Abstract: A fluidic pulsatile impinging cooling system for electronic integrated circuit modules and other electronic systems. The fluidic cooling system employs a fluidic oscillator to create the pulsatile cooling flow of air or fluid. The present invention reduces the number of moving parts present in an electronic cooling system and is more efficient in performing its purpose.

Abstract: A heart-sound monitor and esophageal stethoscope which makes use of fluidic aminar proportional amplifiers (LPAs). These LPA's are used to sense and amplify incoming acoustic pressure signals, such as heart signals. Moreover, the fluidic monitor is able to monitor a fetus heartbeat while eliminating the acoustic interference present from the mother's heartbeat. In this case, the LPA acts not only as an amplifier, but as an acoustic filter as well.

Abstract: A fluidic amplification device having an input, a fluid supply, a fluid sly nozzle for creating a laminar jet of fluid, an output chamber for receiving the laminar jet, control nozzles to control fluid flow through the amplification device from the fluid supply nozzle to the output chamber, wherein the control nozzle acts directly on the fluid to proportionally control the fluid output, vents disposed between the control nozzle and the output chamber, a DC flow output communicating with the output chamber, and pressure signal output ports communicating with the output chamber. By providing outputs for both DC flow and the pressure signal, the DC flow in the pressure signal output channels of the device is reduced and the problems of interstage flow noise, null off-set, parasitic capacitance and inductance in the input and output channels is also reduced.

Abstract: A flow measuring apparatus having a flow tube with an asymmetrical blunt y rigidly mounted on at least one end in a stream of flowing fluid contained within the flow tube so as to form vortices downstream of said asymmetrical blunt body at low Reynolds numbers. A laminar proportional amplifier is used for amplifying the pressure variations caused by the vortices, either a microphone or a pressure transducer is used for converting the amplified pressure variations to an electrical output signal, and a signal conditioner and read out is used for converting the output signal into a rate of flow of the stream of flowing fluid.

Abstract: A fluidic gainblock for amplifying AC pressure signals having an additional lement known as a "T" junction added to the interconnection region between the stages of an LPA gainblock. Where normally there would be direct coupling between LPA's in a staged gainblock, there is now provided a path for the interstage flow noise and DC bias to exit prior to entering the next stage. This gainblock now allows as many stages to be added as needed in a gainblock as the elimination of the DC bias prevents the saturation of the gainblock. Interconnection flow noise is now minimized or eliminated completely and only the pressure signal is allowed to enter the next stage via the perpendicular branch of the "T" junction.

Abstract: A modified laminar proportional amplifier with feedback for converting the absolute pressure of a pressurized fluid to a differential pressure indicating the pressure of the pressurized fluid relative to a predetermined set-point pressure. The device includes two outlets separated by a splitter, a supply nozzle for directing a jet of the pressurized fluid toward a first of the two outlets at a velocity determined by the absolute pressure and a feedback path for deflecting the jet toward the second outlet such that as the jet increases to a maximum value and then decreases until the differential pressure between the two outlets is equal to zero when the absolute pressure of the pressurized fluid is equal to the predetermined set-point pressure. The feedback path includes an adjustable fluidic resistor and a temperature compensated flow controller for making the device insensitive to temperature.

Abstract: An improved fluidic position sensor employs a housing having an axially aned conduit and output orifice for discharging a jet of fluid. A sensing orifice is positioned adjacent to the output orifice for responding to a negative pressure entrainment area created by the discharged jet. The sensor measures the distance it is from an object by detecting changes in negative pressure at the sensing orifice. A standoff protrudes from the sensor at a distance to keep the sensor operating in substantially a linear range.

Abstract: A fluidic system is provided in which the laminar flow operating range has een increased. The fluidic system uses stacks of laminate plates in which filter means is placed between vent and exhaust laminates for breaking up eddies and flow noise created from supply nozzle and vent areas.

Abstract: The invention comprises a variable linear resistor. It comprises a first plate having a recessed area cut into one face and a second plate parallel to and facing the face of the first plate with the recessed area. A length of elastic tubing is disposed in the recessed area. The distance between the two plates is adjustable, and this allows for the compression of the elastic tube.

Abstract: A fluidic complementary gain changing circuit has three laminar proportio amplifiers, one of which supplies fluid pressure streams to the other two. The latter amplifiers have substantially identical geometries and complementary gain curves at any given supply pressure, relative to a gain changing signal constituting a bias pressure applied to control ports of the first amplifier. A differential input signal supplied to the control ports of the two complementary amplifiers modulates the supply streams traversing those amplifiers and results in concurrent high and low gain complementary signals at the respective outlet ports of the overall circuit. Variable resistance elements permit calibration of the circuit.

