Products for USB Sensing and Control
Products for USB Sensing and Control

#### sales inquiries

##### quotes, distributor information, purchase orders
sales@phidgets.com

#### technical inquiries

##### support, advice, warranty, returns, misshipment
support@phidgets.com

web@phidgets.com

#### Address

##### Unit 1 - 6115 4 St SE Calgary AB  T2H 2H9 Canada
Projects Dealers Terms and Conditions Discontinued Products Phidget21 Documentation

#### PHIDGETS Inc.

Unit 1 - 6115 4 St SE
Calgary AB  T2H 2H9
Canada
+1 403 282-7335

## RTD Phidget

ID: TMP1200_1
Recommended for new designs: This product (or a similar replacement with a compatible form, fit and function) is estimated to be available for ten years or more.

Measure RTDs, thermistors, and other resistance-based sensors with this VINT port adapter.

## $20.00 Quantity Available: 141 Qty Price 5$19.00
10 $18.00 25$16.00
50 $14.00 100$13.00
250 $12.00 500$11.00
1000 $10.00 This revision of the TMP1200 differs from the _0 revision in the following ways: • VINT filter improves immunity to interference and increases maximum VINT cable length (see Specifications tab for more info) • Greatly improved accuracy and drift, especially in 3-wire mode • Minimum Data Interval is now 333ms The TMP1200 allows you to precisely measure temperature using RTDs, thermistors, and other resistance-based sensors. A resistance temperature detector measures subtle temperature changes using a resistance of the element made of a pure metal (usually platinum). The resistance value will change in a precise and repeatable way. The RTD Phidget measures these subtle resistance changes, so you can get the most accurate temperature measurements. This Phidget connects to your computer through a VINT Hub. #### Features: • Connect one resistance temperature detector (RTD) • Select the number of wires (2, 3, or 4) and the RTD type via software • The adapter does all the math - sampled temperature in degrees Celsius. • Read thermistors and other resistive sensors - receive the data in ohms #### VINT Hubs This Phidget is a smart device that must be controlled by a VINT Hub. For more information about VINT, have a look at the VINT Primer. You can use a Phidget Cable to simply and easily connect the two devices. Here's a list of all of the different VINT Hubs currently available: Product Board Part Number Price Number of VINT Ports Controlled By VINT Hub Phidget$30.00 6 USB (Mini-USB)
Wireless VINT Hub
$60.00 6 Local Network (Ethernet or Wi-Fi) PhidgetSBC4$120.00 6

#### RTDs

Here's a list of RTDs you can use with the TMP1200:

Product
Part Number Price
PT1000 4-Wire RTD 11cm
$40.00 PT1000 4-Wire RTD 20cm$40.00

#### Phidget Cables

Use a Phidget cable to connect this device to the hub. You can solder multiple cables together in order to make even longer Phidget cables, but you should be aware of the effects of having long wires in your system.

Product Physical Properties
Part Number Price Cable Length
Phidget Cable 60cm
$2.00 600 mm Phidget Cable 10cm$1.50 100 mm
Phidget Cable 350cm
$3.00 3.5 m Phidget Cable 120cm$2.25 1.2 m
Phidget Cable 180cm
$2.75 1.8 m Phidget Cable 30cm$1.75 300 mm
Phidget Cable 90cm
$2.00 900 mm Phidget Cable 150cm$2.50 1.5 m

## Part 1: Setup

### Select Device

Your Phidget must be connected to a device with a VINT port using a 3-wire Phidget cable.

## Step 1: Install Phidgets Library

Before you begin using your Phidgets, you will need to install the Phidget Library.

1. Download the installer for your system:

● 32-bit Installer Download

● 64-bit Installer Download

If you're unsure which one you should get, press ⊞ WIN + Pause/Break:

Before installing our libraries, be sure to read our Software License.

## Step 1: Install Phidgets Library

2. Open the download. If it asks you for permission, select Run

3a. Select Next

## Step 1: Install Phidgets Library

3b. Read the Licence Agreement. Select Next.

## Step 1: Install Phidgets Library

3c. Choose Installation Location. Select Next.

## Step 1: Install Phidgets Library

3d. Confirm Install

## Step 1: Install Phidgets Library

3e. Wait for Installation to complete. This should only take a few moments.

## Step 1: Install Phidgets Library

3f. Installation Complete. Close installation Window.

## Step 2: Connect Devices

● Connect USB Cable to your Windows Computer

● Connect VINT Device(s)

## Step 3: Verify Connection

1. Open the Phidgets Control Panel:

If your Control Panel does not open, look in your taskbar. Double click the Phidget Icon.

