Mac OS X 10.5 / 10.6 (Intel based systems only) A free USB port for connection to the AIS transceiver Installing the application; Pro AIS 2 is normally installed from the provided CD with your Comar Class B AIS transponder, however you may also download from here. Insert the CD into you PC or Mac, navigate to the ‘Windows’ or ‘OSX’ folder.
Version Download 1365 File Size 9.24 MB File Count 1 Create Date February 12, 2018 Last Updated April 17, 2019 Download Description Attached Files proAIS2 for. May 02, 2019 If you’re installing a Digital Yacht AIS Class B transponder, you’ll need to program the unit with your “static” boat data prior to installation. ProAIS2 is available for PC and MAC and here’s a quick walk through of how to install on a MAC from our CD or website If. Jan 31, 2020 The proAIS2 application allows you to configure and monitor the performance of your Class B AIS transceiver. The proAIS2 application has a number of pages with specific functions: - The ‘Configuration’ page shows the current vessel information and AIS transceiver configuration. Vessel information and configuration can also be edited and saved to the AIS transceiver. Apr 16, 2019 AIS Transponders are generally very reliable pieces of kit that can work for many years. Both transmitting position and receiving the positions of AIS equipped vessels within VHF range of your boat. There are basically three things that an AIS Transponder needs in.
![Ais 2 upjs Ais 2 upjs](https://i.ytimg.com/vi/AyL7wt-dUbc/maxresdefault.jpg)
- Arduino Data Acquisition Into Excel For Mac Pro
- Data Acquisition Software For Arduino
- Logging Arduino Data To Excel
Data logger screen installed in case: The complete data logger: Software: Now that you are done with wiring, it’s time to flash the code onto your Arduino microcontroller. The code is divided into different sections and commented in order to provide a better understanding. Post any questions about the code in the comments section below. Nov 28, 2016 -serialRunOnArduino.slx: Download this model onto your Arduino board so that it sends data to serial port -serialRunOnPC.slx: Run this model locally on your PC to collect and plot serial data in Simulink -readArduinoSerial.m: Run this script to read and plot serial data in MATLAB.
We know that Arduino allows to acquire data in the analog input. We can use Excel to store data in a sheet and display it in a graph using an application available on the network called PLX-DAQ (Parallax Data Acquisition), but this software doesn't work under Windows 10 and is no longer supported. So we can found a new version of PLX-DAQ re-written by NetDevil, an Arduino forum's member, to be able to be run on modern systems.
We want to measure the voltage variations from a trimmer. We take a device of any ohmic value and connect its two external pins respectively to 5V and GND pins supplied by Arduino. We pick up the voltage signal offered by the central pin, which varies according to the resistive divider that is formed while we turn its knob.
To collect data from our experiment, we can open the PLX-DAQ-v2.11.xlsm worksheet which contains a macro that allows us to save the data from the USB in Excel. To do this, we need to open PLX DAQ clicking on the respectively button and in the popup that the software opens we choose the USB Port to which Arduino is connected. Before clicking on the Connect button, we have to open Arduino IDE and use the sketch that is reported below, or use that is provided with PLX-DAQ software distribution.
To collect data from our experiment, we can open the PLX-DAQ-v2.11.xlsm worksheet which contains a macro that allows us to save the data from the USB in Excel. To do this, we need to open PLX DAQ clicking on the respectively button and in the popup that the software opens we choose the USB Port to which Arduino is connected. Before clicking on the Connect button, we have to open Arduino IDE and use the sketch that is reported below, or use that is provided with PLX-DAQ software distribution.
#define sensorPin A0 // select the input pin for the potentiometer
int sensorValue = 0; // variable to store the value coming from the sensor 0-1023
float sensorVoltage = 0; // variable to store the voltage coming from the sensor 0-5V
void setup() {
Serial.begin(9600);
Serial.println('CLEARDATA');
Serial.println('LABEL,t,A0');
}
Arduino Data Acquisition Into Excel For Mac Pro
void loop() {
// read the value from the sensor
sensorValue = analogRead(sensorPin);
// calculate voltage
sensorVoltage = sensorValue*5.0/1023.0;
// send value to USB
Serial.print('DATA,TIME,');
Serial.println(sensorVoltage);
// delay 100ms
delay(100);
}
Data Acquisition Software For Arduino
Let's load this sketch in Arduino, which will send data read from the analog port A0 on the USB, associating them with the instant of acquisition time. We have programmed the Serial.print instructions according to the modality proposed by PLX-DAQ (see the reactive help for more details).
Arduino transforms all the signals that it receives on analogue pins into levels between 0 and 1023, so it is our task to enter in the sketch the calculations necessary to return the correct interpretation to the numerical values obtained. In this case the range 0÷1023 represents the voltages between 0÷5V, so we insert the instruction: sensorVoltage = sensorValue*5.0/1023.0
Arduino transforms all the signals that it receives on analogue pins into levels between 0 and 1023, so it is our task to enter in the sketch the calculations necessary to return the correct interpretation to the numerical values obtained. In this case the range 0÷1023 represents the voltages between 0÷5V, so we insert the instruction: sensorVoltage = sensorValue*5.0/1023.0
![Data Data](https://cdn.sparkfun.com//assets/parts/7/5/9/2/11589-04d.jpg)
Logging Arduino Data To Excel
Before activating PLX-DAQ, we select column B and we assign a 2-Dline type graph to it. In this way, in addition to the data collection, we can see the temporary trend of the signal on the graph.
All versions of PLX-DAQ work good with Excel 2016.
All versions of PLX-DAQ work good with Excel 2016.