+++ title = "Heaters" author = ["Dehaeze Thomas"] draft = false +++ Tags : ### Cryogenic temperature (~120K, UHV compatible) {#cryogenic-temperature--120k-uhv-compatible} ### 20degC temperature {#20degc-temperature} ### 20degC temperature (UHV) {#20degc-temperature--uhv} From : - From (Neto et al. 2022) > UHV-compatible Kapton heaters from Taiwan KLC (part number TSC013D003GR36Z01), with nominal resistances of 36 Ω and 14.4 Ω for 4 W and 10 W power at 12 V, respectively > Although having an easy integration and proven vacuum compatibility, along with low cost, the flexible nature of the Kapton heaters made the clamping to the components a potential source of failure. > Therefore, a new heating element is under development for higher reliability. > As depicted in Fig. 2, it consists of an **SMD nickel thin film and alumina power resistor from Susumu**, soldered over a small aluminium metalcore PCB (Printed Circuit Board) using a lead free (SAC305) solder paste. > The board is then encapsulated inside a small aluminium case using the Stycast 2850FT epoxy resin along with CAT11 catalyser. > The aluminum PCB and housing serve as efficient heat condutors to the part of interest ## Bibliography {#bibliography}

Neto, Joao Brito, Renan Geraldes, Francesco Lena, Marcelo Moraes, Antonio Piccino Neto, Marlon Saveri Silva, and Lucas Volpe. 2022. “Temperature Control for Beamline Precision Systems of Sirius/Lnls.” Proceedings of the 18th International Conference on Accelerator and Large Experimental Physics Control Systems ICALEPCS2021 (nil): China. doi:10.18429/JACOW-ICALEPCS2021-WEPV001.