Solid State Logic SL4000G Console Service Manual CONTENTS 1 S L 611G Input/Output Module SL 676E Channel Fader 2 S L 611S Stereo Input/Output Module 3 SL613ETest Jig 4 S L 621E Producer's Panel 5 SL 631E Mainframe, Internal Wiring & Connectors 6 SL 675E Main Connector Panel 7 SL641GPatch 8 S L 651G Master Module SL 652G Split Cues Module 9 SL 661E Power Supply and Leads 10 SL 663E Power Supply Changeover Unit 11 S L 672E Analogue Meters (VU:VU-peak:PPM) 12 SL 674E Bargraph Meter System 13 SL 681E Tape Remotes 14 S L 622G Patchable VCAs SL 615E Dual Mic Anips Custom Modifications
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SSL 4000G Console Service Manual - Gearslutz€¦ · mpsa-ib mpsa-42 mpsa-92 2n3904 bc373 adj o/p i/p regulator t0s2 \) lm337 o/p com i/p o o o\ regulator t032 \ } 78l series com
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320 West 46thStreet, New York, NY 10036, USA . Tel: (212) 315 1111 • Fax: (212) 315 0251 6255 Sunset Böulevard, Los Angeles, California 90028, USA . Tel: (213) 463 4444 . Fax: (213) 463 6568
3-55-14 Sendagaya, Shibuya-Ku, Tokyo 151, Japan • Tel: (03) 5474 1144 • Fax: (03) 5474 1147
Ali Rights Reserved iinder International and Pan-American Copyright Conventions SSL, Total Recall and Ultimation a&re Registered Tradenames of Solid State Logic Limited
No part of this publitation may be reproduced in any form or by any means, vvhether mechanical or eiectronic, vvithout the
vvritten permission öf Solid State Logic Ltd., Oxford, England.
As research and development is a continual process, Solid State Logic reserves the right
to change thefeatures and specifications described hereitx Mihout notice or öbligätion.
A l i maintenance must be carried out by fu l ly trained personnel.
Non User Adjustments
Adjustments or alterations to the equipment may affect the performance such that safety and/or international compliance standards may not be met. Any such adjustments must therefore only be carried out by fu l ly trained personnel.
Users
This equipment is designed solely for use by engineers and operators competent and skilled in the use of professional audio equipment.
Installation
The in s t a l l a t i on must be carr ied out by competent personnel i n accordance wi th the relevant installation instructions supplied by Solid State Logic.
Environment
This product is a ciass A product intended to f o r m an integrated component part of a Professional Audio Recording, Mixing , Dubbing, Film, TV/Radio Broadcast or similar Studio wherein it vvill perform to specification p rov id ing that i t is installed according to professional practice. Opera t ion of this equipment outs ide such a con t ro l l ed environment serves no practical purpose and such attempts may cause malperformance.
Solid State Logic
SL4000G Console Service Manual
SECTION 1
SL 611G Input/Output Module
CardNo Qty Module Description
82E03 l 611G Multiplexer (Total Recall Units only) 82E07 9 611G Channel Routing Switch 82E08 l 611G Dynamics Svvitch 82E10 l 611G Dynamics Section 82E13 l 611G VCA & Overload Indicator 82E16 l 611G Dynamics LEDs
82E281 l 611G Film Pan (optional) 82E291 l 611G Mic/Line Input Amplifier 82E292 l 611G Equaliser 82E293 l 611G Logic 82E294 l 611G Group Amplifiers 82E312 l 611G Equaliser Svvitch 82E351 l 611G Dual Line Input Amplifier (optional)
82E17 l 676E VCA Fader Card
PUSH BUTTON CAP - 8MM 33DCN1X8 LED - 0.125 RED 41CEAA2X
LED - GREEN 41CEAA5X. LED - YELLOV 41CEAA4X.
ROUTING PAN 12SHBLBK
OK LIN IOOK LIN INDENT
LINE GAIN CT/IND 12SHBLBK 10K+10K LIN IOOK LIN
niC GAIN ROTARY SVITCH 622295E1
COMPRESS RATIO 12SHBLBX 10K+10K LIN IOOK LIN
COMPRESS RELEASE PUSH PULL SVITCH 12RMELBP 250K LOG 100K LIN
EXPAND RANGE 12RJBLBX 22K LIN IOOK LIN
EXPAND RELEASE PUSH PULL SVITCH 12RMELBP 250K LOG 100K LIN
CAP - ionn L I N E B R I G H T AQUA 3 1 6 1 0 F F 6
CAP - 1 OMM LINE GREY
CAP - iirin LINE RED riAGENTA 3 4 2 1 1 F F 2
3 x CA P S - IOMM L I N E 6 R E Y 3 4 B 1 0 F F 8 COMPRESS THRESHOLD 1 2 S H B L B X 10K+10K L I N IOOK L I N
EXPAND THRESHOLD 1 2 R J B L B X 2 2 K L I N IOOK L I N
3 x CA P S - 10MM L I N E B R I G H T GREEN 3 4 5 1 0 F F 5
DYNAMIC LEDS 622016E1
DYNAMIC SVITCH CARD 622008E2
LF FILTER 12TKHLBQ 3x47K A LOG IOOK LIN + SVITCH 2 x CAPS - 10MM LINE 6REY 34B10FF8
HF CUT + BOOST 12RJBLBD 22K LIN IOOK LIN 2 x CAPS - 1OMM LINE RED MAGENTA 34210FF2 HMF CUT BOOST INDENT 12RJBLBD 22K LIN IOOK LIN 3 x CAPS - 1OMM LINE BRIGHT GREEN 34510FF5 HMF Q 12SHELBX 10K+10K LOG IOOK LIN
LMF CUT + BOOST INDENT 12RJBLBD 22K LIN 100K LIN 3 x CAPS - 1OMM LINE BRIGHT AQUA 34610FF6 LMF Q 12SHELBX 10K+10K LOG 100K LIN
LF CUT + BOOST INDENT 12RJBLBD 22K LIN IOOK LIN
STEREO CUES PAN 12SHBLBK 10K+10K LIN 100K LIN INDENT 1 x CAP - 10MM LINE BRIGHT AQUA 34G10FF6
CUES LEVEL PUSH PUSH SVITCH 12RHELBN 1 OK LOG IOOK LIN
5 x CAPS - 10MM LINE GREY 34B10FF8
CUES LEVEL PUSH PUSH SVITCH 12RHELBN 1 OK LOG 100K LIN
- - O n
kHz—\
2<K( 1 ))•*>« (VT • — • 33*
/—Hi
SPLIT
HF
HMFx3
— V 2-
1-3^—-iit
•8
•3 2. A? T^V 1
3'x: -A. ^ 1
—iieerrH
V3
PRE PRE
SHALL FADER
PRE
I SMALL I FADER
PRE
SMALL FADER
PRE
JSMALL 1 FADER
HF FILTER 12SHBLBQ 10K+10K LIN + SVITCH
IOOK LIN
GROUP TRIM CLOCKVISE INDENT 12RJELBP 22K LOG 100K LIN + SVITCH 1 x CAP - 1OMM LINE RED MAGENTA 34210FF2 READY GROUP SQ SP LATCH 33DMK11C
HF FREQUENCY 12TKHLBX RECORD 3x47K A LOG 100K LIN (G eq) RECT SP MOM 12SKHLBX 33DND11C 2x47K A LOG 100K LIN ( E eq)
HMF FREQUENCY 12SKHLBX 47K + 47K A LOG IOOK LIN
LMF FREQUENCY 12SKHLBX 47K + 47 K A LOG 100K LIN
LF FREQUENCY 12SKHLBX 47K + 47K A LOG 100K LIN 2 x CAPS - 1OMM LINE BLACK 34B10FF0
SMALL FADER FADER SLIDE 65MM 12XGE6BX LOG + LIN 1 x FADER KNOB 12YZ4029
FRONT/BACK PANEL 12SHBLBK 1 OK 1 OK L I N IOOK LIN INDENT KNOB - 1OMM 34B103F8 CAP - 11MM LINE BRIGHT AQUA 34611FF6 STEREO PAN AND INDENT 12UHBLBK 4 x 10K LIN + 100K LIN KNOB - 15MM 34B15FF6 CAP - 15MM LINE BRIGHT AQUA 34615FF6 CUT BUTTON SQ SP LATCH 33DMK11C
6116 ENGRAVED HI6HLAND SCREENS
READY TAPE - 66E71101 READY GROUP - 66E71102 SOLO - 66E71103 CUT - 66E71104
RG 7 36 37 Supercue from Tape RG 8 35 43 Supercue from Group RG 9 34 39 Supercue from Tape + Group
RG10 42 31 Meter to Tape RG11 41 32 Meter to Group RG12 41 33 Meter to VCA l e v e l
RG13 26 46 Small fader o/p to Quad Bus RC13 - 36 VCA fader o/p to M u l t i t r a c k
r o u t i n g
RG14 25 48 VCA fader o/p to Quad Bus RC14 - 37 Small fader o/p to M u l t i t r a c k
r o u t i n g
RG15 44 28 Monitor to Small fader RV15 - 6 Channel to VCA
RG16 43 29 Channel to Small fader RV16 — 12 Monitor to VCA
A l i r e lays are formed fom n-channel J112 FET's. Truth Tables and expanations f o r the various f u n c t i o n s can be found i n the d e s c r i p t i o n of the 82E293 Channel Logic Board. The l o g i c convention i s shown below:
Quad Bus LF Ov Quad Bus LB Ov Quad Bus RF Ov Quad Bus RB Ov Mix Amp i / p Mix Amp i / p Mix Bus 1 Ov Mix Bus 2 Ov Mix Bus 3 Ov Mix Bus 4 Ov Mix Bus 5 Ov Mix Bus 6 Ov Mix Bus 7 Ov Mix Bus 8 Ov Mix Bus 9 Ov Mix Bus Ov Mix Bus Ov Mix Bus Ov Mix Bus Ov Mix Bus Ov Mix Bus Keyway Mix Bus Ov Mix Bus Ov Mix Bus Ov Mix Bus Ov Mix Bus Ov Mix Bus
10
11
12
13
14
15
16
17
18
19
20
21
A l i mix s i g n a l s are from 15K r e s i s t o r packs.
82E294 82E294
T0611G.50 1 of 2
1-4
611G LOWER BUS CARD EDGE CONNECTOR
No De s c r i p t i o n Connector Pin No Notes
52 Ov 53 Mix Bus 22 54 Ov 55 Mix Bus 23 56 Ov 57 Mix Bus 24 58 Ov 59 Mix Bus 25 60 Ov 61 Mix Bus 26 62 Ov 63 Mix Bus 27 64 Ov 65 Mix Bus 28 66 Ov 67 Mix Bus 29 68 Ov 69 Mix Bus 30 70 Ov 71 Mix Bus 31 72 Ov 73 Mix Bus 32 74 + 5v to VCA Fader 82E13 35 75 Channel Fader Wiper 82E13 25 76 VCA Thumbwheel Svitch o/p 82E13 21 77 Ov to VCA Fader 82E13 33 78 Mix Ov 79 T o t a l Recall B i t 0 LBS S21E 1 80 T o t a l Recall B i t 1 S21E 2 81 T o t a l Recall B i t 2 S21E 3 82 T o t a l Recall B i t 3 S21E 4 83 T o t a l Recall B i t 4 S21E 5 84 T o t a l Recall B i t 5 S21E 6 85 T o t a l Recall B i t 6 MSB S21E 7 86 T o t a l Recall MPX Enable S21E 8 87 T o t a l Recall Address Enable S21E 9 88 T o t a l R e c a l l Spare Bus S21E 10
T0611G.50 2 of 2
1-5
611G UPPER BUS CARD EDGE CONNECTOR
No De s c r i p t i o n Connector Pin No Notes
1 Mic input - 82E291 7 Via RF f i l t e r on 2 Mic in p u t + 82E291 8 motherboard. 3 Ov 4 I n s e r t send - On v i a R25. 5 I n s e r t send + I n s e r t Pre Switch. 6 NP 7 I n s e r t r e t u r n - 82E291 29 Via I n s e r t I n 8 I n s e r t r e t u r n + 82E291 32 Switch. 9 NC 10 Line input + 82E291 57 11 Line input - 82E291 55 12 Group monitor input - 82E294 18 13 Group output - 82E294 11 14 Group output + 82E294 16 15 Group monitor input + 82E294 19 16 Tape monitor - 82E294 21 17 Tape monitor + 82E294 22 18 NP 19 Meter output 82E294 30 20 Meter VCA LED 82E293 21 21 Meter Tape LED 82E293 20 22 Meter Group LED 82E293 19 23 Meter Record LED 82E293 18 24 Record contact d Sense Common 82E293 5 25 Record contact a Relay Contact 82E293 17 26 Record contact b Relay Common 82E293 16 27 Record contact c Sense input 82E293 15 28 Computer send 82E13 17 or S21E p20. TR 29 Computer r e t u r n 82E13 20 or S21E p l 6 . only 30 NP 31 Dynamics Link send From Link Svitch 32 Dynamics Link r e t u r n 82E10 8 33 NC 34 + 48v 35 + 48v 36 NP 37 + 18v 38 + 18v 39 + 18v 40 KEYVAY 41 + l i v 42 + l i v 43 NC 44 Ov 45 Ov 46 Ov 47 NC 48 - 18v 49 - 18v 50 - 18v 51 Spare Pad
T0611G.51 1 of 2
1-6
611G UPPER BUS CARD EDGE CONNECTOR
No De s c r i p t i o n Connector Pin No Notes
52 Master i / p f l i p (broadcast) 82E293 71 53 Spare to Logic Board 82E293 70 54 Master Ready Group bus 82E293 53 55 VCA t r i m 82E13 18 Via Motherboard Link 56 Slate s i g n a l bus 82E294 12 57 VCA to Monitor bus 82E293 11 58 Slate c o n t r o l bus 82E293 10 59 VCA Fader Solo Cut Bus 82E293 9 60 Status Mix bus 82E293 8 61 Small Fader Solo Cut Bus 82E293 7 62 Machine Record bus 82E293 4 63 Status Record bus 82E293 3 64 Solo Disable bus 82E293 2 65 VCA to Meter bus 82E293 1 66 Spare to Pad 67 Cue 4 Mix bus A l i mix buses fed from 68 Cue 3 Mix bus 15K r e s i s t o r packs 69 Ov Mix Bus Ov 70 Cue 2 Mix bus 71 Ov f? !! It
72 Cue 1 Mix bus 73 Ov I! ff f!
74 St Cue L Mix bus 75 St Cue R Mix bus 76 Ov f! ff ff
S t o n e s f i e l d • O x f o r d • E n g l a n d
MY M I 1 M r
F R O M G R O U P AMP 82E11 T7 PAA
M P X
A L L C O M P O N E N T S M O U N T E D
ON 611E M O T H E R C A R D S .
5 K O P R E S E T
R13
3 K O
10K 15K L I U N
1 L I
W
TO S T E R E O C U E
Rev. I s s u e Chk'd
C o p y r i u t - i ^ S S L AH r i g h t s r e s e r v e d . T h i s d o c u m e n t m a y n o t b e r e p r o d u c e d in a n y f o r m vvithout t h e vvr i t ten p e r m i s s i o n of S S L
2 /86
A / 8 6 T . H .
D e t a i l s
R E N U M B E R E D
REDRAVVN.
T i t , e Q U A D P A N N I N G
T V - T R M O D U L E
D r g ' N a T 0 6 1 1 E - 7 A
S o l i d S t a t e L o g i c
S t o n e s f i e l d • O x f o r d • E n g l a n d
S t o n e s f t e l d • O x f o r d • E n g l a n d
MY 151114 O
82E291 - CHANNEL AMPLIFIER EDGE CONNECTOR
From: 82E291
To: 611G/V/E Mother Board
No| D e s c r i p t i o n No D e s c r i p t i o n
1 | NP 34 RC13 Input from VCA o/p (82E13 p24) 2 j +48v 35 NP 3 j NP 36 RC13 Control. VCA to r o u t i n g 4 | NP 37 RC14 C o n t r o l . SF to r o u t i n g 5 | NP 38 NP 6 | SW1 48V ON 39 IC 10 Output to r o u t i n g pan pot 7 j Mic Input - 40 Keyway 8 | Mic Input + 41 RC14 Input from SF o/p (82E294 p47) 9 j SW1 Ov - 48v Svitch 42 NP
10 | NP 43 NP 11 j NP 44 NP 12 | Ov 45 IC 11 In p u t . Odd Routing Bu f f e r 13 Ov 46 NP 14 -18v 47 NP 15 +18v 48 NP 16 IC 8 Input - ) From Phase 49 I C l l Output to odd r o u t i n g switches 17 IC 8 Input + ) switch 50 NP 18 RC4 C o n t r o l . Input Mute 51 IC 12 In p u t . Even Routing b u f f e r 19 NP 52 Channel i n t o Meters Send 20 NP 53 IC12 Output to even r o u t i n g switch 21 NP 54 NP 22 NP 55 Line Input 23 Ch Input to phase reverse switch 56 NP 24 RC2 C o n t r o l . Line i / p s e l e c t 57 Line Input 25 RC1 Control. Mic i/ p s e l e c t 58 NP 26 RC3 Signal. Subgroup Input 59 27 RC3 Control. Subgroup i / p s e l e c t 60 28 IC 8 Output to S p l i t switch 61 29 I n s e r t Return - to T5 62 NP 30 NP 31 IC9 Output to EQ s v i t c h i n g (82E312) 32 I n s e r t Return + to T5 33 NP
8 2 E 2 9 2 - P A R A M E T R I C E Q U A L I S E R A N D F I L T E R E D G E C O N N E C T O R
F r o m : 8 2 E 2 9 2
T o : 6 1 1 G / V / E M o t h e r B o a r d
N o D e s c r i p t i o n N o D e s c r i p t i o n
1 H M F x 3 S w i t c h 3 4 N P
2 H M F x 3 S w i t c h
3 H F G a i n p o t A C W 3 5 N P
4 H F G a i n p o t C W 3 6 N P
5 H F G a i n p o t w i p e r 3 7 N P
N P
3 8 L M F d i v i d e b y 3 S w i t c h
6 N P 3 9 L M F d i v i d e b y 3 S w i t c h
7 N P 4 0 L F g a i n p o t A C W
8 K e y w a y 4 1 L F g a i n p o t C W
9
1 0
N P 4 2 F i l t e r I n p u t 9
1 0 N P 4 3 E Q O u t p u t
1 1 H M F G a i n p o t A C W 4 4 H F F i l t e r p o t A C W a
1 2 H M F G a i n p o t C W 4 5 H F F i l t e r p o t A C W b
1 3 H M F G a i n p o t w i p e r H F F i l t e r p o t w i p e r a
1 4
H M F F r e q . p o t C W a 4 6 H F F i l t e r p o t w i p e r b
1 4 H M F F r e q . p o t w i p e r a 4 7 F i l t e r O u t p u t
1 5 H M F F r e q . p o t w i p e r b 4 8 E Q I n p u t
1 6 H M F F r e q . p o t C W b 4 9 O v
1 7 H M F Q p o t w i p e r a 5 0 O v
1 8 H M F Q p o t C W a 5 1 N P
1 9 H M F Q p o t A C W a 5 2 - 1 8 v
2 0 H M F Q p o t A C W b 5 3 + 1 8 v
2 1 H M F Q p o t w i p e r b 5 4 L F F i l t e r p o t C W a
2 2 L M F g a i n p o t A C W 5 5 L F F i l t e r p o t C W b
2 3 L M F g a i n p o t C W 5 6 L F F i l t e r p o t w i p e r a
2 4 L M F g a i n p o t w i p e r
L M F F r e q . p o t C W a
L F F i l t e r p o t w i p e r a
2 5 L M F F r e q . p o t w i p e r a
2 6 L M F F r e q . p o t w i p e r b
2 7 L M F F r e q . p o t C W b
2 8 L M F Q p o t w i p e r a
2 9 L M F Q p o t C W a
3 0 L M F Q p o t A C W a
3 1 L M F Q p o t A C W b
3 2 L M F Q p o t w i p e r b
3 3 L F g a i n p o t w i p e r
T 8 2 E 2 9 4 . 5 0
J e e 1 9 8 7
1-21
. 48
C4 • 100U 2SV
I
R3 IOOK
X)\
R7 IOKO
R9 5K11
Xv
•18V R18 IOKO
R8 10R R17 IOKO
A SMI 47K l 1 ^ F l
n -
>
C5 22N
H H
H H R i i 2K4
SMi
CB 22N
H r - H r - r l -18V C27 C29 4N7 4N7
47K A/LQG TRIPLE
R14 5K1
HF F
6 SMi
A OV
[ E U
22K LIN CT 4K7
/ov ,1E
53 Rl 10R
« , 1 1 1 1 1
—l-"o"X"a"3""a l o i 10U 3SV
35V T I | l ra / ON
( Ä — ] M l i R2 10R
• O EQ OUT RG3 iOR
LOW PASS FILTER
OV
NOT FITTED
NOTES RLi-2 - 3SCF21A3. M 1-2 - S WAY MOLEX
' CONNECTORS. RESISTORS MARKED THUS i -» i 0.5X TOLERANCE
:zx:
REV ISSUEJ DATE
COPYRIGHT C SSL ALL RIGHTS REScRVED. THIS DXLrOn" KAY NOT BE REPROTJUCED
IN ANY FTJRM UITKUT THE WRITTEN PERMISSION OF SOLID STATE LOGIC.
A
B
B
A
B
A
B
A
A
TITLE
BC 1G JUNE 87 BC 09 OCT 87
AM 19 OCT 87
21 MAR 88
DG 21 JUN 88 24 MAY 89 24 MAY 89 24 MAY 89
20 FEB 90
20 FEB 90
20 MAR 90
DETAILS
NEW DRAWING EL
ALL IC S (ICi-WERE Ti-14.
