Inkxaso yeSoftware/APP yePC Ukubeka esweni ilifu okungangeni manzi 20A 30A 40A 50A 60A MPPT Umlawuli wokutshaja ngelanga 12V 24V 48V

Inkxaso yeSoftware/APP yePC Ukubeka esweni ilifu okungangeni manzi 20A 30A 40A 50A 60A MPPT Umlawuli weCharge yeSolar 12V 24V 48V Umfanekiso obonisiweyo

Inkcazo emfutshane:

Ukusebenza kakuhle kwe-MPPT yi-99.5%, ukusebenza kakuhle kokuguqula yi-97%

InkxasoI-Bluetooth Mobile App

I-IP54 engangeni manzi

Lonke uyilo oluphendulayo, olusebenzayo ngakumbi, oluzinzileyo ngakumbi

Ulwazi lwesimo sesikrini esiluhlaza okwesibhakabhaka se-OLED

Umsebenzi wokuvula ibhetri ye-lithium eyakhelwe ngaphakathi

Xhasa iibhetri ze-lead-acid, iibhetri ze-lithium kunye

zonke iintlobo zebhetri

Umsebenzi wokukhusela ukugcina ukusebenza okuzinzileyo

yebhetri okanye inkqubo yebhetri ye-lead-acid

Ii-interfaces ze-RJ45 ezimbini, ulawulo oludibeneyo kunye

uphuhliso lwesibini

Ubungakanani obuncinci be-oda:Iziqwenga ezingama-50

Amandla okubonelela:Iziqwenga ezili-10000 ngenyanga

Thumela i-imeyile kuthi

Iinkcukacha zeMveliso

Iiparameters

FAQ

Iziqinisekiso

Umenzi

Iithegi zeMveliso

Ngaphambili: I-Off-grid Power Inverter NFS Series Dc ukuya kwi-Ac Power Inverter 3000W Pure Sine Wave eneBhetri Charger 25A

Okulandelayo: I-10A 20A 30A 40A 50A 60A 12V/24V Auto Adapt PWM Solar Solar Charge Controller enezigaba ezi-3 ene-2 5V 2.1A USB & IR Ukuzifundela ngokwakho

Imodeli		I-SMT24L30	I-SMT24L40	I-SMT24H50	I-SMT24H60
Ukusebenza kakuhle kwe-MPPT		99.50%
Amandla okulinda		1W~1.8W
Indlela yokususa ubushushu		Zonke iishelufu ze-aluminium alloy ezizifudumeza ngokwazo
Inkqubo yebhetri		Inkqubo ye-12V: 9VDC~15VDC Inkqubo ye-24V: 18VDC~30VDC
Inkqubo yebhetri ye-lithium-ion enokulungiseka		8VDC~31VDC
Iimpawu zokufaka
I-voltage yokufaka ye-Max.PV (iVoc)		100VDC		150VDC
I-Min.Vmpp Voltage		I-voltage yebhetri + 2V
I-voltage yokutshaja yokuqalisa		I-voltage yebhetri + 3V
Ukhuseleko lwe-voltage ephantsi yokufaka		I-voltage yebhetri + 2V
		100VDC/95VDC		150VDC/145VDC
Amandla ePV abuyiselweyo	Inkqubo ye-12V	420W	560w	700w	840W
	Inkqubo ye-24V	840W	1120w	1400w	1680w
	I-Li-ion	432W~864W	576W~1152W	720W~1440W	864W~1728W
Iimpawu zeNtlawulo
Ukusebenza kwebhetri ye-lithium		Ukhetho
Iintlobo zebhetri		Itywiniweyo (SEL), iGel (GEL), Izaliswe ngamanzi (FLD), I-AGM echazwe ngumsebenzisi (USER), iLiFePO4 (Iintambo ezi-4 / Iintambo ezi-7 / Iintambo ezi-8), Ibhetri ye-lithium yeTernary (Iintambo ezi-3 / 6 iintambo / iintambo ezi-7), ibhetri ye-ion ye-lithium eyenzelwe wena (Lit)
						Ixabiso langoku elilinganiselweyo	30A	40A	50A	60A
Imbuyekezo yobushushu		-3mV/C/2v
Indlela yokutshaja		Amanqanaba ama-3: I-CC (Umsinga oqhubekayo) – I-CV (Umbane oqhubekayo) – I-CF (Umrhumo odadayo)
Ukuchaneka kozinzo lwe-voltage yemveliso		10.2V
Iimpawu zoMthwalo
Umthwalo wevolthi		Ifana ne-voltage yebhetri
Umthwalo wangoku olinganiselweyo		20A		30A
Imo yokulawula umthwalo		Vula/Cima, imo yokulawula i-voltage ye-PV, imo yokulawula ixesha eliphindwe kabini, imo yokulawula i-PV + Ixesha
Ukhuseleko lwe-voltage ephantsi		10.5V (engagqibekanga), 11V (ibuyiselwe), iyalungiseka
Indlela yokuseta		Isoftware yePC / i-APP / i-Controller
Umboniso kunye noNxibelelwano
Bonisa		Umboniso we-OLED oluhlaza okwesibhakabhaka
Unxibelelwano		Izibuko ezimbini ze-RJ45 / RS485 / inkxaso yokubeka esweni isoftware yePC / inkxaso yemodyuli ye-WiFi ye Ukubeka iliso kwilifu le-APP / inkxaso yokubeka esweni okuhamba ngaxeshanye
						Ezinye iiParamitha
Ukhuseleko		Ukhuseleko lokufaka kunye nokukhupha i-over-volt / i-low-voltage, ukhuseleko lwe-reverse polarity,
Ukusebenza kobushushu obuphakathi		-20°C~+50°C
Ubushushu bokugcina		-40°C~+75℃
I-IP (ukhuseleko lokungena)		IP54
Ukuphakama		0~3000m
Ubungakanani boqhagamshelo obuphezulu		28mm
I-breaker ecetyiswayo		=63A	= 63A	= 100A	=100A
Ubunzima obupheleleyo/Ubunzima obupheleleyo (kg)		1.5/1.9		2.2/2.6
Ubungakanani bemveliso/Ubungakanani bokupakisha (mm)		225x152x75mm		245x192x83mm

