S22-M-50-10-NX1 Low Loss 10kV Distribution Transformer
S22-M-50-10-NX1 low loss 10kV distribution transformer for energy-saving, cost-effective power distribution in urban grids.
Specifications
ModelS22-M-50-10-NX1
Rated Capacity50kVA
Rated Voltage10kV/0.4kV
Winding MaterialFull Copper
Cooling MethodOil-Immersed Self-Cooled
Energy Efficiency ClassClass 1
Noise Level≤55dB
MaintenanceMaintenance-Free
DeploymentPrivate/Cloud
Key FeaturesVisualization, Predictive Analytics
ApplicationResidential, Commercial, Industrial Power Distribution
Details
Product Overview
The S22-M-50-10-NX1 is a low loss 10kV distribution transformer designed for reliable, energy-efficient power distribution. Built with advanced core technology, it significantly reduces no-load and load losses, lowering long-term operational costs for residential communities, commercial buildings, and urban power grids. Its compact, robust construction ensures stable performance and long service life under various operating conditions.
Model meaning
Product features
High-efficiency cooling system: Distribution transformers employ various cooling methods—such as self-cooling, air-cooling, or forced oil circulation—to effectively control the equipment's operating temperature and ensure long-term stable operation.
Excellent insulation properties: Transformer oil not only plays a cooling role, but also has good insulation properties, reducing insulation distance and cost.
Strong short-circuit resistance: the winding and core fastening measures, as well as the non-suspended structure design, can withstand the vibration during transportation and operation.
Temperature control: Oil-immersed transformers operate under specified cooling conditions and are equipped with thermometers and possible temperature control systems to monitor the top oil temperature in real time, which usually does not exceed 90°C to ensure that the safety threshold is not exceeded to prevent insulation aging.
Low noise: Due to the buffering effect of the transformer oil, oil-immersed transformers make less noise during operation.
Winding design: Low-voltage windings usually adopt a cylindrical structure wound with copper foil, and high-voltage windings adopt a multi-layer cylindrical structure to ensure balanced ampere-turn distribution and reduce magnetic flux leakage.
Fuel tank design: The fuel tank may adopt a corrugated sheet design, which has a breathing function to compensate for the volume change of the oil due to temperature changes, while preventing the entry of external pollutants.
Excellent sealing performance: Oil-immersed transformers focus on sealing performance to prevent oil leakage and the intrusion of external pollutants.
Diversity of insulation materials: Use insulating cardboard, cable paper, telephone paper and crepe paper as insulation materials. These materials have good insulation properties and durability and provide different insulation protections.
Environmental protection characteristics: Although transformer oil has the possibility of burning, modern oil-immersed transformers will consider environmental protection requirements when designing, such as using vegetable oil as the insulation and cooling medium to meet high environmental protection requirements.
Safety protection devices: including explosion-proof tubes, gas relays, etc., to ensure that pressure can be released in time in the event of internal failure to prevent equipment damage.
Long-term stability: The mature design and high-quality materials of this distribution transformer ensure stable and reliable performance, making it suitable for long-term operation within urban, commercial, and industrial power distribution systems.
Application environment conditions
Serial number
Name
Unit
Required value
1
Ambient temperature
Maximum daily temperature
℃
45
Minimum daily temperature
-45
Maximum daily temperature difference
K
25
2
elevation
m
≤1000
3
solar radiation intensity
W∕cm2
0.1
4
Maximum ice thickness
mm
20
5
Seismic resistance
Ground horizontal acceleration
ms-2
3
Safety factor of three periods of sinusoidal resonance
≥1.67
6
Installation location
Indoor/outdoor
Application scenarios
Oil-immersed laminated core transformer is suitable for the following scenarios:
Used as a boost or step-down device in power systems
Power distribution and transmission in industrial areas
Electricity supply and backup power in commercial buildings
Other places that require stable and reliable power supply
Technical Parameters
Model
Rated capacity (kVA)
Typical voltage combination (kV)
Connection group Label
Impedance voltage (%)
Total weight (t)
Reference size (mm) L*W*H
No-load loss (W)
Load loss (W)
S22-30/10
30
High voltage H.V.
