Your task is to write code to implement a two-tone siren using the QUTy. You must use one of the Waveform Outputs of TCA0 to drive the buzzer. The buzzer should always be driven with a 50% duty cycle signal. Your siren must alternate between the following frequencies: f1 = 2110 Hz with f1 active for t1 = 370 ms f2 = 4960 Hz with f2 active for t2 = 630 ms main() will call the init() function you write below and then drop into an infinite loop. The init() function you write MUST return to demonstrate your code is interrupt driven. In addition to init(), you may write any code you wish in this file, including ISRs. // NOTe: make sure to use the buffered versions of the CMP/PER registers //! NOTE: DO not use _delay_ms or _delay_us, we want you to do the math //! yourself and make your program interrupt driven
Your task is to write code to implement a two-tone siren using the QUTy. You must use one of the Waveform Outputs of TCA0 to drive the buzzer. The buzzer should always be driven with a 50% duty cycle signal. Your siren must alternate between the following frequencies: f1 = 2110 Hz with f1 active for t1 = 370 ms f2 = 4960 Hz with f2 active for t2 = 630 ms main() will call the init() function you write below and then drop into an infinite loop. The init() function you write MUST return to demonstrate your code is interrupt driven. In addition to init(), you may write any code you wish in this file, including ISRs. // NOTe: make sure to use the buffered versions of the CMP/PER registers //! NOTE: DO not use _delay_ms or _delay_us, we want you to do the math //! yourself and make your program interrupt driven
Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
Problem 1PE
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Question
Your task is to write code to implement a two-tone siren
using the QUTy. You must use one of the Waveform Outputs
of TCA0 to drive the buzzer. The buzzer should always
be driven with a 50% duty cycle signal.
Your siren must alternate between the following frequencies:
f1 = 2110 Hz with f1 active for t1 = 370 ms
f2 = 4960 Hz with f2 active for t2 = 630 ms
main() will call the init() function you write below
and then drop into an infinite loop. The init() function
you write MUST return to demonstrate your code is
interrupt driven.
In addition to init(), you may write any code you wish
in this file, including ISRs.
// NOTe: make sure to use the buffered versions of the CMP/PER registers
//! NOTE: DO not use _delay_ms or _delay_us, we want you to do the math
//! yourself and make your program interrupt driven
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Could not identify at least three time intervals with different frequency outputs from buzzer.
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