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EATON Dry Type Distribution Ventilated Transformers


Eaton dry-type distribution ventilated transformers do not use oil or other insulating liquid to cool or insulate the windings. Instead, they rely on air circulation to dissipate heat and maintain safe operating temperatures. They are used in commercial and industrial applications and offer dur...ability, energy efficiency & low fire risk compared to oil-immersed transformers.Read more

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EATON V50N34T42XCEA
EATON V43M37T37XCUB
EATON V38M28F22XCUC
EATON V48M37F30XCUNVSSD
StyleModelFrequencySecondary VoltagePrimary VoltageEnclosure MaterialMounting TypePrice
A
V50N34T42XCE		-400Y/231V380V, 400V, 415V, 440V, 480V--€117,692.15
A
V60G48T10CU		-480V600V--€11,645.98
B
V43M37T37XCU		50-60 Hz380Y/220V416V--€16,051.54
B
V38G28T09XCE		50-60 Hz208Y/120V380V--€9,072.89
C
V38M28F22XCU		50-60 Hz208Y/120V380V--€65,681.07
B
V38M28T30XCU		50-60 Hz208Y/120V380V--€13,242.20
B
V38M28T15XCU		50-60 Hz208Y/120V380V--€10,739.34
A
V38M28E30XCULS42		50-60 Hz208Y/120V380V--€15,566.28
B
V38M28F12XCU		50-60 Hz208Y/120V380V--€47,184.13
B
V38G31T09X		50-60 Hz220Y/127V380V--€8,517.41
B
V38G28E09XCU		50-60 Hz208Y/120V380V--€19,243.98
B
V38M28F75XCU		50-60 Hz208Y/120V380V--€21,280.74
A
V39M28T15XCU		50-60 Hz208Y/120V400V--€10,273.25
A
V39M28T75XCULS47		50-60 Hz208Y/120V400V--€30,557.95
A
V30N34T42XCE		50-60 Hz400Y/231V380/400/415/480V--€114,295.40
A
V39M48T45XCU		50-60 Hz480V400V--€20,188.93
A
V39M34F25XCECU		50-60 Hz400Y/231V400V--€17,430.67
B
V43M28E12XCU		50-60 Hz208Y/120V416V--€33,597.14
B
V43M28E30XAFCUSRLS42		50-60 Hz208Y/120V416V--€19,959.07
B
V43M28E30XCU		50-60 Hz208Y/120V416V--€14,078.61
A
V38M31T21XCU		50-60 Hz220Y/127V380V--€15,176.82
A
V38M48T49XCU		50-60 Hz480V380V--€48,137.70
A
V39M34F25XCU		50-60 Hz400Y/231V400V--€15,847.23
B
V83N31T10XCU		50-60 Hz220Y/127V380V, 416V--€10,988.35
B
V39M28T30XCU		50-60 Hz208Y/120V400V--€13,561.46
B
V39M28T10X		50-60 Hz208Y/120V400V--€8,000.23
B
V85N22E12XCE		50-60 Hz120/240V380/400/415/440/460/480V--€32,460.63
B
V85G22E49XCE		50-60 Hz120/240V380/400/415/440/460/480V--€40,799.27
B
V83N31T20XCU		50-60 Hz220Y/127V380V, 416V--€13,542.29
B
V83N31T15XCU		50-60 Hz220Y/127V380V, 416V--€10,988.35
B
V83N31T20XCECU		50-60 Hz220Y/127V380V, 416V--€14,199.93
A
V83N31T15XCUCE		50-60 Hz220Y/127V380V, 416V--€11,518.29
B
V43G28T10X		50-60 Hz208Y/120V416V--€8,230.09
A
V66N34T42XCE		50-60 Hz400Y/231V380V, 400V, 480V--€114,295.40
B
V83N31T10XCECU		50-60 Hz220Y/127V380V, 416V--€11,518.29
B
V83N31T15XCECU		50-60 Hz220Y/127V380V, 416V--€11,518.29
B
V39M31T15XCU		50-60 Hz220Y/127V400V--€10,458.40
B
V39M28E45XCU		50-60 Hz208Y/120V400V--€20,080.39
B
V39M28B12XCU		50-60 Hz208Y/120V400V--€42,593.40
B
V39D34T49XCU		50-60 Hz400Y/231V400V--€39,726.60
B
V43M28E45XCU		50-60 Hz208Y/120V416V--€17,992.54
B
V43M28T49XCU		50-60 Hz208Y/120V416V--€47,714.06
B
V43M28E30XCULS42		50-60 Hz208Y/120V416V--€16,619.80
A
T48N11S05X		50-60 Hz120/240V480V--€8,064.08
A
V50N34T42X		50-60 Hz400Y/231V380V, 400V, 415V, 440V, 480V--€86,265.87
A
V50N34T53XCE		50-60 Hz400Y/231V380V, 400V, 415V, 440V, 480V-Floor€151,008.36
A
V48M51F45XCUS6		50-60 Hz416Y/240V480V--€27,563.44
D
V48M37F30XCUNVSS		50-60 Hz380Y/220V480V--€35,870.16
B
V48M38E45XCU		50-60 Hz380V480V--€21,408.43
B
V48M34F75XCU		50-60 Hz400Y/231V480V--€27,033.49
B
V48M34F45XCU		50-60 Hz400Y/231V480V--€24,090.09
B
V39M28T75XCE		50-60 Hz208Y/120V400V--€18,356.48
A
V39M28T15XCULS42		50-60 Hz208Y/120V400V--€15,930.23
B
V29M37T30XCU		50-60 Hz380Y/220V208V--€15,247.05
B
V48M28F45XCULS42		50-60 Hz208Y/120V480V--€20,188.93
A
V43M51T25XCU		50-60 Hz416Y/240V416V--€15,144.90
A
V43M28T22XCUS2P		50-60 Hz208Y/120V416V--€59,787.84
A
V43M28T22XCU		50-60 Hz208Y/120V416V--€50,612.80
B
V43M51T88X		50-60 Hz416Y/240V416V--€11,665.11
D
V48M28B15CUNVSS		60 Hz208Y/120V480V--€20,935.97
B
V48G28E10CU		60 Hz208Y/120V480V--€8,383.32

Working Mechanism

  • When the transformer operates, the windings generate heat due to electrical losses.
  • To maintain safe operating temperatures, the windings are enclosed in a metal casing having air vents or louvers to allow air to circulate the windings.
  • This air circulation cools the windings and carries away the heat, preventing the transformer from overheating.

Frequently Asked Questions

What is the difference between dry-type and oil-type transformers?

Dry-type transformers use air as the cooling medium, while oil-filled transformers use oil instead of air.

How to maintain these units?

  • Keep the up of dust or debris that can block the airflow.
  • Inspect the insulation and conductors regularly for signs of wear, damage or corrosion.
  • Monitor the voltage output and other performance parameters regularly.
  • Check the temperature of the transformer regularly and ensure that it remains within the recommended operating range.
  • Inspect the fan or blower system regularly to ensure that it is functioning properly and that the bearings and other components are lubricated as necessary.

How does the efficiency of a dry-type transformer compare to an oil-immersed transformer?

Dry-type transformers have a higher efficiency compared to oil-immersed transformers, as they have lower losses due to the absence of oil.

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