14) EL
DRAWING RETITLED WAS '611E/V WIDE RANGE EQUALISER FILTERS'. EL
ECO 4K/337 C37 22P C38 C39 10OP ADDED 3L STEFF 4K7 TO 0V ADDED TO HF + i. LF t 22K LIN POTS MM
ECO 4K/401 CANCELLED STEFF
CW AMENDED ON HF F STEFF
ECO 4K/404 C42 33P ADDED
STEFF
D2 D3 POSITION AMENDED
BC
STEFF
ECO 4K/515 BC C20i26 WERE 0U47 NOW 10ON STEFF
ECO 4K/S37 NO CHANGE
BC
STEFF
SHEET 1 OF 1
REF« T82292.71
GiiE/V/G WIDE RANGE
EQUALISER FILTERS
DRG.NO. T82292.71
Solid State Logic
1-22
82E242 - PARAMETRIC EQUALISER AND FILTER EDGE CONNECTOR
F r o m : 8 2 E 2 4 2
T o : 6 1 1 G M o t h e r B o a r d
No Description No Description
1 H F S h e l f / B e l l S w i t c h 3 4 L F F r e q . p o t v v i p e r a
2 H F S h e l f / B e l l S v v i t c h L F S h e l f / B e l l S w 4
3 H F G a i n p o t A C W 3 5 L F F r e q . p o t C W b
4 H F G a i n p o t C W 3 6 L F F r e q p o t v v i p e r b
5 H F G a i n p o t w i p e r 3 7 L F S h e l f / B e l l S w 4
H F F r e q . p o t C W a 3 8 L F S h e l f / B e l l S w 3
6 H F F r e q . p o t C W b 3 9 L F S h e l f / B e l l S w 3
7 S p a r e 4 0 L F g a i n p o t A C W
8 K e y w a y 4 1 L F g a i n p o t C W
9 H F F r e q p o t w i p e r a 4 2 F i l t e r I n p u t
1 0 H F F r e q p o t w i p e r b 4 3 E Q O u t p u t
1 1 H M F G a i n p o t A C W 4 4 H F F i l t e r p o t A C W a
1 2 H M F G a i n p o t C W 4 5 H F F i l t e r p o t A C V V b
1 3 H M F G a i n p o t w i p e r H F F i l t e r p o t v v i p e r a
H M F F r e q p o t C W a 4 6 H F F i l t e r p o t v v i p e r b
1 4 H M F F r e q p o t w i p e r a 4 7 F i l t e r O u t p u t
1 5 H M F F r e q p o t w i p e r b 4 8 E Q I n p u t
1 6 H M F F r e q p o t C W b 4 9 O v
1 7 H M F Q p o t w i p e r a 5 0 O v
1 8 H M F Q p o t C W a 5 1 S p a r e
1 9 H M F Q p o t A C W a 5 2 - 1 8 v
2 0 H M F Q p o t A C W b 5 3 + 1 8 v
2 1 H M F Q p o t v v i p e r b 5 4 L F F i l t e r p o t C W a
2 2 L M F g a i n p o t A C W 5 5 L F F i l t e r p o t C W b
2 3 L M F g a i n p o t C W 5 6 L F F i l t e r p o t v v i p e r a
2 4 I M F g a i n p o t v v i p e r
L M F F r e q p o t C W a
2 5 L M F F r e q p o t v v i p e r a
2 6 L M F F r e q p o t w i p e r b
2 7 L M F F r e q p o t C W b
2 8 L M F Q p o t v v i p e r a
2 9 L M F Q p o t C W a
3 0 L M F Q p o t A C W a
3 1 L M F Q p o t A C W b
3 2 L M F Q p o t v v i p e r b
3 3 g a i n p o t v v i p e r
— L F F r e q p o t C W a
T 8 2 0 0 2 . 5 0
22A
t o I i t , / V /
82E10 - DYNAMICS SBCTION EDGE OONNECTOR
From: Dynamics CF82E10
To: 611E/V Mother Board
No | D e s c r i p t i o n ]No j D e s c r i p t i o n
1 Ov 34 Expand/Gate Svvitch pole 2 Ov 35 Expand/Gate Svvitch gate vviper 3 NP 36 NP 4 -18v 37 NP 5 NP 38 NP 6 +18v 39 NP 7 NP 40 NP 8 Dynamics Return Link 41 NP 9 Compress Ratio pot vviper b 42 NP
10 Ccmpress Ratio pot vviper a 43 NP 11 Ccmpress Ratio pot CW a 44 Expand f a s t attack svvitch pole 12 NP 45 Linked t o 44 on motherboard 13 NP 46 Spare 14 NP 47 Expand Release pot ACW 15 Ccmpress threshold pot vviper a 48 Expand f a s t a t t a c k svvitch vviper 16 Ccmpress threshold pot CW a 49 NP 17 Ccmpress threshold pot vviper b 50 Expand LED 20 dB
Ccmpress r a t i o pot CW b 51 Ccmpress LED 2OdB T I Spare 52 Expand LED 14dB 19 Ccmpress f a s t a t t a c k svvitch pole 53 Compress LED 14dB 20 Ccmpress release pot ACW 54 Expand LED lOdB 21 Compress f a s t a t t a c k svvitch vviper 55 Ccmpress LED lOdB 22 Linked t o 21 on motherboard 56 Expand LED 6dB 23 -5v 57 Ccmpress LED 6dB 24 NP 58 Expand LED 3dB 25 Side chain input 59 Ccmpress LED 3dB 26 Keyvvay 60 Audio Input 27 Expand threshold pot ACW 61 Audio Output 28 Expand threshold pot vviper
Audio Output
29 +5v 30 NP 31 Expand range pot CW 32 Nu 33 Expand/Gate SW
RV15 C o n t r o l . Channel t o VCA NP Monitor s i g n a l i / p NP
NP NP RV16 C o n t r o l . Monitor t o VCA NP
NP
NP
NP
Computer Send VCA t r i m bus i / p . ( Not Used ) VCA t o meter o/p Computer Return Fader VCA subgroup s w i t c h i / p AFL/PFL L i n k o/p ( Not Used ) VCA Cut s i g n a l Post VCA o/p Channel Fader wiper Solo Mute from l o g i c . ( Not Used ) Channel Cut s w i t c h i / p AFL/PFL s i g n a l o/p -18v +18v Key way Ov Ov t o channei fader
Channel o/p overload sense i / p 5v t o channei fader Post EQ overload sense i / p NU Channel i / p overload sense i / p Overload LED d r i v e s i g n a l AFL s w i t c h i / p NP NP NP NP
No | D e s c r i p t i o n No D e s c r i p t i o n
1 | Ov 34 RG4 Control. Monitor Tape 2 | Ov 35 RG5 Control. Monitor Group 3 | Group mix amp Input 36 RG6 Control. Monitor Tape + Group 4 | Channel i n t o Meters Input 37 RG7 Control. Supercue Tape 5 | -18v 38 Small Fader b u f f e r Input 6 | +18v 39 RG9 Control. Supercue Tape + Group 7 1 Group t r i m pot ACW 40 RG3 Control. Monitor Mute 8 | Group Trim Pot Wiper 41 Small Fader b u f f e r Output 9 | Group mix amp Input + 42 Monitor s e l e c t b u f f e r Output
10 j RG1 Cont r o l . Slate to o/p amp 43 RG8 Control. Supercue Group 11 | Group Output amp - 44 Quad Bus r o u t i n g b u f f e r Output 12 j RG1 Inp u t . Slate Signal 45 RG14 Signal from VCA o/p(82E13 p24) 13 RG2 Inp u t . D i r e c t switch Output 46 RG13 Control. Small Fader to QB 14 RG2 Control. Signal to o/p amp 47 RG13 Signal from SF CUT switch 15 Group mix amp o/p to D i r e c t Switch 48 RG14 Control. VCA Fader to QB. 16 Group Output amp + 49 Ov 17 Pre Small Fader output 50 D i r e c t s i g n a l Output to d i r e c t sw. 18 Group Monitor Input - 51 19 Group Monitor Input + 52 20 Pre VCA fader Output 53 21 Tape Monitor Input - 54 22 Tape Monitor Input + 55 23 VCA to meter s i g n a l (82E13 p l 9 ) 56 24 Monitor s i g n a l Input 57 25 Channel s i g n a l Input 58 26 Mon/Chan s i g n a l Output to Small Fdr 59 27 Keyway 60 28 RG15 C o n t r o l . Monitor to Small Fdr 61 29 RG16 C o n t r o l . Channel to Small Fdr 62 30 Meter s i g n a l Output 63 31 RG10 C o n t r o l . Meter tape 64 32 RG11 C o n t r o l . Meter Group 65 33 RG12 C o n t r o l . Meter VCA l e v e l 66
T82294.50
1-27
GROUP O 2
R5S 10M
TAPE O CHANNELO-INPUT
31
R57 19K1
GROUP l_| MONITOR
+ (
CG 2U2
HH 5K53
IH C7 2U2
R9 9KS3
C8 • 22P
Rll 12K1
CIO 2U2
R14
v2i TAPE hONITOR
I M
cn 2U2
C12 1
22P 1
R15 9K53
R17 12K1
NOTEi RESISTORS MARKED THUS • ARE O.SV. TOLERANCE »» ARE 0.1% TOLERANCE
-O TO 'DIRECT'
C2B 22PF
RSO 1KS4
RS2 10K
/ o o v
FROM ry S F ^
38
»C14 10U 3SV
CDPYRIGKr C SSL ALL RIGHTS RESERVED. THIS DOCUMENT MAY NOT BE REPRODUCED
IN ANY FDRM UITKJUT TV€ URITTEN PER1ISSI0N OF SOLID STATE LfXIC.
REV iISSUQ
-O +VE
-O -VE
E 3 VERSION
DATE
A
12 FEB 92
DETAILS BC
NEW DRAUING
SHEET 1 OF 1
REFiTB2294 .7l3U\2
TITLE Gil GROUP AMPLIFIERS
DRG.NO. T82294.71.3
Solid State Logic
V2B
LOGIC CARD RELAY AND LAMP DRIVER OUTPUT SIGNALS
Output Dr i v e r Function Relay Dr i ver type
Edge Pin
TR Rbase R-18v Rout Cap LED R
Ready Tape Lamp 1/2 - C 51 6 RP1-3 _ R8 _
Ready Tape Lamp f u l l - C 51 5 RP1-4 - R7 - -
Ready Group Lamp 1/2 - C 52 8 RP1-1 RIO _
Ready Group lamp f u l l - C 52 7 RP1-2 - R9 - -
Record Lamp 1/2 - 50 4 RP1-5 R6 RP5-7 Record Lamp f u i 1 - 1 c
Input Select Mic RC 1 B 29 24 RP4-7 RP9-6 _ 16 RP5-1 Input Select Line RC 2 B 30 23 RP4-8 RP9-7 - 15 RP5-2 Input Select SubGroup RC 3 A 28 25 RP4-6 RP9-5 - 12 -
Small fader Cut LED - D 55 1 RP1-8 - R3 - -
VCA fader Cut Lamp - E 54 2 RP1-7 - R4 - -
Meter Sele c t i o n T RGIO B- 42 13 RP2-1 RP7-3 _ RP5-5 Meter Sele c t i o n G RG11 B- 41 14 RP2-2 RP7-2 - _ RP5-4 Meter Selection VCA RG12 B- 40 15 RP2-3 RP7-1 - - RP5-3
Small Fader t o Quad Bus RG13 A- 26 27 RP4-4 RP9-3 _ 13 _
VCA Fader t o MT Routing RC13
VCA Fader t o Quad Bus RG14 B- 25 28 RP4-3 RP9-2 18 RP5-6 S. Fader t o MT Routing
Channel t o VCA RV15 A 44 11 RP2-5 RP7-5 3 Monitor t o Small Fader RG15
Channel t o Smal1 Fader RG16 A 43 12 RP2-4 RP7-4 4 —
Monitor to VCA Fader RV16
Group Output Slate RG2 A 45 10 RP2-6 RP7-6 — 2 Group Output Mix RG1 A 46 9 RP2-7 - - 1 -
Record Relay - F - 30 RP4-1 - - - -
1-29:
82E293 switch and l i n k s e l e c t i o n d e t a i l s
Switches
O n O f f
S W 1 3 - w i r e t a p e r e m o t e
( C o n t a c t s B + D l i n k e d )
S W 2 R e c o r d r e a d i e d i n
R e a d y G r o u p o r T a p e
+ d e s k i n R e c o r d s t a t u s
S W 3 R e a d y t a l l y ( R e c o r d
l a m p h a l f b r i g h t ) f r o m
m a c h i n e c o n t a c t s ( C + D )
S W 4 R e c o r d t a l l y ( R e c o r d
l a m p f u l l b r i g h t ) f r o m
m a c h i n e c o n t a c t s ( C + D )
S W 5 S u p e r c u e o n
( p r e - m o n i t o r c u e s e n d
n o t c u t b y m o n i t o r c u t )
S W 6 M o n i t o r l i s t e n s t o
T a p e m o n i t o r i n R e a d y
T a p e
S W 7 R e c o r d L E D f o l l o v v s
f u l l b r i g h t l a m p
( t r a c k r e c o r d )
S W 8 S u b - g r o u p i n V C A t o
c h a n n e i e n a b l e s s o l o
i s o l a t e
4 - w i r e t a p e r e m o t e
R e c o r d r e a d i e d i n
R e a d y G r o u p o r T a p e
R e a d y t a l l y f r o m
r e c o r d s v v i t c h
R e c o r d t a l l y f r o m
m a c h i n e r e c o r d b u s
S u p e r c u e o f f
M o n i t o r f o l l o v v s
R e c o r d s t a t u s i n
R e a d y T a p e
R e c o r d L E D f o l l o v v s
h a l f b r i g h t l a m p
( t r a c k r e a d i e d )
S o l o i s o l a t e f r o m
s v v i t c h o n l y
N o r m a i l y
O f f
O f f
O f f
O f f
O n
O f f
O f f
O f f
L i n k s
L K 1
L K 2
L K 3
L K 4 , 5
L K 6
S I p i n 3 c o n n e c t e d t o m a s t e r i n p u t c u t d e f e a t
E d g e p i n 7 3
E d g e p i n 7 3 c o n n e c t e d t o c h a n n e i i n t o m e t e r s
B r o a d c a s t / i n p u t f l i p s e l e c t
I n p u t s c u t i n c h a n n e i c u t ( r e m o v e v v h e n u s e d v v i t h
82E291 c a r d f i t t e d v v i t h c h a n n e i i n t o m e t e r s o p t i o n )
N o r m a i l y
O p e n
O p e n
F i t t e d
I n p u t
F l i p
O p e n
1-30
82E293 SuperCue, Monitors & Meter Selection
S u p e r C u e : T h i s i s t h e p r e m o n i t o r f a d e r s i g n a l f e e d t o t h e C u e / A u x P R E
s w i t c h e s .
D I L s w i t c h 5 o n t h e c a r d d e t e r m i n e s v h e t h e r p r e m o n i t o r f a d e r
s e n d s a r e c u t b y m o n i t o r c u t o r n o t .
S W 5 O N S u p e r C u e n o t c u t b y m o n i t o r c u t ( N o r m a l s t a t e )
S W 5 O F F S u p e r C u e c u t b y m o n i t o r c u t
T h e f e e d s t o t h e S u p e r C u e , t h e m o n i t o r f a d e r , a n d t h e m e t e r , a r e f r o m
e i t h e r t h e T a p e m o n i t o r i n p u t , t h e G r o u p m o n i t o r i n p u t , o r f r o m a m i x o f
b o t h . W h i c h s o u r c e f e e d s e a c h o f t h e s e d e p e n d s o n t h e s e t t i n g o f t h e
' R e a d y T a p e ' a n d ' R e a d y G r o u p ' s w i t c h e s , t h e d e s k m a s t e r s t a t u s , a n d
v h e t h e r t h e t a p e m a c h i n e i s d r o p p e d i n t o r e c o r d .
I n a d d i t i o n , t h e s o u r c e s e l e c t i o n v h e n ' R e a d y T a p e ' o n l y i s s e l e c t e d
d e p e n d s o n t h e s e t t i n g o f D I L s v i t c h 6 o n t h e c a r d .
T h e t a b l e s b e l o v d e f i n e t h e s e s e l e c t i o n s f o r t h e t v o s e t t i n g s o f s v i t c h 6 .
S v i t c h 6 O f f
S u p e r C u e S i g n a l M o n i t o r S i g n a l M e t e r
D r o p p e d i n ? N o Y e s N o Y e s
M e t e r
R e a d y G & T o f f T a p e | N / A T a p e | N / A T a p e
R e c o r d
o r M i x
S t a t u s
R e a d y T a p e G + T | G r o u p T a p e | G r o u p T a p e
R e c o r d
o r M i x
S t a t u s
R e a d y G r o u p G r o u p | G r o u p G r o u p | G r o u p G r o u p
R e c o r d
o r M i x
S t a t u s
R e a d y G & T G + T | G r o u p G + T | G r o u p G r o u p
R e c o r d
o r M i x
S t a t u s
R e p l a y S t a t u s T a p e | N / A T a p e | N / A T a p e
c o n t d
1-31
S v i t c h 6 on
I
S u p e r C u e S i g n a l M o n i t o r S i g n a l M e t e r
D r o p p e d i n ? N o Y e s N o Y e s
M e t e r
R e a d y G & T o f f T a p e | N / A T a p e | N / A T a p e
R e c o r d
o r M i x
S t a t u s
R e a d y T a p e T a p e | T a p e T a p e | T a p e T a p e
R e c o r d
o r M i x
S t a t u s
R e a d y G r o u p G r o u p | G r o u p G r o u p | G r o u p G r o u p
R e c o r d
o r M i x
S t a t u s
R e a d y G & T G + T G r o u p G + T G r o u p G r o u p
R e c o r d
o r M i x
S t a t u s
R e p l a y S t a t u s T a p e | N / A T a p e | N / A T a p e
1-32
Master Status Bus LogpLc Inputs
RECORD Active high in Console Record Status.
Active high in Console Mix Status.
MASTER READY GROUP Option to switch ali channels to RG on a master hasis.
VCA TO MONITOR Active high with VCA to MON AND (RECORD OR REPLAY)(NOT MIX) Status selected.
MACHINE RECORD BUS Active high when Master Machine i s in Transport Record or Drop in Rehearsal i s operating.
MASTER INPUT FLIP AcrtLve high when selected on 651. I f configured for (BROADCAST) BROADCAST MODE by changing links on the 82E12s and the 82E21: RECORD AND BROADCAST = MIX AND MASTER INPUT FLIP
SLATE
SOLO D3SABLE BUS
Active high when OMNI or TONE TO GROUPS operated.
AcrtLve high when AFL status i s selected.
VCA FADER SOLO BUS Active high when any channei VCA solo i s operated.
SMALL FADER SOLO BUS Active high when any Small fader solo i s operated.
VCA TO METERS AcrtLve high when function selected on 651.
Channel Status Logic Inputs
READY TAPE
READY GROUP
RECORD
FLIP
FLOAT
SUBGROUP
SMALL FADER SOLO
SMALL FADER CUT
VCA FADER SOLO
VCA FADER CUT
active High.
Locking Switch Function.
Momentary Svvitch Function.
1-33
Channel Input Selection
RC4 - Channel Input Cut FET. Takes priority over RCl, RC2 and RC3. RC3 - Sub Group Input FET. Takes priority over RCl and RC2.
RC2 - Line Input FET~| EXCLUSIVE OR function. RCl - Mic Input FET _|
RC2 i s active when MODULE MIX i s high | Except when the Flip RCl i s aotive when MODULE MIX i s low switch i s operated.
1-34;
82E293 - LOGIC CARD EDGE CONNECTOR
From: 82E293
To: 611G/V/E Mother Board
No De s c r i p t i o n No De s c r i p t i o n
1 VCAs to Meters Bus 37 RG6 Control o/p 2 Solo Disable Bus 38 RG5 Control o/p 3 Status Record Bus 39 RG4 Control o/p 4 Machine Record Bus 40 RG12 Control o/p 5 Record contact D. Sense common 41 RG11 Control o/p 6 VCA Fader Cut from 82E13 p23 42 RG10 Control o/p 7 Small Fader Solo Cut Bus 43 RG16, RV16 Control o/p 8 Status Mix Bus 44 RG15, RV15 Control o/p 9 VCA Fader Solo Cut Bus 45 RG2 Control o/p 10 Slate Control Bus 46 RG1 Control o/p 11 VCA to Monitor Bus 47 NP 12 + l l v 48 NP 13 +18v 49 NP 14 Sub-Group s v i t c h input 50 Record Lamp 15 Record Contact C. Sense input 51 Ready Tape Lamp 16 Record Contact B. Relay Common 52 Ready Group Lamp 17 Record Contact A. Relay Contact 53 Master Ready Group Bus 18 Record LED 54 VCA Cut Lamp 19 Group LED 55 SF Cut LED 20 Tape LED 56 SF Cut Svitch 21 VCA to Meter LED 57 SF Solo Svitch 22 Key Way 58 Ready Group Svitch 23 Solo Mute to Computer (Not Used) 59 Ready Tape Svitch 24 -18v 60 Record Svitch 25 RC14, RG14 Control o/p 61 VCA Solo Svitch 26 RC13, RG13 Control o/p 62 Small Fader Routing LED 27 RC4 Control o/p 63 NP 28 RC3 Control o/p 64 NP 29 RCl Cont r o l o/p 65 NP 30 RC2 Control o/p 66 F l i p S vitch 31 Mic LED 67 NP 32 Line LED 68 Float Svitch 33 RG3 Control o/p 69 Float Svitch 34 RG9 Control o/p 70 Spare to 611 Edge connector U53 35 RG8 Contro l o/p 71 Master input f l i p bus (broadcast) 36 RG7 Control o/p
T82293.50 Dec 87
1-35!'
SMALL FADER
SUITCH
CUT I BUS
57 L SOLO H SWITCH
+18V
+ 1 1 V 1SK R27 1SK
- i _ R12 T DS
• 11V 1M0 ^ 1N4001
RPS 1SK
IC1S-D 40B3JB
D4 15
+ 11V
[ N C F ]
SUB GROUP '
14
• 11V R2S 15K
VCA FADER
COMPUTER CUT
Gl SOLO mm
SWITCH
R1B 15K
•11V 3 ,
1 RPKT 5K • 11V
l — CUT
BUS
FLIP SUITCH
—^— ^ R l l + 11V 1M0
3
7
— R P G • 11V 15K
3 "
SLATE BUS
10
IC1B-AU3 13 4011B ^ - o 0 F F r >
ICS-F r ° ON ' 40B9UB ^
+ 1BV
|14
R38 15K
• 11V
07 O - l p l 5 J 4 0 7 1 B / -
S l 1 ^ 7
R33 +4<v 15K 1 1 V
D2
D3 1N4001 R2B
15K
+ 1BV
A4 D4
B4 A3
D3 B3 IC10
A2 4019B
D2 B2
AI
Bl < m S 5
Di
IB •11V
14
NCF |
• 11V
MODULE MIX \ IC14-AV >
3
2 M4077B
• 1SV
|14
MASTER IP FLIP
UC14-BVJL 5 i /4077B
• u v
1N4001 RP4 15K
1 BC212LB
R39 10R
• 1BV
R21 100K
ICB-C 4011B
RP4
10 G 1§[L_ 11
• 1BV
TR25 BC212LB
C12 ON
RP9 BSV 100K
RP1 15K
IC11-BVX6„ 8 4023B
RP4 15K
RP9 -2SV 1 00K T;
X i
C14 ON
TR23 BC212LB
+ 1BV
IT4
RP5 27OR
DB *18V
RP4 1SK
I C l l - c V l O 7 , , 10
R29 15K
zzx:
RG 3 CUT
2 SOLO • i DISABLE
BUS
2B RC 3
GROUP
VCA FADER CUT SWITCH LAMP
INPUT RC 2
LINE LED
RC 1
REV [ISSUE]
RG 2 SLATE
RG 1 MIX
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DOCUMENT MAY NOT BE REPftjOJCEJJ
IN ANY FDRM VITHOuT THE WRITTEN PERMISSION OF SOLID STATE LOGIC.
A
A
A
A
A
A
TITLE
DRG.NO.
DATE
19 OCT 87
21 MAR 8B
21 MAR
20 MAR 90
25 NOV 91
DETAILS
NEW DRAUING STEFF
ECO 4K/317 INTRO PIGGY BACK RES PACK RP3-2 RP4-2 ADDED STEFF
ECO 4K/322 RP3-2 RP4-2 REMOVED.Ci-17 WERE 10ON NOW 10N S T E F F i
ECO 4K/336 BC REVISION LEVEL UPDATED STEFFi
ECO 4K/537 NO CHANGE
BC
STEFFi
ECO 4K/891 BC D3 D5 D10 WERE 1S44 NOW 1N4001 MM
SHEET 2 OF 3
REFi TB2293.72 /\2
SLGil G SERIES LOGIC CARD
T 8 2 2 9 3 . 7 2
Solid State Logic 1-37
73
R24 1SK
VCA TO METERS
FLOAT BOB SWITCH
MASTER NPUT 71
(BROADCAST)
R17 47K
+ 15K 8 l b K g
VCA TO MONITOR
R30 15K
»1SV
R40 1K5 0WS
Dll ' 7V5 •
;xz:
*18V
RG 12
MASTER IP FLIP
INPUT FLIP
)LK2 LK3
BROADCAST
C21 10U H 3SV
8
-1BV
C22 100U 10V
I I
C20 00U OV
V+ CAP+ IC17 ICL7B60
CAP- v0UT a U Z in > (J o _ i
aC23 ' 10U 3SV
3 I 7 I G
+ C24 E 10U
3 S V
FADER 25 RC14 •S RG14 62 • j SF
ROUTING LED OUTPUT
RC 13 RG 13
RV 15 RG 15
RV 1G RG 16
R41 2K2
KTR31 -25V l BC212LB
+ 18V
• C28 •10N
• C29 110N
• C30 ' 10N
—-C31 - L c 3 2 -mC33 mlm C34 ' 10N T^ION
-C34 ' 10N ~ 1 0 N n
• C35 ' 10N
I I I I mLmC37 -L.C38 mlmC33 mlm
1 10N
• C36 •10N "T"10N "T-10N
• C40 ' 10N
ICIB - C V J : 0 1 1
4011B
13 IC18-D 4011B
IC15-E C4572B
12
+ 1 1 V
SPARE DEVICES
_8\
_9_
+ 11V
IC14-CVviO 4077B
I Z X I
COPYRIGHT C SSL ALL RIGHTS RESERVED.
