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ZED MI N I MI X E R S

AL L EN&HEAT H A P 7 2 0 5i s s u e5

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A l l e n a n d H e a t h U K

a l l e n h e a t h o f f i c i a l

a l l e n _ h e a t h

2b u sMI X E R S

4B U SMI X E R S

R E C O R D I N GMI X E R S

AL L EN&HEAT H

T h eZ E Dr a n g ei st h ep r e mi u mc h o i c eo fa n a l o g u emi x e rf o rb a n d s , s ma l lr e n t a lc o mp a n i e s , s i n g e rs o n g wr i t e r sA N Ds t u d i oa r t i s t s . Z E Dmi x e r so f f e rma n ys o u r c e st ot h e mi x , u pt o6a u xs e n d s , aU S B s e n da n dr e t u r n ,au n i q u ed u a ls t e r e oi n p u tc a p a b i l i t ya n d S O P H I S T I C A T E D mo n i t o r i n gf a c i l i t i e s .Z E D ’ sf e a t u r es e ti s i n c r e d i b l ya d v a n c e d , o f f e r i n gag r e a tmi x i n gs o l u t i o nwh e r e v e r y o ua r e , wh a t e v e ry o u ’ r ed o i n g —p l a y i n gl i v e , i nt h es t u d i o , o ra t h o me , Z E Dwi l ls u i ty o u ra p p l i c a t i o np e r f e c t l y .

S o l i dc o n s t r u c t i o n

Al lZEDmi x er sar ebui l tt ot hes ameex act i ngs t andar ds as ouri ndus t r ys t andar d GL s er i es ,wi t hi ndi v i dual , v er t i cal l ymount ed ci r cui tboar dsand pot ent i omet er s s ecur el ybol t edt ot het oppanel .Compar eaZEDt oone oft he many budgetbr ands outt her e and you’ l l i mmedi at el yf eelt hedi f f er ence.

C O N T E N T S

MI N I MI X E R S 4 Z E D 1 0 Z E D 1 0 F X Z E D 6 0 1 0 F X Z E D 6 0 1 4 F X

2 B U SMI X E R S Z E D 1 2 F X Z E D 1 4 Z E D 1 6 F X Z E D 1 8 Z E D 2 2 F X Z E D 2 4

6 7 8 9 1 0 1 2 1 3 1 4 1 5 1 6 1 7

4b u smi x e r s 18 z e d 4 2 0 2 0 z e d 4 2 8 2 1 Z E D 4 3 6 2 2

R E C O R D I N G

Z E D R 1 6 2 4

S o u n dq u a l i t y

Thei nnov at i v epr eamp des i gnsus ed on ZED mi x er s wer ecr eat edbyMi keGr i f f i nanddel i v erphenomenal cl ar i t y ,ul t r al ownoi s eandmas s i v eheadr oom. TheMus i Q 3and4bandBr i t i s hEQ des i gnsempl oyed acr os st he r ange ar e wi del y accl ai med f or t hei r ex cept i onalmus i cal i t y and ev en,r es pons i v e cont r ol . Ouri nhous eDSPgur uscr af t edt heFXal gor i t hmsus ed byt heZEDFXmi x er s–t hes ewer et ai l or madef ort he ZED s er i ess oyouwon’ tf i ndt hem anywher eel s e.OK, we’ r ebi as ed,butwet hi nkyou’ dhav et os pendal otof moneyonhi ghendout boar dgeart ogetFXt hatcome anywher ecl os e.

V e r s a t i l i t y

ZED mi x er sar e ear ni ng a l i v i ng acr os st he gl obe i n ev er ymi x i ngr ol ei magi nabl e,i ncl udi ngcor por at eand AV mi x i ng,l i v e per f or mance mi x i ng,l i v er ecor di ng, s t udi or ecor di ngormi x i ngdown,orj us tcapt ur i ngt hat s ongi dea.Theaddi t i onofUSBmakesi ts uper eas yt o hookyourZED up t o acomput er ,and t heweal t h of s i gnal r out i ngopt i onsl et syouf i tZEDper f ect l yi nt oyour wor kf l ow.

O u rH e r i t a g e Al l en& Heat hs t ar t edoutasabout i quemi x er

Dev el opmentf ort heZED s er i esi sl edby

Whet heryou’ r eont her oad wi t houri Li v e

manuf act ur eri n1969,handbui l di ngcons ol es

Mi keGr i f f i n,abl ys uppor t edbyouri nhous e

pr ot our i ngs er i esorus i ngaZED10i nyour

f ort he t op bandsoft he er a.T odayAl l en &

R&D t eam i nCor nwal l ,Gr eatBr i t ai n.Mi ke

pr oj ects t udi o,whenyoui nv es ti nanAl l en&

Heat hmi x er scanbef oundont our ,i ns t udi os

ear nedhi smi x erdes i gns t r i pesundert he

Heat h,you’ r ei nv es t i ng i n a pr of es s i onal

and i nv enues acr os st he gl obe,butour

l egendar y Ruper tNev e,and has des i gn

mi x er t hat ’ s bui l tt o del i v er out s t andi ng

pas s i onf orpr i s t i neaudi o,r uggedbui l dqual i t y

cr edi t s t hat i ncl ude s ev er al i ndus t r y

per f or mancef ormanyyear st ocome.

andi magi nat i v edes i gni sundi mi ni s hed.

s t andar ds , i ncl udi ng

our r enowned

x Mi Wi z ar dandGLcons ol es .Mi ker egul ar l y mi x es s es s i ons wi t ht he ZEDs ,s o you’ l l appr eci at et hecl ev erf eat ur esandcar ef ul l y cons i der edcont r ol l ayout st hatyouonl yget f r om hands onex per i ence.

T h eZ E Dr a n g ei st h ep r e mi u mc h o i c eo fa n a l o g u emi x e rf o rb a n d s , s ma l lr e n t a lc o mp a n i e s , s i n g e rs o n g wr i t e r sA N Ds t u d i oa r t i s t s . Z E Dmi x e r so f f e rma n ys o u r c e st ot h e mi x , u pt o6a u xs e n d s , aU S B s e n da n dr e t u r n ,au n i q u ed u a ls t e r e oi n p u tc a p a b i l i t ya n d S O P H I S T I C A T E D mo n i t o r i n gf a c i l i t i e s .Z E D ’ sf e a t u r es e ti s i n c r e d i b l ya d v a n c e d , o f f e r i n gag r e a tmi x i n gs o l u t i o nwh e r e v e r y o ua r e , wh a t e v e ry o u ’ r ed o i n g —p l a y i n gl i v e , i nt h es t u d i o , o ra t h o me , Z E Dwi l ls u i ty o u ra p p l i c a t i o np e r f e c t l y .

S o l i dc o n s t r u c t i o n

Al lZEDmi x er sar ebui l tt ot hes ameex act i ngs t andar ds as ouri ndus t r ys t andar d GL s er i es ,wi t hi ndi v i dual , v er t i cal l ymount ed ci r cui tboar dsand pot ent i omet er s s ecur el ybol t edt ot het oppanel .Compar eaZEDt oone oft he many budgetbr ands outt her e and you’ l l i mmedi at el yf eelt hedi f f er ence.

C O N T E N T S

MI N I MI X E R S 4 Z E D 1 0 Z E D 1 0 F X Z E D 6 0 1 0 F X Z E D 6 0 1 4 F X

2 B U SMI X E R S Z E D 1 2 F X Z E D 1 4 Z E D 1 6 F X Z E D 1 8 Z E D 2 2 F X Z E D 2 4

6 7 8 9 1 0 1 2 1 3 1 4 1 5 1 6 1 7

4b u smi x e r s 18 z e d 4 2 0 2 0 z e d 4 2 8 2 1 Z E D 4 3 6 2 2

R E C O R D I N G

Z E D R 1 6 2 4

S o u n dq u a l i t y

Thei nnov at i v epr eamp des i gnsus ed on ZED mi x er s wer ecr eat edbyMi keGr i f f i nanddel i v erphenomenal cl ar i t y ,ul t r al ownoi s eandmas s i v eheadr oom. TheMus i Q 3and4bandBr i t i s hEQ des i gnsempl oyed acr os st he r ange ar e wi del y accl ai med f or t hei r ex cept i onalmus i cal i t y and ev en,r es pons i v e cont r ol . Ouri nhous eDSPgur uscr af t edt heFXal gor i t hmsus ed byt heZEDFXmi x er s–t hes ewer et ai l or madef ort he ZED s er i ess oyouwon’ tf i ndt hem anywher eel s e.OK, we’ r ebi as ed,butwet hi nkyou’ dhav et os pendal otof moneyonhi ghendout boar dgeart ogetFXt hatcome anywher ecl os e.

V e r s a t i l i t y

ZED mi x er sar e ear ni ng a l i v i ng acr os st he gl obe i n ev er ymi x i ngr ol ei magi nabl e,i ncl udi ngcor por at eand AV mi x i ng,l i v e per f or mance mi x i ng,l i v er ecor di ng, s t udi or ecor di ngormi x i ngdown,orj us tcapt ur i ngt hat s ongi dea.Theaddi t i onofUSBmakesi ts uper eas yt o hookyourZED up t o acomput er ,and t heweal t h of s i gnal r out i ngopt i onsl et syouf i tZEDper f ect l yi nt oyour wor kf l ow.

O u rH e r i t a g e Al l en& Heat hs t ar t edoutasabout i quemi x er

Dev el opmentf ort heZED s er i esi sl edby

Whet heryou’ r eont her oad wi t houri Li v e

manuf act ur eri n1969,handbui l di ngcons ol es

Mi keGr i f f i n,abl ys uppor t edbyouri nhous e

pr ot our i ngs er i esorus i ngaZED10i nyour

f ort he t op bandsoft he er a.T odayAl l en &

R&D t eam i nCor nwal l ,Gr eatBr i t ai n.Mi ke

pr oj ects t udi o,whenyoui nv es ti nanAl l en&

Heat hmi x er scanbef oundont our ,i ns t udi os

ear nedhi smi x erdes i gns t r i pesundert he

Heat h,you’ r ei nv es t i ng i n a pr of es s i onal

and i nv enues acr os st he gl obe,butour

l egendar y Ruper tNev e,and has des i gn

mi x er t hat ’ s bui l tt o del i v er out s t andi ng

pas s i onf orpr i s t i neaudi o,r uggedbui l dqual i t y

cr edi t s t hat i ncl ude s ev er al i ndus t r y

per f or mancef ormanyyear st ocome.

andi magi nat i v edes i gni sundi mi ni s hed.

s t andar ds , i ncl udi ng

our r enowned

x Mi Wi z ar dandGLcons ol es .Mi ker egul ar l y mi x es s es s i ons wi t ht he ZEDs ,s o you’ l l appr eci at et hecl ev erf eat ur esandcar ef ul l y cons i der edcont r ol l ayout st hatyouonl yget f r om hands onex per i ence.

MI N I MI X E R S z e d 1 0z e d 1 0 f xz e d 6 0 1 0 F Xz e d 6 0 1 4 f x

G u i t a rD I

T E C HS P E C S Op e r a t i n gL e v e l s :I n p u t s Mo n oc h a n n e l ( X L R)I n p u t 1 0t o–6 0 d Buf o rn o mi n a l ( +1 1 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t )+1 0t o–4 0 d Bu( +3 1 d Buma x i mu m) St e r e oI n p u t ( J a c ko rp h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 5 d B) Ou t p u t s L / ROu t p u t s(X L R)0 d Bun o mi n a l . +2 1 d Buma x i mu m. Au x&F XOu t p u t s( J a c ks o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m.

T h eZ E D Mi n ir a n g e( Z E D 1 0 ,Z E D 1 0 F X ,Z E D 6 0 1 0 F Xa n d Z E D 6 0 1 4 F X )a r ea ma z i n gl i t t l ed e s k sf o rs ma l lb a n d mi x i n g . D o n ’ tb ef o o l e db yt h es i z e–t h e s emi x e r sa r eb i go n h i g h e n da u d i oa n db u i l dq u a l i t y . T h e y ’ r eu l t r ap o r t a b l e f o rc a r r y i n gt ot h eg i g , a n dc a nb eu s e df o rr e c o r d i n gl i v e o ri nt h es t u d i o . G u i t a r sc a nb ep l u g g e di nd i r e c t l yt ot h e mi x e ru s i n gt h es p e c i a l l yd e s i g n e dh i g h i mp e d a n c ei n p u t s , wh i l ee a c hmi x e rh a st wos t e r e oi n p u t sf o rMP 3 / C D p l a y e r so rk e y b o a r d s . A l la r ee q u i p p e dwi t hp r o f e s s i o n a l X L Rma i ns t e r e oo u t p u t sa n daf l e x i b l emo n i t o r i n gs e c t i o n wi t hh e a d p h o n ea n ds p e a k e rf e e do u t p u t s . T h eF Xv e r s i o n s a d das e to ff a b u l o u se f f e c t st oe n h a n c ey o u rs o u n dwi t h s h i mme r i n gr e v e r b s .

