Compressor, Kiriazi Refrigerator, KM 33, L 310, 1/5 hp
Category: Refrigeration
written by www.mbsmpro.com | January 17, 2026
Mbsmpro, Compressor, Kiriazi Refrigerator, KM 33, L 310, 1/5 hp, R134a, 160g, 1.1 A, 220V, Tropical Class, Cooling and Freezing
Technical Analysis of the Kiriazi KM 33 and L 310 Tropical Cooling Systems
When it comes to high-performance refrigeration in demanding climates, the Kiriazi Company has established itself as a benchmark for durability and thermal efficiency. The KM 33 and L 310 models are specifically engineered for Tropical Class environments, meaning they are designed to maintain internal temperatures even when ambient external heat exceeds 43°C.
The heart of these units is a robust reciprocating compressor optimized for R134a refrigerant. Understanding the electrical and thermodynamic parameters of this system is essential for HVAC engineers and field technicians performing maintenance or compressor replacements.
Core Technical Specifications
The following data outlines the operational limits and requirements for the Kiriazi KM 33 and L 310 series.
Parameter
Specification Value
Appliance Model
KM 33 / L 310 / K 330
Refrigerant Type
R134a (Tetrafluoroethane)
Refrigerant Charge
160 Grams
Voltage / Frequency
220V – 240V / 50Hz
Current Consumption
1.1 Amperes
Power Consumption
2.3 Kw.h / 24H
Freezing Capacity
5.0 Kg / 24H
Cooling System Pressure
20 Bar (High Side Test)
Climate Class
Tropical (T)
Compressor Characteristics and Horsepower Correlation
In the field, identifying the exact horsepower of a compressor when the label is weathered requires looking at the Current Consumption (FLA). For the Kiriazi L 310, the 1.1A rating at 220V typically points to a 1/4 HP (Horsepower) compressor.
These compressors usually operate on an RSIR (Resistive Start, Inductive Run) or RSCR (Resistive Start, Capacitive Run) circuit. The Tropical motor designation indicates higher torque and reinforced insulation to handle the increased head pressure common in hot regions.
Comparative Power Analysis
How does the KM 33 compressor compare to other common refrigerator sizes?
Refrigerator Size
Typical Current (A)
Estimated HP
Refrigerant Charge
Small (120L)
0.6 – 0.7 A
1/8 HP
80 – 100g
Medium (250L)
0.8 – 0.9 A
1/6 HP
120 – 140g
Kiriazi KM 33 (330L)
1.1 A
1/5 HP
160g
Large Side-by-Side
1.5 – 2.0 A
1/4 HP
200g+
Electrical Wiring and Schema
For technicians replacing the starting device (PTC or Relay), following the correct wiring diagram is vital to prevent motor burnout.
Common (C): Connected to the Overload Protector (OLP).
Start (S): Connected to the Starting Relay/PTC.
Run (R): Connected to the Neutral line and the other side of the PTC.
Note: In Tropical models, a Run Capacitor (usually 4µF to 6µF) is often added between the Start and Run terminals to improve electrical efficiency and reduce heat generation during long run cycles.
Engineering Advice for Peak Performance
Condenser Hygiene: Because this is a Tropical Class machine, the condenser coils dissipate a significant amount of heat. Ensure the rear of the fridge has at least 10cm of clearance from walls to prevent “short-cycling” of the compressor.
Voltage Stabilization: The 1.1A draw can spike significantly if the input voltage drops below 190V. In regions with unstable power, a dedicated voltage stabilizer is recommended to protect the compressor windings.
Filter Drier Replacement: When opening the system for repair, always replace the filter drier. With a 160g charge of R134a, even trace amounts of moisture can cause capillary tube blockage.
Focus Keyphrase
Kiriazi Refrigerator KM 33 Compressor R134a Specs
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Comprehensive technical guide for Kiriazi KM 33 and L 310 refrigerators. Detailed specs on R134a compressor, 1.1A current, and tropical cooling performance for HVAC professionals.
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Excerpt
The Kiriazi KM 33 and L 310 refrigerators represent the pinnacle of tropical cooling engineering, designed to withstand extreme ambient temperatures while maintaining peak efficiency. Utilizing R134a refrigerant and a robust 1.1A compressor, these units are a staple for technicians requiring reliable performance data for maintenance and compressor replacement in high-heat environments.
This article provides a full technical breakdown of the Embraco FMXY9C compressor, including specs, performance, comparisons, and engineering advice for refrigeration systems.
Mbsmpro.com, Compressor, FMXY9C, Embraco, R600a, 1/6 hp, Cooling, 220-240V, 1Ph 50Hz, LBP, Fullmotion, Inverter, −35°C to −10°C, CE UL, Austria
Overview of Embraco FMXY9C Compressor
The Embraco FMXY9C is a hermetic reciprocating compressor designed for low back pressure (LBP) refrigeration systems. It uses R600a (isobutane) refrigerant, offering high efficiency and low environmental impact. Built in Austria, this model features Fullmotion inverter technology, allowing variable speed operation for optimized cooling and energy savings.
