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DAQWare for XNavi

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This article covers Advantech Advantech's USB series of multifunction data acquisition cards, the USB4704 and USB4716.

TLA developed DAQWare for XNavi based on theAdvantech USB-47Series of data acquisition cards, deployed with enhanced experimental instrumentation functions, are able to cover the desktop application of the laboratory for the main engineering education engineering courses. It provides dual-channel oscilloscopes, dual-channel programmable DC voltage regulators, and voltmeters required for experimental teaching. In addition, fully supporting the series of course lab kits released by TLA, DAQWare for XNavi provides the specific experimental project support required for the complete TLA series of course lab kits.

Advantech USB-4704

Advntech USB-47 series multifunctional data acquisition card, consists ofAdvantech (Advantech)Production.Advantech USB-4704respond in singingUSB-4716Available are 8 or 16 single-ended/4 or 8 differential analog input channels with 14-bit or 16-bit ADCs (sampling rate: 48kS/s or 200kS/s), 2 analog output channels, 16 digital I/Os and 1 counter input.

TLA-004A Sensor Course Lab Kit
TLA-004A Sensor Course Lab Kit

TLA-004A Sensor Principles Course Experiment Kit Experimental Items

serial numberExperimental ProjectsUSB-4704 & USB-4716
1Photoresistor Characterization Experiment
2Silicon photovoltaic cell characterization experiment
3Photodiode Characterization Experiment
4Phototransistor Characterization Experiment
5PIN diode characterization experiment*
6Experiments on the Characterization of Pyroelectric Infrared Sensors
7Experiment on DC motor speed measurement based on slot-type optocoupler*
8Experimental DC motor speed measurement based on Hall IC*
9Thermistor temperature measurement experiment
10LM35 temperature measurement experiment
11Thermocouple temperature measurement experiment
12Relative Humidity Measurement Experiment
13AD592 temperature measurement experiment
14Experiments on the Characterization of Metal Foil Strain Gauges
15Electret microphone audio measurement experiment

TLA-007X Principles of Automatic Control Course Experiment Kit Experimental Items

serial numberExperimental ProjectsUSB-4704 & USB-4716
1Typical link circuit simulation experiment
2Dynamic performance and stability analysis of typical systems
3Typical Link Frequency Characteristics Measurements
4Linear system series correction
5Static characteristics of a typical nonlinear link
6Phase plane method for analyzing nonlinear systems
7Functional description of nonlinear systems
8Arbitrary configuration of control system poles
9Sampling system analysis
10Analog PID control experiment
11DC motor speed measurement and PID control experiment

DAQWare for XNavi is deployed based on Advantech XNavi driver tool and LabVIEW 2015 development environment, please read the following instructions carefully before use.

1. Download DAQWare for XNavi toolkit and unzip it to get Xnavi_OfflineSetup_DAQWare for XNavi Release_20240222 and DAQWare for XNavi 0.0.1 Install folders, which correspond to the Advantech XNavi driver and SDK and DAQWare for XNavi 0.0.1 Install folder respectively.

2. Run Xnavi_OfflineSetup_DAQWare for XNavi Release_20240222.exe to start installing Advantech XNavi driver and SDK.

3. Run setup.exe in the DAQWare for XNavi 0.0.1 Install folder to install DAQWare for XNavi.

4. After completing the installation, connect the Advantech USB-4704 via USB to the computer where the above software is installed and correctly install the TLA-004A Sensors Course Lab Kit or the TLA-007A Principles of Automatic Control Course Lab Kit.

5. Find the DAQWare for XNavi shortcut in the Start Menu directory on the desktop of your Windows operating system and run it.

6, the program will run after the interface shown in Figure 1.

DAQWare for XNavi Main Interface
Figure 1 DAQWare for XNavi main interface

7, for example: the use of TLA-004X sensor course experiment kit, complete the relative humidity measurement experiment interface as shown in Figure 2, Figure 3.

Figure 2 DAQWare for XNavi Main Interface Ver0.0.2
DAQWare for XNavi interface (experiment: relative humidity measurement)
Figure 3 DAQWare for XNavi interface (experiment: relative humidity measurement)

In the lab desktop application environment, students can conduct experiments using DAQWare for XNavi. As shown in Figure 4, it is also possible to participate in sensor experiments based on the DAQNavi API as well as the LabVIEW programming environment throughout.

