# POKEY a sound and input chip developed by Atari for their 8-bit computers (Atari 400, 800, XL/XE and so on). 4 channels of signature Atari sounds. ## effects - `10xx`: **set waveform.** - 0: harsh noise (poly5+17) - 1: square buzz (poly5) - 2: weird noise (poly4+5) - 3: square buzz (poly5) - 4: soft noise (poly17) - 5: square - 6: bass (poly4) - 7: buzz (poly4) - `11xx`: **set AUDCTL.** `xx` is a bitmask. - bit 7: 9-bit poly mode. shortens noise. - bit 6: high channel 1 clock (~1.79MHz on NTSC). - overrides 15KHz mode. - bit 5: high channel 3 clock (~1.79MHz on NTSC). - overrides 15KHz mode. - bit 4: join channels 1 and 2 for a wide period range. - use with conjunction with bit 6. - channel 2 becomes inaccessible when this is on. - bit 3: join channels 3 and 4 for a wide period range. - use with conjunction with bit 5. - channel 4 becomes inaccessible when this is on. - bit 2: high-pass filter (channels 1 and 3). - filtered output on channel 1 (I suggest you to set channel 3 volume to 0). - use for PWM effects (not automatic!). - bit 1: high-pass filter (channels 2 and 4). - filtered output on channel 2 (I suggest you to set channel 4 volume to 0). - use for PWM effects (not automatic!). - bit 0: 15KHz mode. - `12xx`: **toggle two-tone mode.** - when enabled, channel 2 modulates channel 1. I don't know how, but it does. - only on ASAP core. ## info this chip uses the [POKEY](../4-instrument/pokey.md) instrument editor. when two channels are joined for filtered output, the channel bar will show `filter` on a bracket tying them together. when two channels are joined for wide period range, the channel bar will show `16-bit` on a bracket tying them together. ## ROM export a song can be exported as SAP-R, a compressed register dump. more details on the format are available (in Polish) at [its page on the Atariki wiki](http://atariki.krap.pl/index.php/SAP_%28format_pliku%29). ## chip config the following options are available in the Chip Manager window: - **PAL**: run the chip at PAL clock (1.77MHz) instead of NTSC (1.79MHz).