Stainless Steel , Iron , Aluminum Solar Inverter Enclosure Cabinet

Stainless Steel , Iron , Aluminum Solar Inverter Enclosure Cabinet 

 

 

Central Solar Inverter Enclosure

 

We are now mainly in the processing,sheet metal case, electrical components shell and sheet metal bracket are, in the sheet metal production, communication power shell, small network machine frame, power distribution box have certain experience and advantages. We provide CNC machining, punching, bending, riveting, benching; surface finish include: plating, oxidation, painting, lacquering and silk-screen.

 

Specifications:

 

inverter noise levels at variousdistances with four inverters ai IM7
location of source (number of inverters)	noise level at 50 feet	receiver  location	distance from source to receiver	noise level from inverters at receiver
	dBA		Feet	Leq / dBA
I10(3)	64	RM6	800	40
IM5(3)	64		360	47
IM7(4)	65		2040	33
I10(3)	64	RM8	1280	36
IM5(3)	64		1800	33
IM7(4)	65		216	52
I10(3)	64	R11	224	51
IM5(3)	64		544	43
IM7(4)	65		1336	36
Note: Location of inverter pads can be see on figure 3

 

 

Specifications:

 

Electrical interference can be in the form of radio waves emitted from a device (termed RFI – radio-frequency interference) or can be non-radiated, such as line noise coming in from power or control lines (termed EMI – electromagnetic interference).  Nearly all consumer appliances and electronic equipment sold today must comply with FCC part B - which regulates the maximum amount of EMI that devices can radiate. But nearly all DC and solar equipment is exempt from Part B, which means that they can put out much more EMI and still be legal. In the case of grid-tied PV inverters, the IEEE 1547, UL 1741 and FCC Part 15B standards specify the guidelines to control the harmonic contents of the output current and EMI generation in the inverter. These guidelines guarantee that inverters do not generate excessive noise and harmonics, which can contaminate the AC grid voltage. 

 

 

Competitive Advantage:

 

Noise emissions from inverters are generally reduced by a combination of shielding, noise cancellation, filtering, and noise suppression. Metal enclosures are common for inverters and some other equipment. The use of shielded, twisted pairs for wiring is a common and effective practice.  Filtering is a common feature of nearly all electronics.The most common method is to use capacitors across a signal line or wire to ground to get rid of the noise. More recently, the use of noise suppression provided by ferrite chokes, cores, and beads has become more commonplace in PV installations. With appropriate equipment choices, noise reduction techniques and proper installation practices, noise emissions from PV installations are not a significant problem.

 

 

 

Applications:

 

Electrical interference is a problem that might be encountered with solar power system electronics. Any digital electronic equipment produces at least some noise and nearly all equipment now used in PV systems is digital. The most common problems arise from charge controllers and many inverters (particularly modified sine wave inverters). Nearly all charge controllers send power to batteries in the form of pulses and high power digital pulses are one of the worst interference sources.