YENZA UMSINDO IMaths Complex Function Generator Eurorack Module

Imininingwane

• Igama Lomkhiqizo: IZIBALO
• Uhlobo: Ikhompyutha ye-Analogi Yezinjongo Zomculo
• Imisebenzi: Voltage Imvilophu Elawulwayo, i-LFO, Ukucutshungulwa Kwesiginali, Ukukhiqizwa Kwesiginali
• Ibanga lokufaka: +/-10V

Imiyalo yokusetshenziswa komkhiqizo

Ukufakwa

Ngaphambi kokufaka, bheka esicacisweni somkhiqizi wecala lakho ngendawo yokuphakelwa okunegethivu. Qinisekisa ukuxhunywa kwamandla okulungile.

Kuphelileview

I-MATHS yakhelwe izinjongo zomculo futhi inikeza imisebenzi ehlukahlukene ehlanganisa ukukhiqiza imisebenzi, ukuhlanganisa amasignali, ampukukhulisa, ukunciphisa, ukuguqula amasignali, nokunye.

Izilawuli zephaneli

1. Ukufaka isiginali: Sebenzisa izimvilophu ze-Lag, Portamento, kanye ne-ASR. Ububanzi +/-10V.
2. Qalisa Okokufaka: Isango noma i-Pulse ibangela isekethe ukuthi ikhiqize Izimvilophu, Ukulibaziseka Kokushaya, I-Clock Division, kanye nokusetha kabusha kwe-LFO.

Rise, Fall, futhi Vari-Response

• Amapharamitha wokukhuphuka, ukuwa, kanye ne-Vari-Response achaza izici Zemvilophu ekhiqizwe Okokufaka kwe-Trigger.

Imiphumela Yesiginali

• Umkhiqizo unikeza imiphumela yesignali ehlukahlukene ehlanganisa Izimvilophu, Ukuhlukaniswa Kwewashi, nokuningi. Bheka imanuwali ukuze uthole imibono enemininingwane yesichibi.

Amathiphu & Amacebo

• Hlola ukuhlanganisa amasignali okulawula ahlukene ukuze udale ukuguquguquka okuyinkimbinkimbi. Linga nge-modulating voltages kanye nokukhiqiza imicimbi yomculo esuselwe ukuzwa ukunyakaza ngaphakathi kwesistimu.

Patch Imibono

• Bheka imanuwali ngezindlela zokudala zokunamathisela i-MATHS namanye amamojula ohlelweni lwakho ukuze uthole ukukhiqizwa komsindo okuyingqayizivele kanye nokwenzeka kokuguquguquka.

UKUFAKA

Ingozi yogesi!

• Njalo vala ikesi le-Eurorack futhi ukhiphe intambo yamandla ngaphambi kokuxhuma noma ukunqamula noma iyiphi ikhebula yokuxhuma ebhodini lebhasi le-Eurorack. Ungathinti noma yimaphi amatheminali kagesi lapho unamathisela noma iyiphi ikhebula yebhodi yebhasi ye-Eurorack.
• I-Make Noise MATHS iyimojula yomculo we-elekthronikhi edinga u-60mA we-+12VDC kanye no-50mA we -12VDC olawulwayo wevolthi.tage kanye nesitsha sokusabalalisa esifomethwe kahle esizosebenza. Kufanele ifakwe kahle kukesi lesistimu ye-Eurorack yefomethi ye-synthesizer.
• Iya ku http://www.makenoisemusic.com/ okwesibampngaphansi kwe-Eurorack Systems kanye namacala.
• Ukuze ufake, thola i-20HP kukesi lakho le-Eurorack synthesizer, qinisekisa ukufakwa okufanele kwekhebuli yesixhumi sebhodi lebhasi ye-Eurorack ngemuva kwemojuli (bheka isithombe esingezansi), bese uxhuma ikhebula lesixhumi sebhodi lebhasi ebhodini lebhasi lesitayela se-Eurorack, unakekele ukugqama ukuze umugqa OMVU ekhebulani uqondiswe ku-NEGATIVE 12 Volt nolayini webhasi ebhodini.
• Ku-Make Noise 6U noma 3U Busboard, ulayini ongu-12 Volt ongemuhle ukhonjiswa ngomugqa omhlophe.
• Sicela ubhekisele esimisweni somkhiqizi wecala lakho ngendawo lapho ukunikezwa okunegethivu.

PHELILEVIEW

I-MATHS iyikhompyutha ye-analog eyenzelwe izinjongo zomculo. Phakathi kwezinye izinto, ikuvumela ukuthi:

1. Khiqiza izinhlobonhlobo zemisebenzi yomugqa, i-logarithmic, noma i-exponential ecushiwe noma eqhubekayo.
2. Hlanganisa isignali engenayo.
3. Amplungisa, nciphisa, futhi uguqule isignali engenayo.
4. Engeza, khipha, futhi NOMA kufika kumasignali ama-4.
5. Khiqiza amasiginali e-analog ngolwazi lwedijithali (Isango/Iwashi).
6. Khiqiza ulwazi lwedijithali (Isango/Iwashi) kumasiginali e-analog.
7. Libazisa ulwazi lwedijithali (Isango/Iwashi).

Uma uhlu olungenhla lufundeka njengesayensi kunomculo, nansi ukuhumusha:

1. Voltage Imvilophu elawulwayo noma i-LFO ihamba kancane njengemizuzu engama-25 futhi ishesha njengo-1khz.
2. Faka i-Lag, Slew, noma i-Portamento ukuze ulawule ivolumutages.
3. Shintsha ukujula kokuguquguquka futhi uguqule uhlehle!
4. Hlanganisa amasiginali okulawula angafika kwangu-4 ukuze udale ukuguquguquka okuyinkimbinkimbi.
5. Imicimbi Yomculo efana no-Rampkhuphuka noma Phansi ku-Tempo, ngomyalo.
6. Iqalisa imicimbi yomculo lapho izwa ukunyakaza ohlelweni.
7. Ukuhlukaniswa kwamanothi omculo kanye/noma iFlam.

I-MATHS ibuyekezwa ngo-2013 iyinzalo eqondile ye-MATHS yasekuqaleni, yabelana ngomjikelezo ofanayo futhi ikhiqiza wonke amasiginali okulawula amahle owangempela ayekwazi ukuwakhiqiza, kodwa ngokuthuthuka okuthile, okungeziwe, nokushintshashintsha.

1. Ukuhlelwa kwezilawuli kushintshiwe ukuze kube lula futhi kusebenze ?ngokumanzisa nge-CV Bus kanye namamojula akhona ohlelweni lwethu njenge-DPO, MMG, ne-ECHOPHON.
2. Inkomba ye-LED yamasignali ithuthukisiwe ukuze ibonise kokubili ivolumu ephozithivu nenegethivutages kanye nokwandisa ukulungiswa kwesibonisi. Ngisho nevolumu encanetagayafundeka kulawa ma-LED.
3. Njengoba i-Make Noise manje isinikeza Okuningi Okuphumayo Kwesiginali (kusuka ku-MATHS yasekuqaleni) kushintshiwe kwaba Okokuphuma Kwesiginali Ehlanganisiwe. Ivumela ukudala ukuhluka okubili kokuphumayo, okukodwa ekubumbaneni futhi okunye njengokucutshungulwa nge-Attenuverter. Iphinde ivumele ukupeyishwa kwezimpendulo kalula kungenzeki ngokulawula kwe-Vari-Response kuphela (bona ikhasi 13).
4. Okukhiphayo kwe-SUM Okuhlanekezelwe kungeziwe ukuze kutholakale amathuba amakhulu okushintsha.
5. Inkomba ye-LED ye-Sum Bus yengeziwe ukuze kuqwashiswe amasignali.
6. Inkomba ye-LED yengeziwe ukukhombisa isimo se-End Of Rise and End Of Cycle.
7. I-End-of-Cycle Output manje isifakwe kubhafa ukuze uthole ukuzinza kwesekethe okuthuthukisiwe.
8. Kwengezwe ukuvikelwa kwamandla okubuyela emuva.
9. Kwengezwe ububanzi be-offset +/-10V. Umsebenzisi unokuzikhethela kokuthi +/-10V offset ku-CH. 2 noma +/-5V offset ku-CH. 3.
10. Kwengezwe ububanzi obukhulu be-Logarithmic kusilawuli se-Vari-Response esivumela isitayela se-East Coast Portamen-to.
11. Ukuvela kumjikelezo Okokufaka Komjikelezo okuvumela ivolumutage ukulawula isimo soMjikelezo eziteshini 1 no-4. Esangweni Phezulu, Imijikelezo ye-MATHS. Esangweni eliphansi, i-MATHS ayikujikelezi (ngaphandle kwalapho kufakwe inkinobho Yomjikelezo).