Re c o r d&Mo n i t o rOu t p u t s( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m. F r e q u e n c yRe s p o n s e Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz . L i n ei nt oMi xL / Ro u t 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz . St e r e oi nt oMi xL / Ro u t +0 . 5 / 1 d B1 0 Hzt o3 0 k Hz . T HD+n Mi ci nt oMi xL / ROu t , 1 0 d Bg a i n1 k Hz+1 0 d Buo u t 0 . 0 0 2 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz0 . 0 1 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n0 d Bu1 k Hz0 . 0 0 3 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz0 . 0 0 2 % Gt rI n p u t t oMi xL / ROu t , 0 d Bu , Bo o s t OUT0 . 0 1 5 % Gt rI n p u t t oMi xL / ROu t , 0 d Bu , Bo o s t I N2 %Se c o n dHa r mo n i c He a d r o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 Vu )2 1 d B. USBi n&o u t h e a d r o o mf r o mn o mi n a l ( 0 Vu )1 4 d B. No i s e Mi cPr eE I N@ ma xg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz1 2 7 d Bu Mi xL / Ro u t , L / Rf a d e r s= 0 , L e v e l smi n , 2 2 2 2 k Hz9 6 d Bu Mi xL / Ro u t , L / Rf a d e r s= 0 , L e v e l smi n , 2 2 2 2 k Hz9 6 d Bu USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz

T h ep r e a mpf o rZ E D1 0 , 1 0 F X , Z E D6 0 1 0 F Xa n dZ E D6 0 1 4 F Xi sa ne v o l u t i o n f r o mt h ed e s i g ne mp l o y e do no u rMi x Wi z a r ds e r i e s ,b u twi t hat wi s t .T woo f t h ec h a n n e l sh a v eah i g hi mp e d a n c ej a c ki n p u tc a p a b l eo ft a k i n ge i t h e ra n o r ma ll i n el e v e lo ral o wl e v e li n p u tf r o m ag u i t a rp i c k u p .T h e s eGu i t a rDI i n p u t sr e p l i c a t et h es o u n do fac l a s s i cg u i t a ro ri n s t r u me n tt u b ep r e a mpi na c o mb oo rh e a da mp .Ane x t r e me l yh i g hi n p u ti mp e d a n c ee n s u r e sl o a d i n go n p i c k u p si smi n i ma l a n daCl a s sAF E T( f i e l de f f e c t t r a n s i s t o r )c i r c u i t p o we r e d f r o m4 8 Vi se mp l o y e dt og i v et h ev a l v e l i k eg a i ns t a g e . T h e r ei sag a i nBo o s t s wi t c ha s s o c i a t e dwi t ht h eg u i t a ri n p u t swh i c hb o o s t sg a i nb y2 6 d Bt oc a t e r f o ri n s t r u me n t swi t hv e r yl o wl e v e l o u t p u t sa n dt h eo v e r d r i v ec h a r a c t e r i s t i c s o ft h eg u i t a ri n p u t sa r ev e r ys i mi l a rt oav a l v ec i r c u i t ,b e i n ga s y mme t r i ca n d s o f t . Al l t h i sma k e sf o rawo n d e r f u l l ywa r m, n a t u r a l t o n et h a t c o n v e y st h ef u l l c h a r a c t e ro ft h ei n s t r u me n t .

Mu s i Q–3B a n d

Z E DMi n i mi x e r sf e a t u r ear e s p o n s i v e3 b a n dBr i t i s hE Qwi t hs we e p a b l emi d f r e q u e n c yt h a ti sa c c l a i me df o ri t smu s i c a l i t y ,e v e nwh e na p p l y i n ge x t r e me c r e a t i v eo rc o r r e c t i v ee q u a l i s a t i o n .Al lE Qc o n t r o l sh a v eb e e nc a r e f u l l y c a l i b r a t e df o rr e s p o n s i v e n e s sa n ds mo o t h , p r e c i s ea d j u s t me n t .

U S Ba u d i of l e x i b i l i t y

Z E Dma k e si t e a s yt og e t a u d i ot oa n df r o my o u rc o mp u t e rf o rl i v es o u n da n d mu s i cp r o d u c t i o n .T h e wa yt h i sh a sb e e ni mp l e me n t e do nZ E Di s s u p e r f l e x i b l ea n ds u p e r e a s y .Nol o n g e rd oy o un e e dt of i d d l ea r o u n dt h e b a c ko f y o u rPCt og e t t ot h es o u n d c a r di n p u t s , o n l yt of i n dt h a t t h el e v e l sa r e a l lwr o n ga n dn o i s y .J u s tp l u gi naUSBl e a d ,s e l e c tt h eUSBr o u t i n go nt h e mi x e ra n dt h ed e v i c eo ny o u rc o mp u t e ra n dt h a t ’ si t !CDq u a l i t ya u d i ot oa n d f r o my o u r PCo r Ma c . Swi t c h e sa n dc o n n e c t i o nt h r o u g hj a c ks o c k e t t e r mi n a l s p r o v i d ed i f f e r e n t s e n d / r e t u r nc o n f i g u r a t i o n s . Z E D10F X/Z E D6010F X/Z E D6014F X Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t ma s t e rL e v e l ) 2 )Au x+ F Xb u s( Au xi sap r e f a d es e n d , F Xi sap o s t f a d es e n d ) 3 )Re c o r dBu sL e f t + Ri g h t ( Se p a r a t es t e r e ob u st oMa i nMi x ) Re t u r no p t i o n s : 1 )T oPl a y b a c ki n p u t ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s ) 2 )T oSt e r e o2c h a n n e l ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s ) Z E D10 Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t ma s t e rL e v e l ) 2 )Au x+ F Xb u s( Au xi sap r e f a d es e n d , F Xi sap o s t f a d es e n d ) 3 )Re c o r dBu sL e f t + Ri g h t ( Se p a r a t es t e r e ob u st oMa i nMi x ) Re t u r nOp t i o n s : 1 )T oPl a y b a c ki n p u t ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s ) 2 )T oSt e r e o2c h a n n e l ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s )

Z E D F X

Z E D1 0 F X ,Z E D6 0 1 0 F Xa n dZ E D6 0 1 4 F Xh a v ea ne s s e n t i a ls e l e c t i o no f1 6 t i me d e l a ye f f e c t s ,d e s i g n e df o rp e r f o r me r swh od o n ’ twa n tt oc a r r ya n e f f e c t su n i t wi t ht h e i rg e a rb u t wh os t i l l wa n t g r e a t q u a l i t yF Xa t t h e i rg i g sa n d o nt h e i rr e c o r d i n g s .Ou rDSPe n g i n e e r swo r k e dh a r d ,c r a f t i n ga n dr e f i n i n g b e a u t i f u l r e v e r ba l g o r i t h mst oe n h a n c ee v e r yp e r f o r ma n c e .T h e s ee f f e c t sa r e a v a i l a b l en o wh e r ee l s e—t h i sq u a l i t ya n di n t e g r a t i o ni so n l ya v a i l a b l ef r o mt h e Z E DF X .Z E De f f e c t sa r ee a s i l yc o n t r o l l e du s i n g3b u t t o n swi t h9d i s p l a y L E Ds .F o re x a mp l e ,t h ei d e a ld e l a yt i mec a nb eq u i c k l yt a p p e d i n ,o rt h e p e r f e c ta mo u n to fr e v e r bo nt h el e a dv o c a lc a nb ed i a l l e d i n .T h e r ei s o n e s t o pn a v i g a t i o na n de d i t i n g —i nf a c t , i t ’ sj u s t a se a s ya su s i n gF Xp e d a l s .

4

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MI N I MI X E R S z e d 1 0z e d 1 0 f xz e d 6 0 1 0 F Xz e d 6 0 1 4 f x

G u i t a rD I

T E C HS P E C S Op e r a t i n gL e v e l s :I n p u t s Mo n oc h a n n e l ( X L R)I n p u t 1 0t o–6 0 d Buf o rn o mi n a l ( +1 1 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t )+1 0t o–4 0 d Bu( +3 1 d Buma x i mu m) St e r e oI n p u t ( J a c ko rp h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 5 d B) Ou t p u t s L / ROu t p u t s(X L R)0 d Bun o mi n a l . +2 1 d Buma x i mu m. Au x&F XOu t p u t s( J a c ks o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m.

T h eZ E D Mi n ir a n g e( Z E D 1 0 ,Z E D 1 0 F X ,Z E D 6 0 1 0 F Xa n d Z E D 6 0 1 4 F X )a r ea ma z i n gl i t t l ed e s k sf o rs ma l lb a n d mi x i n g . D o n ’ tb ef o o l e db yt h es i z e–t h e s emi x e r sa r eb i go n h i g h e n da u d i oa n db u i l dq u a l i t y . T h e y ’ r eu l t r ap o r t a b l e f o rc a r r y i n gt ot h eg i g , a n dc a nb eu s e df o rr e c o r d i n gl i v e o ri nt h es t u d i o . G u i t a r sc a nb ep l u g g e di nd i r e c t l yt ot h e mi x e ru s i n gt h es p e c i a l l yd e s i g n e dh i g h i mp e d a n c ei n p u t s , wh i l ee a c hmi x e rh a st wos t e r e oi n p u t sf o rMP 3 / C D p l a y e r so rk e y b o a r d s . A l la r ee q u i p p e dwi t hp r o f e s s i o n a l X L Rma i ns t e r e oo u t p u t sa n daf l e x i b l emo n i t o r i n gs e c t i o n wi t hh e a d p h o n ea n ds p e a k e rf e e do u t p u t s . T h eF Xv e r s i o n s a d das e to ff a b u l o u se f f e c t st oe n h a n c ey o u rs o u n dwi t h s h i mme r i n gr e v e r b s .

Re c o r d&Mo n i t o rOu t p u t s( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m. F r e q u e n c yRe s p o n s e Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz . L i n ei nt oMi xL / Ro u t 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz . St e r e oi nt oMi xL / Ro u t +0 . 5 / 1 d B1 0 Hzt o3 0 k Hz . T HD+n Mi ci nt oMi xL / ROu t , 1 0 d Bg a i n1 k Hz+1 0 d Buo u t 0 . 0 0 2 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz0 . 0 1 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n0 d Bu1 k Hz0 . 0 0 3 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz0 . 0 0 2 % Gt rI n p u t t oMi xL / ROu t , 0 d Bu , Bo o s t OUT0 . 0 1 5 % Gt rI n p u t t oMi xL / ROu t , 0 d Bu , Bo o s t I N2 %Se c o n dHa r mo n i c He a d r o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 Vu )2 1 d B. USBi n&o u t h e a d r o o mf r o mn o mi n a l ( 0 Vu )1 4 d B. No i s e Mi cPr eE I N@ ma xg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz1 2 7 d Bu Mi xL / Ro u t , L / Rf a d e r s= 0 , L e v e l smi n , 2 2 2 2 k Hz9 6 d Bu Mi xL / Ro u t , L / Rf a d e r s= 0 , L e v e l smi n , 2 2 2 2 k Hz9 6 d Bu USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz

T h ep r e a mpf o rZ E D1 0 , 1 0 F X , Z E D6 0 1 0 F Xa n dZ E D6 0 1 4 F Xi sa ne v o l u t i o n f r o mt h ed e s i g ne mp l o y e do no u rMi x Wi z a r ds e r i e s ,b u twi t hat wi s t .T woo f t h ec h a n n e l sh a v eah i g hi mp e d a n c ej a c ki n p u tc a p a b l eo ft a k i n ge i t h e ra n o r ma ll i n el e v e lo ral o wl e v e li n p u tf r o m ag u i t a rp i c k u p .T h e s eGu i t a rDI i n p u t sr e p l i c a t et h es o u n do fac l a s s i cg u i t a ro ri n s t r u me n tt u b ep r e a mpi na c o mb oo rh e a da mp .Ane x t r e me l yh i g hi n p u ti mp e d a n c ee n s u r e sl o a d i n go n p i c k u p si smi n i ma l a n daCl a s sAF E T( f i e l de f f e c t t r a n s i s t o r )c i r c u i t p o we r e d f r o m4 8 Vi se mp l o y e dt og i v et h ev a l v e l i k eg a i ns t a g e . T h e r ei sag a i nBo o s t s wi t c ha s s o c i a t e dwi t ht h eg u i t a ri n p u t swh i c hb o o s t sg a i nb y2 6 d Bt oc a t e r f o ri n s t r u me n t swi t hv e r yl o wl e v e l o u t p u t sa n dt h eo v e r d r i v ec h a r a c t e r i s t i c s o ft h eg u i t a ri n p u t sa r ev e r ys i mi l a rt oav a l v ec i r c u i t ,b e i n ga s y mme t r i ca n d s o f t . Al l t h i sma k e sf o rawo n d e r f u l l ywa r m, n a t u r a l t o n et h a t c o n v e y st h ef u l l c h a r a c t e ro ft h ei n s t r u me n t .

Mu s i Q–3B a n d

Z E DMi n i mi x e r sf e a t u r ear e s p o n s i v e3 b a n dBr i t i s hE Qwi t hs we e p a b l emi d f r e q u e n c yt h a ti sa c c l a i me df o ri t smu s i c a l i t y ,e v e nwh e na p p l y i n ge x t r e me c r e a t i v eo rc o r r e c t i v ee q u a l i s a t i o n .Al lE Qc o n t r o l sh a v eb e e nc a r e f u l l y c a l i b r a t e df o rr e s p o n s i v e n e s sa n ds mo o t h , p r e c i s ea d j u s t me n t .

