YENZA INGXELO yeMathematika eNxaxheba uMjeneyitha weModyuli ye-Eurorack

Iinkcukacha

• Igama lemveliso: Izibalo
• Uhlobo: IKhompyutha yeAnalog yeeNjongo zoMculo
• Imisebenzi: Umqulutage Imvulophu eLawulwayo, i-LFO, i-Signal Processing, isiZukulwana soMqondiso
• Uluhlu lokufaka: +/- 10V

Imiyalelo yokusetyenziswa kwemveliso

Ukuhlohla

Phambi kofakelo, bhekisa kwinkcukacha zomenzi wakho wendawo yonikezelo olubi. Qinisekisa uqhagamshelo lwamandla olululo.

Ngaphezuluview

I-MATHS yenzelwe iinjongo zomculo kwaye inikezela ngemisebenzi eyahlukeneyo kubandakanya ukuvelisa imisebenzi, ukudibanisa imiqondiso, ampukunyusa, ukunciphisa, ukuguqula imiqondiso, kunye nokunye.

Iphaneli yokulawula

1. Igalelo lomqondiso: Sebenzisa iLag, Portamento, kunye ne-ASR imvulophu. Uluhlu +/-10V.
2. Qalisa igalelo: Isango okanye i-Pulse ibangela isiphaluka ukuvelisa i-Envelopes, i-Pulse Delay, iCandelo leClock, kunye ne-LFO Reset.

Ukuphakama, Ukuwa, kunye ne-Vari-Impendulo

• I-Rise, Fall, kunye ne-Vari-Response parameters ichaza iimpawu zeMvulophu eveliswa yi-Trigger Input.

Iziphumo zoMqondiso

• Imveliso inika iziphumo zomqondiso ezahlukeneyo ezibandakanya iMvulophu, uLwahlulo lweClock, kunye nokunye. Jonga kwimanuwali ngezimvo ezineenkcukacha zesiqwenga.

Iingcebiso & namaqhinga

• Phonononga ukudibanisa imiqondiso eyahlukeneyo yolawulo ukwenza iimodyuli ezinzima. Linge ngokumodareyitha voltages kunye nokuvelisa iziganeko zomculo ezisekelwe kwintshukumo yentshukumo ngaphakathi kwenkqubo.

Patch Ideas

• Jonga kwimanuwali kwiindlela zoyilo zokudibanisa iMATHS nezinye iimodyuli ezikwinkqubo yakho ukuvelisa isandi esisodwa kunye namathuba oguqulo.

UKUFAKWA

Ingozi yombane!

• Ngalo lonke ixesha cima i-Eurorack case kwaye ukhuphe intambo yombane phambi kokuba uplage okanye ukhuphe nayiphi na intambo yoqhagamshelo lwebhodi yebhasi ye-Eurorack. Ungachukumisi naziphi na iitheminali zombane xa uncamathela nayiphi na intambo yebhodi yebhasi ye-Eurorack.
• I-Make Noise MATHS yimodyuli yomculo we-elektroniki efuna i-60mA ye-+12VDC kunye ne-50mA ye-12VDC elawulwayo yevolthi.tage kunye nesixhobo sokuhambisa esifomathwe ngokufanelekileyo ukuze sisebenze. Kufuneka ifakwe ngokufanelekileyo kwifomati ye-Eurorack yemodyuli yenkqubo ye-synthesizer.
• Yiya e http://www.makenoisemusic.com/ umzekeloamples of Eurorack Systems kunye Cases.
• Ukufakela, fumana i-20HP kwimeko yakho ye-synthesizer ye-Eurorack, qinisekisa ukufakwa ngokufanelekileyo kwentambo yokudibanisa ibhodi yebhasi ye-Eurorack ngasemva kwimodyuli (jonga umfanekiso ongezantsi), kwaye udibanise intambo yebhodi yebhasi kwibhodi yebhasi ye-Eurorack, ukhumbule i-polarity ukwenzela ukuba umgca RED kwikhebula ujoliswe kwi-NEGATIVE 12 yemodyuli kunye nomgca we-volt kwibhodi zombini.
• Kwi-Make Noise 6U okanye 3U Busboard, i-negative 12 Volt line iboniswa ngumgca omhlophe.
• Nceda ubhekisele kwinkcukacha zomenzi wemeko yakho yendawo yonikezelo olungalunganga.

PHEZULUVIEW

I-MATHS yikhompyutha ye-analog eyenzelwe iinjongo zomculo. Phakathi kwezinye izinto, ikuvumela ukuba:

1. Veza iintlobo ngeentlobo zemigca, i-logarithmic, okanye i-exponential exponential okanye imisebenzi eqhubekayo.
2. Hlanganisa isignali engenayo.
3. Amplify, nciphisa, kwaye Jikela umqondiso ongenayo.
4. Yongeza, thabatha, kunye OKANYE ukuya kwiisignali ezi-4.
5. Ukuvelisa imiqondiso ye-analog kulwazi lwedijithali (Isango/Ikloko).
6. Ukuvelisa ulwazi lwedijithali (Isango/Ikloko) kwiimpawu ze-analog.
7. Libazise ulwazi lwedijithali (Isango/Ikloko).

Ukuba olu luhlu lungasentla lufundeka njengesayensi kunomculo, nantsi inguqulelo:

1. Umqulutage Imvulophu elawulwayo okanye i-LFO icotha njengemizuzu engama-25 kwaye ngokukhawuleza njenge-1khz.
2. Faka iLag, Slew, okanye iPortamento ukulawula umthamotages.
3. Guqula ubunzulu bomodareyitha kwaye uhlengahlengise ngasemva!
4. Dibanisa ukuya kuthi ga kwiimpawu zokulawula ezi-4 ukwenza iimodyuli ezinzima ngakumbi.
5. Iziganeko zoMculo ezifana noRampukubala phezulu okanye ezantsi kwiTempo, ngokomyalelo.
6. Ukuqalisa imisitho yoMculo emva kokuva intshukumo kwinkqubo.
7. Icandelo lenqaku lomculo kunye/okanye neFlam.

Uhlaziyo lwe-MATHS luka-2013 luyinzala ethe ngqo ye-MATHS yoqobo, yabelana ngesekethe engundoqo efanayo kwaye ivelisa zonke iisignali zolawulo ezimangalisayo ebikwazile ukuyivelisa eyokuqala, kodwa ngohlaziyo oluthile, ukongeza, kunye nenguquko.

1. Uyilo lolawulo lutshintshiwe ukuze lube lula ngakumbi kwaye lusebenze ngakumbi ?ngokuguquguqukayo kunye ne-CV Bus kunye neemodyuli ezikhoyo kwinkqubo yethu efana ne-DPO, MMG, kunye ne-ECHOPHON.
2. Isalathiso se-LED semiqondiso siphuculwe ukuze sibonise zombini ivolthi elungileyo kunye nebitages kunye nokwandisa isisombululo somboniso. Nokuba vol encincitagziyafundeka kwezi LEDs.
3. Njengoko Yenza ingxolo ngoku ibonelela ngoPhiko lweMphumo yoMqondiso eZininzi (ukusuka kwiMATHS yoqobo) itshintshelwe kwiPhumo loMqondiso woManyano. Ivumela ukudala iinguqu ezimbini zemveliso, enye kubunye kunye nenye njengoko iqhutywe nge-Attenuverter. Kwakhona ivumela lula ekubambeni iimpendulo umsebenzi akunakwenzeka kunye Vari-Response ulawulo yedwa (bona pg. 13).
4. Imveliso ye-SUM eGuquliweyo yongezwe kumathuba amakhulu okuguqula.
5. Isalathiso se-LED se-Sum Bus yongezwe ukwenzela ulwazi olwandisiweyo ngophawu.
6. Isalathiso se-LED songezwa ukubonisa imeko yokuphela kokunyuka kunye nokuphela koMjikelo.
7. I-End-of-Cycle Output ngoku ikhuselwe ukuphuculwa kozinzo lwesekethe.
8. Ukhuseleko lwamandla ongeziweyo.
9. Kongezwe +/-10V uluhlu lokulinganisa. Umsebenzisi unokhetho lwe-+/-10V offset kwi-CH. 2 okanye +/-5V offset kwi CH. 3.
10. Kongezwe uluhlu olukhulu lweLogarithmic kulawulo lwe-Vari-Response evumela isimbo sase-East Coast Portamen-to.
11. I-evolution kwisekethe yi-Cycle Input evumela i-voltage ulawulo loMjikelo karhulumente kwiiChaneli 1 kunye 4. KwiSango eliPhezulu, iMijikelo yeMATHS. KwiSango elisezantsi, iMATHS ayiBhayisisi (ngaphandle kokuba iqhosha lokujikela lifakiwe).