IZILAWULI ZEPHEPHA

1. Ukufaka isiginali: Okokufaka Okuhlanganisiwe Okuqondile kusekethe. Sebenzisa i-Lag, Portamento, ASR (Attack Sustain Release type envelopes). Futhi, faka isamba/noma ibhasi. Ububanzi +/-10V.
2. Qalisa Okokufaka: Isango noma i-Pulse esetshenziswa kulokhu kufakwayo iqalisa isekethe ngokunganaki umsebenzi kokokufaka Kwesiginali. Umphumela uwumsebenzi we-0V kuya ku-10V, i-aka Envelope, izici zayo ezichazwa yimingcele ye-Rise, Fall, kanye ne-Vari-Response. Sebenzisa Imvilophu, Ukubambezeleka Kokuphuphumayo, Ukuhlukaniswa Kwewashi, kanye Nokusetha Kabusha kwe-LFO (kuphela ngesikhathi sengxenye Yokuwa).
3. I-Cycle LED: Iikhombisa umjikelezo IVULIWE noma IVALIWE.
4. Inkinobho Yomjikelezo: Ibangela isekethe ukuthi izijikelezise, ​​ngaleyo ndlela ikhiqize ivolumu ephindayotage function, aka LFO. Sebenzisa i-LFO, iwashi, ne-VCO.
5. Ukulawula Iphaneli Yokukhuphuka: Isetha isikhathi esisithathayo sevolumutage umsebenzi ku-ramp phezulu. Ukujikeleza kwe-CW kwandisa Isikhathi Sokukhuphuka.
6. I-Rise CV Input: Okokufaka kwesiginali yokulawula umugqa wepharamitha ye-Rise. Amasiginali Okulawula Okuhle akhuphula Isikhathi Sokukhuphuka, futhi amasiginali okulawula Okubi anciphisa Isikhathi Sokukhuphuka ngokuphathelene nesilungiselelo sokulawula iphaneli yokunyuka. Ububanzi +/-8V.
7. Ukulawula Iphaneli Yokuwa: Isetha isikhathi esisithathayo sevolumutage umsebenzi ku-ramp phansi. Ukujikeleza kwe-CW kwandisa Isikhathi Sokuwela.
8. Kokubili okokufaka kwe-CV: Okokufaka kwesignali ye-Bi-Polar Exponential yawo wonke umsebenzi. Ngokuphambene Nokwenyuka Nokwehla Kokokufaka Kwe-CV, OKUBILI kunempendulo Ebonisayo futhi amasiginali okulawula Okuhle anciphisa ingqikithi yesikhathi kuyilapho amasiginali okulawula okungalungile enyusa ingqikithi yesikhathi. Ububanzi +/-8V.
9. Okokufaka kwe-CV: Ukufakwa kwesiginali yokulawula umugqa wepharamitha yokuwa. Amasiginali okulawula okulungile akhuphula isikhathi sokuwa, futhi amasiginali okulawula okunegethivu anciphisa Isikhathi Sokuwa ngokuphathelene nokulawula iphaneli yokuwa. Ububanzi +/-8V.

MATHS Channel 1

1. Isilawuli sephaneli ye-Vari-Response: Isetha ijika lempendulo yevolumutagumsebenzi we. Impendulo iyashintshashintsha ngokuqhubekayo ukusuka ku-Logarithmic kuya ku-Linear kuye ku-Exponential kuya ku-Hyper-Exponential. Umaki weThikhi ukhombisa ukulungiselelwa komugqa.
2. Okokufaka Komjikelezo: ESangweni ELIPHEZULU, Iyajikeleza. Esangweni ELIPHANSI, I-MATHS ayikujikijeli (ngaphandle kwalapho kufakwe inkinobho Yomjikelezo). Idinga ubuncane obungu-+2.5V ukuze ku-HIGH.
3. I-LED EOR: Ibonisa izimo zokuphuma kwe-EOR. Ikhanyisa uma i-EOR IPHEZULU.
4. End Of Rise Okukhiphayo (EOR): Iya phezulu ekupheleni kwengxenye ethi Rise yomsebenzi. 0V noma 10V.
5. I-Unity LED: Ibonisa umsebenzi ngaphakathi kwesekethe. I-Positive voltages green, kanye negative voltages zibomvu. Ububanzi +/-8V.
6. Okukhiphayo Kwesiginali Yobumbano: Isiginali evela kusekethe Yesiteshi 1. 0-8V uma Uhamba ngebhayisikili. Uma kungenjalo, lokhu okukhiphayo kulandela i- ampamandla okokufaka.

MATHS Channel 4

1. Qalisa Okokufaka: Isango noma i-Pulse esetshenziswa kulokhu kufakwayo icupha isekethe ngokunganaki umsebenzi kokokufaka Kwesiginali. Umphumela uwumsebenzi we-0V kuya ku-10V, i-aka Envelope, izici zayo ezichazwa yimingcele ye-Rise, Fall, kanye ne-Vari-Response. Sebenzisa Imvilophu, Ukubambezeleka Kokuphuphumayo, Ukuhlukaniswa Kwewashi, kanye Nokusetha Kabusha kwe-LFO (kuphela ngesikhathi sengxenye Yokuwa).
2. Ukufaka isiginali: Okokufaka Okuhlanganisiwe Okuqondile kusekethe. Sebenzisa i-Lag, Portamento, ASR (Attack Sustain Release type envelopes). Futhi, faka isamba/noma ibhasi. Ububanzi +/-10V.
3. I-Cycle LED: Ikhombisa umjikelezo IVULIWE noma IVALIWE.
4. Inkinobho Yomjikelezo: Ibangela isekethe ukuthi izijikelezise, ​​ngaleyo ndlela ikhiqize ivolumu ephindayotage function, aka LFO. Sebenzisa i-LFO, iwashi, ne-VCO.
5. Ukulawula Iphaneli Yokukhuphuka: Imisa isikhathi esisithathayo sevolumutage umsebenzi ku-ramp phezulu. Ukujikeleza kwe-CW kwandisa Isikhathi Sokukhuphuka.
6. Khulisa okokufaka kwe-CV: Okokufaka kwesiginali yokulawula umugqa wepharamitha ye-Rise. Amasiginali Okulawula Okuhle akhuphula Isikhathi Sokukhuphuka, futhi amasiginali okulawula Okubi anciphisa Isikhathi Sokukhuphuka ngokuphathelene nesilungiselelo sokulawula iphaneli yokunyuka. Ububanzi +/-8V.
7. Ukulawula Iphaneli Yokuwa: Imisa isikhathi esisithathayo sevolumutage umsebenzi ku-ramp phansi. Ukujikeleza kwe-CW kwandisa Isikhathi Sokuwela.
8. Kokubili okokufaka kwe-CV: Okokufaka kwesignali ye-Bi-Polar Exponential yawo wonke umsebenzi. Ngokuphambene Nokwenyuka Nokwehla Kokokufaka kwe-CV, OKUBILI kunempendulo Ebonisayo futhi amasiginali okulawula Okuhle anciphisa ingqikithi yesikhathi kuyilapho amasiginali okulawula okungalungile enyusa ingqikithi yesikhathi. Ububanzi +/-8V.
9. Okokufaka kwe-CV: Okokufaka kwesiginali yokulawula umugqa wepharamitha yokuwa. Amasiginali okulawula okulungile akhuphula isikhathi sokuwa, futhi amasiginali okulawula okunegethivu anciphisa Isikhathi Sokuwa ngokuphathelene nokulawula iphaneli yokuwa. Ububanzi +/-8V.