THIS Dcamr MAY NOT BE REPRXUCED IN ANY FORM UITHOUT TFE WRITTEN PERMISSION
OF SOLID STATE LOGIC.
i
REVLESSUE]
4
A
A
A
A
A
A
DATE
19 OCT 87
21 MAR
21 MAR 8B
20 MAR 90
25 NOV 91
DETAILS
NEW DRAUING STEFF
ECO 4K/317 REVISION LEVEL UPDATED STEFF
ECO 4K/322 C1-C17 WER£ 100N NOW 10N STEFF
ECO 4K/336 BC REVISION LEVEL UPDATED STEFFi
ECO 4K/537 NO CHANGE
BC
STEFFi
ECO 4K/B91 NO CHANGE
BC
MM
S H E E T 3 OF 3
REF» T82293.73 /\2
TITLE SLG11 G SERIES LOGIC CARD
DRG.NO. T82293.73
Solid State Logic
1-38
1 - 3 8 b
The 82E03 AE M u l t i p l e x Card
C i r c u i t D e s c r i p t i o n :
The 82E03 M u l t i p l e x card i s mounted piggy-back onto the 82E293 Logic card. The 82E03 has two sections; the analogue m u l t i p l e x e r f o r 119 outputs and a small s e c t i o n of l o g i c to c o n t r o l the computer sends and re t u r n s .
The m u l t i p l e x s e c t i o n comprises two l e v e l s of one out of eight m u l t i p l e x e r s . The f i r s t l e v e l has two 4051 1 of 8 M u l t i p l e x e r s , the choice of which i s the f i r s t b i t of the address applied to the i n h i b i t i n p u t s , and b i t s 1,2 and 3 of the address bus. The second l e v e l M u l t i p l e x e r s accept a l i the inputs from the module and feed the f i r s t l e v e l , the choice being made by b i t s 4,5 and 6 of the address bus. The i n h i b i t inputs of a l i the second l e v e l m u l t i p l e x e r s are t i e d together and become a master i n h i b i t .
The next stage a f t e r the m u l t i p l e x e r i s a TL084 quad op-amp configured to remove the +11 v o i t o f f s e t , the dc variance of the +18 v o i t r a i l and reduce the l e v e l to a +5 v o i t maximum before feeding v i a a 4016B 1 of 4 data s e l e c t o r to the computer's Analogue input card, 82E41. (NB: This 4016B i s powered between +5 v o i t and 0 v o i t , a l i other l o g i c on t h i s card i s povered between +18 v o i t and +11 v o i t ) .
The normal mode of the console connects the computer send and r e t u r n to the VCA card, 82E13. I n the T o t a l Recall mode the send and r e t u r n to the VCA card are connected together, hence the fader i s d i r e c t l y c o n t r o l i n g the VCA, and the m u l t i p l e x output i s fed to the computer send and the Analogue input card, 82E41.
The s t o r i n g of the T o t a l Recall setup i s accomplished i n two d i f f e r e n t ways. I n normal mode the M u l t i p l e x e r Enable bus i s taken high. I f "quiet T o t a l Recall 1' i s selected on your program disk, the Address bus c a r r i e s the address of the channei and an Address Enable pulse sets a D type l a t c h to enable that channei's m u l t i p l e x e r feed to go the computer. When f i n i s h e d the l a t c h i s reset i n the same way as i t was set. The l a t c h cannot be set i f the Mux Enable l i n e i s high, and i f the l a t c h i s set and then the Mux Enable goes high the l a t c h i s cleared. The address decoding i s an AND f u n c t i o n w i t h preset switches g i v i n g a true or inverse o p t i o n f o r each b i t of the address, thereby a l l o w i n g any address number to be set.
The output of the l a t c h or the Mux Enable driv e s the i n h i b i t l i n e of the m u l t i p l e x block and the s v i t c h i n g of the analogue gate to a f f e c t the r o u t i n g of the analogue send and r e t u r n . The l o g i c l e v e l s are +18 v o l t s and +11 v o l t s ; the d r i v e r stage, part of T24, i s an op-amp to reduce these to +5 v o l t s and 0 v o l t s , i t also i n v e r t s the s i g n a l .
Line 0 of the m u l t i p l e x e r i s connected to +18 v o l t s v i a a p o t e n t i a l d i v i d e r (the 200K to 0 v o i t and the on resi s t a n c e of the gates and the series r e s i s t o r ) . This i s to enable the computer to measure the +18 v o i t r a i l w i t h reference to the +11 v o i t power supply: a l i other dc v a r i a t i o n s are allowed f o r i n the c i r c u i t of the TL084.
T82003.40 Dec 87
1-39
82E03 Channel Address Smtches
SW 1
M 5 4 3
82E03
SW 2
2 1 L X
Svvitch| Address B i t
SW2 4 SW2 3 SW2 2 SW2 1
swi 4 SW1 3 SW1 2 SW1 1
don't care AO LSB AI A^
A3 A4 A5 A6 MSB
611E/V M u l t i p l e x addressses
Channel SW 1 sw 2 CA number M 5 4 3 2 1 L X D bus
01 0 0 0 0 1 1 1 X 07 02 0 0 0 1 0 1 0 X OA 03 0 0 0 0 1 1 0 X 06 04 0 0 0 1 0 1 1 X OB 05 0 0 0 0 1 0 1 X 05 06 0 0 0 1 0 0 0 X 08 07 0 0 0 0 1 0 0 X 04 08 0 0 0 1 0 0 1 X 09 09 0 0 0 0 0 1 1 X 03 10 0 0 0 1 1 1 0 X OE 11 0 0 0 0 0 0 1 X 01 12 0 0 0 1 1 1 1 X OF 13 0 0 0 0 0 1 0 X 02 14 0 0 0 1 1 0 0 X OC 15 0 0 0 0 0 0 0 X 00 16 0 0-0 1 1 0 1 X OD 17 0 0 1 0 1 1 1 X 17 18 0 0 1 1 0 1 0 X IA 19 0 0 1 0 1 1 0 X 16 20 0 0 1 1 0 1 1 X IB 21 0 0 1 0 1 0 1 X 15 22 0 0 1 1 0 0 0 X 18 23 0 0 1 0 1 0 0 X 14 24 0 0 1 1 0 0 1 X 19 25 0 0 1 0 0 1 1 X 13 26 0 0 1 1 1 1 0 X IE 27 0 0 1 0 0 0 1 X 11 28 0 0 1 1 1 1 1 X IF 29 0 0 1 0 0 1 0 X 12 30 0 0 1 1 1 0 0 X IC 31 0 0 1 0 0 0 0 X 10 32 0 0 1 1 1 0 1 X ID
Channel sw 1 sw 2 CA number M 5 4 3 2 1 L X D bus
33 0 1 0 0 1 1 1 X 27 34 0 1 0 1 0 1 0 X 2A 35 0 1 0 0 1 1 0 X 26 36 0 1 0 1 0 1 1 X 2B 37 0 1 0 0 1 0 1 X 25 38 0 1 0 1 0 0 0 X : 28 39 0 1 0 0 1 0 0 X 24 40 0 1 0 1 0 0 1 X 29 41 0 1 1 0 1 1 1 X 37 42 0 1 1 0 1 1 0 X 36 43 0 1 1 0 1 0 1 X 35 44 0 1 1 0 1 0 0 X 34 45 0 1 1 0 0 1 1 X 33 46 0 1 1 0 0 0 1 X 31 47 0 1 1 0 0 1 0 X 32 48 0 1 1 1 1 X 3F 49 0 1 1 1 1 1 0 X 3E 50 0 1 1 1 1 0 1 X 3D 51 0 1 1 1 1 0 0 X 3C 52 0 1 1 1 0 1 1 X 3B 53 0 1 1 1 0 1 0 X 3A 54 0 1 1 1 0 0 1 X 39 55 0 1 1 1 0 0 0 X 38 56 1 0 0 0 0 0 0 X 40
Spare 1 0 1 0 0 0 1 1 X 23 Spare 2 0 1 0 1 1 1 0 X 2E Spare 3 0 1 0 0 0 0 1 X 21 Spare 4 0 1 0 1 1 1 1 X 2F Spare 5 0 1 0 0 0 1 0 X 22 Spare 6 0 1 0 1 1 0 0 X 2C Spare 7 0 1 0 0 0 0 0 X 20 Spare 8 0 1 0 1 1 0 1 X 2D |
T82003.50 22 Aug 85
1-40
82E03 Channel Address Svätches
61UE/V MjltLplex addressses for Computers w±äi dcuble scanning I/O Systems
1 O O X 0 0 1 0 1 1 1 1 0 0 0 1 1 1 1 0 1 0 1 0 0 0 0 0 1 o 1 1 0 1 1 1 0 1 1 o o o
O X O X
1 0 0 o o 0 1 1 1 0 o 1 1 0 1 1 o 0 o 1 o
X X X X X X X X X X X X X
CA D bus
27 2A 26 2B 25 28 24 29 23 2E 21 2F 22 2C 20 2D 07 OA 06 OB 05 08 04 09 03 OE 01 OF 02 OC 00 OD
T82003.53 / page 1 20 July 1986
1.-41
611E/V Multiplex addressses for corputers with dcuble scanning I/O Systems
Channel number
SW 1 M 5 4 3
SW 2 2 1 L X
CA D bus
65 0 0 1 0 1 1 1 X 17 66 0 0 1 1 0 1 0 X IA 67 0 0 1 0 1 1 0 X 16 68 0 0 1 1 0 1 1 X IB 69 0 0 1 0 1 0 1 X 15 70 0 0 1 1 0 0 0 X 18 71 0 0 1 0 1 0 0 X 14 72 - 0 0 1 1 0 0 1 X 19 73 0 0 1 0 0 1 1 X 13 74 0 0 1 1 1 1 0 X IE 75 0 0 1 0 0 0 1 X 11 76 0 0 1 1 1 1 1 X IF 77 0 0 1 0 0 1 0 X 12 78 0 0 1 1 1 0 0 X IC 79 0 0 1 0 0 0 0 X 10 80 0 0 1 1 1 0 1 X ID 81 0 1 0 0 1 1 1 X 27 82 0 1 0 1 0 1 0 X 2A 83 0 1 0 0 1 1 0 X 26 84 0 1 0 1 0 1 1 X 2B 85 0 1 0 0 1 0 1 X 25 86 0 1 0 1 0 0 0 X 28 87 0 1 0 0 1 0 0 X 24 88 0 1 0 1 0 0 1 X 29
T82003.53 / page 2 20 July 1986
1-42
82E03 - 20 way S c o t c h f l e x M u l t i p l e x e r Input Connector D e t a i l s 611G
Port Address Mux Chip P i n Ribbon Front Panel C o n t r o l No M54321L Code P i n
0 0000000 00 T l 13 na ( I n t e r n a l r e s i s t o r ) 1 1110111 77 T15 4 S68, 2 Routing to Track 1 2 0110111 37 T15 2 S68, 4 Routing to Track 2 3 1010111 57 T15 5 S68, 6 Routing to Track 3 4 0010111 17 T15 1 S68, 8 Routing to Track 4 5 1100111 67 T15 12 S68,10 Routing to Track 5 6 0100111 27 T15 15 S68.12 Routing to Track 6 7 1000111 47 T15 14 S68,14 Routing to Track 7 8 0000111 07 T15 13 S68,16 Routing to Track 8 9 1110011 73 T13 4 S68.18 Routing to Track 9
10 0110011 33 T13 2 S68.20 Routing to Track 10 11 0111101 3D T12 2 S68,19 Routing to Track 11 12 1111101 7D T12 4 S68.17 Routing to Track 12 13 0001011 OB T14 13 S68.15 Routing to Track 13 14 1001011 4B T14 14 S68.13 Routing to Track 14 15 0101011 2B T14 15 S 6 8 . l l Routing to Track 15 16 1101011 6B T14 12 S68, 9 Routing to Track 16 17 1000011 43 T13 14 S69.10 Routing to Track 17 18 0000011 03 T13 13 S69.12 Routing to Track 18 19 1110101 75 T l l 4 S69.14 Routing to Track 19 20 0110101 35 T l l 2 S69.16 Routing to Track 20 21 1010101 55 T l l 5 S69.18 Routing to Track 21 22 0010101 15 T l l 1 S69.20 Routing to Track 22 23 0011001 19 T10 1 S69.19 Routing to Track 23 24 1011001 59 T10 5 S69.17 Routing to Track 24 25 0111001 39 T10 2 S69,15 Routing to Track 25 26 1111001 79 T10 4 S69.13 Routing to Track 26 27 0001101 OD T12 13 S 6 9 . l l Routing to Track 27 28 1001101 4D T12 14 S69, 9 Routing to Track 28 29 0101101 2D T12 15 S69, 7 Routing to Track 29 30 1101101 6D T12 12 S69, 5 Routing to Track 30 31 0011101 ID T12 1 S69, 3 Routing to Track 31 32 1011101 5D T12 5 S69, 1 Routing to Track 32 33 0100011 23 T13 15 S69, 8 Routing to Quad Bus LF 34 1100011 63 T13 12 S69, 6 Routing to Quad Bus RF 35 0010011 13 T13 1 S69, 4 Routing to Quad Bus LB 36 1010011 53 T13 5 S69, 2 Routing to Quad Bus RB 37 0010001 11 T9 1 S70.16 Routing Pan pot 38 0110001 31 T9 2 S70.12 Routing Pan Switch 39 0000101 05 T l l 13 S70, 8 Input F l i p Switch 40 1100001 61 T9 12 S70.18 Line Gain Trim pot 41 1010001 51 T9 5 S70.14 Sub-Group Switch 42 0100001 21 T9 15 S70.20 Phase Switch 43 0101110 2E T8 15 S70.19 Mic Gain Trim pot 44 1111011 7B T14 4 S68, 1 SPARE 45 1110001 71 T9 4 S70.10 Mic +48v 46 1011110 5E T8 5 S70.13 L i n k Switch 47 1101110 6E T8 12 S70.17 Compress R a t i o pot 48 0011110 I E T8 1 S70.15 Compress Threshold pot 49 0111110 3E T8 2 S 7 0 . l l Compress Re l e a s e pot 50 0001001 09 no 13 S70, 7 Compress A t t a c k Switch
T82003.50 1 of 3
Dec 87
1-43
82E03 - 20 way S c o t c h f l e x M u l t i p l e x e r Input Connector D e t a i l s 611G
Port Address Mux Chip P i n Ribbon Front Panel C o n t r o l No M54321L Code P i n
51 1111110 7E T8 4 S70, 9 Expand T h r e s h o l d pot 52 1001001 49 T10 14 S70, 5 Expand Range pot 53 0101001 29 T10 15 S70, 3 Expand/Gate Switch 54 1101001 69 T10 12 S70, 1 Expand R e l e a s e pot 55 1100101 65 T l l 12 S70, 2 Expand A t t a c k Switch 56 0111010 3A T6 2 S71, 7 Dynamics to Channel Input 57 0001110 OE T8 13 S71, 3 Dynamics to Channel Output 58 0000001 01 T9 13 S71, 4 Dynamics to Monitor 59 1110110 76 T7 4 S71, 6 HF F i l t e r pot 60 0110110 36 T7 2 S71, 8 LF F i l t e r pot 61 1000001 41 T9 14 S71, 2 S p l i t Switch 62 1001110 4E T8 14 S71, 1 HMFx3 Switch 63 1010110 56 T7 5 S71.10 HF +- pot 64 0010110 16 T7 1 S71.12 HF F pot 65 1100110 66 T7 12 S71,14 HMF +- pot 66 0100110 26 T7 15 S71.16 HMF F pot 67 0000110 06 T7 13 S71.20 HMF Q pot 68 1111010 7A T6 4 S71, 5 I n s e r t Pre Switch 69 1001010 4A T6 14 S71.17 I n s e r t I n Switch 70 1011010 5A T6 5 S71, 9 LMF +- pot 71 0011010 IA T6 1 S71,H LMF F pot 72 1101010 6A T6 12 S71.13 LMF Q pot 73 0101010 2A T6 15 S71.15 LF F pot 74 1000110 46 T7 14 S71.18 LF +- pot 75 0001010 OA T6 13 S71.19 LMF+3 Switch 76 1111100 7C T4 4 S72, 1 E q u a l i z e r to Channel Switch 77 1110010 72 T5 4 S72, 2 F i l t e r to Dynamics Switch 78 0110010 32 T5 2 S72, 4 E q u a l i z e r to Monitor Switch 79 0100101 25 T l l 15 S70, 4 EQ Type 80 1010010 52 T5 5 S72, 6 Stereo Cue Pan pot 81 0010010 12 T5 1 S72, 8 Stereo Cue Pre Switch 82 1100010 62 T5 12 S72.10 Stereo Cue Small Fader Switch 83 0100010 22 T5 15 S72.12 Stereo Cue L e v e l pot 84 1000010 42 T5 14 S72,14 Stereo Cue P u l i Switch 85 0000010 02 T5 13 S72.16 Cue 1 Pre Switch 86 0111000 38 T2 2 S72.19 Cue 1 Small Fader Switch 87 0010100 14 T3 1 S72.18 Cue 1 L e v e l pot 88 0110100 34 T3 2 S72.20 Cue 1 P u l i Switch 89 1111000 78 T2 4 S72.17 Cue 2 Pre Switch 90 0101100 2C T4 15 S 7 2 . l l Cue 2 Small Fader Switch 91 0001100 OC T4 13 S72.15 Cue 2 L e v e l pot 92 1001100 4C T4 14 S72.13 Cue 2 P u l i Switch 93 1101100 6C T4 12 S72, 9 Cue 3 Pre Switch 94 0111100 3C T4 2 S72, 3 Cue 3 Small Fader Switch 95 0011100 IC T4 1 S72, 7 Cue 3 L e v e l pot 96 1011100 5C T4 5 S72, 5 Cue 3 P u l i Switch 97 1010000 50 T l 5 S73.17 Cue 4 Pre Switch 98 0010000 10 T l 1 S 7 3 . l l Cue 4 Small Fader Switch 99 1110000 70 T l 4 S73.15 Cue 4 L e v e l pot
100 0110000 30 T l 2 S73.13 Cue 4 P u l i Switch 101 1101000 68 T2 12 S73, 5 Group L i n e Trim pot
T82003.50 2 of 3
Dec 87
1-44
82E03 - 20 way S c o t c h f l e x M u l t i p l e x e r Input Connector D e t a i l s 611G
Port Address Mux Chip P i n Ribbon Front Panel C o n t r o l No M54321L Code P i n
102 1100000 60 T l 12 S73, 9 Group F l o a t Switch 103 1000000 40 T l 14 S73, 7 Group D i r e c t Switch 104 1001000 48 T2 14 S73, 3 Ready Group Switch 105 1011000 58 T2 5 S73, 1 Ready Tape Switch 106 0101000 28 T2 15 S73, 4 Channel Input Switch 107 0001000 08 T2 13 S73, 6 Channel Output Switch 108 0100100 24 T3 15 S73.10 Small Fader Solo Switch 109 0100000 20 T l 15 S73, 8 Small Fader Cut Switch 110 0011000 18 T2 1 S73, 2 Small Fader L e v e l 111 1000100 44 T3 14 S73.12 Front Back Pan pot 112 0000100 04 T3 13 S73,14 Front Back Pan Switch 113 1100100 64 T3 12 S73.16 L e f t Right Pan pot 114 1010100 54 T3 5 S73,20 VCA Fader Solo I s o l a t e Switch 115 0011011 74 T3 4 S73.18 VCA Cut Switch 116 0111011 3B T14 2 S68, 3 VCA Thumbwheel 117 1000101 45 T l l 14 S70, 6 Channel I d e n t ( l = S t e r e o ) 118 0011011 IB T14 1 S68, 7 Dual L i n e I/P i d e n t 119 1011011 5B T14 5 S68, 5 Spare
1 1| Line input L - | |39 | + 18v j 2| Line input L + | f 40 j KEYmY f 3 f Ov | f411 + l i v j 4| Insert send L - | f42f + l i v | 5| Insert send L + j |43 | NC j 6| NP | j44f Ov | 7| Insert return L - | j 45 j Ov 1 j 8| Insert return L + 1 j 46 f Ov | | 9| NC j |47 | NC |10| Line input R + j j 48j - 18v |11 | Line input R - j |49 | - 18v |12 | Insert return R - | |50 | - 18v | j13 j Insert send R - j j51 j CL Mix bus | 114 j Insert send R + | |52 | Not used | I15} Insert return R + | |53 | Spare to 82E12 p70 | 116 j Stop sense ( |54| Not used j |17| Stop svvitch j 1551 CR Mix bus | 118 j NP | |56 | Not used j |19 | Meter output j |57 | Not used | f 20 j Meter VCA LED j f 58| Not used j f 211 Meter Spare LED | 159j VCA Fader Solo Cut Bus | | 22 | Meter LED | |60 | Not used j f 23 f Meter Lef t LED j |61 | Not used j f 24| Sense common ! |62 | Not used | |25 | Start svvitch | | 63 | Not used j |26| Svvitch ccrrmon 1 |64| Solo Disable bus j |27| Start sense j | 65 | VCA to Meter bus | |28| Computer send j |66 | AFL Mix bus R | |29| Computer return j |67 | Cue 4 Mix bus | !30| NP j | 68 j Cue 3 Mix bus j !31 f Spare | | 69 j Ov | 32| Spare j j 701 Cue 2 Mix bus | 33 j NC j |71 | Ov | 34j + 48v j | 72 | Cue 1 Mix bus | 35j + 48v | j 73 j Ov | 36| NP j j 74f St Cue L Mix bus j 37| + 18v | | 75 | St Cue R Mix bus | 38 j + 18v j j 761 Ov |
1 | | 77 j AFL Mix bus L |
T0611S.50 19 May 82
2 - 1
82E03 Channel Address Switches
SW 1
82E03
SW 2
O
1 M 5 4 3 2 1 L X
O
1
Switch| Address Bit
SW2 4 SW2 3 SW2 2 SW2 1
SW1 4 SW1 3 SW1 2 SW1 1
don't care AO LSB AI A2
A3 A4 A5 A6 MSB
Address l i s t for 611S
annel sw . L SW 2 CA mber M 5 4 3 2 1 L X D bi
01 0 0 0 0 1 1 1 X 07 02 0 0 0 1 0 1 0 X OA 03 0 0 0 0 1 1 0 X 06 04 0 0 0 1 0 1 1 X OB 05 0 0 0 0 1 0 1 X 05 06 0 0 0 1 0 0 0 X 08 07 0 0 0 0 1 0 0 X 04 08 0 0 0 1 0 0 1 X 09 09 0 0 0 0 0 1 1 X 03 10 0 0 0 1 1 1 0 X OE 11 0 0 0 0 0 0 1 X 01 12 0 0 0 1 1 1 1 X OF 13 0 0 0 0 0 1 0 X 02 14 0 0 0 1 1 0 0 X OC 15 0 0 0 0 0 0 0 X 00 16 0 0 0 1 1 0 1 X OD 17 0 0 1 0 1 1 1 X 17 18 0 0 1 1 0 1 0 X IA 19 0 0 1 0 1 1 0 X 16 20 0 0 1 1 0 1 1 X IB 21 0 0 1 0 1 0 1 X 15 22 0 0 1 1 0 0 0 X 18 23 0 0 1 0 1 0 0 X 14 24 0 0 1 1 0 0 1 X 19 25 0 0 1 0 0 1 1 X 13 26 0 0 1 1 1 1 0 X IE 27 0 0 1 0 0 0 1 X 11 28 0 0 1 1 1 1 1 X IF 29 0 0 1 0 0 1 0 X 12 30 0 0 1 1 1 0 0 X IC 31 0 0 1 0 0 0 0 X 10 32 0 0 1 1 1 0 1 X ID
0 1 0 0 1 1 1 X 27 0 1 0 1 0 1 0 X 2A 0 1 0 0 1 1 0 X 26 0 1 0 1 0 1 1 X 2B 0 1 0 0 1 0 1 X 25 0 1 0 1 0 0 0 X 28 0 1 0 0 1 0 0 X 24 0 1 0 1 0 0 1 X 29 0 1 1 0 1 1 1 X 37 0 1 1 0 1 1 0 X 36 0 1 1 0 1 0 1 X 35 0 1 1 0 1 0 0 X 34 0 1 1 0 0 1 1 X 33 0 1 1 0 0 0 1 X 31 0 1 1 0 0 1 0 X 32 0 1 1 1 1 1 1 X 3F 0 1 1 1 1 1 0 X 3E 0 1 1 1 1 0 1 X 3D 0 1 1 1 1 0 0 X 3C 0 1 1 1 0 1 1 X 3B 0 1 1 1 0 1 0 X 3A 0 1 1 1 0 0 1 X 39 0 1 1 1 0 0 0 X 38 1 0 0 0 0 0 0 X 40 0 1 0 0 0 1 1 X 23 0 1 0 1 1 1 0 X 2E 0 1 0 0 0 0 1 X 21 0 1 0 1 1 1 1 X 2F 0 1 0 0 0 1 0 X 22 0 1 0 1 1 0 0 X 2C 0 1 0 0 0 0 0 X 20 0 1 0 1 1 0 1 X 2D
