1 # Board - Seriously Pro SP Racing F3 EVO
3 The Seriously Pro Racing F3 Evo board (SPRacingF3EVO) is the evolution of the first board designed specifically for Cleanflight.
5 Purchasing boards directly from SeriouslyPro / SP Racing and official retailers helps fund Cleanflight development, it's the reason the Seriously Pro boards exist! Official retailers are always listed on the SeriouslyPro.com website.
7 Full details available on the website, here:
9 http://seriouslypro.com/spracingf3evo
13 * Next-generation STM32 F3 processor with hardware floating point unit for efficient flight calculations and faster ARM-Cortex M4 core.
14 * MicroSD-Card socket for black box flight log recorder - optimize your tuning and see the results of your setup without guesswork.
15 * Race transponder built in - just turn up at a race and have your lap times recorded.
16 * Features the latest Accelerometer, Gyro and Mag/Compass and Baro/Altitude sensor technology.
17 * Wire up using using pin headers for all major connections for excellent crash-durability. Use either right-angled or straight pin-headers.
18 * No compromise I/O. Use all the features all the time; e.g. Connect your USB + OSD + SmartPort + SBus + GPS + LED Strip + Battery Monitoring + 8 motors - all at the same time! (Sonar will be supported in CF 1.14)
19 * 8 PWM output lines for ESCs and Servos. Arranged for easy wiring on standard pin headers.
20 * Supports direct connection of SBus, SumH, SumD, Spektrum1024/2048, XBus receivers. No external inverters required (built-in).
21 * Supports direct connection of 3.3v Spektrum Satellite receivers via 3 pin through-hole JST-ZH connector.
22 * Dedicated PPM receiver input.
23 * 3 Serial Ports - NOT shared with the USB socket.
26 * Dedicated output for programmable LEDs - great for orientation, racing and night flying. (Currently mutually exclusive with the Transponder).
27 * Dedicated I2C port for connection of OLED display without needing flight battery.
28 * Battery monitoring for voltage and current.
29 * RSSI monitoring (analogue or PWM).
30 * Buzzer port for audible warnings and notifications.
31 * Developer friendly debugging port (SWD) and boot mode selection, unbrickable bootloader.
32 * Symmetrical design for a super tidy wiring.
33 * JST-SH sockets only for I2C, UART2 and SWD. UART2 also on through-hole pins.
34 * Flashing via USB or serial port.
35 * Stackable design - perfect for integrating with OSDs and power distribution boards.
36 * Standard mounting - 36x36mm with standard 30.5mm mounting holes.
37 * LEDs for 3v, 5v and Status for easy diagnostics.
38 * Copper-etched Cleanflight logo.
42 | Value | Identifier | RX | TX | 5v Tolerant | Notes |
43 | ----- | ------------ | ------------ | ------------ | ----------- | ------------------------------------------------------------------------------------------- |
44 | 1 | USART1 | PA10 | PA9 | YES | 2 through-hole pins. Use for connecting to OSD/GPS/BlueTooth. |
45 | 2 | USART2 | PA15 | PA14 / SWCLK | YES | JST socket and PPM header. Use to connect to RX. |
46 | 3 | USART3 | PB11 / AF7 | PB10 / AF7 | NO | Available on 4 through-hole pins. 3.3V signals only ! Use for GPS, Spektrum Satellite RX, SmartPort Telemetry, HoTT telemetry, etc. |
48 * You cannot use SWD and USART2 at the same time.
49 * When using a Serial RX receiver the TXD (T2) pin cannot be used for telemetry. Use UART3 TXD instead.
50 * Software serial is not supported
51 * Windows DFU Flashing requires Zadig (see configurator)
55 Full pinout details are available in the manual, here:
57 http://seriouslypro.com/files/SPRacingF3EVO-Manual-latest.pdf
61 The 6 pin IO_1 connector has the following pinouts when used in RX_SERIAL mode.
63 | Pin | Function | Notes |
64 | --- | -------------- | -------------------------------------------- |
66 | 2 | VCC_IN | Voltage as-supplied by BEC. |
67 | 3 | RX_SERIAL | Enable `feature RX_SERIAL` |
69 | 5 | +V BATTERY | Voltage as-supplied by Battery. |
70 | 6 | -V BATTERY | Voltage as-supplied by Battery. |
72 When RX_PPM is used the IO_1 pinout is as follows.
74 | Pin | Function | Notes |
75 | --- | -------------- | -------------------------------------------- |
77 | 2 | VCC_IN | Voltage as-supplied by BEC. |
78 | 3 | RX_PPM | Enable `feature RX_PPM` |
79 | 4 | TELEMETRY | Enable `feature TELEMETRY` |
80 | 5 | +V BATTERY | Voltage as-supplied by Battery. |
81 | 6 | -V BATTERY | Voltage as-supplied by Battery. |
85 When TRANSPONDER is used and the IR solder pads are shorted, the 6 pin IO_2 pinout is as follows.
87 | Pin | Function | Notes |
88 | --- | ------------------------- | -------------------------------------------- |
89 | 1 | IR- | Short leg of the IR LED |
90 | 2 | IR+ | Long leg of the IR LED |
91 | 3 | CURRENT | Current Sensor |
92 | 4 | RSSI | RSSI (PWM or Analog - select by solder pads) |
93 | 5 | BUZZER+ | 5V Source |
94 | 6 | BUZZER- | Buzzer signal |
96 When LEDSTRIP is used and the LED solder pads are shorted, the 6 pin IO_2 pinout is as follows.
98 | Pin | Function | Notes |
99 | --- | ------------------------- | -------------------------------------------- |
101 | 2 | LEDSTRIP | WS2812 Ledstrip data |
102 | 3 | CURRENT | Current Sensor |
103 | 4 | RSSI | RSSI (PWM or Analog - select by solder pads) |
104 | 5 | BUZZER+ | 5V Source |
105 | 6 | BUZZER- | Buzzer signal |
109 | Pin | Function | Notes |
110 | --- | -------------- | -------------------------------------------- |
116 | Pin | Function | Notes |
117 | --- | -------------- | -------------------------------------------- |
119 | 2 | VCC_IN | Voltage as-supplied by BEC. |
123 ### Spektrum Satellite
125 | Pin | Function | Notes |
126 | --- | -------------- | -------------------------------------------- |
133 | Pin | Function | Notes |
134 | --- | -------------- | -------------------------------------------- |
136 | 2 | 5.0v | Voltage as-supplied by BEC OR USB, always on |
137 | 3 | SCL | 3.3V signals only |
138 | 4 | SDA | 3.3V signals only |
142 The port cannot be used at the same time as UART2.
144 | Pin | Function | Notes |
145 | --- | -------------- | -------------------------------------------- |