RPICT7V1 Version 5: Difference between revisions

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[http://lechacal.com/RPICT/7CT1V/RPICT_MCP3208_v3.1.0.ino Default Sketch V3.1.0.]<br>
[http://lechacal.com/RPICT/7CT1V/RPICT_MCP3208_v3.1.0.ino Default Sketch V3.1.0.]<br>
[http://lechacal.com/RPICT/7CT1V/RPICT_MCP3208_v3.2.0.ino Default Sketch V3.2.0.]<br>


===noOSC Sketch===
===noOSC Sketch===

Revision as of 21:21, 7 March 2021

RPICT7V1 Version 5

Link to shop

This page is for board specific information. More information can be found on the generic page for RPICT series.

  • 7 AC current sensors.
  • 1 AC Voltage sensor.
  • Measure RMS Current and Voltage, Active power, Apparent Power, Reactive Power, Frequency, Power Factor.
  • Fit on Raspberrypi 4 holes mounting pattern.
  • AtMega328 Mcu (Arduino UNO)
  • MCP3208 ADC
  • Stackable with RPICT8 Slave.


Compatibility

Version Compatible?
Raspberrypi 1 A No
Raspberrypi 1 B+ Yes
Raspberrypi 2 B Yes
Raspberrypi 3 B Yes
Raspberrypi 3 B+ Yes
Raspberrypi 4 B Yes
  • Asus Tinkerboard has been reported to work with RPICT units. Note we wont be able to provide support for the Tinkerboard.

Recommended sensors

  • AC Current sensor:
    • SCT-013-000
    • SCT-019
    • SCT-006
    • SCT-024 400A/100mA
    • SCT-031 600A/100mA
  • AC Voltage sensor:

VOLTAGE OUTPUT CT ARE NOT COMPATIBLE WITH THIS BOARD.

Stacking Configuration

General stacking information is described in the RPICT stacking page. RPICT_Stacking Version 5

Software Configuration

Using a serial line terminal program one can configure the following:

- Polling interval
- Output format (csv or emonhub)
- Calibration values (Voltage and Current)
- Voltage/current combinations for real power computation.
- Output channels

The documentation for serial configuration can be found on this page.

Over Serial Configuration - Sketch 3.0

The board can be configured with the online configurator.

Auto Reset

Version 5 units have auto reset support. When using the lcl-rpict-config.py command it is possible to reset the RPICT remotely with the -a option.

lcl-rpict-config.py -a 

or

lcl-rpict-config.py -a -w myfile.conf

Usage without Voltage sensor

Default configuration expect a voltage sensor to be plugged in.

The configuration rpict7v1_noV.conf will only output current Irms for the 7 channels.

wget lechacal.com/RPICT/config/B4/rpict7v1_noV.conf
$ lcl-rpict-config.py -w rpict7v1_noV.conf

Files

Default Sketch

Default Sketch V3.1.0.
Default Sketch V3.2.0.

noOSC Sketch

The Default sketch allows up to 28 computation nodes to be run. If more are needed for higher stacks then we recommend to use the noOSC sketch. This is the same as the default sketch but Over Serial Configuration (OSC) as been removed to allow up to 40 nodes to be computed. Configuration has to be edited in the sketch.

noOSC Sketch v1.0
noOSC Sketch v1.1

Simple Python Example

The example python script below will work well with the default configuration.

 import serial
 ser = serial.Serial('/dev/ttyAMA0', 38400)
 
 try:
       while 1:
            # Read one line from the serial buffer
            line = ser.readline()
 
            # Remove the trailing carriage return line feed
            line = line[:-2]
 
            # Create an array of the data
            Z = line.split(' ')
 
            # Print it nicely
            if len(Z)>15:
                print ("----------")
                print ("Vrms:\t%s" % Z[15])
                print ("          \tCT1\tCT2\tCT3\tCT4\tCT5\tCT6\tCT7") 
                print ("RealPower:\t%s\t%s\t%s\t%s\t%s\t%s\t%s" % (Z[1], Z[2], Z[3], Z[4], Z[5], Z[6],$
                print ("Irms     :\t%s\t%s\t%s\t%s\t%s\t%s\t%s" % (Z[8], Z[9], Z[10], Z[11], Z[12], Z[$
 
 
 except KeyboardInterrupt:
       ser.close()

To run this first of all make sure you have python-serial package installed

$ sudo apt-get install python-serial

Then run the command below to download the script.

wget lechacal.com/RPICT/example/RPICT7V1_DEMO.py.zip
unzip RPICT7V1_DEMO.py.zip

and run it using

python RPICT7V1_DEMO.py

Data Output

Using the manufacture firmware the data output is:

NodeID RP1 RP2 RP3 RP4 RP5 RP6 RP7 Irms1 Irms2 Irms3 Irms4 Irms5 Irms6 Irms7 Vrms

RP1 is Real Power 1 from CT1 Irms is the rms current on CT1 Vrms is the rms voltage

Real Powers are computed using the following rules:

RealPower1 -> CT1 & V1
RealPower2 -> CT2 & V1
... and so on.

These rules can be modified in the configuration if needed.

Other output type can be streamed out. This should be configured in the unit.

All outputs type available are

  • Vrms (V)
  • Irms (mA)
  • Real Power (W)
  • Apparent Power (W)
  • Power Factor
  • Estimated Power
  • Frequency
  • Reactive Power

Emoncms Config (Emonhub)

Make sure you read this first.

For default configuration. Used as single board only (not stacked).

 [[11]]
   nodename = my_RPICT7V1
   hardware = RPICT7V1
   [[[rx]]]
      names = RP1, RP2, RP3, RP4, RP5, RP6, RP7, Irms1, Irms2, Irms3, Irms4, Irms5, Irms6, Irms7, Vrms
      datacode = 0
      scales = 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1
      units =W,W,W,W,W,W,W,mA,mA,mA,mA,mA,mA,mA,V


Enclosure

Enclosures kit are available as a 3D printed product. Link to the shop.

Both Raspberrypi 3 and 4 format are available.

Related Pages

Use Emonhub with RPICT

Howto setup Raspbian for serial read

How to calibrate the Voltage Port

Update RPICT firmware (CT7V1/CT4V3/CT8)