DAQNavi API
Figure 4 DAQNavi API

DAQWare for XNavi 0.0.1 download address

DAQWare for MCC

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TLA developed DAQWare for MCC based on theMCC USB-230Series of data acquisition cards, deployed with enhanced experimental instrumentation functions, are able to cover the desktop application of the laboratory for the main engineering education engineering courses. It provides dual-channel oscilloscopes, dual-channel function oscilloscopes, dual-channel programmable DC voltage regulators and voltmeters required for experimental teaching. In addition, it fully supports the series of course lab kits released by TLA. DAQWare for MCC provides support for specific experimental projects required by the complete TLA series of course lab kits.

The MCC USB230 series of multifunction data acquisition cards, manufactured by Measurement Computing Corporation (theMCC). MCC was acquired by National Instruments (NI) in 2005 and is now incorporated into theDigilenetSales Channel.

MCC USB230The series of multi-function data acquisition cards include USB-231 and USB-234 models. It provides 8 single-ended/4 differential analog input channels of 16-bit ADC (sampling rate: 50kS/s or 100kS/s), 2 synchronous analog output channels of 16-bit DAC (sampling rate 5kS/s), 8 digital I/O and 1 counter input.

TLA-004C Sensor Course Lab Kit
Figure 1 TLA-004C Sensor Course Experiment Kit

TLA-001C Circuit Principles Course Experiment Kit Experimental Items

serial numberExperimental ProjectsUSB-231\USB-234
1Mapping the volt-ampere characteristics of circuit components
2Verification of Kirchhoff's law
3Verification of the superposition principle
4Verification of Davignan's and Norton's theorems
5Experimental study of controlled sources VCVS, VCCS, CCVS, CCCS*
6Response testing of RC first order circuits
7A study of second-order dynamic circuit response
8Study of series resonant circuits of R, L, and C
9RC frequency selective network characterization
10Measurement of impedance characteristics of R, L and C components

TLA-002C Analog Circuit Course Experiment Kit Experimental Items

serial numberExperimental ProjectsUSB-231\USB-234
1Transistor Single-Stage Amplifier Circuit
2Transistor two-stage amplifier circuit
3Transistor Negative Feedback Amplifier Circuit
4Transistor emitter follower
5Transistor Differential Amplifier Circuit
6Operational Amplifier Proportional Summing Operational Circuit
7Integral and Differential Circuits
8Waveform generation circuit
9active filter
10voltage comparator
11IC RC Sine Wave Oscillator
12Integrated Voltage Regulator Experiment
13Waveform converter circuit
14Field Effect Transistor Amplifier Circuit

TLA-003C Digital Circuit Course Experiment Kit Experimental Items

serial numberExperimental ProjectsUSB-231\USB-234
1Gate Logic Functions and Tests
2Combinatorial logic circuits Ⅰ (half adder, full adder)
3Combination Circuit II (Decoder and Data Selector)
4flip-flop (electronics)
5Timing circuits (counters, shift registers)
6Design and logic function verification of combinational logic circuits
7D/A, A/D converter
8Application of 555 time base circuits
9Integrated Circuits Multiple Counters Combined Application

TLA-004C Sensor Principle Course Experiment Kit Experimental Items

serial numberExperimental ProjectsUSB-231\USB-234
1Photoresistor Characterization Experiment
2Silicon photovoltaic cell characterization experiment
3Photodiode Characterization Experiment
4Phototransistor Characterization Experiment
5PIN diode characterization experiment*
6Experiments on the Characterization of Pyroelectric Infrared Sensors
7DC motor speed measurement experiment based on slot photocoupler
8Hall IC-based DC motor speed measurement and speed control experiment
9Thermistor temperature measurement experiment
10LM35 temperature measurement experiment
11Thermocouple temperature measurement experiment
12Relative Humidity Measurement Experiment
13AD592 temperature measurement experiment
14Experiments on the Characterization of Metal Foil Strain Gauges
15Electret microphone audio measurement experiment

TLA-007C Principles of Automatic Control Course Experiment Kit Experimental Items

serial numberExperimental ProjectsUSB-231\USB-234
1Typical link circuit simulation experiment
2Dynamic performance and stability analysis of typical systems
3Typical Link Frequency Characteristics Measurements
4Linear system series correction
5Static characteristics of a typical nonlinear link
6Phase plane method for analyzing nonlinear systems
7Functional description of nonlinear systems
8Arbitrary configuration of control system poles
9Sampling system analysis
10Analog PID control experiment
11DC motor speed measurement and PID control experiment

DAQWare for MCC is deployed based on the MCC InstaCal driver tool and the LabVIEW 2015 development environment. Please read the following instructions carefully before use.