MATHS Channel 4

1. Isilawuli sephaneli ye-Vari-Response: Isetha ijika lempendulo yevolumutagumsebenzi we. Impendulo iyashintshashintsha ngokuqhubekayo ukusuka ku-Logarithmic kuya ku-Linear kuye ku-Exponential kuya ku-Hyper-Exponential. Umaki weThikhi ukhombisa ukulungiselelwa komugqa.
2. Okokufaka Komjikelezo: ESangweni ELIPHEZULU, Iyajikeleza. Esangweni ELIPHANSI, I-MATHS ayikujikijeli (ngaphandle kwalapho kufakwe inkinobho Yomjikelezo). Idinga ubuncane obungu-+2.5V ukuze ku-HIGH.
3. I-EOC LED: Ibonisa izimo Zokuphuma Kokuphela Komjikelezo. Ikhanyisa uma i-EOC Iphakeme.
4. Qeda okukhiphayo komjikelezo (EOC): Iya phezulu ekupheleni kwengxenye Yokukwindla yomsebenzi. 0V noma 10V.
5. Ubunye be-LED: Iikhombisa umsebenzi ngaphakathi kwesekethe. I-Positive voltages green, kanye negative voltages zibomvu. Ububanzi +/-8V.
6. Okukhiphayo Kwesiginali Yobumbano: Isiginali evela kusekethe Yesiteshi 4. 0-8V uma Uhamba ngebhayisikili. Uma kungenjalo, lokhu okukhiphayo kulandela i- ampamandla okokufaka.

I-SUM kanye ne-OR Bus

1. Okokufaka Kwesiginali Yesiteshi 2 Esihlanganisiwe Ngokuqondile: Kujwayelwe kusithenjwa esingu-+10V sokukhiqiza ivolumutage offset. Ibanga lokokufaka +/-10Vpp.
2. Okokufaka Kwesiginali Yesiteshi 3 Esihlanganisiwe Ngokuqondile: Kujwayelwe kusithenjwa esingu-+5V sokukhiqiza ivolumutage offset. Ibanga lokokufaka +/-10Vpp.
3. CH. 1 Ukulawulwa kwe-Attenuverter: Ihlinzekela ukukala, ukuncishiswa, kanye nokuguqulwa kwesiginali ecutshungulwayo noma ekhiqizwa yi-CH. 1. Ixhunywe ku-CH. 1 Okukhiphayo Okuguquguqukayo kanye nesamba/noma ibhasi.
4. CH. 2 Ukulawulwa kwe-Attenuverter: Inikeza ukukala, ukunciphisa, ampi-liification, kanye nokuguqulwa kwesiqephu sesiginali kuya ku-CH. 2 Okokufaka kwesignali. Njengoba ingekho isignali ekhona, ilawula izinga lesethi ekhiqizwe yi-CH. 2.
   • Ixhumeke ku-CH. 2 Okukhiphayo Okuguquguqukayo kanye Nesamba/NOMA Ibhasi.
5. CH. 3 Ukulawulwa kwe-Attenuverter: Inikeza ukukala, ukunciphisa, ampi-liification, kanye nokuguqulwa kwesiqephu sesiginali kuya ku-CH. 3 Okokufaka kwesignali. Njengoba ingekho isignali ekhona, ilawula izinga le-offset ekhiqizwe yi-CH. 3.
   • Ixhumeke ku-CH. 3 Okuguquguqukayo OUT kanye Isamba / NOMA Ibhasi.
6. CH. 4 Ukulawulwa kwe-Attenuverter: Ihlinzekela ukukala, ukuncishiswa, kanye nokuguqulwa kwesiginali ecutshungulwayo noma ekhiqizwa yi-CH. 4. Ixhunywe ku-CH. 4 Okukhiphayo Okuguquguqukayo kanye Nesamba/NOMA Ibhasi.

I-SUM kanye ne-OR Bus

1. CH. 1-4 Imiphumela Eshintshayo: Isignali esetshenzisiwe icutshungulwa izilawuli zeshaneli ezihambisanayo. Kujwayelwe ku-SUM kanye namabhasi NOMA. Ukufaka ikhebula lokuchibiyela kususa isignali ku-SUM kanye ne-OR emabhasini. Ibanga Lokukhiphayo +/-10V.
2. NOMA Okukhipha Ibhasi: Umphumela we-Analog Logic NOMA umsebenzi kuzilungiselelo zezilawuli ze-attenuverter zeziteshi 1, 2, 3, kanye no-4. Ibanga elingu-0V ukuya ku-10V.
3. I-SUM Bus Output: Isamba sevolumu esetshenzisiwetagkuya kuzilungiselelo zezilawuli ze-attenuverter zeziteshi 1, 2, 3, no-4. Ububanzi +/-10V.
4. Okukhiphayo kwe-SUM okuhlanekezelwe: Isiginali evela ku-SUM Okukhiphayo ibheke phansi. Ububanzi +/-10V.
5. I-SUM Bus LEDs: Khombisa ivolumutagumsebenzi ebhasini le-SUM (ngakho-ke, ne-SUM ehlanekezelwe). I-LED ebomvu ikhombisa i-negative voltages. I-LED eluhlaza ikhombisa ivolumu ephozithivutages.

UKUQALISA

I-MATHS ibekwe phezulu iye phansi, inezici ezilinganayo phakathi kuka-CH. 1 kanye no-4. Okokufaka kwesignali kuphezulu, kulandelwa izilawuli zephaneli nokufakwa kwesignali yokulawula phakathi nendawo. Imiphumela yesignali ingaphansi kwemojuli. Ama-LED abekwe eduze kwesiginali ayikhombisayo. Amashaneli 1 kanye no-4 angakala, aguqule, noma ahlanganise isignali engenayo. Ngaphandle kwesignali esetshenzisiwe, lawa ma-Chan-nel angase enziwe ukuthi akhiqize imisebenzi ehlukahlukene yomugqa, i-logarithmic, noma i-exponential lapho kwamukelwe i-trigger, noma ngokuqhubekayo lapho umjikelezo usebenza. Umehluko owodwa omncane phakathi kwe-CH. 1 kanye no-4 emikhiqizweni yawo ye-Pulse; I-CH.1 ene-End of Rise kanye ne-CH. 4 Ukuba Nokuphela Komjikelezo. Lokhu kwenziwa ukuze kube lula ukudalwa kwemisebenzi eyinkimbinkimbi kusetshenziswa kokubili i-CH. 1 kanye no-4. Iziteshi 2 no-3 zingakala, amplify, futhi uguqule isignali engenayo. Ngaphandle kokusetshenziswa kwesignali yangaphandle, lezi ziteshi zikhiqiza ama-DC offset. Umehluko kuphela phakathi kwe-CH. 2 kanye no-3 yilokho CH. 2 ikhiqiza isethi +/-10V ngenkathi i-Ch. 3 ikhiqiza i-+/-5V offset.
Zonke Iziteshi ezi-4 zinemiphumela (ebizwa ngokuthi Imiphumela Eguquguqukayo) eyenziwa ngokwejwayelekile ibe yi-SUM, I-SUM Eguquliwe, kanye nebhasi NOMA NOMA ukuze ukungezwa, ukususa, ukuguqulwa, kanye ne-analog logic NOMA ukukhohlisa kungase kuzuzwe. Ukufaka ipulaki kulawa masokhethi Wokukhipha Okuguquguqukayo kususa isignali ehambisanayo ku-SUM kanye nebhasi NOMA (Amashaneli 1 kanye no-4 anomphumela wokubumbana, OKUNGAJWAYELEKILE ku-SUM kanye NOMA ibhasi). Le miphumela ilawulwa ama-Attenuverters angu-4 phakathi nendawo yemojuli.

