Veronte can use unregulated DC (6.5V to 36V).  Pins used for power and ground are the same for both Ground and Air configurations.

LiPo batteries between 2S and 8S can be used without regulation needs. Remaining batteries can be controlled by the internal voltage sensor and by configuring the voltage warnings on the Pipe software.

For higher voltage installations, voltage regulators must be used. For dimensioning voltage regulators take into account that a blocked servo can activate regulator thermal protection.

Caution!! Power Veronte out of the given range can cause irreversible damage to the system. Please read carefully the manual before powering the system.


Veronte and servos can be powered by the same or different batteries. In case of having  more than one battery on the system, a single point ground union it is needed to ensure a good performance. The ground signal should be isolated from other  noisy ground references (e.g. engines). If all grounds need to be connected, connection should be made on the negative pole of the battery.

It is recommendable to use independent switches for autopilot and motor / actuators. During the system initialization, PWM signal will be set to low level (0V), please make sure that actuators / motor connected support this behaviour before installing a single switch for the whole system.

Veronte I/O Signals

68 pin connector

68 pin connector for Veronte Autopilot

1I/O1I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
2I/O2I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
3I/O3I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
4I/O4I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
5I/O5I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
6I/O6I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
7I/O7I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
8I/O8I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
9GNDGROUNDGround signal for actuators 1-8
10I/O9I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
11I/O10I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
12I/O11I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
13I/O12I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
14I/O13I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
15I/O14I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
16I/O15I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
17I/O16I/OPWM/DIGITAL output /DIGITAL input signal (0-3.3V)
18GNDGROUNDGround signal for actuators 9-16
19RS 232 TXOutputRS 232 Output
20RS 232 RXInputRS 232 Input
21GNDGROUNDGround signal for buses
22Analog 4InputAnalog  Input 0-3V
23Analog 5InputAnalog  Input 0-3V
24GNDGROUNDGround signal for buses
25CanA PI/OCANbus interface. It supports data rates up to 1 Mbps
26CanA NI/O Twisted pair with a 120 Ω Zo recommended
27GNDGROUNDGround  signal for buses
28CANB_PI/OCANbus interface. It supports data rates up to 1 Mbps
29CANB_NI/O Twisted pair with a 120 Ω Zo recommended
30GNDGROUNDGround signal for buses
31I2C_CLKOutputClk line for I2C bus
32I2C_DATAI/OData line for I2C  bus
33GNDGROUNDGround for 3.3 V power supply
343.3VPOWER3.3 V-100 mA power supply
35GNDGROUNDGround for 5 V power supply
365VPOWER5 V – 100 mA power supply
37GNDGROUNDGround for analog signals
38ANALOG_1InputAnalog input 0-3 V
39ANALOG_2InputAnalog input 0-3 V
40ANALOG_3InputAnalog input 0-3 V
41GNDGROUNDGround for FTS signals
42FTS_OUTOutputSignal from comicro to activate safety mechanism (0-3.3 V)
43FTS2_OUTOutputSignal from comicro to activate safety mechanism (0-3.3 V)
44GNDGROUNDGround signal for safety buses
45V_ARB_TXOutputVeronte comicro UART output to activate safety mechanism
46V_ARB_RXInputVeronte comicro UART output to activate safety mechanism
47GNDGROUNDGround signal comicro power supply
48V_ARB_VCCPOWERVeronte comicro power (6.5 to 36 V)
49GNDGROUNDGround signal for buses
50OUT_RS485_POutputNon-inverted output from RS485 bus
51OUT_RS485_NOutputInverted output from RS485 bus
52IN_RS845_NInputInverted input from RS485 bus
53IN_RS845_PInputNon-inverted output from RS485 bus
54RS-485_GNDGNDGround for RS-485 bus
55EQEP_AInputEncoder quadrature input A (0-3.3 V)
56EQEP_BInputEncoder quadrature input B (0-3.3 V)
57EQEP_SInputEncoder strobe input (0-3.3 V)
58EQEP_IInputEncoder index input A (0-3.3 V)
59GNDGROUNDGround for encoders
60V_USB_DPI/OVeronte USB data line
61V_USB_DNI/OVeronte USB data line
62V_USB_IDI/OVeronte USB ID line
63V_USB_VCCPOWERVeronte USB power
64V_USB_VCCPOWERVeronte USB power
65GNDGROUNDVeronte ground input
66GNDGROUNDVeronte ground input
67VCC2POWERVeronte power supply (6.5 to 36 V)
68VCC1POWERVeronte power supply (6.5 to 36 V)










Veronte I/O Interface




To use the joystick in the system, connect the PPMout of the trainer port to a digital input of Veronte and configure that digital input as the radio input in Pipe. If the PPM level is 3.3V, pins 1-8, 10-17 and 55-58 pins can be used.

Veronte is compatible with standard Pulse Positon Modulation (PPM) signals, Futaba radios between 8 and 12 channels are recommended.


Futaba Trainer Port


PPM Signal

As default, channel 8 is reserved for manual / auto switch. High level is used for automatic flight and low level for manual control. This channel can be configured on Veronte Pipe.

Caution!! PPM signal must be into the Veronte voltage ranges. Some joysticks may need an adaptation board, please ask our team to check compatibility 

Micro D connector for CS is provided with 3.5mm stereo plug connector as follows: