Patent application number | Description | Published |
20140047962 | PUNCHING DEVICE WITH ILLUMINATED RECEIVING PLATE - The invention relates to a punching device for processing samples, in particular dried samples, applied to a sample card, preferably liquids containing DNA, such as blood, saliva and the like, comprising at least one punching means ( | 02-20-2014 |
20140050637 | PUNCHING DEVICE WITH GRIPPER UNIT - The invention relates to a punching device for processing samples, in particular dried samples, applied to a sample card, preferably liquids containing DNA, such as blood, saliva and the like, comprising at least one punching means with a punch and a lower die, wherein the punch is movable between a resting position at a distance from the lower die and a punching position closer to the lower die. The punching means has a receiving opening, into which a sample card from a sample card container can be introduced by means of a movable gripping unit ( | 02-20-2014 |
20140056762 | PUNCHING DEVICE WITH RECEIVING PLATE - The invention relates to a punching device for processing samples, in particular dried samples, applied to a sample card, preferably liquids containing DNA, such as blood, saliva and the like, comprising at least one punching means with a punch and a lower die, the punch being movable between a resting position at a distance from the lower die and a punching position closer to the lower die. The punching means has a receiving opening into which a sample card can be introduced by means of a movable gripping unit of the punching device and can be positioned in relation to the punching means, and a punching drive, which can be coupled or is coupled to the punch of the punching means and which drives the movement of the punch between the resting position and the punching position, the punching means being designed in such a way that a piece of sample punched out from the sample card can be discharged at an outlet opening of the lower die into a receiving recess of a receiving container ( | 02-27-2014 |
20140102275 | PUNCHING DEVICE WITH MODULAR PUNCHING MEANS - The invention relates to a punching device for processing dried samples applied to a sample card, in particular liquids containing DNA, such as blood, saliva and the like, comprising at least one punching means ( | 04-17-2014 |
Patent application number | Description | Published |
20090320577 | METHOD FOR DETECTING FAULTS IN THE AIR SYSTEM OF INTERNAL COMBUSTION ENGINES - A method for detecting faults in an air system of an internal combustion engine having an intake manifold and an exhaust manifold includes, but is not limited to the steps of measuring an oxygen concentration of the gas flowing in the exhaust manifold, estimating an intake oxygen control value in the intake manifold and estimating an intake oxygen reference value in the intake manifold based on said oxygen concentration of the gas flowing in the exhaust manifold. The method further includes, but is not limited to the steps of calculating an intake deviation value as a difference between the intake oxygen control value and the intake oxygen reference value and verifying if the intake deviation value is greater than a predetermined first threshold. Besides, the method includes, but is not limited to the steps of estimating an exhaust oxygen control value in the exhaust manifold, calculating an exhaust deviation value a difference between the exhaust oxygen control value and the oxygen concentration of the gas flowing in the exhaust manifold and verifying if the exhaust deviation value is greater than a predetermined second threshold. The method further includes, but is not limited to the steps of determining an exhaust oxygen concentration setpoint indicative of the oxygen concentration in the exhaust manifold, calculating a fresh airflow setpoint as a function of said exhaust oxygen concentration setpoint, measuring a fresh air mass flow value and calculating ( | 12-31-2009 |
20100005872 | METHOD FOR ESTIMATING THE OXYGEN CONCENTRATION IN INTERNAL COMBUSTION ENGINES - A method for estimating the oxygen concentration in an internal combustion engine that includes, but is not limited to an intake manifold, an exhaust manifold, an EGR system, a throttle valve, an air mass sensor for measuring a fresh air flow ({dot over (m)} | 01-14-2010 |
20100094469 | CONTROL METHOD AND SYSTEM FOR A FLUID CONTROL DEVICE, BASED ON POSITION SENSOR LEARNING - A control method is provided for a fluid control device, particularly for an internal combustion engine, equipped with a position sensor having a nominal characteristic curve representative of a predetermined relationship between an admissible range of position values and a corresponding range of return electric signal values. The method includes, but is not limited to determining an offset (offset | 04-15-2010 |
20100175674 | METHOD FOR CONTROLLING THE EGR AND THE THROTTLE VALVES IN AN INTERNAL COMBUSTION ENGINE - A method and system are provided for controlling a throttle valve and an EGR valve in internal combustion engine. The method includes, but is not limited to the steps of measuring an actual fresh mass air flow value entering the engine, determining an exhaust oxygen concentration set point ([O | 07-15-2010 |
20130313897 | AUTOMOTIVE ELECTRICAL SYSTEM PROVIDED WITH AN ALTERNATOR ELECTRONIC CONTROL SYSTEM - Automotive electrical system for a motor vehicle comprising an internal combustion engine of a motor vehicle; the electric vehicle system comprising a series of electric vehicle loads, an electric battery, and an alternator generating a supply voltage of the electric vehicle loads and of the electric battery; the alternator comprising an inductive electric circuit adapted to be crossed by an electric control current; the electric vehicle system comprises an alternator electronic control system configured so as to determine a series of battery parameters (pam_bat) indicating the state of operation of the electric battery; determine at least a first vehicle parameter indicating the acceleration of the motor vehicle; determine the operative state of the internal combustion engine; determine an electric regulation voltage according to the operative engine station, to the vehicle parameter and to the battery parameters; vary an electric control current circulating in the inductive electric circuit of the alternator according to the electric regulation voltage. | 11-28-2013 |