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BOEHM MANFRED

Overview
  • Total Patents
    19
About

BOEHM MANFRED has a total of 19 patent applications. Its first patent ever was published in 1996. It filed its patents most often in Germany and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets measurement and engines, pumps and turbines are HANKING ELECTRONICS LTD, HENGYANG HENGSHAN SCIENCE CITY TECH INNOVATION RESEARCH INSTITUTE CO LTD and SENSORDYNAMICS AG.

Patent filings in countries

World map showing BOEHM MANFREDs patent filings in countries

Patent filings per year

Chart showing BOEHM MANFREDs patent filings per year from 1900 to 2020

Focus industries

Top inventors

# Name Total Patents
#1 Boehm Manfred 19
#2 Doettinger Christoph 1
#3 Stolz Peter 1
#4 Louban Roman 1

Latest patents

Publication Filing date Title
DE102008011487A1 Energy converting device e.g. power plant, for converting inertial energy into local mechanical energy, has rotary mass that is movable along path, and drive device coupled with mass, where rotation of drive device enables movement of path
DE102006055982A1 Inertial six-dimensional sensor for e.g. civilian area, has counters arranged in straight line such that individual counters are counted in reverse directions and input stage is connected with generator over free space distance at length
DE102006013333A1 Method for utilization of gravitation coefficient for inertial energy generation, involves moving mass in such a way that one half moves with certain speed in middle and other half moves with average inertial speed
DE102004001448A1 Non-mechanical inertial Coriolis-based digital turn rate sensor has two very short digital or binary counters orthogonal to optional rotation axis and parallel to each other at distance apart, with signal generator on one feeding both
DE10323993A1 Digital inertial velocity sensor for use in navigation platforms, is based on the Sagnac effect, and has a circuit for determining the difference in the time of flights of signals travelling in opposite directions around a circuit
DE10314470A1 Digital, inertial, time-based precision determination of geographical location based on use of an expanded electronic, i.e. non-optical or Sagnac effect gyro
DE10314457A1 Inertial digital rotational velocity sensor, uses a sensor with two counters whose outputs are used to form a difference factor, the sensor making use of an electronic Sagnac effect
DE10208681A1 Method for taking automatic three-dimensional individual global bearings with a high-accuracy clock determines specific locations.
DE10142902A1 Code based inertial measurement method in which the value of a physical parameter that varies within defined limits, is determined purely by a time measurement, with a signal of appropriate time period having been first selected
DE10121205A1 Global inertial positioning using time-based correction, employs local time measurements, model angular speeds, computer virtual earth model and correlation
DE10120225A1 Direct inertial speed measurement comprises using a boundary layer transition between moving material and a vacuum in earth's gravitational field to reduce signal frequency
DE10004017A1 Global autonomous determination method of meridian locations involves determining meridian of unknown location by changing known meridian congruent at specified angle in clockwise direction
DE10001645A1 Time based global autonomous location registration for navigation application, involves obtaining meridian data by simulating ground terminal movement with respect to local clock
DE19944632A1 Global precision positioning system uses local gravity vector and time is autonomous
DE19852490A1 Autonomous global positioning method using gyroscopic characteristics by comparing output of three orthogonal rotation rate sensors with components of maximum amplitude of rotation rate of earth
DE19850295C1 Method for fast, periodic and low-energy reversal of a rotating vector for a rotating body at high angular velocity consists of two supporting structures in counterrotation and body parts fixed to spoke ends of each supporting structure.
DE19840481A1 Gravity motor with utilization of non-linear Doppler effect has two opposite driven rotating masses on ends of rotating high-speed horizontal support structure
DE19600446A1 Gravity force motor utilising rotary masses for generation of electrical power