
Italian: 
In un mio precedente progetto video
Ti ho mostrato come ho creato un sistema fotovoltaico off-grid che fino ad oggi funziona senza problemi
ma ciò che ho notato nella sezione commenti all'epoca era che molti di voi hanno affermato che è un montaggio piatto sul tetto
non ideale
Con cui concordo
Non solo il pannello esce più facilmente
ma questo montaggio riduce anche il flusso d'aria di un altro pannello e quindi il raffreddamento e
Anche le uscite di potenza dal momento che il sole colpisce il pannello più spesso con un angolo acuto
Allora perché l'ho montato in questo modo allora e non ad angolo?
Bene, il motivo è che non è facile individuare in quel modo e quindi molto probabilmente non verrà rubato
Comunque, dato che recentemente mi sono interessato a quanta energia sto effettivamente perdendo a causa della posizione del mio pannello
Condurrò un piccolo esperimento di localizzazione solare in questo video

Portuguese: 
Em um vídeo anterior de um projeto meu
mostrei como criei um sistema fotovoltaico off-grid que até hoje funciona sem problemas
 
mas o que notei nos comentários na época foi que muitos acham que uma montagem plana no telhado não
é o ideal
Com o qual concordo
O painel não só sai mais facilmente
mas essa montagem também diminui o fluxo de ar em outro painel e, portanto, o resfriamento e
Também as saídas de energia, uma vez que o Sol está atingindo o painel com mais frequência em um ângulo agudo
Então, por que eu montei dessa maneira e não em ângulo?
Bem, a razão é que não é fácil identificar dessa maneira e, portanto, provavelmente não será roubado
Mas enfim, desde que recentemente me interessei por quanta energia estou perdendo devido à posição do meu painel
Vou realizar um pequeno experimento de rastreamento solar neste vídeo

French: 
Dans une vidéo de mon projet précédent
Je vous ai montré comment j'ai créé un système photovoltaïque hors réseau qui fonctionne à ce jour sans aucun problème
 
mais ce que j'ai remarqué dans la section des commentaires à l'époque, c'est que beaucoup d'entre vous disent qu'un montage à plat sur le toit est
pas idéal
Avec quoi je suis d'accord
Non seulement le panneau sort plus facilement
mais ce montage diminue également le débit d'air d'un autre panneau et donc le refroidissement et
De plus, les sorties de puissance, car le soleil frappe le panneau plus souvent à un angle aigu
Alors pourquoi l'ai-je monté de cette façon alors et non en biais?
Eh bien, la raison en est qu'il n'est pas facile de repérer de cette façon et ne sera donc probablement pas volé
Mais de toute façon, depuis que je me suis récemment intéressé à la quantité d'énergie que je perds en raison de la position de mon panneau
Je vais mener une petite expérience de suivi solaire dans cette vidéo

Thai: 
ในวิดีโอโครงการก่อนหน้าของฉัน
ฉันแสดงให้คุณเห็นว่าฉันสร้างระบบกริดโซลาร์เซลล์ซึ่งในวันนี้ทำงานอย่างไรโดยไม่มีปัญหา
แต่สิ่งที่ฉันสังเกตเห็นในส่วนความคิดเห็นย้อนกลับไปคือว่าคุณหลายคนระบุว่าการติดตั้งแบบเรียบบนหลังคาคือ
ไม่เหมาะ
ซึ่งฉันเห็นด้วยกับ
ไม่เพียง แต่แผงควบคุมจะออกได้ง่ายขึ้น
แต่การติดตั้งนี้ยังช่วยลดการไหลของอากาศอีกแผงหนึ่งและทำให้การระบายความร้อนและ
นอกจากนี้พลังงานที่ส่งออกมาตั้งแต่ดวงอาทิตย์ชนแผงบ่อยกว่าในมุมที่คมชัด
แล้วทำไมฉันถึงติดมันด้วยวิธีนี้และไม่ทำมุม?
เหตุผลก็คือมันไม่ง่ายเลยที่จะมองเห็นจุดนั้นและทำให้ส่วนใหญ่ไม่ถูกขโมย
แต่อย่างไรก็ตามเนื่องจากเมื่อเร็ว ๆ นี้ฉันมีความสนใจในพลังงานที่ฉันสูญเสียเนื่องจากตำแหน่งของแผงควบคุมของฉัน
ฉันจะทำการทดลองติดตามดวงอาทิตย์ขนาดเล็กในวิดีโอนี้

English: 
In a previous project video of mine
I showed you how I created a photovoltaic off-grid system which to this date works without any problems
but what I noticed in the comment section back then was that many of you are stated that a flat mounting on the roof is
not ideal
Which I do agree with
Not only does the panel gets out more easily
but this mounting also decreases the air flow another panel and thus the cooling and
Also the power outputs since the Sun is hitting the panel more often at a sharp angle
So why did I mounted it this way then and not at an angle?
Well, the reason is that it is not easy to spot that way and thus will most likely not get stolen
But anyway, since I recently got interested in how much energy I'm actually losing due to the position of my panel
I will conduct a small solar tracking experiment in this video

Turkish: 
Önceki bir proje videomda
Size bugüne kadar sorunsuz çalışan bir fotovoltaik şebeke dışı sistem oluşturduğumu gösterdim.
ama o zamanlar yorum bölümünde fark ettiğim şey, çoğunuzun çatıda düz bir montajın
Uygun değil
Hangisine katılıyorum
Panel sadece daha kolay çıkmakla kalmaz
ancak bu montaj aynı zamanda hava akışını başka bir panel ve dolayısıyla soğutma ve
Ayrıca Güneş panele daha sık keskin bir açıyla çarptığından güç çıkışı
Öyleyse neden bir açıyla değil, bu şekilde monte ettim?
Bunun nedeni, bu şekilde tespit etmenin kolay olmaması ve bu nedenle büyük olasılıkla çalınmamasıdır
Ama neyse, son zamanlarda panelimin konumu nedeniyle gerçekten ne kadar enerji kaybettiğimle ilgileniyorum
Bu videoda küçük bir güneş izleme denemesi yapacağım

French: 
J'espère que cela se passera en ma faveur et me permettra ainsi de dormir à nouveau en paix
Commençons
[la musique]
Cette vidéo est sponsorisée par JLCPCB un fait à leur sujet. Vous pouvez facilement trouver le numéro de suivi
facture et processus de production de vos PCB dans votre compte et
Commandez facilement plus de PCB de votre ancienne conception via le bouton de réorganisation sans avoir à télécharger à nouveau vos fichiers Gerber
Pour ces expériences, j'utiliserai deux
Espérons des panneaux solaires identiques avec une tension en circuit ouvert de 6 volts et une puissance de sortie maximale de 1 Watts
1 sera placé sur une surface plane tandis que l'autre sera monté sur un tracker solaire qui, comme son nom l'indique

