ATMEL NANTES S.A.S. Patent applications |
Patent application number | Title | Published |
20140028380 | PREVENTING INTERFERENCE BETWEEN MICROCONTROLLER COMPONENTS - A microcontroller includes first and second modules. The first module can operate in a mode that causes interference with operation of the second module. A control circuit on the first module and a control circuit on the second module coordinate operation of the first and second modules to prevent the interference from causing the second module to function incorrectly. | 01-30-2014 |
20130297831 | Serial Bit Processor - A serial bit processor is disclosed that configures a timer/counter module to determine a number of data bits to be decoded from a serial bit stream. In some implementations, a serial peripheral is coupled to a timer/counter module. The serial peripheral sends a restart command to reload an internal count register of the timer/counter module with a pre-defined value. The serial peripheral then sends count commands that cause the timer/counter to decrement (or increment) by one each time a count command is received. When the count reaches zero, a compare match command is generated and sent to the serial peripheral where it is used to resume or complete the decoding of data bits from the serial bit stream. In some implementations, a serial peripheral is included in a microcontroller that has an event system. The event system is used to communicate commands between peripherals. | 11-07-2013 |
20130154602 | Pulse Width Modulation Controller Architectures - Systems, apparatuses, and techniques for pulse width modulation (PWM) are described. A described system includes a circuit that contains an inductor and a transistor that controls current through the inductor based on a PWM signal to produce an output; and a controller to provide the PWM signal, which includes PWM cycles that include on-durations and off-durations. The controller can receive a first signal indicating an input voltage that is applied to the inductor, receive a second signal indicating a current through the inductor, use an on-duration parameter value to control the on-duration, determine a maximum off-duration of the off-durations corresponding to the PWM cycles occurring within a first voltage cycle, the first voltage cycle being defined between two consecutive zero-crossing events as indicated by the first signal, and adjust the on-duration parameter value for a second, subsequent voltage cycle based on the maximum off-duration to regulate the output voltage. | 06-20-2013 |
20130010508 | MAIN SUPPLY ZERO CROSSING DETECTION FOR PFC CONVERTER - A fault mode of a PWM module embedded in a microcontroller is used to detect main supply zero crossings for regulating output voltage of a PFC converter operating in BCM, without using an external detecting element or a comparator, ADC or other specialized component internal to the microcontroller. In some implementations, the end of decrease current flow in the energy storage inductor of the converter is used to reinitialize a PWM timer or counter (counting-up or counting-down timer). The current goes to zero for a time period when the main supply voltage goes to zero, resulting in the PWM timer or counter not being reinitialized prior to the end of the current PWM cycle. The failure to reinitialize the timer or counter can be used to generate a signal indicative of a zero voltage crossing of the main supply voltage. | 01-10-2013 |
20120313545 | PULSE WIDTH MODULATION FAULT MODE FOR ILLUMINATING DEVICE DRIVERS - A PWM architecture of a microcontroller is disclosed that includes a fault module for regulating and detecting faults in current sensing or illuminating devices (e.g., LED strings). The fault module is part of a hardware regulation loop of LED voltage and LED current that allows the CPU to be placed in idle mode (“IDLE”) while an LED string is regulated in illumination. The microcontroller includes a PWM generator having a double channels PWM timer with a specific fault mode and an amplified comparator with a voltage reference. The architecture allows tuning of various parameters, including LED peak current, LED voltage supply, LED voltage regulation step and LED dimming value. In IDLE mode, the hardware regulation loop can regulate LED peak current and LED voltage supply without any CPU resource (microcontroller in IDLE mode). The fault module part of the hardware regulation loop can also detect and inform the CPU of: 1) an open LED; 2) a weak battery; and 3) an LED voltage that is under a target value. | 12-13-2012 |
20110089570 | Multi-Layer Connection Cell - A semiconductor multi-layer connection cell is disclosed that includes configuration layers and “via” layers disposed between the configuration layers to allow configuration of signals at any layer in the connection cell. The layers include column structures extending through the layers. Each column structure includes a hole in a layer that can be filled to form an electrical connection between layers. | 04-21-2011 |