Okokufaka kwesiginali

Lokhu okokufaka konke kuhlanganiswe ngokuqondile nesekethe ehlobene nayo. Lokhu kusho ukuthi bangakwazi ukudlulisa kokubili amasiginali omsindo nokulawula. Lokhu okokufaka kusetshenziselwa ukucubungula ivolumu yokulawula yangaphandletages. CH. Okokufaka Kwesiginali oku-1 kanye noku-4 kungase futhi kusetshenziselwe ukukhiqiza izimvilophu zohlobo lwe-Attack/Sustain/ Khipha kusignali yesango. Iziteshi 2 kanye no-3 nazo zenziwa ngokwejwayelekile zibe yivolumutage ireferensi ukuze ngaphandle kokunamathiselwe lutho kokokufakayo, leso siteshi singasetshenziselwa ukukhiqiza umqulutage offset. Lokhu kuyasiza ekuguquleni izinga lomsebenzi noma esinye isignali esikwesinye seziteshi ngokungeza ivolumutagi-offset kuleyo siginali futhi ithatha i-SUM Output.

Faka okufakwayo

CH. 1 kanye no-4 nabo banokufaka kwe-Trigger. Isango noma i-pulse esetshenziswa kulokhu kufakwayo icupha isekethe ehambisanayo ngokunganaki umsebenzi Kokokufaka Kwesiginali. Umphumela uwumsebenzi we-0V kuya ku-10V, i-aka Envelope, izici zayo ezichazwa ngamapharamitha we-Rise, Fall, Vari-Response, kanye ne-Attenuverter. Lo msebenzi ukhuphuka usuka ku-0V uye ku-10V bese wehla ngokushesha usuka ku-10V uye ku-0V. AKUKHO UKUZINDZWA. Ukuze uthole umsebenzi wemvilophu oqhubekayo, sebenzisa Okokufaka Kwesiginali (bona ngenhla). I-MATHS iphinda icuphe phakathi nengxenye ewayo yomsebenzi kodwa AYIQALI kabusha engxenyeni ekhuphukayo yomsebenzi. Lokhu kuvumela ukuhlukaniswa kwewashi nesango njengoba i-MATHS ingase ihlelwe ukuthi inganaki amawashi namasango angenayo ngokusetha Isikhathi Sokukhuphuka sibe sikhulu kunesikhathi esiphakathi Kwamawashi angenayo kanye/noma Amasango.

Umjikelezo

Inkinobho Yomjikelezo kanye Nokufaka Komjikelezo kokubili zenza into efanayo: zenza i-MATHS izenze i-self-oscillate aka Cycle, okungamagama amahle e-LFO! Uma ufuna i-LFO, yenza i-MATHS Cycle.

RISE FALL VARI-IMPENDULO

• Lezi zilawuli zilolonga isignali ephuma ku-Unity Signal Output kanye Nemiphumela Eguquguqukayo ye-CH. 1 kanye no-4. Izilawuli Zokukhuphuka Nokuwa zinquma ukuthi isifunda siphendula ngokushesha kangakanani noma sihamba kancane kangakanani kumasiginali asetshenziswe kokokufaka Kwesiginali kanye nokokufaka kwe-Trigger. Ububanzi bezikhathi bukhulu kunemvilophu evamile noma i-LFO. I-MATHS idala imisebenzi ihamba kancane njengemizuzu engama-25 (I-Rise and Fall CW egcwele kanye namasiginali okulawula angaphandle angezwe ukuze aye kokuthi “slow-ver-drive”) futhi ngokushesha njengo-1khz (izinga lomsindo).
• I-Rise isetha inani lesikhathi isiyingi esisithathayo ukuze sifike kuvolumu enkulutage. Uma icushiwe isekethe iqala ku-0V futhi ihamba ifike ku-10V. I-Rise inquma ukuthi kuthatha isikhathi esingakanani ukuthi lokhu kwenzeke. Lapho isetshenziselwa ukucubungula isilawuli sangaphandle voltagIsiginali esetshenziswa Kokufaka Isignali kungenzeka iyanda, iyancipha, noma isesimweni esizinzile (angenzi lutho). Ukuphakama kunquma ukuthi leyo siginali ingakhula ngokushesha kangakanani. Into eyodwa i-MATHS engakwazi ukuyenza ukubheka esikhathini esizayo ukuze yazi ukuthi isignali yokulawula yangaphandle ibhekephi, ngakho-ke i-MATHS ayikwazi ukukhuphula izinga levolumu yangaphandle.tage iyashintsha/ inyakaza, ingenza kuphela okwamanje futhi yehlise ijubane (noma iyivumele idlule ngesivinini esifanayo).
• Ukwindla kusetha inani lesikhathi isiyingi esisithathayo ukuze sehle siye kuvolumu encanetage. Lapho iculwa i-voltage iqala ku-0V futhi ihamba ifike ku-10V, ku-10V umkhawulo ongaphezulu ufinyelelwe futhi ivolumutage iqala ukwehla ibuyele phansi ku-0V. Ukuwa kunquma ukuthi kuthatha isikhathi esingakanani ukuthi lokhu kwenzeke. Lapho isetshenziselwa ukucubungula isilawuli sangaphandle voltagIsiginali esetshenziswa Kokufaka Isignali kungenzeka iyanda, iyancipha, noma isesimweni esizinzile (angenzi lutho). Ukuwa kunquma ukuthi isignali ingancipha ngokushesha kangakanani. Njengoba ingakwazi ukubheka esikhathini esizayo ukuze yazi ukuthi isiginali yokulawula yangaphandle ibhekephi, i-MATHS ayikwazi ukukhuphula izinga levolumu yangaphandle.tage iyashintsha/ inyakaza, ingenza kuphela okwamanje futhi yehlise ijubane (noma iyivumele idlule ngesivinini esifanayo).
• Kokubili i-Rise and Fall inokufakwa kwe-CV ezimele ye-voltage ukulawula le mingcele. Uma ukuncipha kuyadingeka, sebenzisa i-CH. 2 noma CH. 3 ochungechungeni oluya endaweni oyifunayo. Ngokungeziwe Kokufakwayo Kwe-CV Ye-Rise and Fall, kukhona Kokubili okokufaka kwe-CV.
• Kokubili okokufaka kwe-CV kushintsha izinga lomsebenzi wonke. Iphinde iphendule ngokuphambene Ekukhuphukeni Nokuwa Kokokufaka Kwe-CV. Ivolumu engaphezulu evumayotagkwenza wonke umsebenzi ube mfushane futhi ube nevolumu engaphezulutagkwenza wonke umsebenzi ube mude.
• Ukuphendula okuhlukahlukene kulolonga amanani angenhla oshintsho (Ukunyuka/Ukuwa) ukuthi abe yi-Logarithmic, Linear, noma Exponential (nayo yonke into ephakathi kwalezi zimo).
• Ngempendulo ye-LOG, izinga loshintsho liyehla njengoba i-voltage iyanda.
• Ngempendulo ye-EXPO, izinga loshintsho liyakhula njengoba i-voltage iyanda. Impendulo ye-Linear ayinalo ushintsho kuzinga njenge-voltage izinguquko.

IMIPHUMELA EPHAWULA

• Kunemiphumela eminingi ehlukene yesiginali kwi-MATHS. Zonke zitholakala ezansi kwemojuli. Eziningi zazo zinama-LED aseduze ukuze abonise amasiginali.

