Hardware/TBalancer/TBalancer.cs
author moel.mich
Sun, 25 Apr 2010 14:40:19 +0000
changeset 97 1a2d7dad320e
parent 87 ecdc3bcef083
child 109 70d0c3102424
permissions -rw-r--r--
Fixed Issue 43.
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/*
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  Version: MPL 1.1/GPL 2.0/LGPL 2.1
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  The contents of this file are subject to the Mozilla Public License Version
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  1.1 (the "License"); you may not use this file except in compliance with
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  the License. You may obtain a copy of the License at
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  http://www.mozilla.org/MPL/
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  Software distributed under the License is distributed on an "AS IS" basis,
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  WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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  for the specific language governing rights and limitations under the License.
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  The Original Code is the Open Hardware Monitor code.
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  The Initial Developer of the Original Code is 
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  Michael Möller <m.moeller@gmx.ch>.
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  Portions created by the Initial Developer are Copyright (C) 2009-2010
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  the Initial Developer. All Rights Reserved.
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  Contributor(s):
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  Alternatively, the contents of this file may be used under the terms of
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  either the GNU General Public License Version 2 or later (the "GPL"), or
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  the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
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  in which case the provisions of the GPL or the LGPL are applicable instead
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  of those above. If you wish to allow use of your version of this file only
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  under the terms of either the GPL or the LGPL, and not to allow others to
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  use your version of this file under the terms of the MPL, indicate your
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  decision by deleting the provisions above and replace them with the notice
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  and other provisions required by the GPL or the LGPL. If you do not delete
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  the provisions above, a recipient may use your version of this file under
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  the terms of any one of the MPL, the GPL or the LGPL.
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*/
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using System;
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using System.Collections.Generic;
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using System.Configuration;
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using System.Drawing;
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using System.Text;
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namespace OpenHardwareMonitor.Hardware.TBalancer {
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  public class TBalancer : IHardware {
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    private int portIndex;
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    private FT_HANDLE handle;
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    private Image icon;
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    private byte protocolVersion;
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    private Sensor[] digitalTemperatures = new Sensor[8];
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    private Sensor[] analogTemperatures = new Sensor[4];
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    private Sensor[] sensorhubTemperatures = new Sensor[6];
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    private Sensor[] sensorhubFlows = new Sensor[2];
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    private Sensor[] fans = new Sensor[4];
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    private Sensor[] miniNGTemperatures = new Sensor[4];
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    private Sensor[] miniNGFans = new Sensor[4];
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    private List<ISensor> active = new List<ISensor>();
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    private List<ISensor> deactivating = new List<ISensor>();
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    private int[] primaryData = new int[0];
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    private int[] alternativeData = new int[0];
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    public const byte STARTFLAG = 100;
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    public const byte ENDFLAG = 254;
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    private delegate void MethodDelegate();
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    private MethodDelegate alternativeRequest;    
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    public TBalancer(int portIndex, byte protocolVersion) {
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      this.portIndex = portIndex;
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      this.icon = Utilities.EmbeddedResources.GetImage("bigng.png");
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      this.protocolVersion = protocolVersion;
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      ParameterDescription[] parameter = new ParameterDescription[] {
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        new ParameterDescription("Offset", "Temperature offset.", 0)
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      };
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      int offset = 0;
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      for (int i = 0; i < digitalTemperatures.Length; i++)
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        digitalTemperatures[i] = new Sensor("Digital Sensor " + i,
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          offset + i, null, SensorType.Temperature, this, parameter);
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      offset += digitalTemperatures.Length;
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      for (int i = 0; i < analogTemperatures.Length; i++)
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        analogTemperatures[i] = new Sensor("Analog Sensor " + (i + 1),
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          offset + i, null, SensorType.Temperature, this, parameter);
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      offset += analogTemperatures.Length;
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      for (int i = 0; i < sensorhubTemperatures.Length; i++)
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        sensorhubTemperatures[i] = new Sensor("Sensorhub Sensor " + i,
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          offset + i, null, SensorType.Temperature, this, parameter);
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      offset += sensorhubTemperatures.Length;
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      for (int i = 0; i < sensorhubFlows.Length; i++)
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        sensorhubFlows[i] = new Sensor("Flowmeter " + (i + 1),
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          offset + i, null, SensorType.Flow, this, new ParameterDescription[] {
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            new ParameterDescription("Impulse Rate", 
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              "The impulse rate of the flowmeter in pulses/L", 509)
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          });
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      offset += sensorhubFlows.Length;
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      for (int i = 0; i < miniNGTemperatures.Length; i++)
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        miniNGTemperatures[i] = new Sensor("miniNG #" + (i / 2 + 1) +
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          " Sensor " + (i % 2 + 1), offset + i, null, SensorType.Temperature, 
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          this, parameter);