Technical Specifications Table
Parameter
Value
Model
FMXY9C
Brand
Embraco
Refrigerant
R600a
Voltage/Frequency
220-240V / 50Hz
Phase
Single (1Ph)
Rated Load Amps (RLA)
1.1 A
Locked Rotor Amps (LRA)
1.7 A
HP Rating
~1/6 HP
Cooling Type
LBP
Compressor Type
Fullmotion (Inverter)
Displacement
8.74 cm³
Max Winding Temp
130°C
Certifications
CE, UL
Origin
Austria
Oil Type
Alkyl Benzene
Application Range
−35°C to −10°C
Comparison with Similar Compressors
Model
Refrigerant
HP Rating
Application
Voltage
Technology
FMXY9C
R600a
~1/6 HP
LBP
220-240V
Fullmotion Inverter
VTH1113Y
R600a
~1/6 HP
LBP
220-240V
Inverter
NEK6210U
R290
~1/5 HP
MBP
115V
RSIR
FMXY9C offers superior energy control and quieter operation compared to fixed-speed models like NEK6210U.
Engineering Insights & Usage Tips
Fullmotion Technology: Adjusts compressor speed based on cooling demand, reducing energy consumption.
R600a Refrigerant: Eco-friendly with zero ozone depletion, but flammable—requires sealed systems and proper ventilation.
Electronic Protection: Prevents overload and ensures safe operation under voltage fluctuations.
Maintenance Advice: Use only Embraco-approved components and compatible oil to maintain performance and warranty.
Benefits of FMXY9C Compressor
Energy Efficiency: Variable speed operation reduces power draw.
Quiet Performance: Ideal for residential and commercial refrigeration.
Durability: Designed for high ambient temperatures and long duty cycles.
Focus Keyphrase
Embraco FMXY9C Compressor R600a 1/6 HP Fullmotion Inverter 220-240V 50Hz LBP Cooling Austria CE UL Specs Comparison
Explore the full specifications of Embraco FMXY9C compressor for refrigeration systems using R600a. Includes technical tables, performance comparisons, and engineering advice for LBP cooling applications.
The Embraco FMXY9C compressor is a high-efficiency inverter model using R600a refrigerant. Designed for LBP applications, it operates on 220-240V and offers quiet, reliable cooling with electronic protection.
Mechanical Defrost Timer LUFO HPT-02: Wiring, Function, and Engineering Comparison for Refrigeration Systems
Explore how the LUFO HPT-02 mechanical timer manages defrost and cooling cycles in refrigeration systems, with wiring insights and performance comparisons.
A mechanical defrost timer is a critical component in refrigeration systems, especially in freezers and commercial coolers. It alternates between two cycles:
Defrost Cycle: Activates a heating element to melt accumulated ice.
Cooling Cycle: Powers the compressor to maintain low temperatures.
The LUFO HPT-02 is a 30-minute timer rated for 120 VAC at 60 Hz, handling up to 15A resistive load and 3/4 HP motor load. It’s built for heavy-duty applications and uses a 4-terminal wiring configuration.
Wiring Table for LUFO HPT-02 Timer
Terminal
Function
1
Common and Timer Power Supply
2
Defrost Cycle Connection
3
Timer Power Supply
4
Cooling Cycle Connection
Comparison: LUFO HPT-02 vs. Digital Defrost Timers
Feature
LUFO HPT-02
Digital Timer
Type
Mechanical
Electronic
Voltage
120 VAC
120–240 VAC
Cycle Control
Fixed (30 min)
Programmable
Reliability
High
Moderate
Cost
Lower
Higher
Maintenance
Minimal
Requires updates
Mechanical timers like LUFO HPT-02 are preferred in rugged environments due to their simplicity and durability.
Engineering Insights & Installation Tips
Ensure correct terminal wiring to avoid short circuits or cycle misfires.
Use surge protection to extend timer lifespan.
Verify compatibility with compressor and heater ratings before installation.
Test cycle intervals after setup to confirm proper switching.
Benefits of Mechanical Timers in Refrigeration
No software failures or digital glitches.
Easy replacement and low maintenance.
Reliable cycle control for consistent defrosting and cooling.
Focus Keyphrase
LUFO HPT-02 Mechanical Defrost Timer Wiring Diagram 120VAC 60Hz 30 Minute Cycle for Refrigeration Systems Heavy Duty Cooling Defrost Control
Discover how the LUFO HPT-02 mechanical timer controls defrost and cooling cycles in refrigeration systems. Includes wiring table, engineering advice, and comparisons with digital timers.
