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18650 rechargeable battery lithium 3.7v 3500mah
18650 rechargeable battery lithium 3.7v 3500mah
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3v Button battery

release time:2024-06-13 Hits:     Popular:AG11 battery

BYD's core power 3v Button battery technology revealed

 

As one of the core components of pure electric vehicles, power batteries are closely related to the vehicle's cruising range, curb weight, power performance, and handling performance. In terms of the manufacturing cost of pure electric vehicles, batteries account for the highest proportion, generally more than 30%, which leads to higher prices and later maintenance costs for electric vehicles. Therefore, reducing the unit cost of batteries and increasing the energy density of batteries have always been the main direction of the development of electric vehicle technology.

 

For BYD, which originally started with batteries, high-performance batteries are one of BYD's killer features. Especially after replacing the ternary lithium 3v Button battery with higher energy density, higher discharge voltage, and better low-temperature performance, the core competitiveness of BYD's EV model series has been greatly improved.

 

In this issue, we will fully disassemble the 3v Button battery pack of BYD Qin ProEV500 and analyze BYD's innovations and management technologies such as 3v Button battery pack safety design and thermal management design.

 

Square aluminum shell integration process

 

After uncovering the ultra-thin non-metallic cover of the 3v Button battery pack and the silica aerogel fireproof and heat-insulating layer, we can clearly see the overall layout structure of the 3v Button battery pack, of which the most intuitive is the integration process of the 3v Button battery pack. The integration process is very important in the research and development of power batteries. It must meet the comprehensive safety requirements of mechanical protection, thermal safety protection, thermal management, environmental protection, etc., and pursue lightweight and cost optimization

 

Different from the cylindrical 3v Button battery cell method used by Tesla, BYD uses a square aluminum shell with a higher domestic popularity rate, which has the advantages of high energy density and low integration difficulty. In addition, the square packaging process also helps to reduce the gap between the 3v Button battery cells, making the overall size more compact, while the cylindrical 3v Button battery cells must leave a triangular gap between the 3v Button battery cells, reducing the space utilization rate.

 

Compared with the stainless steel shell used in cylindrical batteries, the 3v Button battery cell shell made of magnesium-aluminum alloy is lighter and less expensive, which is conducive to improving the energy density of the 3v Button battery cell and has a lower manufacturing cost. Moreover, the square shell structure can accommodate more electrolyte, the expansion stress of the 3v Button battery cell pole piece is lower, and the 3v Button battery life is more than 2 times longer than the cylindrical one.

 

3v Button battery module

 

Qin ProEV500 uses BYD's independently developed nickel-cobalt-manganese ternary 3v Button battery, which is based on lithium cobalt oxide. After improvement, nickel-cobalt-manganese is used as the positive electrode material of the 3v Button battery, and the proportion of nickel-cobalt-manganese is reasonably matched. While optimizing costs and ensuring safety, the 3v Button battery has excellent electrochemical properties such as high capacity, good thermal stability, and wide charging and discharging voltage.

 

And effectively improve the 3v Button battery energy density to 160.9Wh/kg, combined with a capacity of 56.4kWh. Achieve NEDC cruising range of 420km, 60km/h constant speed cruising range of 500km, thereby effectively alleviating users' concerns about cruising range. And thanks to the high energy density of the 3v Button battery pack, the 3v Button battery loading of the car is effectively reduced, thereby reducing the car's own weight.

 

The grouping method of the 3v Button battery module fully takes into account the needs of heat dissipation and lightweight, and adopts the method of bundling with aluminum short plates on both sides and elastic steel belts to adapt to the expansion of the 3v Button battery during charging and discharging. At the same time, modules of various specifications can achieve flexible layout to meet the needs of different models. The middle part of the car body is as flat as possible, with a single-layer layout to increase the height space in the car.

 

In terms of detailed design, aluminum bars are used for the main circuit connection and its signal acquisition part. Under the same conductivity, the weight can be reduced by more than half compared with copper materials, and the cost can also be controlled.

 

However, we found that copper bars are used instead of aluminum bars on the lead-out pole. This is because the hardness of aluminum bars is low. Under high temperature and high stress, aluminum will collapse, and it is not easy to rebound after collapse. The heat and cold will cause the gap to increase, the contact resistance will increase, and bring safety hazards.

 

In the connection of different materials of copper and aluminum, BYD uses a technology called electromagnetic pulse welding. Compared with the commonly used copper-aluminum direct rolling connection or ultrasonic welding technology, the electromagnetic pulse welding process is more difficult. Although the cost will also increase accordingly, the effect is the best and it is currently a more advanced technology.

 

Between each 3v Button battery pole and pole, lasers are also used to weld the aluminum busbar and pole together to ensure reliability. And there is a depression designed on the busbar to absorb the stress caused by mechanical vibration and electric shock expansion. If it is a straight aluminum busbar, as the 3v Button battery ages and expands, the distance between the poles of adjacent batteries will increase, and the tensile stress will affect the reliability of the solder joints.

 

In the signal connection part, BYD uses a flexible circuit board, which is more integrated and thinner than the traditional sampling harness solution. If you look closely, you will find that there are filamentary wiring on the flexible circuit board, which we call the sampling line fuse. Its function is that when it collides, it may squeeze the sampling harness to cause a short circuit, which will cause the sampling line to catch fire. These filaments will fuse due to overcurrent during the short circuit, thereby cutting off the short circuit loop and ensuring the safety of the entire harness and the 3v Button battery module.

