CC1310_16 Datasheet, PDF(33/54 Page) Texas Instruments – SimpleLink Ultralow Power Sub-1-GHz Wireless MCU

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

CC1310_16 Datasheet, PDF (33/54 Pages) Texas Instruments – SimpleLink Ultralow Power Sub-1-GHz Wireless MCU

◁

www.ti.com

CC1310

SWRS181B â SEPTEMBER 2015 â REVISED OCTOBER 2015

The Sensor Controller is an autonomous processor that can control the peripherals in the Sensor

Controller independently of the main CPU. This means that the main CPU does not have to wake up, for

example to execute an ADC sample or poll a digital sensor over SPI, thus saving both current and wake-

up time that would otherwise be wasted. The Sensor Controller Studio enables the user to configure the

Sensor Controller and to choose which peripherals are controlled and which conditions wake up the main

CPU.

6.8 Clock Systems

The CC1310 supports two external and two internal clock sources.

A 24-MHz external crystal is required as the frequency reference for the radio. This signal is doubled

internally to create a 48-MHz clock.

The 32.768-kHz crystal is optional. The low-speed crystal oscillator is designed for use with a 32.768-kHz

watch-type crystal.

The internal high-speed RC oscillator (48-MHz) can be used as a clock source for the CPU subsystem.

The internal low-speed RC oscillator (32-kHz) can be used as a reference if the low-power crystal

oscillator is not used.

The 32-kHz clock source can be used as external clocking reference through GPIO.

6.9 General Peripherals and Modules

The I/O controller controls the digital I/O pins and contains multiplexer circuitry to allow a set of peripherals

to be assigned to I/O pins in a flexible manner. All digital I/Os are interrupt and wake-up capable, have a

programmable pullup and pulldown function, and can generate an interrupt on a negative or positive edge

(configurable). When configured as an output, pins can function as either push-pull or open-drain. Five

GPIOs have high-drive capabilities, which are marked in bold in Section 4.

The SSIs are synchronous serial interfaces that are compatible with SPI, MICROWIRE, and Texas

Instruments' synchronous serial interfaces. The SSIs support both SPI master and slave up to 4 MHz.

The UART implements a universal asynchronous receiver and transmitter function. It supports flexible

baud-rate generation up to a maximum of 3 Mbps.

Timer 0 is a general-purpose timer module (GPTM) that provides two 16-bit timers. The GPTM can be

configured to operate as a single 32-bit timer, dual 16-bit timers, or as a PWM module.

Timer 1, Timer 2, and Timer 3 are also GPTMs. Each of these timers is functionally equivalent to Timer 0.

In addition to these four timers, the RF core has its own timer to handle timing for RF protocols; the RF

timer can be synchronized to the RTC.

The I2S interface is used to handle digital audio see the CC13xx, CC26xx SimpleLinkâ¢ Wireless MCU

Technical Reference Manual (SWCU117) for more information.

The I2C interface is used to communicate with devices compatible with the I2C standard. The I2C interface

can handle 100 kHz and 400 kHz operation, and can serve as both I2C master and I2C slave.

The TRNG module provides a true, nondeterministic noise source for the purpose of generating keys,

initialization vectors (IVs), and other random number requirements. The TRNG is built on 24 ring

oscillators that create unpredictable output to feed a complex nonlinear-combinatorial circuit.

The watchdog timer is used to regain control if the system fails due to a software error after an external

device fails to respond as expected. The watchdog timer can generate an interrupt or a reset when a

predefined time-out value is reached.

Submit Documentation Feedback

Product Folder Links: CC1310

Detailed Description

▷