Gary B Millar, 655032 Old Oak Ln, Highland, UT 84003

2014006, Mar 6, 2014

Aug 28, 2013

14/012957

Gary Bret Millar - Highland UT, US

iLight, LLC - Kaysville UT

H05B 33/08

315307

A technology is provided for communicating with a microprocessor that is powering a plurality of light emitting diodes (LEDs). Information bits may be received at a microprocessor circuit coupled to the plurality of LEDs. The microprocessor may be capable of receiving voltage from a voltage source. A code sequence may be identified using the information bits. The code sequence may be associated with an action to be performed with the plurality of LEDs. The code sequence may be decoded, at the microprocessor, so that the action can be performed with the plurality of LEDs.

2021014, May 20, 2021

Nov 17, 2020

16/950530

- Eagle Mountain UT, US
Gary Bret Millar - Highland UT, US

Stellar Smart Energy Solutions, LLC - Eagle Mountain UT

G05B 19/042
H04L 29/08
H05B 45/30

Systems, devices, and methods include a controller and a power unit coupled to a load device. The controller receives an altered AC signal, the altered AC signal comprising delays within an AC signal during a downward portion of a positive half cycle of the AC signal, determines a message from the delays within the altered AC signal, determines an action to execute based on the message, determines whether the delays present within a portion of the altered AC signal include a rising type delay, in response to determining the presence of the rising type delay in the altered AC signal, causes the power unit to introduce voltage within the altered AC signal transforming the portion of the altered AC signal including the rising type delay into a conditioned power signal, and transmits the altered AC signal or the conditioned power signal to the load device based on the action.

2021012, May 6, 2021

Jan 15, 2021

17/150076

- Vineyard UT, US
Gary Bret Millar - Highland UT, US

Grow Solultions Tech LLC - Vineyard UT

A01G 7/04
H05B 45/22
H05B 47/125
A01G 9/24
A01G 27/00

A personal grow pod system includes a plurality of compartments, a plurality of lighting devices corresponding to the plurality of compartments, and a controller including one or more processors, one or more memory modules, and machine readable instructions stored in the one or more memory modules. The controller is configured to identify plants in the plurality of compartments, retrieve recipes for each of the compartments based on the identified plants, and operate the plurality of lighting devices respectively based on the recipes for each of the compartments.

2020036, Nov 26, 2020

Aug 13, 2020

16/992845

- Vineyard UT, US
Gary Bret Millar - Highland UT, US

A01G 7/04
A01G 9/26
A01G 9/24
H05B 45/20
H05B 47/16
H05B 47/105
H05B 47/155
H05B 41/44

Systems and methods for creating a grow cycle are described. One embodiment of a method includes receiving a plant type for providing grow lighting and receiving first data for creating a first grow cycle for a first predetermined period of plant growth, where the first grow cycle includes providing a first wavelength of photon-emitting lighting. In some embodiments, the method includes receiving second data for creating a second grow cycle for a second predetermined period of plant growth, where the second grow cycle includes providing a second wavelength of photon-emitting lighting, determining when the first predetermined period of plant growth begins, and in response to determining that the first predetermined period of plant growth has begun, implementing the first grow cycle. In some embodiments, the method includes determining when the second predetermined period of plant growth begins and, in response to determining that the second predetermined period of plant growth has begun, implementing the second grow cycle.

2020007, Mar 12, 2020

Nov 15, 2019

16/685652

- Vineyard UT, US
Gary Bret Millar - Highland UT, US

Grow Solutions Tech LLC - Vineyard UT

A01G 7/04
H05B 37/02
H05B 33/08
A01G 9/26
A01G 9/24
H05B 41/44

Systems and methods for providing grow lighting are described. One embodiment of a method includes receiving a lighting cycle for a predetermined plant type and receiving a command for implementing the lighting cycle with a grow lighting assembly on a plant, where the grow lighting assembly includes a grow lighting device with a plurality of light emitting diodes (LEDs). Some embodiments also include determining an illumination pattern for implementing the lighting cycle for the grow lighting assembly and sending the illumination pattern to the grow lighting assembly for implementation.

2020006, Feb 27, 2020

Aug 1, 2019

16/529034

- Vineyard UT, US
Gary Bret Millar - Highland UT, US

Grow Solutions Tech LLC - Vineyard UT

A01G 7/04
A01G 31/04
A01G 9/24
A01G 9/02
A01G 9/26

A lighting system for an assembly line grow pod includes a fixture, an actuator coupled to the fixture, one or more electromagnetic sources positioned at least partially within the fixture, a distance sensor, and a controller communicatively coupled to the actuator and the distance sensor, the controller including a processor and a computer readable and executable instruction set, which when executed, causes the processor to receive a signal from the distance sensor indicative of a detected distance between the distance sensor and plant matter positioned below the one or more electromagnetic sources, determine whether the detected distance is less than a configurable threshold, and in response to determining that the detected distance is less than the configurable threshold, direct the actuator to move the fixture upward in a vertical direction.

2019039, Dec 26, 2019

Sep 5, 2019

16/562042

- Eagle Mountain UT, US
Gary Bret Millar - Highland UT, US

H05B 33/08

Embodiments of wave-based lighting efficiencies are provided. As an example, a method includes determining a characteristic of a voltage from an alternating current (AC) waveform, where the AC waveform is configured to power a load, and wherein the AC waveform includes positive voltage portions, negative voltage portions, and zero axis points. Some embodiments include determining a first position in the AC waveform to create a first step with a first step voltage and applying the AC waveform at the first step to a first predetermined portion of the load, where the first predetermined portion of the load has a first voltage rating that corresponds to the first step voltage.

2019001, Jan 10, 2019

Sep 14, 2018

16/131163

- Eagle Mountain UT, US
Gary Bret Millar - Highland UT, US

H05B 33/08

Embodiments of wave-based lighting efficiencies are provided. As an example, a method includes determining a characteristic of a voltage from an alternating current (AC) waveform, where the AC waveform is configured to power a load, and wherein the AC waveform includes positive voltage portions, negative voltage portions, and zero axis points. Some embodiments include determining a first position in the AC waveform to create a first step with a first step voltage and applying the AC waveform at the first step to a first predetermined portion of the load, where the first predetermined portion of the load has a first voltage rating that corresponds to the first step voltage.