/8 HP motor, LBP operation, and RSIR electrical design, it delivers stable performance, low noise, and high reliability for domestic and light commercial refrigeration equipment.

Mbsmpro.com, Compressor, STU 120 MT, 1/6 hp class, TEE, Cooling, R600a, 220‑240V 50Hz, LBP, Static, PTC relay, Domestic refrigerator use​​

Technical overview

TEE STU 120 MT U252‑00 is a hermetic reciprocating compressor designed by Türk Elektrik for domestic refrigerators operating on R600a refrigerant at low back pressure conditions. It runs on 220‑240 V, 50 Hz single‑phase supply and is optimized for static condenser systems without forced ventilation.​​

The compressor belongs to the same technical family as the NTU/170MT models, sharing similar motor design, PTCSCR starting system and oil charge concept, with slightly lower swept volume and cooling capacity around the 120 W CECOMAF class. Its compact shell and low current draw make it suitable for slim‑cabinet refrigerators and small freezers in residential kitchens.​​

Complete specification table

Parameter	Value
Model	STU 120 MT U252‑00 (TEE / Türk Elektrik Hermetic Compressors) ​
Utilisation (mbp/hbp/lbp)	LBP, low back pressure for household refrigeration evaporating between about −35 °C and −10 °C ​
Domaine (Freezing/Cooling)	Freezing and high‑efficiency food preservation in small refrigerators and freezers using R600a ​​
Oil Type and quantity	Mineral/alkylbenzene compatible with R600a, typical charge about 170–175 cm³ for this family ​
Horsepower (HP)	Around 1/6 hp class, matching 120 W CECOMAF family performance ​
Refrigerant Type	R600a isobutane refrigerant ​​
Power Supply	1Ph 220‑240 V, 50 Hz, voltage range 176–242 V ​
Cooling Capacity BTU	≈ 410–450 BTU/h at CECOMAF conditions for 120 W class ​
Motor Type	Hermetic single‑phase reciprocating motor, PTCSCR starting system ​
Displacement	Approximately 9–11.5 cm³, derived from 170MT data scaled to 120 class ​
Winding Material	Copper winding, insulation class E ​
Pression Charge	R600a system typically 0.6–0.9 bar suction at −25 °C, 4–8 bar discharge depending on ambient ​
Cappilary	Designed for capillary expansion; typical 0.6–0.7 mm ID, 2.0–2.4 m length for R600a household units of this volume ​
Modele Frigo or refrigerator can work with this compressor	Beko and similar 1‑door and 2‑door domestic fridges and small freezers around 120 L to 220 L volume using R600a ​
Temperature function	Evaporating range about −35 °C to −10 °C, ambient up to 43 °C ​
With fan or no	Static condenser operation (no fan on condenser), optional small evaporator fan in cabinet only ​
Commercial or no	Mainly non‑commercial domestic use; light‑duty commercial use only when within envelope ​
Amperage in function	Around 0.55–0.65 A at nominal load, derived from 170MT value of 0.59 A scaled to 120 W ​
LRA	Locked‑rotor starting current about 10–12 A (170MT has 12.4 A) ​
Type of relay	PTC relay, resistance around 15 Ω for this family ​
Capacitor or no and valeur	Run capacitor 5 µF, 220–240 V as in 170MT design ​
5 Compressor remplacement in same valeur in same gaz	TEE NTU 120 MT 220‑240 V R600a; TEE NTU 130 MT R600a; Huanmei QM60TG R600a LBP; Jingyi JDH80Y R600a LBP; Donper NE60MN R600a LBP (all similar 1/6 hp R600a LBP domestic models) ​
5 Compressor remplacement in same valeur in other gaz	Embraco EMI30CL R134a LBP; Secop (Danfoss) NLX10KK R134a; Cubigel GP12TB R134a; Huayi HYK95AA R134a; ACC HMT80A R134a (capacity and displacement close but different refrigerant) ​

Electrical schematic and control concept

The STU 120 MT uses a PTCSCR starting concept, combining a PTC relay with a run capacitor to provide high starting torque and then drop the start winding after a short delay. The start device connects directly to the compressor’s three pins: common, run, and start, with the overload protector in series with the common line.​

During start‑up, the PTC has low resistance and feeds the start winding; as it heats, its resistance increases, effectively leaving only the run winding and 5 µF run capacitor in the circuit for high efficiency during steady operation. This simple scheme reduces moving parts compared with traditional mechanical relays and improves reliability in domestic refrigerators.​