PANEL ULAWULO

1. Igalelo lomqondiso: Ngokuthe ngqo Igalelo elidibeneyo kwisekethe. Ukusetyenziswa kweLag, iPortamento, i-ASR (i-Attack Sustain Release type envelopes). Kwakhona, igalelo kwiSum/OR Bus. Uluhlu +/-10V.
2. Qalisa igalelo: Isango okanye iPulse esetyenzisiweyo kolu galelo ibangela isekethe kungakhathaliseki ukuba yintoni na eyenziwayo kwi-Signal Input. Isiphumo singu-0V ukuya kwi-10V umsebenzi, aka Imvulophu, iimpawu zayo ezichazwe yi-Rise, Fall, kunye ne-Vari-Response parameters. Ukusetyenziswa kwimvulophu, i-Pulse Delay, iCandelo leClock, kunye ne-LFO yokuSeta kwakhona (kuphela ngexesha lokuwa kwesahlulo).
3. Umjikelo we-LED: Iibonisa i-Cycle ON or OFF.
4. Iqhosha lokujikelisa: Ibangela ukuba isekethe izenzele umjikelo, ngaloo ndlela ivelisa ivolthi ephinda-phindayotage umsebenzi, aka LFO. Sebenzisa i-LFO, iClock, kunye neVCO.
5. Phakamisa ulawulo lwePaneli: Iseta ixesha elithatha umqulutage umsebenzi ku-ramp phezulu. Ukujikeleza kweCW kwandisa Ixesha lokunyuka.
6. Nyusa iNgeniso yeCV: Ungeniso lwesignali yomgca yolawulo lwe-Rise parameter. Iimpawu zolawulo olulungileyo zonyusa iXesha lokuPhakamisa, kunye neempawu zolawulo eziNegative ziyancipha ukuPhakamisa kweXesha malunga noseto lolawulo lwephaneli yokuNyuka. Uluhlu +/-8V.
7. Ulawulo lwePhaneli yokuwa: Iseta ixesha elithatha umqulutage umsebenzi ku-ramp phantsi. Ukujikeleza kweCW kwandisa Ixesha lekwindla.
8. Zombini igalelo leCV: Igalelo lolawulo lwe-Bi-Polar yophawu lomsebenzi wonke. Ngokuchasene nokuPhakamisa nokuwa kweeNgeniso zeCV, ZOMBINI zinempendulo ye-Exponential kunye neempawu zokulawula eziPositive zinciphisa ixesha elipheleleyo ngelixa iimpawu zolawulo olubi zonyusa ixesha elipheleleyo. Uluhlu +/-8V.
9. Igalelo leCV yokuwa: Igalelo lophawu lolawulo lwelayini lweparamitha yokuwa. Iimpawu zolawulo ezilungileyo zonyusa ixesha lokuwa, kunye neempawu zokulawula eziNegative ziyancipha Ixesha lokuwa malunga nolawulo lwephaneli yokuwa. Uluhlu +/-8V.

MATHS Ijelo loku-1

1. Iphaneli yoLawulo lokuphendula ngeVari: Ucwangcisa ijiko lokuphendula lomthamotage umsebenzi. Impendulo iyaguquguquka ngokuqhubekayo ukusuka kwiLogarithmic ukuya kwiLinear ukuya kwi-Exponential ukuya kwi-Hyper-Exponential. Uphawu lokuTikisha lubonisa isethingi yomgca.
2. Ungeniso lokujikeleza: KwiSango ELIPHAKAMILEYO, Iibhayisekile ziqhubeke. KwiSango ELIPHANTSI, IMATHS ayiBhayisisi (ngaphandle kokuba iqhosha lokujikela lifakiwe). Ifuna ubuncinane +2.5V ku HIGH.
3. I-LED EOR: Ibonisa iimeko zesiphumo se-EOR. Izibane xa EOR PHEZULU.
4. Ukuphela kokunyuka Imveliso (EOR): Iya phezulu ekupheleni kokunyuka kwesahlulo somsebenzi. 0V okanye 10V.
5. Ubunye be-LED: Ibonisa umsebenzi ngaphakathi kwisekethe. Umthamo olungileyotages eluhlaza, kunye ne-negative voltagzibomvu. Uluhlu +/-8V.
6. Isiphumo soMqondiso woManyano: Umqondiso ovela kwiSekethe ye-Channel 1. 0-8V xa uBhayisekile. Kungenjalo, le mveliso ilandela i ampubukhulu begalelo.

MATHS Ijelo loku-4

1. Qalisa igalelo: Isango okanye iPulse esetyenzisiweyo kweli galelo libangela isekethe kungakhathaliseki ukuba yintoni umsebenzi kwi-Signal Input. Isiphumo singu-0V ukuya kwi-10V umsebenzi, aka Imvulophu, iimpawu zayo ezichazwe yi-Rise, Fall, kunye ne-Vari-Response parameters. Ukusetyenziswa kwimvulophu, i-Pulse Delay, iCandelo leClock, kunye ne-LFO yokuSeta kwakhona (kuphela ngexesha lokuwa kwesahlulo).
2. Igalelo lomqondiso: Ngokuthe ngqo Igalelo elidibeneyo kwisekethe. Ukusetyenziswa kweLag, iPortamento, i-ASR (i-Attack Sustain Release type envelopes). Kwakhona, igalelo kwiSum/OR Bus. Uluhlu +/-10V.
3. Umjikelo we-LED: Ibonisa i-Cycle ON okanye IVILE.
4. Iqhosha lokujikelisa: Ibangela ukuba isekethe izenzele umjikelo, ngaloo ndlela ivelisa ivolthi ephinda-phindayotage umsebenzi, aka LFO. Sebenzisa i-LFO, iClock, kunye neVCO.
5. Ulawulo lwePaneli yokunyuka: Ucwangcisa ixesha elithatha umqulutage umsebenzi ku-ramp phezulu. Ukujikeleza kweCW kwandisa Ixesha lokunyuka.
6. Nyusa iNgeniso yeCV: Ukufakwa kwesiginali yolawulo lwelayini yokuPhakamisa ipharamitha. Iimpawu zolawulo olulungileyo zonyusa iXesha lokuPhakamisa, kunye neempawu zolawulo eziNegative ziyancipha ukuPhakamisa kweXesha malunga noseto lolawulo lwephaneli yokuNyuka. Uluhlu +/-8V.
7. Ulawulo Lwephaneli Yokuwa: Ucwangcisa ixesha elithatha umqulutage umsebenzi ku-ramp phantsi. Ukujikeleza kweCW kwandisa Ixesha lekwindla.
8. Zombini igalelo leCV: Igalelo lolawulo lwe-Bi-Polar yophawu lomsebenzi wonke. Ngokuchasene nokuPhakamisa nokuwa kweeNgeniso zeCV, ZOMBINI zinempendulo ye-Exponential kunye neempawu zokulawula eziPositive zinciphisa ixesha elipheleleyo ngelixa iimpawu zolawulo olubi zonyusa ixesha elipheleleyo. Uluhlu +/-8V.
9. Igalelo leCV: Ungeniso lwesignali yomgca yolawulo lweparameter yokuwa. Iimpawu zolawulo ezilungileyo zonyusa ixesha lokuwa, kunye neempawu zokulawula eziNegative ziyancipha Ixesha lokuwa malunga nolawulo lwephaneli yokuwa. Uluhlu +/-8V.

