1128 User Guide: Difference between revisions

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__NOINDEX__
<metadesc>The Maxbotix EZ-1 Sonar Sensor measures the distance of an object using ultrasonic waves. Connects to an Analog Input or VINT Hub port.</metadesc>
[[Category:UserGuide]]
[[Category:UserGuide]]
==Getting Started==
==Getting Started==
{{UgSensorIntro|1128|MaxBotix EZ-1 Sonar Sensor|Voltage Ratio Input port and optionally a Digital Output port (for turning sensor on/off)}}


===Checking the Contents===
{{UGbox|
'''You should have received:'''
* A sonar sensor
* A sensor cable
|
'''In order to test your new Phidget you will also need:'''
* A PhidgetInterfaceKit 8/8/8 or a PhidgetTextLCD
* A USB cable
* A soldering iron and solder
* A piece of wire (optional)
||}}


===Soldering the Sensor Cable===
Next, you will need to connect the pieces:
{{UGbox|
[[Image:1128_0_Connecting_The_Hardware.jpg|500px|right|link=]]
Solder one end of the sensor cable to the Sonar Sensor. The black wire is soldered to GND, the red wire to +5 and the white wire to AN. Optionally a fourth wire can be soldered to RX in order to turn the sensor on and off from your computer.
{| class ="wikitable"
|
| align="center" style="background:#f0f0f0;"|'''Black Wire'''
[[File:1128_0_Wiring.jpg|400px|link=]]||
| align="center" style="background:#f0f0f0;"|'''Red Wire'''
}}
| align="center" style="background:#f0f0f0;"|'''White Wire'''
| align="center" style="background:#f0f0f0;"|'''Fourth Wire'''
|-
|align=center| GND
|align=center| +5
|align=center| AN
|align=center| RX (optional)
|}


===Connecting the Pieces===
# Connect the 1128 to the HUB0000 with the Phidget cable.
{{UGbox|
# If you're using the fourth wire, connect it to a digital output port on the HUB0000.
#Connect the Sonar Sensor to the Analog Input 7 on the PhidgetInterfaceKit 8/8/8 using the sensor cable.
# Connect the HUB0000 to your computer with the USB cable.
#If you are using the 4th wire connect it to a digital output port.
#Connect the PhidgetInterfaceKit to your PC using the USB cable.
|
[[File:1128_0_Connecting_The_Hardware.jpg|400px|link=]]
||}}


===Testing Using Windows 2000 / XP / Vista / 7===
<br clear="all">
{{UGIntroDone|1128}}


{{UGwin}}
==Using the 1128==
{{UGcontrolpanelSensor|1128|HUB0000}}


===Running Phidgets Sample Program===
{{UGSensorVoltageRatioInput|1128|distance (cm)}}


{{UGwin2|'''InterfaceKit-full'''}}
{{UGSensorDigitalOutput|This will turn the sensor on/off if you have connected RX to the digital output.}}


{{UGbox|
==Technical Details==
Double Click on the [[File:Ph.jpg|link=]] icon to activate the Phidget Control Panel and make sure that the '''Phidget InterfaceKit 8/8/8''' is properly attached  to your PC.
===General===
|[[File:1018_2_Control_Panel_Screen.jpg|400px|link=]]
The Sonar Sensor is manufactured by [http://maxbotix.com/ MaxBotix]. We have added a Phidget cable and instructions on soldering the cable to the sensor. The 1128 is ratiometric. Ensure you are using the Voltage Ratio object. Each time the LV-MaxSonar®-EZ1™ is powered up, it will calibrate during its first read cycle. The sensor uses this stored information to range a close object. It is important that objects not be close to the sensor during this calibration cycle. The best sensitivity is obtained when it is clear for fourteen inches, but good results are common when clear for at least seven inches. If an object is too close during the calibration cycle, the sensor may then ignore objects at that distance. The LV-MaxSonar®-EZ1™ does not use the calibration data to temperature compensate for range, but instead to compensate for the sensor ringdown pattern. If the temperature, humidity, or applied voltage changes during operation, the sensor may require recalibration to reacquire the ringdown pattern. Unless recalibrated, if the temperature increases, the sensor is more likely to have false close readings. If the temperature decreases, the sensor is more likely to have reduced upclose sensitivity. To recalibrate the LV-MaxSonar®-EZ1™, cycle power. For more complete specifications on the MaxSonar-EZ1, please visit [http://maxbotix.com/ MaxBotix].
||}}
 
{{UGbox6|'''If you are using a 3-wire connection'''
 
