Abubuwan da ke ciki boye
1 YI SURYA Maths Complex Aiki Generator Eurorack Module
2 Umarnin Amfani da samfur
3 SHIGA
4 KARSHEVIEW
5 SAMUN PANEL
6 FARAWA
7 TASHIN FAɗuwar VARI-AMSA
8 FITOWAR SALAMA
9 FACI RA'AYIN
10 Cikakkun Gyaran Wave
11 Logic Inverter
12 GARANTI MAI KYAU
13 FAQ
14 Takardu / Albarkatu
14.1 Magana

SANARWA-LOGO-LOGO

YI SURYA Maths Complex Aiki Generator Eurorack Module

MAKE-NOISE-Maths-Complex-Aikin-Generator-Eurorack-Module-PRODUCT

Ƙayyadaddun bayanai

  • Sunan samfur: MATS
  • Nau'in: Kwamfuta Analog don Manufofin Kiɗa
  • Ayyuka: Voltage Ambulan Sarrafa, LFO, Sarrafa sigina, Ƙarfafa sigina
  • Yanayin shigarwa: +/-10V

Umarnin Amfani da samfur

Shigarwa

Kafin shigarwa, koma zuwa ƙayyadaddun masana'anta don wurin da rashin wadataccen kayan aiki yake. Tabbatar da haɗin wutar lantarki daidai.

Ƙarsheview

MATHS an tsara shi don dalilai na kiɗa kuma yana ba da ayyuka daban-daban gami da samar da ayyuka, haɗa sigina, amphaɓakawa, ragewa, juyar da sigina, da ƙari.

Sarrafa Panel

  1. Shigar da Sigina: Yi amfani da Lag, Portamento, da ambulan ASR. Rage +/- 10V.
  2. Ƙaddamar da Shigarwa: Ƙofar ko Pulse yana haifar da da'irar don samar da envelopes, Jinkirin Pulse, Rarraba Clock, da Sake saitin LFO.

Tashi, Faɗuwa, da Amsa Vari

  • Ma'aunin Rise, Fall, da Vari-Response sigogi sun bayyana halayen ambulaf ɗin da aka samar ta hanyar shigar da Trigger.

Fitowar sigina

  • Samfurin yana ba da fitowar sigina iri-iri da suka haɗa da ambulaf, Rarraba agogo, da ƙari. Koma zuwa littafin jagora don cikakken ra'ayoyin faci.

Tips & Dabaru

  • Bincika hada siginonin sarrafawa daban-daban don ƙirƙirar hadaddun gyare-gyare. Gwaji tare da daidaitawa voltages da kuma haifar da al'amuran kiɗa bisa ga motsin motsi a cikin tsarin.

Faci Ra'ayoyin

  • Koma zuwa littafin jagora don ƙirƙirar hanyoyin da za a daidaita MATHS tare da wasu kayayyaki a cikin tsarin ku don ƙirƙirar sauti na musamman da damar daidaitawa.

SHIGA

Hadarin lantarki!

  • Koyaushe kashe akwati na Eurorack kuma cire igiyar wutar lantarki kafin a toshe ko cire duk wata hanyar haɗin jirgin bas ta Eurorack. Kar a taɓa kowane tashoshi na lantarki lokacin haɗa kowane kebul na jirgin bas na Eurorack.
  • Make Noise MATHS shine tsarin kiɗan lantarki wanda ke buƙatar 60mA na +12VDC da 50mA na -12VDC ƙayyadaddun vol.tage da madaidaitan rumbun rarraba don aiki. Dole ne a shigar da shi da kyau a cikin tsarin tsarin na'ura mai kwakwalwa na Eurorack.
  • Je zuwa http://www.makenoisemusic.com/ domin misaliamples na Eurorack Systems da Cases.
  • Don shigarwa, nemo 20HP a cikin akwati na haɗin gwiwar Eurorack, tabbatar da shigarwa daidai na kebul ɗin haɗin jirgin bas na Eurorack a bayan wani module (duba hoton da ke ƙasa), kuma toshe kebul ɗin haɗin motar bas a cikin jirgin bas ɗin salon Eurorack, la'akari da polarity ta yadda ratsin RED akan kebul ɗin ya daidaita zuwa NEGATIVE 12 jirgin da kuma layin kan layin biyu.
  • A kan Yi Noise 6U ko 3U Busboard, layin 12 Volt mara kyau ana nuna shi ta farin ratsin.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-1
  • Da fatan za a koma zuwa ƙayyadaddun masana'anta don wurin samar da mara kyau.

KARSHEVIEW

MATHS kwamfutar analog ce wacce aka ƙera don dalilai na kiɗa. Daga cikin wasu abubuwa, yana ba ku damar:

  1. Ƙirƙiri nau'ikan layi-layi, logarithmic, ko maɗaukaki masu jawo ko ci gaba da ayyuka.
  2. Haɗa sigina mai shigowa.
  3. Ampinganta, attenuate, da Juya sigina mai shigowa.
  4. Ƙara, raguwa, da OR har zuwa sigina 4.
  5. Ƙirƙirar siginar analog daga bayanan dijital (Ƙofa/Agogo).
  6. Ƙirƙirar bayanan dijital (Ƙofa/Agogo) daga siginar analog.
  7. Jinkirta bayanan dijital (Ƙofa/Agogo).

Idan lissafin da ke sama ya karanta kamar kimiyya maimakon kiɗa, ga fassarar:

  1. Voltage Ambulan Sarrafa ko LFO da jinkirin kamar mintuna 25 kuma cikin sauri kamar 1khz.
  2. Aiwatar Lag, Slew, ko Portamento don sarrafa voltage.
  3. Canza zurfin juzu'i kuma canza baya!
  4. Haɗa siginar sarrafawa har zuwa 4 don ƙirƙirar ƙarin hadaddun abubuwa.
  5. Abubuwan Kiɗa kamar Ramping sama ko ƙasa a cikin Tempo, akan umarni.
  6. Ƙaddamar da abubuwan Kiɗa akan jin motsi a cikin tsarin.
  7. Rarraba bayanin kula na kiɗa da/ko Flam.

Bita na MATHS 2013 zuriyar MATHS ce kai tsaye, tana raba da'ira iri ɗaya da samar da duk kyawawan siginonin sarrafawa waɗanda asalin ya iya samarwa, amma tare da wasu haɓakawa, ƙari, da haɓakawa.

