Pulse Transmitter Batteries – Can You Feel the Power?
Pulse transmitter batteries are designed for one purpose in mind - keeping you flying, rather than you worrying about the state of charge with your stock transmitter packs. Due to the chemistry of LiPo batteries, when you charge this Pulse Ultra transmitter battery, you will be rewarded with an incredible increase in standby / operating time with your transmitter, and when properly used, you will never end up at the field with a transmitter in need of charge.
Go ahead! Fly all day & more, and never worry again about your transmitter battery quitting before you do - Pulse Ultra Transmitter Batteries keep the fun going all day long & much, much more!
Nominal voltage: 11.1V (After full charged is 12.6V)
Cell Count: 3S
Dimensions:94mm x 31mm x 28mm (LxWxH)
Charge Rate: 1C
This transmitter battery is designed for 1C charge rate and a 6C discharge rate - do NOT exceed greater than 1C during the charging of this LiPo battery. Any charge rate greater than 1C / discharge rate greater than 6C will immediately void the warranty and very well may end up in pack destruction via fire. It is the end users responsibility to ensure proper safe charging practices, so please be aware of this.Also, please be SURE to charge this transmitter pack with a designated LiPo battery charger - do NOT attempt to charge this battery inside the transmitter via the stock transmitter charger - if done so, this battery WILL fail, and will have the potential of fire, resulting in serious harm to the transmitter and surrounding areas. Any attempt to charge this battery without a designated LiPo balance charger will immediately void the warranty in full, so please be aware.
Warning: This LiPo transmitter battery is intended to power a transmitter only, and is in no way designed for use as a flight power system, such as powering a motor / ESC system. Due to the lower discharge rate and lighter gauge wiring, any use as a flight pack will immediately void the warranty of this LiPo battery, and very well may cause battery failure.
Pulse Batteries feature a warranty against any defective batteries we manufacture, and warranty all manufacturer related defects or flaws. Pulse insures that all packs are properly balanced, but please be sure to check your Pulse battery upon arrival for any faults, such as low voltage, cell imbalances, solder joints, and any other such defect. If any such flaws arise, Pulse will be sure to cover all claims within a 60 day period; all claims after the 60 day period of purchase will not be subject to warranty, so please be sure to carefully inspect your new Pulse battery upon arrival.
In terms of warranty, if any warranty related issues arise, or product flaws are seen, please contact the distributor you purchased your Pulse battery from, as the distributor will handle warranty related matters.
Pulse Batteries – Your Questions End Here.
Have a question regarding Pulse batteries? We have assembled a spread of many questions that are asked about Lithium Polymer batteries, along with Pulse batteries as well. Of course, if you don't find your answer here, feel free to drop us a line, as we are always happy to help.
Q: What is a "C" rating, and what does it mean to me?
A: "C" ratings are categorized in (2) areas – discharge rate, and charge rate. Pulse Batteries are rated at varrying "C" rates in discharge rates – this is based upon how much amperage can be delivered, or in simpler terms, how much power your battery has to give. The higher the "C" rating, the more power the battery can give out.
Q: What is mah, or capacity, in terms of Pulse batteries?
A: "Mah" short for milliamp hours, is a reading of capacity, or how much energy the battery is able to store. Mah, or Capacity, directly relates to flight time, and indirectly relates to power output, as higher capacity batteries also have greater amperage to deliver, when asked to do so.
Q: How can I determine how many amps my Pulse battery can be charged at?
A: To determine how many amps you can safely charge a Pulse battery, a little math is in order. We will use a simple formula to determine charge rates - divide the "mah" of the battery by 1,000 (let's say a 2200mah battery), which comes to 2200 / 1,000 = 2.2. Now, multiply it against the "charge" rating of the battery, which in this case is 1C – 2.2 x 1 = 2.2. So, if we have a 2200mah 1C battery (2200 divided by 1,000 = 2.2), we have 2.2 as our base number, which we then multiply against the charge rating of "1C" which gives us a number of 2.2 – (2.2 x 1 = 2.2). What this means is that at a 1C rating, a 2200mah Pulse battery is capable of being charged at 2.2A amps of power.