# Communication node data

## Probe Data 

This chart represents the trend of data collected by the probe connected to the communication node.

The probe data chart reflects the variations recorded by the connected probe over time. The visualization and values in the chart may be influenced by the conversion settings entered in [Device Settings](https://move-solutions.gitbook.io/untitled/mymove-manual/settings/device-settings). The chart's title corresponds to the probe channel name (CH.number), which can be customized by the user. However, the name of the measured parameter, displayed on the Y-axis, will remain fixed as "Probe value," while the associated unit of measurement (UoM) will be shown according to the user-configured data conversion settings.

<figure><img src="https://lh7-us.googleusercontent.com/HNotq_bCh9DJyaQXiOJoCQwqL_AnYK-OhnZokJIAPNgxs_Nd_8BVVEwigf83nmG_LA-PJgyxCPaWOfkd6YwLXB6rK9w-mluBbEteOMNshCn_CUrhVuMLs8kbX0qu7Wd7V5XmSqqhUPKGzlOHKdKlHeU" alt=""><figcaption><p>Communication node - Channel</p></figcaption></figure>

### Probe Temperature&#x20;

This chart represents the trend of temperature measured by the probe over time.

It is available only for probes using NTC (Negative Temperature Coefficient) technology. To display converted data instead of raw Ohm values, which is the default, you must configure the conversion parameters in the Device Settings section. The chart can show both raw data (unit: Ohms) and converted data (units: °C or °F).

{% hint style="warning" %}
Please note that this chart may not be available for all types of probes.
{% endhint %}

<figure><img src="https://2601070869-files.gitbook.io/~/files/v0/b/gitbook-x-prod.appspot.com/o/spaces%2FGk0mQOwBMc98gG9hlKRS%2Fuploads%2Fj5SSd9vPCfz6W0OnWTs2%2FScreenshot%202024-02-06%20alle%2018.07.08.png?alt=media&#x26;token=cd6469e3-1d28-4255-91ae-e6dcfaeacef8" alt=""><figcaption><p>Communication node - Probe temperature</p></figcaption></figure>

***

## Diagnostic

### Power Consuption Indicator&#x20;

This banded indicator shows the overall power consumption level of the communication node during the period you are viewing data, i.e. the average consumption during the selected time interval. The consumption is influenced by the operational settings configured by the user and significantly affects the battery life of the node.&#x20;

The graph provides a visual indication of the level of consumption of the node, which can be categorized into several ranges:

* <mark style="color:green;">**Very low**</mark>
* <mark style="color:green;">**Low**</mark>
* <mark style="color:yellow;">**Medium**</mark>
* <mark style="color:orange;">**High**</mark>
* <mark style="color:red;">**Very high**</mark>

The consumption level is determined based on the relationship between current consumption and acquisition duration. Higher current drawn over time indicates a higher consumption level, while a lower current draw relative to the acquisition duration suggests reduced consumption.

This chart is useful for monitoring the energy efficiency of the communication node and identifying any anomalies or excessive consumption that may require optimization of the operational settings.

<figure><img src="https://2601070869-files.gitbook.io/~/files/v0/b/gitbook-x-prod.appspot.com/o/spaces%2FGk0mQOwBMc98gG9hlKRS%2Fuploads%2FeJdo9wACNVtMPhIg8jos%2FNode%20Diagnostic.png?alt=media&#x26;token=157cf938-3888-42a8-b245-f59581fe15c5" alt=""><figcaption><p>Communication node - Power consumption indicator</p></figcaption></figure>

### Current Consuption&#x20;

This chart depicts the trend of electrical current absorbed by the sensor connected to the communication node over time. This parameter is crucial for assessing the overall energy consumption of the system.

