GOTT GOTT-MAC-157 超音波主动线路设计培训系统
制造商: GOTT Model: GOTT-MAC-157 P/N: 157-160 来源: Malaysia 保障: 12 Month - 报价要求
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PRODUCT MODULES
DESIGN AND MEASUREMENT OF MICROSTRIP LINE MATCHING CIRCUIT - CODE 157-161
Design and Measurement of Microstrip Line Matching Circuit
• Experiment 1: Measurement of λ / 4 Impedance Transformer Matching Network (Operation Frequency: 2400 MHz; S11 < - 10 dB)
• Experiment 2: Measurement of Single and Balanced Short Stubs Matching Network (Operation Frequency: 2400 MHz; S11 < -10 dB)
• Experiment 3: Measurement of Single, Balanced and Radio Open Stubs Matching Network (Operation Frequency: 2400 MHz; S11 < -10 dB)
• Experiment 4: Measurement of and Open Stubs Matching Network (Operation Frequency: 2400 MHz; S11 < -10 dB)
DESIGN AND MEASUREMENT OF LOW NOISE AMPLIFIER & VOLTAGE CONTROLLED OSCILLATOR - CODE 157-162
Design and Measurement of Low Noise Amplifier (LNA)
• Experiment 1: Measurement of Frequency Responses (Operation Frequency: 2350 ~ 2450 MHz; S11 < -10 dB, S22 < -10 dB, S21 > -10 dB)
• 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; S1dB > -15 dBm)
Design and Measurement of Voltage Controlled Oscillator
• 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)
DESIGN AND MEASUREMENT OF PRE-AMPLIFIER POWER AMPLIFIER - CODE 157-163
Design and Measurement of Pre-amplifier
• Experiment 1: Measurement of Frequency Responses (Operation Frequency: 2350 ~ 2450 MHz; S11 < -10 dB, S22 < -10 dB, S21 > -10 dB)
• Experiment 2: Measurement of 1 dB Compression Point (Operation Frequency: 2400 MHz; S1dB > 5 dBm)
• Experiment 3: Measurement of 3rd Order Intercept Point (Operation Frequency: 2400 MHz; OIP3 > 25 dBm
Design and Measurement of Power Amplifier
• 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; S1dB > 23 dBm)
• Experiment 3: Measurement of 3rd Order Output Intercept Point (Operation Frequency: 2400 MHz; OIP3 > 40 dBm)
• Experiment 4: Measurement of the Ratio of Fundamental and Harmonics (Operation Frequency: 2400 MHz)
DESIGN AND MEASUREMENT OF PHASE LOCKED LOOP CONTROLLER & PHASE LOCKED LOOP - CODE 157-164
Design and Measurement of 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)
Design and Measurement of Phase Locked Loop
• 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)
DESIGN AND MEASUREMENT OF BALANCED MIXER & IMAGE-REJECTION MIXER - CODE 157-165
Design and Measurement of Balanced Mixer
• 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, S1dB > 0 dBm)
• Experiment 3: Measurement of 3rd Order Intercept Point (RF: 2420 MHz, LO: 2350 MHz; OIP3 > 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)
Design and Measurement of Image-rejection Mixer
• 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, S1dB > 5 dBm)
• Experiment 3: Measurement of 3rd Order Intercept Point (RF: 2420 MHz; LO: 2350 MHz; OIP3 > 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)
DESIGN AND MEASUREMENT OF IQ MODULATOR & IQ DEMODULATOR - CODE 157-166
Design and Measurement of IQ Modulator
• 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)
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 (Operation Frequency: 70.7 MHz; Data Rate: >100 kbps)
DESIGN AND IMPLEMENTATION OF DIGITAL WIRELESS TRANSMITTER - CODE 157-167
Design and Implementation of Digital Wireless Transmitter
• Experiment 1: Measurement of Output Power(Operation Frequency: 2400 MHz; Pout > 10 dBm)
• Experiment 2: Measurement of Harmonics’ Output Power(Operation Frequency: 2400 MHz; Pout < -45 dBm)
• Experiment 3: Measurement of Modulation Signal (Operation Frequency: 2400 MHz; Type of Modulation: FSK)
DESIGN AND IMPLEMENTATION OF DIGITAL WIRELESS RECEIVER - CODE 157-168
Design and Implementation of Digital Wireless 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)
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
Datasheet
DESCRIPTION
• Design and implementation of microwave front end receiver module.
• Design and implementation of microwave front end transmitter module.
• Design and implementation of voltage controlled oscillator and phase locked loop.
• Design and implementation of IQ modulator and demodulator.
• Design and implementation of digital wireless transceiver module
FEATURES
• Training for wireless communication technicians and engineers.
• To understand the applications and measurements of communication instrument XZs and products.
• Design and implementation ability training for microwave module circuit.
• To shorten the gap between academic and industrial circles.
• 2mm connect leads are used throughout the test point.
• 4mm connect leads are used throughout the DCV point.
• Each module can interlink together with U-link 4mm for 12v + 12v ground.
• 4mm LED indicator for each supply DCV + 12 v and -12v or + 5v and 5v.
- 质量承诺
- 正品保修
- 送货到家
- 交易简单化