James B Nolan
Barber at 54 Pl, Denver, CO

4907449, Mar 13, 1990

Oct 31, 1986

6/926361

David B. Call - Boulder CO
James A. Nolan - Evergreen CO
Steven J. Lassman - Boulder CO

A.I.R., Inc. - Boulder CO

G01W 104, G01L 912, G01R 2726

73170R

A radiosonde has a novel and improved measuring circuitry for measuring atmospheric conditions, such as, temperature, humidity and pressure through the direct conversion of resistance and capacitance values into binary numbers. The binary numbers are transmitted in digital form along with calibration coefficients to a remote ground station. The measuring circuitry can be mounted on the same substrate with the pressure transducer, and the electrical connections between the pressure transducer and measuring circuitry are simplified by utilization of an offset diaphragm, pressure cell arrangement.

2012023, Sep 20, 2012

Mar 23, 2012

13/429109

Bruce Lanning - Littleton CO, US
James A. Nolan - Lakewood CO, US
Gregory J. Nuebel - Bailey CO, US
Dennis D. Spencer - Woodbridge CT, US
Hitten P. Zaveri - New Haven CT, US

A61B 5/0478

600378

A wireless system for brain monitoring/mapping of neurological-disorder patients includes a plurality of electrodes each configured for surface abutment of brain tissue and main circuitry for placement outside a body of a patient and configured to transmit power at radio frequencies and send and receive data using infrared energy. Remote circuitry is provided for subcutaneous implantation in a head of the patient. The remote circuitry is connected to the plurality of electrodes and includes a multiplexer sampling signals from the plurality of electrodes. The multiplexer outputs electrode signals to an amplifier and A/D converter for transmission to the main circuitry. The remote circuitry is configured to (a) receive transmitted power at radio frequencies from the main circuitry, (b) capture and digitize full-bandwidth EEG signals from each of the electrodes, and (c) send data to and receive data from the main circuitry using infrared energy.

8165684, Apr 24, 2012

Aug 1, 2008

12/184663

David A. Putz - Pewaukee WI, US
Bharat S. Joshi - Pineville NC, US
Bruce Lanning - Littleton CO, US
James A. Nolan - Lakewood CO, US
Gregory J. Nuebel - Bailey CO, US
Dennis D. Spencer - Woodbridge CT, US
Hitten P. Zaveri - New Haven CT, US

Yale University - New Haven CT

A61N 1/00, A61B 5/04

607 45, 607 33, 600518, 600544

A wireless system for monitoring a patient's brain tissue including (1) a plurality of electrodes abutting brain tissue, (2) main circuitry outside the patient's body to transmit power at radio frequencies and send/receive data using infrared energy, and (3) subcutaneously-implanted remote circuitry connected to the electrodes and configured to (a) receive transmitted RF power, (b) capture and digitize EEG signals from the electrodes, and (c) send/receive data to/from the main circuitry using IR energy, including sending digitized EEG signals from each electrode to capture the full bandwidth of each EEG signal. The system preferably includes circuitry to measure the electrical impedance of each electrode for real-time monitoring of the condition of the electrode/tissue interfaces to enhance interpretation of captured EEG signals.