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Multisim AC sweep

AC Sweep - Multisim Help - National Instrument

AC Sweep performs a phasor—a complex analysis of the circuit across a range of frequencies. It is useful for analyzing the frequency response of a circuit. The analysis is a two step process stop frequency (Hz) is the frequency at which to end the sweep, in Hertz. The default value is 1 MHz. circuit is the reference to the MultisimCircuit automation object created by the Open File or the New File VIs. It represents the circuit currently loaded in Multisim and it provides access to the methods and properties

Multisim features a comprehensive suite of SPICE analyses for examining circuit behavior. These analyses range from the basic to sophisticated. Each analysis helps you to obtain valuable information such as the effects of component tolerances and sensitivities This video will cover how to set u an AC sweep and how to use it to work out the cut frequency and GBP for an Op-Am Hi Shauna, Thanks for posting the AC Sweep circuit. Can you please take a look at this one below I have created and see what you think. Is there a bug with the Multisim transient analysis algorithm

In this tutorial, we will look at performing spectrum analysis in Multisim using the bode plotter instrument and the AC sweep analysis tool.This video was cr.. How to do a small signal AC parametric sweep in Multisim The problem itself comes from the settings of the Parameter Sweep analysis type. In the Multisim documentation you can see that you cannot sweep the peak voltage of an AC source using device/model parameters. To be able to do that you should select Circuit Parameters option and define them for your project. Below you can see sources of the.

Set up an AC Analysis to plot the frequency response (both magnitude andphase) of a circuit NI Multisim Live lets you create, share, collaborate, and discover circuits and electronics online with SPICE simulation include Multisim Help Edition Date: February 2017 Part Number: 375482B-01 View Product Info DOWNLOAD (Windows Only) Multisim 14.0 and 14.0.1 Help: Multisim 14.1 Help: Multisim 14.2 Help : This is an AC (sine) voltage source. The Value tab in this component's properties dialog box contains the following: Parameter Description Voltage (Pk) The peak voltage of the source. Voltage Offset. The voltage. AC Sweep - Low Pass Filter + capacitor. FreekS. AC Sweep - Low Pass Filter. Darknorth. AC Sweep - Low Pass Filter. mata15. AC Sweep Lab1 - Low Pass Filter. tcrumpton. AC Sweep - Low Pass Filter

Hi, I worked on Orcadin which i can sweep capacitance value for one particular frequency...but now am learning multisim.using parameter sweep i can sweep various capacitor values for single frequency.but both curves dont match...in orcad i used AC sweep analysis with capacitance in.. AC Sweep Lab medidas. edward.guzman. Capacitor AC Sweep RC circuit analysis. Devasenapathy. Creator. DrakonD. 2 Circuits. Date Created. 2 years, 8 months ago. Last Modified. 2 years, 8 months ago Tags. This circuit has no tags currently. Most Popular Circuits. Online simulator. by ElectroInferno. 227382. 44. 896. Simple Buck Converter . by OStep. 56219. 36. 462. Digital to Analog Converter. Multisim Help Edition Date: February 2017 Part Number: 375482B-01 View Product Info DOWNLOAD (Windows Only) Multisim 14.0 and 14.0.1 Help: Multisim 14.1 Help: Multisim 14.2 Help : This is an AC (sine) current source. The Value tab in this component's properties dialog box contains the following: Parameter Description Current (Pk) The peak current of the source. Current offset. The current. DC Sweep Analysis¶ While Multisim provides instruments like simulation, which we will cover later, these instruments often have limitations. We can have more control or flexibility using Analysis under Simulate. This is close to the Analysis in other SPICE based simulators. One of the best ways of understanding operation of a transistor or a circuit is to examine how an output of.

