Please read your package and describe it at least 40 bytes.
System will automatically delete the directory of debug and release, so please do not put files on these Two directory.
This is program with source code to convert ascii text files to the maxicode barcode standard.
The input file consists of Two columns. The first column represents a code and the second column is a string enclosed in quotes. The
codes for the first column are as follows: PM, SM, CC, MO, SC, and PC.
Please read your package and describe it at least 40 bytes.
System will automatically delete the directory of debug and release, so please do not put files on these Two directory.
Please read your package and describe it at least 40 bytes.
System will automatically delete the directory of debug and release, so please do not put files on these Two directory.
Please read your package and describe it at least 40 bytes.
System will automatically delete the directory of debug and release, so please do not put files on these Two directory.
This tutorial explains how to communicate with IO devices on the DE2 Board and how to deal with interrupts using C and the Altera Monitor Program. Two example programs are given that diplay the state of the toggle switches on the red LEDs. The fi rst program uses the programmed I/O approach and the second program uses interrupts.
Please read your package and describe it at least 40 bytes.
System will automatically delete the directory of debug and release, so please do not put files on these Two directory
Please read your package and describe it at least 40 bytes.
System will automatically delete the directory of debug and release, so please do not put files on these Two directory
This application report discusses the design of non-invasive optical plethysmography
also called as pulsoximeter using the MSP430FG437 Microcontroller (MCU). The
pulsoximeter consists of a peripheral probe combined with the MCU displaying the
oxygen saturation and pulse rate on a LCD glass. The same sensor is used for both
heart-rate detection and pulsoximetering in this application. The probe is placed on a
peripheral point of the body such as a finger tip, ear lobe or the nose. The probe
includes Two light emitting diodes (LEDs), one in the visible red spectrum (660nm) and
the other in the infrared spectrum (940nm). The percentage of oxygen in the body is
worked by measuring the intensity from each frequency of light after it transmits
through the body and then calculating the ratio between these Two intensities.