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Remote AccessElectronic Circuits Labs
via LAN & Internet
EMONA Remote Lab Solutions
+ Real hardware labs, controlled via browser+ 50 or more students experimenting at one time + 24/7 lab access via LAN and internet+ Real analog & digital electronics circuits
Unpack, power-up and run your own remote lab program in minutes
NEW
Emona netCIRCUITlabsRemote Electronics Labs
LAN &InternetSTUDENT 1
STUDENT 2
STUDENT 50
A COMPLETE LABOF EXPERIMENTSON EACH PLUG-INBOARD
EMONA Instrumentswww.netCIRCUITlabs.com
EASY BROWSER ACCESS FOR STUDENTSand MANAGEMENT FOR PROFESSORS
netCIRCUITlabs CONTROL UNIT with MULTIPLE PLUG-IN BOARDS
netCIRCUITlabs Control Unit connects router,hub or LAN. Lab Experiments board shownnot plugged-in.
netCIRCUITlabs experiment accessible via LAN and Internet using PC, laptop and tablet web browser.
At least 30 students can SIMULTANEOUSLY access the netCIRCUITlabs Control Unit. Experiments are available 24 hours a day, 7 days a week.
Each student can select and operate the experiment of THEIR CHOICE. All experiments are available to each and every student.
Students instantly access experiments via their web browser. There is no software to load: only USERNAME and PASSWORD is required.
Professor has instant web access to the secure Server Administration pages for simple student set-up, management and monitoring usage.
Easy to integrate into existing CMS.
The netCIRCUITlabs Control Unit, located in yourlab or office, and will accept any netCIRCUITlabsLab Experiment board.
One Lab Experiment board can be plugged intothe Control Unit at one time.
Fast and easy implementation. No software toload and no setting up required.
The Control Unit automatically detects the currentexperiment board. The Control Unit contains allserver and interface requirements, ready toconnect by single CAT5 to LAN.
2 • EMONA netCIRCUITlabs netCIRCUITlabs.com
The professor’s administration page
WHYREMOTELABS?
• Studies show inexperienced students believe hardware more than simulation• The ideal learning path for students: BREADBOARDING > REMOTE HARDWARE > SIMULATION
introduction many topics advanced • Eliminates storage issues, maintenance and lab overcrowding
REL 2.2 Op-amp Circuit Experiments Lab plug-in board
REL 2.1 Basic Analog Circuit Experiments Lab plug-in board
1. Inverting amplifier2. Non-invertingamplifier3. Differentialamplifier4. Summing5. Follower6. Dynamic range7. Duty cycle8. Open loop gain9. CMRR
10. Offset & bias11. Integration12. Differentiation13. Integration &differentiation14. Sawtoothgeneration15. Squarewavegeneration16. Triangle wavegeneration
REL 2.2 EXPERIMENT CIRCUITS
1. Two-stage AC amplifier2. Feedback amplifiers3. Resistance coupled and capacitance coupled circuits
4. Differential amplifiers with constant current sources
5. SCR dimming circuits6. Output transformerless (OTL)complementary symmetry power amplifiers with boot strapping circuit
REL 2.1 EXPERIMENT CIRCUITS
netCIRCUITlabs.com EMONA netCIRCUITlabs • 3
netCIRCUITlabs EXPERIMENT BOARDS
REL 3.0 Combinational & Sequential Logic Lab Experiments plug-in board
SIGNAL SOURCES: - HI/LO Logic Switches x 8- 8 bit Binary Counter- 4 bit Gray Counter- 4 bit Johnson Counter
OVER 60 GATES & FLIP-FLOPS:2, 3 & 4-input OR gatesX-OR gates2, 3 & 4-input AND gatesInvertersS/R, D & J/K Flip-Flops,InvertersFinite State Machines
STUDY: - Boolean logic and algebra- Combinatorial circuits- Truth tables- Karnaugh Maps- Quine-McCluskey method- Designing Synch & Asynchsequential circuits- Flip flops- State diagrams- Design of FSM- Registers, Counters,Multiplexers, Encoders etc- Introduction to HDL (Verilog)
REL 3.0 LOGIC FUNCTIONS - students patch together real logic elements on-screen, in real time
Experiment applications boards cover analog and digital electronics circuits. Topics currently covered :
REL 2.1 - Basic BJT Transistor CircuitsREL 2.2 - Op-amp CircuitsREL 3.0 - Combinational and Sequential Logic ....and more boards scheduled for release.
ANALOG BOARDS: typically 5 to 15 experiments on each analog board. Any student can selectany experiment on the EXPERIMENT board.
DIGITAL BOARDS: typically 50 or more independent logic gates and functions which the studentpatches in real time to build the logic functions required for each experiment.
Example of the 2 Stage AC Amplifier
Example of the Differentiator/Integrator
Example of a wired 2 input Multiplexer
All the logic functions andconnections are implementedin an FPGA.
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Available from: Emona Instruments Pty Ltd78 Parramatta Road Camperdown NSW 2050 AUSTRALIATel: +61-2-9519-3933 Fax: +61-2-9550-1378URL: www.netCIRCUITlabs.com Email: [email protected]
ANALOG EXPERIMENT SELECTION
FUNCTION GENERATOR
OSCILLOSCOPE & SPECTRUM
EXPERIMENT CONTROL
Dropdownmenu forexperimentselection
Mouse click on-screen toopen and close switches
Drag mouse on-screen tovary potentiometer with highresolution drag mode
Sinewave output
Squarewave output PN sequence output
DC Voltage output
4 channel in-built oscilloscope, plus- Spectrum display- XY display- Waveform Maths, Voltage and Frequency measurement- Easy cursor measurement
Frequency Control
Amplitude Control
HI/LO AmplitudeRange
Variable DCV
Dropdown menu forwaveform selection
Half Sinewave output
Noise Voltage output
Trianglewave output
REMOTE CONTROL OF EXPERIMENTS Analog experiment selection is by drop down menu
Analog circuits include student controllable switches and potentiometers
Digital logic experiments are patched together from a selection of independent gates
Fully self contained, with inbuilt test instruments including oscilloscope, spectrum analyser,cursor measurements and full function signal generator.
Load and Save Digital Logic Experiment wiring
DIGITAL LOGIC LIVE PATCHINGStudents builddigital logicexperiments byselecting andpatching reallogic gates andfunctions. Over60 independentelements areprovided.