Batteries in series and parallel, voltage and current

06 May.,2024

 

Batteries in series and parallel, voltage and current

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Could somebody please explain how batteries in series increase voltage? For example:

For example, here, the left most battery increases the voltage from 0v to 12v, then the middle battery increases the 12v to 24v and the right most increases the 24v to 36v. How does the middle battery actually increase the voltage coming in from the from the left of it by 12?

I've looked up how batteries work online, all the animations and videos show how current flows from the negative terminal of the battery to the positive terminal of the same battery.

Okay, but how does this arrangement work when two batteries are next to each other? And why does this increase voltage, but not current? Surely if I add another battery to a circuit, and the voltage increases (I don't know how it increases), and the resistance remains the same, then current has to increase!

And while were here, could you also explain why in parallel, the current increases?

(unfortunately I cannot post a 3rd link, which would have been of a parallel circuit, but google imaging 'batteries in parallel' should show an image like the first one in my post)

Does it have something to do with kirchhoff's current law? The current entering and leaving a node must be 0?

Thanks guys!

What is the stacked battery of iPhone 15, and what ...

Editorial:StackedCell-Grepow

Issue Date:2023-07-21

Views:6137

Recently, some whistleblowers claimed that the new iPhone will use stacked battery technology, which can increase the energy density of the battery, prolong the battery life of the mobile phone and reduce the problem of overheating and heating of the mobile phone battery.

The following Grepow battery will take you to understand in detail what is a stacked battery, and why the iPhone 15 uses a stacked battery, and what is the difference between a stacked battery and the existing winding battery?


  

What is a stacked battery?

  Stacked battery is also called stacking battery, refers to a lithium battery produced by lamination process. Stacked batteries are generally divided into two forms: square shell (hard shell) and soft pack (also pouch cell).


  Lithium batteries mostly use two processes of winding and lamination, which have different advantages and disadvantages. The working principle of stacked batteries is the same as that of lithium-ion batteries used in traditional electric vehicles. The interior is mainly composed of positive electrodes, negative electrodes, diaphragms, and electrolytes. The electricity is generated by the movement of lithium ions.


  Stacked batteries are widely used in various electronic devices and systems, such as smartphones, laptops, drones, electric vehicles, etc. By using stacked battery technology, manufacturers can deliver higher energy density and greater performance in a relatively small space to meet the demands of modern energy-hungry devices. At the same time, with the continuous development of battery technology, stacked batteries have been continuously optimized and improved to provide more efficient and safer energy solutions.


  

What is a winding battery?

  A wound battery is an energy storage unit in which the positive electrode, the separator, and the negative electrode are combined in a winding manner, and is called a wound battery. A single wound battery is also called a battery cell, and those in the battery industry call it "wound cell" or "wound battery."


  What is the difference between stacked battery and winding battery?

  1. The battery internal resistance

  The cells produced by the lamination process have a lower internal resistance, while the winding type has a higher internal resistance. Because the wound type battery cell is usually a single tab, and the stacked battery cell can be regarded as a multi-tab type, which greatly reduces its internal resistance. The difference in internal resistance makes the heat generation of the finished battery different during the charge-discharge cyle and the speed of capacity decay. It is obvious that the capacity decay of the stacked battery is slower.



  2. Different battery life

  As the charge-discharge cycle continues, heat will be generated inside the battery and affect the temperature of the battery. For stacked batteries, the internal temperature distribution is relatively uniform, while for wound batteries, there is only one-way heat transfer between the pole piece and the separator, resulting in a serious temperature gradient distribution phenomenon, with internal high temperature and external low temperature. The uneven temperature distribution leads to the deactivation of the active material (lithium ions) at the high temperature position first during the charging and discharging process of the battery, which cannot perform the function of deintercalating lithium ions, which in turn affects the rapid attenuation of other positions and affects the performance of the battery.


  3. The stress inside the cell is different

  The two manufacturing methods lead to different mechanical characteristics of the cell. The stress-bearing area between the stacked cell pole piece separator is the same, there is no obvious stress concentration point, and the battery will not be damaged sharply in a certain part during use. The edge of the wound battery is where the stress is concentrated. According to the previous experience of battery disassembly and analysis, micro-short circuit, electrical breakdown and lithium precipitation are more likely to occur at the bend of the pole piece. Stress concentration points are the primary location for battery deactivation, which also leads to reduced cycle life of wound batteries.


  4. Different battery rate performance

  The stacking process is equivalent to connecting multiple poles in parallel, which makes it easier to complete high-current discharge in a short period of time, which is beneficial to the rate performance of the battery. The winding process is just the opposite, a single tab leads to slightly worse rate performance.


  5. Different battery capacity density

  The stacked battery has a higher capacity density because its internal space is fully utilized. In contrast to the wound battery, the two sides of the cell are circular and the last two layers of separators occupy a certain thickness, so the capacity density is low.


  6. Different security

  There are also differences in the safety of the two, which are mainly analyzed from the aspects of internal resistance, stress, and temperature distribution. Winding batteries with uneven temperature and high internal resistance are less safe.


  7. The complexity of pole piece production is different

  The winding process is simpler and easier to operate, and it is easy to realize industrial automation. Although the stacking process is very cumbersome, it has been adopted by many companies with the continuous improvement of production equipment and technology. At present, battery companies in the market mainly use winding process and stacking process for cell production.