U S Ba u d i of l e x i b i l i t y

Z E Dma k e si t e a s yt og e t a u d i ot oa n df r o my o u rc o mp u t e rf o rl i v es o u n da n d mu s i cp r o d u c t i o n .T h e wa yt h i sh a sb e e ni mp l e me n t e do nZ E Di s s u p e r f l e x i b l ea n ds u p e r e a s y .Nol o n g e rd oy o un e e dt of i d d l ea r o u n dt h e b a c ko f y o u rPCt og e t t ot h es o u n d c a r di n p u t s , o n l yt of i n dt h a t t h el e v e l sa r e a l lwr o n ga n dn o i s y .J u s tp l u gi naUSBl e a d ,s e l e c tt h eUSBr o u t i n go nt h e mi x e ra n dt h ed e v i c eo ny o u rc o mp u t e ra n dt h a t ’ si t !CDq u a l i t ya u d i ot oa n d f r o my o u r PCo r Ma c . Swi t c h e sa n dc o n n e c t i o nt h r o u g hj a c ks o c k e t t e r mi n a l s p r o v i d ed i f f e r e n t s e n d / r e t u r nc o n f i g u r a t i o n s . Z E D10F X/Z E D6010F X/Z E D6014F X Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t ma s t e rL e v e l ) 2 )Au x+ F Xb u s( Au xi sap r e f a d es e n d , F Xi sap o s t f a d es e n d ) 3 )Re c o r dBu sL e f t + Ri g h t ( Se p a r a t es t e r e ob u st oMa i nMi x ) Re t u r no p t i o n s : 1 )T oPl a y b a c ki n p u t ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s ) 2 )T oSt e r e o2c h a n n e l ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s ) Z E D10 Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t ma s t e rL e v e l ) 2 )Au x+ F Xb u s( Au xi sap r e f a d es e n d , F Xi sap o s t f a d es e n d ) 3 )Re c o r dBu sL e f t + Ri g h t ( Se p a r a t es t e r e ob u st oMa i nMi x ) Re t u r nOp t i o n s : 1 )T oPl a y b a c ki n p u t ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s ) 2 )T oSt e r e o2c h a n n e l ( t h r o u g hj a c ks o c k e t b r e a kc o n t a c t s )

Z E D F X

Z E D1 0 F X ,Z E D6 0 1 0 F Xa n dZ E D6 0 1 4 F Xh a v ea ne s s e n t i a ls e l e c t i o no f1 6 t i me d e l a ye f f e c t s ,d e s i g n e df o rp e r f o r me r swh od o n ’ twa n tt oc a r r ya n e f f e c t su n i t wi t ht h e i rg e a rb u t wh os t i l l wa n t g r e a t q u a l i t yF Xa t t h e i rg i g sa n d o nt h e i rr e c o r d i n g s .Ou rDSPe n g i n e e r swo r k e dh a r d ,c r a f t i n ga n dr e f i n i n g b e a u t i f u l r e v e r ba l g o r i t h mst oe n h a n c ee v e r yp e r f o r ma n c e .T h e s ee f f e c t sa r e a v a i l a b l en o wh e r ee l s e—t h i sq u a l i t ya n di n t e g r a t i o ni so n l ya v a i l a b l ef r o mt h e Z E DF X .Z E De f f e c t sa r ee a s i l yc o n t r o l l e du s i n g3b u t t o n swi t h9d i s p l a y L E Ds .F o re x a mp l e ,t h ei d e a ld e l a yt i mec a nb eq u i c k l yt a p p e d i n ,o rt h e p e r f e c ta mo u n to fr e v e r bo nt h el e a dv o c a lc a nb ed i a l l e d i n .T h e r ei s o n e s t o pn a v i g a t i o na n de d i t i n g —i nf a c t , i t ’ sj u s t a se a s ya su s i n gF Xp e d a l s .

4

5

4minipcu/tlsine 2sintpeurteso

2AUXES

4minipcu/tlsine 2sintpeurteso

1a u x+ 1f xs e n d

F E A T U R E S

F E A T U R E S

4mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c ei n p u t s

4mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c ei n p u t s

Ne u t r i kmi cX L R

1 6i n t e r n a l F X

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i kmi cX L R

3b a n dE Qwi t hMu s i Q

Ne u t r i k1 / 4i n c hj a c k s

2a u x e s

3b a n dE Qwi t hMu s i Q

So u n di ma g ep a n

1p r e f a d eAu xs e n d

I l l u mi n a t e dPF Li n d i c a t o r

1F Xs e n d

St e r e or e t u r n s&p l a y b a c k

So u n di ma g ep a n

Al l i n p u t swi t hl e v e l c o n t r o l

I l l u mi n a t e dPF Li n d i c a t o r

1 2b a rme t e r s

St e r e or e t u r n s&p l a y b a c k

Re s p o n s i v e3 b a n d , s we p t mi dE Qwi t hMu s i Q

Al l i n p u t swi t hl e v e l c o n t r o l

2s t e r e os o u r c e swi t hMP3p l a y e rc o mp a t i b i l i t y

1 2b a rme t e r s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

Re s p o n s i v e3 b a n d , s we p t mi dE Qwi t hMu s i Q

St e r e op l a y b a c ki n p u t f o r2 t r a c kr e p l a y

2s t e r e os o u r c e swi t hMP3p l a y e rc o mp a t i b i l i t y

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

Co mp r e h e n s i v emo n i t o r i n g

St e r e op l a y b a c ki n p u t f o r2 t r a c kr e p l a y

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

St e r e omo n i t o ro u t s

Co mp r e h e n s i v emo n i t o r i n g

4 8 Vmi c r o p h o n ep h a n t o mp o we r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

DI l e v e l s wi t c h i n gf o rs u bmi x i n g

St e r e omo n i t o ro u t s

O NB O A R DF X

4 8 Vmi c r o p h o n ep h a n t o mp o we r DI l e v e l s wi t c h i n gf o rs u bmi x i n g

6

7

4minipcu/tlsine 2sintpeurteso

2AUXES

4minipcu/tlsine 2sintpeurteso

1a u x+ 1f xs e n d

F E A T U R E S

F E A T U R E S

4mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c ei n p u t s

4mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c ei n p u t s

Ne u t r i kmi cX L R

1 6i n t e r n a l F X

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i kmi cX L R

3b a n dE Qwi t hMu s i Q

Ne u t r i k1 / 4i n c hj a c k s

2a u x e s

3b a n dE Qwi t hMu s i Q

So u n di ma g ep a n

1p r e f a d eAu xs e n d

I l l u mi n a t e dPF Li n d i c a t o r

1F Xs e n d

St e r e or e t u r n s&p l a y b a c k

So u n di ma g ep a n

Al l i n p u t swi t hl e v e l c o n t r o l

I l l u mi n a t e dPF Li n d i c a t o r

1 2b a rme t e r s

St e r e or e t u r n s&p l a y b a c k

Re s p o n s i v e3 b a n d , s we p t mi dE Qwi t hMu s i Q

Al l i n p u t swi t hl e v e l c o n t r o l

2s t e r e os o u r c e swi t hMP3p l a y e rc o mp a t i b i l i t y

1 2b a rme t e r s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

Re s p o n s i v e3 b a n d , s we p t mi dE Qwi t hMu s i Q

St e r e op l a y b a c ki n p u t f o r2 t r a c kr e p l a y

2s t e r e os o u r c e swi t hMP3p l a y e rc o mp a t i b i l i t y

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

Co mp r e h e n s i v emo n i t o r i n g

St e r e op l a y b a c ki n p u t f o r2 t r a c kr e p l a y

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

St e r e omo n i t o ro u t s

Co mp r e h e n s i v emo n i t o r i n g

4 8 Vmi c r o p h o n ep h a n t o mp o we r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

DI l e v e l s wi t c h i n gf o rs u bmi x i n g

St e r e omo n i t o ro u t s

O NB O A R DF X

4 8 Vmi c r o p h o n ep h a n t o mp o we r DI l e v e l s wi t c h i n gf o rs u bmi x i n g

6

7

4minipcu/tlsine 2sintpeurteso

1a u x+ 1f xs e n d

O NB O A R DF X

8minipcu/tlsine 2sintpeurteso

1a u x+ 1f xs e n d

F E A T U R E S

F E A T U R E S

4mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c e

8mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c e

6 0 mmp r o f e s s i o n a l q u a l i t yf a d e r s

6 0 mmp r o f e s s i o n a l q u a l i t yf a d e r s

3 b a n d , s we p t mi dE Qwi t hMu s i Q

3 b a n d , s we p t mi dE Qwi t hMu s i Q

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

1p r e f a d eAu xs e n d

1p r e f a d eAu xs e n d

1F Xs e n d

1F Xs e n d

2s t e r e oi n p u t s

2s t e r e oi n p u t s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

1 6I n t e r n a l E f f e c t s

1 6I n t e r n a l E f f e c t s

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

Co mp r e h e n s i v emo n i t o r i n g

Co mp r e h e n s i v emo n i t o r i n g

4 8 Vmi c r o p h o n ep h a n t o mp o we r

4 8 Vmi c r o p h o n ep h a n t o mp o we r

DI l e v e l s wi t c h i n gwi t hGa i nBo o s t

DI l e v e l s wi t c h i n gwi t hGa i nBo o s t

Ne u t r i kX L Rsa n d1 / 4i n c hj a c k s

Ne u t r i kX L Rsa n d1 / 4i n c hj a c k s

8

O NB O A R DF X

9

4minipcu/tlsine 2sintpeurteso

1a u x+ 1f xs e n d

O NB O A R DF X

8minipcu/tlsine 2sintpeurteso

1a u x+ 1f xs e n d

F E A T U R E S

F E A T U R E S

4mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c e

8mi c / l i n ei n p u t s , 2wi t hCl a s sAF E Th i g hi mp e d a n c e

6 0 mmp r o f e s s i o n a l q u a l i t yf a d e r s

6 0 mmp r o f e s s i o n a l q u a l i t yf a d e r s

3 b a n d , s we p t mi dE Qwi t hMu s i Q

3 b a n d , s we p t mi dE Qwi t hMu s i Q

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

1p r e f a d eAu xs e n d

1p r e f a d eAu xs e n d

1F Xs e n d

1F Xs e n d

2s t e r e oi n p u t s

2s t e r e oi n p u t s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

Se p a r a t e2 t r a c kr e c o r do u t p u t s

1 6I n t e r n a l E f f e c t s

1 6I n t e r n a l E f f e c t s

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

X L Rma i ns t e r e oo u t p u t swi t hi n s e r t s

Co mp r e h e n s i v emo n i t o r i n g

Co mp r e h e n s i v emo n i t o r i n g

4 8 Vmi c r o p h o n ep h a n t o mp o we r

4 8 Vmi c r o p h o n ep h a n t o mp o we r

DI l e v e l s wi t c h i n gwi t hGa i nBo o s t

DI l e v e l s wi t c h i n gwi t hGa i nBo o s t

Ne u t r i kX L Rsa n d1 / 4i n c hj a c k s

Ne u t r i kX L Rsa n d1 / 4i n c hj a c k s

8

O NB O A R DF X

9

2B U Smi x e r s z e d 1 2 F XZ E D 1 4Z E D 1 6 f xZ E D 1 8Z E D 2 2 F XZ E D 2 4

D u o P r e

T E C HS P E C S Op e r a t i n gL e v e l s :I n p u t s Mo n oc h a n n e l ( X L R)I n p u t +6t o–6 3 d Buf o rn o mi n a l ( +1 7 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t )+1 0t o–2 6 d Bu( +3 0 d Buma x i mu m) I n s e r t p o i n t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m St e r e oI n p u t ( J a c ks o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) St e r e oi n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) Ou t p u t s L , R&Mo n oOu t p u t s( L &RX L R, Mo n oJ a c k )0 d Bun o mi n a l . +2 1 d Buma x i mu m Au xOu t p u t s( J a c ks o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m Al t Ou t p u t s( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m

T h e s ea r ef a n t a s t i cmi x e r sf o rs ma l lb a n d s , v e n u e sa n d h i r ec o mp a n i e s . I nama r k e tf u l lo f‘ met o o ’ mi x e r st h e s e c o n s o l e ss t a n do u tf r o mt h ep a c k wi t ht h e i r c o mp r e h e n s i v ef e a t u r e s ,f i n el i n e sa n dq u a l i t y c o n s t r u c t i o n . E a c hmo d e li sp r o v i d e dwi t hb e t we e n6 a n d1 6mi c / l i n ei n p u t s , 3o r4s t e r e oi n p u t swi t hE Q , a n d3 o r4a u x i l i a r ys e n d s .T h eF Xv e r s i o n sa r ei d e a lf o r g r o u p swh on e e dt ot r a v e ll i g h t .l a r g e rmo d e l sc a n e a s i l ya c c o mmo d a t ev o c a l s ,d r u ms ,g u i t a r ,b a s sa n d k e y swh i l s ta l s op r o v i d i n gad e d i c a t e dF Xb u sa n d1 6 i n t e r n a le f f e c t st og i v et h ewh o l emi xe x t r aa mb i e n c e .

Re cOu t p u t s( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m F r e q u e n c yRe s p o n s e Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n+0 . 5 / 1 d B2 0 Hzt o2 0 k Hz L i n ei nt oMi xL / Ro u t 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz St e r e oi nt oMi xL / Ro u t +0 . 5 / 1 d B1 0 Hzt o3 0 k Hz T HD+n Mi ci nt oMi xL / ROu t , 0 d Bg a i n1 k Hz+1 0 d Buo u t 0 . 0 0 4 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz0 . 0 1 4 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n0 d Bu1 k Hz0 . 0 0 5 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz0 . 0 0 3 % He a d r o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 Vu )2 1 d B USBi n&o u t h e a d r o o mf r o mn o mi n a l ( 0 Vu )1 4 d B No i s e Mi cPr eE I N@ ma xg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz1 2 7 d Bu Mi xL / Ro u t , L / Rf a d e r s= 0 , 2 2 2 2 k Hz8 8 d Bu( Z E D1 4 ) Mi xL / Ro u t , L / Rf a d e r s= 0 , 2 2 2 2 k Hz8 4 d Bu( Z E D2 4 ) USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz

Ba s e do nt h ep r o v e np r e a mp sf r o mt h eh u g e l ys u c c e s s f u lP As e r i e s ,Z E D 2 b u sa n d4 b u smi x e r sh a v eDu o Pr ep r e a mp s , wh i c hu s eat wos t a g ed e s i g n wi t hc a r e f u l l yc o n t r o l l e da mo u n t so fg a i ni ne a c hs t a g e .Wh e na mp l i f y i n gt h e s i g n a lf r o mt h eX L Ri n p u t ,t h eg a i nr a n g ei sh u g e —6 9 d Bo fr a n g et ob e e x a c t —a n di sv e r ye v e n l yd i s t r i b u t e da r o u n dt h eg a i nc o n t r o l , me a n i n gb e t t e r c o n t r o lo fs i g n a ll e v e l .Mo s to ft h eg a i nc o me sf r o mt h ef i r s ts t a g e ,s o u n wa n t e dn o i s ei sk e p tt oami n i mu m.L i n el e v e l s i g n a l sa r es i mp l yp l u g g e d i n t ot h es e c o n ds t a g eo f t h ep r e a mpb yu s i n gt h el i n ei n p u t j a c ks o c k e t , wh i c h h a st h eg r e a ta d v a n t a g e so fl e s sn o i s ea n dma t c h i n gt oah i g h e ri n p u t i mp e d a n c e .

Mu s i Q–3B a n d

Z E D2 b u sc o n s o l e sf e a t u r ear e s p o n s i v e3 b a n dBr i t i s hE Qwi t hs we e p a b l e mi df r e q u e n c yt h a ti sa c c l a i me df o ri t smu s i c a l i t y ,e v e nwh e na p p l y i n g e x t r e mec r e a t i v eo rc o r r e c t i v ee q u a l i s a t i o n .Al lE Qc o n t r o l sh a v eb e e n c a r e f u l l yc a l i b r a t e df o rr e s p o n s i v e n e s sa n ds mo o t h , p r e c i s ea d j u s t me n t .

