Jump to content

Component: API (RPI) (API Slave Devices): Difference between revisions

From Flowcode Help
No edit summary
No edit summary
Line 15: Line 15:
Connects to a Raspberry Pi running the API Firmware allowing the board to become a  slave to the Flowcode Embedded simulation or Flowcode App Developer. Supports: Digital IO / I2C / SPI / PWM / UART See Flowcode Help Wiki for firmware.
Connects to a Raspberry Pi running the API Firmware allowing the board to become a  slave to the Flowcode Embedded simulation or Flowcode App Developer. Supports: Digital IO / I2C / SPI / PWM / UART See Flowcode Help Wiki for firmware.


==Component Pack==
==Component Source Code==


FREE
Please click here for the component source code: [https://www.flowcode.co.uk/wikicopy/componentsource/FC_Comp_Source_RPI_API_Comp.fcfx FC_Comp_Source_RPI_API_Comp.fcfx]


==Detailed description==
==Detailed description==




Line 54: Line 56:


==Examples==
==Examples==




Line 745: Line 749:
| width="10%" align="center" style="background-color:#D8C9D8;" | [[File:Fc9-prop-icon.png]]
| width="10%" align="center" style="background-color:#D8C9D8;" | [[File:Fc9-prop-icon.png]]
| width="90%" style="background-color:#D8C9D8; color:#4B008D;" | '''Properties'''  
| width="90%" style="background-color:#D8C9D8; color:#4B008D;" | '''Properties'''  
|-
|-
| width="10%" align="center" style="background-color:#EAE1EA;" | [[File:Fc9-conn-icon.png]]
| width="90%" style="background-color:#EAE1EA; color:#4B008D;" | Connection
|-
|-
|-
|-
Line 766: Line 774:
|-
|-
| colspan="2" | IP Address of the selected network interface. 
| colspan="2" | IP Address of the selected network interface. 
|-
| width="10%" align="center" style="background-color:#EAE1EA;" | [[File:Fc9-conn-icon.png]]
| width="90%" style="background-color:#EAE1EA; color:#4B008D;" | API Peripherals
|-
|-
|-
| width="10%" align="center" | [[File:Fc9-type-21-icon.png]]
| width="10%" align="center" | [[File:Fc9-type-21-icon.png]]
Line 806: Line 818:
|-
|-
| colspan="2" |  
| colspan="2" |  
|-
| width="10%" align="center" style="background-color:#EAE1EA;" | [[File:Fc9-conn-icon.png]]
| width="90%" style="background-color:#EAE1EA; color:#4B008D;" | Console
|-
|-
|-
| width="10%" align="center" | [[File:Fc9-type-7-icon.png]]
| width="10%" align="center" | [[File:Fc9-type-7-icon.png]]
Line 816: Line 832:
|-
|-
| colspan="2" | Controls how the console data is formatted. Fixed statistics gives an easy to read overview of the IO, Analog and PWM functionality Command Log gives a more in depth analysis of the outgoing commands and incoming returns ASCII mode allows serial data to be shown in raw text form, other commands are shown as in the Command Log mode 
| colspan="2" | Controls how the console data is formatted. Fixed statistics gives an easy to read overview of the IO, Analog and PWM functionality Command Log gives a more in depth analysis of the outgoing commands and incoming returns ASCII mode allows serial data to be shown in raw text form, other commands are shown as in the Command Log mode 
|-
| width="10%" align="center" style="background-color:#D8C9D8;" | [[File:Fc9-conn-icon.png]]
| width="90%" style="background-color:#D8C9D8; color:#4B008D;" | '''Connections'''
|-
|-
| width="10%" align="center" style="background-color:#D8C9D8;" | [[File:Fc9-conn-icon.png]]
| width="90%" style="background-color:#D8C9D8; color:#4B008D;" | '''Simulations'''
|-
|}
|}

Revision as of 17:50, 9 November 2022

Author Matrix TSL
Version 2.0
Category API Slave Devices


API (RPI) component

Connects to a Raspberry Pi running the API Firmware allowing the board to become a slave to the Flowcode Embedded simulation or Flowcode App Developer. Supports: Digital IO / I2C / SPI / PWM / UART See Flowcode Help Wiki for firmware.

Component Source Code

Please click here for the component source code: FC_Comp_Source_RPI_API_Comp.fcfx

Detailed description

The App Developer (RaspberryPi) component allows an Raspberry Pi to be controlled from within the Flowcode simulation runtime.

To allow Flowcode to communicate and control the Raspberry Pi hardware the board must first be pre-programmed with dedicated firmware.

The firmware file and Flowcode source project can be downloaded from here.

RPI App Developer Firmware

More information about the workings of the firmware project can be found on the FiniteStateMachine page.


The IP Address to the Raspberry Pi hardware is selected via the SCADA_RPI component IP Address property.

When building the component into a App Developer project remember to expose the IP Address property to allow the end user to select the correct address for the hardware.


The console window can display data in two modes which is set via a component property.

  • fixed statistics showing IO / ADC inputs / PWM
  • scrolling log showing all commands and returns


Examples

Pin Mapping

Here is a table showing how the App Developer Slave digital pins are mapped on the device.

App Developer Slave Digital Pin 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
Device Port Pin G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 G12 G13 G14 G15 G16 G17 G18 G19 G20 G21 G22 G23 G24 G25 G26 G27


Here is a table showing how the App Developer Slave peripheral pins are mapped on the device.

