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GOTT GOTT-RFC-339 RF Circuit Design Trainer

  • Manufacturer:GOTT
    Model: GOTT-RFC-339
    P/N: 339-000
    Origin: Malaysia
    Guarantee: 12 Month
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    Myanmar: 09 266993007

    Email: info@emin.com.mm

PRODUCT MODULES

ELEMENTARY IMPEDANCE MATCHING NETWORK & IMPEDANCE MATCHING NETWORK-  CODE 339-001

Elementary Impedance Matching Network 

• Experiment 1: L-Type Matching Network (Operational Frequency: 900 MHz) 

• Experiment 2: PI-Type Matching Network (Operational Frequency: 900 MHz) 

• Experiment 3: T-Type Matching Network (Operational Frequency: 900 MHz)

Impedance Matching Network 

• Experiment 1: Tapped Capacitor Matching Network (Operational Frequency: 900 MHz) 

• Experiment 2: Tapped Inductor Matching Network (Operational Frequency: 900 MHz) 

• Experiment 3: Low Quality Factor Matching Network (Operational Frequency: 900 MHz)

ONE & TWO STAGES LOW NOISE AMPLIFIER - CODE 339-002

One Stages Low Noise Amplifier 

• Experiment 1: Measurement of Frequency Responses (Operational Frequency: 890 ~ 915 MHz) 

• Experiment 2: Measurement of Noise Figure (Operational Frequency: 890 ~ 915 MHz; Noise Figure: 2 dB) 

• Experiment 3: Measurement of 1-dB Compression Point (Operational Frequency: 890 ~ 915 MHz; P : -10 dBm)

Two Stages Low Noise Amplifier 

• Experiment 1: Measurement of Frequency Responses (Operational Frequency: 890 ~ 915 MHz) 

• Experiment 2: Measurement of Noise Figure (Operational Frequency: 890 ~ 915 MHz; Noise Figure: 2 dB) 

• Experiment 3: Measurement of 1 dB Compression Point (Operational Frequency: 890 ~ 915 MHz; P : -10 dBm)

TWO STAGES PRE-AMPLIFIER & POWER AMPLIFIER - CODE 339-003

Two Stages Pre-amplifier 

• Experiment 1: Measurement of Frequency Responses (Operational Frequency: 800 ~ 1000 MHz) 

• Experiment 2: Measurement of Noise Figure (Operational Frequency: 800 ~ 1000 MHz; Noise Figure: 3 dB) 

• Experiment 3: Measurement of 1 dB Compression Point (Operational Frequency: 800 ~ 1000 MHz; P : -5 dBm)

Power Amplifier 

• Experiment 1: Measurement of Gain Flatness (Operational Frequency: 700 ~ 1000 MHz; Gain Flatness: ±2.5 dB) 

• Experiment 2: Measurement of 1 dB Compression Point (Operational Frequency: 700 ~ 1000 MHz; P : 15 dBm) 

• Experiment 3: Measurement of OIP3 (Operational Frequency: 915 MHz; IP3: 25 dBm) 

• Experiment 4: Measurement of Harmonics (Operational Frequency: 915 MHz)

COLPITTS AND HARTLEY OSCILLATORS & COMMON COLLECTOR COLPITTS OSCILLATOR CODE 339-004

Colpitts and Hartley Oscillators 

• Experiment 1: Measurement of Frequency and Output Power (Oscillation Frequency: 800 ~ 900 MHz) 

• Experiment 2: Measurement of Phase Noise (Phase Noise: -90 ~ -110 dBc/Hz) 

• Experiment 3: Measurement of Gain Factor and Variable Bandwidth (Gain Factor: 10 ~ 14 Mhz/V; Variable Bandwidth: 50 ~ 70 MHz)

Common Collector Colpitts Oscillator 

• Experiment 1: Measurement of Frequency and Output Power (Oscillation Frequency: 750 ~ 850 MHz) 

• Experiment 2: Measurement of Phase Noise (Phase Noise: -90 ~ -110 dBc/Hz) 

• Experiment 3: Measurement of Gain Factor and Variable Bandwidth (Gain Factor: 8 ~ 10 MHz/V; Variable Bandwidth: 40 ~ 50 MHz)

MICROCONTROLLER FOR PHASE LOCK LOOP & PHASE LOCKED LOOP - CODE 339-005

Microcontroller For Phase Lock Loop 

• Experiment 1: LCD and Keypad Testing (Locked Frequency Display; Locked Status Detection) 

• Experiment 2: MB15E03L Control Signal Testing (Locked Frequency: 812 MHz; 825 MHz; 850 MHz)

Phase Locked Loop 

• Experiment 1: Measurement of Frequency Responses for Loop Filter (-3 dB Frequency: 600 Hz) 