Ukuphuma Okuguquguqukayo

• Le miphumela ibhalwe ukuthi 1, 2, 3, kanye no-4 futhi ihlotshaniswa nezilawuli ezine ze-Attenuverter phakathi nendawo yemojuli. Le miphumela yonke inqunywa izilungiselelo zezilawuli ezihambisana nazo, isb. i-CH. 1 kuya kwezi-4 izilawuli ze-Attenuverter.
• Wonke lawa majekhi ajwayele ukuba yi-SUM kanye ne-OR Bus. Njengoba kungekho okunamathiselwe kulokhu okukhiphayo, isignali ehambisanayo ijovwa ku-SUM naku-OR Bus. Uma unamathisela ikhebula kunoma iyiphi yalawa majekhi okukhiphayo, isignali ehlobene iyasuswa ku-SUM ne-OR Bus. Le miphumela iwusizo uma unendawo yokuguquguquka lapho kungekho ukuncishiswa noma ukuguqulwa okutholakalayo (okufakwayo kwe-CV kumamojula we-MATHS noma FUNCTION we-ex.ample).
• Zibuye zibe usizo uma ufuna ukudala ukuhluka kwesignali ehlukile ampimfundo noma isigaba.

FOR OUT

• Lesi ukuphela Kokukhuphuka Kokukhiphayo kwe-CH. 1. Lesi isignali yomcimbi. Kuphakathi kokuthi ku-0V noma ku-10V futhi akukho lutho phakathi. Ishintsha ngokuzenzakalelayo ibe ngu-0V, noma Phansi uma ungekho umsebenzi.
• Umcimbi kulesi simo yilapho Isiteshi esihlobene sifinyelela kuvolumu ephezulu kakhulutage eliya kuyo. Lesi isignali enhle ongakhetha kuyo Iwashi noma i-LFO emise okwe-Pulse.
• Kuwusizo futhi Ekubambezelekeni Kokuphuphumayo kanye nokuhlukaniswa kwewashi njengoba i-Rise isetha inani lesikhathi elisithathayo ukuze lokhu okukhiphayo kukhuphuke.

EOC OUT

• Lokhu ukukhishwa kwe-End Cycle ye-CH. 4. Lesi isignali yomcimbi. Kuphakathi kokuthi ku-0V noma ku-10V futhi akukho lutho phakathi. Ishintsha ngokuzenzakalelayo ibe ngu-+10V, noma Phezulu uma ungekho umsebenzi.
• Umcimbi kulesi simo yilapho Isiteshi esihlobene sifika kuvolumu ephansi kakhulutage eliya kuyo. I-LED ehambisanayo ivuliwe uma kungenzeki lutho. Lesi isignali enhle ongakhetha kuyo Iwashi noma i-LFO emise okwe-Pulse.

I-Unity Signal Outs (CH. 1 no-4)

• Le miphumela ithentwa ngokuqondile kusukela kungqikithi Yesiteshi esihlobene. Abathintwa i-Attenuverter yesiteshi.
• Ukupeshela kulokhu okukhiphayo AKUSUSI isignali ku-SUM kanye NOMA Amabhasi. Lokhu kuwumphumela omuhle ongawusebenzisa lapho ungadingi ukuncipha noma ukuguqulwa noma uma ufuna ukusebenzisa isignali kokubili ngokuzimela nangaphakathi kwe-SUM/NOMA Ibhasi.

NOMA UPHUMILE

• Lokhu okukhiphayo okuvela kumjikelezo NOMA we-analog. Okokufaka yi-CH. 1, 2, 3, kanye ne-4 Eguquguqukayo Okukhiphayo. Ihlala ikhipha ivolumu ephezulu kakhulutage kuwo wonke umqulutagisetshenziswa kokokufaka. Abanye abantu babiza lokhu ngokuthi i-Maximum Voltagisifunda sesikhethi! Ama-attenuators avumela ukukala amasignali. Ayiphenduli ku-negative voltages, ngakho-ke ingasetshenziswa futhi ukulungisa isignali.
• Iwusizo ekudaleni okuhlukile ekumoduliseni noma ekuthumeleni i-CV kokokufakayo okuphendula kuphela ku-phozithivu voltages (isib. Hlela Okokufaka kweCV kuPHONOGENE).

SUM PHUMELA

• Lokhu okukhiphayo okuvela kumjikelezo we-analog SUM. Okokufaka yi-CH. 1, 2, 3, kanye 4 Imiphumela Eguquguqukayo. Kuya ngokuthi ama-Attenuverters asethwe kanjani, ungangeza, uguqule, noma ukhiphe ivolumutages kusuka komunye nomunye usebenzisa le sekhethi.
• Lokhu kuwumphumela omuhle ongasetshenziselwa ukuhlanganisa amasignali ambalwa okulawula ukuze ukhiqize ukuguquguquka okuyinkimbinkimbi.

I-INV OUT

• Lena inguqulo ehlanekezelwe ye-SUM Output. Ikuvumela ukuthi ushintshele emuva!

AMACEBISO NAMAQHINGA

• Imijikelezo emide ifinyelelwa ngamajika empendulo e-Logarithmic. Imisebenzi eshesha kakhulu, ebukhali kakhulu ifinyelelwa ngamajika okusabela Okuchasisayo.
• Ukulungiswa kwejika lokuphendula kuthinta i-Rise and Fall Times.
• Ukuze uthole i-Rise and Fall Times ende noma emifushane kunetholakala kokuthi Izilawuli Zephaneli, sebenzisa ivolumutage offset Kokufakwayo Kwesiginali Yokulawula. Sebenzisa i-CH. 2 noma 3 wale voltage.
• Sebenzisa okukhiphayo kwe-INV SUM lapho udinga ukuhlehliswa kwenguquko kodwa ungenazo izindlela zokuguqulela endaweni ye-CV (Hlanganisa Okokufaka kwe-CV ku-ECHOPHON, ngokwesibonelo.ample).
• Ukuphakela isignali ehlanekezelwe esuka ku-MATHS ibuyele ku-MATHS kunoma yikuphi okokufaka kwe-CV kuyasiza kakhulu ekudaleni izimpendulo ezingakhaviwe yi-Vari-Response control kuphela.
• Uma usebenzisa i-SUM kanye ne-OR Outputs, setha noma iyiphi i-CH engasetshenziswanga. 2 noma 3 kuya ku-12:00 noma faka ikhebula le-dummy patch kokokufaka Kwesiginali Yesiteshi esihlotshaniswayo ukuze ugweme ukuguquguquka okungafuneki.
• Uma kudingekile ukuthi isignali icutshungulwe noma yenziwe yi-CH. I-1, 4 iku-SUM, INV, kanye NOMA amabhasi FUTHI itholakala njengokuphumayo okuzimele, sebenzisa Okukhiphayo Kwesiginali Yobumbano, njengoba AKUJWAYELEKILE ku-SUM kanye NOMA Amabhasi.
• NOMA Okukhiphayo akuphenduli noma kukhiqize i-negative voltages.
• I-End of Rise and End of Cycle iwusizo ekukhiqizeni ivolumu yokulawula eyinkimbinkimbitage isebenza lapho CH. 1 kanye CH. 4 zibangelwa omunye nomunye. Ukuze wenze lokhu, namathisela i-EOR noma i-EOC kokufakiwe kwe-Trigger, Signal, kanye ne-Cycle kwezinye iziteshi.

PATCH IMIBONO

Ivolumu ejwayelekiletage Controlled Triangle Function (Triangle LFO)

1. Setha u-CH.1 (noma 4) kuMjikelezo. Setha i-Rise and Fall Panel Control kuze kube semini, i-Vari-Response to Linear.
2. Setha i-CH.2 Attenuverter ibe ngu-12:00.
3. Hlanganisa Okokufaka kwe-SUM kukho kokubili Okokufaka Kokulawula.
4. Ongakukhetha, sebenzisa noma yikuphi ukuguqulwa kwefrikhwensi okufunayo Kokufakwayo Kwesiginali ye-CH.3 futhi kancane ujike isibambisi sakho sibe sihamba newashi.
5. Khulisa i-CH.2 Attenuverter ukuze ushintshe Imvamisa.
6. Okukhiphayo kuthathwe kokuthi Okukhiphayo Kwesiginali Yesiteshi esihlobene.
7. Ukusetha amapharamitha wokukhuphuka nokuwa ngokuqhubekayo kunikeza imijikelezo emide. Ukusetha le mingcele ngokuqhubekayo ngokuphambene newashi kunikeza imijikelezo emifushane, kuze kufike kuzinga lomsindo.
8. Umsebenzi owumphumela ungase uqhubeke ucutshungulwa ngokuncishiswa kanye/noma ukuguqulwa yi-Attenuverter ehlobene. Kungenjalo, thatha okukhiphayo Kokuphumayo Kobunye Besiteshi Sokuhamba Ngebhayisikili bese unamathisela Okokufaka Okuguquguqukayo kuye Ekuphakameni noma Ukuwa kwe-CV Input ukuze uguqule umumo we-LFO nge-CH.1 (noma 4) Attenuverter.