Turkish: 
Umarım bu benim lehime sonuçlanır ve böylece bir kez daha huzur içinde uyuyayım
Başlayalım
[müzik]
Bu video JLCPCB tarafından desteklenmektedir. Takip numarasını kolayca bulabilirsiniz
hesabınızdaki PCB'lerinizin fatura ve üretim süreci ve
Gerber dosyalarınızı bir kez daha yüklemenize gerek kalmadan yeniden sipariş düğmesiyle eski tasarımınızın daha fazla PCB'sini kolayca sipariş edin
Bu deneyler için iki tane kullanacağım
Açık devre voltajı 6 volt ve maksimum 1 Watt çıkış gücüne sahip umarım özdeş güneş panelleri
1 düz bir yüzeye yerleştirilirken diğeri adından da anlaşılacağı gibi bir güneş izleyiciye monte edilecektir

English: 
Which will hopefully turn out in my favor and thus let me sleep at peace once again
Let's get started
[music]
This video is sponsored by JLCPCB one fact about them. You can easily find the tracking number
invoice and production process of your PCBs in your account and
Easily order more PCBs of your old design through the reorder button without having to upload your Gerber files once again
For this experiments I will be using two
Hopefully identical solar panels with an open circuit voltage of 6 volts and a maximum output power of 1 Watts
1 will be placed on a flat surface while the other one will be mounted to a solar tracker which like the name implies

Thai: 
ซึ่งหวังว่าจะเปิดออกในความโปรดปรานของฉันและทำให้ฉันนอนหลับอย่างสงบอีกครั้ง
มาเริ่มกันเลย
[เพลง]
วิดีโอนี้ได้รับการสนับสนุนโดย JLCPCB หนึ่งข้อเท็จจริงเกี่ยวกับพวกเขา คุณสามารถค้นหาหมายเลขติดตามได้อย่างง่ายดาย
ใบแจ้งหนี้และกระบวนการผลิต PCB ของคุณในบัญชีของคุณและ
สั่งซื้อ PCBs ของการออกแบบเก่าของคุณได้อย่างง่ายดายผ่านปุ่มสั่งซื้อใหม่โดยไม่ต้องอัปโหลดไฟล์ Gerber ของคุณอีกครั้ง
สำหรับการทดลองนี้ฉันจะใช้สองอย่าง
หวังว่าแผงเซลล์แสงอาทิตย์ที่เหมือนกันจะมีแรงดันไฟฟ้าวงจรเปิด 6 โวลต์และกำลังขับสูงสุด 1 วัตต์
1 จะถูกวางไว้บนพื้นผิวที่เรียบในขณะที่อีกอันหนึ่งจะถูกติดตั้งเข้ากับตัวติดตามแสงอาทิตย์ซึ่งเหมือนกับชื่อที่แสดงถึง

Portuguese: 
O que, esperançosamente, resultará em meu favor e, assim, me deixará dormir em paz mais uma vez
Vamos começar
[música]
Este vídeo é patrocinado pela JLCPCB, um fato sobre eles. Você pode encontrar facilmente o número de rastreamento
fatura e processo de produção de seus PCBs em sua conta e
Solicite facilmente mais PCBs do seu design antigo através do botão Reordenar sem precisar fazer upload dos seus arquivos Gerber novamente
Para essas experiências, usarei dois
Esperemos que painéis solares idênticos com uma tensão de circuito aberto de 6 volts e uma potência de saída máxima de 1 Watts
1 será colocado em uma superfície plana, enquanto o outro será montado em um rastreador solar que, como o nome indica

Italian: 
Che si spera si rivelerà a mio favore e quindi mi permetta di dormire di nuovo in pace
Iniziamo
[musica]
Questo video è sponsorizzato da JLCPCB un fatto su di loro. Puoi facilmente trovare il numero di tracciamento
fattura e processo di produzione dei tuoi PCB nel tuo account e
Ordina facilmente più PCB del tuo vecchio design tramite il pulsante di riordino senza dover caricare nuovamente i tuoi file Gerber
Per questi esperimenti ne userò due
Si spera che i pannelli solari identici con una tensione a circuito aperto di 6 volt e una potenza di uscita massima di 1 watt
1 verrà posizionato su una superficie piana mentre l'altro verrà montato su un inseguitore solare che come suggerisce il nome

Thai: 
ติดตามตำแหน่งของดวงอาทิตย์เพื่อเพิ่มกำลังไฟฟ้าสูงสุดของแผงเซลล์แสงอาทิตย์
พาเนลทั้งสองจะเชื่อมต่อกับเครื่องบันทึกกำลังไฟและโหลด
ซึ่งจะเปิดเผยในภายหลังว่าพลังงานของระบบติดตามแสงอาทิตย์ถูกเก็บไว้มากน้อยเพียงใดและ
ด้วยการดำเนินการทดสอบนี้จะอธิบาย เริ่มกันเลยโดยการสร้างโซล่าติดตาม
ในการเคลื่อนย้ายพาเนลในลักษณะเป็นวงกลมและในการเคลื่อนที่ในตัวเมืองผมไปกับระบบกลไกดินสอขนาดเล็ก
ออกแบบโดย fbuenonet
พิมพ์ชิ้นส่วนที่ต้องการสามปีด้วยเครื่องพิมพ์ 3 มิติของฉันซึ่งใช้เวลาประมาณ 4 ชั่วโมง
หลังจากนั้นฉันก็ประกอบแผ่นฐานกับไม้ด้วยสกรูที่เหลือและ
เตรียมพร้อมตัวเองไปสู่เซอร์โว SG90 ซึ่งจะใช้ในการเคลื่อนย้ายระบบทั้งหมด
ฉันวางตำแหน่งอุปกรณ์เสริมที่เหมาะสมของบิตในแผ่นฐานและเพิ่มมอเตอร์เข้าไป
ซึ่งจากนั้นครอบคลุมด้วยส่วนที่พิมพ์ 3 มิติที่สอง

Portuguese: 
Segue a posição do Sol para maximizar a potência do painel solar
Ambos os painéis serão conectados ao registrador de energia e cargas
que mais tarde revelará quanto mais energia o sistema rastreador solar coletou e
Com a execução deste experimento explica. Vamos começar construindo o rastreador solar
Para mover o painel de maneira circular e também em movimentos urbanos, fui com este sistema mecânico de mini lápis
Desenhado por fbuenonet
Imprimi as peças necessárias de três anos com minha impressora 3D, que levou cerca de 4 horas
Depois, montei as placas de base em um pedaço de madeira com alguns parafusos restantes e
Cheguei aos servos SG90, que serão usados ​​para mover todo o sistema.
Posicionei o acessório de montagem de brocas nas placas de base e adicionei o motor
Que até então coberto com as segundas peças impressas em 3d