  8. The complexity of cell manufacturing varies

  The operation of the winding battery cell is relatively simple, whether it is semi-automatic or fully automatic, it can be completed quickly. The stacking process is highly complex, and manual operation is time-consuming and laborious. However, with the continuous development of automation technology, stacked cells have also achieved fully automated production.

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  In addition, in terms of the quality control of the battery core, the winding type is easier to control, while the stacked type can achieve good consistency even though the process steps are cumbersome.


  

Why does the iPhone 15 use stacked batteries? What is the difference between the stacked battery and the winding battery?

  According to @RGcloudS, a well-known Android whistleblower, it is known from industry sources that stacked battery technology will be used first in Apple’s iPhone 15 series, which can increase battery density and extend battery life. Samsung will then equip the 2024 Galaxy S24+ and Galaxy S24 Ultra with stacked battery technology.


  The stacked battery mainly adopts lamination manufacturing technology, in which the battery pole piece components and separators are folded into zigzag layers, and a separator is used in the middle, while the inside of the traditional battery is designed in a roll, which is likely to cause gaps on the edges.


  There is less waste of space in the stacked battery packaging unit, allowing more materials to be placed, higher capacity, and more active materials, thereby increasing the overall battery capacity and making the stacked battery have a higher density than traditional wound batteries.


  The traditional wound battery on the left, and the stacked battery produced by Grepow on the right


  The use of stacked batteries can also effectively improve the heat. The layered structure allows the battery to operate as a multi-polar battery. The resistance of the battery itself is smaller, and the heat generated during charging and discharging will be less. At the same time, the heat can be evenly distributed to the entire battery, instead of being concentrated in one area like a wound battery, so as to prolong the battery life.


  At present, stacked battery technology is also being used in the field of electric vehicle batteries, which can provide high power output and fast charging, as well as batteries with higher energy density. This technology is relatively new to smartphones.


  For example, the iPhone 15 can use a new generation of stacked battery technology, which means that the iPhone has faster charging speed, longer battery life, smaller battery temperature rise and faster heat dissipation.


  In addition, the source also said that the new 40W wired and 20W wireless MagSafe protocol and power chip have passed the test, and it is uncertain whether it will be used in the iPhone 15 or iPhone 16 series, which means that the subsequent iPhone wired fast charging will be increased to 40W.


  

Which battery manufacturer can produce stacked batteries?

  Stacked battery manufacturers include Grepow. Grepow, as an early contact with soft-packed stacked lithium battery manufacturers in China, established a lithium battery business department as early as 2007, specializing in the manufacture and development of stacked soft-packed lithium polymer batteries. Up to now, it has become a well-known manufacturer of stacked lithium polymer batteries at home and abroad. The soft pack stacked batteries produced by Grepow have the following advantages:


  1. Low internal resistance

  The internal resistance will affect the cell rate performance and discharge platform to a certain extent. So the lower the internal resistance, the better the battery. Compared with wound batteries, stacked batteries have very low internal resistance, which is equivalent to connecting multiple small pole pieces in parallel to reduce internal resistance.


  2. High rate discharge

  A high-rate battery can also be called a high-current discharge battery. It is not necessary for conventional battery applications, but for power batteries, high-rate discharge is a necessary part. It is difficult to fully discharge a single tab of a wound battery with a large current. Since the stacked battery is connected in parallel with multiple poles, it is easier to complete high-current discharge in a short time.



  3. Discharge platform

  Due to the lower internal resistance of the stacked battery, the polarization is also smaller, so the discharge platform will be higher than that of the wound battery and closer to the self-discharge platform of the material. For many electrical equipment with a higher discharge cut-off voltage, stacked batteries with a higher discharge platform are undoubtedly the preferred choice.


  4. Capacity density

  Due to the stacking process, the stacked battery makes full use of the internal space of the battery, so compared with the winding process, the volume specific capacity is higher, which also makes the capacity density relatively high.


  5. Energy density

  Since the discharge platform and volume specific capacity are higher than those of winding batteries, the energy density of common stacked batteries is correspondingly higher.


  6. Thickness

  The internal structure of the battery cell is consistent, and the thickness of each part of the battery is also consistent, so the thickness of the stacking process is easy to control. Also because the internal structure of the battery is unified and the reaction rate is relatively consistent, it is not easy to deform even if the thickness is large.


  7. Battery shape

  Due to the flexible size of the stacked battery, it can be made into any shape according to the remaining space of the actual application.


  8. Fields of application

  Due to the better rate performance of the stacking process and more choices of appearance and shape, the scope of application is also wider than that of wound batteries. It can be more suitable for high-rate batteries, special-shaped batteries, and power batteries.


  The above is an introduction to what is a stacked battery, why the iPhone 15 uses a stacked battery, and what is the difference between a stacked battery and the existing winding battery. I believe that through the above introduction, everyone knows that stacked batteries are a new type of battery technology that can effectively increase the energy density of batteries. It stacks multiple battery cells to increase the electrode area and capacity, thereby achieving higher current output. As a well-known stacked lithium battery manufacturer at home and abroad, Grepow's stacked lithium batteries are widely used in drones, RC models, agricultural plant protection, sports cars, auto parts, medical, outdoor, maritime, special, industrial, wearable devices, AR/VR and consumer electronics and other fields.


  It is believed that with the rapid development of science and technology, the technology of stacked batteries will become more and more mature. Stacked batteries will be widely used in more fields in the future, bringing more convenience and innovation to people's lives. Let us expect this technology to provide more efficient, reliable and sustainable solutions for our energy consumption.

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