Abstract: Presented is a fluid property measuring device which can be used to measure he viscosity, the density, the volumetric flow rate, and the mass flow rate, of a fluid without using moving parts. The fluid property measuring device comprises a linear fluid resistor, a nonlinear resistor, and a linear, fluid property independent, volumetric flowmeter, Two nonlinear resistors, or two linear resistors, may be used instead of a linear and nonlinear resistor. The linear, fluid property independent, volumetric flowmeter comprises a fluidic negative feedback oscillator in fluid connection with a fluidic buffer laminar proportional amplifier.

Abstract: A device for measuring the rotational speed of a rotating object in which a tream of fluid from a back pressure sensor is directed at a chopper wheel attached to the rotating object. The output of the back pressure sensor varies as the chopper wheel rotates. The number of variations in pressure per unit time is directly proportional to the rotational speed of the rotating object.

Abstract: The apparatus disclosed herein is an externally adjustable flow splitter a fluid amplifier. The flow splitter is a substantial triangular plate fixedly attached to a rod rotatably mounted in the amplifier immediately adjacent to the fluid outputs to redirect fluid flow through to the fluid outputs of a fluid amplifier to null the amplifier. The rod extends externally of the amplifier and is threaded to receive externally a lock nut which can be threaded down on the rod to secure the position of said triangular plate.

Abstract: The apparatus of the present invention comprises means for regulating intermittent flow of respiratory fluid to a patient during oxygen therapy. The invention utilizes laminar fluidic elements in the control circuit for regulating the operation of an oxygen flow valve.

Abstract: A fluidic element, such as a laminar proportional amplifier or laminar jet rate sensor, whose null off-set is reduced to substantially zero. A plurality of substantially identical thin laminate plates are stacked between a pair of cover plates. Each of the laminate plates has a passage formed therethrough which is formed by fine blanking that is characterized by formation of a die roll. The die roll has a portion thereof, characterized as a burr, projecting from one side of the plate. A separator plate is positioned between a like number of laminate plates so that the die rolls of each plate on one side of the separator plate face in the opposite direction to that of the die rolls of each of the laminate plates positioned on the other side of the separator plate. The laminate plates and separator plates are all in fluid communication with at least one of the cover plates via aligned supply, control and output conduits.

Abstract: A temperature-compensated laminar proportional amplifier having an interaon chamber laterally extended into a plurality of vented recesses and a power nozzle for issuing fluid into the interaction chamber. A linear resistor is fluidically coupled between the fluid input of the power nozzle and the fluid outputs of the plurality of vented recesses for bypassing fluid around the power nozzle.

Abstract: A fluidic valve which includes a supply nozzle for discharging a fluid po stream, and a pair of outlet channels for receiving the power stream. A rigid member is disposed inside the power nozzle so that it splits the power stream evenly and fluid exits via the two outlet channels with equal pressures. A shaft upon which the rigid member is mounted is responsive to an external input signal for causing the rigid member to turn so that fluid exits via the two outlet channels with a proportional pressure differential output signal being produced across the outlet channels. A centering spring returns the rigid member to its null position when no external input signal is applied to the shaft.

Abstract: Improved fluid logic elements are disclosed employing a laminar proportio fluid amplifier connected in a feedback arrangement. Logic functions such as AND, OR, and NOR as well as the flip-flop can be implemented with a reduced power consumption and signal to noise ratio relative to turbulent wall-attachment devices. In one embodiment, the outputs of a first laminar proportional fluid amplifier are input to a second laminar proportional fluid amplifier so as to decouple the operation of the first amplifier from a utilization circuit.

Abstract: A fluidic, volume-cycled respirator circuit comprising a fluidic flowmeter, a tidal volume selection controller and an inlet valve. The flowmeter is connected to the controller through a transmitting means which transmits gas flow frequency signals. Said controller is then connected to the inlet valve, which is connected back to the flowmeter; hence, the respirator circuit is complete. The tidal volume selection controller may operate by either fluidics, electronics, or the combination of the two. The flowmeter facilitates supply of air to the patient. The amount of air supplied is controlled by the tidal volume selection controller which senses inspiration and gas flow frequency. The controller is equipped with a timer back-up system in the event that either the system or the patient fail to respond. The valve is operated at the direction of the tidal volume selection controller. The valve is open during the inspiratory phase and closed during the exhalation phase.