65 Royalty-Free Audio Tracks for "Code. Beep"

Written by Charlie Poole (1892-1930). Performed by Charlie Poole (vocals, 5 string banjo), Posey Rorer (fiddle), Roy Harvey (guitar).

It's a sound that i created with a patch i made in pure-data (my first patch btw). Completely random frequencies in completely random space imaging. Merge with au "fm" sound where the index modulation change randomly, the carrier tone and the modular tone also change randomly. I applied a random delay. . . . So random random!.

I'm activating an alarm system, typing in the passcode, you can hear 4 beeps. Recorded with edirol r-1 & sennheiser me66. .

You can use this sound in any project you want for free, but please also consider supporting me via patreon (1$) : https://bit. Ly/patreon22.

Bar-code scanner beep.

The sound of a bar code scanner beeping. -blp.

Short beep of my laptop recorded with a sony l3.

I made a small python program that generates 20 random beeps. I record the outcome. I cut the result so that the first beep starts after 0. 01 secthe file ends right after the last beep. (i'm a python noob. . . If you find something you don’t like in the code please let me know. ). # gis_sweden 20170531 - random beep in python :-)import winsoundimport randomimport timebeepnr = 1. While beepnr < 21:freq = random. Randrange(1000)+110dur1 = random. Randrange(700)+20dur2 = random. Randrange(10)+2winsound. Beep (freq, dur1)time. Sleep(dur2/10)print 'beep number', beepnrbeepnr = beepnr + 1.

I made a small python program that generates 20 random beeps. I record the outcome. I cut the result so that the first beep starts after 0. 01 secthe file ends right after the last beep. (i'm a python noob. . . If you find something you don’t like in the code please let me know. ). # gis_sweden 20170531 - random beep in python :-)import winsoundimport randomimport timebeepnr = 1. While beepnr < 21:freq = random. Randrange(1000)+110dur1 = random. Randrange(700)+20dur2 = random. Randrange(10)+2winsound. Beep (freq, dur1)time. Sleep(dur2/10)print 'beep number', beepnrbeepnr = beepnr + 1.

I made a small python program that generates 20 random beeps. I record the outcome. I cut the result so that the first beep starts after 0. 01 secthe file ends right after the last beep. (i'm a python noob. . . If you find something you don’t like in the code please let me know. ). # gis_sweden 20170531 - random beep in python :-)import winsoundimport randomimport timebeepnr = 1. While beepnr < 21:freq = random. Randrange(1000)+110dur1 = random. Randrange(700)+20dur2 = random. Randrange(10)+2winsound. Beep (freq, dur1)time. Sleep(dur2/10)print 'beep number', beepnrbeepnr = beepnr + 1.

To heat a cup of water for instant coffee, one must open and close the door, set the run time and then remove the cup. I spared you the 66 second wait and the sound of the cat scratching in the litter box nearby.

I made a small python program that generates 20 random beeps. I record the outcome. I cut the result so that the first beep starts after 0. 01 secthe file ends right after the last beep. (i'm a python noob. . . If you find something you don’t like in the code please let me know. ). In this sound i have joined three "beep files". Sound 1 panned to the leftsound 2 in the centersound 3 panned to the right. # gis_sweden 20170531 - random beep in python :-)import winsoundimport randomimport timebeepnr = 1. While beepnr < 21:freq = random. Randrange(1000)+110dur1 = random. Randrange(700)+20dur2 = random. Randrange(10)+2winsound. Beep (freq, dur1)time. Sleep(dur2/10)print 'beep number', beepnrbeepnr = beepnr + 1.

I recorded this for an animated sequence i was doing that involved a bucket truck. I recorded a truck parked in a garage starting its motor, pulling out of the building, driving back into the building, stopping, hitting the air brakes and idling, backing up with backing beeps, idling again, and then honking its horn while pulling back out of the building. The truck circles the building again, pulls back in, hits the air brakes one more time and then cuts the motor.

Electromagnetic, electronic, electricity, electric, energy, interference, digital, digital elements, technology, computer, experimental, noise, voltage, interference, static, hum, buzz, buzzing, buzzes, beep, beeping, dot, dit, morse, morse code, geiger counter, radiation, sweep, frequency, science fiction, sci-fi, futuristic, future, robotic, robot.

