Flyduino KISS Dshot 600 300 150
32-bit ARM Cortex MCU @48Mhz
Telemetry capability (voltage, current, temp, rpm)
Over-current protection (measures the current and reduces it to max 30A)
Over temperature protection (reduces the max power if hotter then 120°C)
Expanded adaptive auto timing (3,25-30° advance will be calculated on each commutation)
For Race Multicopters (24A continuous also with bad cooling *)
High max. RPM (450.000ERpm, 64.000Rpm with a 14Pol Motor)
Small size (19 x 27 mm)
Accurate RPM control (~ 950 steps)
No additional capacitor needed**
Very fast throttle response
Linear throttle response
Active freewheeling (low diode losses)
Fast FET switching because of the use of gate drivers
Oneshot42, Oneshot125 and normal (25 ? 500Hz) PWM auto detected.
DMA hardware support - Direct Memory Access - keeps the cpu load low while using Dshot 600
100% compatible hardware for digital protocolls - Dshot
Operating voltage 6 - 25V
Maximum continuous current 24A
Instantaneous maximum current 30A active limited
500,000 ERPM maximum field speed (use of 450,000 recommended)
(**) For very long LiPo power lines (more than 20cm) or for smoothing the power supply, attache a 100 - 400µF Low ESR 25V (or more) electrolytic capacitor to the power pads. Caution! When used with 5S lipo, the use of a electrolytic capacitor is recommended. (*) e.g. When mounted between two CF plates
Due to the regenerative braking, the KISS ESC should only be powered by LiPo batteries.
Never start a brush-less motor in your hands!
While starting up with propellers mounted, always care for distance yourself and objects
Never power up your ESC/speed controllers without a valid signal transmitter (receiver or FC) is connected.
The KISS ESC can be locally heated up to 80 ° C during operation!
While soldering do not connect a voltage source at the ESC / speed controller.
Some components on the KISS ESC can be destroyed by static charge. When handling such electronics, make sure to be grounded