RF COMMUNICATION TRAINING SYSTEM

A
This training kit enable the user to: • Design & implementation ability training for RF module circuit • Design & implementation of RF front end receiver module • Design & implementation of RF front end transmitter module • Design & implementation of voltage controlled oscillator and phase lock loop (PLL) • Design & implementation of IF demodulator & audio process unit • Manuals includes the details of theoretical and practical at the same time, combined with reference answers
DESCRIPTIONS :
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MODEL: LC-2001
PRODUCT ACCESSORIES
Module One: •A. Elementary Impedance Network Matching • L-Type Matching Network (Operational Frequency: 900 MHz) • PI – Type Matching Network (Operational Frequency: 900 MHz) • T-Type Matching Network (Operational Frequency: 900 MHz) B. Impedance Matching Network • Tapped Capacitor Matching Network (Operational Frequency: 900MHz) • Tapped Inductor Matching Network (Operational Frequency: 900MHz) • Low Q Factor Matching Network (Operational Frequency: 900MHz) Module Two: A. One Stage Low Noise Amplifier • Measurement of Frequency Response (Operational Frequency: 890 ~ 915 MHz) • Measurement of Noise Figure (Operational Frequency: 890 ~ 915MHz; Noise Figure:   2dB) • Measurement of 1dB Compression Point (Operational Frequency: 890 ~ 915 MHz;   P(1 dB) : -10 dBm) B. Two Stages Low Noise Amplifier • Measurement of Frequency Response (Operational Frequency: 890 ~ 915 MHz) • Measurement of Noise Figure (Operational Frequency: 890 ~ 915 MHz; Noise   Figure: 2dB) • Measurement of 1dB Compression Point (Operational Frequency: 890 ~ 915 MHz;   P(1 dB) : -13 dBm ~ -18 dBm) Module Three: A. Two Stages Pre-Amplifier • Measurement of Frequency Response (Operational Frequency: 800 ~ 1000 MHz) • Measurement of Noise Figure (Operational Frequency: 800 ~ 1000 MHz; Noise  Figure: 3dB) • Measurement of 1dB Compression Point (Operational Frequency: 800 ~ 1000 MHz;  P(1 dB) : -135dBm) B. Power Amplifier • Measurement of Gain Flatness (Operational Frequency: 700 ~ 1000 MHz; Gain  Flatness: ±2.5dB) • Measurement of 1dB Compression Point (Operational Frequency: 700 ~ 1000 MHz;   P(1dB): 15dBm) • Measurement of OIP3 (Operational Frequency: 915 MHz; IP3: 25dBm) • Measurement of Harmonics (Operational Frequency: 915 MHz) Module Four: A. Colpitts & Hartley Oscillators • Measurement of Frequency & Output Power (Oscillator Frequency: 800 ~ 900 MHz) • Measurement of Phase Noise (Phase Noise: -90 ~ -110dBc/Hz) • Measurement of Gain Factor & Variable Bandwidth (Gain Factor: 10 ~ 14 MHz/V;   Variable Bandwidth: 50 ~ 70 MHz) B. Common Collector Colpitts Oscillator • Measurement of Frequency & Output Power (Oscillator Frequency: 750 ~ 850 MHz) • Measurement of Phase Noise (Phase Noise: -90 ~ -110dBc/Hz) • Measurement of Gain Factor & Variable Bandwidth (Gain Factor: 8~ 10 MHz/V;   Variable Bandwidth: 40 ~ 50 MHz) Module Five: A. Microcontroller For Phase Locked Loop • LCD & Keypad Testing (Locked Frequency Display; Locked Status Detection) • MB15E03L Control Signal Testing (Locked Frequency: 812MHz, 825MHz, 850MHz) B. Phase Locked Loop • Measurement of Frequency Response for Loop Filter (-3dB Frequency: 600 Hz) • Measurement of PLL (Locked Frequency: 812MHz, 825MHz, 850MHz) • Measurement of FM Signal (Audio Signal: 1 kHz, Bandwidth: 100 ~ 150 kHz) Module Six: A. Diode Mixer • Measurement of Conversion Gain (Radio Signal: 795 ~ 895MHz or 1800 ~ 1900MHz;   Local Signal: 915MHz or 1780MHz;    Intermediate Signal: 20 ~ 100MHz) • Measurement of 1dB Compression Point (Radio Signal: 845MHz or 1850MHz; Local    Signal: 915MHz or 1780MHz;    Intermediate Signal: 70MHz) • Measurement of Isolation (Local Signal: 840 ~ 990MHz or 1705 ~ 1855MHz) B. Transistor Mixer • Measurement of Conversion Gain (Radio Signal: 877 ~ 977MHz or 910 ~ 1010MHz;   Local Signal: 857MHz or 850MHz;    Intermediate Signal: 20 ~ 100MHz