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Category: Domotica

Homey Clickthrough

Homey Clickthrough

I’m still waiting for the delivery of my Homey. I hope to receive mine this month. In the meantime Athom made a nice video showing what you can do with Homey. I love what you can do with it already.

Homey Clickthrough

Homey

Homey

HomeyA new year has begun, so it’s time for a new gadget 😉 I just ordered an Homey! I want it to control my lights (Philips Hue), room temperature (Nest) and my home cinema.

What is Homey?
Homey is your personal assistant who will make your home personal again. Whatever you want to do, Homey takes care of the technical parts, so you’re left with the fun. Interact with your home and your devices in the way you interact with anyone else: using natural, spoken commands.

They just started delivering the first batch, so I hope to receive mine this month.

Update (13-01-2016): Looks my Homey will be shipped around 15 February 2016.

A new domotica dashboard

A new domotica dashboard

For over five years I measure the temperature in different rooms at home. Al these year I had a dashboard where I could see the temperatures in a chart.  The dashboard also shows me the minimum and maximum temperature per room over a certain period. The picture below shows the dashboard.
The old Domotica Dashboard

Over the years my interest for domotica began to grow and I wanted more than just measuring the temperature. Inspired by the Bwired site, I started looking what else can be done.

Electricity usage

I first looked into measuring my electricity usage (I don’t have gas in my home). To be able to measure this, I needed a new electricity meter, because mine was not ‘smart’. After a new smart meter was installed I started using the system of Net2Grid to measure the electricity usage. It’s a nice system which gives you a good insight in your usage. With the Energy Insight App you can even see your usage on your smart phone.

The equipment for reading information from the smart meter is connected to the P1 port of the meter. Because I wanted know what kind of port this is, I started reading about it. It seemed that the P1 port is just a serial port which can be read as such. I read about some people who where using a Netduino board to read the information from the P1 port. So I order one and started experimenting with it. See this post about how to read the P1 port using a Netduino.

Because I already was using the Net2Grid system, I didn’t use the Netduino for I while, but during the Christmas holidays I picked up the project where I left it and started extending the code for reading the information coming from the P1 port and I also rewrote the back-end part I used for my temperature measurement, so I could also send the information coming from the smart meter.

The new dashboard

Because I now can read the smart meter myself, I was also able to integrate the information in my dashboard (so I didn’t need to switch to the Net2Grid dashboard). So I started developing a new version of the dashboard. The result is shown in the picture below.

The new Domotica DashboardAs you can see, this is a complete different dashboard. This dashboard does not only show me the temperature as the old one did, but also the power usage and the current consumption coming from the smart meter.

Lighting

As you can see in the picture of the new dashboard, I also measure the light strength. This information is also coming from the Netduino by using a simple LDR for measuring the light strength. I will write a post about how this works later.

The reason for measuring the light strength is, that I want to automate my lighting. As lighting I use the Philips Hue LED lighting system. Because this system is connected to my local network and has an open API, I’m able to operate the lights programmatically. This is a project still in progress :-). But the basic idea is to switch to lights on when it gets dark en turn them off when it’s bright (all within a predefined time of day). But more about that later.

Read data from a P1 port of a smart meter using a Netduino

Read data from a P1 port of a smart meter using a Netduino

Netduino P1 port connectionWhen you own a smart meter (in Dutch it’s called slimme meter), you probably know that these meters have a port for reading the meter’s data. This port is called the P1 port. This article will describe how you can connect to the P1 port and read the data coming from the meter using a Netduino Plus 2.

The first thing to do is connection the P1 port to the Netduino. The P1 port is a standard RJ11 socket. The P1 port is a half duplex serial port, with signals on TTL-level (0-5V) and with 4 pins connected. The RJ11 connector schema below will show the pins with the signal on each pin. As soon as the RTS-pin gets voltage, a data package will be send through the RxD pin. As long the RTS-pin has voltage, every 10 seconds data will be send.RJ11 connector

Normally serial ports on TTL-level will have an inverted signal. For the P1 port that’s not the case. Therefore you cannot connect the P1 port directly to the Netduino, but you will have to invert the signal first.

The schema below shows how to connect the P1 port to the Netduino using a HD74LS04P Signal Inverter IC. The Signal Invert IC contains 6 inverters, but only 2 are used.

P1 port schema

Once you have the hardware connected, you can start programming.

Opening the P1 port

You will need to use the following port settings to be able to read the P1 port’s data: baud rate: 9600, data bits: 7, parity: Even and stop bits: 1. Below the code for opening the port. In the above schema the P1 port is connected to the Netduino using connector D2, which means COM2.

[code]
string comPort = SerialPorts.COM2;
int baudRate = 9600;
int dataBits = 7;
var stopBits = StopBits.One;
var parity = Parity.Even;

// Create serial port
var serialPort = new SerialPort(comPort, baudRate, parity, dataBits, stopBits);

// Open serial port
serialPort.Open();
[/code]

Reading the data

Below you will find an example of the message as read from a P1 port. The first line will give information about the meter. As you can see, my meter is a ‘ISKRA ME382’. In a next article I will describe what the other message lines mean. A message will always start with a ‘/’ and end with a ‘!’.