App Developer Slave Peripheral Pin I2C SDA I2C SCL SPI MOSI SPI MISO SPI SCK UART RX UART TX PWM 0 PWM 1
Device Port Pin G2 G3 G10 G9 G11 G15 G14 G12 G13

Downloadable macro reference

I2CInitialise
Initialsie the I2C module ready for communications 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- BYTE Baud
0=100KHz, 1=400KHz, 2=1MHz 
- VOID Return


SPITransferTrans
Transfer an array of bytes using the SPI bus 
- BYTE Channel
Channel Index: Range 0 - SPI Bus Count - 1 
- UINT Count
Number of bytes to send and receive 
- BYTE DataOut
Outgoing data 
- BYTE DataIn
Incoming data 
- VOID Return


IOGetInputPin
Sets the selected digital pin to an input and reads the input state. 
- BYTE Pin
Range: 0-29 
- BOOL Return


UARTBaud
Control the communications rate of the UART module 
- BYTE Channel
Channel Index: Range 0 - UART Bus Count - 1 
- BYTE Rate
0=1200, 1=2400, 2=4800, 3=9600, 4=19200, 5=38400, 6=57600, 7=115200 
- VOID Return


ADCSample8
Reads the voltage present on an Alanog pin as an 8-bit value range 0-255 
- BYTE ADCChannel
Range: 0-12 
- BYTE Return


I2CTransReceive
Receives an I2C Transaction on the selected I2C channel. Returns the number of bytes received. 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- BYTE Data
Data variable to receive into 
- UINT Count
Number of bytes to receive 
- UINT Return


UARTInitialise
Initialise the UART module ready for communications 
- BYTE Channel
Channel Index: Range 0 - UART Bus Count - 1 
- VOID Return


UARTCheckRX
Check to see if the UART module has received any data 
- BYTE Channel
Channel Index: Range 0 - UART Bus Count - 1 
- BYTE Return


I2CRestart
Put the I2C Module into Restart mode 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- VOID Return


PWMDisable
Disable a PWM output 
- BYTE Channel
Range: 0-1 
- VOID Return


I2CStart
Put the I2C Module into Start mode 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- VOID Return


SPITransfer
Transfer a byte using the SPI bus 
- BYTE Channel
Channel Index: Range 0 - SPI Bus Count - 1 
- BYTE DataOut
 
- BYTE Return


I2CReceive
Receive a byte using the I2C bus 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- BOOL Last
Last byte to receive: Range 0-1 
- BYTE Return


I2CStop
Put the I2C Module into Stop mode 
- BYTE Channel
 
- VOID Return


SPIPrescaler
Modify the speed of the SPI bus 
- BYTE Channel
Channel Index: Range 0 - SPI Bus Count - 1 
- BYTE Prescaler
Range: 0-2 
- VOID Return


PWMSetDuty
Sets the duty for the PWM output 
- BYTE Channel
Range: 0-5 
- BYTE Duty
 
- VOID Return


ADCSample10
Reads the voltage present on an Alanog pin as an 10-bit value range 0-1023 
- BYTE ADCChannel
Range: 0-12 
- UINT Return


I2CTransSend
Sends an I2C Transaction on the selected I2C channel. Returns the number of bytes sent. 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- BYTE Data
Data to send 
- UINT Count
Number of bytes to send out, MS bit 0x8000 signifies no Stop if set 
- UINT Return


I2CTransInit
Initialises the I2C Transaction mode with the 7-bit device address 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- BYTE DeviceAddress
7-bit Device Address 
- BYTE Baud
0=100KHz, 1=400KHz, 2=1MHz 
- VOID Return


IOSetOutputPin
Sets the selected digital pin to an output and assigns the output state. 
- BYTE Pin
Range: 0-29 
- BOOL State
Range: 0-1 
- VOID Return


UARTReceive
Receives a data byte from the UART. Recommend calling the UARTCheckRx function first to ensure data is available. 
- BYTE Channel
Channel Index: Range 0 - UART Bus Count - 1 
- BYTE Return


SPIInitialise
Initialsie the SPI module ready for communications 
- BYTE Channel
Channel Index: Range 0 - SPI Bus Count - 1 
- VOID Return


I2CSend
Transmit a byte using the I2C bus 
- BYTE Channel
Channel Index: Range 0 - I2C Bus Count - 1 
- BYTE DataOut
 
- BOOL Return


UARTSend
Send a byte via the UART module 
- BYTE Channel
Channel Index: Range 0 - UART Bus Count - 1 
- BYTE Data
Data Byte to send. Range: 0-255 
- VOID Return


PWMSetPrescaler
Sets the prescaler for the PWM output 
- BYTE Channel
 
- BYTE Prescaler
 
- BYTE Period
 
- VOID Return


PWMEnable
Enable a PWM output 
- BYTE Channel
Range: 0-1 
- VOID Return


Initialise
Initialise the comms to the Arduino board ready for commands to be sent. 
- VOID Return



Property reference

Properties
Connection
RPI IP Address
IP Address of the Raspbery Pi we want to control 
RPI Port
Port number we want to communicate on. Default 1234 
Network Interface
Some computers may have several network interfaces such as ethernet ports and wifi access. Select the correct network interface for the network you wish to connect to. Use the IP address to confirm you are connected to the right network. 
IP Address
IP Address of the selected network interface. 
API Peripherals
Digital IO
 
Analog Input
 
Analog Output
 
PWM Output
 
I2C Bus
 
SPI Bus
 
UART
 
SERVO
 
Console
Console Log
Create an automatic console log of the commands sent to the Arduino 
Log Mode
Controls how the console data is formatted. Fixed statistics gives an easy to read overview of the IO, Analog and PWM functionality Command Log gives a more in depth analysis of the outgoing commands and incoming returns ASCII mode allows serial data to be shown in raw text form, other commands are shown as in the Command Log mode