Nonin Medical, Inc. Patent applications |
Patent application number | Title | Published |
20150141780 | REGIONAL OXIMETRY SENSOR INTERFACE - A system includes a sensor, a second connector, a local processor, a first telemetry module, a second telemetry module, and a remote processor. The sensor is coupled to a cord and the cord has a first connector. The second connector is coupled to a housing. The second connector is configured to mate with the first connector. The local processor is coupled to the second connector and disposed in the housing. The local processor is configured to execute instructions stored in a local memory. The local memory is disposed in the housing. The local processor is configured to generate calculated data based on a signal received at the second connector. The signal corresponds to a parameter measured by the sensor. The first telemetry module is coupled to the local processor and is configured to wirelessly communicate the calculated data. The second telemetry module is configured to communicate with the first telemetry module. The remote processor is coupled to the second telemetry module. The remote processor is configured to generate output data based on the calculated data. | 05-21-2015 |
20150141779 | REGIONAL OXIMETRY SLEEVE FOR MOBILE DEVICE - A system includes a mobile computing device, a sleeve, a contact surface, a sensor module, and a telemetry module. The mobile computing device has a first processor within a housing. The sleeve has an internal surface configured to fit the housing. The contact surface is disposed on an external surface of the sleeve. The sensor module is coupled to the contact surface and is configured to generate an electrical signal corresponding to a measured physiological parameter associated with tissue at the contact surface. The telemetry module is coupled to the sensor module and is configured to communicate data corresponding to the electrical signal to the mobile computing device. | 05-21-2015 |
20140288388 | TISSUE CLAMP FOR NONINVASIVE PHYSIOLOGICAL MEASUREMENT - A device includes a clamp and a sensor. The sensor can be permanently attached to the clamp and tissue by the force exerted by the clamp. The clamp includes a first jaw member and a second jaw member. The first jaw member has a jaw face and the second jaw member has a complementary face. The second jaw member is held in alignment with the first jaw member by a joint. The joint has an elastic member configured to exert a compressive force between the jaw face and the complementary face. The joint is configured to allow movement of the jaw face relative to the complementary face in directions corresponding to pitch, roll, yaw, and heave. The compressive force is distributed over a surface of the jaw face. The sensor is coupled to the jaw face or held in place by the compressive force of the jaw face. The sensor is configured to generate a sensor signal corresponding to a physiological parameter of tissue proximate the jaw face. | 09-25-2014 |
20140275885 | SELF-CONTAINED REGIONAL OXIMETRY - A handheld device includes a contact surface, an optical module, a processor, a display module, and a user operable switch. The optical module is disposed on the contact surface. The optical module has at least one optical emitter and at least one optical detector. The at least one optical detector has a light shield associated with the contact surface. The light shield is configured to exclude ambient light from the contact surface when the contact surface abuts tissue of a patient. The processor is coupled to the optical module and configured to execute instructions for determining a measure of oximetry corresponding to the tissue. The display module is coupled to the processor and is configured to indicate the measure of oximetry. The user operable switch is configured to activate at least one of the processor, the optical module, and the display module. | 09-18-2014 |
20140221798 | OPTICAL SENSOR PATH SELECTION - A device includes a sensor for measuring a parameter for tissue. The sensor includes a plurality of optical elements including a plurality of detectors and at least one emitter. Separation distances between the various optical elements are selected based on a depth corresponding to a region of interest in the tissue and based on a depth corresponding to an exclusion region in the tissue. | 08-07-2014 |
20140135602 | Reactance sensing for improved sensor palcement - A sensor assembly which includes a first physiological parameter sensor configured to sense a physiological parameter and a first reactance sensor connected to the first physiological parameter sensor. The first reactance sensor provides a signal corresponding to a position of a tissue relative to the first reactance sensor and corresponding to the first physiological parameter sensor. | 05-15-2014 |
20130310667 | FOLDABLE SENSOR DEVICE AND METHOD OF USING SAME - A physiologic sensor device configured to be placed on an appendage. The sensor device includes a foldable portion designed to be deformed around the tip of the appendage. In some embodiments the foldable portion is a soft compressible material. In other embodiments a stabilization component is provided to isolate sensing elements from external forces. Some embodiments also include a deformable frame that folds in response to a bending force as the sensing device is placed on the appendage. The deformable frame holds the sensor device in place until another bending force is applied. In other embodiments the frame and/or sensor elements are removable and disposable relative to other components of the sensor device. | 11-21-2013 |
20120304784 | HOME UTERINE ACTIVITY MONITORING - A device includes a guard member, at least one bias sensor, a display, and a measurement sensor. The guard member includes an aperture on an axis. The at least one bias sensor is coupled to the guard member. The at least one bias sensor is configured to provide a bias signal corresponding to a bias force on the guard member. The bias force is aligned parallel with the axis. The display is coupled to the at least one bias sensor and is configured to provide a visible indication of the bias force. The measurement sensor is configured to provide an output signal corresponding to a measured force proximate the aperture. | 12-06-2012 |
20110263203 | CONNECTOR FOR MEDICAL DEVICE - An apparatus includes a housing, a plurality of electrical contacts, and a transceiver. The housing is configured to engage a feature of a portable device. The plurality of electrical contacts are coupled to the housing and configured to establish an electrical connection with an electrical circuit of the portable device. The transceiver is coupled to the housing and configured to communicate with a secondary device. | 10-27-2011 |
20100309207 | DISPLAY MODIFICATION BASED ON MEASUREMENT TYPE - Systems and methods provide a measurement system that modifies the display format based on the type of measurements or and/or the value measured, and these modifications are automatically made based on the information stored within sensors, sensor pods and/or alarm limits. | 12-09-2010 |