1. Double Click on '''Phidget InterfaceKit 8/8/8''' in the Phidget Control Panel to bring up InterfaceKit-full and check that the box labelled Attached contains the word True.
2. Make sure that the Ratiometric box is Ticked.
3. Move the Sonar Sensor around and point at different objects. The distance is given in the Analog In box.
4. You can adjust the input sensitivity by moving the slider pointer.
5. Click on the Sensors button to bring up the Advanced Sensor Form.
|
[[File:1128 0 InterfaceKit Screen 3Wire.jpg|400px|link=]]
|
'''If you are using a 4-wire connection'''
 
#Double Click on '''Phidget InterfaceKit 8/8/8''' in the Phidget Control Panel to bring up InterfaceKit-full and check that the box labelled Attached contains the word True.
#Make sure that the Ratiometric box is Ticked.
#Activate the Sonar Sensor, by clicking in the Digital Out box. A tick mark will appear and the Sonar Sensor is on. To turn the sensor off, click on the Digital box again. The tick mark disappears and the sensor is off. The bottom row shows the status of the request, while the top row displays the status of the digital output as reported by the 1128.
#Move the Sonar Sensor around and point at different objects. The distance is given in the Analog In box.  
#You can adjust the input sensitivity by moving the slider pointer.
#Click on the Sensors button to bring up the Advanced Sensor Form.
|
[[File:1128 0 InterfaceKit Screen 4Wire.jpg|link=|400px]]
|
#In the Sensor 7 box, select the 1116 - Sonar Sensor from the drop down menu.
#The distance of the object from the sensor is shown here.
#Formula used to convert the analog input SensorValue into distance.
|
[[File:1128 0 Advanced Sensor Form Screen.jpg|link=|400px]]
}}
 
===Testing Using Mac OS X===
 
{{UGmac| | }}
 
===Using Linux===
 
{{UGlinux}}
 
===Using Windows Mobile / CE 5.0 / CE 6.0===


{{UGce}}
===Interference===
 
Since the beam width is fairly large and sound tends to reflect more than light, sonar sensors will interfere with one another if more than one is active in a sensor array. To avoid interference we recommend that you poll each sensor individually and only activate the specific sensor you are polling. That way you can activate one sensor, read the distance, and then deactivate it before moving to the next sensor. This will give you clean results. Perhaps the easiest way to achieve this is to take the power line from the sensor and connect it to a digital output of your HUB0000 (or {{CT|HasAI|compatible product}}) instead of the normal analog input power pin. This will allow you to toggle the power to the device and turn it on or off at will.
==Technical Details==
The Sonar Sensor is manufactured by Maxbotix.com. We have added a sensor cable and instructions on soldering the cable to the sensor. The Sonar Sensor is Ratiometric. Make sure that the ratiometric property is set to TRUE when programming the sensor. Each time after the LV-MaxSonar®-EZ1™ is powered up, it will calibrate during its first read cycle. The sensor uses this stored information to range a close object. It is important that objects not be close to the sensor during this calibration cycle. The best sensitivity is obtained when it is clear for fourteen inches, but good results are common when clear for at least seven inches. If an object is too close during the calibration cycle, the sensor may then ignore objects at that distance. The LV-MaxSonar®-EZ1™ does not use the calibration data to temperature compensate for range, but instead to compensate for the sensor ringdown pattern. If the temperature, humidity, or applied voltage changes during operation, the sensor may require recalibration to reacquire the ringdown pattern. Unless recalibrated, if the temperature increases, the sensor is more likely to have false close readings. If the temperature decreases, the sensor is more likely to have reduced upclose sensitivity. To recalibrate the LV-MaxSonar®-EZ1™, cycle power. For more complete specifications on the MaxSonar-EZ1, please visit www.maxbotix.com


===Formulas===
===Formulas===
The formula to translate SensorValue to Distance is:
{{UGSensorFormula|distance (cm)}} The formula to translate voltage ratio from the sensor to distance is:


<math>
\text{Distance} = \text{SensorValue } \times \text{ test}
</math>


<math>
:<math>
\text{Output Torque} = \text{Motor Output Torque  } \times \text{  Gearbox Ratio  } \times \text{  Gearbox Efficiency}
\text{Distance (cm)} = \text{VoltageRatio} \times 1296
</math>
</math>
 
<br clear="all">
{{UGotherint}}


{{UGasens}}
{{UGasens}}


==Product History==
{{UGnext|}}
{{UGhist}}
{{UGrow|February 2008 |N/A |N/A |Product Release }}

Latest revision as of 16:50, 7 June 2018


Getting Started

Welcome to the 1128 user guide! In order to get started, make sure you have the following hardware on hand:


Next, you will need to connect the pieces:

1128 0 Connecting The Hardware.jpg
Black Wire Red Wire White Wire Fourth Wire
GND +5 AN RX (optional)
  1. Connect the 1128 to the HUB0000 with the Phidget cable.
  2. If you're using the fourth wire, connect it to a digital output port on the HUB0000.
  3. Connect the HUB0000 to your computer with the USB cable.