Ivolumu ejwayelekiletage Controlled Ramp Umsebenzi (Saw/ Ramp LFO)

Ngokufanayo nangenhla, ipharamitha ye-Rise kuphela esethwe ngokuphambene ngokugcwele newashi, ipharamitha ye-Fall isethwe okungenani emini.

Voltage Controlled Transient Function Generator (Attack/ Decay EG)

• Ukushaya kwenhliziyo noma isango elisetshenziswa kokokufaka kwe-Trigger kwe-CH.1 noma 4 iqala umsebenzi wesikhashana Ophakama usuka ku-0V uye ku-10V ngesilinganiso esinqunywa ipharamitha ye-Rise bese wehla usuka ku-10V uye ku-0V ngesilinganiso esinqunywa ipharamitha yokuwa.
• Lo msebenzi uqaliseka kabusha phakathi nengxenye ewayo. I-Rise and Fall iyakwazi ukulawuleka ngokuzimela yobudala be-volt, nempendulo eguquguqukayo ukusuka ku-Log ukuya ku-Linear ukuya ku-Exponential, njengoba kusethwe yiphaneli ye-Vari-Response Control.
• Umsebenzi owumphumela ungase uqhubeke ucutshungulwa ngokuncishiswa kanye/noma ukuguqulwa yi-Attenuverter.

Voltage Controlled Sustained Function Generator (A/S/R EG)

• Isango elisetshenziswa kokokufaka Kwesiginali kwe-CH.1 noma 4 liqala umsebenzi, Elikhuphuka lisuka ku-0V liye ezingeni Lesango elisetshenzisiwe, ngesilinganiso esinqunywa ipharamitha Yokukhuphuka, Lisekela kuleyo zinga kuze kuphele isignali Yesango, bese liwa lisuka kuleyo zinga liye ku-0V ngesilinganiso esinqunywa ipharamitha Yokuwa.
• Rise and Fall zizimele voltage-controllable, enempendulo eguquguqukayo njengoba isethwe i-Vari-Re-sponse panel Control.
• Umsebenzi owumphumela ungase uqhubeke ucutshungulwa ngokuncishiswa kanye/noma ukuguqulwa yi-Attenuverter.

Isihloli Esiphakeme

1. Isignali yokunamathisela izotholwa ku-CH. 1 Okokufaka Kwesiginali.
2. Setha ukuvuka nokuwa kube ngu-3:00.
3. Thatha okukhiphayo kokuthi Okukhiphayo Kwesiginali. Okukhipha Isango kusuka ku-EOR Output.

Voltage Isibuko

1. Faka Isiginali Yokulawula ukuze ufaniswe ne-CH. 2 Okokufaka kwesignali.
2. Setha i-CH. 2 I-Attenuverter ku-CCW Egcwele.
3. Kungafakiwe lutho ku-CH. 3 Okokufaka kwesignali (ukwenza i-offset), setha CH. 3 I-Attenuvert-er ibe yi-CW egcwele.
4. Thatha okukhiphayo ku-SUM Output.

Ukulungiswa Kwegagasi Half

1. Faka isignali ye-bi-polar ku-CH. 1, 2, 3, noma 4 Okokufaka.
2. Thatha okukhiphayo kokuthi NOMA Okukhiphayo.
3. Qaphela izimo ezijwayelekile zebhasi NOMA.

Ivolumu ejwayelekiletage Controlled Pulse/Clock with Voltage Controlled Run/Stop (Iwashi, shayela i-LFO)

1. Okufanayo ne-Typical Voltage Umsebenzi Wonxantathu Olawulwayo, okukhiphayo kuphela okuthathwa ku-EOC noma ku-EOR.
2. Ipharamitha ye-CH.1 Rise ilungisa ngempumelelo imvamisa futhi ipharamitha yokuwa engu-CH.1 ilungisa ububanzi bokushaya kwenhliziyo.
3. Nge-CH.4, okuphambene kuyiqiniso, lapho i-Rise ilungisa kahle Ububanzi ne-Fall ilungisa imvamisa.
4. Kuzo zombili iziteshi, konke ukulungiswa kumapharamitha we-Rise and Fall kuthinta imvamisa.
5. Sebenzisa okokufaka kwe-CYCLE kokulawula i-Run/Stop.

Voltage Controlled Pulse Ukubambezeleka processor

1. Faka i-trigger noma isango ukuze uqalise okokufaka uma CH.1.
2. Thatha okukhiphayo ku-End Of Rise.
3. Ipharamitha yokukhuphuka isetha ukubambezeleka futhi ipharamitha ye-Fall ilungisa ububanzi be-pulse ewumphumela.

I-Arcade Trill (I-LFO eyinkimbinkimbi)

1. Setha i-CH4 Rise and Fall kuze kube emini, impendulo ku-Exponential.
2. Namathisela i-EOC kokuphindaphindiwe, bese kuba CH1 Icuphe Okokufaka kanye Nokufaka okungu-CH2.
3. Lungisa isilawuli sephaneli ye-CH2 sibe ngu-10:00.
4. Namathisela okokufaka kwe-CH2 kokungu-CH1 KOKUBILI Kokufaka.
5. Setha i-CH1 Rise ibe emini, Iwa ilingane ngokugcwele newashi, impendulo ku-Linear.
6. Bandakanya i-CH4 Cycle switch (i-CH1 akufanele ibe yibhayisikili).
7. Faka i-Unity Output CH1 endaweni yemodulation.
8. Lungisa i-CH1 Rise panel control ukuze uthole ukuhluka (izinguquko ezincane zinomthelela omkhulu emsindweni).

I-Chaotic Trill (idinga i-MMG noma esinye isihlungi se-Direct Coupled LP)

1. Qala ngesichibi se-Arcade Trill.
2. Setha i-CH.1 Attenuverter ibe ngu-1:00. Faka i-CH.1 Signal Output kokokufaka kwesignali ye-MMG DC.
3. Namathisela i-EOR ku-MMG AC Signal Input, isethwe kumodi ye-LP, akukho mpendulo. Qala nge-Freq ngokuphikisana newashi ngokugcwele.
4. Faka Okokufaka Kwesiginali ye-MMG kokuthi MATHS CH.4 Kokubili Okokufaka.
5. Pheshela CH.4 Okukhiphayo Okuguquguqukayo ku-CH.1 KOKUBILI Okokufaka kwe-CV.
6. Umphumela Wesiginali Yobumbano endaweni oya kuyo yokumodulisa.
7. I-MMG Freq kanye nezilawuli Zokufaka Zesiginali kanye ne-MATHS CH1 kanye ne-4 Attenuverters zinentshisekelo enkulu ngaphezu kwamapharamitha wokukhuphuka nokuwa.

281 Imodi (I-LFO eyinkimbinkimbi)

1. Kulesi siqeshana, i-CH1 ne-CH4 zisebenza ngokuhambisana ukuze zinikeze imisebenzi egudluzwe ngamadigri angamashumi ayisishiyagalolunye.
2. Ngawo womabili Ama-Cycle Switches, hlanganisa Ukuphela kwe-RISE (CH1) ukuze uqalise i-Inverter CH4.
3. Patch End of Cycle (CH4) ukuze Qalisa Okokufaka CH1.
4. Uma kokubili i-CH1 ne-CH4 ingaqali ukugibela ibhayisikili, bandakanya umjikelezo we-CH1 kafushane.
5. Ngazo zombili iziteshi ezihamba ngebhayisikili, sebenzisa imiphumela yazo yeSiginali eyahlukene ezindaweni ezimbili ezihlukene zokuguquguquka, ngokwesibonelo.ample, Iziteshi ezimbili ze-OPTOMIX.

