CC430F613X_12 Datasheet, PDF(27/121 Page) Texas Instruments

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CC430F613X_12 Datasheet, PDF (27/121 Pages) Texas Instruments – MSP430™ SoC with RF Core

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ECCN 5E002 TSPA - Technology / Software Publicly Available

CC430F613x

CC430F612x

CC430F513x

SLAS554F â MAY 2009 â REVISED DECEMBER 2011

TA1

TA1 is a 16-bit timer/counter (Timer_A type) with three capture/compare registers. TA1 can support multiple

capture/compares, PWM outputs, and interval timing. TA1 also has extensive interrupt capabilities. Interrupts

may be generated from the counter on overflow conditions and from each of the capture/compare registers.

Table 14. TA1 Signal Connections

DEVICE INPUT SIGNAL MODULE INPUT NAME

PM_TA1CLK

ACLK (internal)

SMCLK (internal)

RFCLK/192 (1)

PM_TA1CCR0A

RF Async. Output

(internal)

DVSS

DVCC

PM_TA1CCR1A

CBOUT (internal)

DVSS

DVCC

PM_TA1CCR2A

ACLK (internal)

DVSS

DVCC

TACLK

ACLK

SMCLK

INCLK

CCI0A

CCI0B

GND

VCC

CCI1A

CCI1B

GND

VCC

CCI2A

CCI2B

GND

VCC

MODULE BLOCK

Timer

CCR0

CCR1

CCR2

MODULE OUTPUT

SIGNAL

DEVICE OUTPUT

SIGNAL

PM_TA1CCR0A

RF Async. Input (internal)

TA0

PM_TA1CCR1A

TA1

PM_TA1CCR2A

TA2

(1) If a different RFCLK divider setting is selected for a radio GDO output, this divider setting is also used for the Timer_A INCLK.

Real-Time Clock (RTC_A)

The RTC_A module can be used as a general-purpose 32-bit counter (counter mode) or as an integrated

real-time clock (RTC) (calendar mode). In counter mode, the RTC_A also includes two independent 8-bit timers

that can be cascaded to form a 16-bit timer/counter. Both timers can be read and written by software. Calendar

mode integrates an internal calendar which compensates for months with less than 31 days and includes leap

year correction. The RTC_A also supports flexible alarm functions and offset-calibration hardware.

REF Voltage Reference

The reference module (REF) is responsible for generation of all critical reference voltages that can be used by

the various analog peripherals in the device. These include the ADC12_A, LCD_B, and COMP_B modules.

LCD_B (Only CC430F613x and CC430F612x)

The LCD_B driver generates the segment and common signals required to drive a Liquid Crystal Display (LCD).

The LCD_B controller has dedicated data memories to hold segment drive information. Common and segment

signals are generated as defined by the mode. Static, 2-mux, 3-mux, and 4-mux LCDs are supported. The

module can provide a LCD voltage independent of the supply voltage with its integrated charge pump. It is

possible to control the level of the LCD voltage and thus contrast by software. The module also provides an

automatic blinking capability for individual segments.

Comparator_B

The primary function of the Comparator_B module is to support precision slope analog-to-digital conversions,

battery voltage supervision, and monitoring of external analog signals.

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