Now that you have everything together, let's start using the 1128!

Using the 1128

Phidget Control Panel

In order to demonstrate the functionality of the 1128, we will connect it to the HUB0000, and then run an example using the Phidget Control Panel on a Windows machine.


The Phidget Control Panel is available for use on both macOS and Windows machines. If you would like to follow along, first take a look at the getting started guide for your operating system:


Linux users can follow the getting started with Linux guide and continue reading here for more information about the 1128.

First Look

After plugging in the 1128 into the HUB0000, and the HUB0000 into your computer, open the Phidget Control Panel. You will see something like this:

HUB0000 Panel.jpg


The Phidget Control Panel will list all connected Phidgets and associated objects, as well as the following information:

  • Serial number: allows you to differentiate between similar Phidgets.
  • Channel: allows you to differentiate between similar objects on a Phidget.
  • Version number: corresponds to the firmware version your Phidget is running. If your Phidget is listed in red, your firmware is out of date. Update the firmware by double-clicking the entry.


The Phidget Control Panel can also be used to test your device. Double-clicking on an object will open an example.

Voltage Ratio Input

Double-click on a Voltage Ratio Input object in order to run the example:

1018 Sensors VoltageRatioInput.png


General information about the selected object will be displayed at the top of the window. You can also experiment with the following functionality:

  • Modify the change trigger and/or data interval value by dragging the sliders. For more information on these settings, see the data interval/change trigger page.
  • Select the 1128 from the Sensor Type drop-down menu. The example will now convert the voltage into distance (cm) automatically. Converting the voltage to distance (cm) is not specific to this example, it is handled by the Phidget libraries, with functions you have access to when you begin developing!


Digital Output

Double-click on a Digital Output object in order to run the example:

1010 1018 1019DigitalOutput OnOff Example.jpg


General information about the selected object will be displayed at the top of the window. You can also experiment with the following functionality:

  • Toggle the state of the digital output by pressing the button. This will turn the sensor on/off if you have connected RX to the digital output.


Technical Details

General

The Sonar Sensor is manufactured by MaxBotix. We have added a Phidget cable and instructions on soldering the cable to the sensor. The 1128 is ratiometric. Ensure you are using the Voltage Ratio object. Each time the LV-MaxSonar®-EZ1™ is powered up, it will calibrate during its first read cycle. The sensor uses this stored information to range a close object. It is important that objects not be close to the sensor during this calibration cycle. The best sensitivity is obtained when it is clear for fourteen inches, but good results are common when clear for at least seven inches. If an object is too close during the calibration cycle, the sensor may then ignore objects at that distance. The LV-MaxSonar®-EZ1™ does not use the calibration data to temperature compensate for range, but instead to compensate for the sensor ringdown pattern. If the temperature, humidity, or applied voltage changes during operation, the sensor may require recalibration to reacquire the ringdown pattern. Unless recalibrated, if the temperature increases, the sensor is more likely to have false close readings. If the temperature decreases, the sensor is more likely to have reduced upclose sensitivity. To recalibrate the LV-MaxSonar®-EZ1™, cycle power. For more complete specifications on the MaxSonar-EZ1, please visit MaxBotix.

Interference

Since the beam width is fairly large and sound tends to reflect more than light, sonar sensors will interfere with one another if more than one is active in a sensor array. To avoid interference we recommend that you poll each sensor individually and only activate the specific sensor you are polling. That way you can activate one sensor, read the distance, and then deactivate it before moving to the next sensor. This will give you clean results. Perhaps the easiest way to achieve this is to take the power line from the sensor and connect it to a digital output of your HUB0000 (or compatible product) instead of the normal analog input power pin. This will allow you to toggle the power to the device and turn it on or off at will.

Formulas

The Phidget libraries can automatically convert sensor voltage into distance (cm) by selecting the appropriate SensorType. See the Phidget22 API for more details. The formula to translate voltage ratio from the sensor to distance is:



Phidget Cable

Analoginput.jpg

The Phidget Cable is a 3-pin, 0.100 inch pitch locking connector. Pictured here is a plug with the connections labelled. The connectors are commonly available - refer to the Analog Input Primer for manufacturer part numbers.

What to do Next

  • Programming Languages - Find your preferred programming language here and learn how to write your own code with Phidgets!
  • Phidget Programming Basics - Once you have set up Phidgets to work with your programming environment, we recommend you read our page on to learn the fundamentals of programming with Phidgets.


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