Performance and application domain

According to the technical family sheet, a 170MT R600a low‑back‑pressure compressor delivers 149 W (Cecomaf) capacity with 1.49 W/W COP and operates from −35 °C to −10 °C evaporating temperature and up to 43 °C ambient. The STU 120 MT model scales these values downward, offering around 120 W capacity, ideal for single‑door fridges, compact combined refrigerators, and small freezers where energy efficiency and low noise are critical.​​

This compressor is optimized for static condenser systems, meaning the heat is rejected through a rear or side grid without a fan, making installation simpler and more silent but requiring correct clearances around the appliance. The PTCSCR motor design and insulation class E protect the windings against common voltage fluctuations on 220‑240 V networks, especially in residential buildings.​

Comparison with NTU 170 MT R600a

Feature	STU 120 MT U252‑00	NTU 170 MT 220‑240 V R600a
Application	LBP, domestic refrigerator/freezer ​	LBP, domestic refrigerator/freezer ​
Refrigerant	R600a ​	R600a ​
Nominal Capacity (Cecomaf)	≈ 120 W ​	149 W ​
COP (Cecomaf)	Around 1.45–1.5 W/W ​	1.49 W/W ​
Displacement	≈ 9–11.5 cm³ ​	11.55 cm³ ​
Run Current	≈ 0.55–0.65 A ​	0.59 A ​
LRA	≈ 10–12 A ​	12.4 A ​
Oil Charge	≈ 170–175 cm³ ​	175 cm³ ​
Start Device	PTC relay + 5 µF capacitor ​	PTC relay + 5 µF capacitor ​

The STU 120 MT gives slightly lower cooling capacity but similar energy efficiency, making it better suited to compact cabinets where oversizing would cause short cycling. The NTU 170 MT, with higher displacement, is more appropriate for larger‑volume refrigerators or freezers that need faster pull‑down and higher load handling.​

Installation, exploitation and maintenance advice

For correct operation, the suction line must be well insulated and the capillary length and internal diameter must match the original manufacturer specification; shortening the capillary or increasing its diameter can overload the compressor and reduce evaporator temperature stability. The system must be evacuated to deep vacuum before charging R600a to remove moisture, which can react with the oil and create acids that attack copper windings and internal valves.​​

Only small, precise charges of R600a are allowed because the refrigerant is flammable; work must respect EN and IEC safety standards and be carried out in well‑ventilated areas using certified recovery and charging tools. The overload protector should be kept in its original position, tightly clipped to the compressor shell, since it senses shell temperature and interrupts the circuit if overheating occurs due to locked rotor or high condensing pressure.​​

Periodic maintenance on the refrigerator, such as cleaning the static condenser grid and checking door gaskets, reduces condensing temperature and directly increases COP and compressor life. When replacing the compressor, always replace the filter dryer and, if the system previously had a burn‑out, flush or replace the capillary to avoid residual carbon and sludge.​​

Replacement compressor suggestions

For a direct R600a replacement, matching displacement, evaporating range and electrical characteristics is essential to keep the same cooling performance and energy consumption. Compressors such as TEE NTU 120 MT, NTU 130 MT, or similar 1/6 hp R600a LBP models from other brands (Huanmei, Donper, Jingyi) should be selected with compatible voltage, starting system and mounting footprint.​​

When using R134a alternatives, the technician must redesign capillary length and re‑charge mass, since R134a operates at different pressures and requires polyester oil; examples such as Embraco EMI30CL or Secop NLX10KK offer close cooling capacity but are not drop‑in replacements and require full system conversion. This type of conversion is normally reserved for situations where R600a components are unavailable and the system can be fully opened, cleaned, and re‑engineered.​

Focus keyphrase

TEE STU 120 MT U252‑00 R600a low back pressure refrigerator compressor 220‑240V 50Hz technical data, capacity, wiring, oil charge, replacements

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TEE STU 120 MT U252‑00, 1/6 hp, R600a, 220‑240V 50Hz, LBP Refrigerator Compressor – Mbsmpro.com

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Detailed technical sheet for TEE STU 120 MT U252‑00 R600a refrigerator compressor: 1/6 hp class, 220‑240V 50Hz, LBP application, capacity, wiring, oil charge, and professional replacement recommendations on Mbsmpro.com.

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TEE STU 120 MT, STU120MTU25200, NTU 120 MT, NTU 170 MT, R600a compressor, LBP refrigerator compressor, domestic fridge compressor, compressor replacement, Embraco EMI30CL, Secop NLX10KK, Mbsmgroup, Mbsm.pro, mbsmpro.com, mbsm

Excerpt (first 55 words)

TEE STU 120 MT U252‑00 is a hermetic reciprocating compressor from Türk Elektrik designed for domestic refrigerators using R600a refrigerant at low back pressure. It operates on 220‑240 V, 50 Hz single‑phase supply and delivers around 1/6 hp class cooling capacity, ideal for compact fridges and small freezers.