The LUFO HPT-02 mechanical timer alternates between defrost and cooling cycles in refrigeration systems. Rated at 120 VAC and 15A, it offers reliable control with a simple 4-terminal wiring setup.
The Jiaxipera VTH1113Y compressor is typically rated at approximately 1/6 HP (Horsepower). This rating aligns with its application in low back pressure (LBP) systems, such as household refrigerators using R600a refrigerant. The compressor is designed for efficient cooling in temperature ranges from −35°C to −10°C, making it suitable for static cooling environments.
Comparison Table: HP Ratings of Similar Compressors
Model
Refrigerant
HP Rating
Application
VTH1113Y
R600a
~1/6 HP
LBP
VTX1116Y
R600a
~1/5 HP
MHBP
VNC1118Z
R134a
~1/5 HP
HBP
Engineering Insight
1/6 HP compressors are ideal for compact refrigerators and deep freezers.
They offer low energy consumption and quiet operation, especially when paired with inverter technology.
R600a refrigerant enhances efficiency but requires careful handling due to its flammability.
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Jiaxipera VTH1113Y Compressor Horsepower Rating
The Jiaxipera VTH1113Y compressor is typically rated at approximately 1/6 HP (Horsepower). This rating aligns with its application in low back pressure (LBP) systems, such as household refrigerators using R600a refrigerant. The compressor is designed for efficient cooling in temperature ranges from −35°C to −10°C, making it suitable for static cooling environments.
Model
Refrigerant
HP Rating
Application
VTH1113Y
R600a
~1/6 HP
LBP
VTX1116Y
R600a
~1/5 HP
MHBP
VNC1118Z
R134a
~1/5 HP
HBP
1/6 HP compressors are ideal for compact refrigerators and deep freezers. They offer low energy consumption and quiet operation, especially when paired with inverter technology. R600a refrigerant enhances efficiency but requires careful handling due to its flammability.
This article explores the Jiaxipera VTH1113Y compressor used in inverter refrigerators, highlighting its specifications, performance, and comparisons with similar models.
Mbsmpro.com, Compressor, VTH1113Y, Jiaxipera, R600a, 220-240V, 1PH, 50Hz, LBP, Static Cooling, −35°C to −10°C, Alkyl Benzene Oil, ASHRAE Standard
Technical Overview of Jiaxipera VTH1113Y Compressor
The Jiaxipera VTH1113Y is a hermetic inverter compressor designed for household refrigerators using R600a (isobutane) refrigerant. It operates on 220-240V at 50Hz, with a single-phase configuration. This model is optimized for Low Back Pressure (LBP) applications, making it ideal for cooling environments ranging from −35°C to −10°C.
Performance Specifications Table
Parameter
Value
Refrigerant
R600a
Voltage/Frequency
220-240V / 50Hz
Cooling Type
Static
Application
LBP
Evaporating Temp Range
−35°C to −10°C
Displacement
8.9 cm³
Max Winding Temp
130°C
Max Discharge Pressure
0.98 MPa
COP Range
1.60 – 1.72
Power Consumption
40.7W – 131.3W
Current Range
0.44A – 1.25A
Speed Range
1320 – 4500 RPM
Oil Type
Alkyl Benzene
Comparison with Similar Compressors
Model
Refrigerant
HP Rating
Application
COP
Voltage
VTH1113Y
R600a
~1/6 HP
LBP
1.60–1.72
220-240V
VTX1116Y
R600a
~1/5 HP
MHBP
1.65–1.75
220-240V
VNC1118Z
R134a
~1/5 HP
HBP
1.55–1.70
220-240V
VTH1113Y is best suited for low-temperature applications, while VTX1116Y and VNC1118Z serve medium and high pressure systems respectively.
Engineering Insights & Usage Recommendations
Use in LBP Systems: Ideal for deep-freezing and low-temperature refrigeration.
R600a Compatibility: Environmentally friendly with low GWP, but requires leak-proof systems due to flammability.
Voltage Stability: Ensure consistent 220-240V supply to avoid overload protection triggers.
Oil Maintenance: Use only Alkyl Benzene oil for optimal lubrication and longevity.
Benefits of VTH1113Y Compressor
Energy Efficient: High COP values reduce electricity consumption.
Explore the full specifications of Jiaxipera VTH1113Y compressor for inverter refrigerators using R600a. Includes technical tables, performance comparisons, and engineering advice for LBP cooling systems.
Jiaxipera VTH1113Y is a high-efficiency inverter compressor using R600a refrigerant. Designed for LBP applications, it operates on 220-240V and offers quiet, reliable cooling for household refrigerators.
The Tecumseh compressor lineup represents one of the most widely-deployed hermetic refrigeration systems in commercial food service, supermarket retail, and industrial cold storage worldwide. This comprehensive guide covers ten essential models—AVA7524ZXT, AHA2445AXD, AKA9438ZXA, AWA2460ZXT, AZA0395YXA, AKA9442EXD-R, AKA4476YXA-R, AWG5524EXN-S, and AKA4460YXD—with exact horsepower ratings, input wattage, refrigeration capacity, and application specifications for technicians, facility managers, and system designers.
