An Installation Guide Of Solar Panel

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5 years ago

A Complete Guide to Installing Solar Panels&period; Phase by phase Measurement &amp&semi; Diagram Procedure&NewLine;Full Solar Panel System Design &amp&semi; Solved Examples Calculations-Step by Step Procedure &NewLine;Below is a complete note on <a href="https&colon;//www&period;wholesalesolar&period;com/solar-information/solar-power-101">Solar Panel design installation</a> DIY (do it yourself), solar panel no estimate, battery rating / backup time, inverter / UPS rating, load and power requirement in Watts&period; With Chain, diagrams are cabled and examples solved&period; Anyone who follows the steps below will get inside&NewLine;Installation of Solar Panels&colon; Step by Step Calculation and Examples&NewLine;Before we start, it&&num;8217&semi;s recommended that you read the article about proper range &amp&semi; various types of solar panels and photovoltaic panels for home &amp&semi; commercial use&period; To the end, let &&num;8216&semi;s know how to wire and mount a solar panel system according to the proper specifications of measurement and load&period;&NewLine;Now let&&num;8217&semi;s start,&NewLine;Suppose we &&num;8216&semi;re installing a solar power system in our home for a total load of 800W where the necessary backup battery time is 3 hours (you can use it your own as it&&num;8217&semi;s just for sample calculation) &NewLine;charging = 800 Watts &NewLine;Needed Battery Backup Time= 3 Hours&NewLine;What do we know&quest;&NewLine;Rate to Inverter / UPS =&quest; &NewLine;No Battery for power backup =&quest; &NewLine;Back up Battery Hours =&quest; &NewLine;Battery Sequence or Parallel Relation =&quest; &NewLine;Battery Charging Current =&quest; &NewLine;Battery Charging Time =&quest; &NewLine;A Solar Panel No Necessary =&quest; &NewLine;Solar Panel Sequence or Parallel Relation =&quest; &NewLine;Charge Controller Ranking =&quest;&NewLine;Scoring Inverter / UPS&colon;&NewLine;Inverter / UPS rating could surpass 25 percent of the total load (for the potential load and taking into account losses)&NewLine;800 x (100/25) = 200W&NewLine;Our Load + 25&percnt; Extra Power = 800 + 200 Watts&NewLine;That is UPS (Inverter) ranking, i&period;e&period; We need 1000W UPS / Inverter for installing solar panels according to our requirements (based on calculations)&NewLine;Scoring Inverter / UPS&colon;&NewLine;Inverter / UPS rating could surpass 25 percent of the total load (for the potential load and taking into account losses)&NewLine;800 x (100/25) = 200W&NewLine;Our Load + 25&percnt; Extra Power = 800 + 200 Watts&NewLine;That is UPS (Inverter) ranking, i&period;e&period; We need 1000W UPS / Inverter for installing solar panels according to our requirements (based on calculations)&NewLine;No Batteries Needed&NewLine;Now the necessary Backup Battery Time in Hours = 3 Hours&NewLine;Suppose we mount 100 Ah batteries, 12 V batteries,&NewLine;12 Volt x 100Ah = 1200 Wh&NewLine;Now for a Battery (i&period;e&period; one Cell Backup time)&NewLine;Back up Battery Hours&NewLine;If the number of batteries is specified and you want to know the Backup Time for those batteries, then use this formula to measure the battery backup hours&period;&NewLine;1200 Wh x 2 Packs = 2400 Wh&NewLine;2400 Wh / 800 W = 3 h&period;&NewLine;We will use a 12V inverter device in the first case, so in Parallel we will have to connect two ( 2) batteries (each of 12V, 100 Ah)&period;&NewLine;Batteries Sequence or Parallel Relation &NewLine;Why Parallel Batteries, not Series batteries&quest; &NewLine;Since this is a 12V inverter device, so if we link these batteries in series rather than parallel, the battery rating becomes V1 + V2 = 12V + 12V = 24V while the current rating is the same i&period;e&period;100Ah&period;&NewLine;That&&num;8217&semi;s why we&&num;8217&semi;re going to connect the batteries in parallel because the battery voltage (12 V) stays the same while it&&num;8217&semi;s going to raise its Ah (Ampere Hour) value&period; That is, the device will be = 12V, and 100Ah +100Ah = 200Ah&period;&NewLine;Good to Know&colon; The voltage in each wire or segment will be the same in parallel link, while the current will be different i&period;e&period; the current is additive e&period;g&period; I1+I2+I3 &&num;8230&semi; +About&NewLine;We are now plugging 2 batteries in parallel (each 100Ah, 12V) &NewLine;In Parallel, there will be 2 12V, 100Ah batteries attached &NewLine;= 12V, 100Ah + 100Ah = 12V, 200 Ah &NewLine;Good to Know&colon; Watt power is additive to any resisti configuration&NewLine;Battery Charging Current &NewLine;Now the charging current needed for those two batteries&period;&NewLine;(Battery charge current should be 1/10 Ah)&NewLine;200Ah x = 20A (1/10)&NewLine;Time required for battery charging&NewLine;Here&&num;8217&semi;s a Lead Acid Batteries Charging Time chart&period; &NewLine;Battery charging time = Battery Ah / Current charging &NewLine;T = J / A&NewLine;For example, Charging Time will be&colon; for a single 12V, 100Ah battery,&NewLine;T = Ah / A = 100Ah/10A = 10 hours (Case ideal)&NewLine;Because of some losses (it was reported that 40 percent of losses occurred during battery charging), we take 10-12 A charging current instead of 10 A, so the charging time required for a 12V, 100Ah battery will be&colon;&NewLine;100Ah x (40/100) = 40 losses (100Ah x 40 percent)&NewLine;It would be 100Ah + 40 Ah = 140 Ah (100Ah + losses)&NewLine;The charging current needed for the battery now would be&colon;&NewLine;= 11&period;6 Hours 140Ah/12A&period;&NewLine;Is Solar Panel No Needed (Series or Parallel)&quest; &NewLine;Now as below we need the necessary No of Solar Panels for the above device&period;&NewLine;Scenario 1&colon; DC Load Not Attached = Just charging batteries&NewLine;We know of the popular formulation of power (DC)&NewLine;