MSP430F673X Datasheet, PDF(34/121 Page) Texas Instruments

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MSP430F673X Datasheet, PDF (34/121 Pages) Texas Instruments – MIXED SIGNAL MICROCONTROLLER

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MSP430F673x

MSP430F672x

SLAS731A â DECEMBER 2011 â REVISED APRIL 2012

www.ti.com

SD24_B Triggers

Table 22 shows the input trigger connections to SD24_B converters from Timer_A modules and output trigger

pulse connection from SD24_B to ADC10_A.

Table 22. SD24_B Input/Output Trigger Connections

DEVICE INPUT SIGNAL MODULE INPUT SIGNAL

TA0.1 (internal)

TA2.1 (internal)

TA3.1 (internal)

SD24_B

SD24SCSx = {1}

SD24_B

SD24SCSx = {2}

SD24_B

SD24SCSx = {3}

MODULE BLOCK

SD24_B

MODULE OUTPUT

SIGNAL

Trigger Pulse

DEVICE OUTPUT

SIGNAL

ADC10_A (internal)

ADC10SHSx = {3}

ADC10_A Triggers

Table 23 shows input trigger connections to ADC10_A from Timer_A modules and SD24_B.

DEVICE INPUT SIGNAL

TA0.1 (internal)

TA3.0 (internal)

SD24_B

trigger pulse (internal)

Table 23. ADC10_A Input Trigger Connections

MODULE INPUT SIGNAL

ADC10_A

ADC10SHSx = {1}

ADC10_A

ADC10SHSx = {2}

ADC10_A

ADC10SHSx = {3}

MODULE BLOCK

ADC10_A

Real-Time Clock (RTC_C)

The RTC_C module can be configured for real-time clock (RTC) or calendar mode providing seconds, hours, day

of week, day of month, month, and year. The RTC_C control and configuration registers are password protected

to ensure clock integrity against runaway code. Calendar mode integrates an internal calendar that compensates

for months with less than 31 days and includes leap year correction. The RTC_C also supports flexible alarm

functions, offset calibration, and temperature compensation. The RTC_C on this device operates on dedicated

AUXVCC3 supply and supports operation in LPM3.5.

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 ADC10_A, LCD_C, and SD24_B modules.

LCD_C

The LCD_C driver generates the segment and common signals required to drive a liquid crystal display (LCD).

The LCD_C 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, 4-mux, up to 8-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 in static, 2-mux, 3-mux, and 4-mux modes.

Embedded Emulation Module (EEM) (S Version)

The Embedded Emulation Module (EEM) supports real-time in-system debugging. The S version of the EEM

implemented on all devices has the following features:

â¢ Three hardware triggers or breakpoints on memory access

â¢ One hardware trigger or breakpoint on CPU register write access

â¢ Up to four hardware triggers can be combined to form complex triggers or breakpoints

â¢ One cycle counter

â¢ Clock control on module level

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