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Understanding LiHV Batteries: Higher than LiPo for FPV Drones?


As FPV drone fans, we’re all the time looking out for methods to boost flight efficiency. One of many game-changers within the FPV group has been the introduction of LiHV batteries. On this weblog publish, we’ll discover what LiHV batteries are, why they’ve grow to be fashionable, how they evaluate to conventional LiPo batteries, and the professionals and cons of utilizing them.

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What Are LiHV Batteries?

LiHV stands for Lithium Excessive Voltage. These batteries are a variation of the normal LiPo (Lithium Polymer) batteries however with a key distinction within the chemistry and voltage. Whereas normal LiPo cells are charged to a most of 4.2 volts per cell, LiHV cells might be charged as much as 4.35 volts per cell. This greater voltage interprets into a number of efficiency advantages, making LiHV batteries a pretty possibility for sure kinds of FPV drone.

Why Are LiHV Batteries Well-liked?

Improved Efficiency

Most motor RPM is proportional to the voltage utilized. LiHV batteries present the next voltage, which might result in elevated thrust and quicker speeds. For racing drones or high-performance acrobatic drones, this is usually a important benefit, providing faster response instances and extra highly effective maneuvers.

Elevated Flight Time

For a similar weight, LiHV batteries provides extra energy capability, which probably interprets to longer flight time.

Compatibility

LiHV batteries are usually suitable with most FPV drones that use LiPo batteries. This ease of integration makes it easy for drone fans to modify to LiHV with no need to improve {hardware}.

Evaluating LiHV to Conventional LiPo Batteries

Voltage and Capability

As talked about, the first distinction between LiHV and LiPo batteries is the utmost voltage. LiHV cells cost as much as 4.35V in comparison with 4.2V for LiPo cells. This greater voltage additionally supplies greater vitality density, leading to greater motor RPM and longer flight instances.

Weight, Measurement and C Score

As talked about, LiHV batteries are inclined to have a barely greater vitality density, which might imply they provide extra energy and not using a important improve in weight or dimension in comparison with equal LiPo batteries. Subsequently, for a similar capability, LiHV packs are normally barely lighter than LiPo. Additionally, as a result of greater voltage, the C score of LiHV can also be barely greater than LiPo for a similar dimension battery.

This may be useful for sustaining the drone’s steadiness and agility.

Charging Necessities

Charging LiHV batteries requires a charger that helps the upper voltage. Whereas many trendy chargers do, it’s important to confirm this earlier than making an attempt to cost LiHV batteries. You’ll be able to cost a LiHV with LiPo settings safely, however you received’t be utilizing LiHV battery to its full potential.

Are you able to cost LiPo to 4.35V?

Completely NOT, you need to NEVER cost a typical LiPo battery to 4.35V per cell. Conventional LiPo batteries are designed to be charged to a most of 4.20V per cell. Charging them past this voltage can result in a number of severe points, together with growing the danger of overheating, swelling, and even catching hearth. Overcharging additionally reduces the lifespan of the battery, and even inflicting everlasting injury.

Are you able to cost LiHV to 4.20V?

Sure, it’s protected to cost LiHV battery to 4.20V per cell, as the utmost voltage you’ll be able to cost it to is 4.35V per cell. Nonetheless, you might be shedding round 10% of the capability.

LiHV Is Not For Everybody

There’s a priority concerning the longevity of LiHV – its efficiency degrade quicker than typical LiPo. Additionally as you go up in cell rely the good thing about the upper voltage diminishes, due to this fact LiHV is usually fashionable inside micro drones, reminiscent of Tiny whoops and 2S Toothpicks, the place the upper voltage can truly make a noticeable distinction to make it price whereas. Anyway I plan to do some testing to verify if the longevity situation is actual, so keep tuned.

LiHV Batteries Testing

These Hyperion HVLi packs include normal XT60 Major connectors, with JST-XH Stability connectors. The discharge lead is 14AWG silicon wire.

Hyperion 1800mah 4S HVLi battery 4.35V 40-80C

When evaluating to regular LiPo of the identical capability, LiHV’s are smaller and lighter due to the upper vitality per weight.

