AM/FM TRANSCEIVER AND RECEIVER TRAINING KIT

A
This training kit enable the user to: • To understand the basic structures and function of amplitude modulation transmitter module • To understand the waveform, spectrum and modulation percentage of amplitude modulation • To design and implement the AM/SSB/DSB transmitter • To study the method of measurement and adjustment of the amplitude modulation transmitter • To understand the basic structures and function of amplitude modulation receiver module • To understand the operation theory of diode and product detection amplitude demodulation
DESCRIPTIONS :
DONWLOAD DONWLOAD
MODEL: AM-6011/6012
1. User/Experiment Manual with worked experiments and theoretical explanation (x1) 2. Connecting lead set (x1) 3. Input Mic unit (x1) 4. Power Supply Unit (Input: 240VAC; Output +/- 12VDC; 0.5A)
PRODUCT ACCESSORIES
A. Transmitter Specification: • Transmitter mode: Direct up conversion transmitter • Transmitted power: >0 dBm • Carrier-to-noise ratio: >100 dB • Tunable audio signal source (Audio signal frequency: 100Hz ~ 1 kHz) • High sensitivity microphone input • SSB/DSB Modulator • Supports fault simulation • Power supply requirements: +/-12VDC B. Receiver Specification: • Receiver mode: Super Heterodyne • Sensitivity: <-70 dBm • AM receiver carrier frequency: 565 kHz ~ 1605 kHz • Intermediate frequency: 455KHz • Audio output power: 0.2W • SSB/DSB Demodulator • Supports fault simulation • Built in output speaker • Power supply requirements: +/-12VDC
SPECIFICATION
ABLELOGIC.COM.MY
1. Oscillator mode: Quartz crystal oscillator. 2. Carrier frequency range: 1 MHz, 4 MHz (SSB), 4.5 MHz (DSB). 3. Ability to transmit audio signal. 4. Frequency response: 400 Hz ~ 8 kHz. 5. SSB/DSB Modulator / Demodulator. 6. Built-in fault simulation switches using dip switches. 7. Clearly labeled mimic functional block diagram with built-in I/O test points
FEATURE:
AM/FM TRANSCEIVER AND RECEIVER TRAINING KIT
DONWLOAD DONWLOAD
MODEL: AM-6011/6012
PRODUCT MENU PRODUCT MENU
This training kit enable the user to: • To understand the basic structures and function of amplitude modulation    transmitter module • To understand the waveform, spectrum and modulation percentage of amplitude    modulation • To design and implement the AM/SSB/DSB transmitter • To study the method of measurement and adjustment of the amplitude modulation      transmitter • To understand the basic structures and function of amplitude modulation receiver    module • To understand the operation theory of diode and product detection amplitude    demodulation
DESCRIPTIONS :
1. Oscillator mode: Quartz crystal oscillator. 2. Carrier frequency range: 1 MHz, 4 MHz (SSB), 4.5 MHz (DSB). 3. Ability to transmit audio signal. 4. Frequency response: 400 Hz ~ 8 kHz. 5. SSB/DSB Modulator / Demodulator. 6. Built-in fault simulation switches using dip switches. 7. Clearly labeled mimic functional block diagram with built-in I/O test points
FEATURE:
A. Transmitter Specification: • Transmitter mode: Direct up conversion transmitter • Transmitted power: >0 dBm • Carrier-to-noise ratio: >100 dB • Tunable audio signal source (Audio signal frequency: 100Hz ~ 1 kHz) • High sensitivity microphone input • SSB/DSB Modulator • Supports fault simulation • Power supply requirements: +/-12VDC B. Receiver Specification: • Receiver mode: Super Heterodyne • Sensitivity: <-70 dBm • AM receiver carrier frequency: 565 kHz ~ 1605 kHz • Intermediate frequency: 455KHz • Audio output power: 0.2W • SSB/DSB Demodulator • Supports fault simulation • Built in output speaker • Power supply requirements: +/-12VDC
SPECIFICATION
1. User/Experiment Manual with worked experiments and theoretical explanation (x1) 2. Connecting lead set (x1) 3. Input Mic unit (x1) 4. Power Supply Unit (Input: 240VAC; Output +/- 12VDC; 0.5A)
PRODUCT ACCESSORIES