T82003.51 22 Aug 85
| 82E03 - 20 way Scotchflex Multiplexer Input Connector Details
Pori : Address s Mux Cmr ) Pin Ribbon Front Panel Control No M54321I J Code Pin
0 OOOOOOC ) 00 Tl 13 na (Internal resistor) 1 1110111 77 T15 4 S68, 2 Routing to Track 1 2 0110111 37 T15 2 S68, 4 Routing to Track 2 3 1010111 57 T15 5 S68, 6 Routing to Track 3 4 0010111 17 T15 1 S68, 8 Routing to Track 4 5 1100111 67 T15 12 S68,10 Routing to Track 5 6 0100111 27 T15 15 S68,12 Routing to Track 6 7 1000111 47 T15 .14 S68,14 Routing to Track 7 8 0000111 07 T15 13 S68,16 Routing to Track 8 9 1110011 73 T13 4 S68,18 Routing to Track 9 10 0110011 33 T13 2 S68,20 Routing to Track 10 11 0111101 3D T12 2 S68,19 Routing to Track 11 12 1111101 TD T12 4 S68,17 Routing to Track 12 13 0001011 OB T14 13 S68,15 Routing to Track 13 14 1001011 4B T14 14 S68,13 Routing to Track 14 15 0101011 2B T14 15 S68,ll Routing to Track 15 16 1101011 6B T14 12 S68, 9 Routing to Track 16 17 1000011 43 T13 14 S69,10 Routing to Track 17 18 0000011 03 T13 13 S69,12 Routing to Track 18 19 1110101 75 T l l 4 S69,14 Routing to Track 19 20 0110101 35 T l l 2 S69,16 Routing to Track 20 21 1010101 55 T l l 5 S69,18 Routing to Track 21 22 0010101 15 T l l 1 S69,20 Routing to Track 22 23 0011001 19 T10 1 S69,19 Routing to Track 23 24 1011001 59 T10 5 S69,17 Routing to Track 24 25 0111001 39 T10 2 S69,15 Routing to Track 25 26 1111001 79 T10 4 S69,13 Routing to Track 26 27 0001101 OD T12 13 S69,ll Routing to Track 27 28 1001101 4D T12 14 S69, 9 Routing to Track 28 29 0101101 2D T12 15 S69, 7 Routing to Track 29 30 1101101 6D T12 12 S69, 5 Routing to Track 30 31 0011101 ID T12 1 S69, 3 Routing to Track 31 32 1011101 5D T12 5 S69, 1 Routing to Track 32 33 0100011 23 T13 15 S69, 8 Routing to A Bus 34 1100011 63 T13 12 S69, 6 Routing to B Bus 35 0010011 13 T13 1 S69, 4 Routing to C Bus 36 1010011 53 T13 5 S69, 2 Not used 37 0010001 11 T9 1 S70,16 Line gain svvitch 38 0110001 31 T9 2 S70,12 M/S switch 39 0000101 05 T l l 13 S70, 8 L phase svvitch 40 1100001 61 T9 12 S70,18 Line trim pot 41 1010001 51 T9 5 S70,14 R phase svvitch 42 0100001 21 T9 15 S70,20 Mono L svvitch 43 0101110 2E T8 15 S70,19 Balance pot 44 1111011 7B T14 4 S68, 1 Not used 45 1110001 71 T9 4 S70,10 Mono R svvitch 46 1011110 5E T8 5 S70,13 Not used 47 1101110 6E T8 12 S70,17 Ccnpress Ratio svvitch 48 0011110 IE T8 1 S70,15 Ccnpress Threshold pot 49 0111110 3E T8 2 . 370,11 Ccnpress Release pot 50 0001001 09 no 13 : 570, 7 Ccnpress Release' svvitch
T82003.51 1 of 3 22 Aug 85
2 - 3
| 82E03 - 20 way Scotchflex Multiplexer Input Connector Details
Port Address Mux Chip Pin Ribbon Front Panel Control No M54321L Code Pin
51 1111110 7E T8 4 S70, 9 Expand Threshold pot 52 1001001 49 T10 14 S70, 5 Expand Range pot 53 0101001 29 T10 15 S70, 3 Expand/Gate switch 54 1101001 69 T10 12 S70, 1 Expand Release pot 55 1100101 65 T l l 12 S70, 2 Expand Release svvitch 56 0111010 3A T6 2 S71, 7 Side chain pre EQ 57 0001110 0E T8 13 S71, 3 Side chain post EQ 58 0000001 01 T9 13 S71, 4 Side chain insert retum 59 1110110 76 T7 4 S71, 6 HF F i l t e r pot 60 0110110 36 T7 2 S71, 8 LF F i l t e r pot 61 1000001 41 T9 14 S71, 2 F i l t e r to I/P svvitch 62 1001110 4E T8 14 S71, 1 HF Bell Svvitch 63 1010110 56 T7 5 S71, 10 HF +- pot 64 0010110 16 T7 1 S71, 12 HF F pot 65 1100110 66 T7 12 S71, 14 Not used 66 0100110 26 T7 15 S71, 16 Not used 67 0000110 06 T7 13 S71, 20 Not used 68 1111010 7A T6 4 S71, 5 F i l t e r to Dynamics S/C 69 1001010 4A T6 14 S71, 17 EQ In svvitch 70 1011010 5A T6 5 S71, 9 LMF +- pot 71 0011010 IA T6 1 S71, 11 LMF F pot 72 1101010 6A T6 12 S71, 13 LMF Q svvitch 73 0101010 2A T6 15 S71, 15 LF F pot 74 1000110 46 T7 14 S71, 18 LF +- pot 75 0001010 0A T6 13 S71, 19 LF Bell svvitch 76 1111100 7C T4 4 S72, 1 Insert post VCA 77 1110010 72 T5 4 S72, 2 Insert post EQ 78 0110010 32 T5 2 S72, 4 Insert pre EQ 79 0100101 25 T l l 15 S70, 4 EQ Type 80 1010010 52 T5 5 S72, 6 Stereo Cue Balance pot 81 0010010 12 T5 1 S72, 8 Stereo Cue Pre svvitch 82 1100010 62 T5 12 S72, 10 Stereo Cue Mono svvitch 83 0100010 22 T5 15 S72, 12 Stereo Cue Level pot 84 1000010 42 T5 14 S72, 14 Stereo Cue Puli svvitch 85 0000010 02 T5 13 S72, 16 Cue 1 Pre svvitch 86 0111000 38 T2 2 S72, 19 Cue 1 Stereo link svvitch 87 0010100 14 T3 1 S72, 18 Cue 1 Level pot 88 0110100 34 T3 2 S72, 20 Cue 1 Puli svvitch 89 1111000 78 T2 4 S72, 17 Cue 2 Pre svvitch 90 0101100 2C T4 15 S72, 11 Not used 91 0001100 OC T4 13 S72, 15 Cue 2 Level pot 92 1001100 4C T4 14 S72, 13 Cue 2 Puli svvitch 93 1101100 6C T4 12 S72, 9 Cue 3 Pre svvitch 94 0111100 3C T4 2 S72, 3 Cue 3 Stereo link svvitch 95 0011100 IC T4 1 S72, 7 Cue 3 Level pot 96 1011100 5C T4 5 S72, 5 Cue 3 Puli svvitch 97 1010000 50 Tl 5 S73, 17 Cue 4 Pre svvitch 98 0010000 10 Tl 1 S73, 11 Cue 4 Not used 99 1110000 70 Tl 4 S73, 15 Cue 4 Level pot 100 0110000 30 Tl 2 S73, 13 Cue 4 Puli svvitch 101 1101000 68 T2 12 S73, 5 Meter L svvitch
T82003.51 2 of 3 22 Aug 85
2 - 4
| 82E03 - 20 way Scotchflex Multiplexer Input Connector Details
Port Address Mux Chip Pin Ribbon Front Panel Control No M54321L Code Pin
102 1100000 60 Tl 12 S73, 9 Meter switch 103 1000000 40 Tl 14 S73, 7 Meter R switch 104 1001000 48 T2 14 S73, 3 Start svvitch 105 1011000 58 T2 5 S73, 1 Stop svvitch 106 0101000 28 T2 15 S73, 4 Fader start svvitch 107 0001000 08 T2 13 S73, 6 Image control i n svvitch 108 0100100 24 T3 15 S73, 10 Wide svvitch 109 0100000 20 Tl 15 S73, 8 F i l t e r svvitch 110 0011000 18 T2 1 S73, 2 Image vvidth pot 111 1000100 44 T3 14 S73, 12 Image pan pot 112 0000100 04 T3 13 S73, 14 Solo isolate svvitch 113 1100100 64 T3 12 S73, 16 PFL svvitch 114 1010100 54 T3 5 S73, 20 VCA Fader Solo svvitch 115 0011011 74 T14 1 S73, 18 VCA Cut Svvitch 116 0111011 3B T14 2 S68, 3 VCA Thumbvvheel 117 1000101 45 T l l 14 S70, 6 Channel Ident
1110100 IB T3 4 S73, 19 Not Used (No Track)
T820O3.51 3 of 3 22 Aug 85
2 - 5
64 Way DIN 41612 Connector L i s t
Frcm: 611S Mother board
To: 82E201 Stereo l i n e i nputs , i nsert sends & r e t u r n s .
No| RovvA |No| RowC
1 0L FET | 1| Insert R send frcm Svvitchcard 2 OR FET I 2 1 Insert R return to Svvitchard 3 M/S FET 1 3 I Insert L send frcm svvitchcard 4 A/B FET 1 4 I Insert L return to Svvitchcard 5 Meter L FET 1 5| VCA to met er F E T 6 Meter R FET 1 6 I Meter peak F E T 7 -18V 1 7 I -18V 8 OV (L) 1 8| OV (R) 9 Not Used I 9 I Not Used
10 +18V j i o j +18V 11 Not used(+48V in) |11| R output 12 Not used(+48V out) |12| R output buffer input 13 VCA control voltage |13 | Mono R Swi tch send 14 OV (R) (141 R Bal ance cont rol AQV 15 Meter output i 151 R Balance control Wpr 16 OV (R) 116 j R Balance control CW / Trim AQV 17 Insert R return + |17 | Spar,e 18 Insert R send + |18| R Trim cont rol Wpr 19 Ins ert R send |19 | R Trim control OV 20 Insert R return - 12 01 Gai n swi tch R 21 OV (M) f 211 Gai n swi tch R vvi per 22 Line i n R - f 2 21 L out put 23 Line i n R + 12 3 j L output buffer input 24 OV (L) |24| Mono L svvitch send 25 Insert return L + |25 | L Balance control OV 26 Insert return L - j 2 6 | L Balance control Wpr 27 Insert L send frcm Svvitchcard |27| L Balance control ACW / Trim AQV 28 Insert send L + j 2 8 j Spar e 29 Ins er t send L - |29 | L Trim control Wpr 30 OV (L) 13 01 L Trim control OV 31 Line i n L + |31 | Gai n swi tch L 32 Line i n L - |32 | Gai n svvi tch L vvi per
NOTE : ( T 2 , 6 , 7 , 8,17, 16) (T4,5,9 ,10,11,18,19) * 2 x l 0 n / 6 3 V NEXT TO E A C H IX INDICATED ( T 1 6 ) ' TL 074 (T6.9.17.18) LF351N (T2.4.5,7,8,10,11) (T19.20) TL072
# 1 0 - 5 % TOLERANCE ++- ± 0 - 1 % TOLERANCE
R72 LEFT O/P
C61
IOO^iF 10V
R81 10R RIGHT O/P
HC
METER. O/P
ISA
-18V.R
Rev. Issue Chkd
10
, ^ R u 4 , f t 5 ( 9 4 , 9 5 VALUE v ^ N O V M K . VR1.VR2
1 1 1 R Eq o ut put 1 !| OV (R) | 1 OV (R) | I 2 I R LF F (a) CW 1 2 R LF F (b) CW | 2 R L F F (b) AGV + VViper j 1 3 I R LF + / - OV 1 3 I R L F + / - Wiper 1 3 R L F + / - AOV | 1 4 I R LF S h e l f / B e l l 1 4 I R LF S h e l f / B e l l 1 4 R L F Shelf/Bel1 | 1 5 I OV (R) 1 5 I OV (R) 1 5 R IVF F (b) AOV + VViper |
1 6 I R IVF + / - CW 1 6 R IVF + / - Wiper | 6 R IVF + / - AOV |
1 7 I Not us ed 1 7 I -18V 1 7 -18V | | 8| Not us ed | sj OV (L) 1 8 OV (R) | 1 9 I Not Used 1 9 Not Used 1 9 R L F Shelf / B e l l | j i o j Not us ed j i o j +18V |10| +18V | j l l j R IVF Hi Q j l l j R IVF HiQ |11| R IVF HiQ | |12| OV (R) |12| OV (R) j 12 R HF F (b) AOV + VViper | |13 | R HF + / - o v |13| R HF + / - Wiper 113 R HF + / - AOV | |14| R Eq i nput |14| R HF Shel f /Be l 1 114 j R HF Shelf/Bel1 | |15 | L Eq output |15| OV (L) |15 O V (L) | |16| L LF F (a) CW |16| L LF F (b) CW 11 6 | . L LF F (b) AOV + VViper | |17 | L LF F (a) CW |17| L LF + / - Wiper |17 L LF + / - AOV | |18 | L LF S h e l f / B e l l f 18 j L LF Shelf /Bel1 |18| L LF Shelf/Bel1 | |19 | OV (L) |19| OV (L) 11 9 j L IVF F (b) AOV + VViper | |20| L IVF + / - a v |20| L IVF + / - VViper j 2 0 j L IVF + / - AQV | |21 | L IVF Hi Q | 2 l j L IVF Hi Q |21| L IVF Hi Q | j 2 2 f OV (L) j 2 2 f 0V( L) 12 2 | L HF F (b) AOV VViper | j 2 3 | L HF + / - a v |23 | L HF + / - VViper j 2 3 f L HF + / - AQV | |24| L Eq i nput |24| L HF Shel f /Be l 1 |24| L HF S h e l f / B e l l j |25 | OV (R) |25| R HF F i l ter output 12 5 j R HF F i l t e r F(b) AQV | |26| Spar e [ 2 e j R HF F i l ter (a) input |26| R HF F i l t e r F(b)CW + VVpr | |27 | Spar e |27| R LF F i l ter F ( a ) CW |27 | R LF F i l ter output j |28| R F i l ter buffer |28| R L F F i l ter input |28| - R L F F i l ter F(b )AQV + VVpr j |29 | OV (L) |29| L HF F i l ter output 12 9 | L HF F i l t e r F(b) AOV | j 3 0 j L LF Shelf / B e l l | 3 0 j L HF F i l ter (a) input f 3 0 | L HF F i l t e r F(b)CVV + VVpr | |31 | Spar e |31| L LF F i l ter F ( a ) CW 1 31 f L LF F i l t e r output |
f 3 2 j L F i l t e r buf fer 13 2 j L L F F i l ter input 13 2 j L LF F i l t e r F(b)AOV + VVpr j
Ti t l e S T E R E O I N S E R T S W I T C H C A R D
Drg.No.
T 8 2 2 0 8 - 7 0
Solid State Logjc | Stonesf ie ld • Oxford • England
N
-12V
82E210 a
32A I
z s z :
COMPRESSOR R12 240R RATIO
H \ —
R17 1B0R
R16 330R
R15 240R
R14 470R
R13 910R
R2i 110R
R20 110R
R19 iiOR
R1B 620R
-OOCX3- VSW1-A,4
-OIO
-05
O S
L C 2
- O 1 SW1-B
COMPRESSOR RATIO
- O 10
HD5
-03
-02
— O I SWi-A
R24 24K9
B2E210 32C
B2E210 31C
B2E210 „ 30C •
B2E210. 29C I
R2S 24K9
izk:
COMPRESSOR RATIO
RG IOOK 0 0 < -
,SWi-C,4
RS 6KB1 3
10
R42K43 4
R2 909R
-O 2
COMPRESSOR RATIO
RiO GK81,
R9 2K43
RB 1K54
10
R7909R 2
" ^ I N K 0 ° 1
R23 SW1-C
PIN NO
D
C
B
A
• • • • Q D •
D O O D D D D
• • • a • • •
• a • a • • o
PIN VIEW OF SWITCH L J
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DQOJIENT MAY NOT BE REPRODUCED IN ANY FORM UITHQUT THE WRITTEN PERMISSION
OF SOLID STATE LOGIC.
REV ISSUE DATE
4
A
A
A
A
B
C
A
A
1/B5
2/B5
7/BS
OCT B7
25 SEPT B9
14 NOV B9
20 MAR 90
DETAILS
PROTOTYPE
Rl2 MOVED.ALL VALUES CHANGED
REDRAWN VB
R1B-22 VALUES CHANGED
ECO 4K/SB Rl8-22 VALUES AMENDED STEFF
REDRAWN. DRG NO. WAS T82209.70 NOW TB2209.71 BC STEFFi
ECO 4K/479 PCB RELAID STEFF
ECO 4K/490 BC VARELCO PIN SPACER CHANGED
STEFF 1
SHEET 1 OF 1
REF« T611SE /\3 T I T L E B U S
STEREO COMPRESSOR RATIO SWITCH CARD
DRG.NO.
T82209 . 71
Soli 1 State Logic
| 64 Way DIN 41612 Connector L i s t
| From: 611S Mother board
| To: 82E210 Stereo dynamics s i d e c h a i n
|No| Row A | N o | Row C
| 1| Compress LED 3dB 1 1| Expand LED 3dB 1 2\ Compress LED 6dB 1 2| Expand LED 6dB | 3| Compress LED lOdB 1 3| Expand LED lOdB 4| Compress LED 14dB 1 4| Expand LED 14dB 5| Compress LED 20dB 1 5| Expand LED 2OdB 6 j Not Used 1 6 | Expand range CW 7| -18V 1 1\ -18V 8| OV
1 s ! 0V 9| +11 V
1 9| +11V 10| +18V 110 | +18V 11| Spare 1111 Expand r e l e a s e 12| Audio L i n 112 | Attack switch common 13| Audio R i n 113 | F a s t a t t a c k 14| Spare |14| Short a t t a c k 15 j Output 115 J Expand/gate switch common 16| Spare 116 | Expand 17| Overload LED L 117 I Gate 18| Overload LED R |18| Expand t h r e s h o l d 19| Overload bus L+ 119 | Expand th r e s h o l d 20j Overload bus L- | 201 Compress r e l e a s e 21| Overload bus R+ | 211 Attack sw common 22| Overload bus R- j 22 | F a s t a t t a c k 23| Spare | 23 | Slow a t t a c k 24| Spare |24| Compress t h r e s h o l d wiper 25| Spare | 25 | Compress t h r e s h o l d -12V 26j Spare | 26 I Compress t h r e s h o l d (makeup) j 27j Spare | 27 | Compress r a t i o (+12V) 28| Spare | 28 | Compress r a t i o ( o f f s e t ) 29| Spare |29| Compress r a t i o R | 30| Spare | 30 | Compress r a t i o R 1 31| Spare | 311 Compress r a t i o L 1 321 Spare | 32 | Compress r a t i o L 1
T82210.50
2-18
2 - 1 9
| 64 Way DIN 41612 Connector L i s t j
| From: 611S Mother Board |
| To: 82E212 | |No | Rovv A |No| Rovv C 1
in F E T bypass F E T input
P F L F E T Solo Mute Bus Dynamics Enable F E T Wide F E T Filter F E T
18V 0 V +11V +18V Image Control Image Control Computer Cut Meter R L E D Meter Pk L E D Meter L L E D Meter VCA L E D VCA to Meter bus Spare Solo Disable bus Solo Cut bus Spare Sense Corn m on Stop Sense Start Sense Svvitch Corn mon Stop Svvitch Start Svvitch OL F E T OR F E T A/B F E T M/S F E T
| 1
I 2
I 3 I 4
I 5 I 6 ( 7
110 I H 112 113 114 115 116 |17 f i s |19 j 2 0 121 |22 |23 |24 |25 |26 |27 |28 f 2 9 13 0 131 | 3 2
Cut Lamp Solo Svvitch Solo Isolate Svvitch PFL Svvitch Filter Svvitch Wide Svvitch -18V OV +11V +18V Image Control Svvitch Fader Start Svvitch Stop Svvit-ch Stop Lam p Start Svvitch Start Lam p Meter R Svvitch Meter R Svvitch L E D Meter Pk Svvitch Meter Pk Svvitch L E D Meter L Svvitch Meter L Svvitch L E D Spar e Dynam ies Enable Spar e Meter R F E T Meter Pk F E T Meter L F E T Meter VCA F E T OL Svvitch OR Svvitch M/S Svvitch
T82212.50 30 Aug 84
2 - 2 0
2-21
2SA R5 22R
FADER IBC START SUITCH
-1BV
START LAMP
C23 22U 2SV.
REVLT.SSUE DATE
CDPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DCOJTENT MAY NOT BE REPRODUCED
IN ANY FORM UITHDUT THE URITTEN PERMISSION CF SOLID STATE LOGIC.
4
A
A
A
B
7.84
12 84
DEC 8S
DETAILS
PRQTOTYPE
REDRAUN VB
ECQ 4K/93 R1G ADDED
DM STEFF
14 MAR |REDRAUN 89
C
A
A
22 AUG 89
21 SEPT 89
23 MAR 93
AM BC
STEFF
R12 WAS 10R NOW 3 3 R BC STEFF
ECO 4K/4G8 BOARD RELAID
BC
STEF
ECO 4K/1107 NO CHANGE
SHEET 2 OF 2
REF. TGUH /\2 T I T L E
B U S 82E212 LOGIC
DRG.NO. T82212.72
Solid State Logic
64 Way Eurocard Connector L i s t
From:
To: 82E213 Stereo VCA and Image Control
|No| ROW C No Row A
Spare 1 2 Spare 2 3 R pre fader cues output 3 4 L pre fader cues output 4 5 L output to image control 5 6 Image control wiper L 6 7 L pan control wiper 7 8 OV (L) 8 9 Mono output to Image control 9 10 Image control vviper mono 10 11 Wide makeup gain control 11 12 F i l t e r compensation 12 13 Mono buffer output 13 14 Mono Pan buffer input 14 15 Mono Pan buffer output 15 16 OV (R) 16 17 R output to image control 17 18 R image control vviper 18 19 R Pan control vviper 19 20 OV (R) 20 21 +18V 21 22 +18V 22 23 Spare 23 24 OV (M) 24 25 -18V 25 26 -18V 26 27 AFL/PFL L output 27 28 AFL/PFL R output 28 29 VCA to meter output 29 30 Fader vviper 30 31 Cut output 31 32 Computer return 32
Mono pre fader cues output Mono post fader cues output R post fader cues output L post fader cues output L input
L i n s e r t send to switchcard L i n s e r t return from switchcard L output L Overload output + L Overload output -Spare 0V (L) R input R i n s e r t send to switchcard R i n s e r t return from switchcard R output R Overload output + R Overload output -Cues cut FET AFL FET PFL FET Solo mute bus Cut switch Dynamics enable FET Wide FET F i l t e r FET Image control i n FET Image control bypass FET Dynamics side chain +5V to fader VCA Thumbvvheel Computer send
-S52E TO 82E237 M E T E R DISTRIBUTION C A R D MAIN M E T E R S "
s l 3 E h p
M i l l i 11 S16ES14E 316E S14Ei
I I I I S12E
24 25
NOTES: A) S118E B A R G R A P I I M O T H E R C A R D TO 651. THIS RIBBON| IS O N L Y I M P L E M E N T E D IN B A R G R A P I I C O N S O L E S . B) T H E C E N T R E S E C T I O N M E T E R L A Y O U T HAS B E E N A L T E R E D IN ORDER TO S I M P U F Y DRAV/ING L A Y O U T .