• Experiment 2: Measurement of PLL (Locked Frequency: 812 MHz; 825 MHz; 850 MHz) 

• Experiment 3: Measurement of FM Signal (Audio Signal: 1 kHz; Modulation Bandwidth: 100 ~ 150 kHz)

DIODE & TRANSISTOR MIXER CODE 339-006

Diode Mixer 

• Experiment 1: Measurement of Conversion Gain (Radio Signal: 795 ~ 895 MHz or 1800 ~ 1900 MHz; Local Signal: 915 MHz or 1780 MHz; Intermediate Signal: 20 ~ 100 MHz) 

• Experiment 2: Measurement of 1 dB Compression Point (Radio Signal: 845 MHz or 1850 MHz; Local Signal: 915 MHz or 1780 MHz; Intermediate Signal: 70 MHz) 

• Experiment 3: Measurement of Isolation (Local Signal: 840 ~ 990 MHz or 1705 ~ 1855 MHz)

Transistor Mixer 

• Experiment 1: Measurement of Conversion Gain (Radio Signal: 877 ~ 977 MHz or 910 ~ 1010 MHz; Local Signal: 857 MHz or 850 MHz; Intermediate Signal: 20 ~ 100 MHz or 60 ~ 160 MHz) 

• Experiment 2: Measurement of 1 dB Compression Point (Radio Signal: 927 MHz or 910 MHz; Local Signal: 857 MHz or 850 MHz: Intermediate Signal: 70 MHz or 60 MHz) 

• Experiment 3: Measurement of Isolation (Local Signal: 782 ~ 932 MHz or 840 ~ 990 MHz)

LOW-PASS AND HIGH-PASS FILTERS & BAND-STOP AND BAND-PASS FILTERS CODE 339-007

Low-pass and High-pass Filters 

• Experiment 1: Measurement of Frequency Responses (Operational Frequency: 500 ~ 1500 MHz; Low-pass -3 dB Frequency: 900 MHz; High-pass -3 dB Frequency: 900 MHz)

Band-stop and Band-pass filters 

• Experiment 1: Measurement of Frequency Response (Operational Frequency: 500 ~ 1500 MHz; Band-stop Center Frequency: 900 MHz; Bandwidth: 200 MHz; Band-pass Center Frequency: 70 MHz; Bandwidth: 20 MHz)’xzxz

IF FM DEMODULATION CIRCUIT & AUDIO SIGNAL PROCESS CIRCUIT - CODE 339-008

If FM Demodulation Circuit 

• Experiment 1: Measurement of IF FM Demodulation Circuit (Intermediate Signal: 70.7 MHz, Modulation Bandwidth: 20 kHz)

Audio Signal Process Circuit 

• Experiment 1: Measurement of Pre-emphasis and Compression for Audio Signal (Audio Signal: 20 Hz ~ 50 kHz) • Experiment 2: Measurement of De-emphasis

DC POWER SUPPLY & FUNCTION GNERATOR (OPTIONAL ITEM) - CODE 500-107

DC Power Supply 

• Triple Bipolar Voltage Outputs 

o DC 0 – +/-15V 

o DC +/-5V 

o DC +/-12V 

• Constant & variable Voltage Operation 

• Low Ripple and Noise

Function Generator 

• Two Signals Output Ports 

• Frequency Range: 

FG (I): 0 – 10Hz, 0 – 100kHz, 0 – 1kHz, 0 – 10kHz, 0 – 100kHz 

FG (II): 0 – 100Hz 0 – 1kHz 0 – 10kHz 0 – 100kHz 0 – 1MHz 

• Waveform: Sine, Triangle, Square, TTL Pulse 

• Amplitude: 10Vpp 

• Built-in-6-Digit Frequency Counter 

• Two Large 0.5” LED Display Overload Protection

Manuals: 

(1) All manuals are written in English 

(2) Model Answer 

(3) Teaching Manuals

OPTIONAL: 

DC Power Supply & Function Generator 

Model: GOTT-DC POWER SUPPLY & FUNCTION GENERATOR - CODE: 500-107


Details

Datasheet


DESCRIPTION 

• Design and implementation of RF front end receiver module. 

• Design and implementation of RF front end transmitter module. 

• Design and implementation voltage-controlled oscillator and phase lock loop. 

• Design and implementation of IF demodulator and audio process circuit. 

• Design and implementation for wireless transceiver module.

FEATURES

• Training for wireless communication technicians and engineers. 

• To understand the applications and measurements of communication instruments and products. 

• Design and implementation ability training for RF module circuit. 

• To shorten the gap between academic and industrial circles

  • Quality Engagement
  • Easy change and return
  • Delivery Avaliable
  • Favorable payment

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