  1. An canza tsarin sarrafawa don zama mai hankali kuma don yin aiki sosai tare da CV Bus da samfuran da ke akwai a cikin tsarin mu kamar DPO, MMG, da ECHPHON.
  2. An haɓaka nunin LED don sigina don nuna duka tabbatacce da mara kyautages da kuma ƙara ƙudurin nuni. Ko da ƙaramin voltagAna iya karantawa akan waɗannan LEDs.
  3. Kamar yadda Make Noise ke ba da Multiple Multiple Fitowar Siginar (daga ainihin MATHS) an canza shi zuwa Fitowar Siginar Haɗin kai. Yana ba da damar ƙirƙirar bambance-bambancen fitarwa guda biyu, ɗaya a haɗin kai kuma ɗayan kamar yadda aka sarrafa ta hanyar Attenuverter. Hakanan yana ba da damar sauƙi a cikin facin amsawar ayyuka ba zai yiwu ba tare da sarrafa amsawar Vari kaɗai (duba shafi 13).
  4. An ƙara Fitar SUM da aka Juya don ƙarin damar daidaitawa.
  5. An ƙara nunin LED don Sum Bus don ƙara wayar da kan sigina.
  6. An ƙara alamar LED don nuna yanayin Ƙarshen Tashi da Ƙarshen Zagayowar.
  7. Ƙarshen-Cycle Fitowa yanzu an tanadi don ingantacciyar kwanciyar hankali.
  8. Ƙara kariya ta baya.
  9. Ƙara +/- 10V kewayon saiti. Mai amfani yana da zaɓi na +/- 10V diyya a CH. 2 ko +/-5V biya diyya a CH. 3.
  10. Ƙara mafi girman kewayon Logarithmic a cikin sarrafa Amsa-Vari yana ba da izinin salon Gabashin Tekun Portamen-zuwa.
  11. Juyin halitta a cikin kewayawa shine Input Cycle wanda ke ba da izinin voltage kula da yanayin Cycle a Tashoshi 1 da 4. A kan Ƙofar Ƙofar, Ƙofar MATHS. A ƙasan Ƙofar, MATHS ba ta yin zagayawa (sai dai idan maɓallin kewayawa yana aiki).

SAMUN PANEL

SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-2

  1. Shigar da Sigina: Shigar da Haɗaɗɗe kai tsaye zuwa kewaye. Yi amfani da Lag, Portamento, ASR (nau'in ambulaf ɗin Saki Dorewa). Hakanan, shigarwa zuwa Sum/OR Bus. Rage +/- 10V.
  2. Ƙaddamar da Shigarwa: Ƙofa ko Pulse da aka yi amfani da ita ga wannan shigarwar tana haifar da da'ira ba tare da la'akari da ayyukan da ke cikin Shigar Siginar ba. Sakamakon shine aikin 0V zuwa 10V, aka Envelope, wanda halayensa sun bayyana ta hanyar Rise, Fall, da Vari-Response sigogi. Yi amfani don ambulaf, jinkirin bugun jini, Rarraba agogo, da Sake saitin LFO (kawai a lokacin faɗuwar rabo).
  3. LED kewayawa: Iyana nuna Cycle ON ko KASHE.
  4. Maɓallin kewayawa: Yana haifar da da'irar zuwa zagayowar kai, don haka haifar da maimaita voltage aiki, aka LFO. Yi amfani da LFO, Agogo, da VCO.
  5. Rise Panel Control: Yana saita lokacin da ake ɗauka don voltage aiki ramp sama. Jujjuyawar CW yana ƙaruwa Lokacin tashi.
  6. Tashi CV Input: Shigar da siginar sarrafawa ta layi don ma'aunin Rise. Siginonin sarrafawa masu inganci suna haɓaka Lokacin tashi, kuma siginonin sarrafawa mara kyau suna raguwa Lokacin tashi game da saitin kula da Tashi. Rage +/-8V.
  7. Gudanar da Ƙungiyar Faɗuwa: Yana saita lokacin da ake ɗauka don voltage aiki ramp kasa. Juyawa CW yana ƙaruwa lokacin Faɗuwa.
  8. Duk Shigarwar CV: Bi-Polar Exponential iko shigarwar siginar don dukan aikin. Sabanin Yunƙurin da Faɗuwar Abubuwan Shigar CV, BOTH yana da Amsa Maɗaukaki kuma Siginonin sarrafawa masu inganci suna rage jimillar lokaci yayin da siginonin sarrafawa mara kyau suna ƙara yawan lokaci. Rage +/-8V.
  9. Faɗuwar Shigar CV: Shigar da siginar sarrafawa ta layi don siginar faɗuwa. Ingantattun siginonin sarrafawa suna haɓaka lokacin faɗuwa, kuma siginonin sarrafawa mara kyau suna rage lokacin faɗuwa game da sarrafa faɗuwar faɗuwar. Rage +/-8V.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-3

MATHS Channel 1

  1. Ikon Taimakon Taimako na Daban-daban: Yana saita lanƙwan martani na voltage aiki. Amsar tana ci gaba da canzawa daga Logarithmic zuwa Linear zuwa Ƙarfafawa zuwa Ƙarfin Ƙarfi. Alamar Tick tana nuna saitin layi.
  2. Shigarwar Zagaye: Akan Ƙofar HIGH, Ƙofar Ke kunnawa. A Ƙofar LOW, MATHS baya yin zagayawa (sai dai idan maɓallin kewayawa yana aiki). Yana buƙatar mafi ƙarancin +2.5V don HIGH.
  3. EOR LED: Yana nuna jihohin fitar da EOR. Haske lokacin da EOR yayi girma.
  4. Ƙarshen Tashi Fitowa (EOR): Yayi girma a ƙarshen ɓangaren haɓaka aikin. 0V ko 10V.
  5. LED Unity: Yana nuna ayyuka a cikin kewaye. Kyakkyawan voltages kore, kuma korau voltages suna ja. Rage +/-8V.
  6. Fitowar Siginar Haɗin kai: Sigina daga da'irar Channel 1. 0-8V lokacin hawan keke. In ba haka ba, wannan fitarwa yana biye da amplitude na shigarwa.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-4

MATHS Channel 4

  1. Ƙaddamar da Shigarwa: Ƙofar ko Pulse da aka yi amfani da ita ga wannan shigarwar tana haifar da da'ira ba tare da la'akari da ayyukan da ke cikin Siginar Input ba. Sakamakon shine aikin 0V zuwa 10V, aka Envelope, wanda halayensa sun bayyana ta hanyar Rise, Fall, da Vari-Response sigogi. Yi amfani don ambulaf, jinkirin bugun jini, Rarraba agogo, da Sake saitin LFO (kawai a lokacin faɗuwar rabo).
  2. Shigar da Sigina: Shigar da Haɗaɗɗe kai tsaye zuwa kewaye. Yi amfani da Lag, Portamento, ASR (nau'in ambulaf ɗin Saki Dorewa). Hakanan, shigarwa zuwa Sum/OR Bus. Rage +/- 10V.
  3. Zagayen LED: Yana Nuna Zagaya ON ko KASHE.
  4. Maɓallin kewayawa: Yana haifar da da'irar zuwa zagayowar kai, don haka haifar da maimaita voltage aiki, aka LFO. Yi amfani da LFO, Agogo, da VCO.
  5. Ikon Tashi Tashi: Yana saita lokacin da ake ɗauka don voltage aiki ramp sama. Jujjuyawar CW yana ƙaruwa Lokacin tashi.
  6. Tashi CV Input: Shigar da siginar sarrafawa ta layi don siginar Rise. Siginonin sarrafawa masu inganci suna haɓaka Lokacin tashi, kuma siginonin sarrafawa mara kyau suna raguwa Lokacin tashi game da saitin kula da Tashi. Rage +/-8V.
  7. Sarrafa Kwamitin Faɗuwa: Yana saita lokacin da ake ɗauka don voltage aiki ramp kasa. Juyawa CW yana ƙaruwa lokacin Faɗuwa.
  8. Duk Shigarwar CV: Bi-Polar Exponential iko shigarwar siginar don dukan aikin. Sabanin Yunƙurin da Faɗuwar Abubuwan Shigar CV, Dukansu biyu suna da Amsa Mai Mahimmanci kuma Siginonin sarrafawa masu inganci suna rage jimillar lokaci yayin da siginonin sarrafawa mara kyau suna ƙara jimlar lokaci. Rage +/-8V.
  9. Faɗuwar Shigar CV: Shigar da siginar sarrafawa ta layi don ma'aunin Fall. Ingantattun siginonin sarrafawa suna haɓaka lokacin faɗuwa, kuma siginonin sarrafawa mara kyau suna rage lokacin faɗuwa game da sarrafa faɗuwar faɗuwar. Rage +/-8V.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-5

