Difference between revisions of "Fake Cricket"
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A fake cricket is not a really useful application, but it is very simple to create and can be fun to drive people crazy. Or to hide and seek with children. | A fake cricket is not a really useful application, but it is very simple to create and can be fun to drive people crazy. Or to hide and seek with children. | ||
− | If you use a high-impedance speaker, it can be driven directly from the output pins of your microcontroller. A piezo element should also work, but might not give much output power with low voltages. | + | If you use a high-impedance speaker, it can be driven directly from the output pins of your microcontroller. A piezo element should also work, but might not give much output power with low voltages / low frequencies. |
For a low-impedance speaker a simple 'amplifier' (transistor) should work. | For a low-impedance speaker a simple 'amplifier' (transistor) should work. | ||
+ | |||
+ | Here is the Fake Cricket built in a cheap scan radio. | ||
+ | |||
+ | [[Image:cricket.jpg]] | ||
Tip: Instead of connecting your output speaker with one pin to VDD/VSS, more output can be generated by connecting with two output pins and alternating them. This trick seems to work, and I think it works because a speaker is current-driven. For a piezo, it doesn't matter, since a piezo is voltage-driven. | Tip: Instead of connecting your output speaker with one pin to VDD/VSS, more output can be generated by connecting with two output pins and alternating them. This trick seems to work, and I think it works because a speaker is current-driven. For a piezo, it doesn't matter, since a piezo is voltage-driven. | ||
Line 60: | Line 64: | ||
start: | start: | ||
movwf OSCCAL ; calibration bits | movwf OSCCAL ; calibration bits | ||
− | movlw 0 | + | movlw 0 ; set tris output |
tris GPIO | tris GPIO | ||
Line 83: | Line 87: | ||
none: | none: | ||
− | call secdelay | + | call secdelay ; which is in fact 8 secs |
goto mainloop | goto mainloop | ||
Line 163: | Line 167: | ||
end | end | ||
+ | [[Category:PIC]] | ||
+ | {{Comments}} |
Latest revision as of 00:20, 26 January 2011
A fake cricket is not a really useful application, but it is very simple to create and can be fun to drive people crazy. Or to hide and seek with children.
If you use a high-impedance speaker, it can be driven directly from the output pins of your microcontroller. A piezo element should also work, but might not give much output power with low voltages / low frequencies.
For a low-impedance speaker a simple 'amplifier' (transistor) should work.
Here is the Fake Cricket built in a cheap scan radio.
Tip: Instead of connecting your output speaker with one pin to VDD/VSS, more output can be generated by connecting with two output pins and alternating them. This trick seems to work, and I think it works because a speaker is current-driven. For a piezo, it doesn't matter, since a piezo is voltage-driven.
; File cricket.asm ; Assembly code for a 4MHz PIC12F509 microcontroller ; ; Description: Fake cricket sound for a 12F509 ; Author: Vincent ; Last Modified: 17 / 8 / 06 ; ; CPU configuration processor 12f509 __config _IntRC_OSC & _WDT_OFF & _MCLRE_OFF ;======================================= ; Configuration (FUSE) BIT Definitions ;======================================= _MCLRE_ON EQU 0FFFh _MCLRE_OFF EQU 0FEFh _CP_ON EQU 0FF7h _CP_OFF EQU 0FFFh _WDT_ON EQU 0FFFh _WDT_OFF EQU 0FFBh _LP_OSC EQU 0FFCh _XT_OSC EQU 0FFDh _IntRC_OSC EQU 0FFEh _ExtRC_OSC EQU 0FFFh ; 509 defs PCL equ H'02' STATUS equ H'03' OSCCAL equ H'05' GPIO equ H'06' Z equ H'02' ; variables CounterA equ H'1F' ; delay counter CounterB equ H'1E' ; delay counter CounterC equ H'1D' ; delay counter CounterD equ H'1C' ; delay counter ; statics aupin equ H'00' aupin2 equ H'01' ; Program org 0 ; start at address 0 start: movwf OSCCAL ; calibration bits movlw 0 ; set tris output tris GPIO mainloop: call freq4500 call freq4200 call freq4500 call freq4200 call freq4500 call freq4200 call freq4500 call freq4200 call freq4500 call freq4200 call freq4500 call freq4200 call freq4500 call freq4200 call freq4500 call freq4200 none: call secdelay ; which is in fact 8 secs goto mainloop ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; subs freq4200: ; freq loop should be 238 cycles to get 4200Hz movlw 0040h ; counter set for 11msec movwf CounterD loop42: bcf GPIO,aupin bsf GPIO,aupin2 call del42 bcf GPIO,aupin2 bsf GPIO,aupin call del42 decfsz CounterD,1 goto loop42 retlw 0 freq4500: ; freq loop should be 222 cycles to get 4500Hz movlw 002Dh ; counter set for 14msec movwf CounterD loop45: bcf GPIO,aupin bsf GPIO,aupin2 call del45 bcf GPIO,aupin2 bsf GPIO,aupin call del45 decfsz CounterD,1 goto loop45 retlw 0 ;;;;;;;;;; del42 movlw 0023h movwf CounterA loop4 decfsz CounterA,1 goto loop4 retlw 0 ;;;;;;;;;;; del45 movlw 0026h movwf CounterA loop5 decfsz CounterA,1 goto loop5 retlw 0 secdelay ; insert picloops code here ;PIC Time Delay = 8,0000040 s with Osc = 4,000000 MHz movlw D'41' movwf CounterC movlw D'190' movwf CounterB movlw D'87' movwf CounterA sloop decfsz CounterA,1 goto sloop decfsz CounterB,1 goto sloop decfsz CounterC,1 goto sloop retlw 0 end