Ivolumu ejwayelekiletage Imvilophu yohlobo lwe-ADSR elawulwayo

1. Faka isignali yeSango Kokufaka Isignali ye-CH1.
2. Setha i-CH1 Attenuverter ibe ngaphansi kwe-CW Egcwele.
3. Pakisha CH1 Ukuphela Kokukhuphuka kuya ku-CH4 Kokufaka Kokucupha.
4. Setha i-CH4 Attenuverter ku-CW Egcwele.
5. Thatha okukhiphayo kokuthi OR Okukhiphayo kwebhasi, qiniseka ukuthi i-CH2 ne-CH3 kusethwe emini uma ingasetshenziswa.
6. Kulesi siqeshana, i-CH1 ne-CH4 Rise zilawula Isikhathi Sokuhlasela. Ku-ADSR evamile, lungisa le mingcele ukuze ifane (Ukusetha i-CH1 Rise ibe yinde kune-CH4 noma ngokuphambene nalokho, kukhiqiza ukuhlasela okubilitages).
7. Ipharamitha ye-CH4 Fall ilungisa i-Decay stage yemvilophu.
8. I-CH1 Attenuverter isetha ileveli Yokusekela okufanele ibe ngaphansi kwaleyo pharamitha efanayo ku-CH4.
9. Ekugcineni, i-CH1 Fall isetha Isikhathi Sokukhishwa.

I-Bounce Ball, uhlelo lwango-2013 - sibonga u-Pete Speer

1. Setha i-CH1 Rise egcwele i-CCW, Fall ukuya ku-3:00, impendulo ku-Linear.
2. Setha i-CH4 Rise ngokugcwele ngokuphikisana newashi, Fall ukuya ku-11:00, impendulo ku-Linear.
3. Pakisha i-CH1 EOR kuya ku-CH4 Okokufaka Komjikelezo, kanye no-CH1 Okukhiphayo okuguquguqukayo ukuya ku-CH4 Fall Input.
4. Pheca Okukhiphayo kwe-CH4 ku-VCA noma Okokufaka kokulawula kwe-LPG.
5. Namathisela Isango noma umthombo we-Trigger (njengesango lokuthinta elisuka ku-Pressure Points) ukuya kokokufaka kwe-CH1 Trigger ukuze kuqalwe ngesandla "ukubhampa."
6. Lungisa i-CH4 Rise and Fall ukuze uthole okuhlukile.

I-Independent Contours - sibonga i-Navs

Ngokushintsha izinga ne-polarity Yokuphuma Okuguquguqukayo kwe-CH1/4 nge-Attenuverter, kanye nokuphakela leyo siginali ibuyele ku-CH1/4 Ekufakeni Kokulawula Ukunyuka noma Ukuwa, ukulawulwa okuzimele kwethambeka elihambisanayo kuyafinyelelwa. Thatha Okukhiphayo Kokuphumayo Kwesiginali Yobunye. Okungcono kakhulu ukuthi isilawuli sephaneli Yempendulo sethwe emini.

I-Independent Complex Contours

• Ngokufanayo nangenhla, kodwa ukulawula okwengeziwe kungenzeka ngokusebenzisa i-EOC noma i-EOR ukuze uqalise Isiteshi esiphambene futhi usebenzise i-SUM noma NOMA Okukhiphayo Ukuze Uphakame, Uwe, noma OKUBILI Kwesiteshi sokuqala.
• Shintsha i-Rise, Fall, Attenuversion, kanye nejika lokuphendula leziteshi eziphambene ukuze uzuze izimo ezihlukahlukene.

I-Asymmetrical Trilling Envelope - sibonga u-Walker Farrell

1. Bandakanya ukugibela ibhayisikili ku-CH1, noma sebenzisa isignali oyikhethile kusiqalisi sayo noma Okokufaka Kwesiginali.
2. Setha i-CH1 Ukuvuka nokuwa kuze kube semini ngempendulo Ewumugqa.
3. Pakisha i-CH1 EOR kuya ku-CH4 Okokufaka Komjikelezo.
4. Setha i-CH4 Rise ibe ngu-1:00 futhi Ekwindla iye ku-11:00, ngempendulo Ecacile.
5. Thatha okukhiphayo ku-OR (ngokuthi CH2 kanye ne-CH3 kusethwe emini).
6. Imvilophu ephumela "ine-trill" ngesikhathi sesigaba sokuwa. Lungisa amaleveli kanye nezikhathi zokuvuka/zokuwa.
7. Ngaphandle kwalokho, shintsha Amashaneli futhi usebenzise Okukhiphayo kwe-EOC kokokufaka Komjikelezo we-CH1 ukuze uthole i-trilling phakathi nengxenye yokukhuphuka.

Umlandeli Wemvilophu

1. Faka isignali ezolandelwa Kokufakwayo Kwesiginali CH1 noma 4. Misa Ukuvuka kube semini.
2. Setha futhi noma ulungise Isikhathi Sokuwa ukuze uzuze izimpendulo ezihlukene.
3. Thatha okukhiphayo Kokukhiphayo Kwesiginali Yesiteshi ukuze uthole Ukutholwa Okuphezulu okuhle nokubi.
4. Thatha okukhiphayo kokuthi NOMA Okukhiphayo kwebhasi ukuze uzuze umsebenzi ojwayelekile Womlandeli Wemvilophu Enhle.

Voltage Isiqhathanisi/Isango Lokukhipha w/ ububanzi obuguquguqukayo

1. Faka isignali ukuze iqhathaniswe Nokufakwayo Kwesiginali ye-CH3. Setha i-Attenuverter ibe ngaphezu kuka-50%.
2. Sebenzisa i-CH2 ukuze uqhathanise ivolumutage (ngokuthile okunamathiselwe noma ngaphandle kwayo).
3. Pheca Okukhiphayo kwe-SUM Kokufakwayo Kwesiginali ye-CH1.
4. Setha i-CH1 Rise and Fall ibe i-CCW ephelele. Thatha Isango elikhishiwe ku-EOR.
   • I-CH3 Attenuverter isebenza njengesilungiselelo seleveli yokufaka, amanani asebenzayo aphakathi kwasemini ne-CW Egcwele. I-CH2 isebenza njengesilungiselelo somkhawulo wamanani asebenzayo ukusuka ku-CCW Egcwele ukuya ku-12:00.
   • Amanani asondele ku-12:00 ama-threshold AMAPHANSI. Ukusetha i-Rise ngaphezulu kwe-CW, ungalibazisa Isango elitholiwe.
   • Ukusetha Ukuwa okwengeziwe CW kuyahlukahluka ububanzi beSango elitholiwe. Sebenzisa i-CH4 yesichibi somlandeli wemvilophu, kanye ne-CH3, 2 & 1 ngokukhipha iSango, futhi unohlelo olunamandla kakhulu lokucubungula isignali yangaphandle.

Ukulungiswa Kwegagasi Okugcwele

1. Isignali yokuphindaphinda izolungiswa kukho kokubili okokufaka okungu-CH2 noku-3.
2. I-CH2 Scaling/ Inversion isethwe ukuze ithi CW Egcwele, CH3 Ukukala/Ukuguqulwa kusethelwe ku-CCW Egcwele.
3. Thatha okukhiphayo kokuthi NOMA Okukhiphayo. Shintsha Isikali.

