ADUC7020 (5)
ADUC7020 is available from Analog Devices Inc. Inc. at Xecor. Designed for precision analog control and data acquisition, the ADUC7020 offers a 12-bit, 1 MSPS multichannel ADC, up to 16 ADC channels, and 12-bit voltage output DACs, along with an ARM7® MCU for robust processing capabilities. Available in a compact 40-LFCSP-VQ (6x6) package, it is ideal for industrial control and automation systems, smart sensors, and base station systems. Whether used in optical networking or precision instrumentation, this series ensures high performance, flexibility, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices Inc. Inc.. Please view our extensive selection of the ADUC7020 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| ADUC7020BCPZ62 | MCU 16-bit/32-bit ARM7TDMI RISC 62KB Flash 3.3V 40-Pin LFCSP EP Tray | VFQFN-40 | 8,916 | |
| ADUC7020BCPZ62I | 16/32-bit ARM7TDMI RISC Microcontroller with 62KB Flash, 3.3V, 40-Pin LFCSP EP Tray | LFCSP-40 | 6,239 | |
| ADUC7020BCPZ62I-RL | Robust and reliable analog microcontroller for harsh environments and mission-critical systems | LFCSP-40 | 8,395 | |
| ADUC7020BCPZ62-RL7 | MCU 16-bit/32-bit ARM7TDMI RISC 62KB Flash 3.3V 40-Pin LFCSP EP T/R | VFQFN-40 | 8,505 | |
| ADUC7020BCPZ62IRL7 | MCU 16-bit/32-bit ARM7TDMI RISC 62KB Flash 3.3V 40-Pin LFCSP EP T/R | LFCSP-40 | 5,291 |
Key Featrues
High-Performance Multichannel ADC: The ADuC7020 features a 12-bit, 1 MSPS ADC with up to 16 channels, enabling precise and rapid data acquisition. This enhances performance in applications requiring high-speed and accurate analog signal processing, such as industrial automation and smart sensors.
Integrated ARM7TDMI® MCU: The inclusion of a 16/32-bit ARM7TDMI microcontroller core operating at 44MHz provides robust computational power and flexibility. This improves efficiency in complex control tasks and supports advanced connectivity options like I2C, SPI, and UART/USART.
On-Chip Voltage Reference and Temperature Sensor: The built-in voltage reference and temperature sensor (±3°C accuracy) eliminate the need for external components, reducing system complexity and cost. This is particularly beneficial in precision instrumentation and environmental monitoring applications.
Multiple 12-bit DAC Outputs: With up to 4 DAC outputs, the ADuC7020 offers precise analog signal generation, making it ideal for applications like motor control and audio processing. This feature enhances system versatility and reduces the need for additional external DACs.
Wide Operating Temperature Range: The device operates reliably from -40°C to 125°C, ensuring robust performance in harsh environments. This makes it suitable for industrial control systems, automotive applications, and other use cases requiring extreme temperature resilience.
Integrated ARM7TDMI® MCU: The inclusion of a 16/32-bit ARM7TDMI microcontroller core operating at 44MHz provides robust computational power and flexibility. This improves efficiency in complex control tasks and supports advanced connectivity options like I2C, SPI, and UART/USART.
On-Chip Voltage Reference and Temperature Sensor: The built-in voltage reference and temperature sensor (±3°C accuracy) eliminate the need for external components, reducing system complexity and cost. This is particularly beneficial in precision instrumentation and environmental monitoring applications.
Multiple 12-bit DAC Outputs: With up to 4 DAC outputs, the ADuC7020 offers precise analog signal generation, making it ideal for applications like motor control and audio processing. This feature enhances system versatility and reduces the need for additional external DACs.
Wide Operating Temperature Range: The device operates reliably from -40°C to 125°C, ensuring robust performance in harsh environments. This makes it suitable for industrial control systems, automotive applications, and other use cases requiring extreme temperature resilience.
Applications
Industrial Control and Automation: The ADuC7020 is ideal for directly digitizing signals from high-impedance sensors, such as thermocouples, strain gauges, or pH sensors. Its 12-bit ADC and integrated ARM7TDMI® MCU ensure accurate measurements and real-time processing, making it suitable for precision control applications in industrial automation environments.
Smart Sensor Interface: The ADuC7020 is perfect for interfacing with smart sensors, such as temperature, pressure, or humidity sensors. Its multichannel 12-bit ADC and on-chip temperature sensor enable precise data acquisition and monitoring, making it ideal for IoT and smart sensor applications in environmental and industrial systems.
Base Station Signal Processing: The ADuC7020 is well-suited for base station systems, where it can digitize and process signals from RF and optical sensors. Its high-speed 1 MSPS ADC and integrated DACs ensure accurate signal conversion and modulation, making it ideal for telecommunications and networking applications.
Precision Instrumentation: The ADuC7020 is ideal for precision instrumentation, such as medical devices or laboratory equipment. Its 12-bit analog I/O, on-chip voltage reference, and temperature sensor enable high-accuracy measurements, making it suitable for applications requiring reliable and precise data acquisition.
Smart Sensor Interface: The ADuC7020 is perfect for interfacing with smart sensors, such as temperature, pressure, or humidity sensors. Its multichannel 12-bit ADC and on-chip temperature sensor enable precise data acquisition and monitoring, making it ideal for IoT and smart sensor applications in environmental and industrial systems.
Base Station Signal Processing: The ADuC7020 is well-suited for base station systems, where it can digitize and process signals from RF and optical sensors. Its high-speed 1 MSPS ADC and integrated DACs ensure accurate signal conversion and modulation, making it ideal for telecommunications and networking applications.
Precision Instrumentation: The ADuC7020 is ideal for precision instrumentation, such as medical devices or laboratory equipment. Its 12-bit analog I/O, on-chip voltage reference, and temperature sensor enable high-accuracy measurements, making it suitable for applications requiring reliable and precise data acquisition.
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