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projects:esp [2015/02/04 18:19] – [Schematic] darronprojects:esp [2017/01/12 22:44] (current) – external edit 127.0.0.1
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 The three devices are a Microchip MCP23016 digital I/O expander, NXP PCF8591 ADC/DAC and Microchip 24LC512 EEPROM. The three devices are a Microchip MCP23016 digital I/O expander, NXP PCF8591 ADC/DAC and Microchip 24LC512 EEPROM.
  
-These were chosen because they add useful capabilities to the ESP-01 or RPi and all three are available in DIP format from CPC in the United Kingdom.+These were chosen because they add useful interfacing and logging capabilities to the ESP-01 or RPi and all three are available in DIP format from CPC in the United Kingdom.
  
 +You may also consider adding an I2C RTC to this project and perhaps it shall be updated to include one at a later time.
 === Schematic === === Schematic ===
  
-The circuit is expected to be used with either an ESP-01 attached and with it'UART connected to a computer to load in scripts, else without an ESP-01 and with the I2C lines connected to an Raspberry Pi.+The circuit is expected to be used with either an ESP-01 attached and with its UART connected to a computer to load in scripts, else without an ESP-01 and with the I2C lines connected to Raspberry Pi.
  
 {{:projects:esp.png?200}} {{:projects:esp.png?200}}
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 It should be reasonably simple to construct on stripboard. Tripad board will be used to demonstrate this at a later time.  It should be reasonably simple to construct on stripboard. Tripad board will be used to demonstrate this at a later time. 
 === I2C bus === === I2C bus ===
 +
 +The I2C bus is simple affair with only two lines required for its operation. This is perfect for the ESP-01 module which only has two GPIOs exposed on its header pins. For the Raspberry Pi, there are two I2C buses, but only one is normally available.
  
 ^Address ^Device | ^Address ^Device |
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 |0x48    |PCF8591| |0x48    |PCF8591|
 |0x50    |24LC512| |0x50    |24LC512|
 +
 +These addresses are the defaults for all three devices with the address pins tied low. Multiple devices of the same type are easily accommodated on the I2C bus but this is not demonstrated here.
  
 Probing the bus on the RPi with [[:tools:i2ctools|I2C Tools]] should reveal the following. Probing the bus on the RPi with [[:tools:i2ctools|I2C Tools]] should reveal the following.
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 </code> </code>
 === MCP23016 === === MCP23016 ===
 +
 +The MCP23016 is general purpose digital I/O expander. There are more modern and faster varieties of this device but as yet they are not available at CPC.
  
 ^Control ^Register ^Function | ^Control ^Register ^Function |
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 == ESP-01 NodeMcu == == ESP-01 NodeMcu ==
  
-First we need eSPY, fetch and build it. The examples below come with the source.+The NodeMcu firmware can be controlled via a serial console. This can be a manual operation else with a specially written tool for the job: eSPY. 
 + 
 +First we need to fetch eSPY, and then build it. The examples for eSPY on this page come with the eSPY source.
 <code> <code>
 hg clone http://hg.kewl.org/pub/espy hg clone http://hg.kewl.org/pub/espy
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 </code> </code>
  
-The script comes with the eSPY application and can be demomstrated thus.+The script comes with the eSPY application and can be demomstrated like this.
 <code> <code>
 ./mcp.esp ./mcp.esp
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 === PCF8591 === === PCF8591 ===
 +
 +The PCF8591 combines 4 analogue inputs and a single analogue output. The inputs can be more than simple input channels but this isn't looked at here.
 +
 ^Control ^Register   ^Function | ^Control ^Register   ^Function |
 |0        | channel 0 |Read ADC 0| |0        | channel 0 |Read ADC 0|
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 </code> </code>
  
-When the script is run with eSPY we can see the DAC output ramp up and a running commentary.+When the script is run with eSPY we can see the DAC output ramp up with a running status.
 <code> <code>
 0 0
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 I2C EEPROMs have varied addressing schemes. The simplest is a 8-bit address offset, another one where a block selection is made with an I2C address and a byte selection is made with an 8-bit address offset. Yet another, where the I2C address is fixed but it now has a 16-bit address offset and lastly one with both of the last methods combined. I2C EEPROMs have varied addressing schemes. The simplest is a 8-bit address offset, another one where a block selection is made with an I2C address and a byte selection is made with an 8-bit address offset. Yet another, where the I2C address is fixed but it now has a 16-bit address offset and lastly one with both of the last methods combined.
  
-The 24LC512 which uses 16-bit addressing. The addressing byte order is high byte, low byte.+The 24LC512 looked at here uses a fixed I2C address and 16-bit addressing. The addressing byte order is high byte, low byte.
  
 == ESP-01 NodeMcu == == ESP-01 NodeMcu ==
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 238 238
 </code> </code>
- 
-eSPY is still being developed and as yet doesn't filter the LUA prompts from the output. 
  
 == RPi == == RPi ==
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 [[http://www.nxp.com/documents/data_sheet/PCF8591.pdf|PCF8591 data-sheet]]\\ [[http://www.nxp.com/documents/data_sheet/PCF8591.pdf|PCF8591 data-sheet]]\\
 [[http://ww1.microchip.com/downloads/en/DeviceDoc/21754M.pdf|24LC512 data-sheet]]\\ [[http://ww1.microchip.com/downloads/en/DeviceDoc/21754M.pdf|24LC512 data-sheet]]\\
 +