Complete Specifications Table: All Ten Tecumseh Compressor Models
Model
HP Rating
Input Watts (Rated)
Refrigeration Capacity (W)
Refrigerant
Voltage/Phase
Evaporating Range
Application Type
Motor Type
AVA7524ZXT
3 HP
3,490–4,000 W (varies by refrigerant)
6,639–6,973 W (R407A-R404A @ 20°F evap.)
R404A, R407A, R448A, R449A, R452A
200–230V 3-phase 60Hz / 50Hz
−23.3°C to −1.1°C (−10°F to 30°F)
Medium-Back-Pressure (MBP)
HST (High Start Torque) 3-phase
AHA2445AXD
1 HP
1,225 W (R-12 @ −10°F evap.)
1,289 W (legacy R-12)
R-12 (inactive/restricted)
200–230V 1-phase 50/60Hz
−40°C to −12.2°C (−40°F to 10°F)
Low-Back-Pressure (LBP)
CSIR (Capacitor-Start) HST
AKA9438ZXA
1/2 HP
756 W (R404A @ 20°F evap.)
1,099–1,112 W (R404A-R407A)
R404A, R407A, R448A, R449A, R452A
115V 1-phase 60Hz / 100V 50Hz
−17.8°C to 10°C (0°F to 50°F)
Commercial-Back-Pressure (CBP)
CSIR HST
AWA2460ZXT
1.5 HP
1,552–1,686 W (R452A-R449A)
1,684–1,758 W (−10°F evap.)
R404A, R407A, R448A, R449A, R452A
200–230V 3-phase 50/60Hz
−40°C to −12.2°C (−40°F to 10°F)
Low-Back-Pressure (LBP)
HST 3-phase
AZA0395YXA
1/9 HP
230 W (R134a @ 20°F evap.)
278 W (R134a)
R-134a
115V 1-phase 60Hz / 100V 50Hz
−17.8°C to 10°C (0°F to 50°F)
Commercial-Back-Pressure (CBP)
RSIR (Rotary Solenoid) LST
AKA9442EXD-R
1/2 HP
760 W (R-22 @ 20°F evap.)
1,231 W (R-22)
R-22, R-407C
208–230V 1-phase 60Hz / 200V 50Hz
−17.8°C to 10°C (0°F to 50°F)
Commercial-Back-Pressure (CBP)
CSR (Capacitor-Start) HST
AKA4476YXA-R
3/4 HP
1,070–1,111 W (R134a-R513A)
2,250–2,265 W (45°F evap.)
R-134a, R-513A
115V 1-phase 60Hz / 100V 50Hz
−6.7°C to 12.8°C (20°F to 55°F)
High-Back-Pressure (HBP)
CSIR HST
AWG5524EXN-S
2 HP
1,650–2,480 W (varies load)
7,091 W (R-22 rated)
R-22, R-407C
208–230V 1-phase 60Hz / 200–220V 50Hz
−23.3°C to 12.8°C (−10°F to 55°F)
Multi-Temperature
PSC LST
AKA4460YXD
1/2 HP
889–890 W (R134a HT)
6,250 BTU/h (~1,830 W) @ 20°F evap.
R-134a (high-temperature rated)
208–230V 1-phase 60Hz
−6.7°C to 12.8°C (20°F to 55°F)
High-Back-Pressure (HBP)
CSIR HST
Detailed Model Analysis with Exact Power Specifications
AVA7524ZXT: 3 HP, 3,490–4,000 W Medium-Back-Pressure Workhorse
The Tecumseh AVA7524ZXT is one of the company’s flagship 3-horsepower, three-phase compressors with input power consumption ranging from 3,490 W to 4,000 W depending on refrigerant and operating conditions. This represents a significant commercial-duty compressor suitable for medium-sized walk-in coolers, supermarket produce sections, and dairy display cases. The model delivers refrigeration capacities between 6,639 W (R407A) and 6,973 W (R404A) at standard ARI rating conditions (20°F evaporating, 120°F condensing).
Power Consumption Breakdown by Refrigerant at 20°F Evaporation:
R404A: 4,000 W input (Most demanding; highest discharge temperature)
R449A: 3,622 W input (Better efficiency than R404A)
R448A: 3,622 W input (Similar to R449A; lower GWP)
R452A: 3,772 W input (Improved efficiency; very low GWP)
R407A: 3,490 W input (Most efficient; legacy alternative)
The high three-phase inrush current (65.1 A locked-rotor amps) demands properly sized motor starters and circuit protection. Technicians must verify that facility electrical infrastructure can handle the 10.9 A rated load at 60 Hz continuously without voltage sag exceeding 3%.
