typhoon hil402. - quarbz info systems · 2020-01-20 · hil402 in action. test and verify converter...
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Industry’s first notebook size Hardware-in-the-Loop system.
Typhoon HIL402.
Completely new hardware.HIL test and HIL certify your power electronics controllers with
the industry leading hardware-in-the-loop system: HIL402.
Unleash the HIL402
Engage the powerful HIL402 through the hallmark of Typhoon HIL user friendly design with industry leading software toolchain.
• Draw a converter power stage model in the Typhoon HIL schematic editor, press compile and run the model with a single click
• Verify the performance of your controller through a built-in deep memory mixed signal oscilloscope.
• Execute test scenarios directly from the control center.
• AutomatetheverificationprocesswithPythonscripts.
Application
This compact, extremely powerful, 4-core HIL will give you all the tools you need to test your power electronics controllers in a wide range of applications: solar and wind power generation, battery storage, power quality and motor drives.
Highlights
• 20nsPWMsamplingtime• 0.5,1or2μsreal-timesimulationstep• Built-in32channeloscilloscope• Advancedmachinesolver
Tried and tested software.Industrial strength toolchain in an all-new hardware.
Comprehensive model library
Buildyourcircuitsfromtheelementsintheextensive library comprising converters, switches, power sources and machines.
Compile and run your models on your HIL device with just one mouse click.
Custom User Interface
Awholenewlevelofuserconvenience.
Drag-and-drop gauges, meters, trace graphs, and monitors in order to customize the test environmentaccordingtoyourspecificneeds.
Even the most complex test environment is only a few mouse clicks away.
Built-in Scope and Capture
Typhoon HIL integrated oscilloscope and capture functions put you in control.
With16analogand32digitalchannels,32Mptsrecordlength,and1MHzsamplerateyouwillgainMRI(magneticresonanceimaging) vision into the inner workings of your control system even under the most extreme conditions, the conditions that are impossible or impractical to create in the laboratory.
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V_Adj_Acc
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Diff_V_pvCmp_dV_greater_than_0
cp_out_P_pv
Probe_P_pv Probe_V_dsp
cp_out_V_dsp
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PI controller1
Idc1
3ph_inverter 1
A
B
C
DC+
DC-
Lfc1
Lfa1
Ib1
Vab_inv1
Ic1
Ia1
Lfb1
Vbc_inv1
Rfa1 Rfc1
Cfb1
Rfb1
Cfa1 Cfc1
GND3
Ra1
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Vgrid2_c
Iga Iga_rms
Rb1
Vgrid2_a
Igb
Vb
Va
GND1
Vab_rms
Lb1
Igc
La1
Rc1
Vc
Igb_rms
Lc1Igc_rms
Vbc_rms
Grid_disconnect
PV 1
R1L1
V_pv
I_pv
V_dsp V_dsp_meas1
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Signal processing unleashed.Next-generation signal processing capabilities seamlessly integrated
into the Typhoon HIL industry leading toolchain.
Groundbreaking new possibilities
MakeuseofSignalProcessingToolbox’scomprehensivelibraryofseamlesslyintegratedmathematicalandlogical functions.
Seamless integration
Take full control of the numerical signals with the integratedSignalProcessingToolbox.
Control electrical sources and contactor devices, model mechanical subsystems or use machine speed and torque to trigger protection devices. It is all there.
Multi-rate execution
Simulate your numerical signals with multiple execution rates and improve the overall performance of your HIL system by maximizing the use of available resources. The built-in multi-rate interval overrun monitor closely supervises real-time execution and informs the user in case of potential performance issues.
AsstrongasanElephant.Signature software tool-chain fused with the unique hardware.
IO Robustness
WebelieveinabulletproofHIL.ThatiswhyalltheHIL IO pins are protected against:
· Short circuits
· Permanent±24Vovervoltages
· ESDdischargeperIEC61000-4-2
Beyond simulation
For most demanding HIL tests Typhoon HIL advanced numerical algorithms enable HIL tests that canrunforweeksonendwithoursignature1µstime step.
Top-end electrical components in the high quality aluminum enclosure bring unprecedented levels in electrical and mechanical reliability.
Ourverticallyintegratedhardware,firmwareandsoftware solution guarantees an industry-leading user experience.
It is all about time.1µs time step, 20 ns digital input sampling and ultra low latency
make all the difference.
Ultra low latency
It can take as little as 20 ns to sample the digital output, calculate the model states and set the new values at HIL402 analog outputs.
This is what it takes to model converters with switching frequency as high as 200 kHz, and HIL402 does it masterfully.
Digital inputs oversampling
Digital input signals are oversampled with a high resolution of 20 ns: as these are usually pulse width modulated gate drive signals, it is of crucial importance to capture the duty cycle as accurately as possible.
Ultra-fast real-time simulation
Leverage a small simulation time step and advanced numerical algorithms for an extremely wide dynamic range models.
Emulate fast switching dynamics with a simulationtimestepaslowas0.5µs,andhave a full peace of mind that the part of your model with extremely long time constants will run beautifully as well.
AdvancednumericalalgorithmsinTyphoonHIL handle the wide dynamic range models masterfully and run for weeks on end.
Whereemulationmeetsreality.The next level in IO stage accuracy.
High speed digital IO with digital input oversampling
In order to capture the duty cycle of high switching frequency converters accurately, all the digital input signalsareoversampledattherateof50MHz.InthiswayPWMconverterswithswitchingfrequencyas high as 200 kHz can be accurately modeled with HIL402 devices.
• 20nsIOupdaterate
• 32digitalinputsand32digitaloutputs
High accuracy analog IO
• simultaneousupdateonalloutputswith1µsupdate rate
• 16inputsand16outputs
• 16bitresolution
• ±2LSB(30ppm)gainandoffseterror
• 10ppm/°Ctemperaturedrift
HIL402 in action.Test and verify converter control code. The Typhoon HIL way.