1. Download DAQWare for MCC toolkit and unzip it to get two folders, MCC_InstaCal and Ware for MCC install, which correspond to MCC InstaCal driver and SDK and DAQWare for MCC installation files respectively.

2. Run MCC_InstaCal.exe to start installing MCC_InstaCal driver and SDK.

3. Run setup.exe in the DAQWare for MCC Install folder to install DAQWare for MCC.

4. After completing the installation, connect the MCC USB-231 to the computer where the above software is installed via USB, and correctly install the TLA-001C Principles of Circuits Course Lab Kit, TLA-002C Analog Circuits Course Lab Kit, TLA-003C Digital Circuits Course Lab Kit, TLA-004C Sensors Course Lab Kit, or TLA-007C Automated Controls Course Lab Kit. Principles of Circuits course lab kit.

5. Before running DAQWare for MCC, you need to run InstaCal. select the connected USB DAQ device and configure the input channel to differential mode, confirm.

6. Find the DAQWare for MCC shortcut in the Windows Start directory and run it.

7, the program will run after the interface shown in Figure 1.

Figure 2 DAQWare for MCC interface1
Fig. 3 Example of DAQWare for MCC interface 2 (spontaneous sweep signal + self-receiving)

In the lab desktop application environment, students can conduct experiments using DAQWare for MCC. As in Figure 4, it is also possible to participate in sensor experiments based on the ULx API as well as the LabVIEW programming environment throughout.

Figure 4 ULx API

DAQWare for MCC Instll (with ICalUL 6.7.4)

DAQWare for USB1902

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This article covers the multifunction data acquisition card feature enhancement application software from ADLINK and JANITORI, DAQWare for USB1902 and DAQWare for USB61902 that can be used toUSB-61902respond in singingADLINK USB-1902Both have the same hardware functionality.

DAQWare for USB-1902 is a feature-enhancing application for ADLINK USB-1902 multifunction data acquisition card, and also for JYTEK USB-61902 multifunction data acquisition card.

USB-1902 Brief Parameters

■ USB2.0 high-speed transmission ■ USB bus power supply ■ 16-bit ADC, 16-bit DAC ■ 16-channel 250 kS/s voltage inputs ■ 2-channel 1 MS/s voltage outputs ■ Analog and digital signal triggering

DAQWare for USB-1902/USB-61902
Figure 1 DAQWare for USB-1902/USB-61902 Feature Enhancement
DAQWare for USB-1902/USB-61902
Figure 2 DAQWare for USB-1902/USB-61902 Main Interface
DAQWare for USB-1902/USB-61902
Figure 3 Example of DAQWare for USB-1902/USB-61902 self-generated (swept signal) self-collection

TLA Series Curriculum Lab Kits

TLA-001J Circuit Principles Course Lab Kit

serial numberExperimental ProjectsJY USB101JY USB61902
1Mapping the volt-ampere characteristics of circuit components
2Verification of Kirchhoff's law
3Verification of the superposition principle
4Verification of Davignan's and Norton's theorems
5Experimental study of controlled sources VCVS, VCCS, CCVS, CCCS*
6Response testing of RC first order circuits
7A study of second-order dynamic circuit response
8Study of series resonant circuits of R, L, and C
9RC frequency selective network characterization
10Measurement of impedance characteristics of R, L and C components

TLA-002J Analog Circuit Course Experiment Kit

serial numberExperimental ProjectsJY USB101JY USB61902
1Transistor Single-Stage Amplifier Circuit
2Transistor two-stage amplifier circuit
3Transistor Negative Feedback Amplifier Circuit
4Transistor emitter follower
5Transistor Differential Amplifier Circuit
6Operational Amplifier Proportional Summing Operational Circuit
7Integral and Differential Circuits
8Waveform generation circuit
9active filter
10voltage comparator
11IC RC Sine Wave Oscillator
12Integrated Voltage Regulator Experiment
13Waveform converter circuit
14Field Effect Transistor Amplifier Circuit

