advantech pci daq card training jason ng advantech iag product support group jason ng advantech iag...
Post on 26-Mar-2015
263 Views
Preview:
TRANSCRIPT
Advantech PCI DAQ Card Training
Advantech PCI DAQ Card Training
Jason Ng
Advantech IAG Product Support Group
Jason Ng
Advantech IAG Product Support Group
AgendaAgenda
• Knowing the signal• Select the right tools• Setup the DAQ card• Setup the software• Develop software
Input signal:Input signal:• VoltageVoltage• CurrentCurrent• TemperatureTemperature• SpeedSpeed• PressurePressure
Knowing the signalKnowing the signalSensors:Sensors:• Transducer /ConditionerTransducer /Conditioner• Transducer /ConditionerTransducer /Conditioner• Thermocouple / RTDThermocouple / RTD• EncoderEncoder• Strain gaugeStrain gauge
Data type:Data type:• VoltageVoltage• CurrentCurrent• VoltageVoltage• Counter / FrequencyCounter / Frequency• VoltageVoltage
Knowing the signal – Cont.Knowing the signal – Cont.
010101011110001
Digital Input
24 to 144 bitsTTL and Isolated inputVector InterruptCounter Function
101111001100100
24 to 144 bitsTTL, Relay and Isolated outputTimer Function
Digital Output
Analog Input25 KHz to 30 MHz12 to 16 bits8 to 32 channels Isolated input
12 to 16 bitsVoltage outputCurrent outputIsolated Output
Analog Output
Signal Conditioning
Amplifier gain up to 1000Thermocouple, RTD Multiplex up to 256 channelsSignal Isolation
Relay Output
Rating form 30 VDC to 250 VACForm A, Form C and SSROpto-22 compatible
A/D Resolution: A/D Resolution: • 12 bits - 212 bits - 2resolutionresolution = 2 = 21212 = 4,096 levels = 4,096 levels• 16 bits - 216 bits - 2resolutionresolution = 2 = 21616 = 65,536 levels = 65,536 levels
Each level also known as Least Significant bit (LSB) represent how small a Each level also known as Least Significant bit (LSB) represent how small a voltage level can be detect in a specific full scale range.voltage level can be detect in a specific full scale range.
For 12 bits AI, input range is +/-10V:For 12 bits AI, input range is +/-10V:Resolution = 20V / 4096 = 4.88 mV per divisionResolution = 20V / 4096 = 4.88 mV per division
For 16 bits AI, input range is +/-10V:For 16 bits AI, input range is +/-10V:Resolution = 20V / 65,536 = 0.305 mV per divisionResolution = 20V / 65,536 = 0.305 mV per division
Input range is Input range is ±0.005V (PCI-1710HG):±0.005V (PCI-1710HG): Resolution = 0.01 / 4096 = 2.44Resolution = 0.01 / 4096 = 2.44μVμV
Analog InputAnalog Input
Sampling rate:
1Hz, 100Hz, 1KHz, 100KHz, 250KHz, 1MHz, 30MHz
Nyquist sampling theorem: Sampling rate >= 2 x signal bandwidth
Sampling rate:
1Hz, 100Hz, 1KHz, 100KHz, 250KHz, 1MHz, 30MHz
Nyquist sampling theorem: Sampling rate >= 2 x signal bandwidth
Analog Input – Cont.Analog Input – Cont.
Measured signalMeasured signal
Sampling rateSampling rate
Multiplexing means that the sampling rate is shared across all active input channels. For example, 100KS/s / 16 channels = 6.25KS/s per channel !!!But PCI-1714 is capable of up to 30MS/s per channel – 4 A/D converters
Multiplexing means that the sampling rate is shared across all active input channels. For example, 100KS/s / 16 channels = 6.25KS/s per channel !!!But PCI-1714 is capable of up to 30MS/s per channel – 4 A/D converters
Other spec:Other spec: Number of channels – 4, 8,16, 32Number of channels – 4, 8,16, 32 Input Ranges - Bipolar (0-0.01, 0-2.5, 0-10, etc)Input Ranges - Bipolar (0-0.01, 0-2.5, 0-10, etc)
- Unipolar (±10, ±5, ±1, ±0.005, etc) Gain – High gain ( PCI-1710HG/L) , programmable gainGain – High gain ( PCI-1710HG/L) , programmable gain FIFO Buffer Size – 1K, 4K, 32K (PCI-1714) samplesFIFO Buffer Size – 1K, 4K, 32K (PCI-1714) samples Data transfer mode – Software, Interrupt transfer, DMA transfer (BUS master)Data transfer mode – Software, Interrupt transfer, DMA transfer (BUS master) Trigger mode – Software, Pacer, Pre-Trigger, Post-Trigger, Delay-Trigger, About-Trigger mode – Software, Pacer, Pre-Trigger, Post-Trigger, Delay-Trigger, About-
TriggerTrigger Auto-calibration Auto-calibration - - The built-in calibration circuitry corrects gain and offset errors in
analog input and analog output channels eliminating the need for external equipment and user adjustments.
Board IDBoard ID
Analog Input – Cont.Analog Input – Cont.
Single Ended / Differential:Single Ended / Differential:
CH0
CH1
CH14
CH15
+
-
CH0H
CH1H
CH0L
CH1L
+
-
Differential has advantage of immune toinduced noise on the two input terminals. Since these two signals are subtracted from each other, rather than one terminal to ground, hence, the term is differential.
Differential has advantage of immune toinduced noise on the two input terminals. Since these two signals are subtracted from each other, rather than one terminal to ground, hence, the term is differential.
Analog Input Card SelectionAnalog Input Card Selection
ModelModel ChannelChannel ResolutionResolution Sampling rateSampling rate SpecialSpecial
*PCI-1710/L*PCI-1710/L 16 SE/8 Diff16 SE/8 Diff 12 bits12 bits 100 KS/s100 KS/s
*PCI-1710HG/L*PCI-1710HG/L 16 SE/8 Diff16 SE/8 Diff 12 bits12 bits 100 KS/s100 KS/s With High GainWith High Gain
*PCI-1711/L*PCI-1711/L 16 SE16 SE 12 bits12 bits 100 KS/s100 KS/s
*PCI-1712/L*PCI-1712/L 16 SE/8 Diff16 SE/8 Diff 12 bits12 bits 1 MS/s1 MS/s Bus MasterBus Master
*PCI-1716/L*PCI-1716/L 16 SE/8 Diff16 SE/8 Diff 16 bits16 bits 250 KS/s250 KS/sHi Res., Bus Hi Res., Bus MasterMaster
PCI-1713PCI-1713 32 SE/16 Diff32 SE/16 Diff 12 bits12 bits 100 KS/s100 KS/s IsolationIsolation
PCI-1714PCI-1714 4 SE4 SE 12 bits12 bits 30 MS/s30 MS/s Adv. High SpeedAdv. High Speed
* Multi-function Card, /L means no Analog Output* Multi-function Card, /L means no Analog Output
Analog Input DAQ card - QuizAnalog Input DAQ card - Quiz1. Which board has High Gain that can accept Thermocouple input
directly, without a signal conditioner?1. Which board has High Gain that can accept Thermocouple input
directly, without a signal conditioner?
ChannelChannel ResolutionResolution Sampling rateSampling rate SpecialSpecial
16 SE/8 Diff16 SE/8 Diff 12 bits12 bits 100 KS/s100 KS/s
16 SE16 SE 12 bits12 bits 100 KS/s100 KS/s
16 SE/8 Diff16 SE/8 Diff 12 bits12 bits 1 MS/s1 MS/s Bus MasterBus Master
32 SE/16 Diff32 SE/16 Diff 12 bits12 bits 100 KS/s100 KS/s IsolationIsolation
ModelModel
*PCI-1710/L*PCI-1710/L
*PCI-1710HG/L*PCI-1710HG/L
*PCI-1711/L*PCI-1711/L
*PCI-1712/L*PCI-1712/L
*PCI-1716/L*PCI-1716/L
PCI-1713PCI-1713
PCI-1714PCI-1714
3. Which board is capable to sample up to 15MHz of sine wave?3. Which board is capable to sample up to 15MHz of sine wave?
2. Which board has the highest resolution of A/D converter?2. Which board has the highest resolution of A/D converter?
16 SE/8 Diff16 SE/8 Diff 12 bits12 bits 100 KS/s100 KS/s With High GainWith High Gain
16 SE/8 Diff16 SE/8 Diff 16 bits16 bits 250 KS/s250 KS/sHi Res., Bus Hi Res., Bus MasterMaster
4 SE4 SE 12 bits12 bits 30 MS/s30 MS/s Adv. High SpeedAdv. High Speed
Analog Output SpecsAnalog Output Specs Number of Output Channels - 2, 4, 8, 24 channelsNumber of Output Channels - 2, 4, 8, 24 channels Output Ranges - Bipolar (0-5V, 0-10V)Output Ranges - Bipolar (0-5V, 0-10V)
- Unipolar (±5, ±10)
- Current loop (0~20mA, 4~20mA) D/A Resolution - 12, 14, 16 (PCI-1723) bitsD/A Resolution - 12, 14, 16 (PCI-1723) bits Throughput - 15, 38, 250KHz and 10MHzThroughput - 15, 38, 250KHz and 10MHz Advanced Features – Retain last output setting after system reset (PCI-Advanced Features – Retain last output setting after system reset (PCI-
1720), Waveform output, Synchronized output1720), Waveform output, Synchronized output FIFO Buffer Size – 1K samplesFIFO Buffer Size – 1K samples Calibration – Auto calibrate and save settingsCalibration – Auto calibrate and save settings Board IDBoard ID
Analog Output SpecsAnalog Output Specs Number of Output Channels - 2, 4, 8, 24 channelsNumber of Output Channels - 2, 4, 8, 24 channels Output Ranges - Bipolar (0-5V, 0-10V)Output Ranges - Bipolar (0-5V, 0-10V)
- Unipolar (±5, ±10)
- Current loop (0~20mA, 4~20mA) D/A Resolution - 12, 14, 16 (PCI-1723) bitsD/A Resolution - 12, 14, 16 (PCI-1723) bits Throughput - 15, 38, 250KHz and 10MHzThroughput - 15, 38, 250KHz and 10MHz Advanced Features – Retain last output setting after system reset (PCI-Advanced Features – Retain last output setting after system reset (PCI-
1720), Waveform output, Synchronized output1720), Waveform output, Synchronized output FIFO Buffer Size – 1K samplesFIFO Buffer Size – 1K samples Calibration – Auto calibrate and save settingsCalibration – Auto calibrate and save settings Board IDBoard ID
Analog OutputAnalog Output
Analog Output Card SelectionAnalog Output Card Selection
ModelModel ChannelChannel ResolutionResolution ThroughputThroughput SpecialSpecial
PCI-1720PCI-1720 4 Isolated4 Isolated 12 bits12 bits 15 KS/s15 KS/s
PCI-1721PCI-1721 44 12 bits12 bits 10MHz update10MHz updateBus master, Bus master, Waveform outputWaveform output
PCI-1723PCI-1723 88 16 bits16 bits 15 KS/s15 KS/s Hi resolutionHi resolution
PCI-1724UPCI-1724U 3232 14 bits14 bits 15 KS/s15 KS/s
Analog Output Card – QuizAnalog Output Card – Quiz
1.1. Which board has the highest resolution of D/A Which board has the highest resolution of D/A converter?converter?
ChannelChannel ResolutionResolution ThroughputThroughput SpecialSpecial
4 Isolated4 Isolated 12 bits12 bits 15 KS/s15 KS/s
44 12 bits12 bits10MHz 10MHz updateupdate
Bus master, Bus master, Waveform outputWaveform output
2.2. Which board has highest number of Analog Output Which board has highest number of Analog Output channel?channel?
ModelModel
PCI-1720PCI-1720
PCI-1721PCI-1721
PCI-1723PCI-1723
PCI-1724UPCI-1724U
88 16 bits16 bits 15 KS/s15 KS/s Hi resolutionHi resolution
3232 14 bits14 bits 15 KS/s15 KS/s
Specs:Specs: Number of channels – 16, 32, 48, 96, 192* channels / bitsNumber of channels – 16, 32, 48, 96, 192* channels / bits I/O types – TTL level, Opto-Isolated up to 2500VI/O types – TTL level, Opto-Isolated up to 2500VDCDC, Relay output , Relay output (Form A /C)(Form A /C), ,
Dry / Wet ContactDry / Wet Contact Transfer Rate – 10KB/s, 80MB/s (PCI-1755)Transfer Rate – 10KB/s, 80MB/s (PCI-1755) FIFO Buffer Size – 16KB for DI & 16KB for DOFIFO Buffer Size – 16KB for DI & 16KB for DO Advance Features – Retain last output values when system hot reset, Pattern Advance Features – Retain last output values when system hot reset, Pattern
match and Change of state detection, PWM, Digital Filtermatch and Change of state detection, PWM, Digital Filter Mixture of I/O type – 32 TTL level and 32 Isolated (PCI-1730)Mixture of I/O type – 32 TTL level and 32 Isolated (PCI-1730) Universal PCI support – Support both 3.3V and 5V PCI slot (PCI-1760U)Universal PCI support – Support both 3.3V and 5V PCI slot (PCI-1760U) On-board diagnostic – LED indicators to show activated relaysOn-board diagnostic – LED indicators to show activated relays Board IDBoard ID
Digital Input / OutputDigital Input / Output
* Total of 192 bits is possible by expand a PCI-1753E to a PCI-1753* Total of 192 bits is possible by expand a PCI-1753E to a PCI-1753
Category Model Input Channel Output Channel Counter Channel
Non-Isolated
(TTL)
PCI-1751 48 3 x 16 bits
PCI-1753/E 96 / 192
PCI-1755 32 3 x 16 bits
PCI-1757UP 24
PCI-173016 16
Isolated
16 (Sink) 16 (Sink)
PCI-1733 32 (Sink)
PCI-1734 32 (Sink)
PCI-1750 16 (Sink) 16 (Sink) 1 x 16 bits
PCI-1752 64 (Sink)
PCI-1754 64 (Sink)
PCI-1756 32 (Sink) 32 (Sink)
PCI-1760U 8 (Sink) 8 (Relay) 2 Up Counter (16 bits)
PCI-1761 8 (Sink) 8 (Relay)
PCI-1762 16 (Sink) 16 (Relay)
Digital Input / Output card selectionDigital Input / Output card selection
Digital Input / Output card - QuizDigital Input / Output card - Quiz1.1. Which board can be extended for up to 192 bits?Which board can be extended for up to 192 bits?
2.2. Which board can be plug in to both 3.3V and 5V PCI Which board can be plug in to both 3.3V and 5V PCI slot?slot?
3.3. Which board has low profile form factor?Which board has low profile form factor?
CategoryCategory ModelModel
Non-Isolation
(TTL)
PCI-1751
PCI-1753/EPCI-1753/E
PCI-1755PCI-1755
PCI-1757UPPCI-1757UP
PCI-1730PCI-1730
96 / 19296 / 192
2424
Input ChannelInput Channel Output ChannelOutput Channel Counter ChannelCounter Channel
48 48 3 x 16 bits3 x 16 bits
3232 3 x 16 bits3 x 16 bits
1616 1616
Digital Input / Output card - QuizDigital Input / Output card - Quiz1.1. Which board(s) is Relay output board?Which board(s) is Relay output board?
2.2. Which board has counter for interrupt purpose?Which board has counter for interrupt purpose?
3.3. Which board has both TTL and Isolated I/O?Which board has both TTL and Isolated I/O?
Category Model Input Channel Output Channel Counter Channel
IsolatedIsolated
PCI-1730PCI-1730
PCI-1733PCI-1733
PCI-1734PCI-1734
PCI-1750PCI-1750
PCI-1752PCI-1752
PCI-1754PCI-1754
PCI-1756PCI-1756
PCI-1760UPCI-1760U
PCI-1761PCI-1761
PCI-1762PCI-1762
32 (Sink)32 (Sink)
32 (Sink)32 (Sink)
64 (Sink)64 (Sink)
64 (Sink)64 (Sink)
32 (Sink)32 (Sink) 32 (Sink)32 (Sink)
8 (Sink)8 (Sink) 8 (Relay)8 (Relay) 2 Up Counter (16 bits)2 Up Counter (16 bits)
8 (Sink)8 (Sink) 8 (Relay)8 (Relay)
16 (Sink)16 (Sink) 16 (Relay)16 (Relay)
16 (Sink)16 (Sink) 16 (Sink)16 (Sink) 1 x 16 bits1 x 16 bits
16 (Sink)16 (Sink) 16 (Sink)16 (Sink)
Specification:Specification: Number of channels – 4, 8 channelsNumber of channels – 4, 8 channels Resolution – 16, 32 bits independent countersResolution – 16, 32 bits independent counters Input Frequency – 8, 20 MHzInput Frequency – 8, 20 MHz Quadruple Encoder – 4 axis AB phase w/ w/t index (PCI-1784)Quadruple Encoder – 4 axis AB phase w/ w/t index (PCI-1784) Digital filter – 4 stage with selectable sampling rateDigital filter – 4 stage with selectable sampling rate Board IDBoard ID
Counter /Encoder Counter /Encoder
ModelModel ResolutionResolution ChannelsChannels FrequencyFrequency I/OI/O
PCI-1780PCI-1780 16 bits16 bits 88 20 MHz20 MHz8 In 8 Out8 In 8 Out
TTLTTL
PCI-1784PCI-1784 32 bits32 bits 44 8 MHz8 MHz4 In 4 Out4 In 4 Out
IsolatedIsolated
Counter /Encoder - QuizCounter /Encoder - Quiz
1.1. Which board support quadrature input?Which board support quadrature input?
ModelModel ResolutionResolution ChannelsChannels FrequencyFrequency I/OI/O
PCI-1780PCI-1780
PCI-1784PCI-1784
2.2. Which board has maximum input frequency?Which board has maximum input frequency?
16 bits16 bits 88 20 MHz20 MHz8 In 8 Out8 In 8 Out
TTLTTL
32 bits32 bits 444 In 4 Out4 In 4 Out
IsolatedIsolated8 MHz8 MHz
You understand various type of input / output signal…You understand various type of input / output signal…
You know each Advantech DAQ card’s specification and specialties…You know each Advantech DAQ card’s specification and specialties…
What else is needed in between the DAQ card and signal?What else is needed in between the DAQ card and signal?
Signal Conditioning and Screw Terminal BoardSignal Conditioning and Screw Terminal Board• ADAM-3000 Modules
• Signal Conditioning (T/C, RTD, Strain Gauge, Amplifier)
• Wiring Terminal (20pin flat, DB-25,37,62, Relay, etc.)