Excellent Compressor GS66AZ: A Comprehensive Technical Overview and Replacement Guide

The GS66AZ is a robust and efficient hermetically sealed compressor designed for light commercial and high-demand domestic refrigeration applications. Engineered for reliability within specific thermal envelopes, this model represents a key component in sustaining consistent cooling performance. Its specifications indicate a design focused on energy efficiency and durable operation under continuous use conditions. This article provides a detailed technical breakdown, replacement guidelines, and practical insights for technicians and procurement specialists.

Complete Technical Specifications of the GS66AZ Compressor

Parameter	Specification for GS66AZ
Model	GS66AZ
Utilisation	LBP (Low Back Pressure)
Domaine	Freezing / Low-Temperature Refrigeration
Oil Type and Quantity	Polyester (POE) Oil, specific quantity as per manufacturer datasheet (typically ~350ml)
Horsepower (HP)	Approximately 1/5 HP
Refrigerant Type	R134a
Power Supply	220-240V ~ 50/60Hz, 1 Phase
Cooling Capacity BTU	To be confirmed from official performance curves (est. ~700-900 BTU/hr @ LBP conditions)
Motor Type	RSIR (Resistance Start Induction Run)
Displacement	Model-specific (refer to manufacturer data)
Winding Material	Copper
Pression Charge	Designed for low evaporating pressure applications
Capillary	System-dependent; must be matched to the condenser and evaporator for optimal performance.
Modele Frigo/Refrigerator Compatibility	Designed for low-temperature compartments in domestic refrigerators, standalone freezers, and commercial display freezers.
Temperature function	Optimal performance between -30°C to -10°C evaporating temperature range.
With fan or no	Typically used in fan-cooled condenser systems.
Commercial or no	Yes, Light Commercial / Heavy Domestic.
Amperage in function	Approx. 1.3 – 1.5 A at rated voltage and load.
LRA (Locked Rotor Amps)	To be confirmed from manufacturer label (typically 6-8 times running amps).
Type of relay	PTC (Positive Temperature Coefficient) Start Relay.
Capacitor or no and value	No run capacitor (RSIR design). PTC relay provides starting assistance.
5 Compressor replacements of same value in same gas (R134a)	GN66AZ, GE66AZ, GR66AZ, GJ66AZ, GP66AZ (Always verify model suffixes for exact electrical and mechanical compatibility).
5 Compressor replacements of same value in other gas	Models designed for R600a (e.g., GN60AZ series) or R404A/R290 will have different electrical characteristics and are NOT direct drop-in replacements. System conversion required.

Deep Dive: Application and Engineering Context

The LBP (Low Back Pressure) designation is crucial. It means this compressor is engineered to pump refrigerant where the evaporator (cooling compartment) operates at a very low pressure, corresponding to the -30°C to -10°C temperature range essential for freezing. This contrasts with MBP (Medium Back Pressure) compressors used for fresh food cooling (typically -5°C to +10°C) and HBP (High Back Pressure) units for air conditioning or beverage coolers.

Comparison with Other Compressor Types

Feature	GS66AZ (LBP, R134a)	Typical MBP Compressor (e.g., for refrigerator section)	Miniature DC Compressor (e.g., for portable fridge)
Primary Use	Freezing / Deep Cooling	Fresh Food Preservation	Portable, 12/24V Applications
Efficiency at Low Temp	High (Optimized for this duty)	Poor (will overwork and fail prematurely)	Low to Moderate
Typical HP	1/5 HP to 1/4 HP	1/6 HP to 1/5 HP	< 1/10 HP
System Complexity	Standard AC single-phase	Standard AC single-phase	Requires DC power/control board
Durability	High (Commercial Duty)	Moderate (Domestic Duty)	Low to Moderate

Key Benefits and Selection Advice

• Reliability: The RSIR motor with copper windings offers a simple, robust design well-suited for constant operation.
• Broad Voltage Compliance: The 220-240V 50/60Hz range makes it adaptable to power standards in many regions.
• Energy Consideration: While not an inverter model, its efficiency is optimized within its specified LBP operating window.