Configuring an AC Analysis in Multisim - National Instrument

Multisim performs DC Sweep Analysisusing the following process: 1. The DC Operating Point is calculated using a specified start value. 2. The value from the source is incremented and another DC Operating Point is calculated About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features Press Copyright Contact us Creators. 1. Jul 28, 2010. #1. I have trouble setting up parameter sweep in multisim. I want to sweep a DC voltage source and watch for magnitude of AC voltage (fixed at one frequency). I've already set up sweeping the voltage source correctly, however the output option screen doesn't have any AC voltage probes. It only watches for DC voltages or currents

Multisim performs DC Sweep Analysis using the following process: The DC Operating Point is calculated using a specified start value. The value from the source is incremented and another DC Operating Point is calculated. The increment value is added again and the process continues until the stop value is reached Multisim Help Edition Date: February 2017 Part Number: 375482B-01 View Product Info DOWNLOAD (Windows Only) Multisim 14.0 and 14.0.1 Help: Multisim 14.1 Help: Multisim 14.2 Help Parameter Description Mode. Magnitude—Measures the ratio of magnitudes (voltage gain, in decibels) between two nodes, V+ and V-. Phase—Measures the phase shift (in degrees) between two nodes. Both are plotted. MultiSim中的位置. Sweep Parameters. 第一个区域表示要进行扫描的变量 我们选择电阻: 更改单位: 修改完成: Points to Sweep. 此区域来定义每次扫描的步长,以及扫描区间. More Points. More Points区域设置针对所选参数的每一取值所要进行的扫描及其它参数。 电路仿真. 修改R1的值,对其仿真: 仿真结果: 另. AC Sweep and Signal Analysis Using the .AC Statement Star-Hspice Manual, Release 1998.2 9-9 AC Nodal Voltage Output Syntax Vx (n1,<,n2>) where: x specifies the voltage output type (see Table 9-1:) n1, n2 specfies node names. If n2 is omitted, ground (node 0) is assumed. Example.PLOT AC VM(5) VDB(5) VP(5) The above example plots the magnitude of the AC voltage of node 5 using the output. You can measure the circuit impedance by using the Single Frequency AC Analysis or if you want to find the impedance over a range of frequencies, you can use the AC Analysis. Multisim allows you to add expression in the analyses and the expression to find impedance is: Z = V / I. Before you launch the analysis, place a probe on the wire where.

AC Sweep on Multisim Live (2) - YouTub

what I meant to say was, I have a nice picture from the AC analysis function on multisim that shows bandwidth and resonant frequency. I cant get the bandwidth or resonant frequency. I know that at resonant the impedance will be maximum so it should look the opposite of what I have for the series circuit. I think I know how to calculate the resonant frequency. I already know the values, I think. A Multisim output of RLC current vs. frequency is shown next in Fig. 5. Fig. 5: AC Analysis of Circuit 1—RLC current vs. frequency. As the plot shows, the current magnitude of the circuit is at a maximum at the resonance frequency. This behavior is called a band-pass response. In order to provide a plot of LC impedance vs. frequency, we had. 4- Measure the output voltage Vo RMS value (AC mode in Multi-meter device). 5- Calculate R & 0.707 R which be equal 0.707 because the input voltage equal 1 . 6- Now decrease the frequency of input signal to get ` K=0.707 on Multi-meter screen to find Download this multisim design file for full wave diode bridge rectifier. Run the simulation by pressing the run button. Observe the output. Add another scope to measure the reverse voltage across diode D4. Think about at what time point in a cycle the diode D4 sees PIV. Repeat this for all other diodes. Try sketching the input and output waveforms by hand without looking at the Multisim.

Basic AC Sweep - Multisim Liv

  1. I downloaded SPICE model of AD8232 and tested it with NI Multisim 14. I got Gain vs. Frequency plots for Fig. 62 and Fig. 64. They are equal to your Fig. 63 and Fig. 65. But when I try to model Fig. 66 I get gain <= 20 dB instead of 60 dB as on Fig. 67. Here is my circuit: Here is frequency response: I ran AC Sweep with RA as input, LA and RL are grounded (as while testing Fig. 62 and 64.
  2. Multisim (multisim.com) is a project from National Instruments that allows you to use a circuit schematic editor to build and simulate a wide range of devices. Multisim allows you to analyze a circuit's steady state value, transient values, and responses to AC circuits. It can create graphs for time-varying signals and it can save voltage and current measurements to a spreadsheet. Account.
  3. g an ac analysis because an operating point must precede the ac analysis. Use solutions 5 and 6 only as a last resort because they do not produce a valid dc operating point for the circuit (all supplies turned on). However, solutions 5 and 6 can help you get to the transient analysis, where you may uncover hidden problems plaguing the dc analysis.
  4. ). Thevenin circuit consisting of R S and R B shows effect of R B negligible, since it is.
  5. The Low Pass Filter. A simple passive RC Low Pass Filter or LPF, can be easily made by connecting together in series a single Resistor with a single Capacitor as shown below. In this type of filter arrangement the input signal ( V IN ) is applied to the series combination (both the Resistor and Capacitor together) but the output signal ( V OUT.