Ukuphindaphinda

1. Faka isiginali yokulawula ukuhamba kahle ukuze uphindaphindwe ku-CH1 noma Okokufaka Kwesiginali oku-4. Misa Ukuvuka ku-CW egcwele, Ukuwa ku-CCW Egcwele.
2. Faka Isiginali Yokulawula yesiphindaphinda esivumayo kokokufaka KOKUBILI kokulawula.
3. Thatha okukhiphayo kokuthi Okukhiphayo Kwesiginali okuhambisanayo.

I-Pseudo-VCA enesiqeshana - Thanx to Walker Farrell

1. Namathisela isignali yomsindo ku-CH1 Ngokuphakama Nokuwa ngokuphambene ngokugcwele newashi, noma ujikelezise u-CH1 ngesilinganiso somsindo.
2. Khipha okukhiphayo ku-SUM.
3. Setha ileveli yokuqala ngesilawuli sephaneli ye-CH1.
4. Setha i-CH2 yokulawula iphaneli egcwele i-CW ukuze ukhiqize i-offset engu-10V. Umsindo uqala ukuqoshwa futhi ungase uthule. Uma isazwakala, sebenzisa enye i-offset ephozithivu eyengeziwe ngesilawuli sephaneli ye-CH3 ize ithule.
5. Setha isilawuli sephaneli ye-CH4 ku-CCW egcwele futhi usebenzise imvilophu Kokufaka Isignali noma ukhiqize imvilophu ene-CH4.
   • Lesi siqeshana sidala i-VCA ene-asymmetrical clipping ku-waveform. Isebenza ne-CV futhi, kodwa qiniseka ukuthi ulungisa izilungiselelo zokufaka i-CV ukuze ubhekane ne-base offset enkulu. Okukhiphayo kwe-INV kungase kube usizo kakhulu kwezinye izimo.

Voltage Isihlukanisi Sewashi Esilawulwayo

• Isignali yewashi esetshenziswa Kokufaka Kokuqala CH1 noma 4 icutshungulwa yisihlukanisi njengoba kusethwe ipharamitha yokuKhuphuka.
• Ukwenyusa i-Rise kusetha isihlukanisi sibe phezulu, okuholela ekuhlukaniseni okukhulu. Isikhathi sokuwa silungisa ububanzi bewashi eliwumphumela. Uma Ububanzi bulungiswa ukuze bube bukhulu kunesikhathi esiphelele sokuhlukaniswa, okukhiphayo kuhlala "kuphezulu."

I-FLIP-FLOP (1-Bit Memory)

• Kulesi siqeshana, okokufaka kwe-CH1 Kokucupha kusebenza njengokufakwayo kokuthi “Setha”, futhi okuthi CH1 KOKUBILI Okokufaka Kokulawula kusebenza njengokuthi “Setha Kabusha” Okokufaka.
  1. Faka isignali yokusetha kabusha ku-CH1 KOKUBILI Okokufaka Kokulawula.
  2. Faka iSango noma isignali enengqondo Kokufaka I-CH1 Trigger. Misa i-Rise to Full CCW, Fall to Full CW, Vari-Re-sponse to Linear.
  3. Thatha "Q" okukhiphayo ku-EOC. Namathisela i-EOC ku-CH4 Signal ukuze uzuze okuthi “HHAYI Q” Ekuphumeni Kwe-EOC.
• Lesi siqeshana sinomkhawulo wenkumbulo cishe wamaminithi angu-3, ​​ngemva kwalokho sikhohlwa into eyodwa ositshele ukuthi siyikhumbule.

I-Logic Inverter

• Faka isango le-logic ku-CH. 4 Okokufaka kwesignali. Thatha okukhiphayo ku-CH. 4 EOC.

Isifanisi/Isikhiqizi Sesango (Ukuthatha Okusha)

1. Thumela isignali ezoqhathaniswa nokokufaka kwe-CH2.
2. Setha isilawuli sephaneli ye-CH3 kububanzi obunegethivu.
3. Hlanganisa i-SUM ikhiphe Kokufaka Isignali ye-CH1.
4. Setha i-CH1 Rise and Fall ibe ngu-0.
5. Thatha okukhiphayo ku-CH1 EOR. Qaphela i-polarity yesiginali nge-CH1 Unity LED. Uma isignali ihamba kahle, i-EOR iyahamba.
6. Sebenzisa isilawuli sephaneli ye-CH3 ukuze usethe umkhawulo. Ukuncishiswa okuthile kwe-CH2 kungase kudingeke ukuze kutholwe ibanga elilungile lesignali enikeziwe.
7. Sebenzisa i-CH1 Fall control ukuze wenze amasango abe made. I-CH1 Rise Control isetha ubude besikhathi lapho isignali okufanele ibe ngaphezu komkhawulo ukuze ikhube isiqhathanisi.

ISIQINISEKISO SOMKHAWULO

• Yenza i-Noise igunyaza ukuthi lo mkhiqizo ungabi nasici ezintweni ezisetshenziswayo noma ekwakhiweni unyaka owodwa kusukela ngedethi yokuthenga (kudingeka ubufakazi bokuthenga/i-invoyisi).
• Ukungasebenzi okubangelwa ukuhlinzekwa kwamandla okungalungile voltagukuxhunywa kwekhebula lebhasi lebhasi elibuyela emuva noma elihlehlisiwe, ukusetshenziswa kabi komkhiqizo, ukususa amafindo, ukushintsha amapuleti obuso, nanoma yiziphi ezinye izimbangela ezinqunywe yi-Make Noise njengephutha lomsebenzisi azikhaviwe yilesi siqinisekiso, futhi amanani esevisi ajwayelekile azosebenza. .
• Ngesikhathi sewaranti, noma imiphi imikhiqizo enamaphutha izolungiswa noma ishintshwe, uma kukhethwa i-Make Noise, lapho kubuyiselwa khona imisindo lapho ikhasimende likhokha izindleko zokuhamba ukwenza Umsindo.
• Ukwenza I-Noise kusho futhi akwamukeli isibopho sokulimaza abantu noma amathuluzi okudalwe ngokusebenza kwalo mkhiqizo.
• Sicela uxhumane technical@makenoisemusic.com nganoma yimiphi imibuzo, Buyisela Ukugunyazwa Komkhiqizi, noma yiziphi izidingo namazwana. http://www.makenoisemusic.com

Mayelana naleli Bhukwana:

• Ibhalwe nguTony Rolando
• Ihlelwe ngu-Walker Farrell
• Kufanekiswe ngu-W.Lee Coleman kanye no-Lewis Dahm Isakhiwo ngu-Lewis Dahm
• NGIYABONGA
• Usizo Lokuklama: Matthew Sherwood
• Umhlaziyi we-Beta: Walker Farrell
• Izihloko Zokuhlola: Joe Moresi, Pete Speer, Richard Devine

FAQ

• Q: Ingabe Izibalo zingasetshenziswa nama-synthesizer edijithali?
  • A: I-MATHS iklanyelwe ukusetshenziswa kwe-analog kodwa ingasebenzisana nama-synthesizers edijithali ngokusebenzisa amasignali eSango/Iwashi.
• Q: Ngingazenza kanjani izinguquko zetempo ngisebenzisa i-MATHS?
  • A: Ungakha izinguquko ze-tempo ngokusebenzisa imisebenzi ye-Envelope kanye nokulinganisa umthamotagkwe ramp phezulu noma phansi ku-tempo.
• Q: Iyini inhloso Yokufaka Komjikelezo?
  • A: Okokufaka Komjikelezo kuvumela ivolumutage ukulawulwa kwesifunda Somjikelezo Kuziteshi 1 no-4, okuvumela ukuhamba ngebhayisikili ngokusekelwe kumasiginali we-Gate.

Amadokhumenti / Izinsiza

YENZA UMSINDO IMaths Complex Function Generator Eurorack Module [pdf] Incwadi Yeziqondiso I-Maths Complex Function Generator i-Eurorack Module, iMaths, Complex Function Generator Eurorack Module, Function Generator Eurorack Module, Generator Eurorack Module, Eurorack Module

Izithenjwa

• Imaniwali yosebenzisayo