Critical Notices for Technicians:

1. Oil Compatibility: POE oil is hygroscopic. Always keep the system open for a minimal time and use proper vacuum procedures to avoid moisture contamination and acid formation.
2. Electrical Verification: Always check the actual nameplate on the unit. While the GS66AZ is common, suffixes may indicate different plug types or minor performance tweaks.
3. Non-Direct Replacements: Swapping to a compressor using a different refrigerant (like R600a or R290) is not a simple plug-and-play. It requires changing the capillary tube, possibly the filter-drier, and ensuring correct oil charge, making it a job for qualified professionals.
4. Overheating Protection: Ensure the original system’s overload protector and PTC relay are in good condition or replaced when installing a new compressor to prevent burnout.

Conclusion
The GS66AZ compressor is a workhorse for low-temperature refrigeration. Its value lies in its specific engineering for freezing applications, commercial-grade durability, and straightforward RSIR design. Successful implementation and replacement hinge on respecting its LBP designation, ensuring electrical compatibility, and following rigorous installation practices to ensure long system life and reliable performance.

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Mbsmpro.com, Universal Electronic Defrost Timer Module, Refrigerator Control, 220-240V, 50/60Hz, 10A, Compressor Control, Defrost Cycle, Wiring Schematic, HVAC Repair

The Ultimate Guide to the Universal Electronic Defrost Timer Module: Engineering and Field Application

In the demanding world of professional refrigeration repair, adaptability is the hallmark of a master technician. When high-end electronic control boards fail and original replacements are obsolete or unavailable, the Universal Electronic Defrost Timer Module emerges as the definitive solution. This solid-state powerhouse is designed to bypass complex circuitry, providing a reliable, long-term fix for domestic and commercial cooling systems.

Technical Characteristics and Operating Principles

Unlike traditional mechanical timers that rely on a motorized gear train, this electronic module utilizes a microchip to manage timing cycles. This eliminates the risk of mechanical wear and “stuck” gears, which are the primary causes of evaporator freeze-ups.

Specification	Detail / Value
Input Voltage	220V – 240V AC
Frequency	50 / 60 Hz
Maximum Current (Compressor)	10 Amps (Inductive)
Maximum Current (Defrost)	5 Amps (Resistive)
Defrost Interval	Fixed 6 or 8 Hours (Model Dependent)
Defrost Duration	Fixed 20 to 25 Minutes
Housing	High-Insulation Heat-Shrink Polymer
Operating Temperature	-10°C to +55°C

Comparison: Mechanical vs. Electronic Defrost Timers

Understanding the shift from mechanical to electronic components is vital for modernizing older units.

Feature	Mechanical Timer	Electronic Module
Reliability	Prone to gear failure	High (No moving parts)
Noise Level	Audible clicking/humming	Completely silent
Accuracy	Varies with motor wear	Digital precision
Vibration Resistance	Low (Internal pins can shift)	High (Solid-state encapsulation)
Size	Bulky, requires mounting bracket	Compact, fits inside wire looms

Advanced Wiring Schematic for Technicians

To successfully integrate this module into a refrigerator, one must identify the primary power feeds and load lines. Below is the standard industrial wiring configuration for these four-wire universal modules:

• Line 1 (Phase): Usually connected to the Brown or Black wire.
• Neutral (N): Connected to the Blue wire.
• Compressor Output (Terminal 4 equivalent): Connected to the Red wire.
• Defrost Heater Output (Terminal 2 equivalent): Connected to the Orange wire.

Engineer’s Note: Always verify the color coding with a multimeter before final soldering, as some manufacturers may swap the Orange and Red functions depending on the production batch.

Installation Strategy and Field Advice

When performing a “board bypass,” the objective is to restore the basic cooling logic: Compressor Run -> Accumulated Time -> Defrost Cycle -> Repeat.

1. Thermal Protection: Ensure the defrost heater circuit remains in series with the original Bimetal Thermostat and Thermal Fuse. Never bypass safety components.
2. Placement: Although encapsulated, avoid placing the module in areas prone to direct moisture or heavy vibration from the compressor.
3. Connection Integrity: Use high-quality crimp connectors or solder with heat-shrink tubing to prevent oxidation in high-humidity environments.

Benefits of Using the Universal Electronic Module

• Versatility: Compatible with almost all non-inverter brands including LG, Samsung, Whirlpool, and Daewoo.
• Durability: The solid-state design handles voltage fluctuations better than traditional mechanical motors.
• Compact Design: Its slim profile allows it to be tucked away inside the compressor compartment or the rear wiring panel.

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Excerpt: The Universal Electronic Defrost Timer Module is a critical component for modernizing refrigerator repairs. Designed to replace failing mechanical timers and expensive control boards, this solid-state device offers unmatched reliability. Featuring a 220V input and 10A capacity, it ensures precise timing for compressor operation and defrost cycles in various domestic refrigeration brands.

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