K B D : TO K E Y B O A R D
• : TO C O N N E C T O R P A N E L
P V C A R A C K : TO 82E321 C A R D IN T H E P A T C H A B L E V C A R A C K
651 : TO 651
MAIN M E T E R S : T O M A I N M E T E R S
Solid State Logic m L E : F R A M E W I R I N G R I B B O N S L A Y O U T
C O N S O L E : 4 0 0 0 Q S E R I E S D R A V / N B Y : A P T I I
S H E E T : , I W 1 1 P C 1 R E V I S I O N : I063IG.51 i.o
STATUS BUSSES ; CUE MIX BUS CUE MIX BUS ; AFL BUS QUAD MIX BUS ; MIX BUS 1-2 MIX BUS 3-12 MIX BUS 13-22 MIX BUS 23-32 TR MULTIPLEX BUS MIX AMP INPUTS FROM MIX BUSSES FADER TO FADER BUS CARD FADER BUSCARD TO LOWER BUSCARD VCA BUS LINKS 8 FADERS TO COMPUTER & MASTER FADERS VCA BUSES MASTER FADER ;LIGHTS ANDSV/ITCHES TO 651 8 FADER SENDS AND RETURNS LINK FROM FADER BUS - UPPER BUS OR 651 VCA SENDS AND RETURNS TO 82E20 VCA CUTS 5 - 8 ; MULTITRACK SENSE FROM KEYBOARD TO 651 651 TO METER DISTRIBUTION VCA FADER AND THUMBWHEELS TO 651 82E20 61 l'S TO PENTHOUSE METERS PHASEMETER CARD (82E05) TO 82E37 METER DISTRIBUTION CARD KEYBOARD TO TAPE MACHINE VIA MAIN CONNECTOR PANEL KEYBOARD TO MAIN CONNECTOR PANEL QUAD BUS LEFT FRONT METER QUAD BUS RIGHT FRONT METER QUAD BUS LEFT BACK METER QUAD BUS RIGHT BACK METER 82E37 METER DISTRIBUTION CARD TO PHASEMETER
MONO METER WARNING LAMPS (MONITOR DIM, MONITOR SOLO, LISTEN MIC AND STUDIO LOUDSPEAKER LAMPS) STEREO CUE LEFT METER STEREO CUE RIGHT METER CUE 1 METER CUE 2 METER CUE 3 METER CUE 4 METER STUDIO LOUDSPEAKER LEFT METER STUDIO LOUDSPEAKER RIGHT METER BARGRAPH SWITCHES AND BARGRAPH MOTHER CARD SOLOS AND CUTS FROM VCA GROUPS VIDEO SWITCHER CONTROLS BARGRAPH MOTHERCARD TO 651 (BARGRAPH CONSOLES ONLY)
T I T L E : FRAME WIRING RIBBONS LAYOUT
Solid State Logic
C O N S O L E : „„„„ G S E R I E S |DRAWN B Y : APTH
S H E E T : T 0 6 3 1 G J 1 ( c < m t ) REVISION: D A T E : , , , 25/9/90
SL 621 - Producer's Panel SL 631 - Console Mainframe SL 661 - Console Power Supply SL 674 - Bargraph Meter System SL 675 - Main Connector Panel
651 MRAC CONNECTOR Ml (POLARISED AT A: SOCKETS ON 65I)
PIN DESCRIPTION LOOM COLOUR
SHEET 1 of 4
DESTINATION
A Echo Return 1 L+ M4l Red Patch M4l t i p
B Echo Return 1 L- M4l Blk Patch M4l Ring
C Echo Return 1 R+ M42 Red Patch M42 t i p
D Echo Return 1 R- M42 Blk Patch M42 Ring
E Echo Return 2 L+ M43 Red Patch M43 t i p
F Echo Return 2 L- M43 Blk Patch M43 Ring
H Echo Return 2 R+ M44 Red Patch M44 t i p
J Echo Return 2 R- M44 Blk Patch M44 Ring
K Echo Return 3 L+ M-45 Red Patch M45 t i p
L Echo Return 3 L- M-45 Blk Patch M45 Ring
M Echo Return 3 R+ M46 Red Patch M46 t i p
N Echo Return 3 R- M46 Blk Patch M46 Ring
P Echo Return 4 L+ M-47 Red Patch M47 t i p
R Echo Return 4 L- M47 Blk Patch M47 Ring
S Echo Return 4 R+ M48 Red Patch M48 t i p
T Echo Return 4 R- M48 Blk Patch M48 Ring
U Stereo 1 Rep L+ P25 Red Patch P25 t i p
V Stereo 1 Rep L- P25 Blk Patch P25 Ring
W Stereo 1 Rep R+ P26 Red Patch P26 t i p
X Stereo 1 Rep R- P26 Blk Patch P26 Ring
Y Stereo 2 Rep L+ P27 Red Patch P27 t i p
Z Stereo 2 Rep L- P27 Blk Patch P27 Ring
a Stereo 2 Rep R+ P28 Red Patch P28 t i p
b Stereo 2 Rep R- P28 Blk Patch P28 Ring
c Stereo 3 Rep L+ P29 Red Patch P29 t i p
d Stereo 3 Rep L- P29 Blk Patch P29 Ring
T0651E.50 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
651 MRAC CONNECTOR Ml (POLARISED AT A: SOCKETS ON 65I) SHEET 2 of 4
PIN DESCRIPTION LOOM COLOUR DESTINATION
f Stereo 3 Rep R+ P30 Red Patch P30 t i p
g Stereo 3 Rep R- P30 Blk Patch P30 Ring
h Stereo 4 Rep L+ P31 Red Patch P31 t i p
i Stereo 4 Rep L- P31 Blk Patch P31 Ring
J Stereo 4 Rep R+ P32 Red Patch P32 t i p
k ' Stereo 4 Rep R- P32 Blk Patch P32 Ring
m Stereo 5 Rep L+ P33 Red Patch P33 t i p
n Stereo 5 Rep L- P33 Blk Patch P33 Ring
P Stereo 5 Rep R+ P34 Red Patch P34 t i p
q Stereo 5 Rep R+ P34 Blk Patch P34 Ring
r Disc i n LB+ P35 Red Patch P35 t i p
s Disc i n LB- P35 Blk Patch P35 Ring
t Disc In LF+ P36 Red Patch P36 t i p
u Disc In LF- P36 Blk Patch P36 Ring
V Disc In RF+ P37 Red Patch P37 t i p
w Disc In RF- P37 Blk Patch P37 Ring
X Disc In RB+ P38 Red Patch P38 t i p
y Disc In RB- P38 Blk Patch P38 Ring
z Quad 1 Rep LB+ P17 Red Patch P17 t i p
AA Quad 1 Rep LB- P17 Blk Patch P17 Ring
AB Quad 1 Rep LF+ P18 Red Patch P18 t i p
AC Quad 1 Rep LF- P18 Blk Patch P18 Ring
AD Quad 1 Rep RF+ P19 Red Patch P19 t i p
AE Quad 1 Rep RF- P19 Blk Patch P19 Ring
AF Quad 1 Rep RB+ P20 Red Patch P20 t i p
AH Quad 1 Rep RB- P20 Blk Patch P20 Ring
AJ Quad 2 Rep LB+ P21 Red Patch P21 t i p
AK Quad 2 Rep LB- P21 Blk Patch P21 Ring
T0651E.50 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
5-10
651 MRAC CONNECTOR Ml (POLARISED AT A: Sockets on 65I) SHEETS 3 of k
PIN DESCRIPTION LOOM COLOUR DESTINATION
AL Quad 2 Rep LF+ P22 Red Patch P22 t i p
AM Quad 2 Rep LF- P22 Blk Patch P22 Ring
AN Quad 2 Rep RF+ P23 Red Patch P23 t i p
AP Quad 2 Rep RF- P23 Blk Patch P23 Ring
AR Quad 2 Rep RB+ P24 Red Patch P24 t i p
AS Quad 2 Rep RB- P2k Blk Patch P2k Ring
AT Mini LS L Out+ L39 Red Patch L39 t i p
AU Mini LS L Out - L39 Blk Patch L39 Ring (Connected to OV via 10R in 65I
AV Mini LS R Out+ L4O Red Patch L40 t i p
AW Mini LS R Out - L4O Blk Patch L40 Ring (Connected to OV via 10R in 65I
AX Spare to DL SP2 01 Red Left free at DL
AY Spare to DL SP2 01 Blk Left free at DL
AZ Alternate LS Contact Z2 Red DL33 P8
BA Alternate LS Contact Z2 Blk DL33 N8
BB MD Out+ L51 Red Patch L51 t i p
BC MD Out- L51 Blk Patch L51 Ring
BD +48v PWR Org 675 Connector Pnl Sw
BE +13v PWR Brn 675 Connector Pnl Sw
BF +20v PWR Red 675 Connector Pnl Sw
BH -20v PWR Blu 675 Connector Pnl Sw
BJ Cues Switch Xl Red 621 Prod Panel Pl
BK Cues Lamp Xl Blk 621 Prod Panel P2
BL Omni Switch X2 Red 621 Prod Panel P3
BM Omni Lamp X2 Blk 621 Prod Panel Ph
T0651E.50 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
5-1 1
651 MRAC CONNECTOR Ml (POLARISED AT A: Sockets on 651) Sheet 4 of 4
PIN DESCRIPTION LOOM COLOUR DESTINATION
BN MD Switch X3 Red 621 Prod Panel P 5
BP Listen Switch X3 Blk 621 Prod Panel P 6
BR Stereo Cans L Monitor + x4 Red 621 Prod Panel P 7
BS Stereo Cans R Monitor + X-4 Blk 621 Prod Panel P 8
BT Aux 1 Cans L Monitor + X5 Red 621 Prod Panel P 9
BU Aux 1 Cans R Monitor + X5 Blk 621 Prod Panel P10
BV Aux 2 Cans L Monitor + x6 Red 621 Prod Panel PII
BW Aux 2 Cans R Monitor + x6 Blk 621 Prod Panel P12
BX Left Signal Monitor + X7 Red 621 Prod Panel P13
BY Right Signal Monitor + X7 Blk 621 Prod Panel Pl4
BZ Dim Switch x8 Red 621 Prod Panel P21
CA Status Lock +20V X8 Blk 621 Prod Panel P22
CB Spare to DL SP2 02 Red Left free at DL
CC Spare to DL SP2 02 Blk Left free at DL
CD Prod Mic Blue (Screen) X9 Scrn 621 Prod Panel P15
CE Prod Mic Green (Signal) X9 Red 621 Prod Panel Pl6
CF Prod Mic Red (+l-5v) X9 Blk 621 Prod Panel P17
CH NP
CJ Listen Mic 1+ L-49 Red Patch L-49 Tip
CK Listen Mic 1- L-49 Blk Patch L49 Ring
CL Listen Mic 2+ L50 Red Patch L50 Tip
CM Listen Mic 2- L50 Blk Patch L50 Ring
CN Red Light Zl Red DL33 P
CP Red Light Zl Blk DL33 N4
CR Ov PWR Grn 675 Connector Pnl
CS Chassis - Grn/Yellow Chassis
Note - Z1,Z2 screens wired to 7/0.2 mm Green going to OV block
TO65IE.5O 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
5-1 2
T651 MRAC CONNECTOR M2 (POLARISED AT D : SOCKETS ON 65I) Sheet 1 of 4
PIN DESCRIPTION LOOM COLOUR DESTINATION
A LB Pre VCA Send + LI Red Patch LI t i p
B LB Pre VCA Send - LI Blk Patch LI Ring
C LF Pre VCA Send + L2 Red Patch L2 t i p
D LF Pre VCA Send - L2 Blk Patch L2 Ring
E RF Pre VCA Send + L3 Red Patch L3 t i p
F RF Pre VCA Send - L3 Blk Patch L3 Ring
H RB Pre VCA Send + L4 Red Patch L4 t i p
J RB Pre VCA Send - m Blk Patch L4 Ring
K LB Pre VCA Ret + Ml Red Patch Ml t i p
L LB Pre VCA Ret - Ml Blk Patch Ml Ring
M LF Pre VCA Ret + M2 Red Patch M2 t i p
N LF Pre VCA Ret - M2 Blk Patch M2 Ring
P RF Pre VCA Ret + M3 Red Patch M3 t i p
R RF Pre VCA Ret - M3 Blk Patch M3 Ring
S RB Pre VCA Ret + M4 Red Patch M4 t i p
T RB Pre VCA Ret - M4 Blk Patch M4 Ring
U LB Post VCA Send + L5 Red Patch L5 t i p
V LB Post VCA Send - L5 Blk Patch L5 Ring
W LF Post VCA Send + L6 Red Patch L6 t i p
X LF Post VCA Send - L6 Blk Patch L6 Ring
Y RF Post VCA Send + L7 Red Patch L7 t i p
Z RF Post VCA Send - L7 Blk Patch L7 Ring
a RB Post VCA Send + L8 Red Patch L8 t i p
b RB Post VCA Send - L8 Blk Patch L8 Ring
c LB Post VCA Ret + M5 Red Patch M5 t i p
d LB Post VCA Ret - M5 Blk Patch M5 Ring
f LF Post VCA Ret + M6 Red Patch M6 t i p
g LF Post VCA Ret - M6 Blk Patch M6 Ring
T0651E.50 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
5-13
T651 MRAC CONNECTOR M2 (POLARISED AT D : SOCKETS ON 651) Sheet 2 of 4
PIN DESCRIPTION LOOM COLOUR DESTINATION
h RF Post VCA Ret + M7 Red Patch M7 t i p
i RF Post VCA Ret - M7 Blk Patch M7 Ring
j RB Post VCA Ret + M8 Red Patch M8,tip
k RB Post VCA Ret - M8 Blk Patch M8 Ring
m LB Main Out + L9 Red Patch L9 t i p
n LB Main Out - L9 Blk Patch L9 Ring
P LF Main Out + L10 Red Patch L10 t i p
q LF Main Out - L10 Blk Patch L10 Ring
r RF Main Out + LI I Red Patch L I I t i p
s RF Main Out - LI I Blk Patch L I I Ring
t RB Main Out + L12 Red Patch L12 t i p
u RB Main Out - L12 Blk Patch L12 Ring
V Left Main Out + L13 Red Patch L13 t i p
w Left Main Out - L13 Blk Patch L13 Ring
X Right Main Out + L14 Red Patch Ll4 t i p
y Right Main Out - Llk Blk Patch Llk Ring
z Mono Main Out + L15 Red Patch L15 t i p
AA Mono Main Out - L15 Blk Patch L15 Ring
AB Can Insert Send L + N5 Red Patch N5 t i p
AC Can Insert Send L - N5 Blk Patch N5 Ring
AD Can Insert Send R + N6 Red Patch N6 t i p
AE Can Insert Send R - n6 Blk Patch N6 Ring
AF Echo Send 1 + Nl Red Patch Nl t i p
AH Echo Send 1 - NI Blk Patch Nl Ring
AJ Echo Send 2 + N2 Red Patch N2 t i p
AK Echo Send 2 - N2 Blk Patch N2 Ring
AL Echo Send 3 + N3 Red Patch N3 t i p
AM Echo Send 3 - N3 Blk Patch N3 Ring
TO65IE.5O 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
5-14
T651 MRAC CONNECTOR M2 (POLARISED AT D : SOCKETS ON 65I) Sheet 3 of 4
PIN DESCRIPTION LOOM COLOUR DESTINATION
AN Echo Send 4 + N4 Red Patch N4 t i p
AP Echo Send 4 - n4 Blk Patch N4 Ring
AR Can Insert Ret L + P5 Red Patch P5 t i p
AS Can Insert Ret L - P5 Blk Patch P5 Ring
AT Can Insert Ret R + P6 Red Patch P6 t i p
AU Can Insert Ret R - P6 Blk Patch P6 Ring
AV Can Insert Ret 1 + P7 Red Patch P7 t i p
AW Can Insert Ret 1 - P7 Blk Patch P7 Ring
AX Can Insert Ret 2 + P8 Red Patch P8 t i p
AY Can Insert Ret 2 - P8 Blk Patch P8 Ring
AZ Can Output L + N9 Red Patch N9 t i p
BA Can Output L - N9 Blk Patch N9 Ring
BB Can Output R + N10 Red Patch N10 t i p
BC Can Output R - N10 Blk Patch N10 Ring
BD Can Out IL + Nll Red Patch Nll t i p
BE Can Out IL - Nll Blk Patch Nll Ring
BF Can Out IR + N12 Red Patch N12 t i p
BH Can Out IR - N12 Blk Patch N12 Ring
BJ Can Out 2L + N13 Red Patch N13 t i p
BK Can Out 2L - N13 Blk Patch N13 Ring
BL Can Out 2R + Nl4 Red Patch Nl4 t i p
BM Can Out 2R - Nl4 Blk Patch Nl4 Ring
BN SLS L + N39 Red Patch N39 t i p
BP SLS L - N39 Blk Patch N39 Ring
BR SLS R + n4o Red Patch N40 t i p
BS SLS R - N40 Blk Patch N40 Ring
BT Mon LS LB + L35 Red Patch L35 t i p
BU Mon LS LB - L35 Blk Patch L35 Ring
TO65IE.5O 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
5-15
T651 MRAC CONNECTOR M2 (POLARISED AT D : SOCKETS ON 65I) Sheet 4 of 4
PIN DESCRIPTION LOOM COLOUR DESTINATION
BV Mon LS LF + L36 Red Patch L36 t i p
BW Mon LS LF - L36 Blk Patch L36 Ring
BX Mon LS RF + L37 Red Patch L37 t ip
BY Mon LS RF - L37 Blk Patch L37 Ring
BZ Mon LS RB + L38 Red Patch L38 t ip
CA Mon LS RB - L38 Blk Patch L38 Ring
CB Osc Send + L16 Red Patch Ll6 t i p
CC Osc Send - L16 Blk Patch LI6 Ring
CD Osc Return + M16 Red Patch M16 t i p
CE Osc Return - Ml6 Blk Patch Ml6 Ring
CF Spare to DL SP1 01 Red Left free at DL
CH Spare to DL SP1 01 Blk Left free at DL
CJ Spare to DL SP1 02 Red Left free at DL
CK Spare to DL SP1 02 Blk Left free at DL
CL Spare to DL SP1 03 Red Left free at DL
CM Spare to DL SP1 03 Blk Left free at DL
CN Spare to DL SP1 04 Red Left free at DL
CP Spare to DL SP1 04 Blk Left free at DL
CR Ov Pwr Grn 675 Connector
CS Chassis Grn/Yellow Chassis
T0651E.50 20.Dec.1988 56 CHANNEL G SERIES MRAC LISTING
5-16
SL4000E /600GV Consoles Ribbon Cbnnectar Summary Serial No 4020 up
iRef jWays 1 Description !Cards & Modules!
IS3E i 20 1 Master signal & status busses:Cue 3 & 4 Mix busses ! 82E18 ! 651 | |S4E ! 20 iCue Mix busses: St L, St R, 1, 2 : AFL : Dyn Link I 82E18 I 651 | jS5E ! 20 iQuad Mix busses : Mix busses 1 & 2 I 82E18 ' 651 | ,'S6E I 20 |Mix busses 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 i 82E19 |S7E i 20 |Mrx busses 13, 14, 15, 16, 17, 18, 19, 20, 21, 22 ! 82E19 IS8E I 20 |Mix busses 23, 24, 25, 26, 27, 28, 29, 30, 31, 32 I 82E19 !S9E ! 10 iDigital TMC busses 0-7 ! 82E19 i 681 i IS10E I 20 I611E mix amp input selectors I 82E19 [S11E I 20 1 Fader to Fader bus cards ! 82E37 ! 82E38 | IS12E i 20 iFader bus card to Lower bus card (4 faders ea) ! 82E37 I 82E19 ,' IS13E I 10 IVCA Fader bus links I 82E37 ! 82E38 ! [S14E ! 50 18 x Fader send & returns, LED's & Switches ! 82E37 ! 82E38 | IS15E I 20 iVCA busses to 651 : Master Fader LED & Switch i 82E38 ! 651 ! i S16E I 20 18 x Computer send & returns to lower bus & 651 I82E37/8 ! 82E19 | IS17E ! 20 iLink from Keyboard to Master Module I 651 ! 681 ! IS18E I 20 'Master Module to Pentho. Distrb. (metering & LEDs) 1 82E55 i 651 | IS19E ! 20 |VCA Fader wipers & thumbwheels to Master Module 82E38 651 | [S20E i 10 651E Power Indicator LED's 651E IS21E i 20 611E Mother card to MPX 82E03 611E 82E03 | IS23E 1 10 Penthouse meters to Upper bus card or Dist panel 82E06 82E18 ! IS24E 10 Phasemeter to Meter Distribution Card 82E05 82E55 | IS25E 50 LED's & Sw Daughters to Computr Interface Dist. 82E40 82E47 | IS28E 20 Tape Remote Switches 82E70 IS29E 20 Tape Remotes & Senses from Keyboard to Main Panel 675E 681 ! IS30E 20 , Tape Remotes & Senses from Computer to Keybrd S31 ! 82E43 , 82E48 | IS31E 40 1 Tape Remotes & Senses : Keyboard Interface ! 82E43 | 82E48 ! IS32E 10 ! Extemal Keyboard switcb.es to Command Keyboard ] 82E48 | !S33E| 20 ! Link from Command Keyboard to Alpna-Numeric Keybd | 82E48 | 82E49 ! |S34E| 34 | VDU interface card to VDU Daughter card | 82E44 | !S35E| 34 ! Link from LED Mother card to Daughter card | 82E47 ! 82E53 ! |S36E| 50 ! Analogue Output card 1 to 48 & Master Fader | 82E42 ! !S37E| 20 | Analogue Output card 49 to 56 j 82E42 | |S38E| 20 | Aux Dig. Out: Rem. Cont. of Master Transp. Select | 82E42 | SL696 | !S39E| 50 | Analogue Input card 1 to 48 & Master Fader | 82E41 ! |S40E| 20 | Analogue Input card 49 to 56 | 82E41 ! |S41E| 20 | Analogue Input card, aux d i g i t a i inputs 0 to 15 | 82E41 | |S42E| 10 | Analogue Input Card lin k for 66 fader up j 82E41 ! !S43E| 10 | Analogue Output Card l i n k for 66 up | 82E42 | |S50Ej 10 | Penthouse distribution to LF meter | 82E06 | 82E55 | !S51E| 10 ! Penthouse distribution to RF meter | 82E06 ! 82E55 ! jS52E| 10 ! Penthouse distribution to LB meter j 82E06 ! 82E55 | !S53E| 10 | Penthouse distribution to RB meter j 82E06 | 82E55 | IS54EI 10 ! Penthouse distribution to Phase meter | 82E05 | 82E55 ! !S55E| 10 | Penthouse distribution to Mono or Difference Meter| 82E06 | 82E55 ! |S56E| 10 ! Penthouse distribution to Monitor LED's | 82E55 i !S57E| 10 ! Penthouse distribution to St Cue L Meter | 82E06 | 82E55 | i S58E i 10 | Penthouse distribution to St Cue R Meter | 82E06 | 82E55 | !S59E| 10 ! Penthouse distribution to Cue 1 Meter j 82E06 | 82E55 !
