VIRTUAL ENERGY SUPERVISOR Trademark
VIRTUAL ENERGY SUPERVISOR is a USPTO trademark filed by Emacx Systems, Inc.. Status: Registered.
Trademark Facts
| Mark | VIRTUAL ENERGY SUPERVISOR |
|---|---|
| Serial Number | 98726036 |
| Registration Number | 8036810 |
| Status | Registered |
| Filing Date | 2024-08-30 |
| Registration Date | 2025-11-25 |
| Mark Type | Word |
| Nice Classes | 009 (Electronics & Software), 035 (Advertising & Business), 037 (Construction), 042 (Software & IT) |
| Owner | Emacx Systems, Inc. |
| Attorney of Record | Dinnatia Doster-Greene |
| Prosecution Events | 19 |
| Latest Event | R.PR on 2025-11-25 |
Goods & Services
Electronic controllers for measuring and controlling power demands in real-time to avoid peak demands of a utility grid; electronic devices for curtailing loads to ensure that the power demands of a utility grid remains below a predetermined threshold; electronic devices for facilitating building-wide load reduction; electronic devices for detecting the need for load shedding of a utility grid, communicating the demand to participating users, and automating the load shedding, kWh-harvesting and verifying compliance with the terms of a Demand Response Program; electronic devices for monitoring and controlling demand loads to prevent an overload of a utility grid; electronic devices for monitoring and comparing actual power usage of a utility grid with target values and for controlling and reducing the load of designated equipment based on assigned priority levels and user parameters; Maintenance of energy systems, namely, intelligent peak load control systems; Electrical load audit services; Providing temporary use of non-downloadable computer software for energy usage monitoring, metering, and analysis; Providing temporary use of non-downloadable software for online energy usage management, namely, monitoring of the electrical grid; Providing temporary use of non-downloadable software for measuring and controlling power demands in real-time to avoid peak demands of a utility grid, for curtailing loads to ensure that the power demands of a utility grid remains below a predetermined threshold, for facilitating building-wide load reduction, for detecting the need for load shedding of a utility grid, communicating the demand to participating users, and automating the load shedding, kWh-harvesting and verifying compliance with the terms of a Demand Response Program, for monitoring and controlling demand loads to prevent an overload of a utility grid, for monitoring and comparing actual power usage of a utility grid with target values and for controlling and reducing the load of designated equipment based on assigned priority levels and user parameters