A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …
P Nadeau, A Paidimarri, PP Mercier, AP Chandrakasan - 2012 - dspace.mit.edu
A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …
PM Nadeau, A Paidimarri, PP Mercier… - 2012 IEEE Radio … - infona.pl
A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …
PM Nadeau, A Paidimarri, PP Mercier… - efficiency.ucsd.edu
A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …
A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …
PM Nadeau, A Paidimarri, PP Mercier… - scholar.archive.org
A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …
PM Nadeau, A Paidimarri, PP Mercier… - researchgate.net
A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …
A three-channel 2.4 GHz OOK receiver is designed in 65nm CMOS and leverages MEMS to enable multiple sub-channels of operation within a band at a very low energy per received …