TLA-003J Digital Circuit Course Experiment Kit

serial numberExperimental ProjectsJY USB101JY USB61902
1Gate Logic Functions and Tests
2Combinatorial logic circuits Ⅰ (half adder, full adder)
3Combination Circuit II (Decoder and Data Selector)
4flip-flop (electronics)
5Timing circuits (counters, shift registers)
6Design and logic function verification of combinational logic circuits
7D/A, A/D converter
8Application of 555 time base circuits
9Integrated Circuits Multiple Counters Combined Application

TLA-004J Sensor Course Lab Kit

serial numberExperimental ProjectsJY USB101JY USB61902
1Photoresistor Characterization Experiment
2Silicon photovoltaic cell characterization experiment
3Photodiode Characterization Experiment
4Phototransistor Characterization Experiment
5PIN diode characterization experiment*
6Experiments on the Characterization of Pyroelectric Infrared Sensors
7DC motor speed measurement experiment based on slot photocoupler
8Hall IC-based DC motor speed measurement and speed control experiment
9Thermistor temperature measurement experiment
10LM35 temperature measurement experiment
11Thermocouple temperature measurement experiment
12Relative Humidity Measurement Experiment
13AD592 temperature measurement experiment
14Experiments on the Characterization of Metal Foil Strain Gauges
15Electret microphone audio measurement experiment

TLA-005J Signal and System Course Lab Kit

serial numberExperimental ProjectsJY USB101JY USB61902
1Zero Input Response and Zero State Response
2Synthesis and decomposition of signals
3Second order series resonance and parallel resonance
4First Order Network Characterization Measurements
5Second-order network characterization measurements
6Feedback systems and system frequency response characteristics
7Experiments with second-order Butterworth filters
8Signal Sampling and Recovery
9RC Oscillator Characteristics

TLA-007J Automatic Control Principles Course Experiment Kit

serial numberExperimental ProjectsJY USB101JY USB61902
1Typical link circuit simulation experiment
2Dynamic performance and stability analysis of typical systems
3Typical Link Frequency Characteristics Measurements
4Linear system series correction
5Static characteristics of a typical nonlinear link
6Phase plane method for analyzing nonlinear systems
7Functional description of nonlinear systems
8Arbitrary configuration of control system poles
9Sampling system analysis
10Analog PID control experiment
11DC motor speed measurement and PID control experiment
In addition, TLA has developed a series of course lab kits that support Jane's USB101 multifunction data acquisition card.Click here to link to related contentThe

welcome

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NI Virtual Instrument Experiment

TLA-004Y Sensor Course Lab Kit

December 2, 2023 No Comments

No. Experimental Items Remarks 1 Photoresistor Characterization Experiment Raindrops S 2 Silicon Photovoltaic Cell Characterization Experiment Raindrops S 3 Photosensitive Diode Characterization Experiment Raindrops

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Turn off all NI services in Windows background with one click

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contexts

1. A desktop or portable computer with NI software already installed.

2. Installed software may include LabVIEW, DAQmx, RT, FPGA and other development environments, module drivers, and so on.

3, brand new start the computer, and do not run or open any NI software case, the background of the Windows operating system will start a lot with theNI Software Related Services, as shown in Figure 1.

Figure 1 Windows 10 Task Manager NI related services list

4, even if your computer is the latest CPU and memory configuration, may be used for a period of time, it will be obvious to find the CPU occupied, the system running slower. Even when you start your computer fresh, without opening or running any NI software, this situation will always be accompanied by the appearance. The reason for this phenomenon is the NI-related services in the background that run automatically with the startup of the operating system, and this is something that still happens week after week even when no NI software is open or running.

5, the above phenomenon to LabVIEW developers to bring the trouble of periodic replacement of a higher configuration of the computer, or give up the use of NI's software.

Solutions

1. The periodic replacement of computers with higher configurations increases the budget invested by developers. In addition, the change in the software development environment caused by the replacement of computers, and thus the risk of program debugging, cannot be underestimated.

2. Abandon the use of NI's software and use another development language, which may require developers to make their own judgment.

3. For developers who do both, they can choose to make relevant configuration changes on their current computers to ameliorate the problem.

technical program

1. In the Task Manager of the Windows operating system, sort by name and find all NI-related services.

2、Operate in turn to close and stop the services running NI.