T0631E.50
5-17
July 22, 1985
SL4000E/600GV Consoles Ribbon Ccnnector Summary continued
i Ref |Ways j Description [Cards & Modules assoc
i S60E I 10 iPenthouse distribution to Cue 2 Meter [ 82E06 i 82E55 i S61E i 10 IPenthouse distribution to Cue 3 Meter i 82E06 I 82E55 ! S62E ! 10 iPenthouse distribution to Cue 4 Meter [ 82E06 i 82E55 1 S63E ! 10 IPenthouse distribution to SLS L Meter [ 82E06 I 82E55 I S64E ! 10 [Penthouse distribution to SLS R Meter [ 82E06 I 82E55 I S65E i 40 jBargraph Mothercard to 16 Meters [ 82E58 1 82E I S66E ! 20 [Bargraph Switch Card to Mothercard [ 82E58 ! 82E60 I S67E i 10 [Supercue Card to 611E-TR Mothercard ! 82E91 I611ETV I S68E I 20 [611E- TR - Multiplexer [ 82E03 i 611E I S69E j 20 [611E- TR - Multiplexer [ 82E03 I 611E I S70E i 20 [611E- TR - Multiplexer [ 82E03 i 611E I S71E I 20 i 611E- TR - Multiplexer [ 82E03 I 611E I S72E ! 20 [611E- TR - Multiplexer [ 82E03 i 611E i S73E I 20 [611E- TR - Multiplexer i 82E03 I 611E ! S74E I 50 ISL612 Test Jig Upper bus [ 612E I S75E ! 50 ISL612 Test Jig Lower bus [ 612E I S76E ! 50 !Research Machines Bus [ 82E89 ! 82E90 ! S77E ! 20 'CA./R.M. Ccmmunication Link I 82E90 S78E I 26 R.M. Keyboard Port 82E89 S79E 1 34 R.M. V.D.U./CP.U. Link 82E89 S80E 26 R.M. H.R.G. Link 82E90 S81E 20 Total Recall Bus Data Sends 82E90 681E S82E 14 R.M. V.D.U./H.R.G. Link 82E90 S83E 20 Total Recall Link 681E S84E 10 Total Recall Link 82E89 82E90 S85E 40 ! CA. Floppy Controller Cable 691E S86EJ 50 ! Shugart Floppy Drive j 694E | S87E| 10 | Output for Phasescope j 82E55 ! S88E| 26 | Z8 Parallel Connector j 82E78 i 82E1311 S89E| 34 ! Events System Control Cable | 82E100I 82E130! S90E| 26 | Event 1-8 Relay Closures | 82E100I 675E ! S91Ej 20 i Real Time System Control Cable [ 82E107| 82E127| S92E| 20 | Remote Command Keyboard to Keyboard Encoder| 82E102| 82E103| S93E| 10 | Floppy Disk Front Panel Cable [ 82E113| 82E114J S95E| 20 ! V.D.C. Control Cable [ 82E111| 685E | S96E| 25 | Printer Cable [ 82E119| 693E ! S97E| 20 | VCA Fader Back Contacts j 82E37 | 82E38 ! S98E| 50 ! CA. Operators Console Cable [ 691E ! S99E| 50 | Remote Keyboard Station Cable [ 691E | 684E | SlOOEi 82E113! 82E114I SlOlEj 10 | Power Supply Mother to Led Mounting (F/P) j 82E99/1 15 82E87 S102E| 26 | Z8 RS232 Connector j 82E131| S103E| 25 ! 651E User Option [ 651E | 675E j S104E| 25 | 6Tr/3Tr Monitor Panel to 651E j 688V | 651E | S105E! 20 ! 688 4Tr Remotes [ 688V | 675E j S106EI 20 ! 688 8Tr Remotes [ 688V | 675E | S107E| 10 | 6Tr/3Tr Mon Panel to 672E Penthouse AL j 688V ! 672E |
T0631E.50
5-18
July 22, 1985
SL4000E/6000V Consoles Ribbon Connector Summary
I Ref i Ways ! Description ICards & Modules Assoc
!S108E I 10 ! 6Tr/3Tr Mon Panel to 672E Penthouse AR ! 688V ! 672E |S109E ! 10 I 6Tr/3Tr Mon Panel to 672E Penthouse BL I 688V i 672E IS110E I 10 I 6Tr/3Tr Mon Panel to 672E Penthouse BR ,' 688V i 672E IS111E ! 10 i 6Tr/3Tr Mon Panel to 672E Penthouse CL ! 688V j 672E IS112E i 10 I 6Tr/3Tr Mon Panel to 672E Penthouse CR ! 688V i 672E IS113E I 9 i SMPTE Reader/Generator I 675E I 691E I 82E46 !S114E ! 25 I Master Transport SMPTE I 675E i 696E I 82E144 !S115E ! 9 I Synchroniser Serial I/F 1 I 675E i 696E ! 82E129 IS116E ! 9 I Synchroniser Serial I/F 2 I 675E ! 696E I 82E129 IS117E i 50 i Synchroniser Status ! 696E ! 82E147 I 82E145 i S118E I 64 I 683 Control Voltage Bus I 683E i S119E I 20 I 683 Status Lights & Switches 1 683E I 82E173 ! 82E169 i S120E I 20 I 683 Fader Card Cable i 683E i 82E168 i 82E164 IS121E I 50 I 683 Connector Cable 1 i 683E IS122E ! 50 I 683 Connector Cable 2 I 683E |S123E I 64 ! 683 Signal Distribution Bus ! 683E IS124E I DL 1 683 Signal & Power Umbilical ! 683E IS125E ! 10 ! Mix Bus C Left & Right ! 651E ! 82E184 !S126E I 25 ! 611S Remotes 1-4 i 631E ! 82E211 675E !S127E 25 611S Remotes 5-8 631E 82E211 675E
S130E 10 688V Group A lamps and smtches S131E 10 688V Group B lamps and switches S132E, 10 688V Group C lamps and switches S133EI 20 ! 688V AL patch sends and returns S134E,1 20 | 688V AR patch sends and returns S135E! 20 | 688V AM patch sends and returns | S136E| 20 | 688V BL patch sends and returns | S137Ej 20 ! 688V BR patch sends and returns j S138E| 20 | 688V BM patch sends and returns | S139EI 20 ! 688V CL patch sends and returns | S140E! 20 | 688V CR patch sends and returns | S141Ej 20 | 688V CM patch sends and returns j S142E,' 26 | 688V Master lamps and switches j S143E! 26 ! 688V Master lamps and switches J S144E! 20 | 688V group faders j S145E| 20 | 688V Mix Busses | S146EI 25 ! 688V Spare Switches | S147EI 26 | Highland Switch Cable | 631Ej 82E260 1 82E261 | S148EI 37 | Timecode Reader Cable | 696E| 675E 1 S149EI 37 | Timecode Generator Cable J 696E,' 675E ! S150EI 50 ! Svnchroniser Link Cable | 696Ej
T0631E.50
5-19
July 22, 1985
S3E 20 way Ribbon Connector pinout S4E 20 way Ribbon Connector
82E18 Upper Bus Card L i n k pre/post GH r e v 82E18 Upper Bus Card L i n k 651 Master Module Connectors 651 Master Module Connectors
No D e s c r i p t i o n (GH and Above Rev) No D e s c r i p t i o n ( P r i o r to GH Rev) *Hex Bus u n i t s only
1 S l a t e s i g n a l bus S l a t e S i g n a l Bus 1 Dynamics L i n k 2 VCA Trim Bus *Hex Bus C Right 2 Ov 3 VCA to Mon Bus VCA to Mon Bus 3 Cue 2 Mix bus 4 S l a t e Control bus S l a t e Control bus 4 Cue 2 Mix bus 5 Ch solo cut bus CH Solo Cut Bus 5 Ov 6 Ch solo c ut bus Spare *Hex Bus C L e f t 6 Ov 7 Status Mix bus Stat u s Mix Bus 7 Cue 1 Mix bus 8 Status Mis bus Master I/P F l i p 8 Cue 1 Mix bus 9 Mon solo cut bus Mon Solo Cut Bus 9 Ov
10 Mon solo cut bus Channel i n t o Meters 10 Ov 11 Machine Record bus M/C Record Bus 11 St Cue L Mix bus 12 Machine Record bus Master Ready Group 12 St Cue L Mix bus 13 Stat u s Record bus Status Record Bus 13 St Cue R Mix bus 14 Status Record Bus Stat u s Record Bus 14 St Cue R Mix bus 15 Solo D i s a b l e Solo D i s a b l e 15 Ov 16 VCA to Meters bus VCA to Meters 16 Ov 17 Ov Ov 17 AFL Mix Bus 18 Cue 3 Mix bus Cue 3 Mix Bus 18 AFL Mix bus 19 Cue 4 Mix bus Cue 4 Mix Bus 19 Ov 20 Ov Ov 20 Peak Hold bus (Ov when not
re q u i r e d )
S5E 20 way ] Ribbon Connector pinout
82E18 Lower Bus Card L i n k
651 Master Module Connections
No D e s c r i p t i o n
1 Quad Bus LF *Hex Bus A L e f t 2 Ov
3 Ov
4 Quad Bus LB *Hex Bus B L e f t 5 Ov
6 Ov
7 Quad Bus RF *Hex Bus A Right 8 Quad Bus RF *Hex Bus A Right 9 Ov
10 Ov
11 Quad Bus RB *Hex Bus B Right 12 Quad Bus RB *Hex Bus B Right 13 Ov
14 Ov
15 Ov
16 Ov
17 Mix Bus 1
18 Ov
19 Mix Bus 2
20 Ov
S6E 20 way Ribbon Connector pinout
82E19 Lower Bus Card L i n k
No D e s c r i p t i o n
1 Ov
2 Mix Bus 3 3 Ov
4 Mix Bus 4 5 Ov
6 Mix Bus 5
7 Ov
8 Mix Bus 6
9 Ov
10 Mix Bus 7 11 Ov
12 Mix Bus 8 13 Ov
14 Mix Bus 9 15 Ov
16 Mix Bus 10
17 Ov
18 Mix Bus 11
19 Ov
20 Mix Bus 12
T0631E.51
5-20
S7E 20 way Ribbon Connector pinout S8E 20 way Ribbon Connector pinout
82E19 Lower Bus Card Link 82E19 Lower Bus Card Link
No| Description
1 Ov 2 Mix Bus 13 3 Ov 4 Mix Bus 14 5 Ov 6 Mix Bus 15 7 Ov 8 Mix Bus 16 9 Ov 10 Mix Bus 17 11 Ov 12 Mix Bus 18 13 Ov 14 Mix Bus 19 15 Ov 16 Mix Bus 20 17 Ov 18 Mix Bus 21 19 Ov 20 Mix Bus 22
No| Description
1 Ov 2 Mix Bus 23 3 Ov 4 Mix Bus 24 5 Ov 6 Mix Bus 25 7 Ov 8 Mix Bus 26 9 Ov 10 Mix Bus 27 11 Ov 12 Mix Bus 28 13 Ov 14 Mix Bus 29 15 Ov 16 Mix Bus 30 17 Ov 18 Mix Bus 31 19 Ov 20 Mix Bus 32
S9E 10 way Ribbon Connector pinout S10E .20 way Ribbon Connector pinout
82E19 Lower Bus Card Link 82E19 Lower Bus Card 681 Keyboard Connection Mix Amp Selector
No | Description No | Description
1 Total Recall B i t 0 LSB 1 Ov 2 Total Recall B i t 1 2 Mix Bus 8 (16,24,32) Mix Amp inputs 3 Total Recall B i t 2 3 Mix Bus 8 (16,24,32) Mix Amp inputs 4 Total Recall B i t 3 4 Ov 5 Total Recall B i t 4 5 Mix Bus 7 (15,23,31) Mix Amp inputs 6 Total Recall B i t 5 6 Ov 7 Total Recall B i t 6 MSB 7 Mix Bus 6 (14,22,30) Mix Amp inputs 8 Total Recall MPX Enable 8 0v 9 Total Recall Address Enable 9 Mix Bus 5 (13,21,29) Mix Amp inputs 10 Total Recall Spare Bus 10 Ov
11 Ov 12 Mix Bus 4 (12,20,28) Mix Amp inputs 13 Ov 14 Mix Bus 3 (11,19,27) Mix Amp inputs 15 Ov 16 Mix Bus 2 (10,18,26) Mix Amp inputs 17 Ov 18 Mix Bus 1 ( 9,17,25) Mix Amp inputs 19 Mix Bus 1 ( 9,17,25) Mix Amp inputs
0631E.52 20 Ov 29 Jul 80
5-21
S11E 20 way Ribbon Connector pinout S12E 20 way Ribbon Connector pinout
Studio Fader 82E17 from Fader Bus Card 82E37 Fader Bus Card 82E37 to Lower Bus Card 82E19 VCA Fader Bus Card 82E38 ffiA . (2 per 8 611E Modules)
No | Description No | Description
1 Fader Wiper 1 Fader 1 Wiper 2 Fader +5v 2 Fader 1 +5v 3 VCA Thumbwheel pole 3 Fader 1 Thumbvvheel 4 Fader Ov 4 Fader 1 Ov 5 VCA Bus 1 (VCA 1 Computer Return) 5 Fader 2 Wiper 6 VCA Bus 5 (VCA 2 Computer Return) 6 Fader 2 +5v 7 VCA Bus 2 (VCA 3 Computer Return) 7 Fader 2 Thumbvvheel 8 VCA Bus 6 (VCA 4 Computer Return) 8 Fader 2 Ov 9 VCA Bus 3 (VCA 5 Computer Return) 9 Not used 10 VCA Bus 7 (VCA 6 Computer Return) 10 Not used 11 VCA Bus 4 (VCA 7 Computer Return) 11 Not used 12 VCA Bus 8 (VCA 8 Computer Return) 12 Not used 13 Chassis 13 Fader 3 Wiper 14 Spare Pad 14 Fader 3 +5v 15 LED & Switch Common 15 Fader 3 Thumbvvheel 16 Spare Pad 16 Fader 3 Ov 17 VCA Bus 0 17 Fader 4 Wiper 18 Absolute LED 18 Fader 4 +5v 19 Trim LED 19 Fader 4 Thumbvvheel 20 Status Switch 20 Fader 4 Ov
Note:- Fader 1 i s equivalent to Faders 1,5, 9,13,17,21,25,29,33,37,41,45 Fader 2 i s equivalent to Faders 2,6,10,14,18,22,26,30,34,38,42,46 Fader 3 i s equivalent to Faders 3,7,11,15,19,23,27,31,35,39,43,47 Fader 4 i s equivalent to Faders 4,8,12,16,20,24,28,32,36,40,44,48
() Connections to S11E on VCA Fader Bus Card, Revision Level 02.
T0631E.53 31 Mar 82
S13E 10 way Ribbon Connector pinout Sl4E 50 way Ribbon Connector pinout
Fader Bus Card 82E37
VCA Bus Card link 82E38
No| Description
Fader Bus Card 82E37 VCA Fader Bus Card 82E38 Main Connector Panel SL675
No| Description
1 VCA Bus 1 2 VCA Bus 5 3 VCA Bus 2 4 VCA Bus 6 5 VCA Bus 3 6 VCA Bus 7 7 VCA Bus 4 8 VCA Bus 8 9 VCA Bus 9
10 NC
S15E 20 way Ribbon Connector pinout
VCA Fader Bus Card 82E38
Master Module 65I
No| Description
1 VCA Bus 1 2 VCA Bus 5 3 VCA Bus 2 4 VCA Bus 6 5 VCA Bus 3 6 VCA Bus 7 7 VCA Bus 4 8 VCA Bus 8 9 VCA Bus 0 (Channels)
10 NC (Channels)
11 VCA Bus 0 (Groups) 12 NC 13 NC 14 NC 15 Master Fader common 16 NC 17 Master Fader switch 18 NC 19 Master Fader Trim LED 20 Master Fader Abs LED
8
9 10 11 12
13 14
15 16
17 18
19 20 21 22
23 24
25 26
27 28
29 30 31 32
33 34 35 36 37 38
39 40 41 42
43 44 45 46 47 48 49 50
LED & Switch Common Fader 8 Svvitch Fader 8 Trim LED Fader 8 Abs LED Fader 7 Switch Fader 7 Trim LED Fader 7 Abs LED
Switch Trim LED Abs LED Switch Trim LED Abs LED Switch
Fader 4 Trim LED Fader 4 Abs LED
Switch Trim LED Abs LED Svvitch Trim LED Abs LED Svvitch Trim LED Abs LED
LED & Svvitch Common Master Fader Common (82E38) Master Fader Svvitch (82E38) Master Fader Trim LED (82E38) Master Fader Abs LED (82E38) Fader 1 Computer Return
S16E 20 way Ribbon Connector pinout S17E 20 way Ribbon Connector pinout
VCA Fader Bus Card 82E38 651 Master Module Fader Bus Card 82E37-Master Module 651 Upper Bus Card 82E18 681 Keyboard
No D e s c r i p t i o n No D e s c r i p t i o n
1 Fader 1 Computer r e t u r n 1 M u l t i t r a c k Common Sense 2 Fader 2 Computer r e t u r n 2 M u l t i t r a c k Record Sense 3 Fader 3 Computer r e t u r n 3 M u l t i t r a c k Sync Contact 4 Fader 4 Computer r e t u r n 4 M u l t i t r a c k Sync Contact 5 Fader 5 Computer r e t u r n 5 +20V Solo Enable 6 Fader 6 Computer r e t u r n 6 VCA 1 Cut Switch 7 Fader 7 Computer r e t u r n 7 VCA 5 Cut Switch 8 Fader 8 Computer r e t u r n 8 VCA 2 Cut Switch 9 Master Fader Return (82E38) 9 VCA 6 Cut Switch
10 Ov 10 VCA 3 Cut Switch 11 Fader 1 Computer send 11 VCA 7 Cut Switch 12 Fader 2 Computer send 12 VCA 4 Cut Switch 13 Fader 3 Computer send 13 VCA 8 Cut Switch 14 Fader 4 Computer send 14 VCA Solo Cut Bus 15 Fader 5 Computer send 15 +20v 16 Fader 6 Computer send 16 Rehearse Command 17 Fader 7 Computer send 17 -20v 18 Fader 8 Computer send 18 -20v 19 Master Fader send (82E38) 19 M u l t i t r a c k P l a y Sense 20 Ov 20 Rehearse Command
S18E 20 way Ribbon Connector pinout S19E 20 way Ribbon Connector pinout
651 Master Module 651 Master Module 82E237 Penthouse D i s t r i b u t i o n Panel
82E58 Bargraph Master Mothercard 82E38 VCA Fader Bus Card
No D e s c r i p t i o n No D e s c r i p t i o n
1 LB Meter 0° 1 +5v 2 LF Meter 0° 2 +5v 3 RF Meter 0° 3 Ov 4 RB Meter 0° 4 Ov 5 Solo LED 5 VCA Fader 1 Thumbwheel 6 L i s t e n LED 6 VCA Fader 1 Wiper 7 Dim LED 7 VCA Fader 2 Thumbwheel 8 SLS LED 8 VCA Fader 2 Wiper 9 Cut LED 9 VCA Fader 3 Thumbwheel
10 VCAs to Meters 10 VCA Fader 3 Wiper 11 St Cue L Meter 0 11 VCA Fader 4 Thumbwheel 12 St Cue R Meter 0 12 VCA Fader 4 Wiper 13 Cue 1 Meter 0 13 VCA Fader 5 Thumbwheel 14 Cue 2 Meter 0 14 VCA Fader 5 Wiper 15 Cue 3 Meter 0 15 VCA Fader 6 Thumbwheel 16 Cue 4 Meter 0 16 VCA Fader 6 Wiper 17 SLS L Meter 0 17 VCA Fader 7 Thumbwheel 18 SLS R Meter 0 18 VCA Fader 7 Wiper 19 Spare (Broadcast) 19 VCA Fader 8 Thumbwheel 20 Peak h o l d bus (82E66 c a r d s ) 20 VCA Fader 8 Wiper
T0631E.55
Dec 87
5-24
S20E 20 way Ribbon Connector pinout S21E 20 way Ribbon Connector pinout
611E Mothercard 651 Power Indicator Connector
82E03 Multiplex Card
No Description No | Description
1 +13 Voit led anode 1 Total Recall B i t 0 LSB 2 +48 Voit led anode 2 Total Recall B i t 1 3 +48 Voit led cathode 3 Total Recall B i t 2 4 +13 Voit led cathode 4 Total Recall B i t 3 5 Not used 5 Total Recall B i t 4 6 +20 Voit led anode 6 Total Recall B i t 5 7 +20 Voit led cathode 7 Total Recall B i t 6 MSB 8 -20 Voit led anode 8 Total Recall MPX Enable 9 -20 Voit led cathode 9 Total Recall Address Enable 10 Not used 10 Total Recall Spare bus
11 OV 12 +20V 13 +13V
S23E 10 way Ribbon Connector pinout 14 Computer Return to VCA 82E14 P20 15 Spare
82E06 Vu Meter 16 Computer Retum from 611E U29 82E18 Upper Bus Card 17 Spare 82E55 Penthouse Dist. Card 18 Computer Send from VCA 82E14 P17
19 -20V No| Description 20 Computer Send to 611E U28
1 spare 2 +13v 3 Meter 0? 4 VCA LED + 5 +20v 6 RECORD LED + 7 0v 8 GROUP LED + 9 -20v 10 TAPE LED +
S24E 10 way Ribbon Connector pinout
8205 Phasemeter Card 82E55 Meter Distribution Card
No Description
1 Output to Phasemeter 2 Output to Phasemeter 3 Ov 4 Ov 5 +20v 6 -20v 7 Input 1 0 8 Ov 9 Input 2 0 10 Ov
Sync-Replay Changeover Contacts Sync-Replay Changeover Contacts Lamps Common Switches Common Rewind Switch Rewind Lamps Fast Forvvard Switch Fast Forvvard Lamp Stop Switch Stop Lamp Play Switch Play Lamp Edit Switch Edit Lamp Record Switch Record Lamp Tach Pulses Tach Pulses Direction Sense Direction Sense
S30 20 vvay Ribbon Connector pinout
from Tape Machine Interface CF8243 to Keyboard VDU Interface CF8244
No|Description Contact B=Common
1 Record Contact A D2 2 Play Contact A Dl 3 Record Contact B D2 4 Play Contact B Dl 5 FForward Contact A D3 6 Stop Contact A D0 7 FForward Contact B D3 8 Stop Contact B D0 9 Direction Sense A 10 Pulse A 11 Direction Sense B 12 Pulse B 13 Rewind Contact A D4 14 + 20v 15 Rewind Contact B D4 16 + 13v 17 Edit Contact A D5 18 Rehearse Command 19 Edit Contact B D5 20 Rehearse Common
+12v Bleep tone -12v Ov Pulse Ov Data Bl Ov Data B2 Ov Data B3 Ov . Data B4 Ov Data B5 Ov Data B6 Ov Data B7 Ov Edit Common Rehearse Common Edit Rehearse Command FR Common Spare FR Spare Direction Sense Common Idler Pulse Common Direction Sense Idler Pulse FF Common Stop Common FF Stop Record Common Play Common Record Play Total Recall B i t 0 LSB Total Recall Bi t 1 Total Recall Bi t 2 Total Recall B i t 3 Total Recall Bi t 4 Total Recall Bi t 5 Total Recall Bi t 6 MSB Total Recall MPX Enable Total Recall Address Enable +5V
T0631E.58 26 Apr 82
5-27
Effective from Serial No. 4066
S32E 10 way Ribbon Connector pinout
1 2 3 4 5 6 7 8 9 10
681 Status Switches 82E69 681 Remote & VCA Switches 82E68
S34 34 way Ribbon Connector pinout S35 34 way Ribbon Connector pinout
FRCM: RESEARCH MACHINES VDU BOARD
TO: KEYBOARD - VDU INTERFACE CF8244
FROM: 16 LED's & Switches CF8253
TO:. Fader LED & Sw Interface CF8247
No | Description No | Description
1 -12v 1 Switch 2 +12v 2 Green LED 3 -5v 3 Not used 4 Ov 4 Red LED 5 Line blank (modified from page mode) 5 :4x (from Decoder) 6 Enable NM1 (not used) 6 :4x (from Decoder) 7 +5v 7 Ov 8 (NM1) (not used) 8 Ov 9 Clock 8 MHz 9 Ov 10 (3WR) (not used) 10 Ov 11 (3R0) (not used) 11 5v 12 (10 Select) low to access 10 Ports 12 5v 13 (RD) 13 5v 14 (VDU Select) lcw access VDU Memory 14 5v 15 (WR) 15 (OUT) 16 (D 0) 16 (OUT) 17 (D 1) 17 (IN) 18 (D 2) 18 (IN) 19 (D 3) 19 D Bus 0 20 (D 4) 20 D Bus 1 21 (D 5) 21 D Bus 2 22 (D 6) 22 D Bus 3 23 (D 7) 23 D Bus 4 24 (A 0) 24 D Bus 5 25 (A 1) 25 D Bus 6 26 (A 2) 26 D Bus 7 27 (A 3) 27 D Bus 8 28 (A 4) 28 D Bus 9 29 (A 5) 29 D Bus 10 30 (A 6) 30 D Bus 11 31 (A 7) 31 D Bus 12 32 (A 8) 32 D Bus 13 33 (A 9) 33 D Bus 14 34 (A 10) 34 D Bus 15
T0631E.5A 06 May 80
S36E 50 way Ribbon Connector pinout S37E 20 way Ribbon Connector pinout
D0 Transport A Select Dl Transport B Select D2 Transport C Select D3 Aux Digital Output D4 Aux Digital Output D5 Aux Digital Output D6 Aux Digital Output D7 Aux Digital Output D8 Aux Digital Output D9 Aux Digital Output D10 Aux Digital Output Dll Aux Digital Output D12 Aux Digital Output D13 Aux Digital Output D14 Aux Digital Output D15 Aux Digital Output Computer +5v Computer +5v Computer Ov Computer Ov Transport A Tally Transport B Tally Transport C Tally Tally Canmon +22V Tally Common +22V
