Description
Course How To Maximize the Off-Grid & Hybrid Solar Systems Capacity. Maximize Solar Energy Harvesting This course begins by explaining how to maximize PV solar energy harvesting without overheating the electronics. This course explains what is solar maximum charge controller and its system, principle of solar maximum charge controller, difference between MPPT solar charge controller and solar charge maximization controller (SCMC) and how solar maximum charge controller works with MPPT Solar charge controller to increase the current capacity of an MPPT solar charge controller system by 2 to 5 times.
Benefits and Application of Solar Peak Charge Controller System: This course explains the unique advantage of solar peak charge controller system and why it is suitable for any off-grid or hybrid solar PV system (Behind the Meter PV Power Systems_BTM). With battery banks, this course explains that the most important advantage of the SCMC system is that the SCMC system can supply DC directly every time without consuming the lithium iron phosphate battery charge cycles, because the LFP battery in the SCMC system is mainly for maintaining the system voltage. . And LFP batteries do not necessarily need to be charged or discharged, thus extending their useful life. The SCMC system may also form a hybrid grid-tie system. The main advantage is that such a hybrid grid connection system can have all its own solar panels to feed the local load during grid power outages.
Common Positive and Negative Maximum Solar Charge Controller (SCMC) System: This course explains what a typical positive and negative MPPT solar charge controller is and why it should follow the same common negative or common positive SCMC design to charge a battery or batteries. have banks. This course also introduces a method for determining whether an MPPT solar charge controller is of common negative or common positive design.
Split Bolt Wire (S): This course explains what a split bolt wire or wires are in a solar maximum charge controller system. This course explains how to form a split bolt connector, why the split bolt wire(s) must be connected to and controlled by the maximum solar charge controller.
Solar Array Ground Options: This course examines solar array ground options in a maximum solar charge controller system and further explains why a solar array can be a floating array or a ground array, but the wire(s) Splits should never be connected. to the ground in a maximum solar charge controller system.
Types of Solar Energy Storage Batteries and SCMC System Battery Capacity Measurement Guidelines: This course examines the charge and discharge behaviors of several common types of solar PV energy storage batteries. This course details the construction and charging of lithium iron phosphate batteries and why they are used in an SCMC system to maintain system voltage. This course examines the application of lead/acid based batteries in an SCMC system, and how they may be integrated with LFP batteries in an SCMC system. This course also introduces system sizing and battery sizing guidelines for a grid-tie hybrid system when receiving grid connection approval.
Solar Power Cable Types and Wire Gauge Sizes: This course introduces the common types of solar cables used to connect between solar PV panels and combination boxes. This course provides voltage drop guidelines for solar cable gauge sizing and an online tool for solar cable sizing.
Locating Major SCMC System Components: This course explains where LFP batteries and other major components such as inverters, MPPT solar charge controllers, automatic transfer switches should be located for safe and efficient operation of the SCMC system.
Common Electrical Components Used in Solar Maximum Charge Controller System: This course introduces the following components commonly used in SCMC systems: DC breakers, DC breakers, solar wire connectors, split screws, power distribution blocks, wire plugs, terminal blocks , Anderson quick disconnects, solar cables, combination box, junction boxes. Electrical enclosures.
Video Demonstration of MC4 Solar Cables and Bolted Connection Forming Techniques: This course includes video demonstrations of how to form a reliable MC4 connector, and how to form a split bolt connection for high current carrying capacity split bolt wires.
Video Demonstration of Solar Cable and Fan Forming of Heavy Gauge Wire Solder Joints: This course includes video demonstrations of how to tin solar cable for bolted joints in wet climates. And how to connect up to 10 solar cables connecting a heavy gauge wire clamp to the propane burner to make a wire connection for a current carrying capacity of over 200 amps.
SCMC System Planning, Commissioning and Commissioning: This course includes a detailed explanation of SCMC system planning, design, installation and commissioning techniques.
What you will learn in How To Maximize the Off-Grid & Hybrid Solar Systems Capacity course
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Understand the difference between MPPT solar charge controller system and maximum solar charge controller system
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Understanding the principle of solar maximum charge controller system and why system capacity can be maximized.
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Understand the advantage and application of Solar Maximum Charge Controller (SCMC) system
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The size and arrangement of solar panel connections in series and parallel combination for maximum PV output power
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Determine and measure the capacity of the battery bank according to the output power of the solar array and the maximum consumption during the day
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Common positive and common negative solar charge maximizer controller system
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Solar array ground options: positive ground, negative ground and floating solar array
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General guidelines for locating MPPT solar charge controller, and solar maximum charge controller (SCMC), battery bank, inverter
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Define split bolt wire(s) for connecting PV panels in series, PV panels in parallel and maximum solar charge controller.
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Solar cable gauge size based on allowable voltage drop according to local electrical codes or standards
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Use MC4 solar panel connectors in a solar charging maximization system and understand its current capacity limitations
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Use split screws to connect up to six solar cables for maximum current capacity
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Use to connect many solar cables or heavy gauge cable to solar maximum charge controller or battery bank.
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Use Anderson’s high-current connector and coil to make a heavy-duty, high-current quick disconnect.
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Learn the techniques and skills to make reliable heavy duty wire connectors with solar cable crimping tools, soldering tools, heat shrink tubing.
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In an SCMC system, use cable mounts, terminal bus bars, power distribution blocks, terminal blocks, and battery connection blocks.
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Use the common positive MPPT solar charge controller in a common negative maximum solar charge controller system to separately charge the battery.
This course is suitable for people who
- Anyone not satisfied with the capacity of off-grid or behind-the-meter (BTM) PV systems with MPPT solar charge controllers
- All levels of solar energy professionals: installers, dealers, PV power system designers, solar contractors, and solar PV energy engineers
- Students of at least grade 12 (high school) who are looking for a future career in the renewable energy industry
- Anyone who works on solar energy projects as a hobby
How To Maximize the Off-Grid & Hybrid Solar Systems Capacity course
- Publisher: Udemy
- teacher: Wayne Xue
- Training level: beginner to advanced
- Training duration: 9 hours and 36 minutes
- Number of courses: 22
Course topics How To Maximize the Off-Grid & Hybrid Solar Systems Capacity
How To Maximize the Off-Grid & Hybrid Solar Systems Capacity course prerequisites
- If you own a multimeter, or amperage clamp meter or a voltage meter, and know how to use one of them, you can take this course.
- Students with grade 12 (high school) education, or even high school students, who are interested in the solar industry
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