• PCLD Signal Conditioning Boards
• Opto-Isolation, Relay, T/C CJC, Screw Terminal
ADAM-3000 Series - Signal Conditioning ModuleADAM-3000 Series - Signal Conditioning Module
ThermocoupleThermocouple RTDRTDDC Voltage / DC Voltage /
CurrentCurrent
StrainStrain
GaugeGauge
ADAM-3011ADAM-3011J, K, T, E, S, J, K, T, E, S,
R, B typeR, B type
ADAM-3013ADAM-3013 Pt or Ni typePt or Ni type
ADAM-3014ADAM-3014±10mV, ±10V, ±10mV, ±10V,
0~10mV, 0~10V, 0~10mV, 0~10V, ±20mA, 0~20mA±20mA, 0~20mA
ADAM-3016ADAM-3016±10, 20, 30, ±10, 20, 30,
100mV100mV
Sensors ADAM-3000 Analog Input Card Platform
ADAM-3900 Series – Screw Wiring TerminalADAM-3900 Series – Screw Wiring Terminal Wiring cable:Wiring cable:
– Connector type is 68-pin SCSI-II female connector, also has 50, 37, 25 and 20 pin cable for different terminal board / configuration.
– Two cable length: 1m and 2m Wiring terminal boards:Wiring terminal boards:
All DAQ BoardsAll DAQ Boards
All Multi Function DAQ
except PCI-1712
All Multi Function DAQ
except PCI-1712
PCI-1712PCI-1712
ADAM-3900 SeriesPin-to-pin screw terminal board
ADAM-3900 SeriesPin-to-pin screw terminal board
PCLD-8710 for PCI-1710/1711/1716 boardsPs. same pin assignments
PCLD-8710 for PCI-1710/1711/1716 boardsPs. same pin assignments
ADAM-8712 for PCI-1712 boardsADAM-8712 for PCI-1712 boards
PCLD Series – Multifunction DAQ Wiring SolutionPCLD Series – Multifunction DAQ Wiring Solution
ModelModel TypeType ChannelChannel DescriptionDescription
PCLD-782/BPCLD-782/B Opto-Isolated DIOpto-Isolated DI 16/2416/24Provide isolation up to 24VProvide isolation up to 24VDCDC to to
TTL level signalTTL level signal
PCLD-785/BPCLD-785/B Relay OutputRelay Output 16/2416/24Provide relay output from TTL Provide relay output from TTL level control signallevel control signal
PCLD-786PCLD-786 SSR Carrier BoardSSR Carrier Board 88 Hold up to 8 SSR I/O ModulesHold up to 8 SSR I/O Modules
PCLD-788PCLD-788 Relay MultiplexerRelay Multiplexer 1616 Multiplex 16 AI channel to 1 AIMultiplex 16 AI channel to 1 AI
PCLD-885PCLD-885 Power Relay OutputPower Relay Output 1616Provide high power relay output Provide high power relay output from TTL level control signalfrom TTL level control signal
PCLD-7216PCLD-7216 SSR Carrier BoardSSR Carrier Board 1616 Hold up to 16 SSR I/O ModulesHold up to 16 SSR I/O Modules
Ready?Ready?
Now we are going to look at a project and we will select Now we are going to look at a project and we will select appropriate components from what we had gone appropriate components from what we had gone through to do measure and control of signals.through to do measure and control of signals.