Multisim Basics Using the Bode Plotter and AC Sweep

Utilize Multisim (specifically The AC Sweep Analysis) To Plot The Amplitude And Phase Frequency Response For The Inverting Operational Amplifier Shown In Figure 1 (this Is The Circuit For Question 5 Of Version A Of The Second Exam). The Voltage Vm Is The Multisim Source AC VOLTAGE. The Operational Amplifier Does Not Show The DC Supply Voltages. AC Sweep has frequency as the x-axis, showing the frequency response of your output. Reactions: JustTrying. J. JustTrying. Points: 2 Helpful Answer Positive Rating Aug 3, 2012; Sep 1, 2008 #3 LvW Advanced Member level 5. Joined May 7, 2008 Messages 5,845 Helped 1,743 Reputation 3,490 Reaction score 1,343 Trophy points 1,393 Location Germany Activity points 39,346 transisent Transient. Multisim allows for the easy simulation of many different varieties of filters in many different ways. Bode Plotter . To begin our study of filters here, let's use some of the tools in Multisim to find the pass band attenuation and the corner frequencies of the band-pass filter shown in Figure 9.1.1. Figure 9.1.1 Simple band-pass filte It's just annoying, and because of that we might as well just invest the time in a Parameter Sweep/ AC Analysis. We'll make our variable capacitor a normal fixed capacitor which we vary in the Parameter Sweep Analysis. When everything is put together your Multisim schematic should look like that shown in Fig. 9.4.2 The frequency response of a circuit shows how a circuit behaves as the frequency of the input signal changes; it is similar to the AC sweep we did earlier in Multisim. To analyze the RC circuit frequency response, use the network analyzer. Connect the wavegen and the Scope Channel 1 to the circuit input, connect the Scope Channel 2 to the.

Ac sweep ii. DC sweep iii. Bias point detail iv. Parametric v. Sensitivity vi. Temperature vii. Digital setup viii. Transient l. Show step by steps how to check if the Pspice is not run m. Show step by steps how to plot the circuit n. Use some example from the homework and the appendix B to some how to create a Pspice file, run and read the output file. o. Compare the Pspice to the Mathcad. B.1 SPICEDeviceModels B-3 2. Input Bias Current (IB) and Input Offset Current (IOS).The dc current sources I B1 and I B2 model the input bias current at each input terminal of the op amp, with I B1 =I B + I OS 2 and I B2 =I B − I OS where I B and I OS are, respectively, the input bias current and the input offset current specified by the op-amp manufacturer. 3. Common-Mode Input Resistance.

Parametric sweep in Multisim - YouTub

Parameter Sweep AC mangnitude - NI Communit

  1. The AC Sweep/Noise analysis varies the operating frequency in a linear or logarithmic manner. It linearizes the circuit around the DC operating point and then calculates the network variables as functions of frequency. The start and stop frequencies as well as the number of points can be assigned. Spice will compute the effective noise voltage spectral density that appears at the Output.
  2. Created by Albert Daniel 2007 - 20 - Transient Analysis dan AC Analysis Multisim menyediakan berbagai jenis analisa yang dapat digunakan untuk didalam melakukan analisa rangkaian elektronika. Jenis analisa yang tersedia pada multisim, dapat dilihat pada menu Simulate/Analyses pada menu bar. Analisa yang disediakan oleh multisim terdapat beberapa parameter yang harus diperhatikan yaitu: o.
  3. Open Multisim by clicking on Start -> Programs -> National Instruments -> Circuit Design Suite 11.0 -> Multisim 11.0 . Create a new file with File-> New-> Design. First we need to find the components. There are a few ways: Place -> Components (Ctrl + W) or right-click a blank spot and go to Place Component. The AC source is in the Sources group (top left), Signal Voltage Sources.
  4. Simulate Electronics. 215 likes · 6 talking about this. We will simulate and design different electrical and electronics circuits and also learns their behavior
  5. PSIM provides the capability to perform ac analysis of switchmode circuits in LTspice simulation
  6. Parametric Sweep Chapter Outline 5.1 Property Editor 64 5.2 Exercises 67 Exercise 1 67 Theory 72 Exercise 2 73 Notch Filter 73 Exercise 3 75 Active Notch Filter 75 A parametric sweep allows for a parameter to be swept through a range of values and can be performed when running a transient, AC or DC sweep analysis

