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studies, creates, proposes IoT devices for the management and solution of various types of business and domestic problems, including Web Server, PC web applications and applications for Tablets and Smartphones.

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1926
Nikola Tesla
1990
John Romkey
1995
Amazon & eBay
1998
Google
1999
Kevin Ashton
2005
recognition
2008
IoT
In 2016 two entrepreneurs with thirty years of experience and united by a common passion decide to combine their experiences and start a research and development activity of IoT applications in Italy and abroad.
THERMOSTAT

The IoT device called Thermostat , is able to monitor and adjust the ambient temperature.

Thermostat is easily installed and does not require invasive and costly structural changes such as the drafting of new data lines, thanks to the device's Wi-Fi and GPRS connection.

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THERMOSTAT

The IoT device called Thermostat , is able to monitor and adjust the ambient temperature.

Thermostat is easily installed and does not require invasive and costly structural changes such as the drafting of new data lines, thanks to the device's Wi-Fi and GPRS connection.

Thermostat is a device capable of measuring ambient temperature and humidity by providing readings of the quantities measured on a display, whose graphics can be agreed for each individual user.


Thermostat programs its single relay with the following criteria:
  • Daily Schedule (time slots)
  • Weekly scheduling (weekdays and holidays)
  • Scheduling of holidays for which to intervene with particularities other than weekly and daily programming
  • Day / Night Schedule
  • Always On
  • Always Off

Thermostat always provides the status of your relay after activation (ON-OFF) of the user .
Thermostat interacts with the user through software developed with Web technology and Applications for smartphone and tablet devices.
Thermostat has a central unit, inside which there is a micro-controller containing an activation and control management program relay status.
Thermostat is programmed to transmit, at regular intervals, the data collected established ex ante, through the cloud to the web-server.
The data sent through the cloud and collected inside the database will be re-proposed to the customer, in the pre-established form, so that they can be used as useful information for targeted interventions.

SHAKE GUARD

The IoT device called Shake Guard , is able to analyze the vibrations of the subject to be monitored.


Shake Guard is easily installable and does not require invasive and costly structural changes such as writing new data lines, thanks to the connection of our device to a chosen telephone operator, which guarantees the coverage of the signal.

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SHAKE GUARD

The IoT device called Shake Guard , is able to analyze the vibrations of the subject to be monitored.


Shake Guard is easily installable and does not require invasive and costly structural changes such as writing new data lines, thanks to the connection of our device to a chosen telephone operator, which guarantees the coverage of the signal.

Shake Guard intervenes, in real time, signaling:

  • vibrations within predetermined and programmed thresholds
  • vibration interruption
It intervenes in a deductive way by reporting:
  • lack of electric power supply.  
Customizing the   firmware installed.

Parameterization of the intervention and / or alarm thresholds.

Shake Guard has a central unit, inside which is present a microcontroller containing a sensor reading program.  
This sensor (accelerometer) is able to detect, through mathematical models, the variations of the values ​​of gravity, vibrations, shocks and eventual movements of the device.

Shake Guard is programmed to transmit at regular time intervals (usually every 30 '), the data collected established ex ante, through the cloud, through GPRS and Wi-Fi technologies, to the Web-Server.

Shake Guard can be monitored in its measurements, providing the operator with blocks of data containing readings of measured quantities.  
The operator will have the possibility to vary, from his remote system, specific parameters that will intervene on the threshold levels of Shake Guard .  
The threshold levels are essential for the correct and targeted interpretation of the measurements made.

The central unit, at   At the end of data transmission, it has an internal M2M (Machine to Machine) SIM that can be activated with any telephone operator.
The data sent through the Cloud and collected in the Database will be re-proposed to the customer, in the pre-established form, so that they can be used as useful information for targeted interventions.  
Among the information obtained we will also find the alarms, also appropriately established during the study and analysis of the environment, in which Shake Guard was introduced .  

POINT LEVEL MEASUREMENT

The IoT device called Point Level Measurement , is able to signal in real time the exceeding of a liquid level.