MATHS Ijelo loku-4

1. Iphaneli yoLawulo lokuphendula ngeVari: Ucwangcisa ijiko lokuphendula lomthamotage umsebenzi. Impendulo iyaguquguquka ngokuqhubekayo ukusuka kwiLogarithmic ukuya kwiLinear ukuya kwi-Exponential ukuya kwi-Hyper-Exponential. Uphawu lokuTikisha lubonisa isethingi yomgca.
2. Ungeniso lokujikeleza: KwiSango ELIPHAKAMILEYO, Iibhayisekile ziqhubeke. KwiSango ELIPHANTSI, IMATHS ayiBhayisisi (ngaphandle kokuba iqhosha lokujikela lifakiwe). Ifuna ubuncinane +2.5V ku HIGH.
3. I-LED ye-EOC: Ibonisa iimeko zeSiphelo sokuPhuma koMjikelo. Izibane xa i-EOC iPhakamileyo.
4. Qeda isiphumo soMjikelo (EOC): Iya phezulu ekupheleni kwesahlulo sokuwa komsebenzi. 0V okanye 10V.
5. Ubunye be-LED: Iibonisa umsebenzi ngaphakathi kwisekethe. Umthamo olungileyotages eluhlaza, kunye ne-negative voltagzibomvu. Uluhlu +/-8V.
6. Isiphumo soMqondiso woManyano: Umqondiso ovela kwiSekethe ye-Channel 4. 0-8V xa uBhayisekile. Kungenjalo, le mveliso ilandela i ampubukhulu begalelo.

I-SUM kunye ne-OR Ibhasi

1. Ungeniso oluManyanisiweyo lweSitishi esi-2 ngokuNgqongileyo: Yenzelwe ukuba ibeye +10V ireferensi yokuvelisa umthamotage offsets. Uluhlu lweeNgeniso +/-10Vpp.
2. Ungeniso oluManyanisiweyo lweSitishi esi-3 ngokuNgqongileyo: Yenzelwe ukuba ibeye +5V ireferensi yokuvelisa umthamotage offsets. Uluhlu lweeNgeniso +/-10Vpp.
3. CH. 1 Ulawulo lweAttenuverter: Ibonelela ngokukalwa, ukuthomalalisa, kunye nokuguqulwa komqondiso ocutshungulwayo okanye owenziwe yi-CH. 1. Iqhagamshelwe kwi-CH. 1 Isiphumo esiguquguqukayo kunye neSambuku / okanye ibhasi.
4. CH. 2 Ulawulo lweAttenuverter: Ibonelela ngokunciphisa, ukunciphisa, ampukunyuswa, kunye nokuguqulwa kwepatch yomqondiso kwi-CH. 2 Ungeniso loMqondiso. Ngaphandle komqondiso okhoyo, ulawula umgangatho wesethi eyenziwe yi-CH. 2.
   • Iqhagamshelwe kwi-CH. 2 Imveliso eguquguqukayo kunye neSambuku/OKANYE Ibhasi.
5. CH. 3 Ulawulo lweAttenuverter: Ibonelela ngokunciphisa, ukunciphisa, ampukunyuswa, kunye nokuguqulwa kwepatch yomqondiso kwi-CH. 3 Ungeniso loMqondiso. Ngaphandle komqondiso okhoyo, ulawula umgangatho we-offset owenziwe yi-CH. 3.
   • Iqhagamshelwe kwi-CH. 3 eguquguqukayo OUT kunye neSam/OKANYE Ibhasi.
6. CH. 4 Ulawulo lweAttenuverter: Ibonelela ngokukalwa, ukuthomalalisa, kunye nokuguqulwa komqondiso ocutshungulwayo okanye owenziwe yi-CH. 4. Iqhagamshelwe kwi-CH. 4 Imveliso eguquguqukayo kunye neSambuku/OKANYE Ibhasi.

I-SUM kunye ne-OR Ibhasi

1. CH. 1-4 Iziphumo eziguquguqukayo: Isignali esetyenzisiweyo icutshungulwa ngolawulo oluhambelanayo lweshaneli. Iqhelekile ukuya kwi-SUM kunye OKANYE neebhasi. Ukufaka intambo yokubopha kususa umqondiso kwi-SUM kunye ne-OR iibhasi. Uluhlu Lwemveliso +/-10V.
2. OKANYE Imveliso yebhasi: Isiphumo se-Analog Logic OKANYE umsebenzi kwiisetingi zolawulo lwe-attenuverter kwiiChannels 1, 2, 3, kunye ne-4. Uluhlu lwe-0V ukuya kwi-10V.
3. Ukuphuma kwebhasi ye-SUM: Isimbuku somqulu osetyenziswayotages ukuya kwizicwangciso zolawulo lwe-attenuverter ye-Channels 1, 2, 3, kunye ne-4. Uluhlu +/-10V.
4. Isiphumo esiguqulweyo se-SUM: Umqondiso osuka kwi-SUM Isiphumo sijikiselwe phezulu. Uluhlu +/-10V.
5. IiLED zebhasi zeSUM: Bonisa umqulutagumsebenzi kwibhasi ye-SUM (kwaye ke, i-SUM eguqulweyo ngokunjalo). I-LED ebomvu ibonisa ivolthi engalungangatages. I-LED eluhlaza ibonisa ivolthi elungileyotages.

NDIYAQALISA

Izibalo zibekwe phezulu ukuya ezantsi, zineempawu ezilinganayo phakathi kwe-CH. I-1 kunye ne-4. Igalelo lesignali liphezulu, lilandelwa lulawulo lwephaneli kunye neengeniso zesignali zokulawula phakathi. Iziphumo zesignali zisezantsi kwimodyuli. Ii-LED zibekwe kufuphi nomqondiso abawubonisayo. Imijelo ye-1 kunye ne-4 inokukala, iguqule, okanye idibanise isignali engenayo. Ngaphandle kophawu olusetyenzisiweyo, ezi Chan-neli zinokwenziwa ukuba zenze iindidi zemigca, i-logarithmic, okanye imisebenzi ye-exponential xa kusamkelwa isiqhushumbisi, okanye ngokuqhubekayo xa uMjikelo ubandakanyeka. Umehluko omnye omncinci phakathi kwe-CH. U-1 no-4 ukwiPulse Outputs zabo ngokwahlukeneyo; I-CH.1 ene-End of Rise kunye ne-CH. 4 ukuba nesiphelo soMjikelo. Oku kwenzelwa ukuququzelela ukuyilwa kwemisebenzi entsonkothileyo kusetyenziswa zombini i-CH. I-1 kunye ne-4. Imijelo ye-2 kunye ne-3 inokulinganisa, amplify, kwaye ujike uphawu olungenayo. Ngaphandle kophawu lwangaphandle olusetyenzisiweyo, ezi Channels zivelisa i-DC offsets. Umahluko kuphela phakathi kwe-CH. I-2 kunye ne-3 kukuba i-CH. 2 yenza i- +/- 10V iseti ngelixa i-Ch. I-3 yenza i-+/-5V offset.
Zonke iitshaneli ezi-4 zineziphumo (ezibizwa ngokuba yiZiphumo eziGuquguqukayo) eziye zenziwa zesiqhelo kwi-SUM, i-SUM eguqulweyo, kunye ne-OR ibhasi ukuze ukudibanisa, ukuthabatha, ukuguqulwa, kunye ne-analog ye-analog OKANYE ii-manipulations zibe nokuphunyezwa. Ukufaka iplagi kwezi sokethi zeZiphumo eziGuquguqukayo kususa isignali ehambelanayo kwi-SUM kunye ne-OR ibhasi (I-Channel 1 kunye ne-4 zineziphumo zobumbano, ezingaqhelaniswanga kwi-SUM kunye OKANYE ibhasi). Ezi ziphumo zilawulwa yi-4 Attenuverters embindini wemodyuli.