MATHS Channel 4

  1. Ikon Taimakon Taimako na Daban-daban: Yana saita lanƙwan martani na voltage aiki. Amsar tana ci gaba da canzawa daga Logarithmic zuwa Linear zuwa Ƙarfafawa zuwa Ƙarfin Ƙarfi. Alamar Tick tana nuna saitin layi.
  2. Shigarwar Zagaye: Akan Ƙofar HIGH, Ƙofar Ke kunnawa. A Ƙofar LOW, MATHS baya yin zagayawa (sai dai idan maɓallin kewayawa yana aiki). Yana buƙatar mafi ƙarancin +2.5V don HIGH.
  3. EOC LED: Yana Nuna jihohin Ƙarshen Fitowar Zagaye. Haske lokacin da EOC yayi girma.
  4. Fitowar Ƙarshen Zagaye (EOC): Yana girma a ƙarshen Faɗuwar ɓangaren aikin. 0V ko 10V.
  5. Unity LED: Iyana nuna aiki a cikin da'irar. Kyakkyawan voltages kore, kuma korau voltages suna ja. Rage +/-8V.
  6. Fitowar Siginar Haɗin kai: Sigina daga da'irar Channel 4. 0-8V lokacin hawan keke. In ba haka ba, wannan fitarwa yana biye da amplitude na shigarwa.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-6

SUM da OR Bus

  1. Shigar Siginar Channel 2 Kai tsaye: An daidaita shi zuwa nuni +10V don tsarar voltage kashewa. Range na shigarwa +/- 10Vpp.
  2. Shigar Siginar Channel 3 Kai tsaye: An daidaita shi zuwa nuni +5V don tsarar voltage kashewa. Range na shigarwa +/- 10Vpp.
  3. CH. 1 Ikon Attenuverter: Yana ba da ƙima, attenuation, da juyar da siginar da ake sarrafa ko samar da shi ta CH. 1. Haɗa zuwa CH. 1 Canje-canjen Fitarwa da Jimi/Ko Bus.
  4. CH. 2 Ikon Attenuverter: Yana bayar da scaling, attenuation, amplification, da jujjuyawar facin siginar zuwa CH. 2 Shigar siginar. Ba tare da sigina ba, yana sarrafa matakin saitin da CH ya haifar. 2.
    • An haɗa zuwa CH. 2 Canje-canjen Fitarwa da Jima'i/OR Bas.
  5. CH. 3 Ikon Attenuverter: Yana bayar da scaling, attenuation, amplification, da juyar da facin siginar zuwa CH. 3 Shigar siginar. Ba tare da sigina ba, yana sarrafa matakin da aka samu ta hanyar CH. 3.
    • An haɗa zuwa CH. 3 Canje-canjen Fita da Jima'i/OR Bas.
  6. CH. 4 Ikon Attenuverter: Yana ba da ƙima, attenuation, da juyar da siginar da ake sarrafa ko samar da shi ta CH. 4. Haɗa zuwa CH. 4 Canje-canjen Fitarwa da Jima'i/OR Bas.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-7

SUM da OR Bus

  1. CH. 1-4 Mabambantan Sakamako: Ana sarrafa siginar da aka yi amfani da ita ta hanyar sarrafa tashoshi masu dacewa. An daidaita shi zuwa bas ɗin SUM da OR. Saka kebul na faci yana cire siginar daga SUM da bas OR. Kewayon fitarwa +/- 10V.
  2. KO Fitowar Bus: Sakamako na Analog Logic OR aiki zuwa saituna na masu sarrafawa na attenuverter don Tashoshi 1, 2, 3, da 4. Range 0V zuwa 10V.
  3. Fitar Bus na SUM: Jimlar aikin voltages zuwa saituna na masu sarrafa attenuverter don Tashoshi 1, 2, 3, da 4. Range +/- 10V.
  4. Juyar da Fitar SUM: Sigina daga fitarwar SUM ya juye. Rage +/- 10V.
  5. SUM Bus LEDs: Nuna voltage aiki a cikin SUM bas (saboda haka, da Inverted SUM da). Red LED yana nuna korau voltage. Green LED yana nuna tabbatacce voltage.

FARAWA

MATS an shimfida shi sama zuwa kasa, tare da siffofi masu ma'ana tsakanin CH. 1 da 4. Abubuwan shigar da siginar suna a saman, sannan kuma abubuwan sarrafawa da sarrafa siginar a tsakiya. Abubuwan siginar suna a ƙasan tsarin. Ana sanya LEDs kusa da siginar da suke nunawa. Tashoshi 1 da 4 na iya auna, jujjuya, ko haɗa sigina mai shigowa. Ba tare da sigina da aka yi amfani da su ba, ana iya yin waɗannan Chan-nels don samar da nau'ikan layin layi, logarithmic, ko ayyuka masu ma'ana yayin karɓar faɗakarwa, ko ci gaba lokacin da Kewayon ke aiki. Ƙananan bambanci tsakanin CH. 1 da 4 suna cikin Fitar Pulse nasu; CH.1 yana da Ƙarshen Tashi da CH. 4 yana da Ƙarshen Zagaye. Anyi wannan don sauƙaƙe ƙirƙirar ayyuka masu rikitarwa ta amfani da duka CH. 1 da 4. Tashoshi 2 da 3 na iya sikelin, ampinganta, kuma juya sigina mai shigowa. Ba tare da sigina na waje da aka yi amfani da su ba, waɗannan Tashoshi suna haifar da diyya na DC. Bambanci kawai tsakanin CH. 2 da 3 shine CH. 2 yana haifar da saitin +/-10V yayin da Ch. 3 yana haifar da kashe +/- 5V.
Duk tashoshi 4 suna da abubuwan fitarwa (wanda ake kira Variable Outputs) waɗanda aka daidaita su zuwa SUM, Juyawa SUM, da bas OR ta yadda ƙari, ragi, juyewa, da ma'anar analog KO za'a iya samun nasara. Shigar da filogi a cikin waɗannan kwas ɗin Abubuwan Canja-canje yana cire siginar da ke da alaƙa daga bas ɗin SUM da OR (Tashoshi 1 da 4 suna da abubuwan haɗin kai, waɗanda ba a daidaita su zuwa SUM da bas OR ba). Waɗannan abubuwan fitarwa ana sarrafa su ta 4 Attenuverters a tsakiyar tsarin.