1 Aux Digital input ä 2 Aux Digital input 1 3 Aux Digital input 2 4 Aux Digital input 3 5 Aux Digital input 4 6 Aux Digital input 5 7 Aux Digital input 6 8 Aux Digital input 7 9 Aux Digital input 8 10 Aux Digital input 9 11 Aux Digital input 10 12 Aux Digital input 11 13 Aux Digital input 12 14 Aux Digital input 13 15 Aux Digital input 14 16 Aux Digital input 15 17 5v 18 5v 19 Ov 20 Ov
5-31
S50E Quad Bus LF 10 Way Ribbon S51E Quad Bus RF 10 Way Ribbon S52E Quad Bus LB 10 Way Ribbon S53E Quad Bus RB 10 Way Ribbon
S55E Mono 10 Way Ribbon
S57E Stereo Cue L 10 Way Ribbon S58E Stereo Cue R 10 Way Ribbon S59E Cue 1 10 Way Ribbon S60E Cue 2 10 Way Ribbon S61E Cue 3 10 Way Ribbon S62E Cue 4 10 Way Ribbon S63E Studio LS L 10 Way Ribbon S64E Studio LS R 10 Way Ribbon
82E55 Meter Distribution Card
82E06 Vu Meter Card
S54E 10 way Ribbon Connector pinout
82E55 Meter Distribution Card
82E05 Phasemeter
No Description
1 Spare 2 Spare 3 Meter + 4 Spare bus 5 +20v 6 Spare bus 7 Meter -8 Spare bus
- 9 -20v 10 Spare bus
No| Description S56E 10 way Ribbon Connector pinout
82E55 Meter Distribution Card
82E62 Waming Lights Mother Card
No| Description
1 2 3 4 5 6 7 8 9 10
(DR) PFL on S55E +13v Signal, Meter 0 , Spare bus +20v Spare bus Ov Spare bus -20v Spare bus
see table above
Special 10 Way Connector for NTP Meters
LF & RF cables to NTP stabiliser Console Serial No. 4027 (Canary-Japan)
1 2 3 4 5 6 8 9 10
Spare +13v Spare Monitor Dim Lamp +20v Monitor Solo Listen Mic Lamp -20v Studio LS Lamp
No | Description
1 LB signal (RB signal) 2 +13v 3 LF signal (RF signal) 4 Spare bus 5 +20v 6 Spare bus 7 Ov 8 Spare bus 9 -20v 10 Spare bus
T0631E.5D 15 Feb 82
5-32
S65E 40 way Ribbcn Connector pinout S66E 20 way Ribbon Connector pinout
nh This connector up to 263volts DC on many of the pins therefore please turn o f f before connecting or disconnecting and take care please
T0631E.5E 16 Feb 82
5-33
S68 20 way Ribbon Connector pinout
Total Recall Connections frcm Controls (611E) to CF82E03
S69 20 way Ribbon Connector pinout
Total Recall Connections frcm Controls (611E) to CF82E03
No|Description No|Description
1 Not Used 1 Routing to Track 32 2 Routing to Track 1 2 Routing to Quad Bus RB 3 Not Used 3 Routing to Track 31 4 Routing to Track 2 4 Routing to Quad Bus LB 5 Not Used 5 Routing to Track 30 6 Routing to Track 3 6 Routing to Quad Bus RF 7 Not Used 7 Routing to Track 29 8 Routing to Track 4 8 Routing to Quad Bus LF 9 Routing to Track 16 9 Routing to Track 28 10 Routing to Track 5 10 Routing to Track 17 11 Routing to Track 15 11 Routing to Track 27 12 Routing to Track 6 12 Routing to Track 18 13 Routing to Track 14 13 Routing to Track 26 14 Routing to Track 7 14 Routing to Track 19 15 Routing to Track 13 15 Routing to Track 25 16 Routing to Track 8 16 Routing to Track 20 17 Routing to Track 12 17 Routing to Track 24 18 Routing to Track 9 18 Routing to Track 21 19 Routing to Track 11 19 Routing to Track 23 20 Routing to Track 10 20 Routing to Track 22
T0631E.5F 23 Jul 80
5-34
S70 20 way Ribbon Connector pinout
Total Recall Connections Frcm The Front Panel to CF82E03
S71 20 way Ribbon Connector pinout
Total Recall Connections Frcm The Front Panel to CF82E03
No|Description No|Description
1 Expand Release pot 1 HF Bell svvitch 2 Expand Release switch 2 Split svvitch 3 Expand/Gate switch 3 Dynamics to Channel Output 4 E132 EQ(611E-b/c and 611V A/B up) 4 Dynamics to Monitor 5 Expand Range pot 5 Insert Pre svvitch 6 Not Used 6 HF F i l t e r pot 7 Compress Release svvitch 7 Dynamics to Channel Input 8 Input Flip svvitch 8 LF F i l t e r pot 9 Expand Threshold Pot 9 LMF +- pot 10 Mic -20dB pad svvitch 10 HF +- pot 11 Compress Release pot 11 LMF + pot 12 Routing Pan svvitch 12 HF + pot 13 Link svvitch 13 LMF Q pot 14 Sub-Group svvitch 14 HMF +- pot 15 Compress Threshold pot 15 LF + pot 16 Routing Pan pot 16 HMF + pot 17 Compress Ratio pot 17 Insert In svvitch (RM) 18 Line Gain Trim pot 18 LF +- pot 19 Mic Gain Trim pot 19 LF Bell svvitch (RM) 20 Phase 0 svvitch 20 HMF Q pot
T0631E.5G 08 Oct 82
S72 20 way Ribbon Connector pinout S73 20 way Ribbon Connector pinout
Total Recall Connections Frcm 611E Front Panel to CF82E03
Total Recall Connections Frcm 611E Front Panel to CF82E03
No | Description No|Description
1 Equalizer to Channel switch 1 VCA Fader Solo svvitch RM 2 Equalizer to Dynamics switch 2 Not Used 3 Cue 3 Small Fader switch RM 3 VCA Fader Cut svvitch RM 4 Equalizer to Monitor switch 4 Cue 4 Pre svvitch RM 5 Cue 3 Puli switch RM 5 Left Right Pan pot 6 Stereo Cue Pan pot 6 Cue 4 Level pot 7 Cue 3 Level pot 7 Front Back Pan svvitch RM 8 Stereo Cue Pre switch RM 8 Cue 4 Puli svvitch RM 9 Cue 3 Pre switch RM 9 Front Back Pan pot 10 Stereo Cue Small Fader switch RM 10 Cue 4 Small Fader svvitch RM 11 Cue 2 Small Fader switch RM 11 Small Fader Solo svvitch 12 Stereo Cue Level pot 12 Group Float svvitch RM 13 Cue 2 Puli switch RM 13 Small Fader Cut svvitch 14 Stereo Cue Puli switch RM 14 Group Direct svvitch RM 15 Cue 2 Level pot 15 Dynamics to Channel Output 16 Cue 1 Pre switch RM 16 Group Line Trim pot 17 Cue 2 Pre switch RM 17 Dynamics to Channel Input 18 Cue 1 Level pot 18 Ready Group svvitch 19 Cue 1 Small Fader svvitch AM 19 Small Fader Level 20 Cue 1 Puli svvitch RM 20 Ready Tape svvitch
T0631E.5H 23 Jul 80
5-36
S74E 50 Way Ribbon Connector Pinout
SL612 Test Jig Upper Bus Connector
linked to U7 linked to U8 linked to U3 linked to U12 to U13 to U16
No|Description
1 Noise Test Pole A 2 Noise Test Pole B 3 0V (Mic 0V) 4 Insert send o? (U5) 5 Line input 0? (U10) 6 Group Output/Moniter 0?(U14/U15) 7 Tape Moniter 0? (U17) 8 Meter O/P (U19) 9 Tape LED (U21) Via Diode 10 Group LED (U22) Via Diode 11 Record LED (U23) Via Diode 12 Record Contact b (U26) 13 Record Contact a (U25) 14 Dynamics Link Send (U31) 15 Dynamics Link Ret (U32) 16 + 48V (U34/U35) 17 + 20V (U37) 18 + 20V (U38) 19 + 20V (U39) 20 + 13V (U41) 21 + 13V (U42) 22 OV (U44) 23 OV (U45) 24 OV (U46) 25 - 20V (U48) 26 - 20V (U49) 27 - 20V (U50) 28 - 20 lamps (U52) 29 - 20 lamps (U53) 30 VCA Trim Bus (U55) 31 Slate Sig Bus (U56) 32 VCA to Mon Bus (U57) 33 Slate Control Bus (U58) 34 Chan Sote Cut Bus (U59) 35 Status Mic Bus (U60) 36 Mon Solo Cut Bus (U61) 37 M/C Rec Bus (U62) 38 Status Rec Bus (U63) 39 Not Used 40 VCA to Meter Bus (U65) 41 Cue 4 Mix Bus (U67) 42 Cue 3 Mix Bus (U68) 43 Cue 2 Mix Bus (U70) 44 Cue 1 Mix Bus (U72) 45 St L Mix Bus (U74) 46 St R Mix Bus (U75) 47 AFL Mix Bus (U77) 48 OV (U76) 49 0V (U76) 50 Probe Socket
U4 U5 U l l U l l U14 linked to U15 U14 U15 linked to U12 U13 via 600R UI to U2 via 200R UI to Noise Sw A via 1K U2 to Noise Sw B via 1K U28 linked to U29 U64 Solo Disable to 13V via 10K
T0631E.5J 30 Jul 80
5-37
S75E 50 way Ribbcn Connector pinout
SL612 Test Jig Lower Bus
L5 to L9 via 15K L9 to L10 via 392K
No|Description
2 Quad Bus LF (L 1) 2 Quad Bus LB (L 3) 3 Quad Bus RF (L 5) 4 Quad Bus RB (L 7) 5 Mix Amp 0? 6 NC 7 Mix Bus 1 (LII) 8 Mix Bus 2 (L13) 9 Mix Bus 3 (L15) 10 Mix Bus 4 (L17) 11 Mix Bus 5 (L19) 12 Mix Bus 6 (L21) 13 Mix Bus 7 (L23) 14 Mix Bus 8 (L25) 15 Mix Bus 9 (L27) 16 Mix Bus 10 (L29) 17 Mix Bus 11 (L31) 18 Mix Bus 12 (L33) 19 Mix Bus 13 (L35) 20 Mix Bus 14 (L37) 21 Mix Bus 15 (L39) 22 Mix Bus 16 (L41) 23 Mix Bus 17 (L43) 24 Mix Bus 18 (L45) 25 Mix Bus 19 (L47) 26 Mix Bus 20 (L49) 27 Mix Bus 21 (L51) 28 Mix Bus 22 (L53) 29 Mix Bus 23 (L55) 30 Mix Bus 24 (L57) 31 Mix Bus 25 (L59) 32 Mix Bus 26 (L61) 33 Mix Bus 27 (L63) 34 Mix Bus 28 (L65) 35 Mix Bus 29 (L67) 36 Mix Bus 30 (L69) 37 Mix Bus 31 (L71) 38 Mix Bus 32 (L73) 39 Fader 5V (L74) 40 Fader Wiper (L75) 41 VCA Thumbwheel (L76) 42 Fader OV (L77) 43 Not Used 44 Not Used 45 Not Used 46 Not Used 47 Not Used 48 Not Used 49 Not Used 50 Not Used
T0631E.5K 30 Jul 80
5-38
S76E 50 way Ribbon Connector pinout S77E 20 way Ribbon Connector pinout
Research Machines Bus CA to RM CtmiTunication Port
Reset Not Used Data Bus 0 Data Bus 1 Data Bus 2 Data Bus 3 Data Bus 4 Data Bus 5 Data Bus 6 Data Bus 7 Address Bus 0 Address Bus 1 Address Bus 2 Address Bus 3 Address Bus 4 Address Bus 5 Address Bus 6 Address Bus 7 Address Bus 8 Address Bus 9 Address Bus 10 Address Bus 11 Address Bus 12 Address Bus 13 Address Bus 14 Address Bus 15 Busrq Walt Busak In t Nmi Hait Iorq Wr Rd Mreq Rfsh Ml 0V Not used +5V +5V +5V +12V +5V -12V Not used 0V 0V 0V
Keyboard Data Bus 0 Keyboard Data Bus 1 Keyboard Data Bus 2 Keyboard Data Bus 3 Keyboard Data Bus 4 Keyboard Data Bus 5 Keyboard Data Bus 6 Keyboard Data Bus 7 Keyboard Strobe 0V -12V +5 0V Not Used Reset CA to RM Latch Reset RM to CA Latch Not Used Reset Switch Not used Not Used Not Used Not Used Not Used Not Used Test RM to CA Latch Test CA to RM Latch
Research Machines C.P.U./V.D.U. Link 82E90 Research Machines H.R.G. Link
No|Description No|Description
1 -12V 1 OV 2 +12V 2 Red Bit 1 (RB1) 3 -5V 3 Blue B i t 1 (BB1) 4 OV 4 OV 5 Line blank 5 Green B i t 1 (GB1) 6 Enable NM1 6 Red Bit 2 (RB2) 7 +5V 7 OV 8 (NMl) 8 Blue Bit 2 (BB2) 9 Clock 8 MHz 9 Green Bit 2 (GB2) 10 (3WR) 10 OV 11 (3R0) 11 Red Bit 3 (RB3) 12 (10 Select) 12 Green Bit 3 (GB3) 13 (RD) 13 0V 14 (VDU Select) 14 Not Used 15 (WR) 15 OV 16 (D 0) 16 Sync (SYNC) 17 (D 1) 17 0V 18 (D 2) 18 Video 1 (VI) 19 (D 3) 19 OV 20 (D 4) 20 Video 2 (V2) 21 (D 5) 21 Not Used 22 (D 6) 22 +12V 23 (D 7) 23 +5V 24 (A 0) 24 Not Used 25 (A 1) 25 Not Used 26 (A 2) 26 -12V 27 (A ) 2R \ r\ Oy
(A A) 29 y r\ *3 J (A 5)
S81E 20 vvay Ribbon Connector pinout CA fil ou
31 \ r\ vJ J (A 7)
82E90 T.M.C. Bus 32 (A 8) 32 (A 8) 33 (A 9) No 1Description 34 (A 101 34
1 Total Recall B i t 0 LSB 2 Total Recall B i t 1
S82E 14 way Ribbon Connector pinout 3 Total Recall B i t 2 4 Total Recall B i t 3
Research Machines V.D.U./H.R.G. Link 5 Total Recall B i t 4 6 Total Recall B i t 5
No 1Description | VDU Test Skt 7 Total Recall B i t 6 MSB 8 Total Recall MPX Enable
1 Not Used Re Not Used 9 Total Recall Address Enable 2 Line Blanking Ye Pin 11 10 +5V 3 Frame Reset Be Pin 5 11 OV 4 Video Grey Gy Pin 4 12 Not Used 5 Video White Be Pin 3 13 Not Used 6 Not Used Re Not Used 14 Not Used 7 Not Used Ye Not Used 15 Not Used 8 0V Or Pin 1 16 Not Used 9 OV Br Pin 1 17 MPX Address Enable 10 OV Wh Pin 1 18 MPX Address Enable 11 OV Vi Pin 1 19 MPX +5V 12 OV Gn Pin 1 20 MPX +5V 13 0V Or Pin 1 14 0V Br Pin 1
SL681E Total Recall Bus Link SL694E CA. Floppy Controller Cable
No |Description Nb|Description
1 Total Recall B i t 0 LSB 1 Head Load Return 2 Total Recall B i t 1 2 Head Load 3 Total Recall B i t 2 3 Direction Retum 4 Total Recall B i t 3 4 Direction 5 Total Recall B i t 4 5 Lovv Current Retum 6 Total Recall B i t 5 6 Lovv Current 7 Total Recall B i t 6 MSB 7 Step Return 8 Total Recall MPX Enable 8 Step 9 Total Recall Address Enable 9 Unit 0 Retum 10 + 5V frcm S31E 10 Unit 0 11 Not Used 11 Unit 1 Retum 12 Not Used 12 Unit 1 13 Not Used 13 Unit 2 Retum 14 Not Used 14 Unit 2 15 Not Used 15 Unit 3 Retum 16 Not Used 16 Unit 3 17 +13V 17 Not Used 18 +13V 18 Not Used 19 +20V 19 Side Select Retum 20 +20V 20 Side Select
82E89-82E90 Link 25 Track 00 Retum 26 Track 00 27 Index Retum
No1Description 28 Index 29 Tvvo Sided Retum
1 Not Used 30 Tvvo Sided 2 Blank video 31 Ready Retum 3 Not Used 32 Ready 4 Blank Video 33 Not Used 5 Not Used 34 Not Used 6 Not Used 35 Vvrite Enable Retum 7 Not Used 36 Vvrite Enable 8 Out AF 37 VJrite Data Retum 9 Not Used 38 Vvrite Data 10 Out Af 39 Not Used
40 Not Used
T0631E.5N 20 Apr 82
5-41
S86E 50 way Ribbon Connector pinout S87E 10 way Ribbon Connector pinout
SL694E Shugart Floppy Drive Connector Output for Phasescope -Danmarks Radio
Not Used Not Used Not Used Not Used Not Used Not Used Not Used Not Used Two Sided Return Two Sided Disc Change Retum Disc Change Side Select Retum Side Select In Use Retum In Use Head Load Retum Head Load Index Retum Index Ready Retum Ready Sector Retum Sector
Retum
1 2 3 4 5 6 7 8 9 10
Ov Ov Left Signal Left Signal Ov Ov Right Signal Right Signal Ov Ov
Unit Unit Unit Unit Unit Unit Unit Unit
Retum
Retum
Retum
Direction Retum Direction Step Retum Step Write Data Retum Vvrite Data Vvrite Gate Retum Vvrite Gate Track 00 Retum Track 00 VJrite Protect Retum VJrite Protect Read Data Retum Read Data Sep Data Retum Sep Data Sep Clock Retum Sep Clock
T0631E.5P 20 Apr 82
5-42
S88E 26 Way Ribbcn GDnnector
CF82E131 Parallel Connector
No| Description
1 D.B.O. 2 D.B.l 3 D.B.2 4 D.B.3 5 D.B.4 6 D.B.5 7 D.B.6 8 D.B.7 9 Z8 TO CA FLAG 10 Z8 SERIAL OUTPUT 11 N.U. 12 N.U. 13 CA TO Z8 FLAG 14 Z8 SERIAL INPUT 15 Z8 INTERRUPT 16 N.U. 17 -12 VOLTS 18 -12 VOLTS 19 +12 VOLTS 20 +12 VOLTS 21 0 VOLTS 22 0 VOLTS 23 +5 VOLTS 24 +5 VOLTS 25 SYSTEM RESET 26 DO NOT USE
Event 1 Svvitch Event 1,2 Svvitch Common Event 2 Svvitch Event 3 Svvitch Event 3,4 Svvitch Common Event 4 Svvitch Event 5 Svvitch Event 5,6 Svvitch Common Event 6 Svvitch Event 7 Svvitch Event 7,8 Svvitch Common Event 8 Svvitch Event 1 Relay Event 1,2 Relay Common Event 2 Relay Event 3 Relay Event 3,4 Relay Common Event 4 Relay Event 5 Relay Event 5,6 Relay Common Event 6 Relay Event 7 Relay Event 7,8 Relay Common Event 8 Relay Not Used Not Used Not Used Not Used Event Enable Svvitch Event Status Common Event Override Svvitch Event Enable Lamp Event Status Common Event Override Common
S90E 26 vvay Ribbon Connector
Event Timer Computer Console Distribution Panel 675E
No | Description
1 Event 1 Switch 2 Event 1,2 Svvitch Common 3 Event 2 Switch 4 Event 1 Lamp 5 Event 1,2 Lamp Common 6 Event 2 Lamp 7 Event 3 Svvitch 8 Event 3,4 Svvitch Common 9 Event 4 Svvitch 10 Event 3 Lamp 11 Event 3,4 Lamp Common 12 Event 4 Lamp 13 Event 5 Svvitch 14 Event 5,6 Svvitch Common 15 Event 6 Svvitch 16 Event 5 Lamp 17 Event 5,6 Lamp Common 18 Event 6 Lamp 19 Event 7 Switch 20 Event 7,8 Svvitch Common 21 Event 8 Svvitch 22 Event 7 Lamp 23 Event 7,8 Lamp Common 24 Event 8 Lamp 25 Not Used 26 Not Used
T0631E.5R 10 Mar 82
5-44
S91E 20 way Ribbon Connector S92E 20 way Ribbon Connector
Event Timer Control Mother 82E100 Remote Command Keyboard 82E103 Event Timer Control Daughter 82E101 Keyboard Encoder 82E1028
No|Description No|Description
1 Data Bit 0 1 XO 2 Data Bit 1 2 XO 3 Data Bit 2 3 Xl 4 Data Bit 3 4 Xl 5 Data Bit 4 5 X2 6 Data Bit 5 6 X2 7 Data Bit 6 7 X3 8 Data Bit 7 8 X3 9 Not Used 9 Y9 10 Not Used 10 Y9 11 Not Used 11 Y8 12 CA Input Data Strobe 12 Y8 13 CA Input Acknoledge 13 Y6 14 Not Used 14 Y7 15 CA Output Data Read 15 Y4 16 CA Output Buffer Full 16 Y5 17 -12 Volts 17 Yl 18 +12 Volts 18 YO 19 Ground 19 Y3 20 +5 Volts 20 Y2
S93E 10 way Ribbon Connector
82E113 Floppy Disk Front Panel 82E114 Floppy Disk Rear Panel
No|Description
1 Left Unit "R" 2 Right Unit "R" 3 +24 Voit Retum 4 +24 Volts 5 +5 Voit Retum 6 +5 Voit Retum 7 Run Lamp I I 8 Run Lamp I 9 System Reset 10 Not Used
T0631E.5S 16 MAY 86
S95E 50 way Ribbon Connector -S97E 50 way Ribbon Connector
C. A. Computer Rack J l SL 691E Computer Rack SL 698E Operators Panel SL' 684E Remote Keyboard Station
No Description No Description
1 +5 Volts +5V 1 +12v 2 Not Used 2 Bleep tone 3 +5 Volts +5V 3 -12v 4 Not Used 4 Ov 5 +5 Volts +5V 5 Pulse 6 Reset RST 6 Ov 7 +5 Volts +5V 7 Data Bl 8 Not Used 1 8 Ov
1 9 Not Used 9 Data B2 10 Not Used 10 Ov 11 Not Used 11 Data B3 12 Not Used 12 Ov 13 Not Used 13 Data B4 14 Not Used 14 Ov 15 Not Used 15 Data B5 16 Not Used 16 Ov 17 Not Used 17 Data B6 18 Not Used 18 Ov 19 Not Used 19 Data B7 20 Not Used 20 Ov 21 Not Used 21 Not Used 22 Not Used 22 Not Used 23 Not Used 23 Lanps Common 24 Not Used 24 Switch.es Common 25 Not Used 25 Revvind Svvitch 26 Not Used 26 Revvind Lamps 27 Not Used 27 Fast Forvvard Sv/itch 28 Not Used 28 Fast Forvvard Lamp 29 Not Used 29 Stop Svvitch 30 Not Used 30 Stop Lamp 31 Not Used 31 Play Svvitch 32 Not Used 32 Play Lamp 33 Autoload AL 33 Edit Svvitch 34 Not Used 34 Edit Lamp 35 Not Used 35 Record Switch 36 Not Used 36 Record Lam? 37 Not Used 37 Pulse 38 Not Used 38 Pulse 39 Sense Switch SSW 39 Not Used 40 Not Used 40 Not Used 41 0 Volts GND 41 Not Used 42 Not Used 42 Not Used 43 0 Volts GND 43 Not Used 44 Not Used 44 Not Used 145 0 Volts GND 45 Not Used 46 Not Used 46 Not Used 47 0 Volts GND 47 Not Used 48 Not Used 48 Not Used 49 0 Volts GND 49 Not Used 50 Not Used 50 Not Used
T631E 53.8 19 Feb 82
S95E 20 vray Ribbon Connector
Video Switcher Cable Computer to Console Connector Panel
Svvitch 4 Led Led Common Svvitch 3 Led Svvitch Common Svvitch 2 Led Svvitch 4 Svvitch 1 Led Not Used SSL Led Not Used Not Used Not Used Not Used Svvitch 3 Not Used Svvitch 2 Not Used Svvitch 1 Not Used SSL Svvitch
S96E 25 vvay Ribbon Oonnectar
82E119 Printer Interface Card SL 693E Printer
No| Description
1 Not used 2 Data Bit 0 3 Not used 4 Data Bit 6 5 Data strobe 6 Not used 7 Online 8 Not used 9 Not used 10 Fault 11 Not used 12 Busy 13 Ground 14 Not used 15 Not used 16 Not used 17 Data Bit 5 18 Acknovvledge 19 Data Bit 4 20 Enabled 21 Data Bit 9 22 Paper out 23 Data Bit 2 24 Not used 25 Data Bit 1
Note The connector to the Printer Interface Card, CF82E119, i s a 26 way socket connector pin 26 has no connection. Note The cable i s number ed using the ribbon cable numbering system and th i s do not match the connector used intemally i n the Paper Tiger.