6
6.3
10
10.5
Low Voltage L.V.
0.4
Dyn11
Yyn0
4
0.45
720*480*850
65
455/430
S22-50/10
50
0.5
750*500*900
80
655/625
S22-63/10
63
0.6
800*600*950
90
785/745
S22-80/10
80
0.65
1000*720*980
105
945/900
S22-100/10
100
0.7
1050*750*1000
120
1140/1080
S22-125/10
125
0.85
1100*760*1050
135
1360/1295
S22-160/10
160
0.9
1120*770*1070
160
1665/1585
S22-200/10
200
1.0
1150*800*1100
190
1970/1870
S22-250/10
250
1.2
1300*950*1100
230
2300/2195
S22-315/10
315
1.4
1400*1000*1100
270
2760/2630
S22-400/10
400
1.65
1400*1000*1200
330
3250/3095
S22-500/10
500
2.4
1700*1200*1400
385
3900/3710
S22-630/10
630
4.5
3.0
1800*1300*1500
460
4460
S22-800/10
800
3.3
2150*1950*2000
560
5400
S22-1000/10
1000
3.9
2200*2000*2050
665
7415
S22-1250/10
1250
4.4
2300*2100*2100
780
8640
S22-1600/10
1600
5.4
2400*2200*2200
940
10440
S22-2000/10
2000
5
6.6
2500*2400*2300
1085
13180
S22-2500/10
2500
7.7
2700*2600*2500
1280
13360
Quotation standards
GB/T 1094.1 Power transformer Part 1: General provisions
GB/T 1094.2 Power Transformers Part 2: Temperature rise of liquid-immersed transformers
GB/T 1094.3 Power transformers Part 3: Insulation levels, insulation tests and external insulation air gaps
GB/T 1094.4 Power Transformers Part 4: Guidelines for Lightning Impact and Operational Impact Tests of Power Transformers and Reactors
GB/T 1094.5 Power transformer Part 5: Ability to withstand short circuit
GB/T 1094.7 Power Transformers Part 7: Loading Guidelines for Oil-immersed Power Transformers
GB/T 1094.10 Power transformers Part 10: Sound level determination
GB 2536 Unused mineral insulating oil for electrical fluid transformers and switches
GB/T 2900.95 Electrical Terminology Transformers, voltage regulators and reactors
GB/T 4109 Insulating bushings with AC voltage higher than 1000V
GB/T 5273 Terminal blocks for transformers, high-voltage electrical appliances and bushings
GB/T 6451 Technical parameters and requirements for oil-immersed power transformers
GB/T 7595 Transformer oil quality during operation
GB/T 8287.1 Indoor and outdoor post insulators for systems with nominal voltages higher than 1000V Part 1: Tests of porcelain or glass insulators
GB/T 8287.2 Indoor and outdoor post insulators for systems with nominal voltages higher than 1000V Part 2: Dimensions and characteristics
GB 10230.1 Tap changer Part 1: Performance requirements and test methods
GB/T 10230.2 Tap-changer Part 2: Application Guidelines
GB/T 11022 Common technical requirements for high-voltage switchgear and control equipment standards
GB/T 13912MetalMetallic coating Technical requirements and test methods for hot-dip galvanized coatings on steel parts
GB/T 13499 Guidelines for Application of Power Transformers
GB/T 15153.1 Telecontrol equipment and systems Part 2: Working conditions Part 1: Power supply and electromagnetic compatibility
GB/T 16927.1 High Voltage Test Technology Part 1: General Definitions and Test Requirements
GB/T 16927.2 High Voltage Test Technology Part 2: Measurement System
GB/T 17468 Guidelines for Selection of Power Transformers
GB 20052 Energy efficiency limit values and energy efficiency grades of power transformers
