TI MCU Classification

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TI MCU Classification [Copy link]

Let's systematically sort out TI's mainstream MCU series in recent years.
According to the information currently given on TI's official website, TI's MCUs can be roughly divided into the following three series:

SimpleLink MCU
Ultra-low power MSP430MCU
C2000 real-time control MCU
Here we only briefly introduce SimpleLink MCU.

SimpleLink MCUs are roughly divided into two categories:

Wireless microcontroller, supporting multiple wireless communication protocols
High-performance microcontroller, MSP432 series microcontroller based on ARM Cortex-M4F
Wireless microcontroller
For ease of description, it is divided into the following categories:

Category 1: CC1310, CC1312R
Category 2: CC1350, CC1352P, CC1352R
Category 3: CC2640R2F, CC2640R2F-Q1
Category 4: CC2642R, CC2652R
Category 5: CC3200MOD, CC3220MOD
Category 1: CC1310, CC1312R
Common points:

Both have two cores, one of which is an ARM Cortex-M0, which is used for the wireless controller and can process low-level RF protocol commands stored in ROM or RAM.
Supports bandwidth below 1G frequency.
Differences:

The main processor of CC1310 is ARM Cortex-M3, with a clock of 48MHz, and features ultra-low power consumption.
The main processor of CC1312R is ARM Cortex-M4F, with a clock of 48MHz, and features high performance.
The second category: CC1350, CC1352P, CC1352R
have the following in common:

Both have two cores, one of which is an ARM Cortex-M0 for the wireless controller, which can process low-level RF protocol commands stored in ROM or RAM.
Supports dual-bandwidth: sub-1GHz, 2.4GHz.
Differences:

The main processor of CC1350 is ARM Cortex-M3, with a clock of 48MHz, and features ultra-low power consumption. The
main processor of CC1352P is ARM Cortex-M4F, with a clock of 48MHz, and features high performance, with an integrated power amplifier, suitable for long-distance applications.
The main processor of CC1352R is ARM Cortex-M4F, with a clock of 48MHz, and features high performance.
The third category: CC2640R2F, CC2640R2F-Q1
common points:

Both have two cores, one is ARM Cortex-M3 with a clock of 48MHz; the other is a 16-bit ultra-low power sensor controller. The feature is low power consumption.
Supports Bluetooth 4 and Bluetooth 5 protocols.
Differences:

Compared with CC2640R2F, CC2640R2F-Q1 meets automotive standards. Common points of
the fourth category CC2642R and CC2652R
:

Both have two cores, one is ARM Cortex-M4F with a clock of 48MHz; the other is ARM Cortex-M0, which is used for wireless controller and can process low-level RF protocol commands stored in ROM or RAM.
Differences:

CC2642R only supports Bluetooth 4 and Bluetooth 5 protocols.
CC2652R supports multiple protocols, including Zigbee, Bluetooth 5 low energy, IEEE 802.15.4g, smart objects with IPv6 (6LoWPAN), etc.
Category 5: CC3200MOD and CC3220MOD
have the following in common:

Wireless communication module supporting WIFI.
It is a module integrating two physical chips, one is MCU based on ARM Cortex-M4F with a clock of 48MHz; the other is network processor MCU.
High-performance microcontrollers
There are two main series:

MSP432P4: Based on the ARM Cortex-M4F core, the clock frequency is 24 to 48MHz, and the feature is low power consumption. MSP432E4
: Based on the ARM Cortex-M4F core, the clock frequency is 120MHz, and the feature is high performance; with Ethernet MAC and PHY.