20100210924 | DISPOSABLE OXIMETER DEVICE - A device includes a pliable membrane, a sensor module and a communication module. The pliable membrane includes a semi-rigid structural member. The membrane is configured to conform to a tissue surface. The structural member is configured to retain the membrane in a particular shape corresponding to the tissue surface. The sensor module is coupled to the membrane. The sensor module is configured to generate an electrical signal corresponding to a physiological parameter associated with the tissue surface. The communication module is coupled to the membrane. The communication module is configured to receive the electrical signal and wirelessly communicate data corresponding to the electrical signal with a remote device. | 08-19-2010 |
20100130840 | OPTICAL SENSOR PATH SELECTION - A device includes a sensor for measuring a parameter for tissue. The sensor includes a plurality of optical elements including a plurality of detectors and at least one emitter. Separation distances between the various optical elements are selected based on a depth corresponding to a region of interest in the tissue and based on a depth corresponding to an exclusion region in the tissue. | 05-27-2010 |
20100125188 | MOTION CORRELATED PULSE OXIMETRY - A device includes a first sensor, a motion sensor, and a processor. The first sensor has an optical detector and an optical emitter. The optical detector generates a first output using the optical emitter. The first output corresponds to a physiological parameter of a user. The motion sensor generates a motion output corresponding to a detected motion of the user. The motion sensor is configured for attachment to the user. The processor is coupled to the first sensor by a first link and coupled to the motion sensor by a second link. At least one of the first link and the second link includes a wireless communication channel. The processor generates a processor output using the first output and the motion output. | 05-20-2010 |
20090309645 | SWITCHED CAPACITOR APPARATUS PROVIDING INTEGRATION OF AN INPUT SIGNAL - An apparatus includes an operational amplifier, a switched capacitor network, an optical sensor, and a clock. The switched capacitor network is coupled to an input terminal of the operational amplifier and coupled to an output terminal of the operational amplifier. The optical sensor includes a sensor output coupled to the switched capacitor network. The clock is coupled to at least one switch of the switched capacitor network. The clock is configured to activate the at least one switch to provide an integrated output at the output terminal corresponding to the sensor output. | 12-17-2009 |
20090299675 | LED CONTROL UTILIZING AMBIENT LIGHT OR SIGNAL QUALITY - A system and method for controlling a light emitting device for an optical sensor based on signal quality and/or power consumption requirements. Drive current and/or integration time is controlled as a function of detected ambient light or signal quality. As the signal quality decreases the drive current or integration time can be adjusted to provide a more usable signal. If after some criteria for reduction, such as “time on” or high signal quality, then the drive current can be decreased. | 12-03-2009 |
20090259114 | NON-INVASIVE OPTICAL SENSOR - An apparatus includes a sensor body, a circuit board, a cable, at least one light emitting device, and at least one photodetector. The circuit board is enclosed within the sensor body and includes at least one conductive trace and at least one aperture. The cable is coupled to the at least one conductive trace. The cable includes a shield conductor and a signal conductor. The at least one light emitting device is coupled to the circuit board and is configured to emit light into a tissue. The at least one photodetector includes a planar active area coupled to the circuit board and is configured to provide an output signal based on light detected by the active area. The planar active area is aligned with the aperture. The output signal is coupled to the cable. | 10-15-2009 |
20090043180 | SENSOR AND SYSTEM PROVIDING PHYSIOLOGIC DATA AND BIOMETRIC IDENTIFICATION - A device and method of use combining a non-invasive sensor for measuring a physiologic attribute with a biometric identification means. One embodiment of the device and method includes a sensor that has incorporated therein both an oximeter and a fingerprint sensor. The sensor may be connected to a controller including a fingerprint identification circuit in addition to the oximeter circuit and other physiological circuitries such as ECG, pulse or heart rate, NIBP (Non-Invasive Blood Pressure) and temperature. A display may provide an indication of the measured blood oxygen saturation level along with identification information. The display may be located to provide remote monitoring of oxygen saturation and fingerprint identification of the patient, for example, at a central station. The fingerprint identification circuit may be activated individually to obtain the patient fingerprint, which may be recorded in a memory, either in the controller or a remote memory store, or both. | 02-12-2009 |
20080221420 | Fetal Pulse Oximetry and ECG Sensor - A medical device configured to be temporarily secured at a tissue field, such as a fetal skull, via a spiral probe. The spiral probe functions to both secure the sensor in place and provide an electrode for ECG purposes. The spiral probe is non-uniform and includes one or more of a stop element, a cross bar element and a collapsed portion adapted to engage tissue after a predetermined rotation of the probe into the tissue field. The probe diameter can expand with an increase in torque applied to a drive rod, leading to disengagement of the drive rod from the probe. The spiral probe and drive rod may define a detent mechanism whereby upon reaching a predetermined torque the drive rod is disengaged from the probe and freely rotates without further entry of the spiral probe into the tissue field. | 09-11-2008 |
20080208023 | FOLDABLE SENSOR DEVICE AND METHOD OF USING SAME - A physiologic sensor device configured to be placed on an appendage. The sensor device includes a foldable portion designed to be deformed around the tip of the appendage. In some embodiments the foldable portion is a soft compressible material. In other embodiments a stabilization component is provided to isolate sensing elements from external forces. Some embodiments also include a deformable frame that folds in response to a bending force as the sensing device is placed on the appendage. The deformable frame holds the sensor device in place until another bending force is applied. In other embodiments the frame and/or sensor elements are removable and disposable relative to other components of the sensor device. | 08-28-2008 |