“SKU:RB-02S112 電子羅盤”的版本間的差異

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[[文件:02S11201.png|500px|縮略圖|右]]
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==產(chǎn)品概述==
 
==產(chǎn)品概述==
 
電子羅盤,又稱數(shù)字羅盤,在現(xiàn)代技術(shù)條件中電子羅盤作為導(dǎo)航儀器或姿態(tài)傳感器已被廣泛應(yīng)用。此款傳感器是三軸數(shù)字羅盤,采用I2C串行總線接口,芯片選用Honeywell HMC5883L,具有高精度,偏移抑制等特點(diǎn)。此傳感器具有12位ADC、低噪聲、自檢測、低電壓操作和寬磁場范圍等特點(diǎn),并且內(nèi)置驅(qū)動電路,采用I2C數(shù)字接口,體積小,輕便,操作簡單。
 
電子羅盤,又稱數(shù)字羅盤,在現(xiàn)代技術(shù)條件中電子羅盤作為導(dǎo)航儀器或姿態(tài)傳感器已被廣泛應(yīng)用。此款傳感器是三軸數(shù)字羅盤,采用I2C串行總線接口,芯片選用Honeywell HMC5883L,具有高精度,偏移抑制等特點(diǎn)。此傳感器具有12位ADC、低噪聲、自檢測、低電壓操作和寬磁場范圍等特點(diǎn),并且內(nèi)置驅(qū)動電路,采用I2C數(shù)字接口,體積小,輕便,操作簡單。

2016年12月8日 (四) 17:33的版本

02S112001.png

目錄

產(chǎn)品概述

電子羅盤,又稱數(shù)字羅盤,在現(xiàn)代技術(shù)條件中電子羅盤作為導(dǎo)航儀器或姿態(tài)傳感器已被廣泛應(yīng)用。此款傳感器是三軸數(shù)字羅盤,采用I2C串行總線接口,芯片選用Honeywell HMC5883L,具有高精度,偏移抑制等特點(diǎn)。此傳感器具有12位ADC、低噪聲、自檢測、低電壓操作和寬磁場范圍等特點(diǎn),并且內(nèi)置驅(qū)動電路,采用I2C數(shù)字接口,體積小,輕便,操作簡單。

產(chǎn)品參數(shù)

  1. 產(chǎn)品類型:數(shù)字傳感器
  2. 接口類型:KF2510
  3. 工作電壓:5V
  4. 工作溫度:-25℃~+85℃
  5. 產(chǎn)品尺寸(mm):30x25mm
  6. 固定孔尺寸(mm):M3 * 4個(gè)
  7. 固定孔間距:23 * 18 mm
  8. 重量(g):3g

使用方法

1、測試環(huán)境

  • 硬件環(huán)境:Arduino 、電子羅盤
  • 軟件環(huán)境:Arduino IDE 1.7.7

2、引腳定義

  • SDA:I2C總線的數(shù)據(jù)線引腳
  • SCL:2C總線的時(shí)鐘信號引腳
  • -:電源負(fù)極
  • +:電源正極

3、硬件連接

02S11201.png

4、測試程序

#include <Wire.h>
#include <HMC5883L.h>

HMC5883L compass;

void setup()
{
  Serial.begin(9600);

  // Initialize HMC5883L
  Serial.println("Initialize HMC5883L");
  while (!compass.begin())
  {
    Serial.println("Could not find a valid HMC5883L sensor, check wiring!");
    delay(500);
  }
  
  // Set measurement range
  // +/- 0.88 Ga: HMC5883L_RANGE_0_88GA
  // +/- 1.30 Ga: HMC5883L_RANGE_1_3GA (default)
  // +/- 1.90 Ga: HMC5883L_RANGE_1_9GA
  // +/- 2.50 Ga: HMC5883L_RANGE_2_5GA
  // +/- 4.00 Ga: HMC5883L_RANGE_4GA
  // +/- 4.70 Ga: HMC5883L_RANGE_4_7GA
  // +/- 5.60 Ga: HMC5883L_RANGE_5_6GA
  // +/- 8.10 Ga: HMC5883L_RANGE_8_1GA
  compass.setRange(HMC5883L_RANGE_1_3GA);

  // Set measurement mode
  // Idle mode:              HMC5883L_IDLE
  // Single-Measurement:     HMC5883L_SINGLE
  // Continuous-Measurement: HMC5883L_CONTINOUS (default)
  compass.setMeasurementMode(HMC5883L_CONTINOUS);
 