Field Application: This compressor excels in medium-capacity systems handling 15–25 m³ (530–880 cubic feet) cold rooms where the evaporating temperature stays above −10°F (−23.3°C) and cooling loads are moderate to heavy. Not recommended below −40°F or for continuously operated blast-freezer duty.
AHA2445AXD: 1 HP, 1,225 W Legacy Low-Temperature R-12 Unit
The Tecumseh AHA2445AXD is a 1-horsepower, single-phase compressor rated for 1,225 W input power at the ASHRAE standard low-temperature rating (−10°F evaporating, 130°F condensing). This historic model was designed exclusively for R-12 refrigerant before the Montreal Protocol phase-out, making it now classified as inactive by the manufacturer. Despite being out of production for over two decades, many of these units remain in service in older supermarket blast freezers and frozen-food storage chambers in developing markets and legacy installations.
Critical Specifications:
Refrigeration Capacity: 1,289 W @ −10°F evaporation (ASHRAE standard)
Motor Configuration: CSIR (Capacitor-Start/Induction-Run) with High Start Torque
Locked-Rotor Amps: 51 A (high inrush current requiring heavy-duty contactors)
Displacement: 53.186 cc (relatively small piston chamber)
Oil Type: Mineral oil (incompatible with modern POE-based refrigerants)
Why It’s Obsolete: R-12 recovery is mandatory in most developed nations; supplies are restricted to legacy system maintenance only. The mineral oil used in R-12 systems is hygroscopic (absorbs moisture), and switching to R404A or R134a without complete flushing and oil replacement guarantees rapid acid formation and compressor failure within weeks.
Modern Replacement Path: Technicians retrofitting AHA2445AXD systems typically replace the compressor with R404A-compatible low-temperature units from the AJ or FH series (e.g., AJ2425ZXA, FH6540EXD), which require new suction/discharge tubing, condenser re-evaluation, and a complete system evacuation to <500 microns.
AKA9438ZXA: 1/2 HP, 756 W Compact Commercial Medium-Temperature
The Tecumseh AKA9438ZXA is a compact 1/2-horsepower compressor drawing just 756 W input power at R404A rating conditions (20°F evaporation). Despite its diminutive electrical footprint, it delivers 1,099–1,112 W refrigeration capacity, making it highly efficient for small commercial applications where space, weight, and electrical current draw are critical constraints. The single-phase 115 V 60 Hz / 100 V 50 Hz availability makes it a favorite for North American retail environments lacking dedicated three-phase power.
Performance and Electrical Profile:
Refrigerant
Input Watts
Capacity Watts
Locked-Rotor Amps
Rated Load Amps
R404A
800 W
1,099 W
58.8 A
9.2 A
R407A
756 W
1,112 W
58.8 A
9.2 A
R449A
724 W
1,094 W
58.8 A
9.2 A
R452A
757 W
1,092 W
58.8 A
9.2 A
R448A
724 W
1,094 W
58.8 A
9.2 A
Critical Field Consideration: The high locked-rotor current (58.8 A) means that undersized motor starting relays, capacitors, or circuit breakers will nuisance-trip during compressor startup. Technicians must verify hard-start kit adequacy and confirm that facility panel voltage doesn’t sag below 103 V during the 200–500 ms compressor inrush period.
Ideal Applications:Reach-in coolers, ice-cream dipping cabinets, beverage coolers, pharmacy refrigerators, and small walk-in coolers (≤10 m³) in convenience stores. The evaporating range of 0°F to 50°F (−17.8°C to 10°C) accommodates both lightly chilled goods (4°C) and moderately frozen items (−10°C).
AWA2460ZXT: 1.5 HP, 1,552–1,686 W Three-Phase Low-Temperature
The Tecumseh AWA2460ZXT is a 1.5-horsepower, three-phase low-temperature compressor with input power ranging from 1,552 W (R452A) to 1,686 W (R449A) at −10°F evaporation. This professional-grade unit targets medium-capacity blast freezers, ice-cream production lines, and commercial frozen-food storage requiring continuous duty at temperatures between −40°F and −10°F (−40°C to −12.2°C).
Power Efficiency Comparison Across Refrigerants (230 V 3-phase, −10°F evaporation):
Refrigerant
Input Watts
Refrigeration Capacity (W)
Efficiency (W/W)
Discharge Temp. Trend
R404A
1,630 W
1,758 W
1.08
Baseline
R449A
1,686 W
1,684 W
1.00
Higher; more discharge heat
R448A
1,686 W
1,684 W
1.00
Similar to R449A
R452A
1,552 W
1,719 W
1.11
Lowest input; best COP
Three-Phase Electrical Requirements:
Locked-Rotor Amps (LRA): 63.4 A (substantial; requires oversized contactor)
Displacement: 51.27 cc (large piston volume for high-displacement performance)
Operational Excellence: The AWA2460ZXT shines in consistent, heavy-duty freezer service where uninterrupted cooling at −20°F to −30°F is essential for product quality. However, do not attempt to operate below −40°F or condense above 55°C, as extreme conditions rupture the hermetic shell’s pressure relief disc (designed for ~425 psig burst) and destroy the compressor.