NI Multisim: AC Analysis frequency response - YouTub

Multisim treats the AC analysis magnitude and simulation voltage separately, so they must both be changed each time you are setting up a circuit. Fig re 5 - AC_Voltage Source Paramaters Figure 6 - Net Properties . 2. Name voltage nodes (nets): Once your circuit is constructed, it is also good practice to name the . nets . or nodes in your circuit, especially those that you will be. AC Phase. the phase of the source when used in an AC Small Signal Analysis. (Default = 0). Offset. DC offset voltage of the signal generator (in Volts). (Default = 0). Amplitude. peak amplitude of the sinusoid (in Volts). (Default = 1). Frequency. frequency of the sinusoidal output voltage (in Hz). (Default = 1K). Delay. delay time until the source voltage commences (in seconds). (Default = 0. The term 'sweep' in this context refers to a change from one value to another. So a V S W E E P of 3-8V would be a change from 3V to 8V over a predefined time. A DC Sweep would therefore be a change in voltage of a DC source. An AC sweep could be a change in an AC voltage over time, or more commonly, a change in AC frequency over time C1 R1 V1 PR1 0.47uF 3300 R2 1kHz 0° C2 0.047F Part C: Multisim AC Analysis Sweep (Band-Pass) Vout 1. Using Multisim, create the following circuit, a bandpass HH filter assembled from a highrass and lowpass RC: 1 Vpk 3300 2. Use the AC Analysis to create the Bode plot with settings as shown

Multisim 11.0 Tutorial - EE 310 Electronic Devices and Circuits Start: Click Start -> DC Sweep: Simulate Analyses DC Sweep Select the desired variable to sweep over, in this case, we want the Power of Resistor 1, and click Simulate. As shown above, we can see the graph of Power vs. Voltage for our Resistor 1. To see different point values or the use of Cursors in the Grapher View window. DC Sweep analysis is set up on the DC Sweep Analysis Setup page of the Analyses Setup dialog (after the dialog appears, click the DC Sweep Analysis entry in the Analyses/Options list). An example setup for this analysis type is shown in the image below: Parameters. Primary Source - the name of the independent power source in the circuit that is to be stepped. Primary Start - the starting value.

AC Voltage Source - Multisim Help - National Instrument

Operationsverstärker 505_c_NI-x_multiSIM Sedra#02.1° - Example 2.8 AC Gain_1a.ms10 3. Dioden 4. MOS-Feldeffekttransistoren (MOSFETs) 5. Bipolartransistoren (BJTs) Teil II - Analog und digital Integrierte Schaltungen 6. einstufige Integrated-Circuit-Verstärker 7. Differential und mehrstufige Verstärker 8. Rückgespräch 9. Operational-Amplifier und Daten-Wandlerschaltungen 10. Digitale CMOS. Under AC Sweep Type select: Linear and enter a start frequency of 10, stop frequency of 5000 and total point of 100. Using these settings PSPICE will calculate the sinusoidal steady state response of the circuit for the each of the frequencies indicated. 3. Run the simulation. The curve shown in figure 2 should be displayed. This is a plot of the output voltage versus frequency. Since the. AC Sweep. This method analyzes changes in voltage and current in a given frequency range for an AC input source. Operating Point. This method analyzes the voltage and current for one or multiple components in a circuit at a single point in time. You can even extract and analyze specific component parameters. Now that we have all of the basics covered let's walk through some of the new SPICE. 505_d_NI-x_NI multiSIM lab07 - AC Analysis (Seite 183..210) _1a.pdf 505_d_NI-x_NI multiSIM lab08 - AC Power (Seite 211..248) _1a.pdf 505_d_NI-x_NI multiSIM lab09 - Filters and Transfer Functions (Seite 249..288) _1a.pdf. 505_d_NI-x_NI multiSIM lab10 - Laplace Transform Analysis Technique (Seite 289..312) _1a.pdf 505_d_NI-x_NI multiSIM lab11 - Fourier Analysis (Seite 313..354) _1a.pdf ***** 2. PSIM User Manual iii 3.6 Digital Control Module 3-21 3.6.1 Zero-Order Hold 3-21 3.6.2 z-Domain Transfer Function Block 3-2