French: 
Suit la position du soleil afin de maximiser les puissances de sortie du panneau solaire
Les deux panneaux seront connectés à l'enregistreur d'alimentation et aux charges
qui révélera plus tard combien d'énergie le système de suivi solaire a récolté et
Avec l'exécution de cette expérience explique. Commençons par construire le tracker solaire
Pour déplacer le panneau de manière circulaire et aussi dans un mouvement uptown je suis allé avec ce mini système mécanique de crayons
Créé par fbuenonet
Imprimé les pièces requises de trois ans avec mon imprimante 3D, ce qui a pris environ 4 heures
Ensuite, j'ai monté les plaques de base sur un morceau de bois avec des vis restantes et
Je me suis rendu aux servos SG90 qui seront utilisés pour déplacer l'ensemble du système.
J'ai positionné l'accessoire de montage des embouts dans les plaques de base et y ai ajouté le moteur
Qui a ensuite recouvert des deuxièmes pièces imprimées en 3D

Turkish: 
Güneş panelinin güç çıkışlarını en üst düzeye çıkarmak için Güneş'in konumunu takip eder
Her iki panel de güç kayıt cihazına ve yüklere bağlanır
daha sonra güneş takip sisteminin ne kadar daha fazla enerji topladığını ve
Bu deneyin yürütülmesiyle açıklar. Güneş izleyiciyi oluşturarak başlayalım
Paneli dairesel bir şekilde hareket ettirmek ve aynı zamanda bir şehir dışı hareketlerde bu mini kalem mekanik sistemiyle gittim
Tasarım fbuenonet
Yaklaşık 4 saat süren 3d yazıcımla üç yıllık gerekli parçaları yazdırdı
Daha sonra, taban plakalarını kalan vidalarla bir parça tahtaya monte ettim ve
Kendimi, tüm sistemi hareket ettirmek için kullanılacak olan SG90 servosuna aldım.
I Uç plakalarının montaj aksesuarını taban plakalarına yerleştirin ve motoru
Daha sonra ikinci 3d baskılı parçalarla kaplanır

Italian: 
Segue la posizione del sole al fine di massimizzare le uscite di potenza del pannello solare
Entrambi i pannelli saranno collegati al power logger e ai carichi
che rivelerà in seguito quanta più energia ha raccolto il sistema di localizzazione solare
Con l'esecuzione di questo esperimento spiega. Cominciamo costruendo il localizzatore solare
Per spostare il pannello in modo circolare e anche nei movimenti dei quartieri alti sono andato con questo sistema meccanico mini matite
Progettato da fbuenonet
Ho stampato le parti richieste per tre anni con la mia stampante 3d che ha impiegato circa 4 ore
Successivamente, ho montato le piastre di base su un pezzo di legno con alcune viti rimanenti e
Sono arrivato ai servi SG90 che verranno utilizzati per spostare l'intero sistema.
Ho posizionato l'accessorio di montaggio delle punte nelle piastre di base e ho aggiunto il motore ad esso
Che poi coperto con le seconde parti stampate in 3d

English: 
Follows the position of the Sun in order to maximize the power outputs of the solar panel
Both panels will be connected to power logger and loads
which will later reveal how much more energy the solar tracker system harvested and
With the execution of this experiment explains. Let's get started by building the solar tracker
To move the panel in a circular manner and also in an uptown movements I went with this mini pencils mechanical system
Designed by fbuenonet
Printed the three-year required parts with my 3d printer which took around 4 hours
Afterwards, I mounted the base plates to a piece of woods with some leftover screws and
Got myself to SG90 servos which will be used to move the whole system.
I Positioned the fitting accessory of bits in the base plates and added the motor to it
Which by then covered with the second 3d printed parts

Thai: 
ในการฉันยังเพิ่มส่วนเสริมของเซอร์โว
ติดตั้งเซอร์โวตัวที่สองเป็นที่สามและครั้งสุดท้าย
ชิ้นส่วนที่พิมพ์ 3 มิติด้วยสกรูแล้วในที่สุดก็เสร็จสิ้น
ระบบกลไกโดยการรวมสองชิ้นกับสกรูเพิ่มเติมและ
อย่างที่คุณเห็นความเคลื่อนไหวของโซล่าติดตามนั้นเป็นไปได้
แต่แน่นอนว่าสำหรับเซอร์โวเราต้องการสัญญาณไฟฟ้าเพื่อเคลื่อนย้ายมันตามนั้น
เพราะฉันสร้างแผนผังขนาดเล็กนี้ซึ่งมีส่วนประกอบที่ฉันเชื่อมต่อซึ่งกันและกันในชิ้นส่วนของ perfboard
และเมื่อฉันเข้าใกล้จนจบวงจร
ฉันสังเกตเห็นว่าองค์ประกอบที่สำคัญที่สุดที่ตัวต้านทานภาพถ่ายยังไม่ได้ใช้อย่างถูกต้อง
ในกรณีที่คุณสงสัยว่าตัวต้านทานภาพถ่ายเป็นเหมือนชื่อที่แสดงถึงตัวต้านทาน
จะเปลี่ยนเป็นแนวต้านตามปริมาณแสงที่กระทบ
พร้อมแสงไฟมากมาย เราได้ความต้านทานเล็กน้อยและในความมืดเราได้ความต้านทานสูง

Turkish: 
Ben de servo aksesuar parçası ekledi
İkinci servoyu üçüncü ve sonuncuya monte etti
Vidalar ile 3D baskılı parçalar ve daha sonra
iki parçayı ek bir vida ile birleştirerek mekanik sistem ve
Gördüğünüz gibi güneş izleyicinin hareketi mümkün oldu
Ama elbette servolar için, bunları uygun şekilde hareket ettirmek için bir elektrik sinyaline ihtiyacımız var
bunun için bileşenlerini bir perfboard parçası üzerinde birbirine bağladığım bu küçük şemayı yarattım
ve bir keresinde devreleri bitirmeye yaklaşıyordum
Fotoğraf dirençlerinin en önemli bileşenlerinin henüz düzgün kullanılmadığını fark ettim
Merak ediyorsanız, fotoğraf dirençleri adın benzer olduğunu ima ediyor.
Onlara ne kadar ışık vurduğuna göre dirence değişecekti
Birçok ışıkla. Küçük bir dirence sahibiz ve karanlıkta yüksek bir dirence sahibiz.