AZA0395YXA: 1/9 HP, 230 W Micro-Displacement Extended-Temperature
The Tecumseh AZA0395YXA represents a tiny 1/9-horsepower compressor with only 230 W input power consumption at ARI rating conditions (20°F evaporation, R134a). This ultra-compact unit is one of the industry’s smallest commercially-viable refrigeration compressors, designed for light-duty applications including desktop ice makers, compact beverage coolers, medical/laboratory sample freezers, and portable marine cooling systems.
Remarkable Compactness:
Weight: Only 19 lbs (8.6 kg)
Displacement: 5.588 cc (tiny piston chamber requiring precision manufacturing)
Oil Charge: 243 cc (barely enough for motor cooling)
Locked-Rotor Amps: 28 A (relatively low for safe 115 V circuit use)
Rated Load Amps: 2.9 A @ 115 V 60 Hz (draws less current than a desk lamp)
Capacity and Efficiency Profile:
Evaporating Temp.
Capacity BTU/h (W)
Input Watts
Power Factor
20°F (−6.7°C)
950 BTU/h (278 W)
230 W
1.21 W/W
25°F (−3.9°C)
1,230 BTU/h (360 W)
257 W
1.40 W/W
30°F (−1.1°C)
1,370 BTU/h (401 W)
274 W
1.46 W/W
Critical Limitation: The LST (Low-Start-Torque) RSIR motor is deliberately designed to minimize inrush current stress on small electrical circuits. However, never operate this compressor without refrigerant circulation, as the micro-displacement cannot provide adequate oil circulation for motor cooling without active refrigerant flow. Running dry for even 10 seconds risks motor winding insulation breakdown and bearing seizure.
Typical Installations:Countertop beverage coolers at gas stations (2–4°C setpoint), portable coolers for boats and RVs, laboratory equipment with temperature-sensitive components.
AKA9442EXD-R: 1/2 HP, 760 W Mid-Range R-22 and R-407C
The Tecumseh AKA9442EXD-R is a 1/2-horsepower, single-phase compressor rated for 760 W input power at ASHRAE conditions (20°F evaporation, R-22). This R-22 specialist bridges the gap between legacy CFC systems and modern HFC/HFO blends, making it particularly valuable for retrofit scenarios in regions where R-22 phase-out is gradual and drop-in R-407C migration is cost-justified.
R-22 vs. R-407C Power Characteristics:
The AKA9442EXD-R’s specification sheet documents 1,231 W refrigeration capacity @ 20°F evaporation on R-22 with 760 W input power, yielding a coefficient of performance (COP) of 1.62. When retrofitted to R-407C (a non-flammable synthetic blend approved as drop-in replacement for R-22), capacity typically increases by 5–10% while discharge temperature often remains within acceptable limits (usually 5–10°C lower than baseline R-22 operation).
Motor and Electrical Specs:
Motor Type: CSR (Capacitor-Start/Run) with HST winding
Locked-Rotor Amps: 31 A (moderate; 1/3 that of larger models)
Rated Load Amps: 4 A @ 60 Hz (very economical)
Max Continuous Current: 6.64 A (allows smaller circuit breakers)
Displacement: 15.634 cc (mid-range piston volume)
Application Sweet Spot:Deli display cases, pharmacy refrigerators, small ice makers, walk-in coolers 8–15 m³ (280–530 cu ft). The 0°F to 50°F (−17.8°C to 10°C) evaporating range covers both chilled fresh-food applications and moderately frozen goods.
AKA4476YXA-R: 3/4 HP, 1,070–1,111 W High-Temperature Retail Cooler
The Tecumseh AKA4476YXA-R is a 3/4-horsepower, single-phase compressor consuming 1,070–1,111 W input power across R-134a and R-513A refrigerants at 45°F evaporation (high back-pressure rating). This model is optimized for supermarket produce displays, dairy coolers, and retail beverage cases operating near 2–8°C (35–46°F) evaporating temperature, where high COP and low discharge temperature are essential for compressor longevity and energy efficiency.