1.1. Need to:Need to:a) Measure 4 channels of 5VDC analog signals
b) Control 2 channel of 5VDC analog signalsc) Input 8 digital signals and output 8 digital signalsd) 16 bit of resolution
Criteria…Criteria…
2. What do we need?a) 4 AI – 5VDC
b) 2 AO – 5VDC
c) 8 DI - TTLd) 8 DO – TTL
3. A multifunction DAQ card with 16-bit resolution
The selected DAQ card and Terminal boardThe selected DAQ card and Terminal board PCI-1716 – 16 bits, 16SE/8Diff, 16DI, 16 DOPCI-1716 – 16 bits, 16SE/8Diff, 16DI, 16 DO PCLD-8710 – Basic wiring terminal for PCI DAQ cardsPCLD-8710 – Basic wiring terminal for PCI DAQ cards
Software driver supportSoftware driver support
OCX
Linux DriverLinux Driver
LinuxLinux
ApplicationApplication
Windows 95/98/NT/2000/ME/XP DLL DriverWindows 95/98/NT/2000/ME/XP DLL Driver
ActiveXActiveXLabVIEWLabVIEW
DriverDriver
Signal ConditioningComm.MotionData AcquisitionGPIB
Data AcquisitionData AcquisitionTool BoxTool Box
LabVIEWLabVIEWMATLABMATLAB
How to get up-to-date driver support status:Please visit www.advantechdirect.com/60DayTrial/Products.htm for detail
Windows UtilityWindows Utility
Windows ApplicationWindows Application
VC ExampleVB ExampleBCB ExampleDelphi Example
Setup the DAQ cardSetup the DAQ cardHardware and software:Hardware and software: Install Advantech Device ManagerInstall Advantech Device Manager Install individual DLL driverInstall individual DLL driver Configure any DIP switches or jumpersConfigure any DIP switches or jumpers Install the DAQ card in the platformInstall the DAQ card in the platform Connect any daughter board and signal conditionerConnect any daughter board and signal conditioner Launch Advantech Device managerLaunch Advantech Device manager Configure DAQ card’s configuration – Input range, Output range, Daughter boardConfigure DAQ card’s configuration – Input range, Output range, Daughter board
How to connect:How to connect:
1. PCL-10168 68 pin SCSI-II cableto connect from PCI-1716 to PCLD-8710
Additional wiringAdditional wiring
On PCLD-8710:On PCLD-8710:1. Wire DA0 OUT to AI02. Wire AI2 to AI GND next to it3. Plug the 20-pin ribbon cable on CN2 (DIG OUT) and
CN3 (DIG IN)4. Wire PACER OUT to DI15 for Counter test5. Wire +5V to AI1
Advantech Device ManagerAdvantech Device Manager
Device Manager Test UtilityDevice Manager Test Utility
Setup the softwareSetup the software• Install programming examples file – All_Examples.exe• Install Advantech ActiveDAQ driver for ActiveX control – ActiveDAQ.exe• Install Advantech LabView driver – LabVIEW.exe
• Install programming examples file – All_Examples.exe• Install Advantech ActiveDAQ driver for ActiveX control – ActiveDAQ.exe• Install Advantech LabView driver – LabVIEW.exe
Step 1: Open MS Studio.NETStep 1: Open MS Studio.NETStep 2: Open an Analog Input example atStep 2: Open an Analog Input example atC:\Program Files\Advantech\ActiveDAQ\Examples\VBNET\AI\AI.slnC:\Program Files\Advantech\ActiveDAQ\Examples\VBNET\AI\AI.sln
Testing the DAQ cardTesting the DAQ card
Step 3: Press F5 to run the example and select the PCI-1716 card.Step 4: Configure the channels and input range.Click on Start and then Get buffer to read values from channels.
Auto-CalibrationAuto-Calibration What if the ADC is offset and cause the reading is not What if the ADC is offset and cause the reading is not
accurate?accurate?
What if the ADC is offset and cause the reading is not What if the ADC is offset and cause the reading is not accurate?accurate?
Install the Auto-Calibration Install the Auto-Calibration utility from the DAC CD’s utility utility from the DAC CD’s utility folder – Utility.exefolder – Utility.exe
Install the Auto-Calibration Install the Auto-Calibration utility from the DAC CD’s utility utility from the DAC CD’s utility folder – Utility.exefolder – Utility.exe
Auto-Calibration – Cont.Auto-Calibration – Cont.Follow the step by step method on the utility to finish the calibration.Note: Remember to configure the DA Voltage Ref as Internal and the range as +/-5V.
Follow the step by step method on the utility to finish the calibration.Note: Remember to configure the DA Voltage Ref as Internal and the range as +/-5V.
Now we are ready for the real programming hands onNow we are ready for the real programming hands on
We will exercise:1. ActiveDAQ2. LabVIEW3. C++
We will exercise:1. ActiveDAQ2. LabVIEW3. C++
DRV_DeviceOpenDRV_DeviceOpen
Function GroupFunction Group
DRV_DeviceCloseDRV_DeviceClose
ActiveDAQ – Intro.ActiveDAQ – Intro.