  // Set data rate
  //  0.75Hz: HMC5883L_DATARATE_0_75HZ
  //  1.50Hz: HMC5883L_DATARATE_1_5HZ
  //  3.00Hz: HMC5883L_DATARATE_3HZ
  //  7.50Hz: HMC5883L_DATARATE_7_50HZ
  // 15.00Hz: HMC5883L_DATARATE_15HZ (default)
  // 30.00Hz: HMC5883L_DATARATE_30HZ
  // 75.00Hz: HMC5883L_DATARATE_75HZ
  compass.setDataRate(HMC5883L_DATARATE_15HZ);

  // Set number of samples averaged
  // 1 sample:  HMC5883L_SAMPLES_1 (default)
  // 2 samples: HMC5883L_SAMPLES_2
  // 4 samples: HMC5883L_SAMPLES_4
  // 8 samples: HMC5883L_SAMPLES_8
  compass.setSamples(HMC5883L_SAMPLES_1);

  // Check settings
  checkSettings();
}

void checkSettings()
{
  Serial.print("Selected range: ");
  
  switch (compass.getRange())
  {
    case HMC5883L_RANGE_0_88GA: Serial.println("0.88 Ga"); break;
    case HMC5883L_RANGE_1_3GA:  Serial.println("1.3 Ga"); break;
    case HMC5883L_RANGE_1_9GA:  Serial.println("1.9 Ga"); break;
    case HMC5883L_RANGE_2_5GA:  Serial.println("2.5 Ga"); break;
    case HMC5883L_RANGE_4GA:    Serial.println("4 Ga"); break;
    case HMC5883L_RANGE_4_7GA:  Serial.println("4.7 Ga"); break;
    case HMC5883L_RANGE_5_6GA:  Serial.println("5.6 Ga"); break;
    case HMC5883L_RANGE_8_1GA:  Serial.println("8.1 Ga"); break;
    default: Serial.println("Bad range!");
  }
  
  Serial.print("Selected Measurement Mode: ");
  switch (compass.getMeasurementMode())
  {  
    case HMC5883L_IDLE: Serial.println("Idle mode"); break;
    case HMC5883L_SINGLE:  Serial.println("Single-Measurement"); break;
    case HMC5883L_CONTINOUS:  Serial.println("Continuous-Measurement"); break;
    default: Serial.println("Bad mode!");
  }

  Serial.print("Selected Data Rate: ");
  switch (compass.getDataRate())
  {  
    case HMC5883L_DATARATE_0_75_HZ: Serial.println("0.75 Hz"); break;
    case HMC5883L_DATARATE_1_5HZ:  Serial.println("1.5 Hz"); break;
    case HMC5883L_DATARATE_3HZ:  Serial.println("3 Hz"); break;
    case HMC5883L_DATARATE_7_5HZ: Serial.println("7.5 Hz"); break;
    case HMC5883L_DATARATE_15HZ:  Serial.println("15 Hz"); break;
    case HMC5883L_DATARATE_30HZ: Serial.println("30 Hz"); break;
    case HMC5883L_DATARATE_75HZ:  Serial.println("75 Hz"); break;
    default: Serial.println("Bad data rate!");
  }
  
  Serial.print("Selected number of samples: ");
  switch (compass.getSamples())
  {  
    case HMC5883L_SAMPLES_1: Serial.println("1"); break;
    case HMC5883L_SAMPLES_2: Serial.println("2"); break;
    case HMC5883L_SAMPLES_4: Serial.println("4"); break;
    case HMC5883L_SAMPLES_8: Serial.println("8"); break;
    default: Serial.println("Bad number of samples!");
  }

}

void loop()
{
  Vector raw = compass.readRaw();
  Vector norm = compass.readNormalize();

  Serial.print(" Xraw = ");
  Serial.print(raw.XAxis);
  Serial.print(" Yraw = ");
  Serial.print(raw.YAxis);
  Serial.print(" Zraw = ");
  Serial.print(raw.ZAxis);
  Serial.print(" Xnorm = ");
  Serial.print(norm.XAxis);
  Serial.print(" Ynorm = ");
  Serial.print(norm.YAxis);
  Serial.print(" ZNorm = ");
  Serial.print(norm.ZAxis);
  Serial.println();  

  delay(100);
}

5、程序效果
在串口監(jiān)控窗口中分別打印X、Y、Z軸輸出值,如圖所示:

02S11202.png

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