The loop‐handover (LHO) technique is proposed to overcome the problem of close‐loop performance in digitally controlled single‐inductor multiple‐output dc–dc boost converters during start‐up. The presented technique utilises an existing clock source and requires only a small number of blocks. It also occupies a smaller silicon area, thus consuming low power and increasing efficiency. The presented technique is validated with proposed on‐chip digital controller with multiple‐output boost converter architecture using segmented delay line digital pulse width modulation. Experimental results show a successful close loop with reduced transients by using the simpler LHO technique.
Flexible and thin conductive films of poly(3,4-ethylenedioxythiophene) (PEDOT) on PET
substrate were obtained by an in- situ vapor-phase polymerization (VPP) method using ferric toluene sulfonate
as an oxidant. The addition of epoxy acrylate resin used as a binder to provide adhesive strength between
PEDOT and PET also afforded the possibility of the surface patterning through UV exposure. The electrical
and optical properties of the conductive PEDOT films were characterized by UV-Vis spectroscopy and
conductivity measurement. Surface resistance below 150./sq. was achieved for 100 nm thick films with
UV-vis-spectrum transparency exceeding 80%. The combination of these properties makes the films highly
suitable for numerous device applications.
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