Patent application number | Description | Published |
20110138230 | REDUNDANT CONTROL APPARATUS - First and second processing units execute the same control program to the same input data in parallel. An input/output unit generates the input data and receives one of two output data executed by the first and second processing units. A channel selection unit sends the input data to the first and second processing units and sends the one to the input/output unit by selecting the one from the two output data. In the first and second processing units, a control cycle synchronization unit generates a control cycle signal at a control cycle, a processor executes the control program, a data memory stores operation data including the input data, intermediate data being executed and output data executed by the processor. A diagnostics unit generates summary information by compressing the operation data and comparatively decides whether the summary information matches the other summary information of the other processing unit every control cycle. | 06-09-2011 |
20110173497 | SAFETY OUTPUT DEVICE - A safety output includes an output controller to make an instruction to output normal output data and first self-diagnosis pattern data synchronously with a control cycle, a normal output unit to output the normal output data synchronously with the control cycle, a test pattern generating unit to encode the self-diagnosis pattern data into a pulse train signal having a pulse width not larger than a preset value and output the pulse train signal in accordance with a baseband transmission system, a combination output unit to combine the pulse train signal with the normal output signal and output the resultant signal, a reconfiguration unit to decode the inputted operation-terminal-portion output signal to reconfigure the operation-terminal-portion output signal as second self-diagnosis pattern data, and a comparator to compare the first self-diagnosis pattern data with the second self-diagnosis pattern data to judge the presence or absence of a difference. | 07-14-2011 |
20110178612 | SAFETY INPUT DEVICE - A safety input device includes an input controller to control transmission of an input signal to an arithmetic device synchronously with a control cycle set by the arithmetic device, an output controller to instruct output of preset first self-diagnosis pattern data, a test pattern generating unit to encode the first self-diagnosis pattern data into a pulse train signal having a pulse width equal to or below a predetermined value and output the pulse train signal in accordance with a baseband transmission system, a combination input unit to combine the pulse train signal with the input signal, an input interface unit, a pattern reconfiguration unit to decode an output signal from the combination input unit into second self-diagnosis pattern data, and a comparator to compare the first and second self-diagnosis pattern data to judge the presence or absence of a difference between the first and second self-diagnosis pattern data. | 07-21-2011 |
20120047406 | REDUNDANCY CONTROL SYSTEM AND METHOD OF TRANSMITTING COMPUTATIONAL DATA THEREOF - A method of transmitting computational data comprising: a step of generating first computational data and generating first generated data using a first generation algorithm for error detection on return; a step of generating second computational data and generating second generated data using a second generation algorithm for error detection; a step of mutually comparing the first/second computational data; a step of transmitting transmission data including coincident computational data and first/second generated data; in the receiving device, a step of generating computational data and third/fourth generated data from preset first/second generation algorithms; and a step of comparing the first/third generated data and the first/third generated data, and detecting error in the received computational data. | 02-23-2012 |
20120185858 | PROCESSOR OPERATION MONITORING SYSTEM AND MONITORING METHOD THEREOF - A processor includes a computation unit; a storage unit storing a program; and a data transmission circuit that transmits to an operation monitoring unit a signal corresponding to an instruction for reporting the execution stage of the program. The operation monitoring unit: includes a transition operation identification. circuit and a loop processing identification circuit. The transition operation identification circuit receives a start ID instruction with an attached ID that identifies a task; a termination ID instruction that identifies termination of task operation; and if the task is execution of loop processing, a loop instruction that reports the maximum value of the number of times of this loop processing. The transition operation identification circuit identifies success of the transition operations of the tasks of the program, based on the ID instructions. The loop processing identification circuit identifies abnormality of the number of times of loop processing. | 07-19-2012 |
20120303324 | CONTROL SYSTEM FOR PROVIDING DIAGNOSTIC PULSE SIGNAL, AND CONTROL DEVICE THEREFOR - A control device includes a diagnostic pulse signal generating section having an internal circuit that generates control data and generates diagnostic pulse data for diagnosing the operating terminal and diagnoses the function of the signal line and the operating terminal from the waveform of a feedback signal of the diagnostic pulse signal; a variable amplification circuit that multiplexes the diagnostic pulse signal on the control signal and sends the result to the operating terminal with a preset signal level; and a receiving circuit that receives the feedback signal and sends it to the internal circuit. The internal circuit comprises a correction pulse data generating section that corrects the diagnostic pulse data by correcting the rise time of the diagnostic pulse signal. Even if the length of the signal line is long, the diagnostic pulse signal reception can be achieved without expanding the pulse width of the diagnostic pulse signal. | 11-29-2012 |
20130082739 | CLOCK DIAGNOSIS CIRCUIT - A clock diagnosis circuit includes: a delay circuit to delay the clock by a prescribed time which is not more than the clock pulse width; an integral multiplication delay circuit to delay a delayed clock outputted from the delay circuit by a prescribed number of cycles; a first exclusive OR circuit to encode the clock using the delayed clock; a second exclusive OR circuit to decode an output of the first exclusive OR circuit using an output of the integral multiplication delay circuit; and a comparison circuit to compare the clock with an output of the second exclusive OR circuit to thereby detect a malfunction of the clock. | 04-04-2013 |
20140095949 | METHOD AND APPARATUS FOR DIAGNOSING A FAULT OF AMEMORY USING INTERIM TIME AFTER EXECUTION OF AN APPLICATION - An area of a memory has a diagnosis area and a non diagnosis area, with the diagnosis area divided into a plurality of Row areas which do not overlap each other, and each of the Row areas is divided into a plurality of Cell areas which do not overlap each other. A memory fault diagnostic method has a diagnostic step in a Row area to diagnose between Cell areas with respect to all the combinations of a set of Cell areas in the Row area, and a diagnostic step between Row areas to diagnose between Row areas with respect to all the combinations of a set of Row areas in the diagnosis area. A Row area size is determined to be a size in which a time of the diagnosis in a Row area becomes equal to a time of the diagnosis between Row areas. | 04-03-2014 |