Start sound of mac ii iix iicx iici se/30. Create by dissessemble rom code and use wave table algorithm write c program write wav file. C program below:. /* mac_ii. C *//* boot beep mac ii *//* 2558/09/06 */. #include. #define knumber_samples 30000#define kdelay_note 300#define kwave_table_value 0x30013f10#define ksample_rate 22257 // hz. Void preparewavetable( unsigned short *wavetable, unsigned int value );void updatewavetable( unsigned short *wavetable, unsigned short chiso );void savesound( char *filename, short *sounddata, unsigned int numberframes, unsigned int samplerate );. Int main () {. // ---- wave tableunsigned short wavetable[256];// ---- sound data, stereoshort sounddata[knumber_samples << 1];// ---- increment array (16/16 bit fix point integer)int arrayincrement[] = {3 << 16, 4 << 16, (3 << 16) + 0x2f2, 6 << 16};// ---- prepare wave tablepreparewavetable( wavetable, kwave_table_value );. // ---- array phase (16/16 bit fix point integer)unsigned int arrayphase[] = {0, 0, 0, 0}; // set all = 0. Unsigned int samplenumber = 0;while( samplenumber < knumber_samples ) {. // ---- calculate sampleunsigned int channelleft = 0;unsigned int channelright = 0;unsigned char notenumber = 0;while ( notenumber < 4 ) {// ---- see if should update phase for note, only do if play noteif( samplenumber >= notenumber*kdelay_note ) {// ---- up date phase beforearrayphase[notenumber] += arrayincrement[notenumber];// ---- not let out of range [0; 255]if( arrayphase[notenumber] > 0xff0000 ) // 0xff0000 == 255 << 16arrayphase[notenumber] -= 0xff0000; // return to begin of wave table}unsigned short mauvat = wavetable[arrayphase[notenumber] >> 16];. // ---- add sound componentsif( notenumber < 2 ) // ---- first 2 notes left channelchannelleft += mauvat;else // ---- last 2 notes right channelchannelright += mauvat;// ---- next notenotenumber++;}// ---- save left and right samplessounddata[samplenumber << 1] = (channelleft << 9) - 0x8000; // use << 1 for 16 bitsounddata[(samplenumber << 1) + 1] = (channelright << 9) - 0x8000; // use << 1 for 16 bitupdatewavetable( wavetable, samplenumber & 0xff );samplenumber++;}// ---- save wav filesavesound( "mac ii. Wav", sounddata, samplenumber << 1, ksample_rate ); // multiply 2 because stereo. Return 1;}. Void preparewavetable( unsigned short *wavetable, unsigned int value ) {. // ---- prepare wave tableunsigned short index = 0;unsigned short wavetablevalue = value & 0xff;while( index < 64 ) {wavetable[index] = wavetablevalue; // << 8; // for 16 bitindex++;}. Wavetablevalue = (value >> 8) & 0xff;while( index < 128 ) {wavetable[index] = wavetablevalue; // << 8; // for 16 bitindex++;}. Wavetablevalue = (value >> 16) & 0xff;while( index < 192 ) {wavetable[index] = wavetablevalue; // << 8; // for 16 bitindex++;}wavetablevalue = (value >> 24) & 0xff;while( index < 256 ) {wavetable[index] = wavetablevalue; // << 8; // for 16 bitindex++;}}. Void updatewavetable( unsigned short *wavetable, unsigned short index ) {// ---- get value from wave tableunsigned short value = wavetable[index];// ---- calculate new value for wave tableif( index == 255 ) { // careful at last element of wave tablevalue += wavetable[0];value = (value >> 1);wavetable[0] = value;}else {value += wavetable[index+1];value = (value >> 1);wavetable[index+1] = value;}. }. #pragma mark ---- save wavvoid saveheader( file *filename, unsigned int samplerate );void savesounddatainteger16bit( file *filename, short *sounddata, unsigned int numbersamples );. Void savesound( char *filename, short *sounddata, unsigned int numberframes, unsigned int samplerate ) {// ---- open filefile *file = fopen( filename, "wb" );if( file ) {// ---- "riff"fprintf( file, "riff" );// ---- length sound file - 8unsigned int lengthsoundfile = 32;lengthsoundfile += numberframes << 1; // một không có một mẫu vạt cho kênh trái và phải// ---- save file lengthfputc( (lengthsoundfile) & 0xff, file );fputc( (lengthsoundfile >> 8) & 0xff, file );fputc( (lengthsoundfile >> 16) & 0xff, file );fputc( (lengthsoundfile >> 24) & 0xff, file );// ---- "wave"fprintf( file, "wave" );// ---- save headersaveheader( file, samplerate );// ---- save sound datasavesounddatainteger16bit( file, sounddata, numberframes );// ---- close filefclose( file );}else {printf( "problem save file %s\n", filename );}}. Void saveheader( file *file, unsigned int samplerate ) {// ---- name for header "fmt "fprintf( file, "fmt " );// ---- header lengthfputc( 0x10, file ); // length 16 bytefputc( 0x00, file );fputc( 0x00, file );fputc( 0x00, file );// ---- method for encode, 16 bit pcmfputc( 0x01 & 0xff, file );fputc( (0x00 >> 8) & 0xff, file );// ---- number channels (stereo)fputc( 0x02, file );fputc( 0x00, file );// ---- sample rate (hz)fputc( samplerate & 0xff, file );fputc( (samplerate >> 8) & 0xff, file );fputc( (samplerate >> 16) & 0xff, file );fputc( (samplerate >> 24) & 0xff, file );// ---- number bytes/secondunsigned int numberbytessecond = samplerate << 2; // multiply 4 because short (2 byte) * 2 channelfputc( numberbytessecond & 0xff, file );fputc( (numberbytessecond >> 8) & 0xff, file );fputc( (numberbytessecond >> 16) & 0xff, file );fputc( (numberbytessecond >> 24) & 0xff, file );// ---- byte cho một khung (nên = số lượng mẫu vật * số lượng kênh)// ---- number bytes for sampleunsigned short bytesoneframe = 4; // short (2 byte) * 2 channelunsigned char bitsonesample = 16; // shortfputc( bytesoneframe & 0xff, file );fputc( (bytesoneframe >> 8) & 0xff, file );. Fputc( bitsonesample, file );fputc( 0x00, file );}. Void savesounddatainteger16bit( file *file, short *sounddata, unsigned int numbersamples ) {fprintf( file, "data" );unsigned int datalength = numbersamples << 1; // each sample 2 bytefputc( datalength & 0xff, file );fputc( (datalength >> 8) & 0xff, file );fputc( (datalength >> 16) & 0xff, file );fputc( (datalength >> 24) & 0xff, file );unsigned int sampleindex = 0;while( sampleindex < numbersamples ) {short shortdata = sounddata[sampleindex];fputc( shortdata & 0xff, file );fputc( (shortdata >> 8) & 0xff, file );sampleindex++;}}.