Point Level Measurement it is easy to install and does not require invasive and expensive structural changes such as the drafting of new data lines, thanks to the device's Wi-Fi or GPRS connection.

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POINT LEVEL MEASUREMENT

The IoT device called Point Level Measurement , is able to signal in real time the exceeding of a liquid level.


Point Level Measurement it is easy to install and does not require invasive and expensive structural changes such as the drafting of new data lines, thanks to the device's Wi-Fi or GPRS connection.

Point Level Measurement reports the exceeding of a liquid level in real time.

The sensor used will be commensurate with the chemical type of liquid to be controlled.

The report is sent by sending an email to a list of addresses declared in the parameterization section.
It is possible to use other reporting channels such as sending SMS messages or programs such as Whatsapp or other programs agreed upon according to the specific requests.

Point Level Measurement has a central unit, inside which there is a micro- controller containing a level sensor reading program.
Data transmission can be performed using an M2M data SIM (Machine To Machine) or via a Wi-Fi signal where it is present.

The level detection sensor can be positioned in places an that hardly accessible.

Point Level Measurement is programmed to transmit ex ante established data, via the cloud to the web, at regular intervals server.
The data sent through the cloud and collected inside the database will be re-proposed to the customer, in the pre-established form, so that they can be used as useful information for targeted interventions.

CHECK LIGHTS

The IoT device called Check Lights , is able to control the switching on and off of several light points.

Check Lights is easily installed and does not require invasive and costly structural changes such as writing new data lines, thanks to the device's Wi-Fi or GPRS connection.

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CHECK LIGHTS

The IoT device called Check Lights , is able to control the switching on and off of several light points.

Check Lights is easily installed and does not require invasive and costly structural changes such as writing new data lines, thanks to the device's Wi-Fi or GPRS connection.


Check Lights is a modular composition system with multiples of 8 relays able to be driven remotely through a Wi-Fi or GPRS network.

Check Lights is one of the many applications that can be developed with ON-type syst

Check Lights is a modular composition system with multiples of 8 relays able to be driven remotely through a Wi-Fi or GPRS network.

Check Lights is one of the many applications that can be developed with ON-type systems -OFF or Switching.

Check Lights programs every single relay with the following criteria :
  • Daily Schedule (time slots)
  • Weekly Schedule (weekdays and holidays)
  • Holiday Schedule to intervene with particularities other than the weekly and daily programming
  • Programming Day / Night
  • Always On
  • Always Off

Check Lights always provides the situation of your relays after activation (ON-OFF) of the user.
  • reporting the status of each relay.

Check Light s is equipped with a central unit, inside which there is a micro-controller containing a program for managing activations and controlling the status of the relays.

Check Lights is programmed to transmit, at time intervals regular, data collected established ex ante, through the cloud to the web-server.
The data sent through the cloud and collected inside the database will be re-proposed, to the customer, in the established form, so that they can be used as useful information for targeted interventions.
ems -OFF or Switching.

Check Lights programs every single relay with the following criteria :
  • Daily Schedule (time slots)
  • Weekly Schedule (weekdays and holidays)
  • Holiday Schedule to intervene with particularities other than the weekly and daily programming
  • Programming Day / Night
  • Always On
  • Always Off < br>

Check Lights always provides the situation of your relays after activation (ON-OFF) of the user.
  • reporting the status of each relay.

Check Light s is equipped with a central unit, inside which there is a micro-controller containing a program for managing activations and controlling the status of the relays.

Check Lights is programmed to transmit, at time intervals regular, data collected established ex ante, through the cloud to the web-server.
The data sent through the cloud and collected inside the database will be re-proposed, to the customer, in the established form, so that they can be used as useful information for targeted interventions.

WATER METER

The IoT device called Water Meter , is combined with a flow meter of a fluid and is able to detect measurements.

Water Meter is easily installed and does not require invasive and costly structural changes such as writing new data lines, thanks to the device's Wi-Fi connection.

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WATER METER

The IoT device called Water Meter , is combined with a flow meter of a fluid and is able to detect measurements.

Water Meter is easily installed and does not require invasive and costly structural changes such as writing new data lines, thanks to the device's Wi-Fi connection.