## Step 3: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more help installing in Windows (e.g. manual install, using a VM, etc.), visit this page:

## Step 1: Install Phidgets Library

Before you begin using your Phidgets, you will need to install the Phidget Library.

1. Download the installer for your system:

● OS X 10.11+: Installer Download

● Mac OS X 10.7 - OS X 10.10: Installer Download

● Mac OS X 10.5 - OS X 10.6: Installer Download

Before installing our libraries, be sure to read our Software License.

## Step 1: Install Phidgets Library

2. Open the download and double click on Phidgets.pkg

## Step 1: Install Phidgets Library

3a. Select Continue

## Step 1: Install Phidgets Library

3b. Read and continue. Read the License and click Agree.

## Step 1: Install Phidgets Library

3c. Here, you have the option to select the installation location. Select Install to continue.

## Step 1: Install Phidgets Library

3d. MacOS may ask for permission to install. Enter your username and password and Install Software.

## Step 1: Install Phidgets Library

3e. Wait for Installation to complete. This should only take a few moments.

## Step 1: Install Phidgets Library

3f. You may see a message that the extension has been blocked. Select Open Security Preferences.

## Step 1: Install Phidgets Library

3g. Beside the message for Phidgets Inc, Click Allow.

## Step 1: Install Phidgets Library

3h. Installation Complete, Click Close.

## Step 1: Install Phidgets Library

3i. To delete the installer, click Move to Trash.

## Step 2: Connect Devices

● Connect USB Cable to your Mac

● Connect VINT Device(s)

## Step 3: Verify Connection

1. Open the Phidgets Control Panel:

## Step 3: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in MacOS (e.g. developer tools, driver extension, etc.), visit this page:

## Step 1: Install Phidgets Library

1. First, you need to install the libusb-1.0 development libraries. For example, in Debian based distributions:

apt-get install libusb-1.0-0-dev

You’ll also need a C compiler and builder, if you don’t already have one installed.

apt-get install gcc
apt-get install make

## Step 1: Install Phidgets Library

2. Next, download and unpack the Phidgets library:

## Step 1: Install Phidgets Library

3. Use the following commands in the location you unpacked to install the library:

./configure
make
sudo make install

## Step 1: Install Phidgets Library

4. (Optional) You can also download and unpack the following optional packages:

phidget22networkserver - Phidget Network Server, which enables the use of Phidgets over your network

phidget22admin - Admin tool to track who is connected to your Phidgets when using the network server

libphidget22extra - Required for phidget22networkserver and phidget22admin

libphidget22java - The Java libraries for Phidget22

For installation instructions for these packages, see the README file included with each one.

## Step 2: Connect Devices

● Connect USB Cable to your Linux Computer

● Connect VINT Device(s)

## Step 3: Verify Connection

1. The easiest way to verify that your libraries are working properly is to compile and run an example program. Download and unpack this C example that will detect any Phidget:

## Step 3: Verify Connection

2. Next, open the terminal in the location where you unpacked the example. Compile and run using:

gcc HelloWorld.c -o HelloWorld -lphidget22
sudo ./HelloWorld

ou should receive a “Hello” line for each Phidget channel that is discovered:

I don’t see any Phidgets show up in the HelloWorld example

You need to run it with sudo in order to be able to access USB devices. In order to use Phidgets without sudo, you need to set your udev rules. See the Advanced Information page on the final slide of this guide for details.

## Done!

If you're able to see your devices in the Hello World example, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in Linux (e.g. Udev rules, old versions, etc.), visit this page:

## Step 1: Install Phidgets Library

Before you begin using your Phidgets, you will need to install the Phidget Library.

1. Download the installer for your system:

● 32-bit Installer Download

● 64-bit Installer Download

If you're unsure which one you should get, press ⊞ WIN + Pause/Break:

Before installing our libraries, be sure to read our Software License.

## Step 1: Install Phidgets Library

2. Open the download. If it asks you for permission, select Run

3a. Select Next

## Step 1: Install Phidgets Library

3b. Read the Licence Agreement. Select Next.

## Step 1: Install Phidgets Library

3c. Choose Installation Location. Select Next.

## Step 1: Install Phidgets Library

3d. Select Next to confirm install.

## Step 1: Install Phidgets Library

3e. Wait for Installation to complete. This should only take a few moments.

## Step 1: Install Phidgets Library

3f. Installation Complete. Close installation Window.

