Innovative RF communication training system trainer
GTCT-005
Innovative RF communication training system trainer mainly consists of RF transmission system and RF receiving system:
1. RF transmission system:
2. RF receiving system:
1. RF transmission system:
2. RF receiving system:
Delivery
EXW
minimum order
10 sets
Supply Ability
30sets / Month
Country of Origin
Guangzhou,China
Stock Time
45Day
Quantity
The educational training equipment rf communication training kit is mainly used to train students on the basis of relevant knowledge, through RF design software simulation design, correlation of performance index of related devices, assembly and debugging of RF circuit layout, unit circuit performance test, system gain matching adjustment and other training, so that students can deeply understand the influence of RF system distribution parameters, device characteristics and impedance matching on the communication system, and train students to learn to design and debug RF circuits. The educational training equipment rf communication training kit is also suitable for the teaching and skills training of related majors in higher vocational colleges and secondary vocational colleges. At the same time, the The educational training equipment rf communication training kit can also be used as an assessment device for skill training and skill appraisal in technical schools, vocational education centers, and vocational qualification appraisal stations.
Technical parameters
1. Low noise amplifier (general type)
● Working frequency range: 0.5Ghz-1.5Ghz
● Noise figure: 2.5dB
● Gain: >40dB
● Maximum output power: 10dBm
2. Frequency source local oscillator 1 (PLL+VCO)
● Output frequency range: 350MHz-1800GHz
● Maximum output power: +10dBm
● Phase noise: <-110dBc/Hz@100kHz
● Stabilization time: 400us
● Output frequency stray: <-70dBc
3. Variable gain amplification attenuator
● Working frequency: 10Mhz-3GHz
● Gain adjustment range: -34dB~+22dB
4. Frequency Source Local Oscillator 2 (PLL+VCO)
● Output frequency range: 2050MHz-2450GHz
● Maximum output power: +10dBm
● Phase noise: <-105dBc/Hz@100kHz
● Stabilization time: 400us
● Output frequency stray: <-70dBc
5. Power Amplifier
● Output frequency range: 0.5GHz-1.5GHz
● 1dB power compression point: +18dBm
● Gain: >30dB
● Working voltage: 5V
6. Transmitting chain up-converter
● RF and local oscillator working frequency range: 50MHzHz-1.6GHz
● IF working frequency range: 20MHz-1000MHz
● Frequency conversion insertion loss: 9dB
● Local oscillator - RF isolation: 35dB
● Local oscillator - IF isolation: 30dB
7. Receive chain down-converter
● RF and local oscillator working frequency range: 300MHzHz-2.4GHz
● IF working frequency range: DC-700MHz
● Frequency conversion insertion loss: 6dB
● Local oscillator - RF isolation: 35dB
● Local oscillator - IF isolation: 25dB
8. Low noise amplifier (special type)
● Working frequency range: 900MHz±20MHz
● Noise figure: 0.3dB
● Gain: >15dB
● Maximum output power: 0dBm
9. Power amplifier (special type)
● Working frequency range: 900MHz±20MHz
● 1dB power compression point: 33dBm (2W)
● Gain: >18dB
● Efficiency: >60%
● DC bias working point: Vgs = 1.8V; Vds = 28V
10. Transceiver antenna
● Working frequency range: 900MHz±10MHz
● Gain:>3dBi
● Polarization: Linear polarization
Basic experiments
The main content of this experiment box is to train students' design and debugging ability of RF circuit, and can demonstrate the design and debugging process of each module mentioned above.
SEND MESSAGE