Hi @rose2024cff
The CC1310F128RSMR is a chip. The CC1310F128RSMR is a Sub-1 GHz wireless microcontroller unit (MCU) chip developed by Texas Instruments. It belongs to the SimpleLink wireless MCU family.
The CC1310F128RSMR is a highly integrated system-on-chip (SoC) that combines an ARM Cortex-M3 processor for application code, a sensor controller for ultra-low power operation, and a Sub-1 GHz RF transceiver. It is designed for long-range, low-power wireless communication. The chip supports multiple Sub-1 GHz communication protocols including proprietary protocols, IEEE 802.15.4g, Wireless M-Bus, SIGFOX, 6LoWPAN, and Mioty. It operates in ISM frequency bands such as 315, 433, 470, 868, and 915 MHz depending on regional regulations.
Key features to support of the CC1310F128RSMR include:
- ARM Cortex-M3 CPU running up to 48 MHz
- 128 KB Flash memory and 20 KB SRAM
- Ultra-low power sensor controller for continuous monitoring with minimal energy use
- Integrated RF transceiver for Sub-1 GHz communication
- On-chip peripherals like ADC, timers, serial interfaces (UART, SPI, I2C)
- Designed for IoT applications such as smart meters, building automation, wireless alarms, and sensor networks.
Features of DCAClab:
The CC1310F128RSMR is not available as a built-in component in the DCAClab circuit simulator. If a user wants to study or simulate this chip inside DCAClab, there are two options:
- The user can work with another available chip in DCAClab that is functionally similar for general circuit design and testing.
- The user can design a custom IC using the IC Creator feature in DCAClab. By writing an NGSpice subcircuit (.subckt) code that models the CC1310F128RSMR or at least part of its functionality, the user can add it as a new IC and then run simulations.
However, users who want to experiment with similar functionality can either use alternative chips already present in DCAClab for testing, or create a custom IC model with the IC Creator tool. By writing NGSpice subcircuit code, users can simulate the basic or extended behavior of the CC1310F128RSMR. In this way, DCAClab allows flexibility for learning and experimenting, even with components that are not officially included in its library.