## Step 2: Connect Devices

● Connect Power Jack

● Connect VINT Device(s)

● Connect Ethernet to a Router or Switch (optional)

## Step 3: Verify Connection

Choose a setup method:

## Step 3: Connect Wireless

1. When you connect the power supply to the HUB5000, the red LED should turn on.

## Step 3: Connect Wireless

2. On your mobile device, go to the Wi-Fi settings and connect to the HUB5000:

## Step 3: Connect Wireless

3. When asked for a password, enter the password printed on the HUB5000’s label.

## Step 3: Connect Wireless

4. Once your device is connected to the HUB5000’s WiFi signal:

Click on the WiFi network and find an option that says “Manage router” or “Visit homepage”.

Go to your internet browser and type 192.168.100.1 in the address bar.

## Step 3: Connect Wireless

5. Create a password for your HUB5000. You'll use it to access the Configure Page from now on.

## Step 3: Connect Wireless

6. Navigate to the network page. Change the Mode to Client.

## Step 3: Connect Wireless

7. Enter your Wifi Network details and click Save & Apply. It may take a few minutes for your Phidgets to appear in the Phidget Control Panel, which we’ll check in the next step.

## Step 4: Verify Connection

1. Open the Phidgets Control Panel:

If your Control Panel does not open, look in your taskbar. Double click the Phidget Icon.

## Step 4: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more help installing in Windows (e.g. manual install, using a VM, etc.), visit this page:

## Step 3: Connect Wireless

1. When you connect the power supply to the HUB5000, the red LED should turn on.

## Step 3: Connect Wireless

2. In your Web Browser, enter hub5000.local

## Step 3: Connect Wireless

3. Create a password for your HUB5000. You'll use this password to access the Configure Page from now on.

## Step 3: Connect Wireless

4. Navigate to the network page. Change the Mode to Client.

## Step 3: Connect Wireless

5. Enter your Wifi Network details to use your Hub wirelessly and click Save & Apply. You can then disconnect the ethernet cable.

It may take a few minutes for your Phidgets to appear in the Phidget Control Panel, which we’ll check in the next step.

## Step 4: Verify Connection

1. Open the Phidgets Control Panel:

If your Control Panel does not open, look in your taskbar. Double click the Phidget Icon.

## Step 4: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more help installing in Windows (e.g. manual install, using a VM, etc.), visit this page:

## Step 1: Install Phidgets Library

Before you begin using your Phidgets, you will need to install the Phidget Library.

1. Download the installer for your system:

● OS X 10.11+: Installer Download

● Mac OS X 10.7 - OS X 10.10: Installer Download

● Mac OS X 10.5 - OS X 10.6: Installer Download

Before installing our libraries, be sure to read our Software License.

## Step 1: Install Phidgets Library

2. Open the download and double click on Phidgets.pkg

## Step 1: Install Phidgets Library

3a. Select Continue

## Step 1: Install Phidgets Library

3b. Read and continue. Read the License and click Agree.

## Step 1: Install Phidgets Library

3c. Here, you have the option to select the installation location. Select Install.

## Step 1: Install Phidgets Library

3d. MacOS may ask for permission to install. Enter your username and password and Install Software.

## Step 1: Install Phidgets Library

3e. Wait for Installation to complete. This should only take a few moments.

## Step 1: Install Phidgets Library

3f. You may see a message that the extension has been blocked. Select Open Security Preferences.

## Step 1: Install Phidgets Library

3g. Beside the message for Phidgets Inc, Click Allow.

## Step 1: Install Phidgets Library

3h. Installation Complete, Click Close.

## Step 1: Install Phidgets Library

3i. To delete the installer, click Move to Trash.

## Step 2: Connect Devices

● Connect Power Jack

● Connect VINT Device(s)

● Connect Ethernet to a Router or Switch (optional)

## Step 3: Verify Connection

Choose a setup method:

## Step 3: Connect Wireless

1. When you connect the power supply to the HUB5000, the red LED should turn on.

## Step 3: Connect Wireless

2. On your mobile device, go to the Wi-Fi settings and connect to the HUB5000:

## Step 3: Connect Wireless

3. When asked for a password, enter the password printed on the HUB5000’s label.

## Step 3: Connect Wireless

4. Once your device is connected to the HUB5000’s WiFi signal:

Click on the WiFi network and find an option that says “Manage router” or “Visit homepage”.

Go to your internet browser and type 192.168.100.1 in the address bar.

## Step 3: Connect Wireless

5. Create a password for your HUB5000. You'll use this password to access the Configure Page from now on.

## Step 3: Connect Wireless

6. Navigate to the network page. Change the Mode to Client.

## Step 3: Connect Wireless

7. Enter your Wifi Network details and click Save & Apply. It may take a few minutes for your Phidgets to appear in the Phidget Control Panel, which we’ll check in the next step.