Shigar da Sigina

Waɗannan abubuwan shigar duk an haɗa su kai tsaye zuwa da'irarsu. Wannan yana nufin za su iya wuce duka siginar sauti da sarrafawa. Ana amfani da waɗannan abubuwan shigar don aiwatar da iko na waje voltage. CH. Hakanan za'a iya amfani da shigarwar siginar 1 da 4 don samar da nau'in ambulan Attack/Drewa/Saki daga siginar kofa. Tashoshi 2 da 3 kuma an daidaita su zuwa juzu'itage tunani ta yadda ba tare da wani abu da aka fake ga shigarwar ba, za a iya amfani da wannan tashar don ƙirƙirar voltage kashewa. Wannan yana da amfani ga matakin canza aiki ko wata siginar da ke ɗaya daga cikin sauran tashoshi ta ƙara voltage biya diyya ga wannan siginar kuma ɗaukar Fitarwar SUM.

Shigar da Shigarwa

CH. 1 da 4 kuma suna da shigarwar Ƙarfafawa. Ƙofa ko bugun bugun jini da ake amfani da shi ga wannan shigarwar tana haifar da da'irar da ke da alaƙa ba tare da la'akari da ayyukan da ke cikin Siginar Input ba. Sakamakon shine aikin 0V zuwa 10V, aka Envelope, wanda halayensa sun bayyana ta hanyar Rise, Fall, Vari-Response, da Attenuverter sigogi. Wannan aikin yana tashi daga 0V zuwa 10V sannan nan da nan ya faɗi daga 10V zuwa 0V. BABU SUSTAIN. Don samun aikin ambulan mai dorewa, yi amfani da shigar da siginar (duba sama). MATHS yana sake kunnawa yayin faɗuwar ɓangaren aikin amma baya sake haifar da tashin ɓangaren aikin. Wannan yana ba da damar raba agogo da ƙofa tunda ana iya tsara MATHS don yin watsi da agogo da ƙofofi masu shigowa ta hanyar saita lokacin tashi ya zama mafi girma fiye da lokacin tsakanin agogo masu shigowa da/ko Ƙofofi.

Zagayowar

Maɓallin kewayawa da shigar da zagayowar duka biyu suna yin abu ɗaya: suna yin MATHS oscillate aka Cycle, waɗanda kawai sharuɗɗan zato ne don LFO! Lokacin da kake son LFO, yi MATHS Cycle.

TASHIN FAɗuwar VARI-AMSA

  • Waɗannan abubuwan sarrafawa suna siffanta siginar da ke fitowa a Fitar Siginar Unity da Sauƙaƙen Fitarwa don CH. 1 da 4. Rise and Fall controls suna ƙayyade yadda sauri ko jinkirin da'irar ke amsa sigina da aka yi amfani da shi zuwa Siginar Input da Ƙaddamarwa. Kewayon lokuta ya fi girma fiye da ambulaf na yau da kullun ko LFO. MATHS yana ƙirƙira ayyuka a hankali kamar mintuna 25 (Tashi da faɗuwa cikakken CW da siginar sarrafawa na waje da aka ƙara don shiga cikin “slow-ver-drive”) kuma cikin sauri kamar 1khz (yawan sauti).
  • Tashi yana saita adadin lokacin da da'irar ke ɗauka don tafiya zuwa matsakaicin voltage. Lokacin da aka kunna kewaye yana farawa daga 0V kuma yana tafiya har zuwa 10V. Tashi yana ƙayyade tsawon lokacin da hakan zai faru. Lokacin amfani da sarrafa ikon waje voltages siginar da aka yi amfani da ita ga shigar da siginar yana ƙaruwa, raguwa, ko kuma a tsaye (ba yin komai). Tashi yana ƙayyade yadda saurin siginar zai iya ƙaruwa. Abu daya da MATHS ba zai iya yi ba shine duba nan gaba don sanin inda siginar sarrafawa ta waje ta dosa, don haka MATHS ba zai iya ƙara yawan ƙimar vol na waje ba.tage canje-canje / motsi, zai iya aiki akan halin yanzu kuma ya rage shi (ko ƙyale shi ya wuce a cikin irin gudun).
  • Fall yana saita adadin lokacin da da'irar ke ɗauka don tafiya ƙasa zuwa ƙaramin voltage. Lokacin da aka kunna voltage yana farawa daga 0V kuma yana tafiya har zuwa 10V, a 10V an kai mashigin sama kuma vol.tage fara fadowa baya zuwa 0V. Fall yana ƙayyade tsawon lokacin da wannan zai faru. Lokacin amfani da sarrafa ikon waje voltages siginar da aka yi amfani da ita ga shigar da siginar yana ƙaruwa, raguwa, ko kuma a tsaye (ba yin komai). Fall yana ƙayyade yadda saurin siginar zai iya raguwa. Tunda ba zai iya duba nan gaba don sanin inda siginar sarrafawa ta waje ta nufa ba, MATHS ba zai iya ƙara yawan adadin da vol na waje yake ba.tage canje-canje / motsi, zai iya aiki akan halin yanzu kuma ya rage shi (ko ƙyale shi ya wuce a cikin irin gudun).
  • Dukansu Rise da Fall suna da abubuwan shigar CV masu zaman kansu don voltage iko akan waɗannan sigogi. Idan ana buƙatar attenuation, yi amfani da CH. 2 ko CH. 3 a jere zuwa wurin da ake so. Baya ga Tashi da Faɗuwar Shigarwar CV, akwai kuma Duk Abubuwan Shigar CV.
  • Duk shigarwar CV guda biyu suna canza ƙimar duk aikin. Hakanan yana mayar da martani da juzu'i ga Tashi da faduwar abubuwan shigar da CV. Mafi inganci voltages sa duka aikin ya zama ya fi guntu kuma mafi mummunan voltages sa duka aikin ya fi tsayi.
  • Amsa Vari yana siffanta ƙimar canji na sama (Tashi/Faɗuwa) don zama Logarithmic, Linear, ko Exponential (da duk abin da ke tsakanin waɗannan sifofin).
  • Tare da amsa LOG, ƙimar canji yana raguwa azaman voltage yana ƙaruwa.
  • Tare da amsawar EXPO, ƙimar canji yana ƙaruwa yayin da voltage qara. Amsar layin layi ba ta da canji a cikin ƙimar kamar voltage canje-canje.

FITOWAR SALAMA

  • Akwai fitowar sigina daban-daban da yawa akan MATHS. Dukkansu suna a kasan tsarin. Yawancinsu suna da LEDs da ke kusa don nunin sigina na gani.