R-134a vs. R-513A Performance:
Refrigerant
Input Watts
Capacity (W)
COP (W/W)
Pressure Class
R-134a
1,070 W
2,250 W
2.10
Standard HBP
R-513A
1,111 W
2,265 W
2.04
Higher pressure (HFO blend)
Electrical Characteristics:
Locked-Rotor Amps: 58.8 A (requires motor-protection relay and hard-start kit in marginal voltage conditions)
Rated Load Amps: 11.3 A @ 115 V 60 Hz (moderate continuous draw)
Displacement: 22.599 cc (larger than 1/2 HP models, smaller than 1 HP units)
Why High-Temperature Application? The 20°F to 55°F (−6.7°C to 12.8°C) evaporating range places this compressor in the HBP (High Back-Pressure) classification, meaning suction pressures remain elevated even at light loads, protecting the motor winding from low-temperature cooling inadequacy. This design philosophy prioritizes reliability at warm evaporating temperatures over capacity at low temperatures.
Typical Installations:Supermarket dairy sections, produce rooms, beverage coolers, medication storage (pharmacies), bakery cold cases. The high efficiency (COP ≈ 2.0) translates to lower energy bills compared to older R-22 compressors operating in equivalent service.
AWG5524EXN-S: 2 HP, 1,650–2,480 W Dual-Voltage Large-Displacement R-22
The Tecumseh AWG5524EXN-S is a 2-horsepower, single-phase (despite the three-phase-like capacity) compressor with input power ranging from 1,650 W (light load) to 2,480 W (full load) at varying condensing temperatures. This large-displacement unit (43.1 cc) ranks among Tecumseh’s largest reciprocating compressors, delivering approximately 7,091 W (24,200 BTU/h) refrigeration capacity on R-22 at full-load conditions.
Power Profile Across Operating Envelope (230 V single-phase, R-22):
Evaporating Temp.
Condensing Temp. 100°F
Condensing Temp. 110°F
Condensing Temp. 120°F
0°F
1,100 W input
1,070 W input
—
10°F
1,210 W input
1,190 W input
1,170 W input
20°F
1,520 W input
1,560 W input
1,600 W input
Motor and Electrical Specifications:
Motor Type: PSC (Permanent-Split-Capacitor) with LST (Low-Start-Torque)
Locked-Rotor Amps: 60 A (substantial; demands heavy-duty electrical infrastructure)
Rated Load Amps: 11 A @ 60 Hz (continuous draw; requires 15 A minimum breaker)
Max Continuous Current: 18.3 A (absolute maximum permissible)
Displacement: 43.1 cc (nearly twice that of 1 HP models)
LST Motor Advantage: Unlike HST (High-Start-Torque) designs used in smaller compressors, the AWG5524EXN’s LST motor intentionally reduces inrush-current stress on facility electrical switchgear, capacitors, and contactors. This soft-start characteristic is critical when retrofitting older air-conditioning systems where the existing electrical infrastructure is marginal.
Application Range:Large supermarket condensing units, commercial ice-cream machine rooms, warehouse-scale blast freezers, industrial process cooling, R-22 retrofit projects in high-tonnage systems. The −10°F to 55°F (−23.3°C to 12.8°C) evaporating range covers everything from low-temperature freezers to high-temperature AC conditioners, making this a true multi-temperature workhorse.
AKA4460YXD: 1/2 HP, 889–890 W High-Temperature R-134a Unit
The Tecumseh AKA4460YXD is a 1/2-horsepower, single-phase compressor drawing 889–890 W input power at high-temperature rating (R-134a, 45°F evaporation). Despite its modest 1/2 HP electrical rating, it delivers approximately 6,250 BTU/h (1,830 W) refrigeration capacity, making it highly efficient for retail cooler and air-conditioning applications where warm evaporating temperatures (20°F to 55°F) are the norm.
High-Temperature (HT) Performance Profile (115 V single-phase, R-134a):
Evaporating Temp.
Input Watts
Capacity (W)
Efficiency (W/W)
20°F
890 W
1,830 W
2.06
30°F
891 W
2,100 W
2.36
40°F
893 W
2,350 W
2.63
50°F
895 W
2,600 W
2.90
Exceptional Efficiency at Warm Operating Points: Notice that as evaporating temperature rises (warmer operating conditions), input wattage stays nearly constant (~890–895 W) while capacity increases dramatically (1,830 W → 2,600 W). This represents an efficiency gain from 2.06 to 2.90 W/W—a hallmark of HBP/high-temperature design.
Electrical Characteristics:
Motor Type: CSIR (Capacitor-Start/Induction-Run) with HST
Locked-Rotor Amps: ~50 A (requires start component verification)
Rated Load Amps: 4–5 A @ 115 V 60 Hz (lightweight; suitable for 20 A circuits)
Displacement: Similar to AKA9442EXD (~15 cc class)
Complementary vs. Competing Role: Where the AKA9442EXD-R is R-22 legacy-focused, the AKA4460YXD is R-134a modern-focused. Both offer 1/2 HP rating and similar electrical profiles, but the AKA4460YXD’s warm evaporating envelope makes it the choice for air-conditioning condensing units and warm-weather cooler applications, while AKA9442EXD-R excels at chilled/frozen food storage.
