627results about How to "Prevent speeding" patented technology

System and method for identifying speeding violations, comprising determining a current speed and a current location of a vehicle, determining a posted speed limit for the current location from a speed-by-street database, comparing the current speed of the vehicle to the posted speed limit, and evaluating whether the current speed exceeds the posted speed limit. Errors are identified in the speed-by-street database by storing a plurality of speeding violation records, wherein the speeding violation records each include a speeding event location; analyzing the speeding violation records to identify one or more speeding event locations having multiple speeding violations; comparing a posted speed limit at the one or more speeding event locations having multiple speeding violations to corresponding speed limit data in the speed-by-street database; and identifying one or more speed limit entries in the speed-by-street database that do not match the posted speed limit.

A gas-introducing system for plasma CVD and cleaning includes: a showerhead including a top plate with a gas inlet port and a shower plate; a rectifying plate installed in the interior space of the showerhead and dividing the interior space into an upper space and a lower space; a structure for inhibiting inactivation of active species of the activated cleaning gas at the rectifying plate; and a piping unit for connecting the gas inlet port of the showerhead to a remote plasma unit and a reaction gas introduction port.

A stereo class-D audio system includes a first die including four monolithically integrated NMOS high-side devices and a second a second die including four monolithically integrated PMOS low-side devices. The audio system also includes a set of electrical contacts for connecting the high and low-side devices to components within the a stereo class-D audio system, the set of electrical contacts including at least one supply contact for connecting the drains of the high-side devices to a supply voltage (V_cc) and at least one ground contact for connecting the drains of the low-side devices to ground, the electrical contacts also including respective contacts for each source of the high and low-side devices allowing the source of each high-side device to be connected to the source of a respective low-side device to form two H-bridge circuits.

A series of gate drive circuits for MESFETs are provided. The gate drive circuits are intended to be used in switching regulators where at least one switching device is an N-channel MESFET. For regulators of this type, the gate drive circuits provide gate drive at the correct voltage to ensure that MESFETs are neither under driven (resulting in incorrect circuit operation) nor over driven (resulting in MESFET damage or excess current or power loss).

The present invention provides a speed governor (5) suitable for use in a fluid driven down-hole tool (3). The speed governor comprises an actuator (7) operatively coupled to a motive fluid flow control valve (6). The actuator is and arranged so as to be activatable, directly or indirectly, in response to the running speed of the tool (3), for opening of the control valve (6) with increasing rotational speed of the motor (3) above a predetermined speed limit thereby to limit the rotational speed of the downhole tool (3).

The present invention provides a credit applicant and user authentication solution for authenticating the identity of a credit applicant or a credit user. In particular, a user of the authentication system establishes a user account and obtains authentication information. The user then provides the authentication information during a subsequent credit application or credit transaction to authenticate the user's identity. Authentication information may be renewed after each application or transaction at specified time intervals, based on monetary thresholds, specific geographic limitations, or any other methodology specified by the user.

Automatic testing determines whether a proofing-file generator and receiver are in a common intranet. If so then the proofing file is automatically sent by a route that is substantially wholly within the intranet, and ideally peer-to-peer. If the generator and receiver are not in a common intranet, then preferably the file is sent by a conventional route through the Internet, preferably via a master server of the proofing service. The test preferably includes dynamically establishing IP addresses for the generator and receiver, and comparing the established IP addresses; however, consultation of a pretabulated listing is also possible.

The invention relates to a shift control apparatus for an automatic transmission that executes a torque reduction control when the transmission downshifts in response to a downshift determination made during an upshift. The shift control apparatus includes a multiple shift execution unit that starts the downshift in response to the downshift determination, and a torque reduction control execution unit that determines whether the rotational speed of the input member is at least a control start-up rotational speed, after the downshift operation starts, and executes a torque reduction control of the power source when the rotational speed of the input member is increased to at least the control start-up rotational speed. This allows the rotational speed of the input shaft to be quickly changed to the appropriate synchronous rotational speed. Thus, the desired driving force is provided upon completion of the downshift without overspeeding the engine.

An aircraft (1) having a rotary wing (2) and at least one main gearbox (5) for driving rotation of said rotary wing (2), said aircraft (1) having a first main engine (11) and a second main engine (12) driving said main gearbox (5), said aircraft (1) being provided with a main regulation system (15) regulating the first main engine (11) and the second main engine (12) in application of a setpoint that is variable. A secondary engine (21) is also capable of driving said main gearbox (5), said aircraft (1) having a secondary regulation system (25) that regulates the secondary engine (21) in application of a setpoint that is constant and that is independent of said main regulation system (15).