1. Kutheni ixabiso lakho liphezulu kunelabanye ababoneleli?

Kwimarike yaseTshayina, iifektri ezininzi zithengisa ii-inverters ezingabizi kakhulu ezidityaniswe kwiindawo zokusebenzela ezincinci ezingenalayisenisi. Ezi fektri zinciphisa iindleko ngokusebenzisa izinto ezingaphantsi komgangatho. Oku kuphumela kwiingozi ezinkulu zokhuseleko.

I-SOLARWAY yinkampani yobungcali ebandakanyeka kwi-R&D, ukuvelisa, kunye nokuthengisa ii-inverters zamandla. Besibandakanyeka ngokukhutheleyo kwimarike yaseJamani kangangeminyaka engaphezu kwe-10, sithumela ngaphandle malunga nee-inverters zamandla ezingama-50,000 ukuya kwi-100,000 minyaka le eJamani nakwiimarike ezikufutshane nayo. Umgangatho wemveliso yethu ufanele ukuthenjwa nguwe!

2. Zingaphi iindidi zee-inverters zakho zamandla ezinazo ngokwendlela ye-output waveform?

Uhlobo 1: Ii-inverters zethu ze-NM kunye ne-NS series Modified Sine Wave zisebenzisa i-PWM （Pulse Width Modulation） ukuvelisa i-modified sine wave. Ngenxa yokusebenzisa iisekethe ezikrelekrele, ezizinikeleyo kunye nee-transistors ezinamandla aphezulu, ezi inverters zinciphisa kakhulu ukulahleka kwamandla kwaye ziphucula umsebenzi wokuqalisa okuthambileyo, ziqinisekisa ukuthembeka okukhulu. Nangona olu hlobo lwe-power inverter lunokuhlangabezana neemfuno zezixhobo ezininzi zombane xa umgangatho wamandla ungafuni kakhulu, lusenokufumana ukuphazamiseka kwe-harmonic malunga ne-20% xa lusebenzisa izixhobo ezintsonkothileyo. I-power inverter inokubangela ukuphazamiseka kwe-frequency ephezulu kwizixhobo zonxibelelwano lwerediyo. Nangona kunjalo, olu hlobo lwe-power inverter lusebenza kakuhle, luvelisa ingxolo ephantsi, luxabiso eliphakathi, kwaye ke ngoko luyimveliso ephambili kwimarike.

Uhlobo 2: Ii-inverters zethu ze-NP, FS, kunye ne-NK series Pure Sine Wave zisebenzisa uyilo lwesekethe yokudibanisa eyodwa, enika ukusebenza kakuhle okuphezulu kunye nee-waveforms zemveliso ezizinzileyo. Ngobuchwepheshe obuphezulu, ezi inverters zamandla zincinci kwaye zifanelekile kuluhlu olubanzi lwemithwalo. Zinokuqhagamshelwa kwizixhobo zombane eziqhelekileyo kunye nemithwalo yokungenisa (ezifana neefriji kunye needrill zombane) ngaphandle kokubangela naluphi na uphazamiso (umz., ukubhonga okanye ingxolo yeTV). Imveliso ye-inverter yamandla e-sine wave ecocekileyo iyafana namandla egridi esiwasebenzisa imihla ngemihla—okanye nangcono nangakumbi—kuba ayivelisi ungcoliseko lwe-electromagnetic oluhambelana namandla adityaniswe negridi.