Advantech ActiveDAQ is a collection of ActiveX Advantech ActiveDAQ is a collection of ActiveX controls that allows you to perform versatile I/O controls that allows you to perform versatile I/O operations easily through the control properties, operations easily through the control properties, methods, and events. It significantly reduces the methods, and events. It significantly reduces the complexity and effort of the programming.complexity and effort of the programming.
Note: ActiveDAQ 1.6.1 only support PCI DAQ cards, for PCL ISA DAQ card support please install ActiveDAQ 1.56.
Note: ActiveDAQ 1.6.1 only support PCI DAQ cards, for PCL ISA DAQ card support please install ActiveDAQ 1.56.
Exercise… ActiveDAQExercise… ActiveDAQCreate a simple analog read program by using ActiveDAQ in VB.NET.
You can refer to the C:\Program Files\Advantech\ActiveDAQ\ActiveDAQ User Manual.chm
Step 1: Add PCI-1716 card in Advantech Device ManagerStep 2: Open a new Visual Basic project in Visual Studio.NETStep 3: On Tools menu | Add/Remove Toolbox Items…| COM Components | Check all (6 components) Advantech ActiveDAQ Controls. All the components can be found in Windows Forms of the Toolbox.Step 4: Design the Form by referring to the ActiveDAQ hand outStep 5: Configure AI Control in the Properties WindowStep 6: Writing Code for the ActiveDAQ Controls – Code can be find in here.Step 7: Test Your Program with PCI-1716 card
Exercise… ActiveDAQ – Cont.Exercise… ActiveDAQ – Cont.
Now we want to read it continuously.Now we want to read it continuously.
Step 1: Add a Timer and 3 buttons control to the form and configure it 1: Add a Timer and 3 buttons control to the form and configure it
Step 2: Writing code for the additional ActiveDAQ controlsStep 2: Writing code for the additional ActiveDAQ controls
Step 3: Test your new programStep 3: Test your new program
LabVIEW driver – Intro.LabVIEW driver – Intro.
The LabVIEW driver forms an interface between The LabVIEW driver forms an interface between Advantech DAC device (DLL) drivers, which Advantech DAC device (DLL) drivers, which contain all the relevant functions to control the contain all the relevant functions to control the DA&C device, and the LabVIEW software.DA&C device, and the LabVIEW software.
Exercise… LabViewExercise… LabViewCreate a simple analog read program by using LabView, follow the
instructions on the LabVIEW handouts.
You can refer to the C:\Program Files\National Instruments\ C:\Program Files\National Instruments\LabVIEW 7.0\LabVIEW Driver Manual.chm for description on LabVIEW 7.0\LabVIEW Driver Manual.chm for description on Advantech LabVIEW VI’s functions.Advantech LabVIEW VI’s functions.
C++ Programming- IntroC++ Programming- Intro
Free DLL drivers available in all Advantech DAQ Free DLL drivers available in all Advantech DAQ cards.cards.
Lower software development cost.Lower software development cost. Provide a flexible low level programming Provide a flexible low level programming
environment.environment.
Exercise… C++Exercise… C++
Create a simple analog read program by using VC++.
You can refer to the C:\Program Files\Advantech\ADSAPI\Examples\Console\AD_SOFT
1.1. Create a new project in Win32 ApplicationCreate a new project in Win32 Application
2.2. Name the projectName the project
3.3. Add the source codes (file) to the projectAdd the source codes (file) to the project
4.4. Add the resource library file to the projectAdd the resource library file to the project
5.5. Compile the projectCompile the project
ProjectsProjects
Based on your choice of programming tools, try to add a Analog Output (AO) Based on your choice of programming tools, try to add a Analog Output (AO) to the existing program so that you can read back the output values.to the existing program so that you can read back the output values.
If you have time left, add a Digital I/O function as well.If you have time left, add a Digital I/O function as well.
Questions?Questions?
top related