A fault tolerant, optically or electrically managed, EMP resilient electromagnetic distributed direct drive powertrain applied to provide lift and/or propulsion and/or attitude control to an aircraft. The electromagnetic distributed direct drive being network based, capable of autonomous operations and decisions such as pilot input interpreting mode, load distribution, fault management, self-healing operations, electrical and mechanical health monitoring, as well as electrical and mechanical fault prediction.

The invention discloses a method and a system for controlling a variable-altitude self-adapting supercharging for a diesel engine, relating to the technical field of supercharging control for a diesel engine, which is characterized in that an optimal supercharging pressure MAP is inquired to obtain the optimal supercharging pressure under the working condition of a stable state according to an inlet pressure signal of an air compressor, a rotating speed signal of an engine and a position signal of a gasoline throttle, the opening of a nozzle ring of a turbine is controlled by using a PI controller according to the difference value between the optimal supercharging pressure and the actual supercharging pressure to obtain an optimal circulating section; an optimal opening MAP of the nozzle ring is inquired to obtain the optimal opening of the nozzle ring under the working condition of a transient state according to the rotating speed signal of the engine and the inlet pressure signal of the air compressor so as to control the optimal circulating section. The system comprises a diesel engine, an intercooler, a variable-section supercharger consisting of an air compressor and a variable-section turbine, an electronic control unit, a pressure sensor and a temperature sensor etc. The method and system can adapt to the altitude variation and adjust the circulating section of the variable-section turbine so that the diesel engine has optimal dynamic property and fuel economy at each altitude.

A hydrostatic drive (1) with a hydraulic pump (3) and a plurality of hydraulic motors (6-9) that are hydraulically linked with the hydraulic pump (3). One speed sensor (20; 21; 22; 23) each allocated to a respective hydraulic motor (6; 7; 8; 9) and is linked with a control device (24) and detects the speed (n₁; n₂; n₃; n₄) of the allocated hydraulic motor (6; 7; 8; 9). Every hydraulic motor (6; 7; 8; 9) is functionally linked with a brake device (26; 27; 28; 29) that in turn is linked with the control device (24). When the speed (n₁; n₂; n₃; n₄) of one of the hydraulic motors (6; 7; 8; 9) exceeds a predetermined threshold value (n_g), the control device (24) triggers the brake device (26; 27; 28; 29) allocated to the associated hydraulic motor (6; 7; 8; 9).

An optical apparatus includes: a light source outputting light; a head disposed so as to face a disk on which a signal is recordable, the head being capable of condensing a light from the light source onto the disk as near-field light; an distance adjusting mechanism adjusting a distance between the head and the disk; first control means for causing the head to approach the disk and controlling the head to nearly stop at a position where a distance from the disk is a first distance at which the light is condensed on the disk by the head as the near-field light; detection means for detecting if the distance is the first distance; and second control means for controlling the distance adjusting mechanism based on the detected signal so as that the distance is a second distance under near-field light condition.

A power split mechanism of a hybrid vehicle includes a sun gear that is coupled to a electric power generator, a ring gear that is coupled to a electric motor and a driving wheel, a pinion gear that meshes with the sun gear and the ring gear, and a carrier that supports the pinion gear and is coupled to a engine. Each of the arms of a inverter includes a first switching element that is provided on an upper arm thereof, and a second switching element that is provided on a lower arm thereof. A control device turns on one of the first switching element and the second switching element and turns off the other if an operation of stopping a vehicle system is performed during running.

A power transmission unit including: a first prime mover; speed change gear pairs; output members; a differential mechanism, which has a first rotary element connected with the first prime mover, a second rotary element, and a third rotary element selectively outputting the power to the output member, and adapted to perform a differential action among those three rotary elements; and a second prime mover connected with the second rotary element. The speed change gear pair includes at lease one pair of first speed change gear pair, arranged between the first rotary element and the output member and allowed to transmit the torque selectively, and at least one pair of second speed change gear pair arranged between the third rotary element and the output member and allowed to transmit the torque selectively. A locking mechanism locks the second prime mover selectively to halt a rotation of the second prime mover.

A solid-state imaging device includes a pixel unit in which unit pixels are arrayed, a complementary-signal generating unit that generates two kinds of complementary signals having complementarity with each other on the basis of analog pixel signals read out from the respective unit pixels in the pixel unit, two kinds of complementary signal lines on which the two kinds of complementary signals are transmitted, a horizontal scanning unit that transfers each of the two kinds of complementary signals on the complementary signal lines, and a differential amplifying unit that receives the signals on the two kinds of complementary signal lines with differential inputs and compares the signals.