Matsalolin Canje-canje

  • Waɗannan abubuwan fitarwa ana yiwa lakabin 1, 2, 3, da 4 kuma suna da alaƙa da sarrafawar Attenuverter huɗu a tsakiyar tsarin. Waɗannan abubuwan fitowar duk an ƙaddara su ta saitunan abubuwan sarrafawa masu alaƙa, esp. Farashin CH. 1 zuwa 4 Gudanar da Attenuverter.
  • Duk waɗannan jacks ɗin ana daidaita su zuwa SUM da OR Bus. Ba tare da wani abu da aka liƙa ba ga waɗannan abubuwan, ana shigar da siginar da ke da alaƙa a cikin SUM da OR Bus. Lokacin da kuka facin kebul a cikin ɗayan waɗannan jacks ɗin fitarwa, ana cire siginar da ke da alaƙa daga SUM da OR Bus. Waɗannan abubuwan fitowar suna da amfani idan kuna da madaidaicin wuri inda babu wani abu ko jujjuyawar da ake samu ( abubuwan shigar da CV akan na'urorin MATHS ko AIKI na ex.ample).
  • Hakanan suna da amfani lokacin da kake son ƙirƙirar saɓanin sigina wanda ke a wani daban amplitude ko lokaci.

DON FITA

  • Wannan shine Ƙarshen Fitowar Tashi na CH. 1. Wannan siginar lamari ne. Yana ko dai a 0V ko 10V kuma babu wani abu tsakanin. Yana saɓawa zuwa 0V, ko Ƙananan lokacin da babu aiki.
  • Lamarin da ke faruwa a wannan yanayin shine lokacin da tashar haɗin gwiwa ta kai mafi girma voltage wanda yake tafiya. Wannan sigina ce mai kyau don zaɓar don Clocking ko LFO mai siffar bugun jini.
  • Hakanan yana da amfani ga Jinkirin Pulse da rarrabuwar agogo tunda Rise yana saita adadin lokacin da ake ɗauka don wannan fitarwa ya yi girma.

EOC FITA

  • Wannan shine fitowar Ƙarshen Zagaye na CH. 4. Wannan sigina ce ta aukuwa. Yana ko dai a 0V ko 10V kuma babu wani abu tsakanin. Yana kasawa zuwa +10V, ko High lokacin da babu wani aiki.
  • Lamarin da ke faruwa a wannan yanayin shine lokacin da tashar haɗin gwiwa ta kai mafi ƙasƙanci voltage wanda yake tafiya. LED mai haɗin gwiwa yana kunne lokacin da babu abin da ke faruwa. Wannan sigina ce mai kyau don zaɓar don Clocking ko LFO mai siffar bugun jini.

Fitar Siginar Haɗin kai (CH. 1 da 4)

  • Ana buga waɗannan abubuwan fitarwa kai tsaye daga ainihin tashar tashar da ke da alaƙa. Attenuverter na Channel bai shafe su ba.
  • Matsawa cikin wannan fitarwa baya cire siginar daga SUM da OR Buses. Wannan fitowar mai kyau ce don amfani lokacin da ba kwa buƙatar attenuation ko juyewa ko lokacin da kuke son amfani da siginar duka biyun da kanta kuma a cikin SUM/OR Bus.

KO FITA

  • Wannan shi ne fitarwa daga analog OR kewaye. Abubuwan da aka shigar sune CH. 1, 2, 3, da kuma 4 Abubuwan da ake iya canzawa. Kullum yana fitar da mafi girman voltage daga duk voltages shafi abubuwan da aka shigar. Wasu mutane suna kiran wannan da Maximum Voltage zaɓaɓɓen kewaye! Attenuators suna ba da izinin auna sigina. Ba ya mayar da martani ga mummunan voltagDon haka ana iya amfani da ita don gyara sigina.
  • Yana da amfani don ƙirƙirar bambance-bambancen akan na'urar daidaitawa ko aika CV zuwa abubuwan shigar da ke amsa kawai ga ingantaccen voltage (misali Tsara CV Input akan PHONOGENE).

SUM FITAR

  • Wannan shine fitowar daga da'irar SUM na analog. Abubuwan da aka shigar sune CH. 1, 2, 3, da 4 Mabambantan Fitarwa. Dangane da yadda aka saita Attenuverters, zaku iya ƙarawa, jujjuya, ko rage juzu'itages daga juna ta amfani da wannan kewaye.
  • Wannan fitarwa ce mai kyau don amfani don haɗa siginar sarrafawa da yawa don samar da ƙarin hadaddun abubuwa.

FITARWA

  • Wannan shine jujjuyawar sigar fitar da SUM. Yana ba ku damar daidaitawa da baya!

NASIHA DA HANYOYI

  • Ana samun dogayen zagayawa tare da ƙarin lanƙwasa martanin Logarithmic. Mafi sauri, ayyuka masu kaifi ana samun su tare da matsananciyar maɓalli na amsawa.
  • Daidaita zuwa lanƙwan martani yana rinjayar Tashi da Lokacin Faɗuwa.
  • Don cimma tsayi ko gajeriyar Lokacin Tashi da Faɗuwa fiye da samuwa daga Gudanarwar Panel, yi amfani da voltage biya diyya zuwa Abubuwan Shiga Siginar Sarrafa. Yi amfani da CH. 2 ko 3 don wannan ƙaddamarwa voltage.
  • Yi amfani da fitowar INV SUM inda kuke buƙatar jujjuya juzu'i amma ba ku da hanyar jujjuyawa a wurin CV ɗin (Haɗa Shigar CV akan ECHPHON, ga tsohonample).
  • Ciyar da siginar jujjuyawar daga MATHS zuwa cikin MATHS a kowane ɗayan abubuwan shigar da CV yana da matukar fa'ida don ƙirƙirar martani waɗanda ba a rufe su ta hanyar sarrafa amsa-Vari kaɗai.
  • Lokacin amfani da SUM da OR Fitarwa, saita kowane CH mara amfani. 2 ko 3 zuwa 12:00 ko saka kebul na faci mai jujjuyawa zuwa shigar da siginar tashar mai haɗin gwiwa don guje wa biya diyya maras so.
  • Idan ana son siginar sarrafa ko samar da shi ta CH. 1, 4 duka yana kan SUM, INV, da OR bass DA samuwa azaman fitarwa mai zaman kanta, yi amfani da Fitar Siginar Haɗin kai, kamar yadda BA a daidaita shi zuwa SUM da KO Busses ba.
  • KO Fitarwa baya amsawa ko haifar da mummunan voltage.
  • Ƙarshen Tashi da Ƙarshen Zagaye suna da amfani don samar da hadadden sarrafawa voltage yana aiki inda CH. 1 da CH. 4 suna haifar da juna. Don yin wannan, facin EOR ko EOC zuwa sauran tashoshi na Trigger, Signal, and Cycle.

