| Patent application number | Description | Published |
|---|
| 20080253753 | Brushed Motor Control with Voltage Boost for Reverse and Braking - A single low side power transistor switch is used to efficiently control a brushed motor in a forward rotational direction. A boost voltage power supply is used to supply voltage to the brushed motor in a reverse rotational direction and/or braking from the forward rotational direction. A digital device controls the brushed motor rotational speed and rotational directions. | 10-16-2008 |
| 20080273391 | Regulator Bypass Start-Up in an Integrated Circuit Device - An internal voltage regulator in an integrated circuit device is always active upon initial start-up and/or power-on-reset operations. The internal voltage regulator protects the low voltage core logic circuits of the integrated circuit device from excessively high voltages that may be present in a particular application. In addition, nonvolatile memory may be part of and operational with the low voltage core logic circuits for storing device operating parameters. Therefore, the internal voltage regulator also protects the low voltage nonvolatile memory from excessive high voltages. Once the integrated circuit device has stabilized and all logic circuits therein are fully function, a bit(s) in the nonvolatile memory may be read to determine if the internal voltage regulator should remain active, e.g., how power operation with a high voltage source, or be placed into a bypass mode for low power operation when the integrated circuit device is powered by a low voltage. | 11-06-2008 |
| 20090144481 | Enhanced Microprocessor or Microcontroller - A microcontroller device has a central processing unit (CPU); a data memory coupled with the CPU divided into a plurality of memory banks, a plurality of special function registers and general purpose registers which may be memory-mapped, wherein at least the following special function registers are memory-mapped to all memory banks: a status register, a bank select register, a plurality of indirect memory address registers, a working register, and a program counter high latch; and wherein upon occurrence of a context switch, the CPU is operable to automatically save the content of the status register, the bank select register, the plurality of indirect memory address registers, the working register, and the program counter high latch, and upon return from the context switch restores the content of the status register, the bank select register, the plurality of indirect memory address registers, the working register, and the program counter high latch. | 06-04-2009 |
| 20090144511 | Enhanced Microprocessor or Microcontroller - An n-bit microprocessor device has an n-bit central processing unit (CPU); a plurality of special function registers and general purpose registers which are memory-mapped to a plurality of banks, with at least two 16-bit indirect memory address registers which are accessible by the CPU across all banks; a bank access unit for coupling the CPU with one of the plurality of banks; a data memory coupled with the CPU; and a program memory coupled with the CPU, wherein the indirect address registers are operable to access the data memory or program memory and wherein a bit in each of the indirect memory address registers indicates an access to the data memory or to the program memory. | 06-04-2009 |
| 20100023671 | Enhanced Microprocessor or Microcontroller - A processor device has a data memory with a linear address space, the data memory being accessible through a plurality of memory banks. At least a subset of the memory banks are organized such that each memory bank of the subset has at least a first and second memory area, wherein no consecutive memory block is formed by the second memory areas of a plurality of consecutive memory banks. An address adjustment unit is provided which, when a predefined address range is used, translates an address within the predefined address range to access said second memory areas such that through the address a plurality of second memory areas form a continuous linear memory block. | 01-28-2010 |
| 20100205345 | MICROCONTROLLER WITH LINEAR MEMORY ACCESS IN A BANKED MEMORY - A microcontroller has a data memory divided into a plurality of memory banks, an address multiplexer for providing an address to the data memory, an instruction register providing a first partial address to a first input of the address multiplexer, a bank select register which is not mapped to the data memory for providing a second partial address to a the first input of the address multiplexer, and a plurality of special function registers mapped to the data memory, wherein the plurality of special function registers comprises an indirect access register coupled with a second input of the address multiplexer, and wherein the data memory comprises more than one memory bank of the plurality of memory banks that form a block of linear data memory to which no special function registers are mapped. | 08-12-2010 |
| 20100205346 | MICROCONTROLLER WITH SPECIAL BANKING INSTRUCTIONS - An instruction set for a microcontroller with a data memory divided into a plurality of memory banks wherein the data memory has more than one memory bank of the plurality of memory banks that form a block of linear data memory to which no special function registers are mapped, a bank select register which is not mapped to the data memory for selecting a memory bank, and with an indirect access register mapped to at least one memory bank, wherein the instruction set includes a plurality of instructions operable to directly address all memory locations within a selected bank, at least one instruction that provides access to the bank select register, and at least one instruction performing an indirect address to the data memory using the indirect access register. | 08-12-2010 |
| 20110234417 | FAILSAFE OSCILLATOR MONITOR AND ALARM - A failsafe oscillator monitor and alarm circuit receives clock pulses from an external oscillator that if a failure thereto occurs, the failsafe oscillator monitor and alarm circuit will notify a digital processor of the external oscillator failure. The failsafe oscillator monitor and alarm circuit is a very low current usage circuit that charges a storage capacitor with clock pulses from the external oscillator when functioning normally and discharges the storage capacitor with a constant current sink if the external oscillator stops functioning. When the voltage charge on the storage capacitor becomes less than a reference voltage an alarm signal is sent to the digital processor for exception or error handling of the failed external oscillator. | 09-29-2011 |