## Step 4: Verify Connection

1. Open the Phidget Control Panel:

## Step 4: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in MacOS (e.g. developer tools, driver extension, etc.), visit this page:

## Step 3: Connect Wireless

1. When you connect the power supply to the HUB5000, the red LED should turn on.

## Step 3: Connect Wireless

2. In your Web Browser, enter hub5000.local

## Step 3: Connect Wireless

3. Create a password for your HUB5000. You'll use this password to access the Configure Page from now on.

## Step 3: Connect Wireless

4. Navigate to the network page. Change the Mode to Client.

## Step 3: Connect Wireless

5. Enter your Wifi Network details to use your Hub wirelessly and click Save & Apply. You can then disconnect the ethernet cable.

It may take a few minutes for your Phidgets to appear in the Phidget Control Panel, which we’ll check in the next step.

## Step 4: Verify Connection

1. Open the Phidget Control Panel:

## Step 4: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in MacOS (e.g. developer tools, driver extension, etc.), visit this page:

## Step 1: Install Phidgets Library

1. First, you need to install the libusb-1.0 development libraries. For example, in Debian based distributions:

apt-get install libusb-1.0-0-dev

You’ll also need a C compiler and builder, if you don’t already have one installed.

apt-get install gcc
apt-get install make

## Step 1: Install Phidgets Library

2. Next, download and unpack the Phidgets library:

## Step 1: Install Phidgets Library

3. Use the following commands in the location you unpacked to install the library:

./configure
make
sudo make install

## Step 1: Install Phidgets Library

4. (Optional) You can also download and unpack the following optional packages:

phidget22networkserver - Phidget Network Server, which enables the use of Phidgets over your network

phidget22admin - Admin tool to track who is connected to your Phidgets when using the network server

libphidget22extra - Required for phidget22networkserver and phidget22admin

libphidget22java - The Java libraries for Phidget22

For installation instructions for these packages, see the README file included with each one.

## Step 2: Connect Devices

● Connect Power Jack

● Connect VINT Device(s)

● Connect Ethernet to a Router or Switch (optional)

## Step 3: Verify Connection

Choose a setup method:

## Step 3: Connect Wireless

1. When you connect the power supply to the HUB5000, the red LED should turn on.

## Step 3: Connect Wireless

2. On your mobile device, go to the Wi-Fi settings and connect to the HUB5000:

## Step 3: Connect Wireless

3. When asked for a password, enter the password printed on the HUB5000’s label.

## Step 3: Connect Wireless

4. Once your device is connected to the HUB5000’s WiFi signal:

Click on the WiFi network and find an option that says “Manage router” or “Visit homepage”.

Go to your internet browser and type 192.168.100.1 in the address bar.

## Step 3: Connect Wireless

5. Create a password for your HUB5000. You'll use this password to access the Configure Page from now on.

## Step 3: Connect Wireless

6. Navigate to the network page. Change the Mode to Client.

## Step 3: Connect Wireless

7. Enter your Wifi Network details and click Save & Apply. It may take a few minutes for your Phidgets to appear in the Phidget Control Panel, which we’ll check in the next step.

## Step 4: Verify Connection

1. The easiest way to verify that your libraries are working properly is to compile and run an example program. Download and unpack this C example that will detect any Phidget:

## Step 3: Verify Connection

2. Next, open the terminal in the location where you unpacked the example. Compile and run using:

gcc HelloWorld.c -o HelloWorld -lphidget22
sudo ./HelloWorld

ou should receive a “Hello” line for each Phidget channel that is discovered:

I don’t see any Phidgets show up in the HelloWorld example

You need to run it with sudo in order to be able to access USB devices. In order to use Phidgets without sudo, you need to set your udev rules. See the Advanced Information page on the final slide of this guide for details.

## Done!

If you're able to see your devices in the Hello World example, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in Linux (e.g. Udev rules, old versions, etc.), visit this page:

## Step 3: Connect Wireless

1. When you connect the power supply to the HUB5000, the red LED should turn on.

## Step 3: Connect Wireless

2. In your Web Browser, enter hub5000.local

## Step 3: Connect Wireless

3. Create a password for your HUB5000. You'll use this password to access the Configure Page from now on.

## Step 3: Connect Wireless

4. Navigate to the network page. Change the Mode to Client.

## Step 3: Connect Wireless

5. Enter your Wifi Network details to use your Hub wirelessly and click Save & Apply. You can then disconnect the ethernet cable.