Igalelo lomqondiso

La magalelo onke adityaniswa ngokuthe ngqo kwisekethe enxulumene nawo. Oku kuthetha ukuba banokudlula zombini imiqondiso yomsindo kunye nokulawula. La magalelo asetyenziselwa inkqubo yolawulo lwangaphandle voltages. CH. I-1 kunye ne-4 iNgeniso yoMqondiso inokusetyenziselwa ukuvelisa iimvulophu zoHlaselo/Uzinziso/Ukukhutshwa kumqondiso wesango. Imijelo yesi-2 kunye ne-3 nayo iqhelekile ukuba ibe ngumthamotage ireferensi ukuze kungekho nto ikhutshiweyo kwigalelo, elo jelo lingasetyenziselwa ukuveliswa kwevoltage offsets. Oku kuluncedo ekutshintsheni kwinqanaba umsebenzi okanye enye imiqondiso ekwelinye iShaneli ngokudibanisa i-voltage offset kulo mqondiso kwaye uthatha Isiphumo se-SUM.

Yenza igalelo

CH. U-1 no-4 nabo banegalelo le-Trigger. Isango okanye i-pulse esetyenzisiweyo kweli galelo lidala isiphaluka esihambelanayo kungakhathaliseki ukuba yintoni umsebenzi kwiiNgeniso zoMqondiso. Isiphumo singu-0V ukuya kwi-10V umsebenzi, aka Imvulophu, iimpawu zayo ezichazwe yi-Rise, Fall, Vari-Response, kunye ne-Attenuverter parameters. Lo msebenzi uphakama ukusuka kwi-0V ukuya kwi-10V kwaye ngoko nangoko uwela kwi-10V ukuya kwi-0V. AKUKHO UKUZINDLA. Ukufumana umsebenzi wemvulophu ozinzileyo, sebenzisa iNgeniso yoMqondiso (jonga ngasentla). I-MATHS iphinda ibangele ngexesha eliwayo lomsebenzi kodwa AYIKUVUSELELA kwakhona kwindawo enyukayo yomsebenzi. Oku kuvumela ulwahlulo lwewotshi kunye nesango njengoko iMATHS inokucwangciswa ukuba ingahoyi iiwotshi ezingenayo kunye namasango ngokumisela iXesha lokuPhuma ukuba libe likhulu kunexesha eliphakathi kweewotshi ezingenayo kunye/ okanye iiGate.

Umjikelo

IQhosha lomjikelo kunye neNgeniso yomjikelo zombini zenza into enye: zenza i-MATHS i-self-oscillate aka uMjikelo, ngamagama nje amnandi e-LFO! Xa ufuna i-LFO, yenza uMjikelo weMATHS.

RISE FALL VARI-IMPENDULO

• Olu lawulo lubumba umqondiso ophuma kwiSiphumo soMqondiso woManyano kunye neZiPhumo eziGuquguqukayo ze-CH. I-1 kunye ne-4. Ulawulo lwe-Rise and Fall lumisela ukuba isantya okanye ukucotha kwesekethe iphendula kangakanani kwiimpawu ezifakwe kwi-Signal Input kunye ne-Trigger Input. Uluhlu lwamaxesha likhulu kuneMvulophu eqhelekileyo okanye iLFO. I-MATHS idala imisebenzi ecothayo njengemizuzu ye-25 (Ukunyuka nokuwa kweCW epheleleyo kunye neempawu zolawulo lwangaphandle zongezwa ukuya kwi-"slow-ver-drive") kwaye ngokukhawuleza njenge-1khz (izinga lomsindo).
• Ukunyuka kumisela inani lexesha elithathwa yisekethe ukuhamba ukuya kuthi ga kwivolthi ephezulutage. Xa ukuqaliswa isekethe iqala kwi-0V kwaye ihamba ukuya kuthi ga kwi-10V. Ukunyuka kumisela ukuba kuthatha ixesha elingakanani ukuba oku kwenzeke. Xa isetyenziselwa ukucubungula ulawulo lwangaphandle voltages isignali esetyenzisiweyo kwiNgeniso yoMqondiso mhlawumbi iyanda, iyancipha, okanye ikwimo ezinzileyo (ungenzi nto). Ukunyuka kumisela ukuba lo mqondiso unokwanda ngokukhawuleza kangakanani. Inye into i-MATHS ayinako ukuyenza kukukhangela kwikamva ukuze yazi apho isignali yolawulo lwangaphandle ibhekisa khona, ngoko ke iMATHS ayinako ukunyusa umlinganiselo wevolthi yangaphandle.tage iyatshintsha/ ishukuma, ingenza kuphela into yangoku kwaye iyicothise (okanye iyivumele ukuba idlule ngesantya esifanayo).
• Ukuwa kumisela inani lexesha elithathwa yisekethe ukuhla ukuya kumthamo omncincitage. Xa kusenziwa umqulutagI-e iqala kwi-0V kwaye ihambe ukuya kwi-10V, kwi-10V i-threshold ephezulu ifikelelwe kunye ne-voltage iqala ukuhla umva ukuya ku-0V. Ukuwa kumisela ukuba kuthatha ixesha elingakanani ukwenza oku. Xa isetyenziselwa ukucubungula ulawulo lwangaphandle voltages isignali esetyenzisiweyo kwiNgeniso yoMqondiso mhlawumbi iyanda, iyancipha, okanye ikwimo ezinzileyo (ungenzi nto). Ukuwa kumisela ukuba umqondiso unokwehla ngokukhawuleza kangakanani. Kuba ingenako ukujonga kwikamva ukwazi apho umqondiso wolawulo lwangaphandle ubhekisa khona, iMATHS ayinako ukunyusa izinga levolthi yangaphandle.tage iyatshintsha/ ishukuma, ingenza kuphela into yangoku kwaye iyicothise (okanye iyivumele ukuba idlule ngesantya esifanayo).
• Zombini iRise and Fall zinamagalelo eCV azimeleyo kwivoltage ulawulo phezu kwezi parameters. Ukuba ukuthotywa kuyafuneka, sebenzisa i-CH. 2 okanye CH. 3 kuthotho ukuya kwindawo oyifunayo. Ukongeza kwiInputs yeCV yokuKhuphuka nokuwa, kukwakho namaNgeniso eCV omabini.
• Zombini igalelo leCV litshintsha umyinge womsebenzi wonke. Ikwaphendula ngokungafaniyo noKunyuka nokuwa kweeNgeniso zeCV. Umthamo oncomekayo ngakumbitages yenza wonke umsebenzi ube mfutshane kunye nomthamo ongalungangatages yenza wonke umsebenzi ube mde.
• I-Vari-response ibumba amaxabiso angentla otshintsho (Ukunyuka/Ukuwa) ukuba yiLogarithmic, Linear, okanye Exponential (nayo yonke into ephakathi kwezi milo).
• Ngempendulo yeLOG, izinga lotshintsho liyancipha njengoko i-voltage yongeza.
• Ngempendulo ye-EXPO, izinga lokutshintsha liyanda njengoko i-voltage yongeza. Impendulo yomgca ayinalo utshintsho kwireyithi njengoko voltage utshintsho.

IZIPHUMO EZIPHAWULAYO

• Zininzi iziphumo ezahlukeneyo zemiqondiso kwiMATHS. Zonke zikwimodyuli esezantsi. Uninzi lwazo zinee-LED ezikufutshane ukuze zibonise imiqondiso.