U S Ba u d i of l e x i b i l i t y

Z E Dma k e si t e a s yt og e t a u d i ot oa n df r o my o u rc o mp u t e rf o rl i v es o u n da n d mu s i cp r o d u c t i o n .T h e wa yt h i sh a sb e e ni mp l e me n t e do nZ E Di s s u p e r f l e x i b l ea n ds u p e r e a s y .Nol o n g e rd oy o un e e dt of i d d l ea r o u n dt h e b a c ko f y o u rPCt og e t t ot h es o u n d c a r di n p u t s , o n l yt of i n dt h a t t h el e v e l sa r e a l lwr o n ga n dn o i s y .J u s tp l u gi naUSBl e a d ,s e l e c tt h eUSBr o u t i n go nt h e mi x e ra n dt h ed e v i c eo ny o u rc o mp u t e ra n dt h a t ’ si t !CDq u a l i t ya u d i ot oa n d f r o my o u r PCo r Ma c . Swi t c h e sa n dc o n n e c t i o nt h r o u g hj a c ks o c k e t t e r mi n a l s p r o v i d ed i f f e r e n t s e n d / r e t u r nc o n f i g u r a t i o n s . Z E D1 2 F X/Z E D1 6 F X/Z E D2 2 F X Se n do p t i o n s 1 )Ma i nMi xL e f t + Ri g h t ( P o s t f a d e ) 2 )Ma i nMi xL e f t + Ri g h t ( Pr e F a d e ) 3 )Au x e s1 2 4 )Au x e s3 F X Re t u r no p t i o n s : 1 )T oSt e r e o3c h a n n e l

Z E D1 4/Z E D1 8/Z E D2 4 Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t f a d e ) 2 )Ma i nMi xL e f t + Ri g h t ( Pr e F a d e ) 3 )Au x e s1 2 4 )Au x e s3 4 Re t u r no p t i o n s : 1 )T oSt e r e o3c h a n n e l

Z E D F X

T h eZ E D1 2 F X ,Z E D1 6 F Xa n dZ E D2 2 F Xh a v ea ne s s e n t i a ls e l e c t i o no f1 6 t i me d e l a ye f f e c t s ,d e s i g n e df o rp e r f o r me r swh od o n ’ twa n tt oc a r r ya n e f f e c t su n i t wi t ht h e i rg e a rb u t wh os t i l l wa n t g r e a t q u a l i t yF Xa t t h e i rg i g sa n d o nt h e i rr e c o r d i n g s .Ou rDSPe n g i n e e r swo r k e dh a r d ,c r a f t i n ga n dr e f i n i n g b e a u t i f u l r e v e r ba l g o r i t h mst oe n h a n c ee v e r yp e r f o r ma n c e .T h e s ee f f e c t sa r e a v a i l a b l en o wh e r ee l s e—t h i sq u a l i t ya n di n t e g r a t i o ni so n l ya v a i l a b l ef r o mt h e Z E DF X .Z E De f f e c t sa r ee a s i l yc o n t r o l l e du s i n g3b u t t o n swi t h9d i s p l a y L E Ds .F o re x a mp l e ,t h ei d e a ld e l a yt i mec a nb eq u i c k l yt a p p e d i n ,o rt h e p e r f e c ta mo u n to fr e v e r bo nt h el e a dv o c a lc a nb ed i a l l e d i n .T h e r ei s o n e s t o pn a v i g a t i o na n de d i t i n g —i nf a c t , i t ’ sj u s t a se a s ya su s i n gF Xp e d a l s .

S o n a rX 1L Ep r o v i d e df r e e !

We ’ v ei n c l u d e dCa k e wa l kSo n a rX 1L Ewi t hZ E D2 b u smi x e r s ,s oy o uc a n i mme d i a t e l ys t a r tt ou s ei tt oc r e a t ey o u ro wnmu s i c —j u s ta d daPCa n di t c o u l d n ’ tb ee a s i e rt og e tg o i n g .Y o u ’ l l b ea b l et or e c o r df r o my o u rZ E Dmi x e r , c r e a t et r a c k sa n da r r a n g es o n g s , t h e np l a yb a c kt oZ E Dv i at h eUSBp o r t . Y o u c a nu s eSo n a ra n dy o u rmi x e rt o g e t h e ri nma n ywa y s —e . g .s t r a i g h t f o r wa r d r e c o r d i n go fas t e r e omi x ,r e c o r d i n g2t r a c k si n d i v i d u a l l yt ob u i l du pas o n g , o ru s i n gt h eUSBp o r t a n ds o f t wa r ea sa nF Xl o o p .

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D u o P r e

T E C HS P E C S Op e r a t i n gL e v e l s :I n p u t s Mo n oc h a n n e l ( X L R)I n p u t +6t o–6 3 d Buf o rn o mi n a l ( +1 7 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t )+1 0t o–2 6 d Bu( +3 0 d Buma x i mu m) I n s e r t p o i n t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m St e r e oI n p u t ( J a c ks o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) St e r e oi n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) Ou t p u t s L , R&Mo n oOu t p u t s( L &RX L R, Mo n oJ a c k )0 d Bun o mi n a l . +2 1 d Buma x i mu m Au xOu t p u t s( J a c ks o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m Al t Ou t p u t s( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m

T h e s ea r ef a n t a s t i cmi x e r sf o rs ma l lb a n d s , v e n u e sa n d h i r ec o mp a n i e s . I nama r k e tf u l lo f‘ met o o ’ mi x e r st h e s e c o n s o l e ss t a n do u tf r o mt h ep a c k wi t ht h e i r c o mp r e h e n s i v ef e a t u r e s ,f i n el i n e sa n dq u a l i t y c o n s t r u c t i o n . E a c hmo d e li sp r o v i d e dwi t hb e t we e n6 a n d1 6mi c / l i n ei n p u t s , 3o r4s t e r e oi n p u t swi t hE Q , a n d3 o r4a u x i l i a r ys e n d s .T h eF Xv e r s i o n sa r ei d e a lf o r g r o u p swh on e e dt ot r a v e ll i g h t .l a r g e rmo d e l sc a n e a s i l ya c c o mmo d a t ev o c a l s ,d r u ms ,g u i t a r ,b a s sa n d k e y swh i l s ta l s op r o v i d i n gad e d i c a t e dF Xb u sa n d1 6 i n t e r n a le f f e c t st og i v et h ewh o l emi xe x t r aa mb i e n c e .

Re cOu t p u t s( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m F r e q u e n c yRe s p o n s e Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n+0 . 5 / 1 d B2 0 Hzt o2 0 k Hz L i n ei nt oMi xL / Ro u t 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz St e r e oi nt oMi xL / Ro u t +0 . 5 / 1 d B1 0 Hzt o3 0 k Hz T HD+n Mi ci nt oMi xL / ROu t , 0 d Bg a i n1 k Hz+1 0 d Buo u t 0 . 0 0 4 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz0 . 0 1 4 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n0 d Bu1 k Hz0 . 0 0 5 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz0 . 0 0 3 % He a d r o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 Vu )2 1 d B USBi n&o u t h e a d r o o mf r o mn o mi n a l ( 0 Vu )1 4 d B No i s e Mi cPr eE I N@ ma xg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz1 2 7 d Bu Mi xL / Ro u t , L / Rf a d e r s= 0 , 2 2 2 2 k Hz8 8 d Bu( Z E D1 4 ) Mi xL / Ro u t , L / Rf a d e r s= 0 , 2 2 2 2 k Hz8 4 d Bu( Z E D2 4 ) USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz

Ba s e do nt h ep r o v e np r e a mp sf r o mt h eh u g e l ys u c c e s s f u lP As e r i e s ,Z E D 2 b u sa n d4 b u smi x e r sh a v eDu o Pr ep r e a mp s , wh i c hu s eat wos t a g ed e s i g n wi t hc a r e f u l l yc o n t r o l l e da mo u n t so fg a i ni ne a c hs t a g e .Wh e na mp l i f y i n gt h e s i g n a lf r o mt h eX L Ri n p u t ,t h eg a i nr a n g ei sh u g e —6 9 d Bo fr a n g et ob e e x a c t —a n di sv e r ye v e n l yd i s t r i b u t e da r o u n dt h eg a i nc o n t r o l , me a n i n gb e t t e r c o n t r o lo fs i g n a ll e v e l .Mo s to ft h eg a i nc o me sf r o mt h ef i r s ts t a g e ,s o u n wa n t e dn o i s ei sk e p tt oami n i mu m.L i n el e v e l s i g n a l sa r es i mp l yp l u g g e d i n t ot h es e c o n ds t a g eo f t h ep r e a mpb yu s i n gt h el i n ei n p u t j a c ks o c k e t , wh i c h h a st h eg r e a ta d v a n t a g e so fl e s sn o i s ea n dma t c h i n gt oah i g h e ri n p u t i mp e d a n c e .

Mu s i Q–3B a n d

Z E D2 b u sc o n s o l e sf e a t u r ear e s p o n s i v e3 b a n dBr i t i s hE Qwi t hs we e p a b l e mi df r e q u e n c yt h a ti sa c c l a i me df o ri t smu s i c a l i t y ,e v e nwh e na p p l y i n g e x t r e mec r e a t i v eo rc o r r e c t i v ee q u a l i s a t i o n .Al lE Qc o n t r o l sh a v eb e e n c a r e f u l l yc a l i b r a t e df o rr e s p o n s i v e n e s sa n ds mo o t h , p r e c i s ea d j u s t me n t .

U S Ba u d i of l e x i b i l i t y

Z E Dma k e si t e a s yt og e t a u d i ot oa n df r o my o u rc o mp u t e rf o rl i v es o u n da n d mu s i cp r o d u c t i o n .T h e wa yt h i sh a sb e e ni mp l e me n t e do nZ E Di s s u p e r f l e x i b l ea n ds u p e r e a s y .Nol o n g e rd oy o un e e dt of i d d l ea r o u n dt h e b a c ko f y o u rPCt og e t t ot h es o u n d c a r di n p u t s , o n l yt of i n dt h a t t h el e v e l sa r e a l lwr o n ga n dn o i s y .J u s tp l u gi naUSBl e a d ,s e l e c tt h eUSBr o u t i n go nt h e mi x e ra n dt h ed e v i c eo ny o u rc o mp u t e ra n dt h a t ’ si t !CDq u a l i t ya u d i ot oa n d f r o my o u r PCo r Ma c . Swi t c h e sa n dc o n n e c t i o nt h r o u g hj a c ks o c k e t t e r mi n a l s p r o v i d ed i f f e r e n t s e n d / r e t u r nc o n f i g u r a t i o n s . Z E D1 2 F X/Z E D1 6 F X/Z E D2 2 F X Se n do p t i o n s 1 )Ma i nMi xL e f t + Ri g h t ( P o s t f a d e ) 2 )Ma i nMi xL e f t + Ri g h t ( Pr e F a d e ) 3 )Au x e s1 2 4 )Au x e s3 F X Re t u r no p t i o n s : 1 )T oSt e r e o3c h a n n e l

Z E D1 4/Z E D1 8/Z E D2 4 Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t f a d e ) 2 )Ma i nMi xL e f t + Ri g h t ( Pr e F a d e ) 3 )Au x e s1 2 4 )Au x e s3 4 Re t u r no p t i o n s : 1 )T oSt e r e o3c h a n n e l

Z E D F X

T h eZ E D1 2 F X ,Z E D1 6 F Xa n dZ E D2 2 F Xh a v ea ne s s e n t i a ls e l e c t i o no f1 6 t i me d e l a ye f f e c t s ,d e s i g n e df o rp e r f o r me r swh od o n ’ twa n tt oc a r r ya n e f f e c t su n i t wi t ht h e i rg e a rb u t wh os t i l l wa n t g r e a t q u a l i t yF Xa t t h e i rg i g sa n d o nt h e i rr e c o r d i n g s .Ou rDSPe n g i n e e r swo r k e dh a r d ,c r a f t i n ga n dr e f i n i n g b e a u t i f u l r e v e r ba l g o r i t h mst oe n h a n c ee v e r yp e r f o r ma n c e .T h e s ee f f e c t sa r e a v a i l a b l en o wh e r ee l s e—t h i sq u a l i t ya n di n t e g r a t i o ni so n l ya v a i l a b l ef r o mt h e Z E DF X .Z E De f f e c t sa r ee a s i l yc o n t r o l l e du s i n g3b u t t o n swi t h9d i s p l a y L E Ds .F o re x a mp l e ,t h ei d e a ld e l a yt i mec a nb eq u i c k l yt a p p e d i n ,o rt h e p e r f e c ta mo u n to fr e v e r bo nt h el e a dv o c a lc a nb ed i a l l e d i n .T h e r ei s o n e s t o pn a v i g a t i o na n de d i t i n g —i nf a c t , i t ’ sj u s t a se a s ya su s i n gF Xp e d a l s .

S o n a rX 1L Ep r o v i d e df r e e !

We ’ v ei n c l u d e dCa k e wa l kSo n a rX 1L Ewi t hZ E D2 b u smi x e r s ,s oy o uc a n i mme d i a t e l ys t a r tt ou s ei tt oc r e a t ey o u ro wnmu s i c —j u s ta d daPCa n di t c o u l d n ’ tb ee a s i e rt og e tg o i n g .Y o u ’ l l b ea b l et or e c o r df r o my o u rZ E Dmi x e r , c r e a t et r a c k sa n da r r a n g es o n g s , t h e np l a yb a c kt oZ E Dv i at h eUSBp o r t . Y o u c a nu s eSo n a ra n dy o u rmi x e rt o g e t h e ri nma n ywa y s —e . g .s t r a i g h t f o r wa r d r e c o r d i n go fas t e r e omi x ,r e c o r d i n g2t r a c k si n d i v i d u a l l yt ob u i l du pas o n g , o ru s i n gt h eUSBp o r t a n ds o f t wa r ea sa nF Xl o o p .

