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5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V

5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V
5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V
5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V
5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V
5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V
5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V
5 kVA Hospital Isolation Transformer, 1 Phase, 240V to 120V
  • Stock: In Stock
  • Model: PEACO-IT-5KVA
  • SKU: PEACO-MIT-1S5K
$3,481.99
Ex Tax: $3,481.99

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Single phase hospital isolation transformer for sale, 5 kVA rated capacity, 1V-500V primary voltage & secondary voltage. Medical isolation transformer features a temperature resistance of 180℃, built-in PT100 temperature sensor. Cost-effective step up isolation transformer/step down isolation transformer to provide safe, reliable and continuous power distribution for hospital equipment.

Specification
Model PEACO-IT-5KVA
Capacity* 5 kVA (Customized)
Primary Voltage (AC)* 110, 120, 208, 220, 230, 240, 380, 400, 440, 460, 480, 110/220, 120/240, 240/480, 500V (Customized)
Secondary Voltage (AC)* 6, 12, 24, 36, 48, 110, 120, 208, 220, 230, 240, 380, 400, 440, 460, 480, 110/220, 120/240, 240/480, 500V (Customized)
Frequency* 50Hz / 60Hz
Winding Material* Enameled copper wire or enameled aluminum wire (Optional)
Frequency 50Hz / 60Hz Efficiency ≥80%~99%
Insulation Level* F / H grade (Optional) Ground Resistance 25A<100mΩ
Dielectric Withstanding Voltage 2500V AC/min Insulation Resistance ≥500Ω
Overload Capacity Double rated current can last 1 minute Cooling Method Natural cooling
Protection Grade* IP00 (Open type), IP20 (Closed type, customized) Temperature Rise F≤100K, H≤125K
Operating Temperature -15℃~40℃ Noise ≤40dB (A) (within 1 metre)
Altitude ≤2000m Relative Humidity <90%
Designed Life 20 years Working Method Unattended work for long time
Certificate CE Warranty 1 year
Note: * denotes optional and customized parameters and you can select every parameter in drop-down lists to complete your order.
Transformer Features

  • The transformation ratio between the primary winding and the secondary winding is 1:1.
  • The transformer winding is made of H-class enameled copper wire, with a temperature resistance of 180℃. Compact and uniform arrangement, no insulation layer on the surface, with high aesthetic feeling and heat dissipation.
  • Double insulation is adopted between the windings and an electrostatic shielding layer is designed in the electrical isolation transformer.
  • The medical isolation transformer adopts vacuum pressure impregnation of insulating varnish with temperature resistance of 180℃, which has extremely high heat resistance, corrosion resistance, low noise and good insulation performance.
  • The hospital isolation transformer has excellent filtering effect and is used to convert TN system to IT system (ungrounded system).
  • The medical grade isolation transformer has built-in PT100 temperature sensor to monitor its temperature.

Transformer Shell Features

  • Steel plate shell.
  • Protection class is IP20 or can be customized for you.
  • There are cable entry holes.
  • The housing has fixed holes for easy installation and replacement.

The medical isolation transformer is widely used in ventilators, infusion pumps, testing equipment, pulse compressors, patient monitoring equipment, high-frequency enclosure equipment, etc.

Medical Isolation Transformer Schematic Diagram
Medical Isolation Transformer Schematic Diagram
What is Medical Isolation Transformer System?
The medical isolation transformer system is also called the medical IT isolation power supply system. In some places of the medical field, because of the high requirements for power supply continuity, it is designed to automatically switch between two (or even three) power sources (grounded power supply systems) to ensure these power supply continuity in special places, but if there is a relative insulation fault at the load end, the fault current will pass through the neutral point of the power supply to form a loop to the ground, thereby forming a larger fault current, causing the upper-level MCB or fuse to operate, eventually leading to power interruption.

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