Ukuphuma okuguquguqukayo

• Ezi ziphumo zibhalwe 1, 2, 3, kunye ne-4 kwaye zidityaniswa nezine zolawulo lwe-Attenuverter embindini wemodyuli. Ezi ziphumo zonke zimiselwa luseto lolawulo olunxulumeneyo, umz. iCH. 1 ngokusebenzisa 4 Attenuverter ulawulo.
• Zonke ezi jakhi ziqhelekile kwi-SUM kunye ne-OR Bus. Akukho nto ikhutshiweyo kwezi ziphumo, isignali ehambelana nayo ifakwe kwi-SUM kunye ne-OR Bus. Xa upeya intambo kuyo nayiphi na yezi jakhi zemveliso, uphawu oluhambelanayo luyasuswa kwi-SUM kunye ne-OR Bus. Ezi ziphumo ziluncedo xa unendawo yokumodareyitha apho kungekho luyekelelo okanye uguqulo olukhoyo (amagalelo eCV kwiMATHS okanye FUNCTION iimodyuli ze ex.ample).
• Zikwaluncedo xa ufuna ukwenza ukwahluka komqondiso okwahlukileyo ampimfundo okanye isigaba.

NGAPHANDLE

• Esi sisiphelo sokuKhuphuka kweZiphumo ze-CH. 1. Lo ngumqondiso wesiganeko. Kuphakathi kwe-0V okanye i-10V kwaye akukho nto phakathi. Ayigqibekanga ukuya ku-0V, okanye Phantsi xa kungekho msebenzi.
• Isiganeko kule meko kuxa iChannel ehambelana nayo ifikelela kwelona nani liphezulutage apho ihamba khona. Olu luphawu olulungileyo lokukhetha i-LFO yokuvala okanye iPulse-shaped LFO.
• Ikwaluncedo kuLibaziseko lwePulse kunye nolwahlulo lwewotshi ukusukela oko ukuPhakamisa kumisela ubungakanani bexesha elithathwayo ukuze le mveliso iye Phezulu.

EOC OUT

• Le yimveliso ye-End Cycle ye-CH. 4. Lo ngumqondiso wesiganeko. Kuphakathi kwe-0V okanye i-10V kwaye akukho nto phakathi. Ayigqibekanga ukuya ku +10V, okanye Phezulu xa kungekho msebenzi.
• Isiganeko kule meko kuxa iChannel ehambelana nayo ifikelela kwelona nqanaba lisezantsitage apho ihamba khona. I-LED ehambelana nayo ivuliwe xa kungekho nto eyenzekayo. Olu luphawu olulungileyo lokukhetha i-LFO yokuvala okanye iPulse-shaped LFO.

IiMpawu zoBunye (CH. 1 kunye ne-4)

• Ezi ziphumo zicofa ngokuthe ngqo kumbindi weChannel ehambelana nayo. Abachatshazelwa yiAttenuverter yeChannel.
• Ukupeyishela kule mveliso AKUSUSI umqondiso kwi-SUM kunye OKANYE neebhasi. Esi sisiphumo esihle sokusebenzisa xa ungafuni ukuthotywa okanye ukuguqulwa okanye xa ufuna ukusebenzisa isignali ngokuzimeleyo nangaphakathi kwe-SUM/OKANYE Ibhasi.

OKANYE PHUMELA

• Esi sisiphumo esivela kwi-analog OKANYE isiphaluka. Amagalelo aCH. 1, 2, 3, kunye neZiphumo ezi-4 eziguquguqukayo. Isoloko ivelisa owona mthamo uphezulutage kuwo wonke umqulutages isetyenziswa kumagalelo. Abanye abantu bayibiza le nto ngokuba nguMqulu omkhulutage umkhethi wesiphaluka! Abagxininisi bavumela ukulinganisa imiqondiso. Ayiphenduli kwi-negative voltages, ke ngoko inokusetyenziselwa ukulungisa umqondiso.
• Iluncedo ekudaleni iinguqu kwimodyuli okanye ukuthumela iCV kumagalelo aphendula kuphela kwivolthi elungileyotagImiz (umz. Lungisa iNgeniso yeCV kwiFONOGENE).

I-SUM OUT

• Esi sisiphumo esivela kwisekethe ye-analog SUM. Amagalelo aCH. 1, 2, 3, kunye ne-4 Iziphumo eziguquguqukayo. Kuxhomekeke kwindlela ii-Attenuverters ezisetwe ngayo, unokongeza, ukuguqula, okanye ukuthabatha umthamotages omnye komnye usebenzisa le sekethe.
• Esi sisiphumo esihle sokusetyenziselwa ukudibanisa iisignali ezininzi zolawulo ukuvelisa iimodyuli ezinzima ngakumbi.

INV OUT

• Olu luguqulelo olujikiweyo lweSiphumo se-SUM. Ikuvumela ukuba umodareyithe ngasemva!

IINGCEBISO NAMAQHINGA

• Imijikelo emide iyaphunyezwa ngee-curves ezininzi zokuphendula ze-Logarithmic. Eyona misebenzi ikhawulezayo, ibukhali iphunyezwa ngokugqithisela ngokugqithisileyo kweempendulo ze-Exponential curves.
• Ukulungelelaniswa kwi-curve yempendulo kuchaphazela ukuPhakamisa nokuwa kweXesha.
• Ukufezekisa amaXesha amade okanye amafutshane okuPhakamisa nokuwa kunokufumaneka kuLawulo lwePhaneli, sebenzisa i-voltage offset ukuya kwiiNgeno zoMqondiso woLawulo. Sebenzisa i-CH. 2 okanye 3 kule offset voltage.
• Sebenzisa Isiphumo se-INV SUM apho ufuna uhlengahlengiso olubuyiselweyo kodwa ungenayo indlela yoguqulo kwindawo yeCV (xuba igalelo leCV kwi ECHOPHON, ye ex.ample).
• Ukondla umqondiso ojijelweyo osuka kwiMATHS ubuyela kwiMATHS nakweliphi na igalelo leCV kuluncedo kakhulu ekudaleni iimpendulo ezingabandakanywanga kulawulo lweVari-Response kuphela.
• Xa usebenzisa i-SUM kunye ne-OR Outputs, seta nayiphi na i-CH engasetyenziswanga. 2 okanye 3 ukuya 12:00 okanye ufake isiziba intambo dummy kwi Input Signal of the Channel ezinxulumene ukuphepha offsets ezingafunwayo.
• Ukuba kunqweneleka ukuba umqondiso uqhutywe okanye uveliswe yi-CH. I-1, i-4 ikwi-SUM, i-INV, kunye OKANYE neebhasi KWAYE ifumaneka njengemveliso ezimeleyo, sebenzisa iSiphumo soMqondiso woManyano, njengoko SINGHAYI yesiqhelo kwi-SUM kunye OKANYE neebhasi.
• OKANYE Isiphumo asiphenduli okanye sivelise umthamo ongalungangatages.
• Ukuphela kokuKhuphuka kunye nokuphela koMjikelo ziluncedo ekuveliseni ulawulo oluntsonkothileyotage imisebenzi apho CH. I-1 kunye ne-CH. 4 zixhokonxa omnye komnye. Ukwenza oku, ncamathela i-EOR okanye i-EOC kwezinye izitshixo ze-Trigger, Signal, kunye ne-Cycle inputs.

PATCH IDEAS

Uhlobo lweVoltage Controlled Triangle Function (Unxantathu LFO)

1. Misela i-CH.1 (okanye i-4) kwi-Cycle. Cwangcisa Ukunyuka kunye nokulawula iPhaneli yePhaneli ukuya emini, i-Vari-Impendulo kwi-Linear.
2. Misela CH.2 Attenuverter ukuya 12:00.
3. Patch Isiphumo se-SUM kuzo zombini iiNgeniso zoLawulo.
4. Ngokuzithandela, sebenzisa nakuphi na ukumodareyitha okufunekayo kwi-CH.3 yoNgeniso loMqondiso kwaye kancinane ujike isigxininisi saso ngokwewotshi.
5. Yandisa i-CH.2 Attenuverter ukutshintsha iFrequency.
6. Isiphumo sithathwa kwiSiphumo soMqondiso weSitishi esinxulumeneyo.
7. Ukuseta iiparamitha zokuPhakamisa nokuwa ngokuqhubekayo kunika imijikelo emide. Ukuseta ezi parameters ngakumbi ngokuchasene newotshi kunika imijikelo emifutshane, ukuya kuthi ga kwireyithi yomsindo.
8. Umsebenzi onesiphumo unokusetyenzwa ngakumbi ngokuthomalalisa kunye/okanye uguqulo yi-Attenuverter enxulumeneyo. Ngenye indlela, thatha imveliso evela kwiSiphumo se-Unity Channel ye-Cycling Channel kwaye udibanise i-Various Outputs ukuya kwi-Rise okanye i-Fall CV Input kwi-morph iimilo ze-LFO kunye ne-CH.1 (okanye i-4) i-Attenuverter.

