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resources:eval:user-guides:circuits-from-the-lab:cn0203 [03 Aug 2017 10:56] Angelo Nikko Catapangresources:eval:user-guides:circuits-from-the-lab:cn0203 [30 Jul 2021 07:20] (current) Victor Calinao, Jr
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 The [[ADI>AD5750-1]] are single-channel, low cost, precision voltage/current output drivers developed to meet the requirements of industrial process control applications. The voltage output range can be programmed for the standard output ranges for PLC and DCS applications: 0 V to 5 V, 0 V to 10 V, −5 V to +5 V, and −10 V to +10 V. A 20% overrange setting is also provided for the standard ranges, giving the following options: 0 V to 6 V, 0 V to 12 V, −6 V to +6 V, and −12 V to +12 V. The current output, which is provided on a separate pin, can be programmed for the ranges of 4 mA to 20 mA, 0 mA to 20 mA, −20 mA to +20 mA, 0 mA to 24 mA, and −24 mA to +24 mA. The unipolar ranges have a 2% overrange setting. The voltage and current output pins can be tied together to configure the end system as a single-channel output if desired. The [[ADI>AD5750-1]] are single-channel, low cost, precision voltage/current output drivers developed to meet the requirements of industrial process control applications. The voltage output range can be programmed for the standard output ranges for PLC and DCS applications: 0 V to 5 V, 0 V to 10 V, −5 V to +5 V, and −10 V to +10 V. A 20% overrange setting is also provided for the standard ranges, giving the following options: 0 V to 6 V, 0 V to 12 V, −6 V to +6 V, and −12 V to +12 V. The current output, which is provided on a separate pin, can be programmed for the ranges of 4 mA to 20 mA, 0 mA to 20 mA, −20 mA to +20 mA, 0 mA to 24 mA, and −24 mA to +24 mA. The unipolar ranges have a 2% overrange setting. The voltage and current output pins can be tied together to configure the end system as a single-channel output if desired.
  
-The [[ADI>AD5660-1]] is a single channel, low cost, low power, rail-torail voltage buffered output nanoDAC integrated with an onchip 1.25 V, 5 ppm/°C reference. The [[ADI>AD5660-1]] incorporates a power-on reset circuit to ensure that the DAC output powers up to 0 V and remains there until a valid write command takes place. +The [[ADI>AD5660|AD5660-1]] is a single channel, low cost, low power, rail-torail voltage buffered output nanoDAC integrated with an onchip 1.25 V, 5 ppm/°C reference. The [[ADI>AD5660|AD5660-1]] incorporates a power-on reset circuit to ensure that the DAC output powers up to 0 V and remains there until a valid write command takes place. 
-The output voltage range of the [[ADI>AD5660-1]] is 0 V to 2.5 V, which matches the input range of the [[ADI>AD5750-1]]. In addition, the reference output voltage of the  [[ADI>AD5660-1]] is 1.25 V, which precisely matches the reference input requirement of the [[ADI>AD5750-1]].+The output voltage range of the [[ADI>AD5660|AD5660-1]] is 0 V to 2.5 V, which matches the input range of the [[ADI>AD5750-1]]. In addition, the reference output voltage of the  [[ADI>AD5660|AD5660-1]] is 1.25 V, which precisely matches the reference input requirement of the [[ADI>AD5750-1]].
  
-The [[ADI>CN0203]] needs +15 V, -15 V and +6 V power supply inputs and thus, needs a triple output DC power supply. The board also connects to ADI's System Demonstration Platform (**SDP**).+The [[ADI>CN0203]] needs +15 V, -15 V and +6 V power supply inputs and thus, needs a triple output DC power supply. The board also connects to ADI's System Demonstration Platform (**SDP**).
  
 {{ :resources:eval:user-guides:circuits-from-the-lab:cn0203:cn0203-hw-1024.jpg?nolink&600 |}} {{ :resources:eval:user-guides:circuits-from-the-lab:cn0203:cn0203-hw-1024.jpg?nolink&600 |}}
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 ===== Required Equipment ===== ===== Required Equipment =====
   * [[ADI>CN0203|EVAL-CN0203-SDPZ Evaluation Board]]   * [[ADI>CN0203|EVAL-CN0203-SDPZ Evaluation Board]]
-  * [[ADI>EVAL-SDP-CB1Z|EVAL-SDP-CB1Z Controller Board (**SDP-B Board**)]]+  * [[ADI>EVAL-SDP-CB1Z|EVAL-SDP-CB1Z Controller Board (SDP-B Board)]]
   * [[ftp://ftp.analog.com/pub/cftl/CN0203/CN0203%20SDP%20Eval%20Software.zip|CN0203 Evaluation Software]]   * [[ftp://ftp.analog.com/pub/cftl/CN0203/CN0203%20SDP%20Eval%20Software.zip|CN0203 Evaluation Software]]
   * ±25 V/1 A Triple Output DC Power Supply (**Agilent E3631A**)   * ±25 V/1 A Triple Output DC Power Supply (**Agilent E3631A**)
   * Optional Digital Multimeter for Verification (**Agilent 34401A 6.5 Digital Multimeter**)   * Optional Digital Multimeter for Verification (**Agilent 34401A 6.5 Digital Multimeter**)
-  * PC (Windows 2000 or Windows XP) with USB interface+  * PC with USB interface 
 +      * Windows 7 or higher
  