or 60 ~ 160MHz) • Measurement of 1dB Compression Point (Radio Signal: 927MHz or 910MHz; Local   Signal: 857MHz or 850MHz;    Intermediate Signal: 70MHz or 60MHz) • Measurement of Isolation (Local Signal: 782 ~ 932MHz or 840 ~ 990MHz) Module Seven: A. Low Pass & High Pass Filter • Measurement of Frequency Response (Operational Frequency: 500 ~ 1500MHz;   Low Pass -3dB Freq: 900MHz;    High Pass -3dB Freq: 900MHz) B. Bandstop & Bandpass Filters • Measurement of Frequency Response (Operational Frequency: 500 ~ 1500MHz;   Bandstop Center Freq: 900MHz,   Bandwidth: 200MHz; Bandpass Center Freq: 70MHz, Bandwidth: 20MHz) A. IF FM Demodulation Circuit • Measurement of IF FM Demodulation Circuit (Intermediate Signal: 70.7MHz,   Modulation Bandwidth: 20 kHz) B. Audio Signal Processing Circuit • Measurement of Pre-emphasis & Compression for Audio Signal (Audio Signal:    20Hz ~ 50Hz) • Measurement of De-emphasis & Decompression for Audio Signal (Audio Signal:   20Hz ~ 50Hz) FUNCTION GENERATOR & POWER SUPPLY UNIT(OPTIONAL) SPECIFICATION: A. Power Supply: - Variable Voltage Output: 0 ~ ± 12VDC/0.5A - Fixed Voltage Output: ± 5VDC(0.3A); ± 12VDC(0.3A) - Triple Bipolar Voltage Outputs - Constant Voltage Operations - Low Ripple & Noise B. Function Generator: - Two signal output ports - Waveforms: Sine, Triangle, Square, TTL Pulse - Amplitude: >10Vpp - Impedance: 50Ω ± 10% - Duty Control: 30% - 60% - Frequency Range: 10Hz ~ 100kHz (4 Ranges) 100Hz ~ 1MHz (4 Ranges) - Accuracy: ± Time Base Count ± Count - Time Base: 60Hz Oscillation Frequency - Resolution: 0.1Hz, 1Hz, 10Hz, 100Hz, 1kHz - Frequency Control: Separate Coarse & Fine Tuning - Large 0.5” LED Display - Overload Protection - Built-in 6 Digits Frequency Counter - Connection using 4mm sockets - Power Requirements: 240VAC/50Hz
MODULE SPECIFICATION
• Manual includes theory, operation and lab experiments    (with model answers) • Connecting lead cables(1 set) • Mounting frame rack (1 set) - Optional
ABLELOGIC.COM.MY
RF COMMUNICATION TRAINING SYSTEM
DONWLOAD DONWLOAD
MODEL: LC-2001
PRODUCT MENU PRODUCT MENU
This training kit enable the user to: • Design & implementation ability training for RF module circuit • Design & implementation of RF front end receiver module • Design & implementation of RF front end transmitter module • Design & implementation of voltage controlled oscillator and phase lock loop (PLL) • Design & implementation of IF demodulator & audio process unit • Manuals includes the details of theoretical and practical at the same time, combined with reference answers
DESCRIPTIONS :
Module One: •A. Elementary Impedance Network Matching • L-Type Matching Network (Operational Frequency: 900 MHz) • PI – Type Matching Network (Operational Frequency: 900 MHz) • T-Type Matching Network (Operational Frequency: 900 MHz) B. Impedance Matching Network • Tapped Capacitor Matching Network (Operational Frequency: 900MHz) • Tapped Inductor Matching Network (Operational Frequency: 900MHz) • Low Q Factor Matching Network (Operational Frequency: 900MHz) Module Two: A. One Stage Low Noise Amplifier • Measurement of Frequency Response (Operational Frequency: 890 ~ 915 MHz) • Measurement of Noise Figure (Operational Frequency: 890 ~ 915MHz; Noise Figure:   2dB) • Measurement of 1dB Compression Point (Operational Frequency: 890 ~ 915 MHz;   P(1 dB) : -10 dBm) B. Two Stages Low Noise Amplifier • Measurement of Frequency Response (Operational Frequency: 890 ~ 915 MHz) • Measurement of Noise Figure (Operational Frequency: 890 ~ 915 MHz; Noise   Figure: 2dB) • Measurement of 1dB Compression Point (Operational Frequency: 890 ~ 915 MHz;   P(1 dB) : -13 dBm ~ -18 dBm) Module Three: A. Two Stages Pre-Amplifier • Measurement of Frequency Response (Operational Frequency: 800 ~ 1000 MHz) • Measurement of Noise Figure (Operational Frequency: 800 ~ 1000 MHz; Noise  Figure: 3dB) • Measurement of 1dB Compression Point (Operational Frequency: 800 ~ 1000 MHz;  