A device-level SPICE library based on an integrated organic pentacene OFET process by Philips has been developed to carry out the design of the analog and digital subsystems required in the implementation of low-cost high volume RFIDs. The OFET model was fitted through the use of a modified MOSFET SPICE model. Simulations are shown to validate the technological choice and to demonstrate the feasibility in the implementation of a passive RFID operating at 12 V bias voltage.
A device level analog and digital subsystem SPICE library for the design of low-cost pentacene OFET RFIDs / Tinivella, Riccardo; Shen, Shu; Pirola, Marco; Ghione, Giovanni; Camarchia, Vittorio. - STAMPA. - I:(2010), pp. 848-851. (Intervento presentato al convegno International Microwave Symposium, IMS 2010 tenutosi a Anheim (USA) nel May 2010) [10.1109/MWSYM.2010.5517804].
A device level analog and digital subsystem SPICE library for the design of low-cost pentacene OFET RFIDs
TINIVELLA, RICCARDO;SHEN, SHU;PIROLA, Marco;GHIONE, GIOVANNI;CAMARCHIA, VITTORIO
2010
Abstract
A device-level SPICE library based on an integrated organic pentacene OFET process by Philips has been developed to carry out the design of the analog and digital subsystems required in the implementation of low-cost high volume RFIDs. The OFET model was fitted through the use of a modified MOSFET SPICE model. Simulations are shown to validate the technological choice and to demonstrate the feasibility in the implementation of a passive RFID operating at 12 V bias voltage.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2376903
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