 ---- ----
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   * Terminal block **CN2** is the +6 V power supply input   * Terminal block **CN2** is the +6 V power supply input
   * Terminal block **CN3** is for the voltage output measurement   * Terminal block **CN3** is for the voltage output measurement
 +      * **Optionally** if **JP3** and **JP4** are open, **VSENSE+** and **VSENSE-** can be connected across a selected branch in the load circuit for feedback. **VSENSE-** should be within +/- 3.0 V of the GND
   * Terminal block **CN4** is for the current output measurement   * Terminal block **CN4** is for the current output measurement
 <WRAP center round important 60%>Power on the **(EVAL-CN0203-SDPZ)** through the triple output power supply and the **(SDP-B Board)** through the PC **SEPARATELY** before connecting the two boards together.</WRAP> <WRAP center round important 60%>Power on the **(EVAL-CN0203-SDPZ)** through the triple output power supply and the **(SDP-B Board)** through the PC **SEPARATELY** before connecting the two boards together.</WRAP>
  
 ==== Jumper Settings ==== ==== Jumper Settings ====
-See the table in the image below for the jumper settings. Values in bold are the default settings for the [[ADI>CN0203|EVAL-CN0203-SDPZ]].+See the table in the image below for the jumper settings. Values in red are the default settings for the [[ADI>CN0203|EVAL-CN0203-SDPZ]].
  
-{{ :resources:eval:user-guides:circuits-from-the-lab:cn0203:cn0203_table2.jpg?nolink&600 |}}+{{ :resources:eval:user-guides:circuits-from-the-lab:cn0203:cn0203_table2_4.jpg?nolink&600 |}}
  
 ---- ----
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 ===== Using the Evaluation Software ===== ===== Using the Evaluation Software =====
 ==== Main Window ==== ==== Main Window ====
 +{{ :resources:eval:user-guides:circuits-from-the-lab:cn0203:7-27-2017_10-29-07_am.png?nolink&600 |}}
 +  * **Title Bar** <fc #9400d3>(Highlighted Violet)</fc>
 +      * **Connect Button**
 +          * Starts the connection with the [[ADI>CN0203|CN0203 Evaluation Board]]
 +      * **Disconnect Button**
 +          * Ends the connection with the [[ADI>CN0203|CN0203 Evaluation Board]]
 +  * **System Configuration** <fc #ffa500>(Highlighted Orange)</fc>
 +      * **Connector**
 +          * Selects which 120-pin connection of the **SDP-B Board** to use
 +      * **SCLK (Hz)**
 +          * Sets the SPI clock frequency used by the evaluation board
 +  * **AD5750-1 Configuration** <fc #4682b4>(Highlighted Blue)</fc>
 +      * **JP1 Configuration**
 +          * Sets the SPI address of the AD5750-1 based on the position of JP1
 +      * **Range Select**
 +          * Sets the voltage/current output range
 +      * **Toggle CLEAR**
 +          * Sets the outputs to the zero/midscale voltage value or the minimum value of the selected current range
 +  * **AD5750-1 Error Indicator** <fc #ffff00>(Highlighted Yellow)</fc>
 +      * **Vout Fault**
 +          * There is a short circuit on the VOUT pin
 +      * **Iout Fault**
 +          * There is an open circuit on the IOUT pin
 +      * **Over Temp**
 +          * The AD5750-1 core temperature exceeds 150 °C
 +      * **PEC Error**
 +          * CRC-8 error checking detected an interface error
 +  * **Output Setting** <fc #ff0000>Highlighted Red</fc>
 +      * **Write AD5660-1**
 +          * Writes the hexadecimal value in the left field to the AD5660-1 output voltage
 +      * **Reset AD5750-1**
 +          * Resets the AD5750-1 to its power-on state
 +  * **Quit**
 +      * Exits the software application
 +==== Running the System ====
 +  - Open the **CN0203.exe** application from the default installation location.
 +  - Set the correct connector and SCLK settings for the board in the System Configuration section.
 +  - Click the **Connect Button** 
 +  - Upon successful connection, select the desired range of output on the Range Select drop-down menu.
 +  - Input a hex value equivalent of the desired output level in the Output Setting section.
 +  - Click **Write AD5660-1**
 +  - Click **Disconnect Button** if finished.
  
 +----
 +
 +===== More Information and Useful Links =====
 +  * [[ftp://ftp.analog.com/pub/cftl/CN0203/CN0203%20SDP%20Eval%20Software.zip|CN0203 Evaluation Software]]
 +  * [[ADI>CN0203|CN0203 Circuit Note Page]]
 +  * [[ADI>CN0203 -DesignSupport|CN0203 Design Support Package]]
 +  * [[ADI>AD5660|AD5660-1 Product Page]]
 +  * [[ADI>AD5750-1|AD5750-1 Product Page]]
 +
 +===== Schematic, PCB Layout, Bill of Materials =====
 +
 +<WRAP round 80% download>
 +[[adi>media/en/reference-design-documentation/design-integration-files/CN0203-DesignSupport.zip|EVAL-CN0203-SDPZ Design & Integration Files]]
 +  * Schematics 
 +  * PCB Layout 
 +  * Bill of Materials 
 +  * PADS project
 +</WRAP>
  
 +=====Registration===== 
 +<WRAP round tip 80% >
 +Receive software update notifications, documentation updates, view the latest videos, and more when you register your hardware.  [[reg>EVAL-CN0203-SDPZ?&v=Rev B|Register]] to receive all these great benefits and more!</WRAP>
  
 +//End of Document//
resources/eval/user-guides/circuits-from-the-lab/cn0203.1501750592.txt.gz · Last modified: 03 Aug 2017 10:56 by Angelo Nikko Catapang

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