Patent application number | Description | Published |
20090065153 | Salt brine capillary crystallization - This invention relates to a method of crystallization of salt from brine on top of any soil surface through airborne brine droplet crystallization, controlled moisture depth, capillary action and enhanced renewable energy to grow a layer of salt which can be collected. The brine is pumped from an underground source, sprayed in ambient air over a solid surface and, if water is not completely evaporated, allowed to seep through the surface to saturate the capillary zone. Water is evaporated while the sprayed brine is in the air or on the surface where capillary action brings it up to the surface for the water component to be evaporated by net heat gained from the environment resulting in salt crystallization. The evaporation of sprayed brine is enhanced by smaller droplet size, residence time due the spray height and wind machines to reduce humidity and increase natural thermal input. The salt layer thus formed further grows by capillary action of the soil and the crystalline salt to a depth suitable for conventional mechanical harvesting. Instrumentation is included to optimize the method through the measurement of evaporation and moisture content of the lower boundary of the capillary zone of the soil and or crystalline salt. | 03-12-2009 |
20110220298 | SALT BRINE CAPILLARY CRYSTALLIZATION - This invention relates to apparatus for a method of crystallization of salt from brine on top of any soil surface through airborne brine droplet crystallization, controlled moisture depth, capillary action and enhanced renewable energy to grow a layer of salt which can be collected. The brine is pumped from an underground source, sprayed in ambient air over a solid surface and, if water is not completely evaporated, allowed to seep through the surface to saturate the capillary zone. Water is evaporated while the sprayed brine is in the air or on the surface where capillary action brings it up to the surface for the water component to be evaporated by net heat gained from the environment resulting in salt crystallization. The evaporation of sprayed brine is enhanced by smaller droplet size, residence time due the spray height and wind machines to reduce humidity and increase natural thermal input. The salt layer thus formed further grows by capillary action of the soil and the crystalline salt to a depth suitable for standard mechanical harvesting. Instrumentation is included to optimize the method through the measurement of evaporation and moisture content of the lower boundary of the capillary zone of the soil and or crystalline salt as well as atomizing heads and a cleaning system. | 09-15-2011 |
20130192131 | DESALINATION GREENHOUSE - A desalination greenhouse of the invention provides both winter and summer crop growing operations and to produce a source of potable water given an input of only brackish or sea water. A consistency of temperature is produced by insulation and compensating absorption of heat in summer, with the release of heat in winter to keep crops more isothermal, but without obstructing natural light transmission to the crops. A very thin layer of brackish or salt water is evaporated from an inner shell and condensed onto an outer shell. Supplemental heat exchange can be applied to cool water used for crop irrigation. | 08-01-2013 |
Patent application number | Description | Published |
20100290769 | OPTICAL IMAGE STABILIZATION IN A DIGITAL STILL CAMERA OR HANDSET - An optical image stabilization system for a camera module is disclosed. The stabilization system comprises a voice coil motor (VCM), at least one digital gyroscope for receiving signals from the VCM, and an angular velocity sensor for receiving signals from the digital gyroscope and outputting an angular position error signal. The stabilization system further comprises signal processing logic for receiving the error signal, and comparing the error signal to a reference signal and providing a stabilized image based upon that comparison, wherein the hard-coded logic, digital gyroscope and rate and position sensor resides on the same chip. | 11-18-2010 |
20120194161 | INDUCTOR CURRENT MEASUREMENT FOR DC TO DC CONVERTERS - A system includes an estimation module and a current measuring module. The estimation module estimates current through an inductor in an output stage of a power supply using a model of the current and generates an estimated current. The current measuring module measures the current through the inductor and generates a measured current. The estimation module adjusts the model based on the measured current. | 08-02-2012 |
20120217940 | DELAY COMPENSATION SYSTEMS AND METHODS FOR DC TO DC CONVERTERS - A control system for a DC to DC converter includes a predicted state generator module, a voltage estimation module, an error module, and a pulse width modulation (PWM) module. During a prior sampling period, the predicted state generator module generates a predicted capacitor voltage and a predicted capacitor current for a current sampling period. The voltage estimation module generates an estimated value of an output voltage of the DC to DC converter during the current sampling period based on the predicted capacitor current, the predicted capacitor voltage, a delay value, and a duty cycle value for the prior sampling period. The error module generates a voltage error value based on difference between a measured value of the output voltage and the estimated value. The PWM module controls the duty cycle of the DC to DC converter based on the voltage error value. | 08-30-2012 |
20120217945 | SYSTEMS AND METHODS FOR FEED-FORWARD CONTROL OF LOAD CURRENT IN DC TO DC BUCK CONVERTERS - A feed-forward control system for load current in a direct current (DC) to DC converter includes a current normalization module, a feed-forward generation module, and a duty cycle generation module. The current normalization module generates a normalized load current by matching a gain of a measured load current to a gain of an inductor current. The feed-forward generation module that generates a load current feed-forward (LCFF) signal based on the normalized load current. The duty cycle generation module generates a duty cycle for the DC to DC converter based on a commanded output voltage and the LCFF signal. | 08-30-2012 |
20120256659 | CURRENT SHARE COMPENSATION DESIGN - A current share system for providing current to a load includes a first power supply module that controls a first voltage converter to provide a first current to the load, that transmits synchronization information using a first pin, and that transmits at least one second type of information using the first pin. A second power supply module receives the synchronization information at a second pin, receives the at least one second type of information at the second pin, and controls a second voltage converter to provide a second current to the load based on the synchronization information and the at least one second type of information. | 10-11-2012 |
20140247032 | SYSTEMS AND METHODS FOR FEED-FORWARD CONTROL OF LOAD CURRENT IN DC TO DC BUCK CONVERTERS - A system for controlling load current in a voltage converter includes a current normalization module that receives a first measurement corresponding to the load current, receives a second measurement corresponding to an inductor current, and matches a first gain of the first measurement corresponding to the load current to a second gain of the second measurement corresponding to the inductor current to generate a normalized load current. A feed-forward generation module receives the normalized load current from the current normalization module and generates a load current feed-forward (LCFF) signal based on the normalized load current. A duty cycle generation module generates a duty cycle used to control the voltage converter based on a commanded output voltage of the voltage converter and the LCFF signal. | 09-04-2014 |