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EXPERIMENT COVERAGE Microstrip Line Matching Circuit • Measurement of λ/4 Impedance Transformer Matching Network • Measurement of Single & Balanced Short Stubs Matching Network • Measurement of Single, Balanced & Radio Open Stubs Matchingm Network • Measurement of λ/8 and 3λ/8 Open Stubs Matching Network Low Noise Amplifier • Measurement of Frequency Responses • Measurement of Noise Figure • Measurement of 1dB Compression Point Oscillator Circuits • Measurement of Oscillation Frequency & Output Power • Measurement of Phase Noise • Measurement of Gain Factor & Tunable Bandwidth • Measurement of Pushing Figure Pre-Amplifier Circuits • Measurement of Frequency Response • Measurement of 1dB Compression Point • Measurement of Third Order Intercept Point Power Amplifier Circuits • Measurement of Gain Flatness • Measurement of 1dB Compression Point • Measurement of Third Order Output Intercept Point • Measurement of the Ratio of Fundamental & Harmonics Phase Locked Loop Controller • LCD & Keypad Testing • MB15E07 Control Signal Testing Phase Locked Loop Circuit • Measurement of Frequency Response for Loop Filter • Measurement of PLL & Phase Noise • Measurement of PLL Locked Time Balanced Mixer Circuits • Measurement of Conversion Loss vs. LO Power • Measurement of Conversion Loss vs. RF Power • Measurement of Third Order Intercept Point • Measurement of IF Bandwidth • Measurement of Isolation Image Rejection Mixer Circuits • Measurement of Conversion Loss vs. LO Power • Measurement of Conversion Loss vs. RF Power • Measurement of Third Order Intercept Point • Measurement of Isolation • Measurement of Image Rejection Level IQ Modulator • Measurement of PSK Modulator • Measurement of QPSK Modulator IQ Demodulator • Measurement of PSK Demodulator • Measurement of QPSK Demodulator ISM Band Analog & Digital Transmitter • Measurement of Output Power • Measurement of Harmonic Output Power • Measurement of Modulation Signal ISM Band Analog & Digital Receiver • Measurement of Sensitivity • Measurement of Demodulation Signal • Measurement of Image Rejection Ability TEACHING MODULE SPECIFICATION MODULE One - Microstrip Matching Circuit • Experiment 1: Measurement of λ 4 Impedance Transformer Matching Network (Operation Frequency: 2400 MHz; S 10 dB 11 < − ) • Experiment 2: Measurement of Single and Balanced Short Stubs Matching Network (Operation Frequency: 2400 MHz; ) • Experiment 3: Measurement of Single, Balanced and Radio Open Stubs Matching Network. (Operation Frequency: 2400 MHz; ) • Experiment 4: Measurement of λ 8 and 3λ 8 Open Stubs Matching Network. (Operation Frequency: 2400 MHz; S 10 dB 11 < − ) MODULE Two : (i) Low Noise Amplifier Circuits • Experiment 1: Mea surement of Frequency Responses (Operation Frequency: 2350 ~ 2450 MHz; S 10 dB 22 < − , S 10 dB 21 > ) • Experiment 2: Measurement of Noise Figure (Operation Frequency: 2350 ~ 2450 MHz; NF < 1.8 dB) • Experiment 3: Measurement of 1 dB Compression Point (Operation Frequency: 2400 MHz; P dBm dB 15 1 > − ) (ii) Oscillator Circuits • Experiment 1: Measurement of Oscillation Frequency and Output Power (Oscillation Frequency: 2350~2450 MHz; Output Power: > -5 dBm) • Experiment 2: Measurement of Phase Noise (Phase Noise: -90 ~ -100 dBc/Hz @ 100 kHz) • Experiment 3: Measurement of Gain Factor and Tunable Bandwidth (Gain Factor: 10 ~20 MHz/Volt; Tunable Bandwidth: 60 ~ 70 MHz) • Experiment 4: Measurement of Pushing Figure (Pushing Figure: 8 MHz/Volt) MODULE Three: (i) Pre-Amplifier Circuits • Experiment 1: Measurement of Frequency Responses (Operation Frequency: 2350 ~ 2450 MHz; S 10 dB 21 > ) • Experiment 2: Measurement of 1 dB Compression Point (Operation Frequency: 2400 MHz; P dBm dB 5 1 > ) • Experiment 3: Measurement of 3 rd Order Intercept Point (Operation Frequency: 2400 MHz; OIP 3 > 25 dBm (ii) Power Amplifier Circuits • Experiment 1: Measurement of Gain Flatness (Operation Frequency: 2350 ~ 2450 MHz; Gain Flatness: ± 1.5 dB ) • Experiment 2: Measurement of 1 dB Compression Point (Operation Frequency: 2400 MHz; P 23 dBm 1dB > ) • Experiment 3: Measurement of 3 rd Order Output Intercept Point (Operation Frequency: 2400 MHz; OIP 3 > 40 dBm ) • Experiment 4: Measurement of the Ratio of Fundamental and Harmonics (Operation Frequency: 2400 MHz ： ) MODULE Four: (i) Phase Locked Loop Controller • Experiment 1: LCD and Keypad Testing (Locked Frequency Display: Locked Status Detection) • Experiment 2: MB 15E07 Control Signal Testing (Locked Frequency: 2250 ~2350 MHz; Stepped Frequency: 1 MHz, 10 MHz) (ii) Phase Locked Loop Circuit • Experiment 1: Measurement of Frequency Responses for Loop Filter (3-dB Frequency: 12.5 kHz) • Experiment 2: Measurement of PLL and Phase Noise (Phase Noise < -100 dBc/Hz @ 100 kHz) • Experiment 3: Measurement of PLL Locked Time (Locked Time < 5 ms) MODULE Five: (i) Balanced Mixer Circuits • Experiment 1: Measurement of Conversion Loss vs. LO Power (RF: 2420 MHz, LO: 2350 MHz; Conversion Loss: < 15 dB) • Experiment 2: Measurement of Conversion Loss vs. RF Power (RF: 2420 MHz, LO: 2350 MHz; Conversion Loss: < 15 dB, P dBm dB 0 1 > ) • Experiment 3: Measurement of 3 rd Order Intercept Point (RF: 2420 MHz, LO: 2350 MHz; OIP 3 > 10 dBm ) • Experiment 4: Measurement of IF bandwidth (RF: 2360 ~ 2450 MHz, LO: 2350 MHz; IF bandwidth: > 100 MHz) • Experiment 5: Measurement of Isolation (Operation Frequency: 2350 ~ 2450 MHz; Isolation: > 20 dB) (ii) Image Rejection Mixer Circuits • Experiment 1: Measurement of Conversion Loss vs. LO Power (RF: 2420 MHz; LO: 2350 MHz; Conversion Loss: < 15 dB) • Experiment 2: Measurement of Conversion Loss vs. RF Power (RF: 2420 MHz; LO: 2350 MHz; Conversion Loss: < 15 dB, P dBm dB 5 1 > ) • Experiment 3: Measurement of 3 rd Order Intercept Point (RF: 2420 MHz; LO: 2350 MHz; OIP 3 > 15 dBm ) • Experiment 4: Measurement of Isolation (Operation Frequency: 2350 ~ 2450 MHz; Isolation: > 30 dB) • Experiment 5: Measurement of Image -rejection level (RF: 2250 ~ 2350 MHz; LO: 2350 MHz;Image - rejection level: > 30 dB) MODULE Six: (i) IQ Modulator Circuit • Experiment 1: Measurement of PSK Modulator (Operation Frequency: 70.7 MHz; Data Rate: >100 kbps) • Experiment 2: Measurement of QPSK Modulator (Operation Frequency: 70.7 MHz; Data Rate: >100 kbps) (ii) Design and Measurement of IQ Demodulator • Experiment 1: Measurement of PSK Demodulator (Operation Frequency: 70.7 MHz; Data Rate: >100 kbps) • Experiment 2: Measurement of QPSK Demodulator (Operatio n Frequency: 70.7 MHz; Data Rate: >100 kbps) MODULE Seven: (i) ISM Band Analog and Digital Transmitter • Experiment 1: Measurement of Output Power (Operation Frequency: 2400 MHz; P dBm out > 10 ) • Experiment 2: Measurement of Harmonics’ Output Power (Operation Frequency: 2400 MHz; P dBm out < −45 ) • Experiment 3: Measurement of Modulation Signal (Operation Frequency: 2400 MHz; Type of Modulation: FSK) MODULE Eight: (i) ISM Band Analog and Digital Receiver • Experiment 1: Measurement of Sensitivity (Operation Frequency: 2400 MHz; Receiver Sensitivity: > -80 dBm) • Experiment 2: Measurement of Demodulation Signal (Operation Frequency: 2400 MHz; Type of Demodulator: FSK) • Experiment 3: Measurement of Image -rejection Ability (Operation Frequency: 2400 MHz; Image -rejection level: > 30 dB) TEACHING MODULE SPECIFICATION (OPTIONAL) POWER SUPPLY MODULE • 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 • Connection using 4mm sockets FUNCTION GENERATOR MODULE • Two signal output ports • Waveforms: Sine, Triangle, Square, TTL Pulse • Amplitude: >10Vpp • Impedance: 50Ω ± 10% • Duty Control: 30% - 60% • Frequency Range: o 10Hz ~ 100kHz (4 Ranges) o 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 TRIPLE BAND RF SIGNAL GENERATOR UNIT • Five-Signal Output Ports • Impedance: 50 ±10% • Output Power: -20dBm ~ 0dBm, -15dBm ~ +5dBm, - 30dBm ~ -10dBm • Frequency Range: 2 x 850MHz ~ 950MHz, 2x 2300MHz ~ 2500MHz, 70.7MHz IF/FM • Resolution: 1MHz • Sweep Step Size: 1MHz • Frequency Accuracy: ±50kHz • Frequency Accuracy: ±50kHz • Signal Phase Noise: 850MHz ~ 950MHz:-110dBc/Hz @ 100kHz, 2300MHz ~2500MHz: -105dBc/Hz @ 100kHz, 70.7MHzIF/FM: -110dBc/Hz @ 100kHz • FM Frequency Deviation: 20kHz ~ 500kHz • Display: LCD Display • Power Requirements: 240VAC/50Hz • Dimensions: 300 (W) x 150 (H) x 410 (L) mm • Weight: Approximate 5 Kg OTHER REQUIRED TEST INSTRUMENTS ( NOT INCLUDED ) • Spectrum Analyzer (3GHz and above with Tracking Generator) • Digital Oscilloscope ( 100MHz and above) MANUAL & ACCESSORIES • Operation / User Manual x 1 • Lab Experiment Manual (with answer) x 1 • Connecting Lead x 1 set • Mouting Frame (MR-002) x 1 set(OPTIONAL)