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Texas Instruments has gathered specific resources about our product groups into an easily searchable format. Specific areas for DSP, Analog, and Logic parts give you the fastest access to technical answers. more
 
  
MSP430: Stabilizing the DCO in the Basic Clock module of the MSP430

Problem:
Is it possible to get a stable frequency from the 
internal high speed digitally controlled oscillator (DCO) 
on MSP430x1xx devices that have the Basic Clock module 
without the frequency locked loop (FLL)?
Solution:
The DCO frequency can be calibrated and set to a specific 
frequency with compensation for changes in voltage, temperature, 
and differences between parts. Generally a low speed crystal or 
external signal is used for this purpose by comparing the number
of high speed DCO clock cycles that occur during one cycle of the
low speed reference frequency. Using software, Basic Clock control 
registers are adjusted to set the DCO to the desired frequency 
multiple of the slower crystal or signal. The device datasheet 
details the operating range of the DCO. The MSP430x1xx User`s Guide 
provides details of the Basic Clock. 

Example code and application reports that demonstrates the setting 
of the DCO are available from the MSP430 website.



Disclaimer
In the event that information received from the TI Semiconductor Technical Support KnowledgeBase conflicts with written documentation that was supplied by TI or originated from TI, then the information in the written documentation prevails and should be used.

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Last Query: MSP430 (TM) Low Power Microcontroller

Session Log:
New Knowledge Server Session
Knowledge Base: dsp
Problem Selected
MSP430 (TM) Low Power Microcontroller
Solution (case) Considered
MSP430: Information sources for the MSP430 ADC12 module
Solution (case) Considered
MSP430: Operating the MSP430 from crystal frequencies other than 32.768kHz
Solution (case) Considered
MSP430: Sink and source current of MSP430 I/O pins
Solution (case) Considered
MSP430: Sink and source current of MSP430 I/O pins
Problem Selected
MSP430 (TM) Low Power Microcontroller
Solution (case) Considered
MSP430: Processing of multiple simultaneously occuring external interrupts
Solution (case) Considered
MSP430: Use of flash block write (BLKWRT) mode on the MSP430
Solution (case) Considered
MSP430: Termination for the ADC12 reference pins on the MSP430.
Solution (case) Considered
MSP430: Stabilizing the DCO in the Basic Clock module of the MSP430
Solution (case) Considered
MSP430: Multiplexing of MSP430 pins between JTAG and I/O functions
Solution (case) Considered
MSP430: Information sources for the MSP430 ADC12 module
Solution (case) Considered
MSP430: Termination for the ADC12 reference pins on the MSP430.
Solution (case) Considered
MSP430: Sink and source current of MSP430 I/O pins
Solution (case) Considered
MSP430: Processing of multiple simultaneously occuring external interrupts
Solution (case) Considered
MSP430: Multiplexing of MSP430 pins between JTAG and I/O functions
Solution (case) Considered
MSP430: Stabilizing the DCO in the Basic Clock module of the MSP430
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