French: 
À son j'ai également ajouté une partie accessoire du servo
Monté le deuxième servo au troisième et dernier
Pièces imprimées en 3D avec des vis, puis enfin terminé le
système mécanique en combinant les deux pièces avec une vis supplémentaire et
Comme vous pouvez le voir, le mouvement du tracker solaire était possible
Mais bien sûr pour les servos, nous avons besoin d'un signal électrique pour les déplacer en conséquence
pour cela j'ai créé ce petit schéma dont j'ai relié les composants les uns aux autres sur un morceau de perfboard
et une fois que je m'approchais de finir les circuits
J'ai remarqué que les composants les plus importants des photorésistances n'étaient pas encore correctement utilisés
Si vous vous demandez si les résistances photo sont comme leur nom l'indique, les résistances
Changerait la résistance en fonction de la quantité de lumière qui les frappe
Avec beaucoup de lumières. Nous avons obtenu une petite résistance et dans l'obscurité, nous avons obtenu une résistance élevée.

Italian: 
Alla sua ho anche aggiunto una parte accessoria del servo
Montato il secondo servo sul terzo e ultimo
Parti stampate in 3d con viti e infine completato il
sistema meccanico combinando i due pezzi con una vite aggiuntiva e
Come puoi vedere, il movimento del localizzatore solare era possibile
Ma ovviamente per i servi, abbiamo bisogno di un segnale elettrico per spostarli di conseguenza
per questo ho creato questo piccolo schema i cui componenti sono stati collegati tra loro su un pezzo di perfboard
e una volta mi stavo avvicinando alla fine dei circuiti
Ho notato che i componenti più importanti dei resistori fotografici non erano ancora stati utilizzati correttamente
Nel caso ti stia chiedendo, i resistori fotografici sono come il nome implica resistori
Cambierebbe alla resistenza in base a quanta luce li colpisce
Con molte luci. Abbiamo avuto una piccola resistenza e nell'oscurità abbiamo avuto un'alta resistenza.

Portuguese: 
Também adicionei uma parte acessória do servo
Montou o segundo servo no terceiro e último
Peças impressas em 3D com parafusos e, finalmente, completou o
sistema mecânico combinando as duas peças com um parafuso adicional e
Como você pode ver, o movimento do rastreador solar foi possível
Mas é claro que para os servos, precisamos de um sinal elétrico para movê-los de acordo
por isso criei este pequeno esquema cujos componentes eu me conectei em um pedaço de perfboard
e uma vez eu estava chegando perto de terminar os circuitos
Notei que os componentes mais importantes que os foto-resistores ainda não haviam sido utilizados adequadamente
Caso você esteja se perguntando, os resistores de foto são como o nome indica resistores
Mudaria para a resistência de acordo com a quantidade de luz que os atinge
Com muitas luzes. Temos uma pequena resistência e, no escuro, uma alta resistência.

English: 
To its I also added an accessory part of the servo
Mounted the second servo to the third and last
3d printed parts with screws and then finally completed the
mechanical system by combining the two pieces with an additional screw and
As you can see the movement of the solar tracker was possible
But of course for the servos, we need an electrical signal to move them accordingly
for that I created this small schematic whose components I connected to one another on a piece of perfboard
and Once I was getting close to finishing the circuits
I noticed that the most important components the photo resistors were not properly utilized yet
In case you're wondering photo resistors are like the name implies resistors
Would change to the resistance according to how much light hits them
With lots of lights. We got a small resistance and in darkness, we got a high resistance.

Italian: 
Volevo montarne quattro su una parete circolare del tetto divisa in segmenti
in modo che, ad esempio, quando il lato sinistro è scuro, i motori ruotano il sistema in senso orario e
Se il lato inferiore immagazzina i motori, spostare il pannello solare verso l'alto
In questo modo il sistema seguirà sempre la sorgente luminosa più luminosa
così ho costruito un oggetto circolare descritto nel disegno 1 2 3 D e
Ancora una volta ho usato la mia stampante 3d per crearla
Successivamente, allargo i fori per i conduttori del fotoresistenza, li spingo in posizione e li fisso tutti con un po 'di colla a caldo
Ora per montare il pannello solare e la configurazione del fotoresistenza sul sistema meccanico
Ho creato un pezzo di plastica espansa di undici per nove punti e cinque centimetri
A cui ho innanzitutto fissato il pannello solare con colla a caldo
Dopo aver venduto i nostri due fili ai suoi terminali
poi ho creato un foro di 24 centimetri nella parte superiore della schiuma plastica e

Thai: 
ฉันต้องการที่จะติดตั้งสี่ของพวกเขาบนผนังหลังคาวงกลมแบ่งส่วน
ตัวอย่างเช่นเมื่อด้านซ้ายมืดมอเตอร์หมุนระบบตามเข็มนาฬิกาและ
หากสต็อกด้านล่างมอเตอร์จะเลื่อนแผงโซลาร์เซลล์ขึ้นด้านบน
วิธีนี้ระบบจะติดตามแหล่งกำเนิดแสงที่สว่างที่สุดเสมอ
ดังนั้นฉันจึงสร้างวัตถุทรงกลม d ที่อธิบายไว้ในการออกแบบ 1 2 3 D และ
ใช้เครื่องพิมพ์ 3 มิติของฉันอีกครั้งเพื่อสร้าง
หลังจากนั้นฉันก็ขยายรูเพื่อนำไปสู่ ​​photoresistor ดันพวกมันเข้าที่และยึดพวกมันทั้งหมดด้วยกาวร้อนเล็กน้อย
ตอนนี้ติดตั้งแผงโซลาร์เซลล์และการติดตั้ง photoresistor ไปยังระบบกลไก
ฉันสร้างพลาสติกโฟมที่สิบเอ็ดจุดเก้าจุดห้าเซนติเมตร
ก่อนอื่นฉันต้องยึดแผงโซล่าร์ด้วยกาวร้อน
หลังจากที่ฉันขายสายไฟทั้งสองไปยังเทอร์มินัลแล้ว
จากนั้นฉันสร้างรูขนาด 24 เซนติเมตรที่ส่วนบนของพลาสติกโฟมและ

