| Melexis NV Microelectronic Integrated Systems Patent applications |
| Patent application number | Title | Published |
|---|
| 20110221371 | ACCURACY OF ROTOR POSITION DETECTION RELATING TO THE CONTROL OF BRUSHLESS DC MOTORS - During operation of a 3 phase BLDC motor it is driven by use of a PWM waveform applied to one of the driven phase (curve a). The other driven phase is connected thereto but no driving signal is applied (curve b). The third phase is left floating (curve c). This allows the back EMF in the third phase to be monitored for the purpose of determining rotor position by detection of zero crossing points. The rapid switching of the PWM pulses causes ringing in the back EMF signal indicated for one pulse by the ringed portions | 09-15-2011 |
| 20100123458 | TWIN VERTICAL HALL SENSOR - A Hall sensor comprises two separate wells and each having respective contacts provided thereover. An oppositely directed bias current is supplied via contacts. Accordingly, a differential signal can be obtained from the two output contacts. As in each well the middle contact can be precisely centred between the two outer contacts, the intrinsic offset is small. The sensor | 05-20-2010 |
| 20100034237 | LAMINATED TEMPERATURE SENSOR - A temperature sensor is formed from three initially unfired (or green) ceramic substrates. The first substrate has a temperature sensitive means printed on a first surface. Additionally first and second conducting elements are also printed thereon. The third substrate has a temperature sensitive means in the form of a resistor printed on a first surface. Additionally first and second conducting elements and are also printed thereon. The second substrate is provided with a conducting via in the form of a hole extending through the substrate, the hole being filled with conductive material. The via is adapted to be aligned with the ends of conducting elements. To construct the sensor the first surfaces of substrates are aligned with substrate such that via is aligned with conducting elements. The substrates are then pressed together. Subsequently the substrates are fired to provide the completed sensor. | 02-11-2010 |
| 20090324205 | PULSE COUNT CONTROL FOR BRUSHED DC MOTOR DRIVEN BY PULSE WIDTH MODULATION - Systems and methods for determining the occurrences of pulses for implementing a pulse count monitoring method for driving a brushed DC motor driven by a pulse width modulated (PWM) driving current. The method comprises acquiring the driving current signal; performing peak detection on the acquired signal; identifying the largest peaks and thus determining the occurrence of pulses. The peak detect is implemented by fast peak detection or diode peak detection operable to detect appropriate peak widths as determined by the chosen PWM frequency, duty cycle and PWM pulse height. | 12-31-2009 |
| 20090241643 | TIRE PRESSURE MONITORING SYSTEM - Tire pressure monitoring system for a vehicle includes sensor units mounted in each tire of the vehicle, each sensor unit being operable to output an RF signal indicative of the pressure in the tire in which it is mounted; a pair of communicator units for receiving signals from said sensor units, said pair of communicator units being provided at different locations on the vehicle; and a control unit connected to said communicator units wherein said control unit is operable to determine which sensor unit is associated with which tire by monitoring the strength of the RF signal received from each respective sensor unit by each communicator unit. | 10-01-2009 |
| 20090134933 | OUTPUT DRIVER AND METHOD OF OPERATION THEREOF - The method of the present invention for switching an output driver of the type comprising an n-mos transistor and a p-mos transistor configured in a push-pull arrangement operates by directly monitoring the level of the output signal OUT. The method comprises slowly switching off the input to the initially designated active transistor; monitoring the variation in output voltage level in response thereto; and when a desired change in output level is detected the switching the initially designated output transistor on completely and fast. Using this method the parasitic currents in the diodes are much smaller in time and amplitude. | 05-28-2009 |
| 20090108783 | Rotor orientation detection in brushless DC motors - In order to determine the orientation of the rotor of a brushless DC motor | 04-30-2009 |
| 20090102460 | POSITION SENSOR - A method of determining the position of a probe relative to a scale wherein the probe contains a sensor of the type comprising one or more pairs of orthogonal sensing elements X, Y operable to measure properties varying locally with the position of the probe relative to the scale. In use, a sinusoidally varying bias Ix, Iy is applied to each of the elements X, Y. The resultant outputs of elements X and Y are fed to summing means | 04-23-2009 |
| 20090097858 | OPTICAL DATA TRANSCEIVERS - An optical data transceiver is manufactured by forming an integrated control circuit ( | 04-16-2009 |
| 20090096397 | RELATING TO DRIVING BRUSHLESS DC (BLDC) MOTORS - In a three phase BLDC motor the rotor position is monitored by detecting the zero crossing points of the induced back EMF signals BEMF_U, BEMF_V, BEMF_W in the phase windings U, V, W. As they are illustrated, the back EMF signals are substantially sinusoidal but they may in other situations be substantially trapezoidal. The three back EMF signals are 120° out of phase with each other. In order to accurately monitor the back EMF in a phase winding, the driving waveform for each phase U, V, W includes an undriven period P close to the expected zero crossing point. The period P can be a preset part of the driving waveform or can be an interruption of the normal driving waveform in response to suitable interrupt signals. In order to determine the zero crossing points of each back EMF signal, two (or more) samples of the back EMF are taken during the undriven period P and used to interpolate the back EMF signal to determine the zero crossing point. | 04-16-2009 |