It may take a few minutes for your Phidgets to appear in the Phidget Control Panel, which we’ll check in the next step.

## Step 4: Verify Connection

1. The easiest way to verify that your libraries are working properly is to compile and run an example program. Download and unpack this C example that will detect any Phidget:

## Step 3: Verify Connection

2. Next, open the terminal in the location where you unpacked the example. Compile and run using:

gcc HelloWorld.c -o HelloWorld -lphidget22
sudo ./HelloWorld

ou should receive a “Hello” line for each Phidget channel that is discovered:

I don’t see any Phidgets show up in the HelloWorld example

You need to run it with sudo in order to be able to access USB devices. In order to use Phidgets without sudo, you need to set your udev rules. See the Advanced Information page on the final slide of this guide for details.

## Done!

If you're able to see your devices in the Hello World example, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in Linux (e.g. Udev rules, old versions, etc.), visit this page:

## Step 1: Install Phidgets Library

Before you begin using your Phidgets, you will need to install the Phidget Library.

1. Download the installer for your system:

● 32-bit Installer Download

● 64-bit Installer Download

If you're unsure which one you should get, press ⊞ WIN + Pause/Break:

Before installing our libraries, be sure to read our Software License.

## Step 1: Install Phidgets Library

2. Open the download. If it asks you for permission, select Run.

3a. Select Next.

## Step 1: Install Phidgets Library

3b. Read the Licence Agreement. Select Next.

## Step 1: Install Phidgets Library

3c. Choose Installation Location. Select Next.

3d. Select Next.

## Step 1: Install Phidgets Library

3e. Wait for Installation to complete. This should only take a few moments.

## Step 1: Install Phidgets Library

3f. Installation Complete. Close installation Window.

## Step 2: Connect Devices

● Connect Power Jack

● Connect VINT Device(s)

● Connect Ethernet to a Router or Switch in the same network as your Windows PC

## Step 3: Verify Connection

1. Open the Phidgets Control Panel:

If your Control Panel does not open, look in your taskbar. Double click the Phidget Icon.

## Step 3: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

Now that the SBC's ethernet connection is verified, it can be connected to wifi.

If you don't have a USB wifi adapter or you're planning to stay on ethernet, you can scroll down to

Part 2: Using Your Phidget

## Step 4: Connect Wireless

1. In your web browser, enter phidgetsbc.local

## Step 4: Connect Wireless

2. Create a password for your SBC. You'll use this to access the configuration page from now on.

## Step 4: Connect Wireless

3. Navigate to Network -> Wireless. Select your Network, enter the wifi password and select Add This Network.

## Step 4: Connect Wireless

4. Scroll down to your saved networks, click on your network and select Join This Network.

## Step 4: Connect Wireless

5. It should now say connected in the status column.

You can now unplug the ethernet cable.

## Step 4: Connect Wireless

6. Return to the Phidget Control Panel to access your Phidgets.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more help installing in Windows (e.g. manual install, using a VM, etc.), visit this page:

## Step 1: Install Phidgets Library

Before you begin using your Phidgets, you will need to install the Phidget Library.

1. Download the installer for your system:

● OS X 10.11+: Installer Download

● Mac OS X 10.7 - OS X 10.10: Installer Download

● Mac OS X 10.5 - OS X 10.6: Installer Download

Before installing our libraries, be sure to read our Software License.

## Step 1: Install Phidgets Library

2. Open the download and double click on Phidgets.pkg

## Step 1: Install Phidgets Library

3a. Select Continue

## Step 1: Install Phidgets Library

3b. Read and continue. Read the License and click Agree.

## Step 1: Install Phidgets Library

3c. Here, you have the option to select the installation location. Select Install.

## Step 1: Install Phidgets Library

3d. MacOS may ask for permission to install. Enter your username and password and Install Software.

## Step 1: Install Phidgets Library

3e. Wait for Installation to complete. This should only take a few moments.

## Step 1: Install Phidgets Library

3f. You may see a message that the extension has been blocked. Select Open Security Preferences.

3g. Click Allow.

## Step 1: Install Phidgets Library

3h. Installation Complete, Click Close.

## Step 1: Install Phidgets Library

3i. To delete the installer, click Move to Trash.

## Step 2: Connect Devices

● Connect Power Jack

● Connect VINT Device(s)

● Connect Ethernet to a Router or Switch in the same network as your Mac

## Step 3: Verify Connection

1. Open the Phidget Control Panel:

## Step 3: Verify Connection

2. If connected, your Phidgets will appear in the Phidget Control Panel.

Now that the SBC's ethernet connection is verified, it can be connected to wifi.

