ATA5743 ATA5743 UHF ASK/FSK Receiver
The ATA5760 and ATA5761 devices feature a phase-locked loop (PLL) architecture that allows for stable frequency reception and demodulation of incoming signals. The SO20 package facilitates compact integration into various circuit designs, making these receivers suitable for space-constrained applications. The PLL technology employed in these devices ensures that they can effectively lock onto the desired frequency, providing reliable data reception even in environments with potential signal interference.
In terms of functionality, the ATA5760 and ATA5761 support both Manchester and Bi-phase encoding schemes, which are commonly used in low-data-rate communication systems. This flexibility allows for adaptation to different communication protocols, enhancing the versatility of the devices in various applications. The maximum data rate of 10 kBaud enables efficient transmission of telemetry data, making these receivers ideal for remote monitoring and control systems.
The compatibility with the T5750 PLL RF transmitter is a significant advantage, as it allows for seamless integration within a complete RF communication system. This combination can be utilized in various fields, including industrial automation, security systems, and telemetering applications, where reliable and cost-effective data transmission is essential.
Overall, the ATA5760 and ATA5761 multi-chip PLL receivers represent a robust solution for low-cost RF data transmission, offering a combination of flexibility, compatibility, and performance suitable for modern electronic communication needs.The ATA5760 ATA5761 is a multi-chip PLL receiver device supplied in an SO20 pack- age. It has been especially developed for the demands of RF low-cost data transmission systems with data rates from 1 kBaud to 10 kBaud in Manchester or Bi-phase code. The receiver is well suited to operate with the Atmels PLL RF trans mitter T5750. Its main applicat ions are in the areas of telemetering, security By ATMEL Corporation 🔗 External reference
Related Circuits
This set of two circuits forms the basis for a simple light wave transmitter. A laser beam is modulated and directed toward a receiver that demodulates the signal, subsequently presenting the information (voice, data, etc.). The assembly is straightforward and...
The following circuit illustrates an AM receiver capable of operating within the frequency range of 550 to 1100 KHz. Features include adjustments for sensitivity and selectivity of the circuit. The AM receiver circuit designed for the frequency range of 550...
The circuit demonstrates the application of the ZN414 integrated circuit (IC) to create a compact AM radio receiver. The ZN414 IC is a combination of a transistor and a tuned radio frequency (TRF) circuit. The ZN414 IC is specifically designed...
40-meter Direct Conversion Receiver. Using the circuit of a 40-meter band direct-conversion receiver described here, one can listen to amateur radio QSO signals in both CW and SSB modes. The 40-meter direct conversion receiver is designed to facilitate the reception...
Many audio systems consist of separate units, where typically only the amplifier is equipped with a remote control receiver module for economic reasons. Control signals are then transmitted to other units using patch cables. For instance, the tuner and...
The three-transistor circuit costs less than $10 to build, uses commonly available components, and consumes less than 10 mA from a single 9V battery. By winding coil L1 as shown, the circuit can receive signals in the 5 to...