Title :
Polarity change switch for Peltier current lead
Author :
Moriguchi, Masato ; Mizutani, Susumu ; Miwa, Satoshi ; Famakinwa, Tosin ; Yamaguchi, Takayuki ; Hamabe, Makoto ; Takahashi, Hideaki ; Nakamura, Keiji ; Yamaguchi, Satarou ; Okumura, Haruhiko ; Hasegawa, Yasuhiro
Author_Institution :
Chubu Univ., Aichi, Japan
fDate :
6/1/2004 12:00:00 AM
Abstract :
Peltier current lead is a promising method to reduce heat leakage from current lead. This paper reports development of Peltier current lead (PCL) with switching facilities to adopt the PCL to polarity-reversible superconducting magnet. In the present work, two types of the PCL were discussed. We mainly investigated the PCL with switching element installed in the copper part. Numerical analysis revealed that it is preferable to reduce heat leakage at the low temperature end of Peltier element. With switch resistance of ∼100 μΩ, which enabled switch induced increment of the heat leakage to be suppressed by less than 10%. A transistor switching module with appropriate resistance were manufactured. We demonstrated that a temperature gradient at the end of the lead, corresponding to the heat leakage, could be reduced compared to a conventional current lead (CCL) even when the module was installed with the PCL.
Keywords :
Peltier effect; cryogenics; field effect transistor switches; heat losses; superconducting magnets; Peltier current lead; heat leakage; polarity change switch; polarity-reversible superconducting magnet; switch resistance; switching element; temperature gradient; transistor switching module; Copper; FETs; Lead; Magnetic switching; Manufacturing; Numerical analysis; Resistance heating; Switches; Temperature; Thermoelectricity; PCL; Peltier current lead; polarity reverse; switching module;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2004.831096