If you don't have a USB wifi adapter or you're planning to stay on ethernet, you can scroll down to

Part 2: Using Your Phidget

## Step 4: Connect Wireless

1. In your web browser, enter phidgetsbc.local

## Step 4: Connect Wireless

2. Create a password for your SBC. You will use this to access the configuration page from now on.

## Step 4: Connect Wireless

3. Navigate to Network -> Wireless. Select your Network, enter the wifi password and select Add This Network.

## Step 4: Connect Wireless

4. Scroll down to your saved networks, click on your network and select Join This Network.

## Step 4: Connect Wireless

5. It should now say connected in the status column.

You can now unplug the ethernet cable.

## Step 4: Connect Wireless

6. Return to the Phidget Control Panel to access your Phidgets.

## Done!

If you're able to see and interact with your devices in the Phidget Control Panel, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in MacOS (e.g. developer tools, driver extension, etc.), visit this page:

## Step 1: Install Phidgets Library

1. First, you need to install the libusb-1.0 development libraries. For example, in Debian based distributions:

apt-get install libusb-1.0-0-dev

You’ll also need a C compiler and builder, if you don’t already have one installed.

apt-get install gcc
apt-get install make

## Step 1: Install Phidgets Library

2. Next, download and unpack the Phidgets library:

## Step 1: Install Phidgets Library

3. Use the following commands in the location you unpacked to install the library:

./configure
make
sudo make install

## Step 1: Install Phidgets Library

4. (Optional) You can also download and unpack the following optional packages:

phidget22networkserver - Phidget Network Server, which enables the use of Phidgets over your network

phidget22admin - Admin tool to track who is connected to your Phidgets when using the network server

libphidget22extra - Required for phidget22networkserver and phidget22admin

libphidget22java - The Java libraries for Phidget22

For installation instructions for these packages, see the README file included with each one.

## Step 2: Connect Devices

● Connect Power Jack

● Connect VINT Device(s)

● Connect Ethernet to a Router or Switch in the same network as your Linux machine

## Step 3: Verify Connection

1. The easiest way to verify that your libraries are working properly is to compile and run an example program. Download and unpack this C example that will detect any Phidget:

## Step 3: Verify Connection

2. Next, open the terminal in the location where you unpacked the example. Compile and run using:

gcc HelloWorld.c -o HelloWorld -lphidget22
sudo ./HelloWorld

If everything is working, you should receive a “Hello” line for each Phidget channel that is discovered:

I don’t see any Phidgets show up in the HelloWorld example

You need to run it with sudo in order to be able to access USB devices. In order to use Phidgets without sudo, you need to set your udev rules. See the Advanced Information page on the final slide of this guide for details.

Now that the SBC's ethernet connection is verified, it can be connected to wifi.

If you don't have a USB wifi adapter or you're planning to stay on ethernet, you can scroll down to

Part 2: Using Your Phidget

## Step 4: Connect Wireless

1. In your web browser, enter phidgetsbc.local

If you're using a terminal-only Linux machine, use the browser on your phone instead.

(If you use a phone, you need to enter the IP address your router assigned to the SBC instead of phidgetsbc.local)

## Step 4: Connect Wireless

2. Create a password for your SBC. You will use this to access the configuration page from now on.

## Step 4: Connect Wireless

3. Navigate to Network -> Wireless. Select your Network, enter the wifi password and select Add This Network.

## Step 4: Connect Wireless

4. Scroll down to your saved networks, click on your network and select Join This Network.

## Step 4: Connect Wireless

5. It should now say connected in the status column.

You can now unplug the ethernet cable.

## Step 4: Connect Wireless

6. Run the HelloWorld example again to confirm that your Phidgets are accessible over wifi.

## Done!

If you're able to see your devices in the Hello World example, you're done with the Setup part of this guide.

Scroll down to Part 2: Using Your Phidget for the next step.

For more info installing in Linux (e.g. Udev rules, old versions, etc.), visit this page:

## Part 2: Using Your Phidget

### About

The TMP1200 allows you to precisely measure temperature using RTDs, thermistors, and other resistance-based sensors. Measure temperature from your RTD in degrees Celsius by selecting the RTD type and the number of wires in the software. You can also read thermistors and other resistive sensors by using the resistance sensor object in your program. You'll receive the data in ohms and can convert to the desired unit by using the formula in your sensor's datasheet. You could even use it as a simple ohmmeter for resistances up to 19 kΩ.