Test what you never could in the lab
Typhoon HIL402 environment allows you unprecedented control of active and reactive power flow, current harmonics and grid voltage sources with arbitrary magnitude, frequency and phase in just a few mouse clicks.
Furthermore, you can easily emulate utility grid disturbances such as voltage sags, spikes, phase angle jumps, magnitude ramps, frequency changes, harmonicdistortion,etc.Anytestscenarioyoucanimagine HIL402 will execute for you.
Test away from lab
Renewable energy systems comprise power electronics converters that interface with the electrical grid. Exhaustively testing power electronicscontrolsystem’sperformanceinthelaboratoryiscostlyandsuffersfrominherentlylimited opportunities for test automation.
TheHIL402providesasafe,high-fidelityenvironmentforautomatictestandverificationofconverters’controlsystems.
TYPHOON HIL REAL TIME EMULATOR Model : HIL 402
TECHNICAL SPECIFICATIONS
A. REAL TIME Emulators (Hardware) 1. Processors : o Main Processor: 4-Core FPGA for enabling short compilation time and low latency for small time-step, simulation. o Co-processors: 2x ARM, for simulation in signal domain.
2. System Capability : o Controller HIL and real-time simulation of maximum 4 switching converter models (3ph, 3 levels) with simulation time-step
down to 500ns. o Controller HIL and real-time simulation of maximum 20 averaged converter models (3ph) with simulation time-step down
to 500ns. o Real-time simulation of 80 (3-phase) nodes/busses with full complexity at starting from 3μs to 1s simulation time-step. o Real time simulation of power electronic converters with switching frequency of up to 200 KHz.
3. Option for External Interface : In-built I/O o 16 Analog outputs fully selectable with ± 10V range, 1 MSPS update rate, 16-bit resolution and 1% accuracy, ± 24V
Tolerant ESD protection. o 16 Analog inputs fully selectable with ± 10V range, 1 MSPS update rate, 16 bit resolution, 1% accuracy, ± 24V Tolerant ESD
protection. o 32 Digital outputs with at least 12 channels capable for PWM modulation with 7ns resolution, ± 24V Tolerant ESD
protection. o 32 Digital inputs, 50MHz sample rate with 20ns sampling resolution on all channels, ± 24V Tolerant ESD protection.
4. Academic Package Added Capabilities :
o The simulator supports multiple configurations without making any physical changes into hardware. o Lifelong, Free Firmware update is made available for all supported configurations by Simulator. o Connectivity: Ports for communication over standard communication protocols, including USB, Ethernet/IP, CAN, Modbus,
IEC61850 Goose. o Input Power supply is 100-250 Volts, 60W.
B. Simulation Software with Real Time Interface : Simulator is not dependent on any third-party simulation Software. It has own simulation software with below mentioned specifications: o Permanent software license for modelling as well as for Real-time Interface with lifetime free updates and an unlimited
number of software users. o Academic premium toolbox package with Graphical User Interface (GUI/SCADA). o Modeling environment for plant as well as Signal Processing with embedded library of components and toolboxes like, i)
Converter toolbox, ii) Microgrid toolbox, iii) Power System toolbox, iv) Signal processing toolbox, v) Test Suite and vi) Communication toolbox having IEC61850, UL 1741, CAN Bus protocol, Ethernet, DNP3, MOD Bus protocol etc.
o All the switching components in library have Internal (for simulation and real-time simulation) or external (HIL simulation) both control option during modeling.
o Ability to run Plant simulation without controller if required for feasibility testing of plant. o High resolution built-in real time signal monitoring oscilloscope with 16 channels. o Dedicated solvers for switching devices, machines, signal generators, LUTs, etc. are available with simulation software. o Simulation of numerical signals with multiple execution rates o Test environment for testing models and generating Test-Reports. o Scripting Environment based on python. In-built API for automation as well as for communicating with other simulation
software. o Option for importing code generated for controller from simulation software like MATLAB, Simulink, LabView, PSIM etc. o Option for importing .dll files generated from PSCAD, EMTP, PSSE-DigSilent etc.
C. The laboratory resources listed above is suitable for the following applications: 1. Pre-certification of smart inverter controllers. 2. Grid connected converter applications. 3. Power System and its applications 4. Renewable energy applications. 5. Microgrid and Smart Grid applications. 6. Parallel and Multilevel converter topologies. 7. Electrical and industrial drives applications. 8. Electric Vehicle Application
*Specifications are subject to change without notice*
Flipped classroom.Teaching the Typhoon HIL way.
Imagine the power engineering instruction in which the technology enables students to develop their engineering intuition by playing with power systems like they play with computer games.
Then, motivated by the deep intuitive understanding of the system operation, they come to class to learn why systems behave the way they behave.
Imaginenomore.Makeitreal.TheHIL402makeslargescaleunsupervisedhandsoninstructioninthefieldofpower engineering and Smart Grid possible.
Typhoon HIL, Inc.35MedfordSt.Suite305Somerville,MA02143
USA
Phone:+1-800-766-3181
Typhoon HIL GmbHTechnoparkstrasse1CH-8005Zürich
Switzerland
Phone:+1-800-766-3181
Tajfun HIL d.o.o.BulevarOslobodjenja69/V
21000NoviSadRepublic of Serbia
Sales:+381213010474Techsupport:+381213010476
www.typhoon-hil.come-mail: [email protected]
Authorized Distributor :
www.quarbz.com, e-mail: [email protected] Contact no.:91 9838071684, 91 9838071685
QUARBZ Info Systems, INDIA