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      offset += miniNGTemperatures.Length;
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      alternativeRequest = new MethodDelegate(DelayedAlternativeRequest);
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      Open();
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      Update(); 
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    }
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    private void ActivateSensor(Sensor sensor) {
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      deactivating.Remove(sensor);
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      if (!active.Contains(sensor)) {
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        active.Add(sensor);
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        if (SensorAdded != null)
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          SensorAdded(sensor);
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      }      
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    }
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    private void DeactivateSensor(Sensor sensor) {
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      if (deactivating.Contains(sensor)) {
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        active.Remove(sensor);
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        deactivating.Remove(sensor);
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        if (SensorRemoved != null)
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          SensorRemoved(sensor);
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      } else if (active.Contains(sensor)) {
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        deactivating.Add(sensor);
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      }     
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    }
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    private void ReadminiNG(int[] data, int number) {
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      int offset = 1 + number * 65;
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      if (data[offset + 61] != ENDFLAG)
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        return;
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      for (int i = 0; i < 2; i++) {
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        Sensor sensor = miniNGTemperatures[number * 2 + i];
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        if (data[offset + 7 + i] > 0) {
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          sensor.Value = 0.5f * data[offset + 7 + i] + 
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            sensor.Parameters[0].Value;
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          ActivateSensor(sensor);
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        } else {
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          DeactivateSensor(sensor);
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        }
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      }
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      for (int i = 0; i < 2; i++) {
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        float maxRPM = 20.0f * data[offset + 44 + 2 * i];
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        if (miniNGFans[number * 2 + i] == null)
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          miniNGFans[number * 2 + i] = 
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            new Sensor("miniNG #" + (number + 1) + " Fan Channel " + (i + 1),
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            4 + number * 2 + i, maxRPM, SensorType.Fan, this);
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        Sensor sensor = miniNGFans[number * 2 + i];
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        sensor.Value = 20.0f * data[offset + 43 + 2 * i];
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        ActivateSensor(sensor);
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      }
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    }
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    private void ReadData() {
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      int[] data = new int[285];
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      for (int i = 0; i < data.Length; i++)
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        data[i] = FTD2XX.ReadByte(handle);
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      if (data[0] != STARTFLAG) {
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        FTD2XX.FT_Purge(handle, FT_PURGE.FT_PURGE_RX);   
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        return;
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      }
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      if (data[1] == 255 || data[1] == 88) { // bigNG
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        if (data[274] != protocolVersion) 
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          return;
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        this.primaryData = data;
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        for (int i = 0; i < digitalTemperatures.Length; i++)
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          if (data[238 + i] > 0) {
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            digitalTemperatures[i].Value = 0.5f * data[238 + i] + 
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              digitalTemperatures[i].Parameters[0].Value;
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            ActivateSensor(digitalTemperatures[i]);
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          } else {
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            DeactivateSensor(digitalTemperatures[i]);
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          }
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        for (int i = 0; i < analogTemperatures.Length; i++)
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          if (data[260 + i] > 0) {
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            analogTemperatures[i].Value = 0.5f * data[260 + i] +
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              analogTemperatures[i].Parameters[0].Value;
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            ActivateSensor(analogTemperatures[i]);
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          } else {
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            DeactivateSensor(analogTemperatures[i]);
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          }
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        for (int i = 0; i < sensorhubTemperatures.Length; i++)
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          if (data[246 + i] > 0) {
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            sensorhubTemperatures[i].Value = 0.5f * data[246 + i] +
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              sensorhubTemperatures[i].Parameters[0].Value;
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            ActivateSensor(sensorhubTemperatures[i]);
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          } else {
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            DeactivateSensor(sensorhubTemperatures[i]);
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          }
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        for (int i = 0; i < sensorhubFlows.Length; i++)
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          if (data[231 + i] > 0 && data[234] > 0) {
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            float pulsesPerSecond = (data[231 + i] * 4.0f) / data[234];
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            float pulsesPerLiter = sensorhubFlows[i].Parameters[0].Value;
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            sensorhubFlows[i].Value = pulsesPerSecond * 3600 / pulsesPerLiter;
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            ActivateSensor(sensorhubFlows[i]);
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          } else {
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            DeactivateSensor(sensorhubFlows[i]);
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          }
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        for (int i = 0; i < fans.Length; i++) {
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          float maxRPM = 11.5f * ((data[149 + 2 * i] << 8) | data[148 + 2 * i]);
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          if (fans[i] == null)
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            fans[i] = new Sensor("Fan Channel " + i, i, maxRPM, SensorType.Fan,
