Patent application number | Description | Published |
20090240462 | System and Method for Capturing an Event in MEMS Inertial Sensors - A method of capturing an event in a MEMS accelerometer stores acceleration data in memory, detects a trigger event based on the acceleration data, and modifies a configuration of the memory so that a specified amount of the acceleration data is saved. A MEMS event capturing system includes an inertial sensor having sensor circuitry and event capturing circuitry implemented with the sensor circuitry. The event capturing circuitry includes memory capable of storing acceleration data received from the inertial sensor and a detection module operatively coupled with the memory that detects a trigger event. The event capturing circuitry also includes a management module operatively coupled with the memory and the detection module that modifies the memory's storage configuration when the trigger event is detected. | 09-24-2009 |
20090240463 | Activity Detection in MEMS Accelerometers - A method of detecting activity in a MEMS accelerometer captures an acceleration bias, measures acceleration at a predetermined time, calculates a change in acceleration using the measured acceleration and the acceleration bias, and compares the change in acceleration to a threshold to detect activity. A method of detecting inactivity uses a similar technique along with a timer. The method of detecting inactivity in a MEMS accelerometer captures an acceleration bias, measures acceleration at a predetermined time, calculates a change in acceleration using the measured acceleration and the acceleration bias, and compares the change in acceleration to a threshold to detect inactivity. The method further determines if the change in acceleration is less than the threshold and, if so, determines if a predetermined period of time has elapsed to detect inactivity. | 09-24-2009 |
20090293615 | Management System for MEMS Inertial Sensors - A MEMS system includes an inertial sensor having sensor circuitry and management circuitry implemented with the sensor circuitry. The management circuitry includes a detection module that detects a condition of the system and a management module that coordinates the functionality of the inertial sensor and the detection module based on the detected condition. | 12-03-2009 |
20110087454 | Tap Detection - Methodology and circuitry for determining if a device, such as a cellular phone or personal digital assistant has been tapped is disclosed. The device includes an accelerometer and in response to an acceleration, the accelerometer outputs an acceleration signal. The accelerometer may continuously output an acceleration signal even if no acceleration occurs. A tap detection device receives the temporally sampled acceleration signal and takes the first derivative of the temporally sampled acceleration signal producing one or more derivative values. The tap detection system compares each derivative value to a threshold value and if the derivative value exceeds the threshold a tap is detected. By taking the derivative of the acceleration signal, the noise floor for the acceleration signal is reduced leading to more accurate results with less false positives and less positive negatives. | 04-14-2011 |
20120092916 | Built-In Self Test for One-Time-Programmable Memory - An apparatus and method of testing one-time-programmable memory provides one-time-programmable memory having one or more memory locations for storing data and corresponding programming circuitry for each memory location. In addition, each programming circuitry has a circuit element configured to permanently change state to store the data in the memory. The method also reads each memory location to verify that the memory location is unprogrammed and activates the programming circuitry for each memory location, which applies a test current to the programming circuitry. The test current is less than a threshold current needed to permanently change the state of the circuit element. The method then determines whether the programming circuitry is functioning properly. | 04-19-2012 |
20120279304 | Activity Detection in MEMS Accelerometers - A method of detecting activity with a MEMS accelerometer stores a value of acceleration, then measures acceleration at a later time, calculates a change in acceleration using the measured acceleration and the stored acceleration, and compares the change in acceleration to an activity threshold to detect activity. A method of detecting inactivity uses a similar technique along with a timer. The method of detecting inactivity with a MEMS accelerometer stores an acceleration value, then measures acceleration at a later time, calculates a change in acceleration using the measured acceleration and the stored acceleration, and compares the change in acceleration to an inactivity threshold. If the change in acceleration is less than the inactivity threshold and, if a predetermined period of time has elapsed, then inactivity is detected. | 11-08-2012 |
20130294143 | Built-In Self Test for One-Time-Programmable Memory - An apparatus and method of testing one-time-programmable memory provides one-time-programmable memory having one or more memory locations for storing data and corresponding programming circuitry for each memory location. In addition, each programming circuitry has a circuit element configured to permanently change state to store the data in the memory. The method also reads each memory location to verify that the memory location is unprogrammed and activates the programming circuitry for each memory location, which applies a test current to the programming circuitry. The test current is less than a threshold current needed to permanently change the state of the circuit element. The method then determines whether the programming circuitry is functioning properly. | 11-07-2013 |
20140056452 | Portable Device with Power Management Controls - A wearable device has a motion detector configured to detect motion of the device and produce a motion signal relating to motion of the device, a contact sensor configured to detect if the device is in contact with an object and produce a contact signal relating to whether the device is in contact with an object, and a controller operatively coupled with the motion detector and the contact sensor. The controller is configured to switch between on and off-states as a function of at least one of the motion signal and contact signal. The device also has a sound transducer or other transducer operatively coupled with the controller. The controller is configured to change the state of the sound transducer between on and off-states in response to receipt of the motion signal, and the contact signal. | 02-27-2014 |
20140250969 | Spread-Spectrum MEMS Self-Test System and Method - A MEMS sensor includes a micro-electromechanical structure, a detection circuit, and a self-test circuit to test the health of the MEMS sensor during runtime operations. The self-test circuit is configured to inject into the micro-electromechanical structure a plurality of injected test signals that are broad-band frequency-varying frequency signals, which are based on spread spectrum based modulation. The injected test signals may a magnitude that is below an observable threshold of the sensor signal as well as a test-signal bandwidth that overlaps with a substantial portion of the sensor bandwidth, including the stimulus of interest. | 09-11-2014 |