Turkish: 
Bunlardan dördünü daire çatı duvarına bölünmüş bölümlere monte etmek istedim
böylece sol taraf karanlık olduğunda motorlar sistemi saat yönünde döndürür ve
Alt taraf stoku motorlar güneş panelini yukarı hareket ettirirse
Bu şekilde sistem her zaman en parlak ışık kaynağını takip eder
bu yüzden 1 2 3 D tasarımında tarif edilen dairesel nesne yaptım ve
Bir kez daha 3d yazıcımı oluşturmak için kullandım
Daha sonra, fotodirenç kabloları için delikleri büyütüyorum, onları yerine itin ve biraz sıcak tutkalla sabitleyin
Şimdi güneş panelini ve fotodirenç kurulumunu mekanik sisteme monte etmek
Dokuz puan beş santimetre köpüklü plastik parçası yarattım
İlk önce güneş panelini sıcak tutkalla sabitledim
İki telimizi terminallerine sattıktan sonra
sonra köpük plastiğin üst kısmında 24 santimetre delik açtım ve

Portuguese: 
Eu queria montar quatro deles em segmentos divididos em uma parede de teto circular
de modo que, por exemplo, quando o lado esquerdo está escuro, os motores giram o sistema no sentido horário e
Se o lado inferior estocar os motores, mova o painel solar para cima
Dessa forma, o sistema sempre seguirá a fonte de luz mais brilhante
então eu construí d descrito objeto circular em 1 2 3 D design e
Mais uma vez usei minha impressora 3d para criá-la
Depois, amplio os orifícios dos fios fotorresistentes, empurro-os e prendo-os com um pouco de cola quente
Agora, para montar o painel solar e a configuração do fotoresistor no sistema mecânico
Eu criei um pedaço de onze por nove pontos e cinco centímetros de espuma de plástico
Ao qual prendi o painel solar com cola quente
Depois que eu vendi nossos dois fios para seus terminais
então eu criei um buraco de 24 centímetros na seção superior do plástico de espuma e

English: 
I wanted to mount four of them on a circle roof wall divided segments
so that for example when the left side is dark the motors rotate the system clockwise and
If the lower side stock the motors move the solar panel upwards
This way the system will always follow the brightest light source
so I constructed d described circular object in 1 2 3 D design and
Once again used my 3d printer to create it
Afterwards, I enlarge the holes for the photoresistor leads push them in place and secure them all with a bit of hot glue
Now to mount the solar panel and the photoresistor setup to the mechanical system
I created an eleven by nine point five centimeter piece of foam plastic
To which I firstly secured the solar panel with hot glue
After I sold our two wires to its terminals
then I created a 24 centimeter hole in the top section of the foam plastic and

French: 
Je voulais monter quatre d'entre eux sur un mur de toit en cercle divisé en segments
de sorte que, par exemple, lorsque le côté gauche est sombre, les moteurs tournent le système dans le sens horaire et
Si le côté inférieur stock les moteurs déplacent le panneau solaire vers le haut
De cette façon, le système suivra toujours la source de lumière la plus brillante
donc j'ai construit d objet circulaire décrit dans la conception 1 2 3 D et
Encore une fois, j'ai utilisé mon imprimante 3D pour la créer
Ensuite, j'agrandis les trous pour les fils de la photorésistance, les pousse en place et les sécurise tous avec un peu de colle chaude
Maintenant, montez le panneau solaire et la configuration de la photorésistance sur le système mécanique
J'ai créé un morceau de onze par neuf virgule cinq centimètres de plastique mousse
À laquelle j'ai d'abord fixé le panneau solaire avec de la colle chaude
Après avoir vendu nos deux fils à ses bornes
puis j'ai créé un trou de 24 centimètres dans la partie supérieure du plastique mousse et

English: 
Secured the photoresistor set up there with hot glue as well
to complete the solar tracker
I added wires to the photo resistors
Which I then connected to the perfboard circuits and secured the fantastic to the mechanical system with hot glue
Along with the 1 kilo Ohm resistors,  the photo resistors build up a voltage divider
Which creates a high voltage when the photo resistor stark and a low voltage when it is illuminated
So after connecting these servos to the circuits and powering it with a 5v power source. It was time for programming
in a nutshell, I utilized the timer one of the arduino
atmega328p microcontroller
in order to generate servo compatible pwm signals
which are constantly alter depending on whether the lower upper left or right side of the photo resistor setup is
illuminated and

Thai: 
ติดตั้ง photoresistor ไว้ที่นั่นด้วยกาวร้อนเช่นกัน
เพื่อติดตามแสงอาทิตย์
ฉันเพิ่มสายเข้ากับตัวต้านทานภาพถ่าย
ซึ่งฉันเชื่อมต่อกับวงจร perfboard และรักษาความปลอดภัยให้กับระบบกลไกด้วยกาวร้อน
พร้อมกับตัวต้านทาน 1 กิโลโอห์มตัวต้านทานภาพถ่ายจะสร้างตัวแบ่งแรงดัน
ซึ่งจะสร้างแรงดันไฟฟ้าสูงเมื่อตัวต้านทานภาพถ่ายเริ่มต้นและแรงดันไฟฟ้าต่ำเมื่อส่องสว่าง
ดังนั้นหลังจากเชื่อมต่อเซอร์โวเหล่านี้เข้ากับวงจรและจ่ายไฟกับแหล่งจ่ายไฟ 5v ถึงเวลาสำหรับการเขียนโปรแกรม
สรุปฉันใช้ตัวจับเวลาเป็นหนึ่งใน arduino
ไมโครคอนโทรลเลอร์ atmega328p
เพื่อสร้างสัญญาณ pwm ที่ใช้งานได้กับเซอร์โว
ซึ่งเปลี่ยนแปลงอยู่ตลอดเวลาขึ้นอยู่กับว่าด้านล่างซ้ายหรือขวาของการตั้งค่าตัวต้านทานภาพถ่าย
ส่องสว่างและ

Portuguese: 
Fixou o fotorresistor montado lá com cola quente também
para completar o rastreador solar
Adicionei fios aos resistores fotográficos
Que então liguei aos circuitos da perfboard e prendi o fantástico ao sistema mecânico com cola quente
Juntamente com os resistores de 1 quilo Ohm, os foto-resistores constroem um divisor de tensão
O que cria uma alta voltagem quando o resistor fotográfico é forte e uma baixa voltagem quando é iluminado
Então, depois de conectar esses servos aos circuitos e alimentá-lo com uma fonte de energia de 5v. Estava na hora de programar
em poucas palavras, usei o timer um do arduino
microcontrolador atmega328p
para gerar sinais pwm servo-compatíveis
que são alteradas constantemente, dependendo do lado inferior esquerdo ou direito superior da configuração do resistor de foto.
iluminado e

