it's almost ready one part I need to add is volt meter to the input from battery to buck. I have a safety cut off set to 15..1v and I do not want to change the installed board that is volt and amp metering the buck converter to st16e or st16s.
it's almost ready one part I need to add is volt meter to the input from battery to buck. I have a safety cut off set to 15..1v and I do not want to change the installed board that is volt and amp metering the buck converter to st16e or st16s.
Can you detail the function of each pin? Which two are actually the +/-? I have a lead on some 3.6/3.7v 12000mah batteries that are just a little larger than a smartphone but don't know if the RC requires balance charge pins.
on the battery you asked If it were to be used for the st16e or st16s just the red and black wire. as for the the yellow ntc that I am not sure on if needs to be has to be used somewhere or is able to be left out of the st16s or st16e power circuit. next question is what gauges are the wires. at 4.2 volts charged the st16e and st16s will draw over 4.4 amps when using certain payloads and features on the remote like the pan tilt of the camera. camera setting menu . mission planning and obs switch turned on. as the battery voltage decreases the amps go up but I have never hit the 5 amp mark. and when the battery hits a certain low voltage and any options are tried unit will reboot itself. found that out when I was monitoring a st16s battery I put back together to get the amp readings from oem stock equipment when in use. also that will require addition circuitry that is different to support it for recharging it and connecting it to the yuneec controller that I have not delved into yet.
I just one huge thing I may have left out the micro usb port on the bottom of the st16e or st16s . That is never to be used when you are using or have attached this alternative power source for the yuneec controller that I am developing.
I just one huge thing I may have left out the micro usb port on the bottom of the st16e or st16s . That is never to be used when you are using or have attached this alternative power source for the yuneec controller that I am developing.
Also do not use the top usb port until I get some questions answered. I want to mkae sure that is also not a part of the onboard charging circuit in any way like the bottom micro usb is.
there is one more saftey feature I need to develop this to be fail safe. right now this is set for advance pro use only. I think I may be able to connect a st16e or s battery as backup via low voltage cutoff circuit boards tied into relays and a timer circuit that switches power sources completely at a set level disengage the main battery and engage the reserve battery and not lose power to the controller giving the pilot time to stop the mission and land the uav until the main battery on the secondary device has been changed for the controller. or on a setup where the secondary power source is running from ac source through uninterruptible power supply a small one needed and then switches over to st16s or st16e battery while keeping the power to the controller so the pilot can recall the craft under his or her control. granted huge amp anti back feed diodes are needed 80 amps min.
first test run done oh boy it blew it out of the park. 15 min flight 9 percent of the flight battery used on the controller. It is 20 percent when used on the st16s st16e battery. with e30zx. I should have atleast 8 full flights with this rate compare to 2 to 3 full flights. the flight battery is down to 15 percent on the charger. both a ultra x h480 the lowest power batteries I have for the aircraft. the others that have not been ran yet are rated higher mah or higher voltage or both.
the last post should have been labeled first hot live test (actually air born testing). all testing before hand was cold as in non flight on the ground base testing.