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Al l i n p u t swi t hl e v e l c o n t r o l

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

1 2b a rme t e r s

Mo n i t o ro u t p u t s e c t i o n

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

Al t s t e r e oo u t p u t s o u r c e

Mo n i t o ro u t p u t s e c t i o n

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Al t s t e r e oo u t p u t s o u r c e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Ra c ke a r sa v a i l a b l e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r Ra c ke a r sa v a i l a b l e 1 2

1 3

6minipcu/tlsine 3sintpeurteso

3a u x E S+ 1F XS E N D

O NB O A R DF X

6minipcu/tlsine 4sintpeurteso 4auxES

F E A T U R E S

F E A T U R E S

6mo n oc h a n n e l s

6mo n oc h a n n e l s

3s t e r e oc h a n n e l swi t h2 b a n dE Qa n di n p u t sf o re x t r as o u r c e s

4s t e r e oc h a n n e l swi t h2 b a n dE Qa n di n p u t sf o re x t r as o u r c e s

1 6i n t e r n a l t i me d e l a ye f f e c t s

Ne u t r i kmi cX L R

Ne u t r i kmi cX L R

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i k1 / 4i n c hj a c k s

Ch a n n e l i n s e r t

Ch a n n e l i n s e r t

Su p e rwi d eg a i nmi c / l i n ei n p u t

Su p e rwi d eg a i nmi c / l i n ei n p u t

3b a n dE Qwi t hMu s i Q

3b a n dE Qwi t hMu s i Q

2p r e f a d eAu xs e n d s

2p r e f a d eAu xs e n d s

2p o s t f a d eAu xs e n d s

1p o s t f a d eAu xs e n d

I l l u mi n a t e dmu t e

1i n t e r n a l F Xs e n d

So u n di ma g ep a n

I l l u mi n a t e dmu t e

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

So u n di ma g ep a n

AL PS1 0 0 mmf a d e r s

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

St e r e or e t u r n s&p l a y b a c k

AL PS1 0 0 mmf a d e r s

Al l i n p u t swi t hl e v e l c o n t r o l

St e r e or e t u r n s&p l a y b a c k

1 2b a rme t e r s

Al l i n p u t swi t hl e v e l c o n t r o l

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

1 2b a rme t e r s

Mo n i t o ro u t p u t s e c t i o n

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

Al t s t e r e oo u t p u t s o u r c e

Mo n i t o ro u t p u t s e c t i o n

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Al t s t e r e oo u t p u t s o u r c e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Ra c ke a r sa v a i l a b l e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r Ra c ke a r sa v a i l a b l e 1 2

1 3

1 0minipcu/tlsine 3sINtPeUrTeSo

3a u x e s+ 1F XS E N D

O nb o a r df x

1 0minipcu/tlsine 4sINtPeUrTeSo 4auxes

F E A T U R E S

F E A T U R E S

1 0mo n omi c / l i n ei n p u t s

1 0mo n oc h a n n e l s

3s t e r e oc h a n n e l swi t h2 b a n dE Q

4s t e r e oc h a n n e l swi t h2 b a n dE Q

1 6i n t e r n a l t i me d e l a ye f f e c t s

Ne u t r i kmi cX L R

Ne u t r i kmi cX L Rs

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i k1 / 4i n c hj a c k s

Ch a n n e l i n s e r t

Ch a n n e l i n s e r t

Su p e rwi d eg a i nmi c / l i n ei n p u t

Su p e rwi d eg a i nmi c / l i n ei n p u t

3b a n dE Qwi t hMu s i Q

3b a n dE Qwi t hMu s i Q

2p r e f a d eAu xs e n d s

2p r e f a d eAu xs e n d s

2p o s t f a d eAu xs e n d s

1p o s t f a d eAu xs e n d

I l l u mi n a t e dmu t e

1i n t e r n a l F Xs e n d

So u n di ma g ep a n

I l l u mi n a t e dmu t e

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

So u n di ma g ep a n

AL PS1 0 0 mmf a d e r s

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

St e r e or e t u r n s&p l a y b a c k

AL PS1 0 0 mmf a d e r s

Al l i n p u t swi t hl e v e l c o n t r o l

St e r e or e t u r n s&p l a y b a c k

1 2b a rme t e r s

Al l i n p u t swi t hl e v e l c o n t r o l

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

1 2b a rme t e r s

Mo n i t o ro u t p u t s e c t i o n

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

Al t s t e r e oo u t p u t s o u r c e

Mo n i t o ro u t p u t s e c t i o n

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Al t s t e r e oo u t p u t s o u r c e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Ra c ke a r sa v a i l a b l e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r Ra c ke a r sa v a i l a b l e 1 4

1 5

1 0minipcu/tlsine 3sINtPeUrTeSo

3a u x e s+ 1F XS E N D

O nb o a r df x

1 0minipcu/tlsine 4sINtPeUrTeSo 4auxes

F E A T U R E S

F E A T U R E S

1 0mo n omi c / l i n ei n p u t s

1 0mo n oc h a n n e l s

3s t e r e oc h a n n e l swi t h2 b a n dE Q

4s t e r e oc h a n n e l swi t h2 b a n dE Q

1 6i n t e r n a l t i me d e l a ye f f e c t s

Ne u t r i kmi cX L R

Ne u t r i kmi cX L Rs

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i k1 / 4i n c hj a c k s

Ch a n n e l i n s e r t

Ch a n n e l i n s e r t

Su p e rwi d eg a i nmi c / l i n ei n p u t

Su p e rwi d eg a i nmi c / l i n ei n p u t

3b a n dE Qwi t hMu s i Q

3b a n dE Qwi t hMu s i Q

2p r e f a d eAu xs e n d s

2p r e f a d eAu xs e n d s

2p o s t f a d eAu xs e n d s

1p o s t f a d eAu xs e n d

I l l u mi n a t e dmu t e

1i n t e r n a l F Xs e n d

So u n di ma g ep a n

I l l u mi n a t e dmu t e

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

So u n di ma g ep a n

AL PS1 0 0 mmf a d e r s

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

St e r e or e t u r n s&p l a y b a c k

AL PS1 0 0 mmf a d e r s

Al l i n p u t swi t hl e v e l c o n t r o l

St e r e or e t u r n s&p l a y b a c k

1 2b a rme t e r s

Al l i n p u t swi t hl e v e l c o n t r o l

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

1 2b a rme t e r s

Mo n i t o ro u t p u t s e c t i o n

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

Al t s t e r e oo u t p u t s o u r c e

Mo n i t o ro u t p u t s e c t i o n

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Al t s t e r e oo u t p u t s o u r c e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Ra c ke a r sa v a i l a b l e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r Ra c ke a r sa v a i l a b l e 1 4

1 5

z e d2b u smi x e r s

1 6minipcu/tlsine 3sINtPeUrTeSo

O NB O A R DF X

3a u x e s+ 1F XS E N D

1 6minipcu/tlsine 4sintpeurteso 4auxes

F E A T U R E S

F E A T U R E S

1 6mo n oc h a n n e l s

1 6mo n oc h a n n e l s

3s t e r e oc h a n n e l swi t h2 b a n dE Qa n di n p u t sf o re x t r as o u r c e s

4s t e r e oc h a n n e l swi t h2 b a n dE Qa n di n p u t sf o re x t r as o u r c e s

1 6i n t e r n a l t i me d e l a ye f f e c t s

Ne u t r i kmi cX L R

Ne u t r i kmi cX L R

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i k1 / 4i n c hj a c k s

Ch a n n e l i n s e r t

Ch a n n e l i n s e r t

Su p e rwi d eg a i nmi c / l i n ei n p u t

Su p e rwi d eg a i nmi c / l i n ei n p u t

3b a n dE Qwi t hMu s i Q

3b a n dE Qwi t hMu s i Q

2p r e f a d eAu xs e n d s

2p r e f a d eAu xs e n d s

2p o s t f a d eAu xs e n d s

1p o s t f a d eAu xs e n d

I l l u mi n a t e dmu t e

1i n t e r n a l F Xs e n d

So u n di ma g ep a n

I l l u mi n a t e dmu t e

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

So u n di ma g ep a n

AL PS1 0 0 mmf a d e r s

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

St e r e or e t u r n s&p l a y b a c k

AL PS1 0 0 mmf a d e r s

Al l i n p u t swi t hl e v e l c o n t r o l

St e r e or e t u r n s&p l a y b a c k

1 2b a rme t e r s

Al l i n p u t swi t hl e v e l c o n t r o l

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

1 2b a rme t e r s

Mo n i t o ro u t p u t s e c t i o n

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

Al t s t e r e oo u t p u t s o u r c e

Mo n i t o ro u t p u t s e c t i o n

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Al t s t e r e oo u t p u t s o u r c e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r 1 6

1 7

z e d2b u smi x e r s

1 6minipcu/tlsine 3sINtPeUrTeSo

O NB O A R DF X

3a u x e s+ 1F XS E N D

1 6minipcu/tlsine 4sintpeurteso 4auxes

F E A T U R E S

F E A T U R E S

1 6mo n oc h a n n e l s

1 6mo n oc h a n n e l s

3s t e r e oc h a n n e l swi t h2 b a n dE Qa n di n p u t sf o re x t r as o u r c e s

4s t e r e oc h a n n e l swi t h2 b a n dE Qa n di n p u t sf o re x t r as o u r c e s

1 6i n t e r n a l t i me d e l a ye f f e c t s

Ne u t r i kmi cX L R

Ne u t r i kmi cX L R

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i k1 / 4i n c hj a c k s

Ch a n n e l i n s e r t

Ch a n n e l i n s e r t

Su p e rwi d eg a i nmi c / l i n ei n p u t

Su p e rwi d eg a i nmi c / l i n ei n p u t

3b a n dE Qwi t hMu s i Q

3b a n dE Qwi t hMu s i Q

2p r e f a d eAu xs e n d s

2p r e f a d eAu xs e n d s

2p o s t f a d eAu xs e n d s

1p o s t f a d eAu xs e n d

I l l u mi n a t e dmu t e

1i n t e r n a l F Xs e n d

So u n di ma g ep a n

I l l u mi n a t e dmu t e

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

So u n di ma g ep a n

AL PS1 0 0 mmf a d e r s

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

St e r e or e t u r n s&p l a y b a c k

AL PS1 0 0 mmf a d e r s

Al l i n p u t swi t hl e v e l c o n t r o l

St e r e or e t u r n s&p l a y b a c k

1 2b a rme t e r s

Al l i n p u t swi t hl e v e l c o n t r o l

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

1 2b a rme t e r s

Mo n i t o ro u t p u t s e c t i o n

Mo n o / s t e r e of u n c t i o no na u x e s1 &2

Al t s t e r e oo u t p u t s o u r c e

Mo n i t o ro u t p u t s e c t i o n

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Al t s t e r e oo u t p u t s o u r c e

Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t Ca k e wa l kSONARX 1L Eb u n d l e dwi t hmi x e r 1 6

1 7

4b u sMI X E R S

z e d 4 2 0z e d 4 2 8z e d 4 3 6

Z E D4busmi x e rsareaf av ouri t ec hoi c ef orl arge r bands ,hous e sofwors hi pandt he at re s .T he yare al s oap p re c i at e dbyA VandP Are nt alc omp ani e s l ook i ngf orag oodre t urn on i nv e s t me ntwi t h mi ni malmai nt e nanc e .A v ai l abl ewi t h1 6 ,2 4or3 2 mi c / l i nei np ut sp l us2duals t e re oi np ut swi t hE Q, 4 bandE Q, 4s ubgroup s , 6auxi l i arys e ndsanda7 x2 mat ri x,t he i rt rul yp rof e s s i onalf e at ures e twi l l f i tanys oundre i nf orc e me nts c e nari o.

T E C HS P E C S Ope r at i ngL e v e l s :I nput s Mo n oc h a n n e l ( X L R)I n p u t +6t o– 6 3 d Buf o rn o mi n a l ( +1 7 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t )+1 0t o– 2 6 d Bu( +3 0 d Buma x i mu m) I n s e r t p o i n t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m St e r e oI n p u t ( J a c ks o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of f t o+1 0 d B) St e r e oi n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of f t o+1 0 d B) 2T r a c kI n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l +2 1 d Buma x i mu m Out put s L , R&Mo n oOu t p u t s( X L R)+4 d Bun o mi n a l . +2 7 d Buma x i mu m. L , R&MI n s e r t ( T RSJ a c ks o c k e t )2 d Bun o mi n a l +2 1 d Buma x i mu m Gr o u pOu t p u t s( J a c ks o c k e t s )+4 d Bun o mi n a l . +2 7 d Buma x i mu m. Gr o u pI n s e r t ( T RSJ a c ks o c k e t )2 d Bun o mi n a l +2 1 d Buma x i mu m Au xOu t p u t s( J a c ks o c k e t s )2 d Bun o mi n a l +2 1 d Buma x i mu m( Ba l Op t i o n+4 ) Ma t r i xOu t p u t s( T RSJ a c ks o c k e t )2 d Bun o mi n a l . +2 1 d Buma x i mu m. ( Ba l Op t i o n+4 ) 2T r a c kOu t p u t ( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m. Di r e c t Ou t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l . +2 1 d Buma x i mu m. F r e que nc yRe s po ns e Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n+0 . 5 / 1 d B2 0 Hzt o2 0 k Hz . L i n ei nt oMi xL / Ro u t 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz St e r e oi nt oMi xL / Ro u t +0 . 5 / 1 d B1 0 Hzt o3 0 k Hz T HD+n Mi ci nt oMi xL / ROu t , 0 d Bg a i n1 k Hz+1 0 d Buo u t 0 . 0 0 4 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz0 . 0 1 4 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n0 d Bu1 k Hz0 . 0 0 5 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz0 . 0 0 3 % He adr o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 V u )2 1 d B USBi n&o u t h e a d r o o mf r o mn o mi n a l ( 0 V u )1 4 d B USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz No i s e Mi xNo i s e , L Ro u t , 1 6c h a n n e l sr o u t e d , Re f +4 d Bu , 2 2 2 2 k Hz9 0 d B( 8 6 d Bu ) Mi xNo i s e , L Ro u t , 2 4c h a n n e l sr o u t e d , Re f +4 d Bu , 2 2 2 2 k Hz8 9 d B( 8 5 d Bu ) Mi xNo i s e , L Ro u t , 3 2c h a n n e l sr o u t e d , Re f +4 d Bu , 2 2 2 2 k Hz8 8 d B( 8 4 d Bu ) Mi cPr eE I N@ ma xg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz1 2 7 d Bu USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz

1 8

D u o P r e

Ba s e do nt h ep r o v e np r e a mp sf r o mt h eh u g e l ys u c c e s s f u lP As e r i e s ,Z E D 4 b u smi x e r sh a v eDu o Pr ep r e a mp s ,wh i c hu s eat wos t a g ed e s i g nwi t h c a r e f u l l yc o n t r o l l e da mo u n t so fg a i ni ne a c hs t a g e .Wh e na mp l i f y i n gt h e s i g n a lf r o mt h eX L Ri n p u t ,t h eg a i nr a n g ei sh u g e —6 9 d Bo fr a n g et ob e e x a c t —a n di sv e r ye v e n l yd i s t r i b u t e da r o u n dt h eg a i nc o n t r o l , me a n i n gb e t t e r c o n t r o lo fs i g n a ll e v e l .Mo s to ft h eg a i nc o me sf r o mt h ef i r s ts t a g e ,s o u n wa n t e dn o i s ei sk e p tt oami n i mu m.L i n el e v e l s i g n a l sa r es i mp l yp l u g g e d i n t ot h es e c o n ds t a g eo f t h ep r e a mpb yu s i n gt h el i n ei n p u t j a c ks o c k e t , wh i c h h a st h eg r e a ta d v a n t a g e so fl e s sn o i s ea n dma t c h i n gt oah i g h e ri n p u t i mp e d a n c e .