3. Use the one-click shutdown of all NI services in the Windows background script given by TLA, as shown in Figure 2.

Figure 2 One-click stopping NI background service scripts

5. Effects

1, for the Intel 7 generation i5 CPU, and the current latest Intel 13 generation CPU comparison, in the CPU architecture, performance has been unable to balance the comparison.

2, pre-installed Intel 7 generation i5 7300U, 8G RAM, 512G hard disk portable computer, before and after the use of the above script comparison, the system running speed increase significantly, like two machines.

Analyzing the NI USB-600x Data Acquisition Card

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NI USB-6009Multi-function data acquisition card belongs to NI-B series data acquisition card, B series is categorized as NI cheap series. Can provide analog signal input and output, digital signal input and output, counter functions. At the same time, NI USB-6009 also includes a series of models USB-6008, USB-6000, USB-6001, USB-6002, USB-6003.

Rainbead s Virtual Instruments "Principles of Circuits" Application Guide

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Raindrop SIt is an intelligent on-chip virtual instrument development platform based on "China Chip's independently programmable chip" and independently controlled open-source software framework, which allows users to conveniently measure, read, generate, record, and control a variety of mixed signals. Taking the meaning of "turning clouds into rain", "Yuzhu S" is dedicated to bringing the industry's advanced "instrument-on-chip" technology and "cloud compilation" and other cloud-based technologies to the market. We are committed to delivering the industry's advanced "instrument-on-chip" technology and "cloud compilation" and other cloud-based technologies to more engineers, scientists, teachers and students in a silent way.

The Raindrop S is small enough to easily fit into the weight of an ordinary briefcase/book bag, but powerful enough to replace a bunch of lab equipment. Whether in the lab or outside the lab in any environment, Raindrop YuZhu | Raindrop | S can provide engineers, scientists, engineering students and faculty, hobbyists or electronics enthusiasts to carry out custom test and measurement based on analog + digital I/O as you wish, hardware innovation projects, "Portable Virtual Instrumentation Lab on a Chip! "The

NI ELVIS Sensor Course Lab Kit Application Guide

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NI Engineering Lab Virtual Instrumentation Suite(NI ELVIS) II is a modular engineering teaching lab platform developed specifically for institutions. The platform provides a hands-on learning approach that helps students acquire the skills they need through hands-on experimentation.NI ELVIS II integrates 12 of the lab's most common instruments in a single compact package, including oscilloscopes with extended functionality, a digital multimeter, a function generator, and a variety of power supplies and baud analyzers. You can connect your PC to a variety of measurements and build circuits on a removable prototyping board via USB's plug-and-play capability.

DAQWare Experiment Software Overview

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DAQWareis a comprehensive experiment software developed by TLA, aiming to provide users with powerful data acquisition and analysis functions. It is widely compatible with multifunctional data acquisition cards from major vendors in the market, including but not limited to Mirvis, Rainbeads, NI (DAQmx), Digilent Waveforms, ADLINK (UD-DASK), JYTEK (UD-DASK), Advantech (XNavi), and MCC (ULx).

Cross-platform & Unified Operating Experience:

One of the core advantages of DAQWare is its full compatibility with virtual instruments or data acquisition card hardware from different manufacturers. Regardless of which brand of data acquisition card the user is using, DAQWare provides a unified operating interface and operating logic. This means that users do not need to learn and adapt to the proprietary software interfaces of different manufacturers, which greatly reduces the difficulty of getting started and improves the efficiency of experiments. This standardized operating experience ensures consistency in teaching and research work, allowing users to focus more on the experimental content itself rather than differences in software operation.
Enhanced application functionality and flexible expansion:
The software integrates a wide range of useful features, making it ideal for engineering education and scientific experimentation. Key features include:

  • Oscilloscope: Real-time display and analysis of electrical signal waveforms.
  • Function Signal Generator: Generates a variety of standard function signals for testing and experimentation.
  • Programmable power supply: precisely control the power output to meet different experimental needs.
  • Continuous Collector: Supports long, continuous data recording.
  • Spectrum Analyzer: Analyzes a signal in the frequency domain to reveal the frequency components of the signal.
  • Dynamic Signal Analyzer: For more complex dynamic signal measurement and analysis.
  • Data analysis: Provides powerful tools for data processing and analysis.
  • Data storage: Conveniently save experimental data for subsequent review and analysis.