<figure><img src="https://lh7-us.googleusercontent.com/sfJx1U8bGb_ecaNIq-LyNuIgqlR6NpjlDTQs8HOcKYhDcv0TZfzk9HojjgYGdaa5V2W66-eCu9HFJCy6kCGluPCTKIfyDOS1-MnxwdKvJ5bHH1i3Ckktd__y3nj0aYUf2kIhn0pNlyeA67dWXxp8y6U" alt=""><figcaption><p>Communication node - Consumo di corrente</p></figcaption></figure>

### Duration of the acquisition&#x20;

This graph displays the trend of the duration of each individual data acquisition by the communication node over time. It tracks how long each data acquisition period lasts, providing insight into the consistency and variations in data collection intervals.

### Internal temperature trend

This graph shows the trend of the internal temperature of the communication node recorded during each data acquisition. It provides a visual representation of how the internal temperature varies over time. Tracking this trend is crucial for assessing the thermal performance and stability of the node, as temperature fluctuations can influence the accuracy of data acquisition and the overall reliability of the node’s operations

<figure><img src="https://2601070869-files.gitbook.io/~/files/v0/b/gitbook-x-prod.appspot.com/o/spaces%2FGk0mQOwBMc98gG9hlKRS%2Fuploads%2FxasmBlCXJ44NWNZIiDKg%2FNode%20Diagnostic%202.png?alt=media&#x26;token=a747619f-2027-42c5-8ca3-54174295d1fb" alt=""><figcaption><p>Communication node - Durata dell'acquisizione</p></figcaption></figure>

***

## Learn more about other sensor data

<table data-view="cards"><thead><tr><th></th><th data-hidden data-card-target data-type="content-ref"></th><th data-hidden data-card-cover data-type="files"></th></tr></thead><tbody><tr><td><strong>Accelerometer</strong></td><td><a href="accelerometer-data-visualization">accelerometer-data-visualization</a></td><td><a href="https://2601070869-files.gitbook.io/~/files/v0/b/gitbook-x-prod.appspot.com/o/spaces%2FGk0mQOwBMc98gG9hlKRS%2Fuploads%2FZ2mTXVuESosdkBRcvLW8%2FTrends%20accelerometer.png?alt=media&#x26;token=a8cde074-bcc0-45c8-ac94-c25f329e5e61">Trends accelerometer.png</a></td></tr><tr><td><strong>Dynamic Displacement Sensor</strong></td><td><a href="dynamic-displacement-sensor-data-visualization">dynamic-displacement-sensor-data-visualization</a></td><td><a href="https://2601070869-files.gitbook.io/~/files/v0/b/gitbook-x-prod.appspot.com/o/spaces%2FGk0mQOwBMc98gG9hlKRS%2Fuploads%2F6N9C3YkD7tgGf9U5PUkn%2FData%20explorer%20DDS.png?alt=media&#x26;token=5a3b9e84-5d21-4e50-a9f5-2569afd95a49">Data explorer DDS.png</a></td></tr><tr><td><strong>Vibrometer</strong></td><td><a href="vibrometer-data-visualization">vibrometer-data-visualization</a></td><td><a href="https://2601070869-files.gitbook.io/~/files/v0/b/gitbook-x-prod.appspot.com/o/spaces%2FGk0mQOwBMc98gG9hlKRS%2Fuploads%2FV23pmcIG5FWofNavByla%2FVibrometer%20data%20explorer.png?alt=media&#x26;token=5626c4d0-8551-463c-acd3-efc4fa5d4f1d">Vibrometer data explorer.png</a></td></tr><tr><td><strong>Tiltmeter</strong></td><td><a href="tiltmeter-data-visualization">tiltmeter-data-visualization</a></td><td><a href="https://2601070869-files.gitbook.io/~/files/v0/b/gitbook-x-prod.appspot.com/o/spaces%2FGk0mQOwBMc98gG9hlKRS%2Fuploads%2FCYOi8BPIjvPdNUN0D9iM%2FData%20Explorer%20tiltmeter.png?alt=media&#x26;token=50b0b25a-2a7d-44cf-bbbe-e6f6185893ad">Data Explorer tiltmeter.png</a></td></tr></tbody></table>


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