Potential +/- Difference Inc. Bi-Toroid Transformer (BiTT)
vs Conventional Transformer
Potential +/- Difference Inc. Bi-Toroid Transformer (BiTT)
Conventional Transformer Comparison
The Bi-Toroid Transformer (BiTT) innovation outperforms conventional transformers
because the BiTT primary consumes almost pure reactive power only but delivers real
power to the load.
In addition the BiTT uses Secondary Coil BEMF induced magnetic flux to maintain power
through the load and as a result Primary Current and Primary Coil temperature do not
increase from no-load to on-load.
Bi-Toroid Transformer BiTT Conventional EI Transformer
Potential +/- Difference Inc. Bi-Toroid Transformer (BiTT)
Conventional Transformer Comparison
Bi-Toroid Transformer BiTT Conventional EI Transformer
Input Voltage, Current, Power Factor, Power
Input Voltage and Current Sine Waves
PF = 0.08 PF = 1.00
Potential +/- Difference Inc. Bi-Toroid Transformer (BiTT)
Conventional Transformer Comparison
Bi-Toroid Transformer BiTT Conventional EI Transformer
Output Load Voltage and Current
Load Voltage = 8.13 Volts
Load Current = 0.54 Amps
Potential +/- Difference Inc. Bi-Toroid Transformer (BiTT)
Conventional Transformer Comparison
No-Load Bi-Toroid Transformer On-Load Bi-Toroid Transformer
Iprimary = 0.65 Amps Iprimary = 0.65 Amps
When placed on-load the BiTT Power Factor increases by 0.06 but the
primary current does not change from no-load to on-load.
Potential +/- Difference Inc. Bi-Toroid Transformer (BiTT)
Conventional Transformer Comparison
BiTT vs Conventional Transformer Demonstration Video:
http://www.youtube.com/watch?v=DLZBKviCkGo
Potential +/- Difference Inc. Bi-Toroid Transformer (BiTT)
Conventional Transformer Comparison
Thane C. Heins
President & CEO
Potential +/- Difference Inc. R & D
"The Transition of Power"
Email: [email protected]
Cell: 613.795.1602
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