Mu s i Q–4B a n d

Al l Z E D4 b u smi x e r se mp l o yat u n e d4 b a n dE Q,t a k e nf r o mo u ra c c l a i me d GL 2 4 0 0mi x e r , u t i l i s i n gMu s i QBr i t i s hE Qwi t hmu s i c a l r e s p o n s e . T h et womi d b a n d sa r es we p ta n di n / o u ts wi t c h i n ga l l o wsi n s t a n tc o mp a r i s o no ft h e p r e / p o s t E Qs i g n a l .

U S Ba u d i of l e x i b i l i t y

Z E Dma k e si t e a s yt og e t a u d i ot oa n df r o my o u rc o mp u t e rf o rl i v es o u n da n d mu s i cp r o d u c t i o n .T h e wa yt h i sh a sb e e ni mp l e me n t e do nZ E Di s s u p e r f l e x i b l ea n ds u p e r e a s y .Nol o n g e rd oy o un e e dt of i d d l ea r o u n dt h e b a c ko f y o u rPCt og e t t ot h es o u n d c a r di n p u t s , o n l yt of i n dt h a t t h el e v e l sa r e a l lwr o n ga n dn o i s y .J u s tp l u gi naUSBl e a d ,s e l e c tt h eUSBr o u t i n go nt h e mi x e ra n dt h ed e v i c eo ny o u rc o mp u t e ra n dt h a t ’ si t !CDq u a l i t ya u d i ot oa n d f r o my o u r PCo r Ma c . Swi t c h e sa n dc o n n e c t i o nt h r o u g hj a c ks o c k e t t e r mi n a l s p r o v i d ed i f f e r e n t s e n d / r e t u r nc o n f i g u r a t i o n s . Z E D1 4/Z E D1 8/Z E D2 4 Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t f a d e ) 2 )Ma i nMi xL e f t + Ri g h t ( Pr e F a d e ) 3 )Au x e s1 2 4 )Au x e s3 4 Re t u r no p t i o n s : 1 )T oSt e r e o3c h a n n e l

1 9

4b u sMI X E R S

z e d 4 2 0z e d 4 2 8z e d 4 3 6

Z E D4busmi x e rsareaf av ouri t ec hoi c ef orl arge r bands ,hous e sofwors hi pandt he at re s .T he yare al s oap p re c i at e dbyA VandP Are nt alc omp ani e s l ook i ngf orag oodre t urn on i nv e s t me ntwi t h mi ni malmai nt e nanc e .A v ai l abl ewi t h1 6 ,2 4or3 2 mi c / l i nei np ut sp l us2duals t e re oi np ut swi t hE Q, 4 bandE Q, 4s ubgroup s , 6auxi l i arys e ndsanda7 x2 mat ri x,t he i rt rul yp rof e s s i onalf e at ures e twi l l f i tanys oundre i nf orc e me nts c e nari o.

T E C HS P E C S Ope r at i ngL e v e l s :I nput s Mo n oc h a n n e l ( X L R)I n p u t +6t o– 6 3 d Buf o rn o mi n a l ( +1 7 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t )+1 0t o– 2 6 d Bu( +3 0 d Buma x i mu m) I n s e r t p o i n t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m St e r e oI n p u t ( J a c ks o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of f t o+1 0 d B) St e r e oi n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of f t o+1 0 d B) 2T r a c kI n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l +2 1 d Buma x i mu m Out put s L , R&Mo n oOu t p u t s( X L R)+4 d Bun o mi n a l . +2 7 d Buma x i mu m. L , R&MI n s e r t ( T RSJ a c ks o c k e t )2 d Bun o mi n a l +2 1 d Buma x i mu m Gr o u pOu t p u t s( J a c ks o c k e t s )+4 d Bun o mi n a l . +2 7 d Buma x i mu m. Gr o u pI n s e r t ( T RSJ a c ks o c k e t )2 d Bun o mi n a l +2 1 d Buma x i mu m Au xOu t p u t s( J a c ks o c k e t s )2 d Bun o mi n a l +2 1 d Buma x i mu m( Ba l Op t i o n+4 ) Ma t r i xOu t p u t s( T RSJ a c ks o c k e t )2 d Bun o mi n a l . +2 1 d Buma x i mu m. ( Ba l Op t i o n+4 ) 2T r a c kOu t p u t ( p h o n os o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m. Di r e c t Ou t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l . +2 1 d Buma x i mu m. F r e que nc yRe s po ns e Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n+0 . 5 / 1 d B2 0 Hzt o2 0 k Hz . L i n ei nt oMi xL / Ro u t 0 d Bg a i n+0 . 5 / 1 d B1 0 Hzt o3 0 k Hz St e r e oi nt oMi xL / Ro u t +0 . 5 / 1 d B1 0 Hzt o3 0 k Hz T HD+n Mi ci nt oMi xL / ROu t , 0 d Bg a i n1 k Hz+1 0 d Buo u t 0 . 0 0 4 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz0 . 0 1 4 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n0 d Bu1 k Hz0 . 0 0 5 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz0 . 0 0 3 % He adr o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 V u )2 1 d B USBi n&o u t h e a d r o o mf r o mn o mi n a l ( 0 V u )1 4 d B USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz No i s e Mi xNo i s e , L Ro u t , 1 6c h a n n e l sr o u t e d , Re f +4 d Bu , 2 2 2 2 k Hz9 0 d B( 8 6 d Bu ) Mi xNo i s e , L Ro u t , 2 4c h a n n e l sr o u t e d , Re f +4 d Bu , 2 2 2 2 k Hz8 9 d B( 8 5 d Bu ) Mi xNo i s e , L Ro u t , 3 2c h a n n e l sr o u t e d , Re f +4 d Bu , 2 2 2 2 k Hz8 8 d B( 8 4 d Bu ) Mi cPr eE I N@ ma xg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz1 2 7 d Bu USBAu d i oCODE C( Co d e r / De c o d e r ) USBAu d i oI n / Ou t USB1 . 1c o mp l i a n t 1 6 b i t . Sa mp l eRa t e3 2 , 4 4 . 1 , o r4 8 k Hz

1 8

D u o P r e

Ba s e do nt h ep r o v e np r e a mp sf r o mt h eh u g e l ys u c c e s s f u lP As e r i e s ,Z E D 4 b u smi x e r sh a v eDu o Pr ep r e a mp s ,wh i c hu s eat wos t a g ed e s i g nwi t h c a r e f u l l yc o n t r o l l e da mo u n t so fg a i ni ne a c hs t a g e .Wh e na mp l i f y i n gt h e s i g n a lf r o mt h eX L Ri n p u t ,t h eg a i nr a n g ei sh u g e —6 9 d Bo fr a n g et ob e e x a c t —a n di sv e r ye v e n l yd i s t r i b u t e da r o u n dt h eg a i nc o n t r o l , me a n i n gb e t t e r c o n t r o lo fs i g n a ll e v e l .Mo s to ft h eg a i nc o me sf r o mt h ef i r s ts t a g e ,s o u n wa n t e dn o i s ei sk e p tt oami n i mu m.L i n el e v e l s i g n a l sa r es i mp l yp l u g g e d i n t ot h es e c o n ds t a g eo f t h ep r e a mpb yu s i n gt h el i n ei n p u t j a c ks o c k e t , wh i c h h a st h eg r e a ta d v a n t a g e so fl e s sn o i s ea n dma t c h i n gt oah i g h e ri n p u t i mp e d a n c e .

Mu s i Q–4B a n d

Al l Z E D4 b u smi x e r se mp l o yat u n e d4 b a n dE Q,t a k e nf r o mo u ra c c l a i me d GL 2 4 0 0mi x e r , u t i l i s i n gMu s i QBr i t i s hE Qwi t hmu s i c a l r e s p o n s e . T h et womi d b a n d sa r es we p ta n di n / o u ts wi t c h i n ga l l o wsi n s t a n tc o mp a r i s o no ft h e p r e / p o s t E Qs i g n a l .

U S Ba u d i of l e x i b i l i t y

Z E Dma k e si t e a s yt og e t a u d i ot oa n df r o my o u rc o mp u t e rf o rl i v es o u n da n d mu s i cp r o d u c t i o n .T h e wa yt h i sh a sb e e ni mp l e me n t e do nZ E Di s s u p e r f l e x i b l ea n ds u p e r e a s y .Nol o n g e rd oy o un e e dt of i d d l ea r o u n dt h e b a c ko f y o u rPCt og e t t ot h es o u n d c a r di n p u t s , o n l yt of i n dt h a t t h el e v e l sa r e a l lwr o n ga n dn o i s y .J u s tp l u gi naUSBl e a d ,s e l e c tt h eUSBr o u t i n go nt h e mi x e ra n dt h ed e v i c eo ny o u rc o mp u t e ra n dt h a t ’ si t !CDq u a l i t ya u d i ot oa n d f r o my o u r PCo r Ma c . Swi t c h e sa n dc o n n e c t i o nt h r o u g hj a c ks o c k e t t e r mi n a l s p r o v i d ed i f f e r e n t s e n d / r e t u r nc o n f i g u r a t i o n s . Z E D1 4/Z E D1 8/Z E D2 4 Se n do p t i o n s : 1 )Ma i nMi xL e f t + Ri g h t ( P o s t f a d e ) 2 )Ma i nMi xL e f t + Ri g h t ( Pr e F a d e ) 3 )Au x e s1 2 4 )Au x e s3 4 Re t u r no p t i o n s : 1 )T oSt e r e o3c h a n n e l

1 9

z e d4b u smi x e r s

1 6minipcu/tlsine 2 i n p u t s 4subgroups 6auxsends

2 4minipcu/tlsine 2inputs 4subgroups 6auxsends

F E A T U R E S

F E A T U R E S

1 6mo n oc h a n n e l s

2 4mo n oc h a n n e l s

2d u a l s t e r e oi n p u t swi t h4 b a n dE Q

2d u a l s t e r e oi n p u t swi t h4 b a n dE Q

Ne u t r i kmi cX L R

Ne u t r i kmi cX L R

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i k1 / 4i n c hj a c k s

Ch a n n e l i n s e r t

Ch a n n e l i n s e r t

Su p e rwi d eg a i nmi c / l i n ei n p u t

Su p e rwi d eg a i nmi c / l i n ei n p u t

4 b a n dE Qwi t h2s we p t mi d sa n di n / o u t s wi t c h

4 b a n dE Qwi t h2s we p t mi d sa n di n / o u t s wi t c h

I l l u mi n a t e dmu t e

I l l u mi n a t e dmu t e

So u n di ma g ep a n

So u n di ma g ep a n

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

AL PS1 0 0 mmf a d e r s

AL PS1 0 0 mmf a d e r s

6a u x i l i a r ys e n d s( 2p r e , 2p o s t , 2p r e / p o s t )

6a u x i l i a r ys e n d s( 2p r e , 2p o s t , 2p r e / p o s t )

4s u bg r o u p sf e df r o me a c hc h a n n e l

4s u bg r o u p sf e df r o me a c hc h a n n e l

Al l i n p u t swi t hl e v e l c o n t r o l

Al l i n p u t swi t hl e v e l c o n t r o l

1 2b a rme t e r s

1 2b a rme t e r s

L , Ra n dMma i nmi xo u t p u t s

L , Ra n dMma i nmi xo u t p u t s

2ma t r i xs e c t i o n sa v a i l a b l e ; c a ns e n do u t p u t t oUSB

2ma t r i xs e c t i o n sa v a i l a b l e ; c a ns e n do u t p u t t oUSB

I n d i v i d u a l c h a n n e l 4 8 Vp h a n t o mp o we r

I n d i v i d u a l c h a n n e l 4 8 Vp h a n t o mp o we r

Di r e c t o u t p u t o ne v e r ymo n oc h a n n e l

Di r e c t o u t p u t o ne v e r ymo n oc h a n n e l

P e a ka n ds i g n a l i n d i c a t i o no ne v e r yc h a n n e l

P e a ka n ds i g n a l i n d i c a t i o no ne v e r yc h a n n e l

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Ma s t e rl e v e l c o n t r o l so na l l o u t p u t s

Ma s t e rl e v e l c o n t r o l so na l l o u t p u t s

E a s yt ou s el a y o u t –a l l c o n n e c t i o n sa n dc o n t r o l so nt o ps u r f a c e

E a s yt ou s el a y o u t –a l l c o n n e c t i o n sa n dc o n t r o l so nt o ps u r f a c e

d u a ls t e r e o

2 0

d u a ls t e r e o

2 1

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1 6minipcu/tlsine 2 i n p u t s 4subgroups 6auxsends

