![cst microwave studio dc and high freq co simulation cst microwave studio dc and high freq co simulation](https://www.mdpi.com/sensors/sensors-20-04538/article_deploy/html/images/sensors-20-04538-g017.png)
Range (GHz) 8.2-12.4 Flange UG-39/U Waveguide RG-52/Uįrequency Range (GHz) 8.2-12.4 Calibration Accuracy +2 Calibration Increment (MHz) 10 VSWR Max. Should be single transformer 4 type different PCB for manufacture SKPS.įreq. Operating Voltage 230V+10%, 50 Hz, A.C Short Circuit Protection.Toggle switch for Beam Voltage Variation Saw tooth wave output External Input. Modulation: Square Wave Frequency 500Hz-1.7 KHz Max Amp.+ 110 V p-p, Saw tooth Frequency 50Hz-196 Hz Max Amp.- 60 V p-p. Warranty at least 3 – yearsīeam Supply 195-400 V continuously variable Current 45mA Max Regulation Better than 0.5% for ± Variation in mains Supply Voltage Ripple Less than 5mV rms Repeller Supply -10 V to -300 DC continuously variable with respect to Klystron cathode 0-25% for ± Variation in mains Supply Heater Supply 6.3V DC (regulated).
#CST MICROWAVE STUDIO DC AND HIGH FREQ CO SIMULATION GENERATOR#
Assume the value of dielectric constant = 2.2 and substrate thickness ofĭIGITAL STORAGE OSCILLOSCOPE WITH FUNCTION GENERATORĭigital Storage Oscilloscope 50MHz, Two-channel, 1GSa/s sample rate, 100Kpts record length, 50000 wfrm/s update rate, Vertical sensitivity - 500µV to 10V/Div, with in-built 20 MHz function generator with 20V pp amplitude for Square, pulse, ramp and 12Vpp for sine wave, AM, FM & FSK Modulation feature, >80 dB dynamic range of Frequency Response analysis with Logarithmic overlaid gain and phase plot feature should be available, lab guide, tutorials and content on Oscilloscope fundamentals, Built – in digital voltmeter and frequency counter, Input Impedance- 1 MΩ ± 2%/16 pF ☓ pF, Display size 7 inch or more, waveform math includes Add, subtract, multiply, divide, FFT (magnitude and phase), low pass filter available, inbuilt array of training signals with lab guide, manufacturer should have NABL accredited service and Calibration lab in India, USB Interface with compatible software to connect and control the instrument and to build custom test sequence with the integrated test flow app to automate and visualize test result without the need for instrument programming, 2 Passive.Probe should be provided with oscilloscope and have selectable 10:1 and 1:1 attenuation. To simulate and analyse a simple rectangular microstrip antenna of L = 20 mm and Introduction to Antenna Design Using IE3D Software.ģ. Introduction to waveguide simulation using CST Microwave Studio Software.Ģ. To study broadside array antenna and to calculate beam-width, front / back ratio, andġ. To study phase array end-fire antenna and to calculate beam-width, front / back ratio,ġ2. To study folded dipole antenna and to calculate beam-width, front / back ratio, and gainġ1. To study simple dipole antenna and to calculate beam-width, front / back ratio, andġ0. To study 5 element Yagi-Uda antenna and to calculate beam-width, front / back ratio,ĩ. To study 3 element Yagi-Uda antenna and to calculate beam-width, front / back ratio,Ĩ. To measure polar pattern and gain of a waveguide antenna.ħ. To study V-I characteristic of Gunn diode.Ħ. To study measurement of reflection coefficient and standing wave ratio using doubleĥ. To determine the frequency and wavelength in a rectangular waveguide working onĤ. To study the characteristics of reflex klystron tube and to determine its electronicģ.
![cst microwave studio dc and high freq co simulation cst microwave studio dc and high freq co simulation](https://www.powerelectronictips.com/wp-content/uploads/2017/02/Figure_9_Rice_John1.jpg)
Lab Staff: Mrs Sarita Devi Courses CoveredĢ.