### Explore Your Phidget Channels Using The Control Panel

You can use your Control Panel to explore your Phidget's channels.

1. Open your Control Panel, and you will find the following channels:

2. Double click on a channel to open an example program. Each channel belongs to a different channel class:

Expand All
Resistance Input: Measures the raw resistance of the RTD probe

In your Control Panel, double click on "Resistance Input":

RTD Input: Reports the temperature of the RTD probe

In your Control Panel, double click on "RTD Input":

## Part 4: Advanced Topics and Troubleshooting

Expand All
How do I know what channel, serial number, or hub port to use in my program?

Before you open a Phidget channel in your program, you can set these properties to specify which channel to open. You can find this information through the Control Panel.

1. Open the Control Panel and double-click on the red map pin icon:

2. The Addressing Information window will open. Here you will find all the information you need to address your Phidget in your program.

See the Phidget22 API for your language to determine exact syntax for each property.

Setting the Change Trigger and Data Interval

The Change Trigger is the minimum change in the sensor data needed to trigger a new data event. The Data Interval is the time (in ms) between data events sent out from your Phidget. You can modify one or both of these values to achieve different data outputs. You can learn more about these two properties here.

How can I plot or record sensor data?

Note: Graphing and logging is currently only supported in the Windows version of the Phidget Control Panel.

In the Phidget Control Panel, open the channel for your device and click on the icon next to the data type that you want to plot. This will open up a new window:

If you need more complex functionality such as logging multiple sensors to the same sheet or performing calculations on the data, you'll need to write your own program. Generally this will involve addressing the correct channel, opening it, and then creating an Event Handler and adding graphing/logging code to it.

The quickest way to get started is to download some sample code for your desired programming language and then search google for logging or plotting in that language (e.g. "how to log to csv in python") and add the code to the existing change handler.

### Filtering

You can perform filtering on the raw data in order to reduce noise in your graph. For more information, see the Control Panel Graphing page.

### Graph Type

You can perform a transform on the incoming data to get different graph types that may provide insights into your sensor data. For more information on how to use these graph types, see the Control Panel Graphing page.

Upgrading or Downgrading Device Firmware

Firmware Upgrade

MacOS users can upgrade device firmware by double-clicking the device row in the Phidget Control Panel.

Linux users can upgrade via the phidget22admin tool (see included readme for instructions).

Windows users can upgrade the firmware for this device using the Phidget Control Panel as shown below.

Firmware Downgrade

Firmware upgrades include important bug fixes and performance improvements, but there are some situations where you may want to revert to an old version of the firmware (for instance, when an application you're using is compiled using an older version of phidget22 that doesn't recognize the new firmware).

MacOS and Linux users can downgrade using the phidget22admin tool in the terminal (see included readme for instructions).

Windows users can downgrade directly from the Phidget Control Panel if they have driver version 1.9.20220112 or newer:

Firmware Version Numbering Schema

Phidgets device firmware is represented by a 3-digit number. For firmware patch notes, see the device history section on the Specifications tab on your device's product page.

• If the digit in the 'ones' spot changes, it means there have been bug fixes or optimizations. Sometimes these changes can drastically improve the performance of the device, so you should still upgrade whenever possible. These upgrades are backwards compatible, meaning you can still use this Phidget on a computer that has Phidget22 drivers from before this firmware upgrade was released.
• If the digit in the 'tens' spot changes, it means some features were added (e.g. new API commands or events). These upgrades are also backwards compatible, in the sense that computers running old Phidget22 drivers will still be able to use the device, but they will not be able to use any of the new features this version added.
• If the digit in the 'hundreds' spot changes, it means a major change has occurred (e.g. a complete rewrite of the firmware or moving to a new architecture). These changes are not backwards compatible, so if you try to use the upgraded board on a computer with old Phidget22 drivers, it will show up as unsupported in the Control Panel and any applications build using the old libraries won't recognize it either. Sometimes, when a Phidget has a new hardware revision (e.g. 1018_2 -> 1018_3), the firmware version's hundreds digit will change because entirely new firmware was needed (usually because a change in the processor). In this case, older hardware revisions won't be able to be upgraded to the higher version number and instead continue to get bug fixes within the same major revision.
Wiring Instructions

### Two-Wire Mode

This is the simplest wiring setup for an RTD, but also the least accurate because the resistance of the leads are not taken into account. To connect a 2-wire RTD to the RTD Phidget, connect one wire to the RTD+ terminal, and the other to the RTD- terminal. Then connect the EXC+ terminal to the RTD+ terminal and the EXC- to the RTD- terminal with two short wires.