2 4minipcu/tlsine 2inputs 4subgroups 6auxsends

F E A T U R E S

F E A T U R E S

1 6mo n oc h a n n e l s

2 4mo n oc h a n n e l s

2d u a l s t e r e oi n p u t swi t h4 b a n dE Q

2d u a l s t e r e oi n p u t swi t h4 b a n dE Q

Ne u t r i kmi cX L R

Ne u t r i kmi cX L R

Ne u t r i k1 / 4i n c hj a c k s

Ne u t r i k1 / 4i n c hj a c k s

Ch a n n e l i n s e r t

Ch a n n e l i n s e r t

Su p e rwi d eg a i nmi c / l i n ei n p u t

Su p e rwi d eg a i nmi c / l i n ei n p u t

4 b a n dE Qwi t h2s we p t mi d sa n di n / o u t s wi t c h

4 b a n dE Qwi t h2s we p t mi d sa n di n / o u t s wi t c h

I l l u mi n a t e dmu t e

I l l u mi n a t e dmu t e

So u n di ma g ep a n

So u n di ma g ep a n

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r

AL PS1 0 0 mmf a d e r s

AL PS1 0 0 mmf a d e r s

6a u x i l i a r ys e n d s( 2p r e , 2p o s t , 2p r e / p o s t )

6a u x i l i a r ys e n d s( 2p r e , 2p o s t , 2p r e / p o s t )

4s u bg r o u p sf e df r o me a c hc h a n n e l

4s u bg r o u p sf e df r o me a c hc h a n n e l

Al l i n p u t swi t hl e v e l c o n t r o l

Al l i n p u t swi t hl e v e l c o n t r o l

1 2b a rme t e r s

1 2b a rme t e r s

L , Ra n dMma i nmi xo u t p u t s

L , Ra n dMma i nmi xo u t p u t s

2ma t r i xs e c t i o n sa v a i l a b l e ; c a ns e n do u t p u t t oUSB

2ma t r i xs e c t i o n sa v a i l a b l e ; c a ns e n do u t p u t t oUSB

I n d i v i d u a l c h a n n e l 4 8 Vp h a n t o mp o we r

I n d i v i d u a l c h a n n e l 4 8 Vp h a n t o mp o we r

Di r e c t o u t p u t o ne v e r ymo n oc h a n n e l

Di r e c t o u t p u t o ne v e r ymo n oc h a n n e l

P e a ka n ds i g n a l i n d i c a t i o no ne v e r yc h a n n e l

P e a ka n ds i g n a l i n d i c a t i o no ne v e r yc h a n n e l

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t

Ma s t e rl e v e l c o n t r o l so na l l o u t p u t s

Ma s t e rl e v e l c o n t r o l so na l l o u t p u t s

E a s yt ou s el a y o u t –a l l c o n n e c t i o n sa n dc o n t r o l so nt o ps u r f a c e

E a s yt ou s el a y o u t –a l l c o n n e c t i o n sa n dc o n t r o l so nt o ps u r f a c e

d u a ls t e r e o

2 0

d u a ls t e r e o

2 1

z e d4b u smi x e r s

3 2minipcu/tlsine 2inputs 4subgroups 6auxsends d u a ls t e r e o

F E A T U R E S 3 2mo n oc h a n n e l s 2d u a l s t e r e oi n p u t swi t h4 b a n dE Q Ne u t r i kmi cX L R Ne u t r i k1 / 4i n c hj a c k s Ch a n n e l i n s e r t Su p e rwi d eg a i nmi c / l i n ei n p u t 4 b a n dE Qwi t h2s we p t mi d sa n di n / o u t s wi t c h I l l u mi n a t e dmu t e So u n di ma g ep a n I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r AL PS1 0 0 mmf a d e r s 6a u x i l i a r ys e n d s( 2p r e , 2p o s t , 2p r e / p o s t ) 4s u bg r o u p sf e df r o me a c hc h a n n e l Al l i n p u t swi t hl e v e l c o n t r o l 1 2b a rme t e r s L , Ra n dMma i nmi xo u t p u t s 2ma t r i xs e c t i o n sa v a i l a b l e ; c a ns e n do u t p u t t oUSB I n d i v i d u a l c h a n n e l 4 8 Vp h a n t o mp o we r Di r e c t o u t p u t o ne v e r ymo n oc h a n n e l P e a ka n ds i g n a l i n d i c a t i o no ne v e r yc h a n n e l Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t Ma s t e rl e v e l c o n t r o l so na l l o u t p u t s E a s yt ou s el a y o u t –a l l c o n n e c t i o n sa n dc o n t r o l so nt o ps u r f a c e 2 2

2 3

z e d4b u smi x e r s

3 2minipcu/tlsine 2inputs 4subgroups 6auxsends d u a ls t e r e o

F E A T U R E S 3 2mo n oc h a n n e l s 2d u a l s t e r e oi n p u t swi t h4 b a n dE Q Ne u t r i kmi cX L R Ne u t r i k1 / 4i n c hj a c k s Ch a n n e l i n s e r t Su p e rwi d eg a i nmi c / l i n ei n p u t 4 b a n dE Qwi t h2s we p t mi d sa n di n / o u t s wi t c h I l l u mi n a t e dmu t e So u n di ma g ep a n I l l u mi n a t e dPF L&p e a kwa r n i n gi n d i c a t o r AL PS1 0 0 mmf a d e r s 6a u x i l i a r ys e n d s( 2p r e , 2p o s t , 2p r e / p o s t ) 4s u bg r o u p sf e df r o me a c hc h a n n e l Al l i n p u t swi t hl e v e l c o n t r o l 1 2b a rme t e r s L , Ra n dMma i nmi xo u t p u t s 2ma t r i xs e c t i o n sa v a i l a b l e ; c a ns e n do u t p u t t oUSB I n d i v i d u a l c h a n n e l 4 8 Vp h a n t o mp o we r Di r e c t o u t p u t o ne v e r ymo n oc h a n n e l P e a ka n ds i g n a l i n d i c a t i o no ne v e r yc h a n n e l Co n f i g u r a b l eUSBs t e r e oa u d i oi n / o u t Ma s t e rl e v e l c o n t r o l so na l l o u t p u t s E a s yt ou s el a y o u t –a l l c o n n e c t i o n sa n dc o n t r o l so nt o ps u r f a c e 2 2

2 3

z e dr e c o r d i n gmi x e r s

1 6C h a n n e lF i r e wi r eR e c o r d i n gMi X e r Z E D R 1 6c o mb i n e sa na n a l o g u er e c o r d i n gF E A T U R E S mi x e rwi t haF i r e Wi r es o u n d c a r d ,MI D I nt h es t u d i o c o n t r o l sa n di n g e n i o u s‘ h o me s t u d i o ’I Z E DR1 6c o mb i n e sa ni ma g i n a t i v ef e a t u r es e t wi t hp r o f e s s i o n a l b u i l dq u a l i t yt o r o u t i n gs oy o uc a nb u i l dt r a c k si nt h e createtheidealcentrepieceforanyprojectstudiowithbigideas,orlarger s t u d i o , r e c o r dl i v eg i g s , mi x d o wn , r e mi x … studioswithdedicatedliverooms.Controlroomspeakerandalternatespeaker u t p u t s , p l u st wos e p a r a t ea r t i s t mo n i t o rf e e d sa r ep r o v i d e d . I na d d i t i o nt ot h e a l lt h r o u g hwa r ma n a l o g u ec i r c u i t r y ,4 o d i g i t a li n t e r f a c e ,t woa n a l o g u er e c o r d i n go u t p u t sa r ea l s oa v a i l a b l e .T h e b a n df u l l yp a r a me t r i cc l a s s i cB r i t i s hE Q ZED-R16evenhasadedicatedinternalcondensertalkbackmic.Featuressuch a n do u tt oc r i s p , p r e c i s ed i g i t a lf o r ma t . asthedualfunctionaudio/MIDIfadersandbuiltinsequencertransportwere d r e a me du pb ye n g i n e e r sh e r ea t A&Hwh oh a v eh o mes t u d i o st h e ms e l v e s , s o t h e y ’ v ema d es u r et h e y ’ v eb u i l t i nf e a t u r e st h e yr e a l l yn e e d .

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T h ei n t e r n a ls o u n d c a r df e a t u r e s1 8F i r e Wi r ei n p u t sa n d1 8o u t p u t sp l u s1 6 ADA TI / O.E a c hc h a n n e lo nt h emi x e rh a si t so wni n d e p e n d e n ts o u n d c a r d c h a n n e l s oi n s t r u me n t sc a nb er e c o r d e ds i mu l t a n e o u s l y( p r eo rp o s tE Q)a n d i n t ot h es e q u e n c e rs e p a r a t e l y .T o mi n i mi s ec l o c kj i t t e ra n dp r o v i d e s y n c h r o n i c i t yb e t we e nt h eZ E DR1 6a n do t h e rd e v i c e s ,t h emi x e ri se q u i p p e d wi t ht h ep r o f e s s i o n a l J e t PL L ™d i g i t a l a u d i oc h i p s e t .

Mi x d o wna n dl i v e

I na d d i t i o nt omu l t i t r a c kr e c o r d i n g ,t h eZ E DR1 6a l l o wsmi x i n gd o wni n a n a l o g u e ,t h e nr e c o r d i n gb a c ki n t ot h ec o mp u t e ri nd i g i t a l .T h eb u n d l e d SONARX 1L Es o f t wa r ema k e st h i sab r e e z e .T h es t o r yd o e s n ’ ts t o ph e r e h o we v e r-Z E DR1 6c a nb eav e r s a t i l el i v eF OHmi x e rt o o .I nt h i smo d e ,i t s4 a u xb u s e sb e c o mef o l d b a c kf e e d sa n dF Xs e n d s ,a n dt h ema i nX L Ro u t p u t s f e e dt h eP As y s t e m.Re c o r d i n gt h el i v eg i gi ss t r a i g h t f o r wa r d ;t h er e c o r df e e d s i g n a l c a nb ee a s i l ya s s i g n e du s i n gt h ef o u rb u t t o n sn e x t t ot h ef a d e r s . 2 4

A u x i l i a r ys e n d s

T wop r ea n dt wop o s ta u xb u s e sc a nb eu s e da sf e e d sf o rh e a d p h o n e a mp l i f i e r si nt h es t u d i o ,F Xs e n d sa n y wh e r e ,o rwe d g ef o l d b a c kl i v e .T h e t a l k b a c kf u n c t i o ni se i t h e rr o u t e dt ot h ea u xo rs t u d i oo u t p u t s ,s oi t ’ si d e a l f o r a n ye n v i r o n me n t .

Mo n i t o rs e c t i o n

T h eZ E DRh a st wos i g n a lp a t h sf o rmo n i t o r i n g :a no u t p u tf o rma i nc o n t r o l r o o m mo n i t o r sa n do u t p u t sf o ra na l t e r n a t i v es e to fmo n i t o r sf o rc h e c k i n g mi x e s .T h ec o n t r o lr o o m mi xc a nf o l l o we i t h e ro ft h et woma i na n a l o g u e o u t p u t so rt h ed i g i t a l ma i nmi x , a l l o wi n ga c c e s st oa l l ma i na u d i oo u t p u t s .

F i r e Wi r ef l e x i b i l i t y

T h ed i g i t a la u d i oc o n n e c t i o n sa r ea l lp r e s e n to nt h er e a ro ft h ed e s k .T wo F i r e Wi r ec o n n e c t o r sa l l o wt h eZ E DR1 6t ob ec o n n e c t e dt oac o mp u t e rwh i l s t t h es e c o n ds o c k e t d a i s yc h a i n sd e v i c e s . T wos wi t c h e sc h a n g et h es a mp l er a t e a n dr o u t i n gs e l e c t i o n ,wh i l e4c o n n e c t o r sa l l o wi n p u ta n do u t p u tt oADA T e q u i p me n t .

A D A T

I na d d i t i o nt ot h eF i r e wi r ei n p u ta n do u t p u t ,t h eZ E DR1 6h a s4ADA To p t i c a l s o c k e t s .T h eI / Or o u t i n go nt h eZ E DR1 6i si d e n t i c a l f o rt h eF i r e wi r ec h a n n e l s a n dt h eADA To p t i c a lc o n n e c t i o n .Wi t hac o mb i n a t i o no fp a n e ls wi t c h e s ,t h e mi x e ri sc a p a b l eo f a ni n c r e d i b l e2 6s i mu l t a n e o u si n p u t sa n do u t p u t s . F e e dt h e Z E DR1 6f r o m ADA Tl i g h t p i p ee q u i p me n t ,o rr e c o r dd i r e c t l yo u tf r o m1 6 c h a n n e l st o2ADA Tma c h i n e s , o rt oa n o t h e rs o u n d c a r d .

MI D I s o f t wa r ec o n t r o l

S O N A RX 1L E–P r o v i d e dF r e e ! We ’ v ei n c l u d e dCa k e wa l kSONARX 1L Ewi t hZ E DR1 6s oy o uc a ni mme d i a t e l y s t a r t t ou s ei t t oc r e a t ey o u ro wnmu s i c . Ke ySo n a rF e a t u r e s •P o we r e db ySONARX 1 •3 2a u d i ot r a c k s •6 4MI DI t r a c k s •8s i mu l t a n e o u si n p u t sa n do u t p u t s •2 4 b i t / 9 6k Hza u d i oq u a l i t y •2 4s i mu l t a n e o u se f f e c t s •8s i mu l t a n e o u sv i r t u a l i n s t r u me n t s

T h eMI DIs e c t i o no nt h eZ E DR1 6h a sb e e nd e s i g n e dt oc o n t r o ls o f t wa r e t r a n s p o r t ,wi t he x t r ama p p a b l ec o n t r o l l e r sr e a d yt ob eu s e r a s s i g n e d .I n a d d i t i o nt ot h eZ E DR1 6 ’ sd e d i c a t e dMI DIc o n t r o l s ,a l lo ft h ec h a n n e lf a d e r s c a nb es wi t c h e dt ob e c o meMI DI c o n t r o l l e r s .