In addition, DAQWare offers special data acquisition card enhancements that tap into the potential of the hardware to provide users with an experience that goes beyond basic functionality. These enhancements can be optimized for specific hardware features, such as providing more advanced trigger modes, fine control of simultaneous multi-channel acquisition, or sensor-specific data preprocessing modules, greatly expanding the range of applications and experimentation possibilities for data acquisition cards.
DAQWare incorporates lab content from engineering education courses and provides specific lab projects to help students and researchers better understand and master the knowledge.areIt is the experimental measurement software developed by TLA for use as a companion to the TLA series of course lab kits. Functional enhancements have been made to the existing features of the multifunctional data acquisition card. Covers instruments needed for laboratory desktop applications, such as: oscilloscopes, function signal generators, sweep signal generators, programmable power supplies, voltmeters, baud plotters, dynamic signal analyzers, etc.

DAQWare software functions cover TLA-001 Principles of Circuits course lab suite, TLA-002 Analog Circuits course lab suite, TLA-003 Digital Circuits course lab suite, TLA-004 Sensors course lab suite, TLA-005 Signals and Systems course lab suite, and TLA-007 Principles of Automatic Control course, as shown in Table 1.

Table 1 Description of the DAQWare software feature coverage experiment suite

TLA Course Lab Kit ModelDAQWare Experiment Software Adaptation
TLA-001 Circuit Principles Course Lab Kit
TLA-002 Analog Circuit Course Experiment Kit
TLA-003 Digital Circuit Course Experiment Kit
TLA-004 Sensor Course Lab Kit
TLA-005 Signal and System Course Lab Kit
TLA-007 Principles of Automatic Control Course

The TLA series of course experiment kits are suitable for classic course experiment teaching, and also adapt to a variety of classic virtual instrument system vendors, as shown in Table 2.

Table 2 DAQWare Experiment Software Adaptation Data Acquisition Card Vendors

Virtual Instrument Platform Manufacturers, Models DAQWare Name
NI ELVIS Series (NI ELVIS I/II/II+)DAQWare for NI DAQmx
NI ELVIS III SeriesDAQWare for ELVIS III
NI myDAQ SeriesDAQWare for NI DAQmx
NI USB-600x SeriesDAQWare for NI DAQmx
NI 6251, 6221 SeriesDAQWare for NI DAQmx
Raindrop Technology-Raindrop S SeriesDAQWare for rain beads
Digilent Analog Discovery Series (AD1, AD2, AD3, ADS)DAQWare for Digilent AD
JYTEK USB SeriesDAQWare for JY USB-101\USB-61902
MCC USB SeriesDAQWare for MCC
Advantech USB47 SeriesDAQWare for XNavi

General-purpose function of the data acquisition card generally have analog signal input (Analog Input), analog signal output (Analog Output), GPIO (through the digital signal input and output) and other IO functions, and some also have timer and counter function IO.

Commonly used test and measurement instruments in the laboratory based on the secondary development of the above basic IO functions, can realize the oscilloscope (ADC), function signal generator (DAC), programmable power supply (DAC), baud plotter (DAC + ADC), dynamic signal analyzer (ADC), and other instrument functions.

The DAQWare general experiment software developed by TLA, based on the above ideas, realizes the adaptation of general IO functions to the virtual instrument platforms of major classic data acquisition card manufacturers. It covers the functions of common experimental instruments mentioned above and perfectly supports the application of specific experimental projects of TLA series of course experimental kits. In view of the characteristics of data acquisition cards of different virtual instrument manufacturers, the operation logic of DAQWare software has been optimized in detail to unify the operation logic of each virtual instrument platform manufacturer as much as possible.

DAQWare for NI DAQmx

Figure 1 DAQWare for NI DAQmx

DAQWare for Digilent AD

Figure 2 DAQWare for Digilent AD

DAQWare for rain beads

Fig. 3 DAQWare for rain bead s

DAQWare for JYTEK USB101

Figure 4 DAQWare for JYTEK USB101

DAQWare for JYTEK USB1902/USG61902

Figure 5 DAQWare for JYTEK USB-1902/USB-61902

Figure 6 DAQWare for XNavi

DAQWare experiment software, which is usually shipped with the experiment kit.

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