3. Zithini izixhobo zomthwalo ezithintela umbane?

Izixhobo ezifana neefowuni eziphathwayo, iikhompyutha, iiTV ze-LCD, izibane ze-incandescent, iifeni zombane, ii-video broadcasters, iiprinta ezincinci, oomatshini be-mahjong yombane, kunye nezipheki zerayisi zithathwa njengemithwalo yokumelana. Ii-inverters zethu ze-sine wave eziguquliweyo zinokunika amandla ngempumelelo ezi zixhobo.

4. Zithini izixhobo zomthwalo ezibangela ukuqhubela phambili?

Izixhobo zomthwalo ongenisayo zizixhobo ezixhomekeke kwi-electromagnetic induction, ezifana neemoto, iicompressor, iirelay, izibane ze-fluorescent, izitovu zombane, iifriji, ii-air conditioner, izibane ezonga amandla, kunye neepompo. Ezi zixhobo zihlala zifuna amandla azo aphindwe kathathu ukuya kwesi-7 ngexesha lokuqalisa. Ngenxa yoko, yi-inverter ye-sine wave ecocekileyo kuphela efanelekileyo ukuzisebenzisa.

5. Ungayikhetha njani i-inverter efanelekileyo?

Ukuba umthwalo wakho unezixhobo zokuthintela, ezifana neebhalbhu zokukhanya, ungakhetha i-modified sine wave inverter. Nangona kunjalo, kwimithwalo ye-inductive kunye ne-capacitive, sicebisa ukusebenzisa i-pure sine wave inverter. Imizekelo yaloo mithwalo ibandakanya iifeni, izixhobo ezichanekileyo, ii-air conditioner, iifriji, oomatshini bekofu, kunye neekhompyutha. Nangona i-modified sine wave inverter isenokuqala eminye imithwalo ye-inductive, inokunciphisa ixesha layo lobomi kuba imithwalo ye-inductive kunye ne-capacitive ifuna amandla asemgangathweni ophezulu ukuze isebenze kakuhle.

6. Ndingayikhetha njani ubungakanani be-inverter?

Iintlobo ezahlukeneyo zemithwalo zifuna ubungakanani bamandla obahlukeneyo. Ukuze ubone ubungakanani be-inverter, kufuneka ujonge ukulinganiswa kwamandla emithwalo yakho.

Imithwalo yokuthintela: Khetha i-inverter enomlinganiselo wamandla ofanayo nowomthwalo.
Imithwalo yokuthwala amandla: Khetha i-inverter enokulinganiselwa kwamandla okuphindwe kabini ukuya kahlanu kunomthwalo.
Imithwalo yokungenisa: Khetha i-inverter enokukala amandla omthwalo ngokuphindwe ka-4 ukuya ku-7.

7. Ibhetri kunye ne-inverter kufuneka ziqhagamshelwe njani?

Kucetyiswa ngokubanzi ukuba iintambo ezidibanisa iiterminal zebhetri kwi-inverter zibe mfutshane kangangoko. Kwiintambo eziqhelekileyo, ubude akufuneki bube ngaphezu kweemitha eziyi-0.5, kwaye i-polarity kufuneka ihambelane phakathi kwebhetri kunye ne-inverter.

Ukuba ufuna ukwandisa umgama phakathi kwebhetri kunye ne-inverter, nceda unxibelelane nathi ukuze ufumane uncedo. Singabala ubungakanani kunye nobude bekhebula elifanelekileyo.

Khumbula ukuba uqhagamshelo lwentambo olude lunokubangela ukulahleka kwe-voltage, oko kuthetha ukuba i-voltage ye-inverter inokuba phantsi kakhulu kune-voltage yesiphelo sebhetri, nto leyo ekhokelela kwi-alamu ye-undervoltage kwi-inverter.

8.Ubala njani umthwalo kunye neeyure zokusebenza ezifunekayo ukuze ulungiselele ubungakanani bebhetri?

Ngokwesiqhelo sisebenzisa le fomyula ilandelayo xa sibala, nangona isenokungachaneki ngokupheleleyo ngenxa yezinto ezifana nemeko yebhetri. Iibhetri ezindala zinokulahleka okuthile, ngoko ke oku kufanele kuthathwe njengexabiso lesalathiso:

Iiyure zomsebenzi （H） = (Umthamo webhetri （AH）*Umbane webhetri （V0.8）/ Amandla omthwalo （W）