Electrochemical Liquid Treatment System Using Dose Control

Electrochemical Liquid Treatment System Using Dose Control

Publication N0.  US 2011/0108438 A1  May 12, 2011

The invention herein provides an apparatus and method of controlling an electrochemical treatment process where treat ment is performed in a flow cell to ensure that a controlled dose of electrical energy or current is delivered to all volumes of the liquid being treated. In addition the invention provides for further optimization of the dose based on other factors and
sensor inputs. This invention also provides a method to estimate, display and record a forecast of process efficacy such as disinfection, oxidation or other desired treatment that otherwise cannot be measured in an online manner.

Helical Resonator Ion Accelerator and Neutron Beam Device

Helical Resonator Ion Accelerator and Neutron Beam Device

Patent N0.  US 9,161,430 B1  October, 13, 2015

A Helical Resonator Ion Accelerator in which ions are injected into a hollow dielectric pipe forming a vacuum chamber along which the ions are accelerated. The pipe is wrapped with a coil and positioned inside a metal pipe. The dielectric pipe, the coil and the metal pipe are arranged coaxially on an axis along which ions are accelerated. The metal pipe is positioned within a high intensity 0.5-3.0 Tesla solenoid. A pulse generator is coupled to the coil to generate a voltage wave pulse. The pulse travels down the axis of the accelerator on the helix formed by the coil. An ion source injects deuteron ions along the axis of the vacuum chamber. A traveling voltage wave is accelerated by tapering the characteristic velocity of the accelerator in the direction of wave propagation by tapering the coil and the outer metal pipe together in a constant ratio.

Blood Pressure Measuring Apparatus

Blood Pressure Measuring Apparatus

US Patent No.  3,926,179  December 16, 1975

This invention provides apparatus for accurately measuring and continuously monitoring blood pressure. The apparatus comprises a blood pressure probe adapted to engage a body member such as one arm of the patient. The probe includes a pressure applying member for engaging the surface of the body member over an artery which is near the surface. For example, the pressure applying member may be located over the radial artery in the wrist of the patient’s arm. The probe also includes pressure exerting means, such as a solenoid, for pressing the pressure applying member against the surface of the body member, so as to produce partial flattening of the artery. The pressure app lying member includes a pressure sensor adapted to engage the surface of the body member over the artery for sensing the blood pressure pulses in the artery. The sensor includes a transducer for producing electrical signals corresponding to the blood pressure pulses. The apparatus includes control means for operating the pressure exerting means to maximize the electrical signals corresponding to the pulse pressure. For example, a feedback circuit may be provided to energize the solenoid to such an extent as to maximize the pulse pressure signals. Generally, the signals will be maximized when the artery is flattened approximately halfway. The true or corrected waveform of the blood pressure signals may be derived and displayed on an oscilloscope for continuously monitoring the blood pressure variations. Means may also be provided for deriving and indicating the systolic and diastolic blood pressure values, and also the pulse pressure. The blood pressure measuring apparatus is highly accurate, continuous in operation, and noninvasive, in that it is not necessary to invade the artery. Moreover, the function of the artery is not impaired, since the device is nonocciusive. The blood pressure probe, together with the supporting apparatus, is called a tonometer.

Pressure Monitoring and Leak Detection Method and Apparatus

Pressure Monitoring and Leak Detection Method and Apparatus

US Patent No.  4,441,357  April 10, 1984

A closed pressure monitoring system is disclosed in which a pump delivers gas on a supply line through a first accumulator chamber to a load device and returns the gas on a return line through a second accumulator chamber to the pump. After pressures in the first and second chambers stabilize, the pressures are compared, and a leak warning signal is given if the compared pressures changed with respect to one another over time. The system is particularly adapted to use a pressure sensor as the load which is implanted within a human patient. The pressure sensor receives air from a restrictor in the supply line and is operative to maintain the pressure in the supply line substantially equal to the pressure surrounding the sensor.

Automatic Blood Pressure Measuring Device and Method

Automatic Blood Pressure Measuring Device and Method

US Patent No.  4,796,184  January 3, 1989

The device measures blood pressure automatically using the oscillometric technique. The device includes a pressure cuff which is automatically inflated to an initial pressure which is calculated to be above the subject’s systolic pressure. The cuff is then deflated stepwise in preset pressure increments while cuff pressure oscillations are sensed at each cuff pressure level and stored in a computer incorporated into the device, Cuff deflation is continued until the cuff pressure is below the subject’s diastolic pressure whereupon the cuff is automatically deflated. The computer then fits a calculated parabolic curve onto the greatest cuff pressure oscillation and onto a lesser oscillation on each side of the greatest oscillation. From the thusly derived curve, the computer determines the mean blood pressure, and the systolic and diastolic blood pressures.

