LogicApt supports clients across utilities and energy technologies involving smart grids, distributed energy resources, microgrid control, solar systems, battery storage, inverter control, renewable deployment, and energy-management infrastructure. LogicApt’s work helps clients evaluate and position power-system patents, energy-control architectures, and grid-connected technologies.
LogicApt has executed patent research projects covering active management of electric power supply, IP-based coordinator dispatch, microgrid generation management, solar energy storage, photovoltaic passivation, rapid-deployment solar panels, battery-capacity supervisory control, digital power inverter control, and solid-state battery systems.
LogicApt’s expertise includes
Smart grid, microgrid, and distributed energy-resource control
This capability covers distributed energy resource coordination, grid commands, IP-based control, demand response, microgrid management, and power supply dispatch. It focuses on how energy resources are monitored, commanded, and coordinated within grid-connected environments.
Recent Engagements
Active Management of Electric Power Supply for a Grid
LogicApt analyzed grid-management systems involving active control of energy resources. The engagement focused on coordinator/server communication, dispatch commands, and grid-side control.
IP-Based Coordinator Dispatch System
LogicApt reviewed systems where a coordinator dispatch distributed energy resources over IP-based networks. The analysis focused on device registration, power commands, and energy-resource response.
Microgrid Power Generation Management with Selective Disconnect
LogicApt worked on microgrid systems that manage generation sources and selectively disconnect resources. The engagement covered control logic, resource prioritization, and grid stability.
IP-based energy-resource coordination and grid communication
This capability covers energy-management communication, grid-connected device control, distributed power devices, load response, and command-based energy regulation. It includes systems where energy devices communicate with controllers, servers, or grid operators.
Recent Engagements
Energy Resource Communication and Dispatch
LogicApt analyzed systems where energy resources communicate status and receive control commands. The engagement focused on device messaging, power availability, and command execution.
Power Supply Monitoring and Control Systems
LogicApt reviewed systems that monitor available power and regulate supply to meet grid or load requirements. The analysis focused on sensing, reporting, prioritization, and control response.
Distributed Energy Device Registration
LogicApt worked on systems involving automatic registration and coordination of distributed energy devices. The engagement covered communication protocols, device identity, grid participation, and resource control.
Solar/PV technologies and renewable deployment systems
This capability covers photovoltaic cells, solar storage, modular solar panel systems, panel cleaning, rapid deployment, and environmental protection. It focuses on renewable generation, PV performance, deployment structures, and field usability.
Recent Engagements
Solar Energy Storage and Aquifer Management
LogicApt analyzed systems combining solar energy with storage or aquifer-related energy management. The engagement focused on renewable integration, storage behavior, and system-level control.
Photovoltaic Solar-Cell Passivation by Hydrogen Diffusion
LogicApt reviewed PV cell manufacturing or treatment methods involving hydrogen diffusion. The analysis focused on passivation, cell efficiency, and material processing.
Solar Panel Systems for Rapid Deployment
LogicApt worked on modular or deployable solar panel systems. The engagement covered packaging, deployment structure, electrical connection, and field usability.
Battery monitoring, energy storage, inverter control, and power conversion
This capability covers energy storage, battery monitoring, inverter control, solid-state batteries, and power-conversion systems. It focuses on how electrical energy is stored, converted, supervised, and delivered.
Recent Engagements
Battery-Capacity Supervisory Control
LogicApt analyzed battery systems that monitor and control battery capacity. The engagement focused on capacity estimation, supervisory logic, and energy management.
Digital Power Inverter Control
LogicApt reviewed inverter control systems used for converting electrical energy. The analysis focused on switching control, output regulation, and digital power management.
Recycled Sodium Solid-State Composite Battery System
LogicApt worked on battery technologies involving recycled sodium and solid-state composite materials. The engagement focused on battery composition, material structure, and energy-storage application.
Delivering Value Across Utilities and Energy
From renewable energy companies and grid-technology providers to battery, inverter, and energy-management businesses, LogicApt supports organizations in evaluating and positioning energy innovation and patent risk and competitive positioning. LogicApt’s team analyzes power systems, grid-control communication, renewable deployment, storage technologies, and energy-resource coordination with technical and IP-focused precision and market relevance.