FACI RA'AYIN

Hankula Voltage Ayyukan Triangle Mai Sarrafa (LFO)

  1. Saita CH.1 (ko 4) zuwa Zagaye. Saita Rise da Fall Control Panel zuwa tsakar rana, Vari-Response to Linear.
  2. Saita CH.2 Attenuverter zuwa 12:00.
  3. Faci Fitowar SUM zuwa Duk Abubuwan Shigar sarrafawa.
  4. Da zaɓin, yi amfani da kowane na'ura na mitar da ake so zuwa shigar da siginar siginar CH.3 kuma a hankali juya mai saurin sa agogo.
  5. Ƙara CH.2 Attenuverter don canza Mitar.
  6. Ana fitar da fitarwa daga Fitar siginar tasha mai alaƙa.
  7. Saita sigogin Tashi da faɗuwa gaba a kusa da agogo yana ba da tsayin hawan keke. Ƙirƙirar waɗannan sigogin gaba da agogon gefe yana ba da gajerun zagayowar, har zuwa ƙimar sauti.
  8. Za a iya ƙara sarrafa sakamakon aikin tare da ragewa da/ko jujjuyawar Attenuverter mai alaƙa. A madadin, ɗauki fitarwa daga Fitowar Haɗin kai ta Channel na Keke da faci Maɓallin Maɓallin Canji zuwa Tashi ko Faɗuwar CV Input zuwa morph LFO siffofi tare da CH.1 (ko 4) Attenuverter.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-8

Hankula Voltage Sarrafa Ramp Aiki (Saw/Ramp LFO)

Kamar yadda yake a sama, ma'aunin Rise ne kawai aka saita gabaɗayan agogo baya, Faɗuwar siga an saita zuwa aƙalla tsakar rana.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-9

Voltage Sarrafa Generator Aiki na wucin gadi (Harin / Lalacewar EG)

  • Ƙofar bugun bugun jini ko ƙofar da aka yi amfani da ita a kan Input na Trigger na CH.1 ko 4 yana fara aikin wucin gadi wanda ya tashi daga 0V zuwa 10V a ƙimar da aka ƙaddara ta hanyar Rise parameter sannan kuma ya faɗi daga 10V zuwa 0V a ƙimar da aka ƙaddara ta hanyar Fall parameter.
  • Ana iya sake kunna wannan aikin yayin faɗuwar rabo. Tashi da faɗuwa suna iya sarrafa shekarun volt daban-daban, tare da amsa mai canzawa daga Log ta Linear zuwa Exponential, kamar yadda Sarrafa ta Vari-Response panel.
  • Za'a iya ƙara sarrafa sakamakon aikin tare da ragewa da/ko juyewa ta Attenuverter.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-10

Voltage Sarrafa Dorewa Aiki Generator (A/S/R EG)

  • Ƙofar da ake amfani da Siginar Input na CH.1 ko 4 ta fara aikin, wanda ya tashi daga 0V zuwa matakin Ƙofar da aka yi amfani da shi, a kan ƙimar da aka ƙayyade ta hanyar Rise parameter, yana dagewa a wannan matakin har sai siginar Ƙofar ta ƙare, sannan ta fado daga wannan matakin zuwa 0V a gwargwadon ƙimar Fall parameter.
  • Tashi da faɗuwa bisa kansu voltage mai iya sarrafawa, tare da amsa mai canzawa kamar yadda aka saita ta Controlungiyar Kulawa ta Vari-Re-sponse.
  • Za a iya ƙara sarrafa sakamakon aikin tare da ragewa da/ko jujjuyawar Attenuverter.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-11

Gano mafi girma

  1. Za a gano siginar faci zuwa CH. 1 Shigar siginar.
  2. Saita Tashi da Faɗuwa zuwa 3:00.
  3. Ɗauki fitarwa daga Fitar siginar. Fitowar Ƙofar daga Fitowar EOR.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-12

Voltage Mirror

  1. Aiwatar da Siginar Sarrafa don a yi madubi zuwa CH. 2 Shigar siginar.
  2. Saita CH. 2 Attenuverter zuwa Cikakken CCW.
  3. Ba tare da shigar da komai ba a CH. 3 Shigar da siginar (don haifar da kashewa), saita CH. 3 Attenuvert-er zuwa cikakken CW.
  4. Dauki fitarwa daga SUM Output.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-13

Gyaran Half Wave

  1. Aiwatar da siginar bi-polar zuwa CH. 1, 2, 3, ko 4 abubuwan shigarwa.
  2. Ɗauki fitarwa daga OR Output.
  3. Yi la'akari da daidaitawa zuwa bas OR.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-14

Hankula Voltage Sarrafa bugun jini/Agogo tare da Voltage Gudun Gudu / Tsayawa (Agogo, bugun jini LFO)

  1. Daidai da Na Musamman Voltage Aiki na Triangle Sarrafa, abin da ake fitarwa kawai ana ɗauka daga EOC ko EOR.
  2. CH.1 Rise siga mafi inganci yana daidaita mita kuma CH.1 Faɗuwar siga tana daidaita faɗin bugun jini.
  3. Tare da CH.4, akasin haka gaskiya ne, inda Rise ke daidaitawa da kyau Nisa da Faɗuwa daidaita mitar.
  4. A cikin tashoshi biyu, duk gyare-gyare zuwa sigogin Tashi da faɗuwa suna shafar mita.
  5. Yi amfani da shigarwar CYCLE don sarrafa Gudu/Dakata.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-15

Voltage Sarrafa Pulse Delay Processor

  1. Aiwatar da Trigger ko Ƙofa zuwa Shigar da Tasiri idan CH.1.
  2. Ɗauki fitarwa daga Ƙarshen Tashi.
  3. Ma'aunin tashi yana saita jinkiri kuma ma'aunin Fall yana daidaita faɗin bugun bugun da aka samu.SANARWA-SURYA-Maths-Complex-Aikin-Generator-Eurorack-Module-FIG-16

Arcade Trill (Complex LFO)

  1. Saita CH4 Tashi da Faɗuwa zuwa tsakar rana, mayar da martani ga Ƙarfafawa.
  2. Faci EOC zuwa mahara, sannan zuwa CH1 Trigger Input da CH2 Input.
  3. Daidaita ikon CH2 zuwa 10:00.
  4. Faci Fitowar CH2 zuwa CH1 BOTH Shigar.
  5. Saita CH1 Tashi zuwa tsakar rana, Faɗuwa zuwa gaba da agogo baya, mayar da martani ga Linear.
  6. Shiga CH4 Cycle Cycle (Kada CH1 ya zama hawan keke).
  7. Aiwatar da Unity Output CH1 zuwa wurin daidaitawa.
  8. Daidaita CH1 Rise panel iko don bambanta (kananan canje-canje suna da tasiri mai ƙarfi akan sauti).

Chaotic Trill (yana buƙatar MMG ko wani Tacewar LP Kai tsaye)

  1. Fara da facin Arcade Trill.
  2. Saita CH.1 Attenuverter zuwa 1:00. Aiwatar da Fitowar Siginar CH.1 zuwa Shigar Siginar MMG DC.
  3. Faci EOR zuwa MMG AC Input Signal, saita zuwa yanayin LP, babu amsa. Fara da Freq a gaba da agogo baya.
  4. Aiwatar da Fitowar Siginar MMG zuwa MATHS CH.4 Duk Abubuwan Shiga.
  5. Faci CH.4 Fitarwa Mai Sauƙi zuwa CH.1 Duk Abubuwan Shigar CV.
  6. Fitowar siginar haɗin kai zuwa wurin daidaitawa.
  7. MMG Freq da ikon shigar da sigina da MATHS CH1 da 4 Attenuverters suna da matukar sha'awa ban da ma'aunin Tashi da faɗuwa.

