Precise On-Board Tuning of Embedded Microcontroller Oscillator Using Charge Time Measurement Unit

A technology of charging time and measuring unit, which is applied in the direction of automatic control of power, electrical components, radio frequency circuit testing, etc.

Active Publication Date: 2017-03-08
MICROCHIP TECH INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But there is a problem because the internal self-contained RC oscillator can drift in frequency, even if the oscillator is precisely calibrated when the integrated circuit device is manufactured

Method used

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  • Precise On-Board Tuning of Embedded Microcontroller Oscillator Using Charge Time Measurement Unit
  • Precise On-Board Tuning of Embedded Microcontroller Oscillator Using Charge Time Measurement Unit
  • Precise On-Board Tuning of Embedded Microcontroller Oscillator Using Charge Time Measurement Unit

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Embodiment Construction

[0021] In accordance with the teachings of the present invention, a Charge Time Measurement Unit (CTMU) is used to determine the free-running frequency of the internal self-contained clock oscillator and provide a means for confirming that the desired precise clock frequency (e.g., within 0.25% of said desired frequency) is running. Very accurate frequency (period) information of operation or an indication of how much and in which direction to adjust the frequency of a clock oscillator to maintain the desired frequency accuracy. Automatic frequency adjustment of the internal self-contained clock oscillator can be implemented to maintain its desired precise frequency. The temperature and voltage compensation profiles used to maintain the accuracy of the CTMU can be stored in a table (eg, non-volatile memory) for further improving the absolute frequency accuracy of the internal self-contained clock oscillator.

[0022] The CTMU is more fully described in Microchip applications n...

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Abstract

Accurate measurement of the period of the embedded clock oscillator using the charge time measurement unit CTMU maintains the desired frequency accuracy of the embedded clock oscillator over time, temperature, and operating condition variations. The CTMU determines the free-running frequency of the embedded clock oscillator and provides very accurate frequency (period) information used to confirm that the desired frequency (e.g., within 0.25% of the desired frequency) is running or convert the clock to An indication of how much and in which direction the frequency of an oscillator is adjusted to maintain the desired frequency accuracy. Automatic frequency adjustment of the embedded clock oscillator can be implemented in order to maintain its desired precise frequency. The temperature and voltage compensation profiles used to maintain the accuracy of the CTMU may be stored in a table, such as in non-volatile memory, for further improving the absolute frequency accuracy of the embedded clock oscillator .

Description

technical field [0001] The present invention relates to integrated circuit devices requiring a precision clock oscillator, and more particularly to integrated circuit devices having a precision clock oscillator integrated with the integrated circuit device. Background technique [0002] As integrated circuit devices incorporate more sophisticated and complex peripheral devices, precise run-time control of internal clock oscillators is required. For example, USB2.0 integrated peripherals must meet a clock frequency accuracy of 0.25%. A typical application will have to use an external crystal to control the clock frequency within the stated accuracy. However, an external crystal frequency determination device requires two integrated circuit pins for connection to the internal oscillator circuit in said integrated circuit device. This poses a problem for low pin count integrated circuit devices since two of the very few package pins must be dedicated to the external crystal. ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H03L7/00
CPCG01R31/2824H03L1/026
Inventor 索努·达里亚纳尼弗朗克·齐根霍恩
Owner MICROCHIP TECH INC
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