KX 2-4S Kiss 18A ESC Panel for QAV 180 250 300 mini quadcopter
Developed for Multicopter
Precision speed control (about 950 steps)
Very fast FET switching through the use of special gate drivers
Minimal dead time, settled adaptive
2-4S LiPo capable
Adaptive Auto Timing
32Khz PWM Frequenz
50-500Hz input signal (PWM) or oneshot125 (up to 2000Hz)
No external Cap (electrolytic capacitor) is necessary **
Fast reacting gas change
Linear throttle response
Active freewheeling enabled (little diode losses resulting in higher efficiency)
Regenerative braking, therefore quick throttle response when decelerate (the ESC uses active freewheeling and regenerative braking, 2 independent features which relates to each other in different working states)
Hardware and Software are developed for each other, all Parameters are optimized. We are sure you won't find another similar sized ESC which stays as cool and react as fast as this ESC at the same Ampere draw.
Due to this special integration of hard and software some features are realized which allow the ESC to perform at a real high end level; no one reacts or brakes faster on a 14 Pole Motor (quite common) RPM up to 42.000 are supported, which is simply amazing.
Give this high Pole count. Motors aren't a problem too for this ESC too
Oneshot125 is an alternative PWM throttle Signal that is 8 times shorter/faster then the Standard 400-490Hz signals are. It is meant to be sent instantly after each FC control loop to have the fastest possible ESC Response.
Oneshot Signal transmission is deeply integrated in the ESC and is a flawless experience by just setting one solder jumper (just optional, normal PWM works of course too).
The Kiss ESC is easy to use, you won't need to do long test runs to find good settings, the Kiss ESC simply work.
Size: 22 x 12 x 4mm/0.9 x 0.5 x 0.2 inches
Package size: approx. 56 x 79mm/2.2 x 3.1inch
Net weight: 2g
4 x panel
Do not directly mount the ESC on conductive material such as carbon fiber or aluminum.
Depending on the configuration, they also need GND connected instead of only the signal for FC because especially at 3.3V CPUs (ARM Cortex for example ) a clean GND reference can be useful.