CC2541F128RHAR Datasheet, PDF(20/32 Page) Texas Instruments – 2.4-GHz Bluetooth™ low energy and Proprietary System-on-Chip

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CC2541F128RHAR Datasheet, PDF (20/32 Pages) Texas Instruments – 2.4-GHz Bluetooth™ low energy and Proprietary System-on-Chip

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CC2541

SWRS110D â JANUARY 2012 â REVISED JUNE 2013

www.ti.com

Timer 1 is a 16-bit timer with timer/counter/PWM functionality. It has a programmable prescaler, a 16-bit period

value, and five individually programmable counter/capture channels, each with a 16-bit compare value. Each of

the counter/capture channels can be used as a PWM output or to capture the timing of edges on input signals. It

can also be configured in IR generation mode, where it counts timer 3 periods and the output is ANDed with the

output of timer 3 to generate modulated consumer IR signals with minimal CPU interaction.

Timer 2 is a 40-bit timer. It has a 16-bit counter with a configurable timer period and a 24-bit overflow counter

that can be used to keep track of the number of periods that have transpired. A 40-bit capture register is also

used to record the exact time at which a start-of-frame delimiter is received/transmitted or the exact time at which

transmission ends. There are two 16-bit output compare registers and two 24-bit overflow compare registers that

can be used to give exact timing for start of RX or TX to the radio or general interrupts.

Timer 3 and timer 4 are 8-bit timers with timer/counter/PWM functionality. They have a programmable prescaler,

an 8-bit period value, and one programmable counter channel with an 8-bit compare value. Each of the counter

channels can be used as PWM output.

USART 0 and USART 1 are each configurable as either an SPI master/slave or a UART. They provide double

buffering on both RX and TX and hardware flow control and are thus well suited to high-throughput full-duplex

applications. Each USART has its own high-precision baud-rate generator, thus leaving the ordinary timers free

for other uses. When configured as SPI slaves, the USARTs sample the input signal using SCK directly instead

of using some oversampling scheme, and are thus well-suited for high data rates.

The AES encryption/decryption core allows the user to encrypt and decrypt data using the AES algorithm with

128-bit keys. The AES core also supports ECB, CBC, CFB, OFB, CTR, and CBC-MAC, as well as hardware

support for CCM.

The ADC supports 7 to 12 bits of resolution with a corresponding range of bandwidths from 30-kHz to 4-kHz,

respectively. DC and audio conversions with up to eight input channels (I/O controller pins) are possible. The

inputs can be selected as single-ended or differential. The reference voltage can be internal, AVDD, or a single-

ended or differential external signal. The ADC also has a temperature-sensor input channel. The ADC can

automate the process of periodic sampling or conversion over a sequence of channels.

The I2C module provides a digital peripheral connection with two pins and supports both master and slave

operation. I2C support is compliant with the NXP I2C specification version 2.1 and supports standard mode (up to

100 kbps) and fast mode (up to 400 kbps). In addition, 7-bit device addressing modes are supported, as well as

master and slave modes.

The ultralow-power analog comparator enables applications to wake up from PM2 or PM3 based on an analog

signal. Both inputs are brought out to pins; the reference voltage must be provided externally. The comparator

output is connected to the I/O controller interrupt detector and can be treated by the MCU as a regular I/O pin

interrupt.

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