Italian: 
Assicurato anche il fotoresistor installato lì con colla a caldo
per completare il localizzatore solare
Ho aggiunto dei fili ai resistori fotografici
Che ho quindi collegato ai circuiti del perfboard e fissato il fantastico al sistema meccanico con colla a caldo
Insieme ai resistori da 1 kg Ohm, i resistori foto creano un divisore di tensione
Ciò crea un'alta tensione quando la resistenza della foto è rigida e una bassa tensione quando è illuminata
Quindi dopo aver collegato questi servi ai circuiti e averlo alimentato con una fonte di alimentazione 5v. Era tempo di programmare
in poche parole, ho usato il timer uno dell'arduino
microcontrollore atmega328p
per generare segnali pwm servo compatibili
che vengono costantemente modificati a seconda che si tratti del lato inferiore sinistro o destro inferiore dell'impostazione del resistore fotografico
illuminato e

Turkish: 
Orada sıcak tutkal ile ayarlanan fotodirenç sabitlendi
güneş izleyiciyi tamamlamak için
Fotoğraf dirençlerine kablo ekledim
Daha sonra perfboard devrelerine bağladım ve fantastik sıcak tutkal ile mekanik sisteme güvence verdim
1 kilo Ohm dirençlerle birlikte, fotoğraf dirençler bir voltaj bölücü oluşturur
Bu, foto direnç açıldığında yüksek bir voltaj ve yandığında düşük bir voltaj oluşturur
Bu servoları devrelere bağladıktan ve 5v güç kaynağıyla çalıştırdıktan sonra. Programlamanın zamanı gelmişti
Özetle, ben zamanlayıcı arduino birini kullandım
atmega328p mikrodenetleyici
servo uyumlu pwm sinyalleri üretmek için
bunlar, fotoğraf direnci kurulumunun alt sol veya sağ alt tarafına bağlı olarak sürekli değişir
aydınlatılmış ve

French: 
Sécurisé également la photorésistance installée là-bas avec de la colle chaude
pour compléter le tracker solaire
J'ai ajouté des fils aux photorésistances
Que j'ai ensuite connecté aux circuits de perfboard et fixé le fantastique au système mécanique avec de la colle chaude
Avec les résistances de 1 kilo ohm, les photorésistances constituent un diviseur de tension
Ce qui crée une haute tension lorsque la photorésistance est rigide et une basse tension lorsqu'elle est éclairée
Donc, après avoir connecté ces servos aux circuits et l'avoir alimenté avec une source d'alimentation 5v. Il était temps de programmer
en un mot, j'ai utilisé la minuterie de l'arduino
microcontrôleur atmega328p
afin de générer des signaux pwm compatibles servo
qui changent constamment selon que le côté inférieur supérieur gauche ou droit de la configuration de la photorésistance est
illuminé et

Portuguese: 
Depois de carregar os códigos, testei a configuração de uma lanterna
O que parece funcionar sem problemas, o que significa que estava na hora de concluir a configuração experimental com o meu power logger.
Eu construí este em um vídeo do projeto anterior
Portanto, fique à vontade para assistir se quiser entender como funciona ou se deseja criar um para si mesmo
mesmo assim, depois de conectar o registrador ao painel solar desmontado restante, eu
Um potenciômetro conectado é carregado para determinar o ponto de potência máximo do sistema
Que, de acordo com meus cálculos, deve ser alcançado com uma resistência de cerca de 3150 ohms
Mas como nunca atingiríamos a potência máxima em um nível de brilho mais alto com esse resistor
Eu o substituí por resistores de 4.200 Ohm em paralelo
Que deve ser capaz de nos aproximar de 1 watts

French: 
Après avoir téléchargé les codes, j'ai testé la configuration d'une lampe de poche
Ce qui semble fonctionner sans aucun problème, ce qui signifie qu'il était temps de terminer la configuration expérimentale avec mon enregistreur d'alimentation.
J'ai construit celui-ci dans une vidéo de projet précédente
Alors n'hésitez pas à le regarder si vous voulez comprendre comment ça marche ou si vous voulez en créer un pour vous
de toute façon, après avoir connecté l'enregistreur au panneau solaire non monté restant, je
Connecté un potentiomètre aux charges afin de déterminer le point de puissance maximum du système
Ce qui selon mes calculs devrait être atteint avec une résistance d'environ 3150 ohms
Mais puisque nous n'atteindrions jamais la puissance maximale à un niveau de luminosité plus élevé avec cette résistance
Je l'ai plutôt remplacé par 4 résistances 200 Ohm en parallèle
Qui devrait pouvoir nous rapprocher de 1 watts

Thai: 
หลังจากอัปโหลดรหัสฉันทดสอบการตั้งค่าของไฟฉาย
ซึ่งดูเหมือนว่าจะทำงานได้โดยไม่มีปัญหาใด ๆ ซึ่งหมายความว่าถึงเวลาแล้วที่จะต้องทำการตั้งค่าการทดลองด้วย power logger ของฉัน
ฉันสร้างวิดีโอนี้ในวิดีโอโปรเจ็กต์ก่อนหน้า
ดังนั้นอย่าลังเลที่จะดูมันถ้าคุณต้องการที่จะเข้าใจว่ามันทำงานอย่างไรหรือถ้าคุณต้องการที่จะสร้างมันขึ้นมาสำหรับตัวคุณเอง
ต่อไปหลังจากเชื่อมต่อตัวบันทึกกับแผงโซลาร์เซลล์ที่ยังไม่ได้ต่อเชื่อมฉัน
เชื่อมต่อกับโพเทนชิออมิเตอร์โหลดเพื่อกำหนดจุดพลังงานสูงสุดของระบบ
ซึ่งตามการคำนวณของฉันควรจะบรรลุด้วยความต้านทานประมาณ 3150 โอห์ม
แต่เนื่องจากเราไม่สามารถเข้าถึงพลังงานสูงสุดที่ระดับความสว่างที่สูงขึ้นด้วยตัวต้านทานนี้
ฉันค่อนข้างจะแทนที่ด้วยตัวต้านทาน 4, 200 โอห์มในแบบคู่ขนาน
ซึ่งควรจะได้รับเราใกล้ 1 วัตต์

English: 
After uploading the codes I tested the setup of a flashlight
Which seems to work without any problems, which means it was time to complete the experimental setup with my power logger.
I built this one in a previous project video
So feel free to watch it if you want to understand how it works or if you want to create one for yourself
anyway, after connecting the logger to the remaining unmounted solar panel, I
Connected a potentiometer loads in order to determine the maximum power point of the system
Which according to my calculations should be reached with a resistance of around 3150 ohms
But since we would never reach the maximum power at a higher brightness level with this resistor
I rather replaced it with 4 , 200 Ohm resistors in parallel
Which should be able to get us close to 1 watts

