emin

Gw instek GRF-3300S RF Training System

  • Manufacturer: GW INSTEK
    Model: GRF-3300S
    • Request a Quotation Request a Quotation
  • 51,277,000 VND
  •  Call for best price

    Hotline: (+84) 867820758

    Phone+84 (24)62923267

  • Quality Engagement
  • Easy change and return
  • Delivery Avaliable
  • Favorable payment
Manufacturer: GW intek
Model: GRF-3300S
 
Detail

Datasheet 

Features

  •  
    Designed for wireless frequency range applications
  •  
    Includes a 880MHz Digital PLL and 2.4GHz microstrip line filter circuits
  •  
    Include these applications of RF Transmitter and Receiver both
  •  
    Training for the Voice Communication System
  •  
    Demonstrates the applications and measurements for using spectrum analyzers in communication instruments
  •  
    Specific RF circuit characteristics & PCB Layout on each module
  •  
    Training system covering 22 modules, and over 50 experiments
  • Spectrum Analyzer & RF Training System

    The GRF-3300S training system is designed for a high frequency range of wireless applications.

    This superior system is equipped with digital phase-locked loop (PLL) and a microstrip line filter (MLF) with a design range from 730MHz up to 960MHz / 2.4 GHz,

    which is increasingly important in the education field. By using the Wireless Voice Communication system, students can practically complement their learning.

    The GRF-3300S with the combination of a training syllabus, basic theory, systematic demonstrations, and hands-on experiments make it the perfect match for modern RF communication education.

    The spectrum analyzer used in the training system is not only capable of experimenting with measurement testing, but is also a standard industrial instrument itself,

    making it practical for students to adapt in the occupational field.

  •  

    Training Contents

    Sections

    Theory

    Experiment

    Related Applications

    The Fundamentals

    Impedance matching network: L-type, π-type, T-type
    Smith chart: theory and practical examples

    Theory explaining

    RF Component Test

    Antenna

    Antenna parameter, antenna structure, antenna type

    Frequency response

    Antenna Design

    Attenuator

    Attenuator parameter, attenuator type, attenuator design

    Attenuation characteristics

    When the Signal is Too Big

    Low Noise Amplifier

    LNA parameter, 1dB compression point, LNA structure

    Input and output return loss, amplifier gain, 1dB compression point

    Small Signal Enlarged

    Preamplifier

    Preamplifier type, preamplifier structure

    Input and output return loss, amplifier gain, 1dB compression point

    Small Signal Enlarged

    Power Amplifier

    Power amplifier frequency characteristics, bias circuit, power amplifier parameter, power amplifier structure

    Gain flatness, 1dB compression point, fundamentals to harmonics ratio

    Power Enlarge

    Filter

    Filter parameter, filter structure: Butterworth, Chebyshev

    Input/output return loss, insertion loss

    EMI filter Design

    Mixer

    Mixer structure, mixer parameter, mixer type

    Conversion gain, 1dB compression point, isolation

    TV Tuner

    Phase Locked Loop

    PLL structure, frequency synthesizer, PLL controller, loop filter, design a PLL

    Frequency response/modulation

    Signal Generator

    Audio Processor

    Audio compression/decompression circuit

    Pre-emphasis, compression characteristics, expander and de-emphasis, decompression characteristics

    Wireless Microphone

    Modulation

    Design and implement a modulation circuit

    Frequency modulation

    Remote Controller

    Demodulation

    Design and implement an FM intermediate frequency demodulation circuit

    IF modulation, RSSI output

    Broadcasting

    Transmitter

    Transmitter parameter, transmitter structure

    Transmission spectrum

    Radio Set

    Receiver

    Receiver parameter, receiver structure

    Receiving signal spectrum, demodulation waveform

    Radio Set

    Voice Demo

    Combine with transmitter & receiver circuits

    Voice communication system

    VoIP

    Microstrip Line Filter

    Transmission line basics, stepped-impedance LPF, coupled line BPF, optimized HPF

    Insertion loss

    RFID

    POWER SOURCE

    AC 110V or 220V, 50/60Hz

    DIMENSIONS & WEIGHT

    GRF-3300S

    428(W) x 90(H) x 303(D)mm for Transmitter & Receiver, Approx. 8.4kg

  •  
  • Include

    • Teacher book & Student book 
      50 Terminator
      AC Power cord (only for GRF-3300S) x 2
      Antenna x 2
      Microphone
      N-SMA Adaptor x 3
      Return loss bridge
      RF Cable, 10cm x 6
      RF Cable, 20cm x 6
      RF Cable, 75cm x 3
      SMA-SMA Connector
    •  

 

Features

  •  
    Designed for wireless frequency range applications
  •  
    Includes a 880MHz Digital PLL and 2.4GHz microstrip line filter circuits
  •  
    Include these applications of RF Transmitter and Receiver both
  •  
    Training for the Voice Communication System
  •  
    Demonstrates the applications and measurements for using spectrum analyzers in communication instruments
  •  
    Specific RF circuit characteristics & PCB Layout on each module
  •  
    Training system covering 22 modules, and over 50 experiments
  • Spectrum Analyzer & RF Training System

    The GRF-3300S training system is designed for a high frequency range of wireless applications.

    This superior system is equipped with digital phase-locked loop (PLL) and a microstrip line filter (MLF) with a design range from 730MHz up to 960MHz / 2.4 GHz,

    which is increasingly important in the education field. By using the Wireless Voice Communication system, students can practically complement their learning.

    The GRF-3300S with the combination of a training syllabus, basic theory, systematic demonstrations, and hands-on experiments make it the perfect match for modern RF communication education.

    The spectrum analyzer used in the training system is not only capable of experimenting with measurement testing, but is also a standard industrial instrument itself,

    making it practical for students to adapt in the occupational field.

  •  

    <td style="border: rgb(236,
    Training Contents
    Sections
    Theory
    Experiment
    Related Applications
    The Fundamentals
    Impedance matching network: L-type, π-type, T-type
    Smith chart: theory and practical examples
    Theory explaining
    RF Component Test
    Antenna
    Antenna parameter, antenna structure, antenna type
    Frequency response
    Antenna Design
    Attenuator
    Attenuator parameter, attenuator type, attenuator design
    Attenuation characteristics
    When the Signal is Too Big
    Low Noise Amplifier
    LNA parameter, 1dB compression point, LNA structure
    Input and output return loss, amplifier gain, 1dB compression point
    Small Signal Enlarged
    Preamplifier
    Preamplifier type, preamplifier structure
    Input and output return loss, amplifier gain, 1dB compression point
    Small Signal Enlarged
    Power Amplifier
    Power amplifier frequency characteristics, bias circuit, power amplifier parameter, power amplifier structure
    Gain flatness, 1dB compression point, fundamentals to harmonics ratio
    Power Enlarge


Apply your mail to get promotion information