Yanayin 281 (Hadadden LFO)

  1. A cikin wannan facin, CH1 da CH4 suna aiki tare don samar da ayyuka da aka canza ta digiri casa'in.
  2. Tare da duka Canjin Canjin Zagaye, daidaita Ƙarshen TASHI (CH1) zuwa Trigger Inverter CH4.
  3. Faci Ƙarshen Zagaye (CH4) zuwa Ƙaddamar Shigar da Shigar CH1.
  4. Idan duka CH1 da CH4 ba su fara hawan keke ba, shigar da Zagayen CH1 a taƙaice.
  5. Tare da hawan keken tashoshi biyu, yi amfani da fitattun siginar su zuwa wurare daban-daban na daidaitawa, misaliample, Tashoshi biyu na OPTOMIX.

Hankula Voltage Ambulan irin ADSR mai sarrafawa

  1. Aiwatar da siginar Ƙofar zuwa Shigar Siginar CH1.
  2. Saita CH1 Attenuverter zuwa ƙasa da Cikakken CW.
  3. Faci CH1 Ƙarshen Tashi zuwa CH4 Trigger Input.
  4. Saita CH4 Attenuverter zuwa Cikakken CW.
  5. Ɗauki fitarwa daga OR Bus Output, tabbatar da cewa an saita CH2 da CH3 zuwa tsakar rana idan ba a amfani da su.
  6. A cikin wannan facin, CH1 da CH4 Rise suna sarrafa lokacin harin. Don ADSR na yau da kullun, daidaita waɗannan sigogi don zama iri ɗaya (Saitin CH1 Rise ya zama tsayi fiye da CH4 ko akasin haka, yana haifar da hari biyu s).tage).
  7. CH4 Fall sigar daidaita lalata stage na ambulaf.
  8. CH1 Attenuverter yana saita matakin Dorewa wanda dole ne ya zama ƙasa da wannan siga guda akan CH4.
  9. A ƙarshe, CH1 Fall yana saita Lokacin Saki.

Bouncing Ball, bugun 2013 - godiya ga Pete Speer

  1. Saita CH1 Tashi cikakken CCW, Faɗu zuwa 3:00, amsa ga Linear.
  2. Saita CH4 Tashi gabaɗayan agogo baya, Faɗuwa zuwa 11:00, mayar da martani ga Linear.
  3. Faci CH1 EOR zuwa CH4 Cycle Input, da CH1 m fitarwa zuwa CH4 Fall Input.
  4. Faci Fitowar CH4 zuwa Shigarwar sarrafawa ta VCA ko LPG.
  5. Faci tushen Ƙofa ko Ƙofa (kamar Ƙofar taɓawa daga Matsalolin Matsaloli) zuwa Shigarwar Matsala ta CH1 don farkon “bounces” da hannu.
  6. Daidaita CH4 Tashi da Faɗuwa don bambancin.

Contours masu zaman kansu - godiya ga Navs

Ta hanyar canza matsayi da polarity na Canjin Fitarwa na CH1/4 tare da Attenuverter, da ciyar da wannan siginar zuwa cikin CH1/4 a Rise ko Fall Control Input, ana samun iko mai zaman kansa na gangaren mai daidaitawa. Ci gaba da fitar da siginar Unity. Mafi kyawun saita kula da panel Response zuwa tsakar rana.

Rukunin Rubuce-rubuce masu zaman kansu

  • Daidai da na sama, amma ƙarin iko yana yiwuwa ta amfani da EOC ko EOR don haifar da tashar tashar tashoshi kuma amfani da SUM ko OR fitarwa zuwa Tashi, Fall, ko BOTH na asali Channel.
  • Canza Tashi, Faɗuwa, Attenuversion, da madaidaicin amsa tashoshi don cimma siffofi daban-daban.

Ambulaf ɗin Trilling Asymmetrical - godiya ga Walker Farrell

  1. Shiga hawan keke akan CH1, ko yi amfani da siginar zaɓin da kuka zaɓa zuwa Ƙaddamarwa ko shigar da siginar sa.
  2. Saita CH1 Tashi da Faɗuwa zuwa tsakar rana tare da Amsar Litafi.
  3. Faci CH1 EOR zuwa Shigarwar Zagaye na CH4.
  4. Saita CH4 Yunƙurin zuwa 1:00 da Faɗuwa zuwa 11:00, tare da Amsa Mahimmanci.
  5. Ɗauki fitarwa daga OR (tare da CH2 da CH3 saita zuwa tsakar rana).
  6. Sakamakon ambulaf ɗin yana da "trill" yayin rabon faɗuwa. Daidaita matakan da lokutan Tashi/Faɗuwa.
  7. A madadin, musanya tashoshi kuma yi amfani da Fitar EOC zuwa shigarwar Cycle na CH1 don trilling yayin rabon haɓakawa.

Mabiyan ambulan

  1. Aiwatar da sigina don bi zuwa Siginar Input CH1 ko 4. Saita Tashi zuwa la'asar.
  2. Saita ko canza lokacin Faɗuwa don cimma amsoshi daban-daban.
  3. Ɗauki fitarwa daga Fitowar siginar tasha mai alaƙa don gano kololuwar inganci da mara kyau.
  4. Ɗauki fitarwa daga OR Bus Output don cimma mahimmin aikin mabiyi mai ingantacciyar ambulaf.

Voltage Comparator/Ƙofar Extraction w/ m nisa

  1. Aiwatar da sigina don kwatantawa da shigar da siginar CH3. Saita Attenuverter zuwa sama da 50%.
  2. Yi amfani da CH2 don kwatanta voltage (tare da ko ba tare da wani abu patched).
  3. Faci Fitowar SUM zuwa Shigar Siginar CH1.
  4. Saita CH1 Tashi da Faɗuwa zuwa cikakken CCW. Ɗauki Ƙofar da aka ciro daga EOR.
    • CH3 Attenuverter yana aiki azaman saitin matakin shigarwa, ma'auni masu dacewa suna tsakanin tsakar rana da Cikakken CW. CH2 yana aiki azaman saitin ƙofa masu dacewa daga Cikakken CCW zuwa 12:00.
    • Ƙimar da ke kusa da 12:00 sune ƙofofin KASA. Saita Rise ƙarin CW, zaku iya jinkirta Ƙofar da aka samu.
    • Saitin Faɗuwar ƙarin CW yana bambanta faɗin Ƙofar da aka samo. Yi amfani da CH4 don facin mai bin bulo, da CH3, 2 & 1 don hakar Ƙofar, kuma kuna da tsari mai ƙarfi don sarrafa siginar waje.

Cikakkun Gyaran Wave

  1. Alamar da yawa da za a gyara zuwa duka CH2 da 3 Input.
  2. CH2 Scaling/ Juyawa saitin zuwa Cikakken CW, CH3 Scaling/Inversion saitin zuwa Cikakken CCW.
  3. Ɗauki fitarwa daga OR Output. Sauya Scaling.