Water Meter is always combined with a flow meter of a fluid.

The flow meter transmits the pulses detected by the passage of the gas through an electrical connection. fluid.

Water Meter has been designed to be powered by internal batteries, ensuring operation for a few year.

Water Meter is mainly aimed at large installations where the periodic reading of the meters it is very expensive by the staff in charge, for this Water Meter is equipped with a Web interface which, through a remote workstation, facilitates reading.

Water Meter has a central unit, inside which there is a micro-controller containing a program for counting the pulses generated by the flow meter.

Water Meter is programmed to transmit the data collected at regular intervals ex ante, through the cloud, via Wi-Fi technology, to the web-server.
Data sent through the cloud and collected in the database will be re-proposed to the customer, in the pre-established form, so that they can be used as useful information for targeted interventions.

FLOW CONTROL VALVE

The IoT device called Flow Control Valve , is able to control the closing and opening of several hydraulic valves.

Flow Control Valve is easily installed and does not require invasive and costly structural changes such as the drafting of new data lines, thanks to the device's Wi-Fi or GPRS connection.

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FLOW CONTROL VALVE

The IoT device called Flow Control Valve , is able to control the closing and opening of several hydraulic valves.

Flow Control Valve is easily installed and does not require invasive and costly structural changes such as the drafting of new data lines, thanks to the device's Wi-Fi or GPRS connection.

Flow Control Valve is a multiple modular composition system capable of being remotely piloted via a Wi-Fi or GPRS network.


Flow Control Valve always supplies the situation of its valves through a synoptic panel.

Flow Control Valve is equipped with a central unit, inside which there is a micro-controller containing a management program for the partial openings .

Flow Control Valve is programmed to transmit data at regular intervals ex ante established collections, via the cloud to the web-server.
The data sent through the cloud and collected inside the database will be re-proposed to the customer, in the pre-established form, so that they can be used as useful information targeted interventions.

REMOTE CONTROL Via SMS

The IoT device called Remote Control Via SMS , is able to pilot the switching on and off of a relay by sending SMS messages.

Remote Control Via SMS is easily installed and does not require invasive and costly structural changes such as writing new data lines, thanks to SMS or GPRS commands.

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REMOTE CONTROL Via SMS

The IoT device called Remote Control Via SMS , is able to pilot the switching on and off of a relay by sending SMS messages.

Remote Control Via SMS is easily installed and does not require invasive and costly structural changes such as writing new data lines, thanks to SMS or GPRS commands.

Remote Control Via SMS has been designed for centralized heating systems where it is sufficient for a condominium to switch on the system to activate the boiler.

With the same criterion it is established the switching off; that is, only if all the condominiums send a shutdown SMS, the entire system will be switched off.

For the condominium
The system includes a pre-established syntax for each condominium:
  • Turn on the system
  • Turn off the system
  • Check the status plant

For the administrator
The system provides a pre-established syntax for the administrator, whatever the status of the boiler can:
  • Turn on the system
  • Turn off the system
  • Check the status of the plant
Remote Control Via SMS comes with a web application supplied to the administrator to check its status.
Remote Control Via SMS programs its single relay with the following criteria:
  • Programming Daily (time slots)
  • Weekly scheduling (weekdays and holidays)
  • Scheduling of holidays for which to act with particularities other than weekly and daily programming
  • Day / Night Schedule
  • Always On
  • Always Off

Remote Control Via SMS has a central unit, inside which there is a micro-controller containing a program to read the status of the relay.

Remote Control Via SMS is programmed to transmit data collected at regular intervals established ex ante, via the cloud, via SMS or GPRS, to the web-server.
Data sent through the cloud and collected in the database will be re-proposed to the customer, in the pre-established form, so that they can be used as useful information for targeted interventions.

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Registered office: Via Martiri d'Italia, 49
10014 Caluso (TO) Italy

IpStudioLab S.r.l.
F.C. and VAT number: 11113950015
Turin Business Register – R.E.A. TO-1188525
Paid up capital: € 10.000