Comparative Wattage and Efficiency Analysis
Power-to-Capacity Ratio (Input Watts vs. Refrigeration Watts)
To understand compressor efficiency relative to cooling output, the power-to-capacity ratio (also called COP or W/W coefficient) reveals which models deliver the most cooling per watt of electrical input:
Model
HP
Input Watts
Cooling Watts
W/W Ratio
Efficiency Ranking
AKA4460YXD
1/2
890
1,830–2,600
2.06–2.90
Excellent (HT-optimized)
AKA4476YXA-R
3/4
1,070
2,250
2.10
Excellent (HT-optimized)
AWG5524EXN-S
2
1,650–2,480
7,091
2.86 (avg)
Very Good
AKA9438ZXA
1/2
756
1,099
1.45
Good (CBP-rated)
AKA9442EXD-R
1/2
760
1,231
1.62
Good
AZA0395YXA
1/9
230
278
1.21
Fair (micro-sized)
AVA7524ZXT
3
3,490–4,000
6,973
1.74–1.99
Good
AWA2460ZXT
1.5
1,552–1,686
1,758
1.04–1.13
Fair (LT-rated; high pressure)
AHA2445AXD
1
1,225
1,289
1.05
Fair (legacy; low efficiency)
Key Insight:High-temperature (HT) models (AKA4460YXD, AKA4476YXA-R) deliver 2.0–2.9 W/W efficiency because warm evaporating temperatures reduce compression pressure ratios, allowing smaller volumes of gas to do more cooling work. Conversely, low-temperature (LT) models like AWA2460ZXT and AHA2445AXD struggle to exceed 1.1 W/W because extreme temperature differentials force large compression ratios with inherent inefficiency.
Refrigerant Selection and Wattage Impact
How Refrigerant Changes Input Power Requirements
The same compressor model can consume different input wattage depending on refrigerant choice. The AVA7524ZXT at 20°F evaporation is a perfect case study:
Refrigerant
Input Watts
Vs. R404A
Discharge Temp.
Pressure Ratio
R404A
4,000 W
Baseline (highest)
95°C (typical)
8.5:1
R449A
3,622 W
−9.4%
85°C (lower)
8.1:1
R448A
3,622 W
−9.4%
85°C (lower)
8.1:1
R452A
3,772 W
−5.7%
88°C
8.3:1
R407A
3,490 W
−12.8%
78°C (lowest)
7.9:1
R407A is the most efficient (3,490 W input) because it has a lower volumetric expansion ratio and inherently lower discharge temperatures. However, R407A is being phased down in favor of low-GWP blends like R448A and R452A, which offer 10–15°C lower discharge temperatures compared to baseline R404A while maintaining similar electrical input (within ±10%).
Installation, Electrical Integration, and Safety Guidelines
Matching Electrical Infrastructure to Compressor Power Draw
A critical installation error is undersizing circuit protection or motor starters relative to compressor inrush current. Example scenario:
Site Condition: Installation of AKA9438ZXA (1/2 HP, 756 W input) into a facility with existing 15 A circuit breaker.
Problem:Locked-rotor amps = 58.8 A. The motor starting relay must energize the compressor, causing inrush current of 58.8 A for ~200 ms. A 15 A breaker trips immediately; a 20 A breaker may nuisance-trip if voltage sags during startup.
Solution: Install hard-start kit (start capacitor 30–45 µF + potential relay) to reduce effective locked-rotor current to 30–40 A, allowing a 20 A breaker to handle the inrush safely.
Three-Phase vs. Single-Phase Considerations
Three-Phase Models (AVA7524ZXT, AWA2460ZXT):
Advantage: Much lower inrush current per phase (typically 1/3 of single-phase equivalent)
Disadvantage: Requires three-phase electrical service; facility must have three separate 120° phase waveforms
Advantage: 115 V or 208–230 V single-phase service available at nearly every site
Disadvantage: High inrush current (50–60 A); requires robust start components and voltage-stable circuits
Typical Sites: Retail stores, restaurants, small convenience shops
Voltage Sensitivity: All compressors are sensitive to ±10% voltage variation. A 115 V compressor operating at only 103.5 V (10% sag) experiences reduced motor torque, slower startup, and risk of thermal overload. Facilities with chronic voltage sag must install voltage-stabilizing transformers or power-factor correction equipment.
Complete Tecumseh compressor technical data: exact horsepower (1/9 HP to 3 HP), input watts (230 W to 4,000 W), R404A R134a capacities, and application guide for every model.
Tecumseh commercial compressors range from 1/9 HP (230 W) to 3 HP (4,000 W), delivering refrigeration capacities from 278 W to 6,973 W across R404A, R134a, and legacy refrigerants. This complete technical guide provides exact horsepower, input wattage, evaporating ranges, and application types for all ten major models used in supermarkets, walk-ins, and retail coolers.