2 5

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1 6C h a n n e lF i r e wi r eR e c o r d i n gMi X e r Z E D R 1 6c o mb i n e sa na n a l o g u er e c o r d i n gF E A T U R E S mi x e rwi t haF i r e Wi r es o u n d c a r d ,MI D I nt h es t u d i o c o n t r o l sa n di n g e n i o u s‘ h o me s t u d i o ’I Z E DR1 6c o mb i n e sa ni ma g i n a t i v ef e a t u r es e t wi t hp r o f e s s i o n a l b u i l dq u a l i t yt o r o u t i n gs oy o uc a nb u i l dt r a c k si nt h e createtheidealcentrepieceforanyprojectstudiowithbigideas,orlarger s t u d i o , r e c o r dl i v eg i g s , mi x d o wn , r e mi x … studioswithdedicatedliverooms.Controlroomspeakerandalternatespeaker u t p u t s , p l u st wos e p a r a t ea r t i s t mo n i t o rf e e d sa r ep r o v i d e d . I na d d i t i o nt ot h e a l lt h r o u g hwa r ma n a l o g u ec i r c u i t r y ,4 o d i g i t a li n t e r f a c e ,t woa n a l o g u er e c o r d i n go u t p u t sa r ea l s oa v a i l a b l e .T h e b a n df u l l yp a r a me t r i cc l a s s i cB r i t i s hE Q ZED-R16evenhasadedicatedinternalcondensertalkbackmic.Featuressuch a n do u tt oc r i s p , p r e c i s ed i g i t a lf o r ma t . asthedualfunctionaudio/MIDIfadersandbuiltinsequencertransportwere d r e a me du pb ye n g i n e e r sh e r ea t A&Hwh oh a v eh o mes t u d i o st h e ms e l v e s , s o t h e y ’ v ema d es u r et h e y ’ v eb u i l t i nf e a t u r e st h e yr e a l l yn e e d .

S o u n d c a r d

T h ei n t e r n a ls o u n d c a r df e a t u r e s1 8F i r e Wi r ei n p u t sa n d1 8o u t p u t sp l u s1 6 ADA TI / O.E a c hc h a n n e lo nt h emi x e rh a si t so wni n d e p e n d e n ts o u n d c a r d c h a n n e l s oi n s t r u me n t sc a nb er e c o r d e ds i mu l t a n e o u s l y( p r eo rp o s tE Q)a n d i n t ot h es e q u e n c e rs e p a r a t e l y .T o mi n i mi s ec l o c kj i t t e ra n dp r o v i d e s y n c h r o n i c i t yb e t we e nt h eZ E DR1 6a n do t h e rd e v i c e s ,t h emi x e ri se q u i p p e d wi t ht h ep r o f e s s i o n a l J e t PL L ™d i g i t a l a u d i oc h i p s e t .

Mi x d o wna n dl i v e

I na d d i t i o nt omu l t i t r a c kr e c o r d i n g ,t h eZ E DR1 6a l l o wsmi x i n gd o wni n a n a l o g u e ,t h e nr e c o r d i n gb a c ki n t ot h ec o mp u t e ri nd i g i t a l .T h eb u n d l e d SONARX 1L Es o f t wa r ema k e st h i sab r e e z e .T h es t o r yd o e s n ’ ts t o ph e r e h o we v e r-Z E DR1 6c a nb eav e r s a t i l el i v eF OHmi x e rt o o .I nt h i smo d e ,i t s4 a u xb u s e sb e c o mef o l d b a c kf e e d sa n dF Xs e n d s ,a n dt h ema i nX L Ro u t p u t s f e e dt h eP As y s t e m.Re c o r d i n gt h el i v eg i gi ss t r a i g h t f o r wa r d ;t h er e c o r df e e d s i g n a l c a nb ee a s i l ya s s i g n e du s i n gt h ef o u rb u t t o n sn e x t t ot h ef a d e r s . 2 4

A u x i l i a r ys e n d s

T wop r ea n dt wop o s ta u xb u s e sc a nb eu s e da sf e e d sf o rh e a d p h o n e a mp l i f i e r si nt h es t u d i o ,F Xs e n d sa n y wh e r e ,o rwe d g ef o l d b a c kl i v e .T h e t a l k b a c kf u n c t i o ni se i t h e rr o u t e dt ot h ea u xo rs t u d i oo u t p u t s ,s oi t ’ si d e a l f o r a n ye n v i r o n me n t .

Mo n i t o rs e c t i o n

T h eZ E DRh a st wos i g n a lp a t h sf o rmo n i t o r i n g :a no u t p u tf o rma i nc o n t r o l r o o m mo n i t o r sa n do u t p u t sf o ra na l t e r n a t i v es e to fmo n i t o r sf o rc h e c k i n g mi x e s .T h ec o n t r o lr o o m mi xc a nf o l l o we i t h e ro ft h et woma i na n a l o g u e o u t p u t so rt h ed i g i t a l ma i nmi x , a l l o wi n ga c c e s st oa l l ma i na u d i oo u t p u t s .

F i r e Wi r ef l e x i b i l i t y

T h ed i g i t a la u d i oc o n n e c t i o n sa r ea l lp r e s e n to nt h er e a ro ft h ed e s k .T wo F i r e Wi r ec o n n e c t o r sa l l o wt h eZ E DR1 6t ob ec o n n e c t e dt oac o mp u t e rwh i l s t t h es e c o n ds o c k e t d a i s yc h a i n sd e v i c e s . T wos wi t c h e sc h a n g et h es a mp l er a t e a n dr o u t i n gs e l e c t i o n ,wh i l e4c o n n e c t o r sa l l o wi n p u ta n do u t p u tt oADA T e q u i p me n t .

A D A T

I na d d i t i o nt ot h eF i r e wi r ei n p u ta n do u t p u t ,t h eZ E DR1 6h a s4ADA To p t i c a l s o c k e t s .T h eI / Or o u t i n go nt h eZ E DR1 6i si d e n t i c a l f o rt h eF i r e wi r ec h a n n e l s a n dt h eADA To p t i c a lc o n n e c t i o n .Wi t hac o mb i n a t i o no fp a n e ls wi t c h e s ,t h e mi x e ri sc a p a b l eo f a ni n c r e d i b l e2 6s i mu l t a n e o u si n p u t sa n do u t p u t s . F e e dt h e Z E DR1 6f r o m ADA Tl i g h t p i p ee q u i p me n t ,o rr e c o r dd i r e c t l yo u tf r o m1 6 c h a n n e l st o2ADA Tma c h i n e s , o rt oa n o t h e rs o u n d c a r d .

MI D I s o f t wa r ec o n t r o l

S O N A RX 1L E–P r o v i d e dF r e e ! We ’ v ei n c l u d e dCa k e wa l kSONARX 1L Ewi t hZ E DR1 6s oy o uc a ni mme d i a t e l y s t a r t t ou s ei t t oc r e a t ey o u ro wnmu s i c . Ke ySo n a rF e a t u r e s •P o we r e db ySONARX 1 •3 2a u d i ot r a c k s •6 4MI DI t r a c k s •8s i mu l t a n e o u si n p u t sa n do u t p u t s •2 4 b i t / 9 6k Hza u d i oq u a l i t y •2 4s i mu l t a n e o u se f f e c t s •8s i mu l t a n e o u sv i r t u a l i n s t r u me n t s

T h eMI DIs e c t i o no nt h eZ E DR1 6h a sb e e nd e s i g n e dt oc o n t r o ls o f t wa r e t r a n s p o r t ,wi t he x t r ama p p a b l ec o n t r o l l e r sr e a d yt ob eu s e r a s s i g n e d .I n a d d i t i o nt ot h eZ E DR1 6 ’ sd e d i c a t e dMI DIc o n t r o l s ,a l lo ft h ec h a n n e lf a d e r s c a nb es wi t c h e dt ob e c o meMI DI c o n t r o l l e r s .

2 5

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Op e r a t i n gL e v e l s I n p u t s Mo n oc h a n n e l ( X L R)I n p u t 6t o–6 0 d Buf o rn o mi n a l ( +1 4 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t ) +1 4t o–4 0 d Bu( +3 4 d Buma x i mu m) I n s e r t p o i n t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m St e r e oI n p u t ( J a c ks o c k e t s ) 0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) St e r e oi n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) 2T r a c kI n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l +2 1 d Buma x i mu m Ou t p u t s Mi n( 2T r a c k1 )L R( X L R) +4 d Bun o mi n a l . +2 7 d Buma x i mu m. L RI n s e r t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m 2T r a c k2Ou t p u t s( J a c ks o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m. Al l o t h e ra n a l o g u eo u t p u t s 0n o mi n a l +2 1 d Buma x i mu m r e q u e n c yRe s p o n s e F Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n +/ 0 . 5 d B2 0 Hzt o1 4 0 k Hz . L i n ei nt oMi xL / Ro u t 0 d Bg a i n+/ 0 . 5 d B2 0 Hzt o2 0 k Hz St e r e oi nt oMi xL / Ro u t +/ 0 . 5 d B2 0 Hzt o4 0 k Hz T HD+n Mi ci nt oMi xL / ROu t , 6 d Bg a i n1 k Hz+1 0 d Buo u t0 . 0 0 2 5 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz 0 . 0 0 4 5 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz 0 . 0 0 3 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz 0 . 0 0 4 % He a d r o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 Vu ) 2 1 d B Di g i t a l c o n v e r t e rh e a d r o o mf r o mn o mi n a l a n a l o g u e( 0 Vu ) 1 6 d B Di g i t a l Pe r f o r ma n c e An a l o g u et oDi g i t a l c o n v e r s i o n2 4 b i t 1 1 4 d Bd y n a mi cr a n g e( Awt d ) Di g i t a l t oAn a l o g u ec o n v e r s i o n2 4 b i t 1 1 8 d Bd y n a mi cr a n g e( Awt d ) Sa mp l eRa t e 4 4 . 1 , 4 8 , 8 8 . 2 , 9 6 k Hz No i s e Mi xNo i s e , L Ro u t , 1 6c h a n n e l sr o u t e d , Re f+4 d Bu , 2 2 2 2 k Hz 8 8 d B( 8 4 d Bu ) Mi xNo i s e , Au x1 4o u t , s e n d smi n i mu m, ma s t e r sa t u n i t y2 2 2 2 k Hz8 6 d Bu Mi cPr eE I N@ 6 0 d Bg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz 1 2 8 . 5 d Bu MI DI a d e ra n dRo t a r yv a l u e s 0 1 2 7 F MI DI s wi t c h e s No t eo n / n o t eo f f T r a n s p o r t c o n t r o l MI DI ma c h i n ec o n t r o l MI DI c h a n n e lDe f a u l t 1 6 . Us e rs e t t a b l e Po we rc o n s u mp t i o n

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Op e r a t i n gL e v e l s I n p u t s Mo n oc h a n n e l ( X L R)I n p u t 6t o–6 0 d Buf o rn o mi n a l ( +1 4 d Bui nma x ) Mo n oc h a n n e l L i n eI n p u t ( J a c ks o c k e t ) +1 4t o–4 0 d Bu( +3 4 d Buma x i mu m) I n s e r t p o i n t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m St e r e oI n p u t ( J a c ks o c k e t s ) 0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) St e r e oi n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l ( c o n t r o l = Of ft o+1 0 d B) 2T r a c kI n p u t ( p h o n os o c k e t s )0 d Bun o mi n a l +2 1 d Buma x i mu m Ou t p u t s Mi n( 2T r a c k1 )L R( X L R) +4 d Bun o mi n a l . +2 7 d Buma x i mu m. L RI n s e r t ( T RSJ a c ks o c k e t )0 d Bun o mi n a l +2 1 d Buma x i mu m 2T r a c k2Ou t p u t s( J a c ks o c k e t s )0 d Bun o mi n a l . +2 1 d Buma x i mu m. Al l o t h e ra n a l o g u eo u t p u t s 0n o mi n a l +2 1 d Buma x i mu m r e q u e n c yRe s p o n s e F Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n +/ 0 . 5 d B2 0 Hzt o1 4 0 k Hz . L i n ei nt oMi xL / Ro u t 0 d Bg a i n+/ 0 . 5 d B2 0 Hzt o2 0 k Hz St e r e oi nt oMi xL / Ro u t +/ 0 . 5 d B2 0 Hzt o4 0 k Hz T HD+n Mi ci nt oMi xL / ROu t , 6 d Bg a i n1 k Hz+1 0 d Buo u t0 . 0 0 2 5 % Mi ci nt oMi xL / ROu t , 3 0 d Bg a i n1 k Hz 0 . 0 0 4 5 % L i n ei nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz 0 . 0 0 3 % St e r e oi nt oMi xL / Ro u t 0 d Bg a i n+1 0 d Bu1 k Hz 0 . 0 0 4 % He a d r o o m An a l o g u eHe a d r o o mf r o mn o mi n a l ( 0 Vu ) 2 1 d B Di g i t a l c o n v e r t e rh e a d r o o mf r o mn o mi n a l a n a l o g u e( 0 Vu ) 1 6 d B Di g i t a l Pe r f o r ma n c e An a l o g u et oDi g i t a l c o n v e r s i o n2 4 b i t 1 1 4 d Bd y n a mi cr a n g e( Awt d ) Di g i t a l t oAn a l o g u ec o n v e r s i o n2 4 b i t 1 1 8 d Bd y n a mi cr a n g e( Awt d ) Sa mp l eRa t e 4 4 . 1 , 4 8 , 8 8 . 2 , 9 6 k Hz No i s e Mi xNo i s e , L Ro u t , 1 6c h a n n e l sr o u t e d , Re f+4 d Bu , 2 2 2 2 k Hz 8 8 d B( 8 4 d Bu ) Mi xNo i s e , Au x1 4o u t , s e n d smi n i mu m, ma s t e r sa t u n i t y2 2 2 2 k Hz8 6 d Bu Mi cPr eE I N@ 6 0 d Bg a i n1 5 0 Ri n p u t Z2 2 2 2 k Hz 1 2 8 . 5 d Bu MI DI a d e ra n dRo t a r yv a l u e s 0 1 2 7 F MI DI s wi t c h e s No t eo n / n o t eo f f T r a n s p o r t c o n t r o l MI DI ma c h i n ec o n t r o l MI DI c h a n n e lDe f a u l t 1 6 . Us e rs e t t a b l e Po we rc o n s u mp t i o n

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R E C O R D I N GMI X E R S

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