This is dangerous and illegal everywhere in the United States. DO NOT DO THIS!
All 50 states have adopted NFPA 70, the National Electric Code, and the linked article shows a bunch of things that absolutely DO require a permit and would absolutely FAIL to be approved:
First and foremost, running bare high voltage DC wires through an open window is in violation of a pile of building codes and very dangerous. The linked solar panels have an open circuit voltage of 64.8V, so with four of them in parallel there can be 260V of direct current. This can and will kill you, especially if you touch it in such a way where muscular tetanus prevents you from releasing the cable.
Electrical extension cords are intended to be temporary, and the article's use of them violates a bunch of codes. Here are some of the relevant ones:
400.10 Uses Permitted
(A) Uses
Flexible cords and flexible cables shall be used only for the following:
(1) Pendants.
(2) Wiring of luminaires.
(3) Connection of portable luminaires, portable and mobile signs, or appliances.
(4) Elevator cables.
(5) Wiring of cranes and hoists.
(6) Connection of utilization equipment to facilitate frequent interchange.
(7) Prevention of the transmission of noise or vibration.
(8) Appliances where the fastening means and mechanical connections are specifically designed to permit ready removal for maintenance and repair, and the appliance is intended or identified for flexible cord connection.
(9) Connection of moving parts.
(10) Where specifically permitted elsewhere in this Code.
(11) Between an existing receptacle outlet and an inlet, where the inlet provides power to an additional single receptacle outlet. The wiring interconnecting the inlet to the single receptacle outlet shall be a Chapter 3 wiring method. The inlet, receptacle outlet, and Chapter 3 wiring method, including the flexible cord and fittings, shall be a listed assembly specific for this application.
400.12 Uses Not Permitted
Unless specifically permitted in 400.10, flexible cables, flexible cord sets, and power supply cords shall not be used for the following:
(1) As a substitute for the fixed wiring of a structure
(2) Where run through holes in walls, structural ceilings, suspended ceilings, dropped ceilings, or floors
(3) Where run through doorways, windows, or similar openings
(4) Where attached to building surfaces
Exception to (4): Flexible cord and flexible cable shall be permitted to be attached to building surfaces in accordance with 368.56(B).
(5) Where concealed by walls, floors, or ceilings or located above suspended or dropped ceilings
Exception to (5): Flexible cord and flexible cable shall be permitted if contained within an enclosure for use in Other Spaces Used for Environmental Air as permitted by 300.22(C)(3).
(7) Where subject to physical damage
400.17 Protection From Damage
Flexible cords and flexible cables shall be protected by bushings or fittings where passing through holes in covers, outlet boxes, or similar enclosures.
You absolutely cannot and should not run bare wires through a window. This manages to violate basically all of Chapter 3 of the NEC:
300.3 Conductors
(A) Single Conductors
Single conductors specified in Table 310.104(A) shall only be installed where part of a recognized wiring method of Chapter 3.
300.4 Protection Against Physical Damage
Where subject to physical damage, conductors, raceways, and cables shall be protected.
300.6 Protection Against Corrosion and Deterioration
Raceways, cable trays, cablebus, auxiliary gutters, cable armor, boxes, cable sheathing, cabinets, elbows, couplings, fittings, supports, and support hardware shall be of materials suitable for the environment in which they are to be installed.
300.11 Securing and Supporting
(A) Secured in Place
Raceways, cable assemblies, boxes, cabinets, and fittings shall be securely fastened in place.
300.12 Mechanical Continuity — Raceways and Cables
Raceways, cable armors, and cable sheaths shall be continuous between cabinets, boxes, fittings, or other enclosures or outlets.
310.10 Uses Permitted
(C) Wet Locations
Insulated conductors and cables used in wet locations shall comply with one of the following:
Be moisture-impervious metal-sheathed
Be types MTW, RHW, RHW-2, TW, THW, THW-2, THHW, THWN, THWN-2, XHHW, XHHW-2, or ZW
Be of a type listed for use in wet locations
(D) Locations Exposed to Direct Sunlight
Insulated conductors or cables used where exposed to direct rays of the sun shall comply with (D)(1) or (D)(2):
Conductors and cables shall be listed, or listed and marked, as being sunlight resistant
Conductors and cables shall be covered with insulating material, such as tape or sleeving, that is listed, or listed and marked, as being sunlight resistant
Both the solar panels and the inverter are listed products and are required to be installed in accordance with their listings. In particular, this means they must be permanently fastened to the structure in the manner of the manufacturer's instructions.