  • Hyperion 4S 1800mAh 40C – 178g
  • Turnigy Nano-Tech 4S 1800mAh 65C – 228g

Hyperion 1800mah 4S HVLi battery 4.35V compare to turnigy nano tech size

And right here is the smaller 1400mAh pack.

Hyperion 1400mah 4S HVLi battery 4.35V 40-80C

  • Hyperion 4S 1400mAh 40C – 142g
  • Dronelab 4S 1500mAh 50C – 157g

Hyperion 1800mah 4S HVLi battery 4.35V compare to drone-lab size

So with the assistance of my KISS FC + KISS ESC 24A setup, I used to be in a position to monitor voltage and present draw on the similar time whereas flying.

kiss fc osd display esc telemetry data hyperion-hvli-lipo-excel-battery-data-analysis

I examined and in contrast the Hyperion 4S 1800mAh and Turnigy Nano-Tech 4S 1800mAh. I ran the take a look at twice, the primary time I used to be simply hovering, and the second time I did some med-high pace cruising.

Hover Check

Right here I hovered the quad at one place, and solely landded when “consumed mA” reached 1800mA – the required battery capability. (I eliminated the GoPro to get a bit longer hover time)

  • Hyperion: 10:45
  • Turnigy: 9:09

I used to be anticipating they might land at about the identical time, given each are the identical 1800mAh capability, however apparently NO! The Hyperion lasted about 96 seconds longer than the Turnigy.

My guess is the load of the batteries, the Hyperion is 50g lighter than the Turnigy, and the motors pull much less present when simply hovering. The ability graph confirmed this, as you’ll be able to see the quad has to work more durable (greater energy) to remain within the air when carrying the additional weight.

One other factor to note is the voltage of the batteries all through the entire discharging cycle. The voltage of the HVLi is greater than the LiPo initially, however in the direction of the second half of the method, it was regularly getting nearer to that of the LiPo.

Enjoyable reality: After we have now drawn 1800mA from the Turnigy Nano-tech, its voltage was nonetheless fairly excessive at 14.4V (3.6V per cell). That implies it truly is perhaps bigger pack than specified by producer. (possibly 1900mAh?)

FormatFactoryhvli-vs-lipo-battery-hover-test-graph-capacity-voltage-power

Quick Flying Check

On this take a look at I used to be flying round with 70% to 80% throttle continuously. The upper voltage improved the responsiveness and pace of the quad. You’ll be able to see that from the facility graph, the quad was in a position to pull out extra energy from the LiHV than LiPo total.

Nonetheless I didn’t discover a lot enchancment on flight time in comparison with the Nano-Tech LiPo, in all probability as a result of I used to be pushing the quad too onerous.

Related consequence to the hover take a look at, the place we see greater voltage originally, however they converged in the direction of the finish. That implies the battery would give your motors greater RPM and fewer voltage sag, because of the greater preliminary voltage, however in all probability related efficiency to the LiPo’s in the 2nd half of the pack. I believe that is one thing you have to consider when doing endurance races, the place you have to resolve when is finest to vary batteries.

*Notice that the Turnigy battery I used to be evaluating in opposition to with is practically a 12 months outdated so discharge price is worse than new packs. I don’t have any new 1800mAh LiPo packs in order that’s it.

FormatFactoryhvli-vs-lipo-battery-flight-test-graph-voltage-power

Longevity Testing

Sooner or later I’ll take a look at the longevity of LiHV batteries and the way it compares to LiPo. Keep tuned.

testing methodology: totally charging at 2C, then discharge at 20C til 3.3V per cell. Repeat this for 50 cycles. Evaluate efficiency each 10 cycles.

Remaining Ideas

LiHV batteries have grow to be a preferred alternative within the FPV drone group for his or her potential to supply longer flight instances and enhanced efficiency, particularly for micro drones. Whereas they provide a number of benefits over conventional LiPo batteries, it’s necessary to acknowledge the charging necessities and potential lifespan trade-offs. For drone fans trying to push the boundaries of their flying expertise, LiHV batteries are positively price contemplating.

As all the time, when working with high-performance batteries, security ought to be a prime precedence. Make sure you use suitable chargers and observe finest practices for battery care and upkeep to get pleasure from the advantages of LiHV batteries whereas protecting your tools and your self protected.

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