/ISk5\2ME382-1003

0-0:96.1.1(4B413650303035313332363238353133)
1-0:1.8.1(00357.909*kWh)
1-0:1.8.2(00253.970*kWh)
1-0:2.8.1(00000.000*kWh)
1-0:2.8.2(00000.000*kWh)
0-0:96.14.0(0001)
1-0:1.7.0(0000.55*kW)
1-0:2.7.0(0000.00*kW)
0-0:17.0.0(0999.00*kW)
0-0:96.3.10(1)
0-0:96.13.1()
0-0:96.13.0()
!

The code below will show how you can read the message form the P1 port. The first method will use an infinite loop to continuously read the ports data. After a message was received, the code will pause a while before continuing reading the next message.

[code]
private static void ReadDataFromP1Port(SerialPort serialPort)
{
while (true)
{
if (serialPort.BytesToRead > 0)
{
var msg = ReadMessageFromSerialPort(serialPort);

if (msg != string.Empty)
{
// Wait a while before continuing
Thread.Sleep(_TimeToWaitBeforePressingNextMessageInMilliSeconds);
}
}
}
}
[/code]

The next method will show how the message coming from the P1 port is processed and how the readable message is composed. Because the Netduino Plus 2 handles the serial port a bit different than a Netduino 2, it is necessary to remove the parity bit (see ‘& 127‘) from the incoming byte. If you do not remove the parity bit, your data will be garbage.

[code]
private static string ReadMessageFromSerialPort(SerialPort serialPort)
{
// Init
string msg = string.Empty;
int singleByte = 0;

// Read the message
while (serialPort.CanRead && singleByte != _StopChar && msg.Length < _ProtectAgainstOverflow)
{
// Read byte and remove parity bit
// Without removing the parity bit, the message will contain garbage on a Netduino Plus 2
singleByte = serialPort.ReadByte() & 127;

// Add character to message
msg += (char)singleByte;
}

// Flush the serial port
serialPort.Flush();

// If loop was exited without the last character being the stop character, the message was invalid, so return an emtpy message
if (singleByte != _StopChar)
{
return string.Empty;
}

// Return the message
return msg;
}
[/code]

These are the used variables

[code]
private static int _StopChar = 33; // = !
private static int _TimeToWaitBeforePressingNextMessageInMilliSeconds = 8000;
private static int _ProtectAgainstOverflow = 600;
[/code]

Netduino plus 2: First steps

Netduino plus 2: First steps

NetduinoI while ago I bought a Netduino plus 2. This open-source electronics prototyping platform is based on the .Net Micro Framework. The advantage of the plus 2 is, the presence of a network connection. This  connection makes it possible to connect the Netduino to the internet.

After setting up the development environment (Visual C# 2010, .Net Micro Framework, .Net Micro Framework Toolbox and Netduino SDK) to programming can start.

Netduino Plus 2

In this post I will show some code I used for my first steps into progamming the Netduino. The program will use the on-board button and LED.  When the button is pressed, a URL will be called and when the response from the URL is ok, the LED will blink.

This is the C# code which will run on the Netduino

[code]

using System;
using System.Net;
using System.Net.Sockets;
using System.Threading;
using Microsoft.SPOT;
using Microsoft.SPOT.Hardware;
using SecretLabs.NETMF.Hardware;
using SecretLabs.NETMF.Hardware.NetduinoPlus;
using Toolbox.NETMF.NET;

namespace ButtonPress
{
public class Program
{
private const string _Server = "example.com";

public static void Main()
{
// Initialize onboard LED
var led = new OutputPort(Pins.ONBOARD_LED, false);

// Initialize onboard button
var button = new InputPort(Pins.ONBOARD_SW1, false, Port.ResistorMode.Disabled);

while (true)
{
// Read button state
var buttonPressed = button.Read();

// If the button was pressed, send info to URL
if (buttonPressed)
{
// Send information
var ack = SendInformation2Url();

// If send was ok, blink LED once
if (ack)
{
BlinkLED(led, 1);
}
else // otherwise blink LED 3 times
{
BlinkLED(led, 3);
}
}
}
}
}
[/code]

Code for calling a URL

[code]
// Send information to URL
private static bool SendInformation2Url()
{
var result = false;

var socket = new IntegratedSocket(_Server, 80);
var session = new HTTP_Client(socket);

var response = session.Get("/buttonpress.php");
if (response.ResponseCode == 200)
{
result = true;
}

return result;
}
[/code]

The code for blinking the LED

[code]
// Blink the LED
private static void BlinkLED(OutputPort led, int count)
{
for (int i = 0; i < count; i++)
{
led.Write(true);
Thread.Sleep(250);
led.Write(false);
Thread.Sleep(250);
}
}
[/code]

This is the code behind the buttonpress.php:

[code]
<?php
$fp = fopen(‘buttonspress.log’, ‘a’);
fprintf($fp, "%s: button was pressed\n", date(‘Y-m-d H:i:s’));
fclose($fp);
?>
[/code]

This is all the code you need for reading the on-board button state, calling a URL and letting the on-board LED blink.