8x Voltage Input Phidget

 

 

 

 

 

 

For applications where you just need a lot of sensors, the 8x Voltage Input Phidget adds eight 0-5V analog inputs to your VINT Hub. (See the “Compatible Products” tab for a list of Hubs) Each input can be used in one of two modes: VoltageInput or VoltageRatioInput. With VoltageInput mode, you simply measure a voltage value from 0 to 5V. This mode is useful for interfacing 5V sensors and for monitoring small voltages. In VoltageRatioInput mode, you can read ratiometric sensors like potentiometers and voltage dividers, whose output voltage depend on their input voltage. The return voltage is expressed as a ratio of the return voltage to the supply voltage from 0.0 to 1.0.

 

 

 

Features

 

You can change the sample rate of each input separately, to speeds of up to 50 samples per second. You don’t need to worry about messy power cables either; Power from the attached VINT Hub is distributed to each input’s sensor. Conversion from sensor voltage into the units being measured is handled by our libraries when using sensors from Phidgets. Just set the SensorType property and use the SensorChange event and the conversion formula will be automatically applied to all incoming data. See the API tab for more details.

 

Other Options

 

If you’re looking to precisely measure a smaller voltage or need power isolation between your VINT Hub and your voltage sensor, take a look at our isolated voltage sensor boards on the “Other Voltage Inputs” tab.

 

 

 

Product Specifications

 

 

Board Properties
Controlled By VINT
Electrical Properties
Current Consumption Min 1 mA
Current Consumption Max * 500 mA
Voltage Inputs
Measurement Error Max 0.2 %
Voltage Input Resolution 12 bit
Input Voltage Max (DC) 5 V DC
Input Voltage Min (DC) 0 V DC
Sensor Input Impedance 324 k?©
Number of Voltage Inputs 8
Sampling Interval Max 60 s/sample
Sampling Interval Min 20 ms/sample
Physical Properties
Operating Temperature Min -40 ?°C
Operating Temperature Max 85 ?°C

 

* Varies depending on number of attached sensors.