Uhlobo lweVoltage Ilawulwa Ramp Umsebenzi (Saw/ Ramp LFO)

Ngokufana nalapha ngasentla, kuphela iparamitha yokuPhakamisa iseti ngokupheleleyo ngokuchasene newotshi, iparamitha yokuwa imiselwe ubuncinci emini.

Umqulutage Ijenereyitha yoMsebenzi oLawulwayo oThutyanayo (Uhlaselo/Ukubola kwe-EG)

• I-pulse okanye isango elisetyenzisiweyo kwi-Trigger Input ye-CH.1 okanye i-4 iqala umsebenzi odlulayo Ukunyuka ukusuka kwi-0V ukuya kwi-10V ngesantya esinqunywe yi-Rise parameter kwaye iwela ukusuka kwi-10V ukuya kwi-0V ngesantya esinqunywe yi-Fall parameter.
• Lo msebenzi uphinda uvuswe ngexesha lesahlulo esiwayo. Ukunyuka nokuwa kuyalawuleka ngokuzimeleyo ubudala, kunye neempendulo eziguquguqukayo ukusuka kwiLog ngeLayini ukuya kwi-Exponential, njengoko kumiselwe yi-Vari-Response panel Control.
• Umsebenzi osisiphumo unokusetyenzwa ngakumbi ngokuthomalalisa kunye/okanye uguqulo yi-Attenuverter.

Umqulutage Ijenereyitha eZinzisiweyo eLawulwayo (A/S/R EG)

• Isango elisetyenzisiweyo kwi-Signal Input ye-CH.1 okanye i-4 iqala umsebenzi, Onyuka ukusuka kwi-0V ukuya kwinqanaba leSango elisetyenzisiweyo, kwizinga elinqunywe yi-Rise parameter, Lizinzile kuloo nqanaba kuze kube yilapho umqondiso weSango uphela, kwaye uwela ukusuka kuloo nqanaba ukuya kwi-0V ngesantya esinqunywe yi-Fall parameter.
• Ukunyuka nokuwa zizimele voltage iyalawuleka, kunye nempendulo eguquguqukayo njengoko imiselwe yi-Vari-Re-sponse panel Control.
• Umsebenzi osisiphumo unokusetyenzwa ngakumbi ngokuthomalalisa kunye/okanye uguqulo yi-Attenuverter.

I-Peak Detector

1. Isiginali yepetshi iza kubhaqwa kwi-CH. 1 Ungeniso loMqondiso.
2. Misela ukuPhakamisa nokuwa ukuya ku-3:00.
3. Thatha imveliso evela kwiSiphumo soMqondiso. Isiphumo seSango esivela kwi-EOR Output.

Umqulutage Isipili

1. Faka uMqondiso woLawulo ukuze uboniswe kwi-CH. 2 Ungeniso loMqondiso.
2. Misela i-CH. 2 Attenuverter ukuya kwi-CCW epheleleyo.
3. Akukho nto ifakwe kwi-CH. 3 Igalelo loMqondiso (ukwenza i-offset), seta CH. 3 Attenuvert-er ukuya kwiCW epheleleyo.
4. Thatha imveliso evela kwi-SUM Output.

Isiqingatha sokulungiswa kwamaza

1. Faka uphawu lwe-bi-polar kwi-CH. 1, 2, 3, okanye 4 Amagalelo.
2. Thatha imveliso evela OKANYE Isiphumo.
3. Qwalasela isiqhelo kwi OR ibhasi.

Uhlobo lweVoltage Controlled Pulse/Clock with Voltage Controlled Run/Stop (Clock, pulse LFO)

1. Kuyafana njengoMqulu woMnqophisotage Controlled Triangle Function, kuphela imveliso kuthathwa EOC okanye EOR.
2. I-CH.1 Ukunyuka kwepharamitha ilungelelanisa ngokufanelekileyo i-frequency kunye ne-CH.1 Fall parameter ilungisa ububanzi be-pulse.
3. Nge-CH.4, okuchaseneyo kuyinyaniso, apho i-Rise ilungisa ngokufanelekileyo Ububanzi kunye ne-Fall lungisa i-frequency.
4. Kuzo zombini iiChaneli, lonke uhlengahlengiso kwiiparamitha zokuPhakamisa nokuwa zichaphazela ukuphindaphinda.
5. Sebenzisa i-CYCLE Input ye-Run/Stop control.

Umqulutage Controlled Pulse Delay Processor

1. Faka i-Trigger okanye iSango lokuQinisa iNgeniso ukuba CH.1.
2. Thatha imveliso evela End Of Rise.
3. Ipharamitha yokunyuka ibeka ukulibaziseka kwaye iparamitha ye-Fall ilungisa ububanzi be-pulse ebangela.

I-Arcade Trill (I-LFO eyinkimbinkimbi)

1. Misela i-CH4 Ukunyuka nokuwa ukuya emini emaqanda, ukuphendula kwi-Exponential.
2. Pakisha i-EOC kwi-multiple, emva koko uye kwi-CH1 Igalelo le-Trigger kunye ne-CH2 Input.
3. Lungisa ulawulo lwephaneli yeCH2 ukuya ku-10:00.
4. I-Patch CH2 Imveliso kwi-CH1 ZOMBINI Igalelo.
5. Cwangcisa i-CH1 Ukunyuka ukuya emini emaqanda, Ukuwa ukuya kwi-counterclockwise epheleleyo, impendulo ku-Linear.
6. Bandakanya i-CH4 Umjikelo wokutshintsha (i-CH1 akufuneki ibe yibhayisekile).
7. Faka i-Unity Output CH1 kwindawo yokumodareyitha.
8. Lungisa i-CH1 Phakamisa ulawulo lwephaneli yokwahluka (utshintsho oluncinci lunempembelelo enkulu kwisandi).

I-Chaotic Trill (ifuna i-MMG okanye esinye isihluzo se-LP esiNgqongileyo)

1. Qala ngePatch yeArcade Trill.
2. Misela CH.1 Attenuverter ukuya 1:00. Faka i-CH.1 iPhumo loMqondiso kwi-MMG DC Signal Input.
3. Pakisha i-EOR kwi-MMG AC Signal Input, isetelwe kwimo ye-LP, akukho ngxelo. Qala nge-Freq kwi-counter-clockwise epheleleyo.
4. Faka iSiphumo soMqondiso we-MMG kwi-MATHS CH.4 Zombini igalelo.
5. Pakisha CH.4 Isiphumo esiguquguqukayo ukuya kwi-CH.1 ZOMBINI Igalelo leCV.
6. Isiphumo soMqondiso woManyano kwindawo ekuyiwa kuyo.
7. I-MMG Freq kunye ne-Signal Input controls kunye neMATHS CH1 kunye ne-4 Attenuverters zinomdla omkhulu ukongeza kwiiparamitha zokuPhakamisa nokuwa.

281 Imowudi (Eyinkimbinkimbi LFO)

1. Kule patch, i-CH1 kunye ne-CH4 zisebenza ngokubambisana ukubonelela ngemisebenzi etshintshwe ngamadigri angamashumi alithoba.
2. Ngezo zombini iiSwitshi ze-Cycle ezibandakanyekayo, lungisa i-End of RISE (CH1) ukuze uqalise i-Inverter CH4.
3. I-Patch End of Cycle (CH4) ukuze uqalise iNgeniso CH1.
4. Ukuba zombini i-CH1 kunye ne-CH4 aziqalisi ukukhwela ibhayisekile, sebenzisa i-CH1 Cycle ngokufutshane.
5. Ngamajelo omabini ahamba ngebhayisekile, sebenzisa iziphumo zawo zoMqondiso ngokwahlukeneyo kwiindawo ezimbini ezahlukeneyo zokumodareyitha, kuba ex.ample, Iitshaneli ezimbini ze-OPTOMIX.

