Table of Contents
Carane Nggawe Paket Baterei Lithium dhewe kanggo Proyek DIY
Nggawe paket baterei lithium dhewe minangka cara sing apik kanggo nguatake proyek DIY. Kanthi bahan lan alat sing tepat, sampeyan bisa nggawe sumber daya sing dipercaya lan efisien kanggo proyek sampeyan. Pandhuan iki bakal menehi sampeyan langkah-langkah sing dibutuhake kanggo nggawe paket baterei lithium dhewe.
Kaping pisanan, sampeyan kudu tuku komponen sing dibutuhake kanggo baterei. Iki kalebu sel lithium, sistem manajemen baterei (BMS), pangisi daya, lan kasus. Sel lithium minangka komponen sing paling penting, amarga bakal nyedhiyakake daya kanggo baterei sampeyan. Sampeyan kudu milih jinis lan ukuran sel sing tepat kanggo proyek sampeyan. BMS bakal mbantu nglindhungi sel saka overcharging lan over-discharging, dene pangisi daya bakal ngidini sampeyan ngisi ulang baterei. Pungkasan, kasus kasebut bakal menehi proteksi kanggo sel lan komponen liyane.
Yen sampeyan duwe kabeh komponen, sampeyan bisa miwiti ngrakit baterei. Miwiti kanthi nyambungake sel kanthi seri utawa paralel, gumantung saka voltase lan kapasitas sing dibutuhake. Priksa manawa nggunakake kabel lan konektor sing bener kanggo sel kasebut. Sabanjure, sambungake BMS menyang sel lan pangisi daya. Pungkasan, lebokake sel lan komponen liyane ing kasus kasebut lan aman nganggo sekrup utawa pengikat liyane.
Sawise baterei wis dirakit, sampeyan bisa miwiti nyoba. Sambungake baterei menyang beban lan ukur voltase lan arus. Priksa manawa voltase lan saiki ana ing kisaran sing ditemtokake. Yen kabeh bisa digunakake kanthi bener, sampeyan bisa miwiti nggunakake baterei kanggo proyek sampeyan.
Seri | Lithium Voltage | LiFePO4 Tegangan |
1S | 3.7V | 3.2V |
2S | 7.4V | 6.4V |
3S | 11.1V | 9.6V |
4S | 14.8V | 12.8V |
5S | 18.5V | 16V |
6S | 22.2V | 19.2V |
7S | 25.9V | 22.4V |
8S | 29.6V | 25.6V |
9S | 33.3V | 28.8V |
10S | 37V | 32V |
11S | 40.7V | 35.2V |
12S | 44.4V | 38.4V |
13S | 48.1V | 41.6V |
14S | 51.8V | 44.8V |
15S | 55.5V | 48V |
16S | 59.2V | 51.2V |
17S | 62.9V | 54.4V |
18S | 66.6V | 57.6V |
19S | 70.3V | 60.8V |
20S | 74V | 64V |
21S | 77.7V | 67.2V |
22S | 81.4V | 70.4V |
23S | 85.1V | 73.6V |
Ngerteni Resiko Keamanan saka Konstruksi Pack Baterei Lithium DIY
Pungkasane, penting kanggo ngerti babagan potensial paparan kimia nalika nggawe paket baterei lithium. Sel kasebut ngemot macem-macem bahan kimia, kalebu litium, sing bisa mbebayani yen dihirup utawa ditelan. Kanggo nyuda risiko paparan bahan kimia, penting kanggo nyandhang sandhangan pelindung lan respirator nalika nangani sel.
Kesimpulane, konstruksi paket baterei lithium DIY bisa dadi pengalaman sing bermanfaat, nanging penting kanggo ngerti risiko safety sing ana gandhengane karo iki. kegiatan. Kanthi ngetutake pandhuan sing digarisake ing artikel iki, para penggemar lan penggemar DIY bisa nyuda risiko kebakaran utawa bledosan, sirkuit cendhak, lan paparan bahan kimia.
Finally, it is important to be aware of the potential for chemical exposure when constructing a lithium battery pack. The cells contain a variety of chemicals, including lithium, which can be hazardous if inhaled or ingested. To reduce the risk of chemical exposure, it is important to wear protective clothing and a respirator when handling the cells.
In conclusion, DIY lithium battery pack construction can be a rewarding experience, but it is important to understand the safety risks associated with this activity. By following the guidance outlined in this article, hobbyists and DIY enthusiasts can reduce the risk of a fire or explosion, short-circuiting, and chemical exposure.