A battery is a simple device that powers electronic devices like cameras, microphones, lights, mobile phones etc. V mount battery for dslr is a high-capacity batteries. These can supply a large amount of power and hence are most useful for heavy-duty devices that require a lot of power and that too for a long time. For instance, most video cameras that shoot motion pictures require high-capacity cells.
V mount refers to the v-shaped pins which attach the batteries to the device like a camera. Most people in the industry believe that the v-shaped pins are excellent for fitting into the device, and they do not come off easily even after long use. They are superchargers that last for a long time.
What Are Batteries, And How Are V Mounts Special?
Power is generated by the movements of charged particles which are known as ions. A cell has an electrolyte which is a solution that can break up into ions when an electric charge is passed through it. Usually, a positively charged particle or ion moves in the direction of a negative plate. And a negatively charged particle or ion gets attracted to a positively charged plate.
The solution that is the electrolyte can be a solution of Copper Sulfate, or it can be a Lithium-ion containing solution that moves towards electrodes to create electric power. In V mount batteries or other heavy-duty batteries that have a large capacity, multiple cells are arranged to give the desired output.
The cells may be arranged in a series arrangement; in this case, the current remains constant across the cells. In cases where the arrangement of cells is in parallel, the voltage remains constant across all the cells. A combination of such arrangements is used to give the desired power output.
Ideally, a rechargeable cell should be able to work forever. However, that is not the case in real life. In reality, cells do degrade and die over time because of many reasons, like the electrodes getting a thick deposit on their surface stop functioning effectively.
If someone wishes to buy a battery that supplies high power and lasts for a long time, they can click at Moman v-mount camera battery for more information.
8 Ways To Extend The Life Of V Mount Batteries
Getting The Battery That Has The Right Capacity
The capacity is the maximum power to which a battery can charge. The output is the amount of power it gives to a device that it is connected to. Many people go for lesser powers that have a smaller value in Kilowatt-hours as they are more affordable. However, in the long run, the overall cost of continuous replacements far out does the initial savings made in a setup that offers lower Kilowatt hours.
Checking The Power Rating And Energy Efficiency Of All The Devices
All electrical appliances come with a power rating, that is, the amount of power it consumes in a given unit of time. The more complicated a piece of equipment the higher the amount of power it requires. For instance, most cameras that come with an LCD-based viewfinder will require more electricity than those with a physical viewfinder. Likewise, video cameras will consume more electricity per unit of time than still cameras. Before you buy a new battery pack it is important to know what cameras use v-mount battery and what capacity is the optimal.
A battery degrades fast if it is made to work harder than its capacity. So it is good to invest wisely according to the equipment that one wishes to use. A high power rated device will over strain low power cells. Hence, using a battery that is a misfit for a particular device is never a good idea, purchasing a large v mount camera battery for a high power device is always recommended.
Also, using energy-efficient appliances improves cell life. Hence people should go for appliances that have a higher number of stars or higher energy efficiency rating.
Not Charging At Peak Charging Voltages
A battery’s lifetime increases if it is charged at less than its peak capacity. For most lithium-ion cells, the peak voltage is around 4.20 Volts. If it is charged at 0.20 Volt less than the peak voltage, that is around 4 Volts, and it is expected to charge for almost double the number of cycles.
Storing At The Right Temperature
An electrolyte works best at a given temperature, and storing it or using it at a lower or higher temperature lowers its life. A lithium-ion cell works best if stored at around 10 degrees Celsius. Hence, it is advisable not to keep them for long in strong sunlight or in sub-zero temperatures.
Storing At The Right Humidity
Even the relative humidity of a place impacts the cell’s lifetime. When the moisture in the air is high, it can accumulate in the terminals. Accumulated moisture can short the entire circuit.
Storing For A Long Time
For long-term storage that extends to more than anything beyond a month, the charge should be around 30% to 40%. Also, one can purchase a device to measure the charge of a battery before storage. The conditions of storage should be regularly monitored to maintain the right temperature and humidity.
Switching Off The Device Or Removing Cells When Not In Use
It is obvious that switching off equipment when not in use increases battery life. However, many people forget about this simple yet effective practice. Also, when a battery is not used for a long time, it should be unplugged from an appliance. When it remains plugged, even if the appliance is not in use, some minor discharges continue to happen. Hence, unplugging lowers the number of such minor discharges that lower the lifetime.
Getting Over Common Myths
There are certain myths, like it is necessary to completely drain out a cell before it is recharged. However, it is quite the opposite; fully discharging lowers life over a period of time. Again, some people believe long-term storage needs freezers. However, this is far from the truth. Most cells have a definitive range of temperature within which it functions best, and for Lithium-ion cells, the optimum range is way above freezing temperatures.
There are several reasons to follow safe use and storage practices like increasing battery lifetime, lowering overall expenditure on replacements etc. Moreover, a lower number of replacements ensure that environmental costs reduce to a great extent.
A battery manufacturing process needs mining for minerals. The process of assembly, in turn, might release toxic chemicals into the environment. Many countries do not have safe disposal practices for dead cells, and these get picked up by rag pickers with their bare hands. Hence knowing about a few simple hacks that can extend a cell’s lifetime can go a long way in making someone an eco-friendly and wise user.