Multisim has many unique features that provide users with a WYSIWYG design environment, such as interactive simulation interface, dynamic electronic components display, artificial circuits with 3D effects, virtual instruments, analysis functions, graphical display window, etc. It combines intuitive capture with powerful simulation to quickly, easily and efficiently design and verify circuits. Simulate Electronics. 216 likes. We will simulate and design different electrical and electronics circuits and also learns their behavior type, such as .TRAN, or .AC analysis (Spice automatically does a DC analysis before doing a transient or AC analysis). Thus, if you are only interested in the DC voltages in HSpice, you should specify the .OP option. This output will appear to the output (which is usually piped to a *.lis or *.lst file).DC Statement This statement allows you to increment (sweep) an independent source over a. Comparison between EDWinXP, PSpice, Proteus and Multi Sim. Fully interactive, free running digital logic simulation. First year is provided with the package after which Maintenance cost has to be paid. Post-sales support is available free for the life of the product, by telephone, facsimile, e-mail or letter Short Tutorial on PSpice. Spice is a program developed by the EE Department at the University of California at Berkeley for computer simulation of analog circuits. In its original form you tell Spice what elements are in the circuit (resistors, capacitors, etc.), and then enter the circuit diagram as an ASCII file showing what nodes each element is connected to

AC Sweep - Low Pass Filter - Multisim Liv

  1. Penn Engineering | Inventing the Futur
  2. ed the values of R1 and Rf based on a desired gain of 10 and pole frequency of 43 kHz. I've plotted the transfer function bode plots in matlab and it looks correct. However when I run an AC sweep in multisim, weirdly the magnitude begins to drop at around 100 kHz at a rate of approx -40 dB.
  3. AC Analysis . Introduction 7.2 . Bode Plots 9.1(3-5) AC Parameter Sweep 9.3 . KCL in Multisim 3.1(6) L. Lamp 2.1(3) Logic Analyzer 7.7 . M. Measurement Probes . AC 7.2(8-9) DC 3.1(2-7) Introduction to 3.1(2) Phase . Mho 2.5(2) Multimeter . Ammeter (AC) 8.1(2) Ammeter (DC) 3.3(2) Introduction to 2.2(3-5) Ohmmeter 2.2(3-5) Voltmeter (AC) 8.1(1-2) Voltmeter (DC) 2.3(6-7) N. Network Analyzer.
  4. NI Multisim Measurements. Enter the circuit of Figure m7.4 and run an AC analysis to measure the voltage magnitude and phase of V A and V B. More specifically: Use the AC _VOLTAGE source. Set the AC Analysis Magnitude and AC Analysis Phase values according to the specified voltage source values. Set up an Simulate → Analyses → AC Analysis to sweep the frequency over a range.
  5. By default Multisim will plot (when in AC Analysis), the magnitude and the phase of whatever variables it is analyzing. In this case, the magnitude would correspond to the power factor pf, and the phase would correspond to - ϕ z. This is because P av is entirely real, and ϕ z = ϕ S. Since we are dividing a real number by S, then the end product will be some constant at an angle of - ϕ.
NI Multisim: AC Analysis frequency response - YouTube

Hello here is my program and settings As you see the simulation settings I want to see voltage output of each nodes @60Hz.but here is my output file information: **** INCLUDING SCHEMATIC1.net **** * source PHASORE R_R1 N00149 N00092 1k L_L1 N00092 N00096 2mH C_C1.. By default an AC sweep analysis sweeps every AC source in the circuit through a specified range of frequencies. All AC sources are swept together. For example, if you have three AC sources in the circuit and are running a simulation from 10 Hz to 100 MHz, then all three sources are set at 10Hz at the same time and 100MHz. During an AC sweep, all design sources are always analyzed in unison. To. Multisim is one of the few circuit design programs to employ the original Berkeley SPICE based software simulation. Multisim was originally created by a company named Electronics Workbench, which is now a division of National Instruments. Multisim includes microcontroller simulation (formerly known as MultiMCU), as well as integrated import and export features to the Printed Circuit Board. Switch the simulation type to AC Sweep and tap run button. In this way you can successfully run Multisim software. It is easy and useful software which is available to you for free. In this way you can successfully run Multisim software