P(1 dB) : -135dBm) B. Power Amplifier • Measurement of Gain Flatness (Operational Frequency: 700 ~ 1000 MHz; Gain  Flatness: ±2.5dB) • Measurement of 1dB Compression Point (Operational Frequency: 700 ~ 1000 MHz;   P(1dB): 15dBm) • Measurement of OIP3 (Operational Frequency: 915 MHz; IP3: 25dBm) • Measurement of Harmonics (Operational Frequency: 915 MHz) Module Four: A. Colpitts & Hartley Oscillators • Measurement of Frequency & Output Power (Oscillator Frequency: 800 ~ 900 MHz) • Measurement of Phase Noise (Phase Noise: -90 ~ -110dBc/Hz) • Measurement of Gain Factor & Variable Bandwidth (Gain Factor: 10 ~ 14 MHz/V;   Variable Bandwidth: 50 ~ 70 MHz) B. Common Collector Colpitts Oscillator • Measurement of Frequency & Output Power (Oscillator Frequency: 750 ~ 850 MHz) • Measurement of Phase Noise (Phase Noise: -90 ~ -110dBc/Hz) • Measurement of Gain Factor & Variable Bandwidth (Gain Factor: 8~ 10 MHz/V;   Variable Bandwidth: 40 ~ 50 MHz) Module Five: A. Microcontroller For Phase Locked Loop • LCD & Keypad Testing (Locked Frequency Display; Locked Status Detection) • MB15E03L Control Signal Testing (Locked Frequency: 812MHz, 825MHz, 850MHz) B. Phase Locked Loop • Measurement of Frequency Response for Loop Filter (-3dB Frequency: 600 Hz) • Measurement of PLL (Locked Frequency: 812MHz, 825MHz, 850MHz) • Measurement of FM Signal (Audio Signal: 1 kHz, Bandwidth: 100 ~ 150 kHz) Module Six: A. Diode Mixer • Measurement of Conversion Gain (Radio Signal: 795 ~ 895MHz or 1800 ~ 1900MHz;   Local Signal: 915MHz or 1780MHz;    Intermediate Signal: 20 ~ 100MHz) • Measurement of 1dB Compression Point (Radio Signal: 845MHz or 1850MHz; Local    Signal: 915MHz or 1780MHz;    Intermediate Signal: 70MHz) • Measurement of Isolation (Local Signal: 840 ~ 990MHz or 1705 ~ 1855MHz) B. Transistor Mixer • Measurement of Conversion Gain (Radio Signal: 877 ~ 977MHz or 910 ~ 1010MHz;   Local Signal: 857MHz or 850MHz;    Intermediate Signal: 20 ~ 100MHz or 60 ~ 160MHz) • Measurement of 1dB Compression Point (Radio Signal: 927MHz or 910MHz; Local   Signal: 857MHz or 850MHz;    Intermediate Signal: 70MHz or 60MHz) • Measurement of Isolation (Local Signal: 782 ~ 932MHz or 840 ~ 990MHz) Module Seven: A. Low Pass & High Pass Filter • Measurement of Frequency Response (Operational Frequency: 500 ~ 1500MHz;   Low Pass -3dB Freq: 900MHz;    High Pass -3dB Freq: 900MHz) B. Bandstop & Bandpass Filters • Measurement of Frequency Response (Operational Frequency: 500 ~ 1500MHz;   Bandstop Center Freq: 900MHz,   Bandwidth: 200MHz; Bandpass Center Freq: 70MHz, Bandwidth: 20MHz) A. IF FM Demodulation Circuit • Measurement of IF FM Demodulation Circuit (Intermediate Signal: 70.7MHz,   Modulation Bandwidth: 20 kHz) B. Audio Signal Processing Circuit • Measurement of Pre-emphasis & Compression for Audio Signal (Audio Signal:    20Hz ~ 50Hz) • Measurement of De-emphasis & Decompression for Audio Signal (Audio Signal:   20Hz ~ 50Hz) FUNCTION GENERATOR & POWER SUPPLY UNIT(OPTIONAL) SPECIFICATION: A. Power Supply: - Variable Voltage Output: 0 ~ ± 12VDC/0.5A - Fixed Voltage Output: ± 5VDC(0.3A); ± 12VDC(0.3A) - Triple Bipolar Voltage Outputs - Constant Voltage Operations - Low Ripple & Noise B. Function Generator: - Two signal output ports - Waveforms: Sine, Triangle, Square, TTL Pulse - Amplitude: >10Vpp - Impedance: 50Ω ± 10% - Duty Control: 30% - 60% - Frequency Range: 10Hz ~ 100kHz (4 Ranges) 100Hz ~ 1MHz (4 Ranges) - Accuracy: ± Time Base Count ± Count - Time Base: 60Hz Oscillation Frequency - Resolution: 0.1Hz, 1Hz, 10Hz, 100Hz, 1kHz - Frequency Control: Separate Coarse & Fine Tuning - Large 0.5” LED Display - Overload Protection - Built-in 6 Digits Frequency Counter - Connection using 4mm sockets - Power Requirements: 240VAC/50Hz
MODULE SPECIFICATION
PRODUCT ACCESSORIES
• Manual includes theory, operation and lab experiments    (with model answers) • Connecting lead cables(1 set) • Mounting frame rack (1 set) - Optional