Apparatus and Method for Receiving and Processing LORAN Signals

Apparatus and Method for Receiving and Processing LORAN Signals

US Patent No.  4,814,771  March 21, 1989

A radio signal containing Loran C pulses from stations of interest is received and periodically sampled to convert the input signal to sample data. The data is assigned to memory locations within an acquisition memory at positions in the memory which correspond to specific times within the group repetition interval (GRI) of the Loran chain of interest. A GRI counter assigns the locations in the memory to which the data are written and cycles the memory after the completion of each CR1 so that new data corresponding to a new set of pulses from the master and secondary stations of the Loran C chain will be assigned to essentially the same memory locations as data acquired during a previous CR1. The new data is ensemble averaged with the old data contained in the memory locations and the averaged data stored back in the memory. As data is collected and averaged over a sufficient number of GRI’s, any signals present in the received radio signal which are not synchronous with the GRI will tend to be avers aged out, improving the signal to noise ratio of the Loran C pulses in the memory. Averaging of the sampled input signal over several GRI’s in this manner minimizes the effect of sporadic noise, continuous wave interference and cross rate interference. After completion of the averaging process, the data in the acquisition memory may be searched to determine the time differences between the master and secondary pulses in a manner normally carried out in Loran C receivers.

Receiver Preamplifier with Tuned Circuit Adapted for LORAN Reception

Receiver Preamplifier with Tuned Circuit Adapted for LORAN Reception

US Patent No.  4,875,019  October 17, 1989

A preamplifier system adapted for a Loran receiver includes a buffer amplifier receiving the signal from the antenna at its input and a tuned circuit connected between the input of the buffer amplifier and ground. The tuned circuit includes a parallel combination of a resistance, capacitance and inductance with values selected such that a resonant frequency is provided substantially at or near the carrier frequency of the Loran signal to pass it while higher and lower frequencies, constituting extraneous noise signals, are substantially attenuated. In particular, low frequency, e.g. 60 Hz signals and DC from sources such as precipitation static, are shunted to ground through the parallel inductor in the tuned circuit so that these low frequency components do not affect the performance of the receiver. A secondary filter section is connected to the output of the buffer amplifier and has components that may be selected in value such that the overall transfer function of the preamplifier, including the tuned input circuit, has a desired bandpass characteristic. Thermal noise contributed by the parallel resistor in the tuned circuit may be reduced by feeding back the output of the buffer amplifier through the resistor to effectively reduce its noise contribution while leaving the effective input resistance the same. Notch filters may be incorporated with the input tuned circuit to reject strong extraneous signals within the passband.

System for the Compacting and Logical Linking of Data Blocks in Files to Optimize Available Physical Storage

System for the Compacting and Logical Linking of Data Blocks in Files to Optimize Available Physical Storage

US Patent No.  5,551,020  August 27, 1996

The present invention is a method of processing and writing data to a database wherein the method comprises four broad steps: 1) manipulating data files into a more compact and efficient bite encoded form and preparing the files to receive additional data to link the files; 2) linking the files with pointers to form an overall data structure; 3) determining the potential physical memory address for the files’ data by optimizing available memory space for a given memory media wherein the files are partitioned into blocks of data which are sufficiently inclusive to permit retrieval of all required data with a single memory media read, yet small enough to allow all of the physical memory space to be fully utilized; and 4) generating reference tables to be interspersed with the data blocks wherein the reference tables track the physical location of related data, obviating the need for additional disk reads. The invention further comprises a system wherein said method is performed on a database contained on a first computer system so that the database can be written to a memory media of fixed size which can be used with a second computer system, such that memory access speed is enhanced, the density of information stored on the memory media is increased, yet the computational power needed to retrieve such information is reduced.

Method and Apparatus for Detecting Blood Pressure Sounds in the Presence of Significant Noise

Method and Apparatus for Detecting Blood Pressure Sounds in the Presence of Significant Noise

US Patent No.  5,680,868  October 28, 1997

A method and apparatus is provided for detecting blood pressure sounds produced by the opening snap of an artery in a patient in the presence of significant noise using the phase information contained in two microphone signals. The two microphones are placed on a patient along the axis of an artery with their centers separated by a distance such that blood pressure sounds picked up by the microphones will be out of phase. Pressure is applied to the artery such that the artery opens and closes during each heart cycle, the opening snap of the artery producing blood pressure sounds. The two microphone signals are filtered, preferably using band pass filters having pass bands corresponding to the frequency of the blood pressure sounds. The filtered microphone signals are sampled and multiplied together or convolved in the frequency domain to generate a microphone signal product. If the microphone signal product is negative, the detection of a valid blood pressure signal for that sampling time is indicated. In an alternative embodiment the slope of the two microphone signals at the sample time is also determined, A valid blood pressure signal is indicated when the microphone signal product is negative and either the two microphone signal slopes have inverse signs or are both less than a selected slope threshold. A selected number of consecutive valid blood pressure signal detection indicates the detection of a blood pressure sound. The detection of blood pressure sounds at a range of cuff pressures is used to determine the systolic and diastolic blood pressure levels of the patient.