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RF and Microwave Circuits Design
Curriculum Outlines:
Features
Curriculum Objectives:
1. To understand the applications and measurements of communications and products
2. Design and implementation ability training for RF module circuit
3. To understand the theory of RF transmitter
4. To understand the theory of RF Receiver
1. To understand the applications and measurements of communications and products
2. Design and implementation ability training for RF module circuit
3. To understand the theory of RF transmitter
4. To understand the theory of RF Receiver
Specification
System Specificaication
1. Type of oscillator: PLL frequency synthesizer
2. Carrier frequency range: 700 MHz ~ 900 MHz
3. 16 tunable frequency bands
4. Using 9 V Battery
5. Dynamic range: > 70 dB
6. Signal-to-noise ratio: > 100 dB
7. Stability: +/- 75 kHz
8. THD: < 1%
9. Frequency response: 400 Hz ~ 8 kHz
Transmitter Specification
1. Transmitter mode: Direct up conversion transmission
2. Transmitter power: > -5 dBm
3. Carrier-to-noise ratio: > 100 dB
4. Type of antenna: Spiral antenna
5. Spurious: < -60 dBc
6. High sensitivity microphone
Receiver Specification
1. Receiver mode: Superheterodyne receiving
2. Sensitivity: < -80 dBm
3. Image rejection: > 60 dB
4. Audio output power: 0.5 W
1. Type of oscillator: PLL frequency synthesizer
2. Carrier frequency range: 700 MHz ~ 900 MHz
3. 16 tunable frequency bands
4. Using 9 V Battery
5. Dynamic range: > 70 dB
6. Signal-to-noise ratio: > 100 dB
7. Stability: +/- 75 kHz
8. THD: < 1%
9. Frequency response: 400 Hz ~ 8 kHz
Transmitter Specification
1. Transmitter mode: Direct up conversion transmission
2. Transmitter power: > -5 dBm
3. Carrier-to-noise ratio: > 100 dB
4. Type of antenna: Spiral antenna
5. Spurious: < -60 dBc
6. High sensitivity microphone
Receiver Specification
1. Receiver mode: Superheterodyne receiving
2. Sensitivity: < -80 dBm
3. Image rejection: > 60 dB
4. Audio output power: 0.5 W