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              this, new ParameterDescription[] {
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                new ParameterDescription("MaxRPM", 
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                  "Maximum revolutions per minute (RPM) of the fan.", maxRPM)
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              });
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          if ((data[136] & (1 << i)) == 0) // pwm mode
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            fans[i].Value = fans[i].Parameters[0].Value * 0.02f * data[137 + i];
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          else // analog mode
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            fans[i].Value = fans[i].Parameters[0].Value * 0.01f * data[141 + i]; 
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          ActivateSensor(fans[i]);
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        }
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      } else if (data[1] == 253) { // miniNG #1
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        this.alternativeData = data;
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        ReadminiNG(data, 0);        
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        if (data[66] == 252)  // miniNG #2
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          ReadminiNG(data, 1);
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      } 
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    }
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    public Image Icon {
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      get { return icon; }
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    }
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    public string Name {
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      get { return "T-Balancer bigNG"; }
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    }
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    public string Identifier {
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      get { return "/bigng/" + this.portIndex; }
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    }
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    public IHardware[] SubHardware {
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      get { return new IHardware[0]; }
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    }
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    public ISensor[] Sensors {
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      get { return active.ToArray(); }
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    }
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    public string GetReport() {
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      StringBuilder r = new StringBuilder();
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      r.AppendLine("T-Balancer bigNG");
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      r.AppendLine();
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      r.Append("Port Index: "); r.AppendLine(portIndex.ToString());
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      r.AppendLine();
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      r.AppendLine("Primary System Information Answer");
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      r.AppendLine();
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      r.AppendLine("       00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F");
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      r.AppendLine();
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      for (int i = 0; i <= 0x11; i++) {
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        r.Append(" "); r.Append((i << 4).ToString("X3")); r.Append("  ");
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        for (int j = 0; j <= 0xF; j++) {
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          int index = ((i << 4) | j);
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          if (index < primaryData.Length) {
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            r.Append(" ");
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            r.Append(primaryData[index].ToString("X2"));
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          }          
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        }
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        r.AppendLine();
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      }
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      r.AppendLine();
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      if (alternativeData.Length > 0) {
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        r.AppendLine("Alternative System Information Answer");
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        r.AppendLine();
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        r.AppendLine("       00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F");
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        r.AppendLine();
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        for (int i = 0; i <= 0x11; i++) {
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          r.Append(" "); r.Append((i << 4).ToString("X3")); r.Append("  ");
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          for (int j = 0; j <= 0xF; j++) {
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            int index = ((i << 4) | j);
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            if (index < alternativeData.Length) {
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              r.Append(" ");
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              r.Append(alternativeData[index].ToString("X2"));
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            }
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          }
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          r.AppendLine();
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        }
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        r.AppendLine();
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      }
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      return r.ToString();
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    }
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    private void DelayedAlternativeRequest() {
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      System.Threading.Thread.Sleep(500);      
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      FTD2XX.Write(handle, new byte[] { 0x37 });
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    }
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    public void Open() {
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      FTD2XX.FT_Open(portIndex, out handle); 
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      FTD2XX.FT_SetBaudRate(handle, 19200);
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      FTD2XX.FT_SetDataCharacteristics(handle, 8, 1, 0);
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      FTD2XX.FT_SetFlowControl(handle, FT_FLOW_CONTROL.FT_FLOW_RTS_CTS, 0x11,
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        0x13);
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      FTD2XX.FT_SetTimeouts(handle, 1000, 1000);
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      FTD2XX.FT_Purge(handle, FT_PURGE.FT_PURGE_ALL);
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    }
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    public void Update() {
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      while (FTD2XX.BytesToRead(handle) >= 285)
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        ReadData();
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      if (FTD2XX.BytesToRead(handle) == 1)
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        FTD2XX.ReadByte(handle);
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      FTD2XX.Write(handle, new byte[] { 0x38 });
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      alternativeRequest.BeginInvoke(null, null);
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    }
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    public void Close() {
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      FTD2XX.FT_Close(handle);
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    }
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    public event SensorEventHandler SensorAdded;
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    public event SensorEventHandler SensorRemoved;
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  }
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}