Uhlobo lweVoltage Elawulwayo ADSR-uhlobo imvulophu

1. Faka uphawu lweSango kuFakelo loMqondiso lweCH1.
2. Misela i-CH1 Attenuverter ibe ngaphantsi kwe-CW egcweleyo.
3. Ipatshi CH1 Ukuphela kokuNyukela ukuya kwi-CH4 iNgeniso yokuQalisa.
4. Misela i-CH4 Attenuverter kwiCW epheleleyo.
5. Thatha imveliso evela OKANYE Imveliso yebhasi, uqiniseke ukuba i-CH2 kunye ne-CH3 zisetelwe emini ukuba azisetyenziswa.
6. Kule patch, i-CH1 kunye ne-CH4 Ukunyuka zilawula ixesha lokuhlaselwa. Kwi-ADSR eqhelekileyo, hlengahlengisa ezi parameters ukuba zifane (Ukuseta i-CH1 Ukunyuka ibe yinde kune-CH4 okanye i-vice-versa, ivelisa uhlaselo ezimbinitages).
7. I-CH4 Fall parameter ilungisa i-Decay stage yemvulophu.
8. I-CH1 i-Attenuverter ibeka inqanaba le-Sustain ekufuneka libe ngaphantsi kwaloo parameter inye kwi-CH4.
9. Ekugqibeleni, i-CH1 Fall ibeka ixesha lokuKhupha.

IBhola eBouncing, uhlelo luka-2013 – enkosi kuPete Speer

1. Cwangcisa i-CH1 Phakamisa i-CCW epheleleyo, Ukuwa kwi-3: 00, impendulo kwi-Linear.
2. Cwangcisa i-CH4 Phakamisa ngokupheleleyo ngokuchasene newotshi, Ukuwa ukuya ku-11:00, impendulo ku-Linear.
3. Patch CH1 EOR ukuya CH4 Cycle Input, kunye CH1 variable Ukuphuma kwi-CH4 Fall Input.
4. Patch CH4 Isiphumo kwi-VCA okanye i-LPG yokulawula iNgeniso.
5. Pakisha iSango okanye umthombo we-Trigger (ofana nesango lokuchukumisa elisuka kwiindawo zoxinzelelo) ukuya kwi-CH1 iNgeniso ye-Trigger yesiqalo semanuwali se-“bounces.”
6. Lungisa i-CH4 Ukunyuka kunye nokuwa kwiiyantlukwano.

IiContours ezizimeleyo - enkosi kwiNavs

Ngokutshintsha inqanaba kunye ne-polarity ye-Various Output ye-CH1/4 kunye ne-Attenuverter, kunye nokutyisa loo mqondiso ubuyela kwi-CH1/4 kwi-Rise okanye i-Fall Control Input, ulawulo oluzimeleyo lwe-slope e-corre-sponding. Thatha isiphumo kwiSiphumo soMqondiso woManyano. Eyona nto ingcono kukuba indawo yolawulo yeMpendulo isetiwe emini emaqanda.

IiContours ezizimeleyo zeComplex

• Kuyafana nalapha ngasentla, kodwa ulawulo olongezelelweyo lunokwenzeka ngokusebenzisa i-EOC okanye i-EOR ukuqalisa iShaneli echaseneyo kunye nokusebenzisa i-SUM okanye OKANYE iPhumo lokuKhuphuka, ukuwa, okanye i-BOTH yeChaneli yokuqala.
• Guqula ukuPhakamisa, ukuwa, i-Attenuversion, kunye nejika lokuphendula leeChaneli ezichaseneyo ukuze ufezekise iimilo ezahlukeneyo.

Imvulophu ye-Asymmetrical Trilling - enkosi ku-Walker Farrell

1. Bandakanya ibhayisekile kwi-CH1, okanye faka isignali oyikhethileyo kwi-Trigger yayo okanye iNgeniso yoMqondiso.
2. Cwangcisa i-CH1 Ukunyuka nokuwa ukuya emini ngempendulo ye-Linear.
3. Pakisha i-CH1 EOR ukuya kwi-CH4 iNgeniso yoMjikelo.
4. Misela i-CH4 Ukunyuka ukuya ku-1:00 kunye noKuwela ukuya ku-11:00, kunye nempendulo ecacileyo.
5. Thatha imveliso evela ku-OR (kunye ne-CH2 kunye ne-CH3 isete emini).
6. Imvulophu ephumelayo ine "trill" ngexesha lesahlulo sokuwa. Lungisa amanqanaba kunye namaxesha okuPhakamisa / ukuwa.
7. Ngenye indlela, tshintsha iiShaneli kwaye usebenzise i-EOC Output kwi-CH1's Cycle input ye-trilling ngexesha lokunyuka kwesahlulo.

Umlandeli wemvulophu

1. Faka umqondiso oza kulandelwa kwiNgeniso yoMqondiso CH1 okanye 4. Misela Ukunyuka ukuya emini emaqanda.
2. Cwangcisa kwaye okanye uhlengahlengise Ixesha Lokuwa ukuze ufezekise iimpendulo ezahlukeneyo.
3. Thatha imveliso kwiSibonakaliso seSiginali esinxulumeneyo ukuze ufumane iNcopho entle kunye nengalunganga.
4. Thatha imveliso evela OKANYE ibhasi Isiphumo ukufezekisa ma ore eqhelekileyo umsebenzi oMvulophu Positive Umlandeli.

Umqulutage Isifanisi/Utsalo lweSango w/ ububanzi obuguquguqukayo

1. Faka isignali ukuze ithelekiswe ne-CH3 yoNgeniso loMqondiso. Misela i-Attenuverter ibe ngaphezulu kwe-50%.
2. Sebenzisa i-CH2 ukuthelekisa umthamotage (enento okanye ngaphandle kwento epeyishiweyo).
3. Pakisha iSiphumo se-SUM ukuya kwi-CH1 yoNgeniso loMqondiso.
4. Misela i-CH1 Ukunyuka nokuwa kwi-CCW epheleleyo. Thatha iSango elikhutshwe kwi-EOR.
   • I-CH3 I-Attenuverter isebenza njengommiselo wenqanaba lokufaka, amaxabiso asebenzayo aphakathi kwemini kunye neCW epheleleyo. I-CH2 isebenza njengommiselo wokumisela amaxabiso asebenzayo ukusuka kwi-CCW epheleleyo ukuya kwi-12:00.
   • Amaxabiso asondele ku-12:00 ZIZIBONGO EZINGAPHANTSI. Ukuseta i-Rise ngaphezulu kwe-CW, unokulibazisa iSango elifunyenweyo.
   • Ukuseta Ukuwa ngaphezulu kweCW kuyahluka ububanzi beSango elifunyenweyo. Sebenzisa i-CH4 kwipetshi yomlandeli wemvulophu, kunye ne-CH3, 2 & 1 yokutsalwa kweSango, kwaye unenkqubo enamandla kakhulu yokwenziwa komqondiso wangaphandle.

Ukulungiswa kwamaza ngokupheleleyo

1. Umqondiso wokuphindaphinda kufuneka ulungiswe kuzo zombini i-CH2 kunye ne-3 Ungeniso.
2. I-CH2 Scaling/ Inversion isetelwe kwi-CW epheleleyo, i-CH3 Ukukala/Ukuguqulwa kusetelwe kwi-CCW epheleleyo.
3. Thatha imveliso evela OKANYE Isiphumo. Ukwahlula ukukalwa.