110.3 Examination, Identification, Installation, Use, and Listing (Product Certification) of Equipment
(B) Installation and Use
Listed or labeled equipment shall be installed and used in accordance with any instructions included in the listing or labeling.
The solar panels must be fastened to the structure in a way that resists wind and weather loads. There are entire sections of the NEC and various IBC codes devoted to this.
Other various code sections that this would fail:
110.8 Wiring Methods
Only wiring methods recognized as suitable are included in this Code. The recognized methods of wiring shall be permitted to be installed in any type of building or occupancy, except as otherwise provided in this Code.
110.12 Mechanical Execution of Work
Electrical equipment shall be installed in a neat and workmanlike manner.
110.13 Mounting and Cooling of Equipment
(A) Mounting
Electrical equipment shall be firmly secured to the surface on which it is mounted. Wooden plugs driven into holes in masonry, concrete, plaster, or similar materials shall not be used.
110.26 Spaces About Electrical Equipment
Access and working space shall be provided and maintained about all electrical equipment to permit ready and safe operation and maintenance of such equipment.
(A) Working Space
Working space for equipment operating at 1000 volts, nominal, or less to ground and likely to require examination, adjustment, servicing, or maintenance while energized shall comply with the dimensions of 110.26(A)(1), (A)(2), (A)(3), and (A)(4) or as required or permitted elsewhere in this Code.
(B) Clear Spaces
Working space required by this section shall not be used for storage. When normally enclosed live parts are exposed for inspection or servicing, the working space, if in a passageway or general open space, shall be suitably guarded.
(E) Dedicated Equipment Space
All switchboards, switchgear, panelboards, and motor control centers shall be located in dedicated spaces and protected from damage.
(1) Indoor
Indoor installations shall comply with 110.26(E)(1)(a) through (E)(1)(d).
(a) Dedicated Electrical Space. The space equal to the width and depth of the equipment and extending from the floor to a height of 1.8 m (6 ft) above the equipment or to the structural ceiling, whichever is lower, shall be dedicated to the electrical installation. No piping, ducts, leak protection apparatus, or other equipment foreign to the electrical installation shall be located in this zone.
(2) Outdoor
Outdoor installations shall comply with 110.26(E)(2)(a) through (c).
(a) Installation Requirements. Outdoor electrical equipment shall be the following:
(1) Installed in identified enclosures
110.27 Guarding of Live Parts
(A) Live Parts Guarded Against Accidental Contact
Except as elsewhere required or permitted by this Code, live parts of electrical equipment operating at 50 to 1000 volts, nominal shall be guarded against accidental contact by approved enclosures or by any of the following means:
(1) By location in a room, vault, or similar enclosure that is accessible only to qualified persons.
(3) By location on a balcony, gallery, or platform elevated and arranged so as to exclude unqualified persons.
(4) By elevation above the floor or other working surface as follows:
A minimum of 2.5 m (8 ft) for 50 volts to 300 volts between ungrounded conductors
(B) Prevent Physical Damage
In locations where electrical equipment is likely to be exposed to physical damage, enclosures or guards shall be so arranged and of such strength as to prevent such damage.
Wires from panels in parallel will all be at, typically, 48VDC. Voltages add only when you wire in series. No "live parts" are exposed in modern systems.
The quoted regulations govern construction. Residents have much greater latitude. All the appliances mentioned are approved for use with rated extension cords.
Notably, even in construction/industrial settings, there are typically broad exemptions for 'low voltage' wiring[0], typically defined as < 50V or < 48V, justified because there is no/little 'hazard' associated with voltage that low. To wit you can, for instance, just duct tape/zip tie some flexible wire/cabling to the wall if it is only carrying e.g. a 5V power to a sensor, some LEDs, or other equipment. Which I have done and passed fire marshal inspection on multiple occasions in multiple jurisdictions[1].
The regs (and by extension a fire marshal) would probably be unhappy about the extension cord, but a. 'everyone does it'[2], b. 'surge protecting' cords are generally exempt (at least in my jurisdictions), and c. trivially rectified by hard wiring one or both ends of the extension cord to hard wire or create a 'wire + receptacle'.
[0]Current limitations, watt-hr limitations, etc. may apply in this case.
[1]Obligatory disclaimer: not advice, follow your local regulations, etc.
[2]The response would be a 'please fix this' and not fines or worse.
NEC chapter 7, article 720 covers wiring of less than 50V. It's important to note that elsewhere in the NEC and other codes, "low voltage" is defined as <600V, <1000V, or <2000V, depending on the code and code cycle.