Italian: 
Dopo aver caricato i codici ho testato l'installazione di una torcia
Il che sembra funzionare senza problemi, il che significa che era tempo di completare la configurazione sperimentale con il mio Power Logger.
L'ho costruito in un precedente video di progetto
Quindi sentiti libero di guardarlo se vuoi capire come funziona o se vuoi crearne uno per te stesso
comunque, dopo aver collegato il logger al rimanente pannello solare non montato, I
Collegato un potenziometro carica per determinare il punto di massima potenza del sistema
Che secondo i miei calcoli dovrebbe essere raggiunto con una resistenza di circa 3150 ohm
Ma dal momento che questo resistore non raggiungerebbe mai la massima potenza a un livello di luminosità più elevato
L'ho piuttosto sostituito con 4 resistori da 200 Ohm in parallelo
Il che dovrebbe essere in grado di avvicinarci a 1 watt

Turkish: 
Kodları yükledikten sonra bir el feneri kurulumunu test ettim
Bu da sorunsuz çalışıyor gibi görünüyor, bu da güç kayıt cihazımla deney kurulumunu tamamlamanın zamanı geldi.
Bunu daha önceki bir proje videosunda yaptım
Bu yüzden nasıl çalıştığını anlamak istiyorsanız veya kendiniz için bir tane oluşturmak istiyorsanız izlemekte çekinmeyin
her neyse, kaydediciyi kalan monte edilmemiş güneş paneline bağladıktan sonra,
Sistemin maksimum güç noktasını belirlemek için bir potansiyometre yükü bağlandı
Hesaplamalarıma göre yaklaşık 3150 ohm'luk bir dirençle ulaşılmalıdır
Ancak bu dirençle asla daha yüksek bir parlaklık seviyesinde maksimum güce ulaşamayacağımız için
Paralel olarak 4, 200 Ohm direnç ile değiştirdim
Bizi 1 watt'a yaklaştırabilmeli

Thai: 
นั่นหมายความว่าการติดตั้งแผงโซลาร์แบนนั้นเสร็จสมบูรณ์ แต่น่าเศร้าที่ต้องทำการวัดทั้งสองในเวลาเดียวกัน
ฉันต้องสร้าง power logger ตัวที่สองสำหรับตัวติดตามแสงอาทิตย์ซึ่งใช้เวลาค่อนข้างนาน
แต่เมื่อทำเสร็จแล้วฉันก็กระแทกแผงโซล่าร์เซลล์แสงอาทิตย์จนถึงตัวบันทึกพลังงานพร้อมกับ 50
โอห์มโหลดและเริ่มการทดลองกลางแจ้ง
ตอนนี้ฉันปล่อยให้ทั้งสองระบบสร้างพลังงานไฟฟ้าจากพลังงานแสงอาทิตย์ประมาณ 2.5 ชั่วโมง
ในขณะที่ตรวจสอบให้แน่ใจว่าระบบล็อคข้อมูลทั้งหมดลงในการ์ด SD และ
ตัวติดตามแสงอาทิตย์นั้นติดตามการเคลื่อนไหวของดวงอาทิตย์และ
หลังจากที่รอมานานแผงโซล่าร์เซลล์แบนก็ให้พลังงานทั้งหมดเท่ากับ
10,345 มิลลิวัตต์ชั่วโมงในขณะที่แผงโซล่าร์ติดตามแสงอาทิตย์ส่งมอบประมาณ
11891 มิลลิวัตต์ชั่วโมง
นั่นคือความแตกต่างของพลังงานมากขึ้น 15% ซึ่งไม่เลว

Italian: 
Ciò significa che l'installazione del pannello solare piatto è stata completata ma purtroppo per condurre entrambe le misurazioni contemporaneamente
Ho dovuto creare un secondo registratore di potenza per il localizzatore solare che ha richiesto un bel po 'di tempo
Ma una volta fatto, ho agganciato il pannello solare di tracciamento solare al registratore di potenza insieme al 50
Ohm carica e ha iniziato gli esperimenti all'aperto
Ora lascio che i due sistemi creino energia elettrica dall'energia solare per circa 2,5 ore
assicurandosi che i sistemi bloccassero tutti i dati sulla scheda SD e
il localizzatore solare segue veramente i movimenti del sole e
Dopo aver atteso così a lungo, il pannello solare piatto ha fornito un'energia totale di
10.345 milliwattora mentre il pannello solare di tracciamento solare ha consegnato circa
11891 milli wattora
Questa è una differenza del 15% in più di energia, che non è poi così male

English: 
That means the flat solar panel setup was complete but sadly in order to conduct both measurements at the same time
I had to create a second power logger for the solar tracker which took quite a bit of time
But once that was done, I hocked the solar tracking solar panel up to the power logger along with the 50
Ohm loads and started the outdoor experiments
Now I let the two systems create electrical energy from solar energy for around 2.5 hours
while making sure that the systems locked all the data onto the SD card and
the solar tracker are truly followed the sun's movements and
After waiting for that long, the flat solar panel delivered a total energy of
10,345 milliwatt hours while the solar tracking solar panel delivered about
11891 milli watt hours
That is a difference of 15% more energy, which is not that bad of

Portuguese: 
Isso significa que a configuração do painel solar plano foi concluída, mas infelizmente, para realizar as duas medições ao mesmo tempo
Eu tive que criar um segundo registrador de energia para o rastreador solar, o que levou bastante tempo
Mas uma vez feito isso, coloquei o painel solar de rastreamento solar no registrador de energia junto com os 50
Ohm carrega e inicia os experimentos ao ar livre
Agora deixo os dois sistemas criarem energia elétrica a partir da energia solar por cerca de 2,5 horas
certificando-se de que os sistemas travaram todos os dados no cartão SD e
o rastreador solar é realmente seguido os movimentos do sol e
Depois de esperar tanto tempo, o painel solar plano forneceu uma energia total de
10.345 miliwatts / hora, enquanto o painel solar de rastreamento solar
11891 milli watt horas
Essa é uma diferença de 15% a mais de energia, o que não é tão ruim assim.