Ukuphindaphinda

1. Faka uphawu lolawulo oluhambayo olulungileyo ukuba luphindaphindwe ukuya kwi-CH1 okanye kwi-4 yoNgeniso loMqondiso. Misela Ukunyuka ukuya kwiCW epheleleyo, Ukuwa kwi-CCW epheleleyo.
2. Faka uMqondiso woLawulo wokuphindaphinda ohambayo kwi-BOTH Control Input.
3. Thatha imveliso kwiPhulo loMqondiso ohambelanayo.

I-Pseudo-VCA ene-clipping-Thanx ku-Walker Farrell

1. Patch isignali yomsindo kwi-CH1 kunye nokuPhakamisa nokuwa kwi-counterclockwise epheleleyo, okanye umjikelezo we-CH1 ngesantya somsindo.
2. Thatha imveliso evela kwi-SUM ngaphandle.
3. Misela inqanaba lokuqala kunye nolawulo lwephaneli ye-CH1.
4. Cwangcisa i-CH2 yolawulo lwephaneli ye-CW epheleleyo ukuvelisa i-10V offset. I-audio iqala ukuklitshwa kwaye ingathula. Ukuba isavakala, sebenzisa i-offset eyongezelelweyo ene-CH3 yolawulo lwephaneli ide ithi cwaka.
5. Misela i-CH4 yolawulo lwephaneli kwi-CCW epheleleyo kwaye usebenzise imvulophu kwi-Signal Input okanye uvelise imvulophu nge-CH4.
   • Esi siqwenga sidala iVCA enokunqunyulwa kwe-asymmetrical kwi-waveform. Isebenza kunye ne-CV kwakhona, kodwa qiniseka ukuba uhlengahlengisa useto lwegalelo le-CV ukujongana nesiseko esikhulu se-offset. Imveliso ye-INV inokuba luncedo ngakumbi kwezinye iimeko.

Umqulutage ISahluli seClock eLawulwayo

• Isignali yewotshi esetyenziswe kwi-Trigger Input CH1 okanye i-4 iqhutywe yisahluli njengoko imiselwe yi-Rise parameter.
• Ukwenyuka kokunyuka kubeka isahluli phezulu, okukhokelela kulwahlulo olukhulu. Ixesha lokuwa lilungisa ububanzi bewotshi enesiphumo. Ukuba Ububanzi buhlengahlengiswa ukuba bube bukhulu kunexesha elipheleleyo lolwahlulo, umphumo uhlala "uphezulu."

I-FLIP-FLOP (I-1-Bit Memory)

• Kule patch, i-CH1 Trigger Input isebenza njenge-"Seta" igalelo, kunye ne-CH1 ZOBINI Igalelo loLawulo lisebenza njengeNgeniso "Seta kwakhona".
  1. Faka isignali yoSeta ngokutsha kwi-CH1 ZOMBINI Ungeniso loLawulo.
  2. Faka iSango okanye isignali yengqiqo kwi-CH1 yokuFakela iNgeniso. Misela Ukunyuka kwi-CCW epheleleyo, Ukuwa kwi-CW epheleleyo, i-Vari-Re-sponse kwi-Linear.
  3. Thatha "Q" imveliso evela EOC. Patch EOC ukuya kwi-CH4 Signal ukuphumeza "NOT Q" kwi-EOC Output.
• Esi siqwenga sinomda wokukhumbula malunga nemizuzu emi-3, emva koko silibale into enye obuyixelele ukuba siyikhumbule.

Umguquli wengqiqo

• Faka isango lokuqiqa kwi-CH. 4 Ungeniso loMqondiso. Thatha imveliso evela kwi-CH. 4 EOC.

Isifanisi/Isixhobo seSango (IThatha eNtsha)

1. Thumela umqondiso oza kuthelekiswa ne-CH2 Input.
2. Cwangcisa ulawulo lwephaneli ye-CH3 kuluhlu olungalunganga.
3. Pakisha i-SUM ngaphandle kwi-CH1 yoNgeniso loMqondiso.
4. Cwangcisa i-CH1 Ukunyuka nokuwa ukuya ku-0.
5. Thatha imveliso evela kwi-CH1 EOR. Qwalasela ukukhanya komqondiso nge-CH1 Unity LED. Xa isignali ihamba kakuhle, i-EOR iyahamba.
6. Sebenzisa ulawulo lwephaneli ye-CH3 ukuseta umda. Okunye ukuthotywa kwe-CH2 kunokuba yimfuneko ukufumana uluhlu oluchanekileyo lophawu olunikiweyo.
7. Sebenzisa i-CH1 yokulawula ukuwa ukwenza amasango abe made. CH1 Ulawulo lokunyuka luseta ubude bexesha umqondiso kufuneka ube ngaphaya komqobo ukukhubekisa umthelekisi.

ISIQINISEKISO ESIPHELELEYO

• Yenza i-Noise iqinisekisa le mveliso ukuba ingabi naziphene kwizinto eziphathekayo okanye ukwakhiwa konyaka omnye ukususela kumhla wokuthenga (ubungqina bokuthenga / i-invoyisi efunekayo).
• Ukungasebenzi okubangelwa kunikezelo lwamandla olungalunganga voltages, umva okanye ukubuyisela umva uqhagamshelo lwentambo yebhodi yebhasi ye-eurorack, ukusetyenziswa kakubi kwemveliso, ukususa amaqhina, ukutshintsha iiplate zobuso, okanye naziphi na ezinye izizathu ezigqitywe nguYenza ingxolo ukuba ibe lityala lomsebenzisi azigutyungelwa kwesi siqinisekiso, kwaye amaxabiso eenkonzo aqhelekileyo aya kusebenza. .
• Ngexesha lewaranti, naziphi na iimveliso ezineziphene ziya kulungiswa okanye zitshintshwe, ngokukhetha ukwenza ingxolo, kwi-back-to-Make Noise basis kunye nomthengi ohlawula iindleko zokuthutha ukuya kwi-Noise.
• Ukwenza ingxolo kuthetha kwaye akwamkeli xanduva lokwenzakala ebantwini okanye kwizixhobo ezibangelwe kukusebenza kwale mveliso.
• Nceda uqhagamshelane technical@makenoisemusic.com ngayo nayiphi na imibuzo, Buyela kuGunyaziso loMvelisi, okanye naziphi na iimfuno & namagqabantshintshi. http://www.makenoisemusic.com

Malunga nale ncwadana:

• Ibhalwe nguTony Rolando
• Ihlelwe nguWalker Farrell
• Izotywe nguW.Lee Coleman kunye noLewis Dahm Layout nguLewis Dahm
• ENKOSI
• Uncedo loYilo: Matthew Sherwood
• Umhlalutyi weBeta: Walker Farrell
• Izifundo zovavanyo: uJoe Moresi, uPete Speer, uRichard Devine

FAQ

• Umbuzo: Ngaba i-MATHS ingasetyenziswa kunye ne-digital synthesizer?
  • A: I-MATHS yenzelwe ukusetyenziswa kwe-analog kodwa inokujongana ne-digital synthesizers ngeSango/Ikloko yemiqondiso.
• Umbuzo: Ndingenza njani utshintsho lwetempo ndisebenzisa iMATHS?
  • A: Unokwenza utshintsho lwetempo ngokusebenzisa imisebenzi ye-Envelope kunye nokumodareyitha voltaguya kwi ramp phezulu okanye phantsi kwi tempo.
• Umbuzo: Yintoni injongo yeNgeniso ye-Cycle?
  • A: INgeniso yoMjikelo ivumela umqulutage ulawulo lwe-Cycle state kwi-Channels 1 kunye ne-4, ivumela ukuhamba ngebhayisikili ngokusekelwe kwiimpawu zeSango.

Amaxwebhu / Izibonelelo

YENZA INGXELO yeMathematika eNxaxheba uMjeneyitha weModyuli ye-Eurorack [pdf] Incwadi Yomyalelo IMaths Complex Function Generator i-Eurorack Module, iMathematika, i-Complex Function Generator

Iimbekiselo

• Incwadi yokusebenzisa