In your program, set RTDWireSetup to 2-wire mode. In the Phidget22 API select the TMP1200 and your programming language of choice to see exact naming conventions.

### Three-Wire Mode

In a three-wire RTD, the extra wire is added to measure the resistance of one of the leads. This calculation assumes that both leads have the same resistance. Your RTD should have two wires that share a color; connect one of these wires to the RTD- terminal and the other to the EXC- terminal. The differently colored wire connects to the RTD+ terminal. Then connect the EXC+ terminal to the RTD+ terminal with a short wire.

In your program, set RTDWireSetup to 3-wire mode. In the Phidget22 API select the TMP1200 and your programming language of choice to see exact naming conventions.

### Four-Wire Mode

A four-wire RTD is normally used in precision measurement, when the assumption that both leads have the same resistance is not accurate enough. Unfortunately the RTD Phidget does not support this particular feature of four-wire RTDs. It does support the use of four-wire RTDs using the same assumption as three-wire mode. To connect a four-wire RTD, simply connect one pair of same-colored wires to the RTD+ and EXC+ terminals, and the other pair to the RTD- and EXC- terminals.

In your program, set RTDWireSetup to 4-wire mode. In the Phidget22 API select the TMP1200 and your programming language of choice to see exact naming conventions.

Line Resistance Measurement

In three and four wire modes, this device will measure the line resistance every 5 minutes. This measurement will cause a delay in measurement for data intervals of less than 500ms. To force the line resistance to be recalculated, you must close and re-open the device.

#### Product Specifications

Board Properties
Controlled By VINT
Resistance Input
Maximum Measurable Resistance 5 kΩ
Resistance Noise (PT100 Mode) 17 mΩ
Resistance Noise (PT1000 Mode) 47 mΩ
Resistance Resolution 1 mΩ
RTD Input
Temperature Error Max * 0.2 °C
Sampling Interval Min 333 ms/sample
Sampling Interval Max 60 s/sample
Electrical Properties
Current Consumption Max 3 mA
Physical Properties
Recommended Wire Size 16 - 26 AWG
Operating Temperature Min -30 °C
Operating Temperature Max 85 °C
Customs Information
Canadian HS Export Code 8471.80.00
American HTS Import Code 8471.80.40.00
Country of Origin CN (China)

* - The maximum temperature error varies depending on the RTDType and temperature. See the table below:

RTDType Below 300ºC Above 300ºC
PT100 0.1 ºC 0.2 ºC
PT1000 0.02 ºC 0.2 ºC

#### Maximum Phidget Cable Length

The maximum recommended length of the Phidget cable between this device and a VINT Hub depends on a few different factors. If the device has a icon printed on the enclosure, it means it's equipped with an improved filter which will increase the maximum cable length when connected to a VINT Hub with the same icon.

Cable Gauge Cable Length (m)
26 AWG or thicker 5
26 AWG or thicker (with ) 50

#### Product History

Date Board Revision Device Version Comment
August 2017 0 104 Product Release
January 2018 0 105 Increased maximum change trigger
January 2018 0 106 Library bug fixes
March 2020 0 107 Fixed bug where wire resistance could be NaN
April 2020 0 108 Fixed equations. Added internal calibration (only for new TMP1200)
December 2021 0 109 Fixed bug that blocked sensor data at higher data intervals
December 2021 0 110 Fixed bug that caused unusual readings when device is rapidly unplugged and replugged
April 2022 0 111 Fixed calculation error for 3 and 4-wire mode
January 2022 1 300 Hardware changes; Improved accuracy, minimum data interval increased to 333ms, , added filter

#### Software Objects

Channel NameAPIChannel
RTD input TemperatureSensor 0
Resistance Input ResistanceInput 0

#### API

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#### Code Samples

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TemperatureSensor Visual Studio GUI C# Windows Download
TemperatureSensor Java Android Download
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TemperatureSensor Objective-C macOS Download
TemperatureSensor Swift macOS Download
TemperatureSensor Swift iOS Download
TemperatureSensor Visual Basic .NET Windows Download
TemperatureSensor Max/MSP Multiple Download
ResistanceInput Visual Studio GUI C# Windows Download
ResistanceInput Java Android Download
ResistanceInput JavaScript Browser Download
ResistanceInput Objective-C macOS Download
ResistanceInput Swift macOS Download
ResistanceInput Swift iOS Download
ResistanceInput Visual Basic .NET Windows Download
ResistanceInput Max/MSP Multiple Download