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en:automation:02-glossary:analog-outputs-hidden [2018/11/01 09:22]
jan_kozak [Analog output on Unipi 1.1]
en:automation:02-glossary:analog-outputs-hidden [2021/06/09 08:48] (current)
avsetula
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 <WRAP center round important 60%> <WRAP center round important 60%>
-The AOs are only for signaling ​and not for powering devices. Sourcing more than 20mA will damage the output.+The AOs are only for signalling ​and not for powering devices. Sourcing more than 20mA will damage the output.
 </​WRAP>​ </​WRAP>​
  
 +----
 +
 +<​html><​span class="​kbBlueText">​More information about analog outputs can be found in specific categories:</​span></​html>​\\
 +
 +<​tile>​
 +| en:​hw:​007-patron:​description-of-io:​05-description-of-ao ​    | Patron ​            | :​en:​hw:​unipi-kb-icon-patron.png ​    |
 +| en:​hw:​01-axon:​description-of-io:​05-description-of-ao ​       | Axon               | :​en:​hw:​unipi-kb-icon-axon.png ​      |
 +| en:​hw:​02-neuron:​description-of-io:​05-description-of-ao ​     | Neuron ​            | :​en:​hw:​unipi-kb-icon-neuron.png ​    |
 +| en:​hw:​03-unipi11:​description-of-io:​05-description-of-ao ​    | 1.1 & 1.1 Lite     | :​en:​hw:​unipi-kb-icon-1.png ​         |
 +| en:​hw:​04-extensions:​description-of-io:​05-description-of-ao ​ | Extension modules ​ | :​en:​hw:​unipi-kb-icon-extension.png ​ | 
 +</​tile>​
 +
 +
 +/*
 ===== Analog outputs on Neuron and Axon ===== ===== Analog outputs on Neuron and Axon =====
-The functionality of AOs on Neuron and Axon is different on Group 1 and Group 2/3 and on Neuron extensions. ​+The functionality of AOs on Neuron and Axon is different on Group 1 and Group 2/3 and Neuron extensions. ​
  
 On Group 1, the analog output is capable of: On Group 1, the analog output is capable of:
   * sourcing 0-10V DC   * sourcing 0-10V DC
   * sourcing 0-20mA DC   * sourcing 0-20mA DC
-  * and measuring resistance up to 2kOhm by a 2-wire method+  * and [[analog-inputs-hidden#​measuring_resistance|measuring resistance]] up to 2kOhm by a 2-wire method
  
-The analog outputs on Group 2 and 3 and on the Neuron extensions are capable of:+The analog outputs on Group 2 and 3 and the Neuron extensions are capable of:
   * sourcing 0-10V DC   * sourcing 0-10V DC
  
-Changing between modes depends on the [[en:​sw:​00-start|software]] you are using, please follow the relevant tutorial. ​+Changing between modes depends on the software you are using, please follow the relevant tutorial. ​
  
 ==== Sourcing voltage ==== ==== Sourcing voltage ====
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 ===== Analog output on Unipi 1.1 ===== ===== Analog output on Unipi 1.1 =====
-The UniPi 1.1 has one analog output ​and it is only capable of sourcing voltage in a range of 0-10V DC.+The UniPi 1.1 has one analog output only capable of sourcing voltage in a range of 0-10V DC.
  
 ====Usage of the UniPi 1.1's analog output==== ====Usage of the UniPi 1.1's analog output====
  
-Analog ​output on the UniPi 1.1 functions as a voltage regulator, requiring a voltage (connected to the AOV) and a ground (connected to the AOG). +Analogue ​output on the UniPi 1.1 functions as a voltage regulator, requiring a voltage (connected to the AOV) and a ground (connected to the AOG). 
  
 Upon connecting the voltage, please check if the output voltage is set properly using the onboard trimmer. If not, the output voltage will not correspond with the required value. Upon connecting the voltage, please check if the output voltage is set properly using the onboard trimmer. If not, the output voltage will not correspond with the required value.
  
-For the output voltage setting, we recommend following steps+For the output voltage setting, we recommend ​the following steps
   - Connect a voltage source and ground   - Connect a voltage source and ground
   - Set the required output voltage through a control software of your choice, or by using the Pulse-Width Modulation (PWM) firmware function   - Set the required output voltage through a control software of your choice, or by using the Pulse-Width Modulation (PWM) firmware function
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 {{:​en:​automation:​02-glossary:​unipi_ao.png?​250|}} {{:​en:​automation:​02-glossary:​unipi_ao.png?​250|}}
  
-An example of UniPi controller auto-regulating its own 12V voltage and measuring it through its analog ​input+An example of an UniPi controller auto-regulating its 12V voltage and measuring it through its analogue ​input
  
 {{:​en:​automation:​02-glossary:​unipi_ao_example.png?​250|}} {{:​en:​automation:​02-glossary:​unipi_ao_example.png?​250|}}
  
-An example of a 12V voltage connected to the AOV. The ground is connected to the AOG. The AOV then serves as a connector generating a positive voltage from analogue input, which is routed to the AI1+. Thanks to this connection the user can read analog output value directly from the analog input. ​ +An example of a 12V voltage connected to the AOV. The ground is connected to the AOG. The AOV then serves as a connector generating a positive voltage from the analogue input, which is routed to the AI1+. Thanks to this connection the user can read analog output value directly from the analog input. ​
- +
- +
- +
  
 +*/