Your fire marshal might have passed 5V cabling duct taped to a wall, but it would be in violation of 720.11:
720.11 Mechanical Execution of Work
Circuits operating at less than 50 volts shall be installed in a neat and workmanlike manner. Cables shall be supported by the building structure in such a manner that the cable will not be damaged by normal building use.
Good point about 'low voltage' -- which does not mean the same thing in all contexts.
>Circuits operating at less than 50 volts shall be installed in a neat and workmanlike manner. Cables shall be supported by the building structure in such a manner that the cable will not be damaged by normal building use.
The only possible violation of 720.11 for duct taping <50V cables to walls I can see is 'neat and workmanlike' which is vague at best; there is nothing intrinsically 'un-neat' about an attachment method unless maybe using like literal chewing gum or something else absurd or just categorically unfit for purpose. I'm hardly going to call it best practice, but duct taping a (small to modest-sized) zip-tied bundle of low voltage cables to say route it up and around a door is perfectly cromulent in my experience.
Likewise I'd feel perfectly comfortable (from both a safety and code/inspection perspective) supergluing cables to dry wall (on the more absurd end), or p clamp'ing w/ drywall screws, or using adhesive zip tie mounts, etc.
You're probably right, but just to rules lawyer this a bit for fun:
Flexible cords and flexible
cables shall be used only for
the following: [...] (9)
Connection of moving parts.
He could mount his panels on plywood on caster wheels, and then prevent excess moment by tying those "moving parts" by chain to cinder blocks.
The rules don't specify that you must have a reason that isn't dumb to make those parts move.
The "400.12 Uses Not Permitted" section gives the list in "400.10" a blanket exemption ("unless specifically permitted in 400.10"), and that's the section that would forbid running the wires through a window.
The rules specify equipment must be installed in a manner per its listing, and there are at least four nationwide codes that cover the attachment of solar panels. In California I would guess there are more, stricter codes (e.g. seismic).
Even if you managed to make the panels movable, this would fail 690 of the NEC:
690.31 Wiring Methods
(A) Wiring Systems
All raceway and cable wiring methods included in this Code, other wiring systems and fittings specifically listed for use in PV arrays, and wiring as part of a listed system shall be permitted. Where wiring devices with integral enclosures are used, sufficient length of cable shall be provided to facilitate replacement.
Where PV source and output circuits operating at voltages greater than 30 volts are installed in readily accessible locations, circuit conductors shall be guarded or installed in Type MC cable or in raceway. The ampacity of 105°C (221°F) and 125°C (257°F) conductors shall be permitted to be determined by Table 690.31(A)(b). For ambient temperatures greater than 30°C (86°F), the ampacities of these conductors shall be corrected in accordance with Table 690.31(A)(a).0
That entire section seems to hinge on a few conditions you might get out of. E.g. here the videos seems to show the maintenance access to a roof, is that a "readily accessible location"?
Even if that's the case it seems you could circumvent the rest by using lower voltage coming from the panels into the house.
- Install this equipment in a permanent manner consistent with its listings and all applicable codes. "Off-grid" does not mean "do whatever you want", it means you aren't connected to a fixed grid.
- Buy equipment that is designed (and listed) for portable PV storage. This would most commonly be used for RVs and the like, and would look more like a generator than a house panel. You still don't get to drape extension cords all over your home in lieu of permanent wiring if you do this.
- Start a company, design a product that can allow temporary whole-circuit backups without transfer switches and all the usual stuff, and somehow convince a NRTL to list it. Good luck.
All 50 states have adopted NFPA 70, the National Electric Code, and the linked article shows a bunch of things that absolutely DO require a permit and would absolutely FAIL to be approved:
First and foremost, running bare high voltage DC wires through an open window is in violation of a pile of building codes and very dangerous. The linked solar panels have an open circuit voltage of 64.8V, so with four of them in parallel there can be 260V of direct current. This can and will kill you, especially if you touch it in such a way where muscular tetanus prevents you from releasing the cable.
Electrical extension cords are intended to be temporary, and the article's use of them violates a bunch of codes. Here are some of the relevant ones:
You absolutely cannot and should not run bare wires through a window. This manages to violate basically all of Chapter 3 of the NEC: Both the solar panels and the inverter are listed products and are required to be installed in accordance with their listings. In particular, this means they must be permanently fastened to the structure in the manner of the manufacturer's instructions. The solar panels must be fastened to the structure in a way that resists wind and weather loads. There are entire sections of the NEC and various IBC codes devoted to this.Other various code sections that this would fail: