There are many Arduino boards out there. A complete listing of all of them can be found here.
More information about the Arduino can be found on the Arduino project website.
Please read carefully otherwise you can't connect with your labView
More information about the Arduino can be found on the Arduino project website.
Overview
The Arduino, is a programmable micro controller board that has several analog inputs and digital IO lines. The Arduino language is text based and is used to create embedded programs which you download to the board.
The Arduino’s claim to fame, is that all of the hardware and
software is open source. You can build your own Arduino board from
published designs, or purchase one of the ready-made boards. The Arduino
has a USB interface used for programming the device and reading data
from it.
There are quite a few daughter boards on the market that you can plug
onto the arduino. These are nicknamed: shields. For example, there’s an
Ethernet interface, Xbee wireless, Bluetooth module, Motor control
module, Can-Bus interface, GPS Receiver, Video output and hundreds of
others.
The labview interface for arduino is a vi based API that was
written and distributed by national instruments. The code also includes
and arduino embedded program which must be downloaded to the device.
This program which runs on the Arduino, responds to commands sent on the
USB bus from the LabVIEW program. It then sends back data to the the
computer via the USB.
The LabVIEW VIs provided, allow you to read back the analog inputs,
control the digital IO lines and use several other features of the
Arduino hardware.
Step by Step Startup Guide
Here is a step by step process to get up and running with Arduino and LabVIEW:Please read carefully otherwise you can't connect with your labView
- Purchase an Arduino board. You can find them at Sparkfun or other suppliers. Make sure to order a USB cable if you don’t already have one. There are two main boards. The Uno and the Mega. I purchased mine on Amazon.com.
- Make sure you have LabVIEW 2009 or newer installed. The VIs that are included in the LIFA are saved in LV 2009, so this is the version of LV that you must have to be able to use the LIFA. If you do not have this version of LabVIEW, you can download a 30day evaluation of it from ni.com/trylabview
- Install NI-VISA Drivers. To LabVIEW, the arduino appears as a serial instrument device. To communicate with serial instruments in LabVIEW, you need to have the latest version of the NI-VISA driver. You can get the latest NI-VISA drivers here. Make sure to select the latest Windows or Mac versions.
- Install the Arduino IDE and drivers for Windows. You can download them from the Arduino website here.
- Install the LIFA. The LIFA is available as a VI package through the LabVIEW Tools Network. You must first install VIPM. Once VIPM is installed, click on this link to get and install the LIFA under LabVIEW 2009+.
- Upload the sketch ‘LIFA_Base.pde’ to the Arduino.
The LIFA comes with a sketch program that must be uploaded to the
Arduino before you can use the VIs to communicate with it. You must use
the Arduino IDE software (which you installed in step 4) to do this. I
show how to do this in the video tutorial – above. The sketch is located
at:
- C:\Program Files\National Instruments\LabVIEW 2010\vi.lib\LabVIEW Interface for Arduino\Firmware\LVIFA_Base\LVIFA_Base.pde
- Start Playing. For support, join the Arduino LabVIEW community at ni.com/arduino
Hi,
ReplyDeleteIm getting an ERROR when trying to upload the sketch to the board. It says the sketch is too big. Any ideas?
You actually make it seem really easy together with your presentation but I in finding
ReplyDeletethis matter to be really one thing which I feel I would never understand.
It kind of feels too complicated and extremely huge for me.
I am having a look ahead on your next post, I'll attempt to get the dangle of it!
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