Turkish: 
Bu, düz güneş paneli kurulumunun tamamlandığı, ancak her iki ölçümü aynı anda yapmak için ne yazık ki tamamlandığı anlamına gelir.
Güneş izleyici için biraz zaman alan ikinci bir güç kaydedici oluşturmak zorunda kaldım
Ama bu yapıldıktan sonra, güneş izleme güneş panelini 50 ile birlikte kaydediciye bağladım.
Ohm yükler ve açık hava deneylerini başlattı
Şimdi iki sistemin yaklaşık 2,5 saat güneş enerjisinden elektrik enerjisi üretmesine izin verdim
sistemlerin tüm verileri SD karta kilitlediğinden ve
güneş izci gerçekten güneşin hareketlerini takip ve
Bu kadar bekledikten sonra, düz güneş paneli toplam enerji
Güneş izleme güneş paneli yaklaşık 10.345 miliwatt saat
11891 milli watt saat
Bu% 15 daha fazla enerji farkı, ki bu kötü değil

French: 
Cela signifie que la configuration du panneau solaire plat était terminée, mais malheureusement pour effectuer les deux mesures en même temps
J'ai dû créer un deuxième enregistreur de puissance pour le tracker solaire, ce qui a pris pas mal de temps
Mais une fois cela fait, j'ai jeté le panneau solaire de suivi solaire jusqu'à l'enregistreur de puissance avec le 50
Ohm se charge et a commencé les expériences en plein air
Maintenant, je laisse les deux systèmes créer de l'énergie électrique à partir de l'énergie solaire pendant environ 2,5 heures
tout en s'assurant que les systèmes ont verrouillé toutes les données sur la carte SD et
le tracker solaire sont vraiment suivis des mouvements du soleil et
Après avoir attendu aussi longtemps, le panneau solaire plat a fourni une énergie totale de
10 345 milliwattheures tandis que le panneau solaire de suivi solaire a livré environ
11891 milli watt heures
C'est une différence de 15% d'énergie en plus, ce qui n'est pas si mal

Italian: 
Ovviamente dobbiamo tenere a mente che questo esperimento, piuttosto breve, è stato eseguito verso mezzogiorno
Non utilizzava metodi MPPT e il localizzatore solare era limitato nei suoi movimenti
Ma poiché sappiamo che l'angolo del sole di soli 45 gradi può ridurre la potenza erogata del 30%
Possiamo supporre che durante il giorno specialmente durante la mattina e la sera
Il mio pannello solare potrebbe perdere circa il 20-30% della possibile energia solare
Qual è l'effetto che d'ora in poi devo convivere
Tuttavia. Spero che tu abbia imparato qualcosa sui sistemi fotovoltaici attraverso questo video
In tal caso, non dimenticare di condividere Mi piace e iscriviti
Sii creativo e ci vediamo la prossima volta!

Turkish: 
Tabii ki, bu deneyin oldukça kısa olduğunu unutmamalıyız.
MPPT yöntemleri kullanılmadı ve güneş izleyicisi hareketlerinde sınırlıydı
Ancak bildiğimiz için sadece 45 derecelik Güneş açısı güç çıkışını% 30 azaltabilir
Gündüzleri özellikle sabah ve akşam saatlerinde varsayabiliriz.
Güneş panelim olası güneş enerjisinin yaklaşık% 20 ila 30'unda eksik olabilir
Şu andan itibaren yaşamak zorunda olduğum etki
Yine. Umarım bu video aracılığıyla fotovoltaik sistemler hakkında biraz bilgi edersiniz
Öyleyse, Paylaşmayı ve abone olmayı sevmeyi unutmayın
Yaratıcı kalın, bir dahaki sefere görüşürüz!

Thai: 
หลักสูตรที่เราต้องจำไว้ว่าการทดลองนี้ค่อนข้างสั้นถูกดำเนินการประมาณเที่ยง
ไม่ได้ใช้วิธี MPPT และตัวติดตามแสงอาทิตย์ถูก จำกัด ในการเคลื่อนที่
แต่เนื่องจากเรารู้ว่ามุมของดวงอาทิตย์เพียง 45 องศาสามารถลดกำลังงานลงได้ 30%
เราสามารถสันนิษฐานได้ว่าตลอดทั้งวันโดยเฉพาะในช่วงเช้าและเย็น
แผงโซล่าร์ของฉันอาจหายไปประมาณ 20 ถึง 30% ของพลังงานแสงอาทิตย์ที่เป็นไปได้
ซึ่งมีผลกระทบต่อจากนี้ไปที่ฉันต้องมีชีวิตอยู่ด้วย
แต่ถึงอย่างไร. ฉันหวังว่าคุณจะได้เรียนรู้เล็กน้อยเกี่ยวกับระบบไฟฟ้าโซลาร์เซลล์ผ่านวิดีโอนี้
ถ้าเป็นเช่นนั้นอย่าลืมกดไลค์แชร์และสมัครสมาชิก
ใช้ความคิดสร้างสรรค์และฉันจะพบคุณในครั้งต่อไป!

Portuguese: 
É claro que devemos ter em mente que esse experimento foi bastante curto e foi executado por volta do meio-dia
Não utilizou métodos MPPT e o rastreador solar foi limitado em seus movimentos
Mas como sabemos que o ângulo do Sol de apenas 45 graus pode diminuir a potência em 30%
Podemos assumir que durante o dia, especialmente durante a manhã e a noite
Meu painel solar pode estar perdendo cerca de 20 a 30% da energia solar possível
Qual é o efeito que a partir de agora eu tenho que viver com
Mesmo assim. Espero que você tenha aprendido um pouco sobre sistemas fotovoltaicos através deste vídeo
Nesse caso, não esqueça de curtir compartilhar e se inscrever
Seja criativo e até a próxima!

English: 
Course we have to keep in mind that this experiment was rather short was executed around noon
Did not utilized an MPPT methods and the solar tracker was limited in its movements
But since we know that the Sun angle of only 45 degrees can decrease the power output by 30%
We can assume that through the day especially during the morning and evening time
My solar panel might be missing out on around 20 to 30% of the possible solar energy
Which is affect that from now on I have to live with
Nevertheless. I hope you learned a little bit about photovoltaic systems through this video
If so, don't forget to Like share and subscribe
Stay creative, and I will see you next time!

French: 
Bien sûr, nous devons garder à l'esprit que cette expérience a été plutôt courte a été exécutée vers midi
N'a pas utilisé de méthodes MPPT et le tracker solaire était limité dans ses mouvements
Mais puisque nous savons que l'angle solaire de seulement 45 degrés peut diminuer la puissance de 30%
Nous pouvons supposer que tout au long de la journée, en particulier le matin et le soir
Mon panneau solaire pourrait manquer environ 20 à 30% de l'énergie solaire possible
Ce qui affecte que je dois désormais vivre avec
Néanmoins. J'espère que vous avez appris un peu sur les systèmes photovoltaïques à travers cette vidéo
Si oui, n'oubliez pas d'aimer partager et de vous abonner
Restez créatif et je vous verrai la prochaine fois!