 

3v Button battery management system

 

Due to the use of lithium batteries, in order to ensure that the 3v Button battery is always working in a relatively suitable temperature range, BYD has equipped it with an independent 3v Button battery intelligent temperature control management system to ensure that the power 3v Button battery can obtain stable and reliable performance under complex temperature environments. This intelligent temperature control management system can effectively ensure the uniformity of 3v Button battery temperature through liquid medium insulation and cooling.

 

In terms of cooling, BYD has added a heat dissipation circuit in the 3v Button battery, which is connected to the air conditioning circuit through a plate heat exchanger. Temperature sensors are installed at the 3v Button battery water inlet and outlet and the 3v Button battery level ears. The power of the air conditioning compressor is adjusted in real time in combination with the 3v Button battery temperature to control the 3v Button battery water inlet temperature and flow rate, so as to control the 3v Button battery temperature at a suitable working temperature.

 

In terms of heating, BYD connects a PTC water heater in series in the 3v Button battery heat dissipation circuit, and controls the water inlet temperature and flow rate by adjusting the power of the water heater, so as to control the 3v Button battery to work at a suitable temperature in winter and ensure the charging speed and discharge power.

 

And through the 3v Button battery management system BMS, the 3v Button battery status is monitored in real time, and protection is provided for low temperature, overcharge, over discharge, over temperature, etc., thereby extending the 3v Button battery life. When the temperature is too low or too high, the charging and discharging power will be limited, and when the temperature is seriously too low or too high, charging and discharging will be prohibited, thereby protecting the 3v Button battery.

 

Snake-shaped water-cooled flat tube

 

The water pipes used for cooling and heating are arranged at the bottom or side of different 3v Button battery modules. At the same time, we noticed that the water pipes in the 3v Button battery pack use the same harmonica pipes as Tesla. This harmonica pipe is very thin, with a wall thickness of 0.8-1mm. Compared with the traditional aluminum alloy water pipes with a wall thickness of 1.6-2mm, it is much lighter in weight.

 

What is more distinctive is that the horizontal bending serpentine design used in Qin ProEV500 can be said to use the same technical route as Tesla, but it is more difficult from a process perspective, especially in the outer ring of the curved part. The elongation rate of the material inside and outside is quite different, and wrinkles and cracks are prone to occur, which places very high requirements on materials and processes.

 

The benefits of doing this are also obvious. Tesla's pipeline is to "wrap" the 3v Button battery from the side, but the problem is that the contact surface between the cylindrical 3v Button battery and the heat dissipation pipeline is almost a straight line, and the efficiency is poor. This is why the overall glue filling method is used in the latest 21700 (Model 3) 3v Button battery module, which can only sacrifice "weight" for "heat". BYD's pipeline design works well with square batteries. The pipeline is completely attached to the side wall of the 3v Button battery to maximize the contact area.

 

This design not only ensures that each 3v Button battery cell can be cooled, but also achieves a very good lightweight effect compared to the cooling water channel designed with a whole piece of aluminum plate. This is a leading technology in the entire industry and a challenge for BYD.

 

Assembly process

 

During the assembly process of the entire 3v Button battery pack, the process control is very perfect. In particular, there are basically two or three confirmations on each connection point of the water cooling pipe, each connection point of the connector, each connection point of the high-voltage electrical connection, and the point where the structure is fixed.

 

For example, some low-voltage connectors are responsible for 3v Button battery signal acquisition. If the BMS system loses the single cell voltage signal or the single cell temperature signal, it cannot continue to work reliably, and the safety of the 3v Button battery cannot be fully guaranteed.

 

General connectors have only one lock, and there will be a locking sound as a prompt after locking. BYD not only has a sound as confirmation, but also a secondary lock. Only when the primary lock is plugged in place can the secondary lock be closed. The two-level locking design is very in place.

 

In addition, the connection of high-voltage electrical appliances is also the core and most critical point in the entire 3v Button battery pack assembly, especially in the reliability of the main circuit connection and the low internal resistance design. BYD's 3v Button battery pack uses high-temperature resistant polyimide sealed copper bars for long-distance connections in the main circuit, and designs many three-dimensional bends, so that when subjected to vibration or thermal expansion, these bends can absorb the change in length and avoid transferring the load to the connecting screws.

 

Although from the perspective of contact internal resistance, the contact internal resistance of a single screw meets the heating requirements. But BYD still insists on using a double screw design to greatly improve reliability. And in the tightening confirmation of the screws, we found three color codes, which means that three confirmations were made. The first time is tightened by the automatic tightening shaft and marked with a red mark, and the next two times are manually re-checked with a torque wrench, marked with yellow and white marks respectively.

 

In addition, most of the pipelines in the entire 3v Button battery pack use nylon mesh braided sleeves, especially the pipelines that contact the 3v Button battery pack shell and internal devices, which protect the wiring harness and avoid wear while also reducing noise.

 

Summary

 

In general, BYD Qin ProEV500 has made a lot of efforts in the lightweight and reliability of the entire 3v Button battery pack, and has improved the energy density of the 3v Button battery by improving the 3v Button battery cell ratio, optimizing the 3v Button battery management system and active thermal management technology, thereby improving the vehicle's power, control and endurance performance.

 

Especially in the design of safety, BYD's engineers have considered it more carefully, so as to protect the user's driving safety to the greatest extent. All of the above reflect BYD's technical advantages and development space in the field of 3v Button battery research and development, and it can be said that it has led the direction of industry technology development.


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