Yawaita

  1. Aiwatar da siginar sarrafawa mai inganci don haɓakawa zuwa CH1 ko 4 Input Siginar. Saita Tashi zuwa cikakken CW, Faɗuwa zuwa Cikakken CCW.
  2. Aiwatar da siginar Sarrafa mai haɓaka mai inganci zuwa BOTH Control Input.
  3. Ɗauki fitarwa daga fitowar siginar daidai.

Pseudo-VCA tare da yanke - Thanx zuwa Walker Farrell

  1. Faci siginar mai jiwuwa zuwa CH1 tare da Tashi da Faɗuwa a gabaɗayan agogo baya, ko sake zagayowar CH1 akan ƙimar odiyo.
  2. Fitar da fitarwa daga SUM fita.
  3. Saita matakin farko tare da CH1 panel iko.
  4. Saita CH2 panel iko cikakken CW don samar da 10V diyya. Sautin yana farawa don shiryawa kuma yana iya yin shiru. Idan har yanzu ana jin sa, a yi amfani da ƙarin ingantacciyar hanya tare da sarrafa CH3 har sai an yi shiru.
  5. Saita iko na CH4 zuwa cikakken CCW kuma yi amfani da ambulaf zuwa Shigar Siginar ko samar da ambulaf tare da CH4.
    • Wannan facin yana ƙirƙirar VCA tare da yanke asymmetrical a cikin sigar igiyar ruwa. Yana aiki tare da CV kuma, amma tabbatar da daidaita saitunan shigarwar CV don ma'amala da babban tushe. Fitowar INV na iya zama mafi amfani a wasu yanayi.

Voltage Mai Rarraba Agogo Mai Sarrafa

  • Ana sarrafa siginar agogon da ake amfani da shi zuwa Trigger Input CH1 ko 4 mai rarrabawa kamar yadda ma'aunin Rise ya saita.
  • Ƙara haɓaka yana saita mai rarraba mafi girma, yana haifar da rarrabuwa mafi girma. Lokacin faɗuwa yana daidaita faɗin agogon sakamakon. Idan an daidaita Nisa don ya zama mafi girma fiye da jimlar lokacin rabon, abin da aka fitar ya kasance "high."

FLIP-FLOP (Ƙwaƙwalwar 1-Bit)

  • A cikin wannan facin, CH1 Trigger Input yana aiki azaman shigarwar “Set”, kuma CH1 BOTH BOTH Input na sarrafawa yana aiki azaman shigarwar “Sake saitin”.
    1. Aiwatar da Sake saitin sigina zuwa CH1 BOTH Sarrafa Input.
    2. Aiwatar da Ƙofar ko siginar tunani zuwa CH1 Trigger Input. Saita Tashi zuwa Cikakkun CCW, Faɗuwa zuwa Cikakkun CW, Vari-Re-sponse to Linear.
    3. Dauki fitowar "Q" daga EOC. Faci EOC zuwa siginar CH4 don cimma "BA Q" a Fitar EOC.
  • Wannan facin yana da iyakacin ƙwaƙwalwar ajiya na kusan mintuna 3, bayan haka yana manta abu ɗaya da kuka gaya masa ku tuna.

Logic Inverter

  • Aiwatar da ƙofar dabaru zuwa CH. 4 Shigar siginar. Ɗauki fitarwa daga CH. 4 EOC.

Comparator/Mai Hana Ƙofar (Sabon Take)

  1. Aika sigina don kwatantawa da CH2 Input.
  2. Saita iko na CH3 cikin kewayon mara kyau.
  3. Fitar da SUM zuwa Shigar Siginar CH1.
  4. Saita CH1 Tashi da Faɗuwa zuwa 0.
  5. Ɗauki fitarwa daga CH1 EOR. Kula da polarity na sigina tare da CH1 Unity LED. Lokacin da siginar ya ɗan ɗanɗana tabbatacce, EOR yana tafiya.
  6. Yi amfani da iko na CH3 don saita ƙofa. Wasu raguwa na CH2 na iya zama dole don nemo madaidaicin kewayon siginar da aka bayar.
  7. Yi amfani da sarrafa faɗuwar CH1 don ƙara tsayin ƙofofin. Ikon tashi CH1 yana saita tsawon lokacin da siginar dole ne ya kasance sama da bakin kofa don tada mai kwatanta.

GARANTI MAI KYAU

  • Yi amo yana ba da garantin wannan samfurin don zama mara lahani a cikin kayan ko gini na shekara guda daga ranar siyan (shaidar sayan/daftari da ake buƙata).
  • Matsalolin da ke faruwa sakamakon rashin wutar lantarki voltage, baya ko baya ko jujjuya hanyar haɗin jirgin bas ɗin eurorack, cin zarafin samfur, cire ƙulli, canza farantin fuska, ko wasu dalilai da aka ƙaddara don laifin mai amfani da wannan garanti ba shi da alaƙa, kuma za a yi amfani da ƙimar sabis na yau da kullun. .
  • A lokacin garanti, duk samfuran da ke da lahani za a gyara ko musanya su, a zaɓin Yi Noise, akan komawa-zuwa-Yi Noise tare da abokin ciniki yana biyan kuɗin wucewa don yin Noise.
  • Ƙirar amo tana nufin kuma baya karɓar alhakin cutar da mutane ko na'urori da aka haifar ta hanyar aikin wannan samfur.
  • Da fatan za a tuntuɓi technical@makenoisemusic.com tare da kowane tambayoyi, Komawa Izinin Mai ƙira, ko kowane buƙatu & tsokaci. http://www.makenoisemusic.com

Game da Wannan Manual:

  • Tony Rolando ne ya rubuta
  • Walker Farrell ne ya gyara shi
  • W.Lee Coleman ne ya kwatanta da Lewis Dahm Layout na Lewis Dahm
  • NA GODE
  • Taimakon Zane: Matthew Sherwood
  • Beta Analyst: Walker Farrell
  • Abubuwan Gwaji: Joe Moresi, Pete Speer, Richard Devine

FAQ

  • Tambaya: Shin za a iya amfani da MATS tare da na'urori na dijital?
    • A: MATHS an tsara shi da farko don amfani da analog amma yana iya yin mu'amala da masu haɗa dijital ta siginar Ƙofa/Agogo.
  • Tambaya: Ta yaya zan iya ƙirƙirar canje-canje na ɗan lokaci ta amfani da MATS?
    • A: Kuna iya ƙirƙirar canje-canje na ɗan lokaci ta amfani da ayyukan ambulaf da daidaita voltagzo ramp sama ko ƙasa a cikin ɗan lokaci.
  • Tambaya: Menene manufar shigar da zagayowar?
    • A: Shigarwar Zagaye tana ba da damar voltage sarrafa yanayin Cycle a cikin Tashoshi 1 da 4, yana ba da damar yin keke bisa siginar Ƙofa.

Takardu / Albarkatu

YI SURYA Maths Complex Aiki Generator Eurorack Module [pdf] Jagoran Jagora
Maths Complex Aiki Generator Eurorack Module, Maths, Hadaddiyar Aiki Generator Eurorack Module, Aiki Generator Eurorack Module

Magana

Bar sharhi

Ba za a buga adireshin imel ɗin ku ba. Ana yiwa filayen da ake buƙata alama *