Configuring a Parameter Sweep Analysis in Multisim

NI Multisim NI Multisim (formerly MultiSIM ) is an electronic schematic capture and simulation program which is part of a suite of circuit design programs, along with NI Ultiboard. Multisim is one of the few circuit design programs to employ the original Berkeley SPICE based software simulation. Multisim was originally created by a company named Electronics Workbench, which is now a division. The Transient Analysis results will be displayed by default, switch to the AC Analysis results. Click on a sweep parameter name to display more information, for example clicking on out_p10 highlights that wave and displays the sweep information underneath the plot. Note that if you hover the mouse over a wave name, it will also display the sweep information in the tooltip, as shown below. You. Program má v plné verzi více než 55 tisíc modelů součástek a může se pochlubit dlouhým seznamem možných simulací a analýz (Fully mixed-mode A/D simulation, Interactive Simulation, AC Sweep, Single Frequency AC, DC Operating Point, DC Sweep, Distortion, Fourier, Monte Carlo, Noise, Parameter Sweep, Pole Zero, Temperature Sweep, Transfer Function, Transient, Worst Case, Noise.

multisim..AC sweep analysis Forum for Electronic

AC Sweep: Analyze the frequency response of a circuit (gain and phase). Transient Analysis: Set a time period and analyze the response of your circuit. PSpice goes beyond mere circuit analysis, it also lets you perform temperature and stress analyses on your designs and perform event-driven simulations with its extensive library of pre-modeled parts. Some of the more advanced simulations you. Multisim je jedním z mála simulačních programů, AC Sweep, Single Frequency AC, DC Operating Point, DC Sweep, Distortion, Fourier, Monte Carlo, Noise, Parameter Sweep, Pole Zero, Temperature Sweep, Transfer Function, Transient, Worst Case, Noise Figure a další. Multisim se dodává v několika verzích (Base, Full, Professional, Education), od základní až po profesionální a pro.

AC Sweep RC circuit analysis - Multisim Liv

3.3 AC Sweep of Filter with Real Op-amp (Filter Circuit) 3.4 Rectifier Circuit (peak detector) and the use of a parametric sweep. Peak Detector simulation Parametric Sweep 3.5 AM Modulated Signal 3.6 Center Tap Transformer 4. Adding and Creating Libraries: Model and Part Symbol files 4.1 Using and Adding Vendor Libraries 4.2 Creating PSpice Symbols from an existing PSpice Model file 4.3. Multisim Base Multisim Full Multisim Power Pro; Starting from Contact for pricing Contact for pricing Contact for pricing; Key differentiators. Recommended for basic circuit design; Includes 47,000+ manufacturer-verified components and models; Integrates with Ultiboard software layout for rapid PCB prototyping ; Recommended for standard circuit design; Includes 49,000+ manufacturer-verified.

Configuring a Temperature Sweep Analysis in Multisim

The .AC sweep in SPICE makes it easy to observe extremes of frequency: I routinely test 0.01Hz to 100MHz. To determine the correct compensation capacitor, observe the signals at the amplifier output and the plate of the input (feedback return) stage at frequencies up to 100MHz. Do this without and with capacitors across the load, which always degrade stability. (Instabilities are visible as. Welcome to Electrical and Computer Engineering at UNC.

Configuring an AC Analysis in Multisim - National InstrumentsAC Sweep - Low Pass Filter - Multisim Live

Multisim provides the most complete and flexible set of analysis and display capabilities of any design and simulation tool available. A suite of 16 powerful analysis functions lets you investigate circuits in ways sometimes not possible in the real world. Students make use of Analysis Wizards to take full advantage of these sophisticated abilities. The analyses not only help students. It post is very nice and amazing for any subject , essay writing help essay editor academic writing assignment writing service srinivasa institute of technology and science,kadapa electronic circuit analysis laboratory manual department of electronics & communication engineering 1 srinivasa institut

AC Sweep - De-Q Resistor_TDK Inductor - Multisim Live5-2OpAmp - Buffer Driving AC Load with Overload protection
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