T0631E.5V 07 May 85
S98E 50 way Ribbon Connector
CA. Conputer Rack J l SL 698E Operators Panel
No|Description
2 +5 Volts +5V 2 Clock 3 +5 Volts +5V 4 Interrupt Address Request 5 +5 Volts +5V 6 Reset RST 7 +5 Volts +5V 8 Pulse 9 Address Buss 5 10 Input / Output Clock 11 Address Buss 6 12 Address Buss 3 13 Address Buss 7 14 Address Buss 4 15 Address Buss 0 16 Output 17 Address Buss 1 18 Service 19 Address Buss 2 20 Data Buss 14 21 Console Interrupt 22 Data Buss 13 23 Input 24 Data Buss 12 25 Execute 26 Data Buss 11 27 Data Buss 15 28 Data Buss 10 29 Overflovv 30 Data Buss 9 31 Start 32 Data Buss 8 33 Autoload 34 Data Buss 7 35 Byte Mode 36 Data Buss 6 37 Instruction Fetch 38 Data Buss 5 39 Sense Switch 40 Data Buss 4 41 0 Volts 42 Data Buss 3 43 0 Volts 44 Memory Start 45 0 Volts 46 Data Buss 1 47 0 Volts 48 Data Buss 0 49 0 Volts 50 Data Buss 2
1 N.U. 1 -20V Cathode 2 N.U. 2 -20V Anode via R 3 Received Data 3 +250V Cathode 4 N.U. 4 +20V Cathode 5 Transmi t Data 5 +250V Anode 6 N.U. 6 +20V Anode via R 7 N.U. 7 +48V Anode via R 8 N.U. 8 +7V Cathode 9 Clear to Send 9 +48V Cathode 10 N.U. 10 +7V Anode via R 11 Data Set Ready
12 N.U. 13 0 Volts 14 Data Terminal Ready 15 Line Signal Defect 16 N.U. 17 N.U. 18 N.U. 19 N.U. 20 N.U. 21 N.U. 22 N.U. 23 N.U. 24 N.U. 25 N.U. 26 Do Not Use
T631E (54.1) 4 Mar 83
5-50
S103E S104E 25 vvay Ribbon Connector pinout
User Options Connector on Main Connector Panel 675E
SL688E 6Tr/3Tr monitor panel to SL651V Master module
SL688E 6Tr/3Tr monitor panel to SL675E Main connector panel (25W D type)- (for 8 track machine)
No| Description
AL record relay contact a AL record relay contact b AR record relay contact a AR record relay contact b BL record relay contact a BL record relay contact b BR record relay contact a BR record relay contact b CL record relay contact a CL record relay contact b CR record relay contact a CR record relay contact b Track 7 a )
. Track 7 b ) Spares on 688E 15| Track 8 a ) mother card 16J Track 8 b )
6 track SYNC svvitch p3
9 10 11 12 13 14
17| 18 6 track SYNC svvitch p4 191 " 201
6 track SYNC lamp a contact 6 track SYNC lamp b contact
Monitor L to 82E24-25 OV Monitor-R to 22E24-28 OV +12V frcm 82E27-34 -12V frcm 82E27-33 A VCA trim 82E26-15 positions 1 dc 3 B VCA trim 82E26-15 positions 2 & 4 C VCA trim 82E26-41 positions 2 & 4 Solo cut bus A cut input B cut input C cut input Machine Record Bus Spare mix amp output Spare Spare Spare Spare Spare Spare Spare Spare Soare
T0631E.50 26 Jul 83
5-51
S106E 20 vvay Ribbon Connector pinout
SL688E 6Tr/3Tr monitor panel to SL675E main connector pänel (25w D t y p e ) ( f o r 4 t r a c k machine)
A Mono A Mono B Mono B Mono C Mono C Mono Track 4 Track 4 Spare Spare Spare Spare Spare Spare Spare Spare 3 tra c k 3 t r a c k 3 track 3 t r a c k
record r e l a y contact a record r e l a y contact b record r e l a y contact a record r e l a y contact b record r e l a y contact a record r e l a y contact b a ) spares on 688E b ) mothercard
STf€ switch p3 SYNC svvitch p4 SYNC lanp a contact SYNC lanp b contact
1 2 3 4 5 6 7 8 9
10
Spare + 13V Signal to meter 0 Moni tor Dim Lamp + 18V Monitor Solo Lamo OV Li s t e n Mic Lanp - 20V Studio LS Lanp
Spare Spare SMPTE + To Reader OV, SVPTE + To Generator Spare OV. SVPTE SMPTE
To Reader To Generator
S115E 9 Way fTD" connector pinout
-SL697E Z8 Computer -CF82E129 Synchroniser I/F
No Description
1 Frame 2 Rx A 3 Tx B 4 Tx C 5 Spare 6 Rx C 7 Rx B 8 Tx A 9 Frame
S114E 20 Way Ribbon Pinout - CF82E144
25 Way Hard Wire D Pinout -SL696 Mstr Transp. Sei -SL675 Connector Panel
H.W. |Ri bn | Des cr i pt i on
1 1 Master SMPTE C<rrmon 2 3 Master SMPTE - to Reader 3 5 Spare 4 7 *C" SMPTE + 5 9 "C" Transport Ccrrmon 6 11 "B" Transport Ccmmon 7 13 "B" SMPTE -8 15 Spare 9 17 "A" SMPTE + 10 19 "A" Transport Ccrrmon 11 21 Spare 12 23 Spare 13 25 Spare 14 2 Master SMPTE + to Reader 15 4 Master SMPTE Ccrrmon 16 6 'C" Transport Ccrrmon 17 8 *C" SMPTE -18 10 Spare 19 12 "B" SMPTE + 20 14 "B" Transport Corrrnon 21 16 "A" Transport Ccrrmon 22 18 "A" SMPTE -23 20 Spare 24 22 Spare 25 24 Spare
5-53
B l - 24 vvay BIOC Connector pinout
From: Producers Panel: CF621 (pins
To: Mainframe 651 MRAD ML (sockets)
No Descr i p t ion CF621 colour Mainframe loom r e f
CF651 MRAC Ml
Cues Svvitch Grey X l red BJ
2 Cues Lanp Blue X l b l k BK
3 Cmni Svvitch Yel lovv X2 red BL
i. Cmni Lamp V i o l e t X2 b l k BM
5 MD Svvitch Green X3 red BN
6 L i s t e n Svvitch Red X3 b lk BP
7 Stereo Cans L Orange X4 red BR
8 Stereo Cans R Grey X4 b lk BS
9 Aux 1 Cans L Blue X5 red BT
10 Aux 1 Cans R Yel lovv X5 b l k BU
11 Aux 2 Cans L V i o l e t X6 red BV
12 Aux 2 Cans R Green X6 b l k BW
13 LF Monitor Red X7 red BX
14 RF Monitor Orange X7 b l k BY
15 Prod Mic Screen Screen screen CD
16 Prod Mic Signal Blue X9 red CE
17 Prod Mic +1.5v Red X9 b lk CF
18 +20v Red PvVR RED
19 -20v Blue PWR BLU
20 Ov Green PWR GRN
21 Dim Svvitch White X8 red BZ
22 Cmni +20V Brown X8 b lk CA
23
24 Chass is Black X4 - X8 Screens
T0631E.60 17 May 85
5-54
B2 19 way BICC Connector pinoat
Pcwer Supply Cable Connections to BICC iMetalok Bantam Connector B2
No Description Cable Size Colour
A +48v IA 16/0.2 Orange B +20v 15A 50/0.25 Red C +20v 15A 50/0.25 Red D +20v 15A 50/0.25 Red E +20v 5A 50/0.25 White F Not Used G +13v 5A 50/0.25 Brown H Not Used J Ov 15A 50/0.25 Yellcw K Ov 15A 50/0.25 Yellow L Ov IA 16/0.2 Black M +263v IA EG 16/0.2 Yellcw N +13v IA BG 16/0.2 Violet P Not Used R -20v 15A 50/0.25 Blue S -20v 15A 50/0.25 Blue T -20v 15A 50/0.25 Blue U Not Used V Chassis 50/0.25 GrnAellow
B5 12 way BICC Connector pinoat
Pcwer Dist to Bargraph Master Card
No Description Cable Size Colour
1 Not Used 2 Not Used 3 Not Used 4 +263V 32/0.2 Yellow 5 -20v IA BG 32/0.2 Blue 6 HT (Common) 32/0.2 Violet 7 0V 32/0.2 Green 8 +20V 32/0.2 Red 9 +13V 32/0.2 Brown 10 Not Used 11 Not Used 12 Not Used
Br 6 way BICC Connector pinoat
Multitrack Remotes 3 wire 4 per 8 - 611E Modules
No Description
Record Record Record Record Record Record
Contact Contact Contact Contact Contact Contact
cdd nos odd nos odd nos even nos even nos even nos
B3 6 way BICC Connector pinoat
Bus Card Pcwer 1 per 8 - 611E Modules 82E18 Upper Bus Card
No Description Cable Size Colour
1 +20v 16/0.2 Red 2 Ov 32/0.2 Green 3 -20v 16/0.2 Blue 4 -20v lanps 5 +13v 16/0.2 Brown 6 48v 16/0.2 Orange
B4 6 way BICC Connector pinoat
Bus Card Signals 28 per 8 - 611E Modules:-
B4 B Mic Input B4 D Line Input B4 E Insert Send B4 F Insert Return B4 G Group Out B4 H Group Monitor B4 K Tape Monitor
No Description Colour
1 0° cdd nos Red 2 screen Wire 3 180° cdd nos Black 4 0° even nos Red 5 screen Wire 6 180° even nos Black
BT 6 way BICC Connector pinout
Multitrack Remts 4 Wire 4 per 8 - 611E Mcdules
No Description
1 Record Contact a cdd nos (a) 2 Record Contact common (b) 3 Record Sense c odd nos (c) 4 Record Contact a even nos (a) 5 Record Sense Common (d) 6 Record Sense c even nos (c)
T631E (B2-B6-&-BT) 55.2 30 March 82
5-55
S126E,127E Stereo Module Remote Connector
26 Way Ribbon Cable to 25 Way D Connector
No| Description |Module| Bicc Pin No.
1 Start Switch 1 BT1 1 2 Switch Ccrrmon 1 BT1 2 3 Stop Switch 1 BK1 1 4 Start Sense 1 BT1 3 5 Sense Corrrnon 1 BT1 5 6 Stop Sense 1 BK1 3 7 Start Switch 2 BT1 4 8 Switch Ccrrrron 2 BT1 2 9 Stop Svvitch 2 BK1 4 10 Start Sense 2 BT1 6 11 Sense Cornmon 2 BT1 5 12 Stop Sense 2 BK1 6 13 Start Svvitch 3 BT2 1 14 Svvitch Ccrrrron 3 BT2 2 15 Stop Svvitch 3 BK2 1 16 Start Sense 3 BT2 3 17 Sense Ccrrrron 3 BT3 5 18 Stop Sense 3 BK2 3 19 Start Svvitch 4 BT2 4 20 Svvitch Ccrrrron 4 BT2 2 21 Stop Svvitch 4 BK2 4 22 Start Sense 4 BT2 6 23 Sense Ccrrrron 4 BT2 5 24 Stop Sense 4 BK2 6 25 OV 26 Not Used
T0631V.5A 12 Dec 84
5-56
N
.INP_t R t | | ZZOuF
J_ cis nV zsv
19V IQnF
ETY
C33 22 PF
INP_3C INP_5C R35 13k7
H31
85502 3
a LK34 LK33
C34 t
22 P F •
C36 •18V IQnF
Hl "1 C37 22QuF
25V
ET7 c
R36 1W 6
R37 3 1 k 5
INP_3R c=—I INP_SR
F» R34
13W7
C38 22GuF
i _ C3S ^ 25V
18V l 8 n F
PL1 9C
.INP.9C
R53
17k2
C52 R 5 l l | lQuF 20k 1BV
L K 5 4
R52 |_oJ| LK53
i ™ 2 U , r r = l l 2
LK55 [ÖT]
INP_7fl o— I
C51 iöuF 16V C54 ,
22pF ' I R54 I3k7
1 I I , CS8
! 11 220uF
J_ c5s m 2SV
13V IQnF
PLl 33R
^ 30B
PL1 3QC TMI
- 5 ^ PL> 31R
PL1 31B
,P,LJ,31C PL1 32R
32B
P l ^ 32C
1
Cl JlBBuF
25V
C2
2lOBuF 25V
I Z v
3__1C t=>—|
l k 2 2Q 4 5 fc
R23
17W 2
I C22 R21 M IBuF 2Gk 1 6 V
R22
11V2 a LK24 LK23 QJJ LK23
LK 1i R5T|
"1? C21 16uF 16V C24 ,
22pF "
-INP_3R
tf7
INP_5C
C48 22BuF H H
_ C4S 1S7 25V
-18V IQnF
INP_9C o — - - I N P . l l C
R63
17lc2
C62
R 6 l [ ] IQuF
ZQM 1BV
INP_9R &—I
fi R62 JOJJ LK63
171,2 T 2 1 n==n 2
^ 1 i Or-
LK51
PL1 u b
C61 lOuF 16V C64 (
22 PF • R64
13U7 1 I I C68
t || I 22QoF
J _ C65 0V 2 5 V
-18V l 0 n F
E2 VERSION
THE F 0 L L 0 H I N G CHRNGE TO BE MADE
P L l - 9 6 WT VT ( S S L STOCK NO 3 2 J R 9 6 R U )
I N T R O D U C E D BY E C O 4 K / 1 0 5 9 TO E f l S E
I N S T A L L A T I O N I N S I D E B U L G E BACK P A N E L
RL1-8 - (HAMLIN HE822C5033) Rl.4.7.10.13.16.19.22. - 0.25W 5% IOOK R2.5.8.11-14.17.20.23. - 0.25W 5% 4K7 R3.6.9.12.15.18.21.24. - NOT F I T T E D C l - C16 - NOT FITTED (0.1 INCH PITCU) C17-22uF25V TH1 &TH2 - 2R2 T R I - TRS - BFRSO
l c 3 -I b SCRN
i c 6 -i b SCRN
i c 15 -i b SCRN
l c 18 -Ib SCRN
a + c 21 -b SCRN
l c24 -Ib SCRN
LK7 U R H T R 4 J ~ 1 LK8
r ^ - i — i i — I
27b
28b
29a LK13 U R 2 0 TR7J~l TA C13zfz ^ 1 w ,
R21 - V | F L
LK14
: o-,D7 : o-
RL7
RL8
L _ J l _ _ «
ta V
Note : For Logic Circuit details see T82370E2.72 & T82370E2.73
Solid State Logic T U L E :
8 x Audio Changeover Relays & Drivers
S H E E T : T82370E2.71
DRAV/N B Y : D M
ISSUE: i.o R E V 1 S I 0 N : 1.0 D A T E : 18/4/94
5-59
82E370E2 Card
X7, T o R L l + H V
To Link 4
R26 47K
+18V
C20 lOjiF T
D l
R29 IOOK
r +11V
R31 IOOK]
X +11V
R27 10K
R28 47K
C19 I lOnF
+ 11V
I C l a \ 1 4081
C k S Q
IC2a
4013 _
R D Q
D2
X n + j 8 .
+11V
8 11
D3 D4
From Link 2
10
14
C k S Q
IC2b
4013 -
R D Q
| 9
13
12
n
2 +11V
R30 IOOK
Solid State Logic 370 Card Logic
S H E E T : T 8 2 3 7 0 E 2 . 7 2 DRAWN B Y : D M
ISSUE: 1 0 | R E V I S I O N : 1 Q D A T E : 18/8/94
5 -60
Solid State Logic T Y Y L E : 370 Card Logic
S H E E T : T 8 2 3 7 0 E 2 . 7 3 DRAWN B Y : D M
ISSUE: j Q R E V I S I O N : ^ Q D A T E : i m m
5-61
Solid State Logic
SL4000G Console Service Manual
SECTION 6
SL 675E Main Connector Panel and Interfacing DL Connections
S66E
S113E
S114E
S126E
S127E
MULTITRACK
EVENTS 1-8 EVENTS 9-16
EVENTS 1-8 EVENTS 9-16
S93E S95E
O o REAL TIME
POVVER C O N S O L E l
MONITOR r
S105E
S106E
S146E
DLOl
DLQ2
DL11
DL12
DL21 DL41
DL22 DL42
DL61
DL62
DL31 DL51
f —>
DL54
r >
DL57
f N
DL63
DL32 DL52 DL55 ^
DL58 DL64
r \ < . > ^ .
DL33 DL53 DL56 DL59 DL65
i 674 MIC AMPS 49-56 41-48 33-40 25-32 17-24 9-16
O 0 0 O O O O O ON ON ON ON ON ON ON ON
DL66
DL67
DL68
DL69
DL70
1-8 A-H 688V 651/621
O O O O ON ON ON ON • ®+ @+ o + 0 + 0 + 0 + 0 + o + o + r v n
20 ^ 2 0 ^ 2 0 W 2 0 W 2 0 W 2 0 ^ 2 0 W 20 ^ 20 W 20 U 20 U „
674 81-88 73-80 65-72 57-64 49-56 41-48 33-40 25-32 17-24 9-16 1-8 A-H 688 622/652 651/681 o o o o o o o o o o o o o o o o ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON
O - O - O - O - O - O - O - O - O - O - O - O - O - O - O - O -20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20
o - o - o - o - o - o - o - o - o - o - o - o - o - o - o - o -
Note: M K I I panels are supplied on consoles fitted wiih 56 channels or more. Solid State Logic C O N N E C T O R P A N E L M K I I
53775361 IREVISION:
c DRAVVN B Y : S H
20/8/90
6 - 2
a)
4
+
+
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cn
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+
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TO
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NO
.
AP
PR
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AL
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. C
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ED
DA
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13-1
2-79
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12-7
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2-79
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lid
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te
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fie
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ord
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CO
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olid
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79
FR
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VIR
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13-1
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A4
67
5E
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3-7
9^-
0 R
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13
-12-
79
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E
FS
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. N
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67
5E
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0 R
EV
.
SC
AL
E -
| SH
EE
T 1
^
'
39U Rack
Floppy Drive Povver Cable
O)
1
Oi
Fan Povver/ Cable
C i
D U A L 20Mb D R I V E
50 Way Ribbon lo Processor Card
D U A L FLOPPY'DRIVEJ
C6MPUTCR>
C O M P U T E R PSU?
CONSOLE PSU:
XHANGEOVER UNIT;
CONSOLEPSU.
;Console.
vConnector Panel
40 Way Tvvisted Ribbon lo Floppy Disk Controller Card
F E T C A P A C I T O R M I C R O P H O N E C A P S U L E
This EAGLE C 1,200 FET CAPACITOR Microphone Capsule is an electret type microphone vvhich does not require high voltage for polarization. An FET amplifier is bui!t-in for obtaining an output equivalent to a high ciass dynamic microphone vvhile retaining the characteristics of a capacitor microphone. External influence by magnetic and electro-static noise is minimized since no magnets or coils are used. The small size of this microphone capsule and the lovv povver supply needed for its operation makes this microphone a very versatile unit. .
•4 Kohm or less •200 Megohm •2SK-30R or equivalent
CAUTION : Special caution must be taken vvhen soldering to capsule. Remove AC cable from main vvhile soldering iron is hot and complete soldering vvithin 10 seconds to prevent damage to FET.
8-4
CUT <l 2 4 0 R < S
SOLO <
V C A 1 VCA 2 VCA 3 VCA 4
• 8 2 E 2 0
2 S O L O I N P L A C E I N H I B I T - "
( A F L )
VCA 5
65lE-71O8r'~'7-0
VCA 6 VCA 7 VCA 8 S17E
OO NOT SCALE DRAVVING IF IN OOUBf ASU
4>-MAfCHIAl .-
fINISM -
UMlTSUNUSSSIAlCO
ANGllS 1 l "
r
C O | . I D S T A T E L O G I C S MELO OXFORD ENGLAND
>UP SOLOo/CUTS
6 M Y l U 5 4 d R
82E21
82E21/45 I
21/451
rh 18V 1 O
4
oo i G)
2 O
82E21/41
82E21/46 TB CUE
"CUES"
CUE STEREO
82E31/21 82E 31/22
82E31/34
82E31/23
Copyrig( _>SL Ali rights reserved. This document may not be reproduced in any form vvithout the vvritten permission of SSL
ssue Date
2.84
NovB5
Details
REDRAV/N VB.
CUES AOOED
ADDITIONAL CUES SWITCHING. Drg.No.
T0651-71
Solid State Logic Stonesfield • Oxford • England
M V » M M n
N
*iBV RED "a L I G H T i o o -^O °^ £>H B2E51.33
RED LIGHT
-iBV
• 18V EXT TD - - STUDIO ,
Q—£> , , 4 ~ y - j ^ - j BgEH3,35 |
I
EXT TO STUDIO
B80R
-^<J-| B5E23.34
-IBV
• iBV STATUS
• | 1 'o a
STATUS LOCK
— ® —
H40R
-18V -IBV -£>H B8E53.33
SLS OJT
- H -
- H -
N -
- M -
AUTO CUE
LISTEN MIC TO TAPE
TB OMNI
OSC ON
OSC GROUP
OSC QB
RECORD
REPLAY
MIX
- ^ j VCA TO MON
INPUT FLIP
REV ISSUEl DATE
i
LTJPYRIGHTOSSL ALL RIGHTS RESERVED. THIS imJMENT MAY NOT BE REPRODUCED IN ANY FDRM KITKUT TTC URITTEN PERMISSION
OF SOLID STATE LOGIC
A
B
FEB B4 4 MAY BB 23 JUN BB
DETAILS
NEW DRAUING VB
REDRAWN STEFF
EXT TO STUDIO WAS SLS MR MM
SHEET i OF 1 REF. TBSiB A3
TITLE S51E/V SAFETY LOCK STATUS INHIBIT
SWITCHES DRG.NO. T 0 6 5 1 E - 7 3
S o l k a t e L o g i c
T82E20 55 Way Module Connector
VCA Faders + Mut es CF82E20
Master Module SL651E
No | D e s c r i p t i o n |No | D e s c r i p t i o n
1 NP 34 VCA 3 cut svvitch 2 NP 35 NP 3 NP 36 VCA 4 cut svvi tch 4 Master Fader Tri m LED (Not used) 37 NP 5 Master Fader Abs LED (Not used) 38 M u l t i t r a c k sense common,(SI7E 6 NP 39 NP 7 NP 40 M u l t i t r a c k record sense,(S17E 8 Master Fader Sw (Not used) 41 M u l t i t r a c k Sync Contact,(SI7E 9 Master Fader Comnnon (Not used) 42 M u l t i t r a c k Sync Contact,(S17E
10 NP 43 NP 11 NP 44 VCA Solo Cut Bus from 681 12 NP 45 NP 13 +5v (VCA Trim Pot ACW) 46 NP 14 -5v (VCA Trim Pot CW) 47 As 21 15 NP 48 NU 16 +18v Solo enable(from AFL),S17E p5 49 +18v 17 M u l t i t r a c k replay sense,SI7E p l 9 50 NU 18 NP 51 -18v 19 Linked t o p44 52 NU 20 NP 53 Ov 21 Dropin rehearse comnon,SI7E p20 54 Ov 22 Dropin Rehearse corrmand,S17E pl6 55 Ov 23 NP 24 VCA Trim Pot Wiper 25 VCA Trim svvitch 26 Keyvvay 27 VCA Trim Bus (not used) 28 Master Fader Computer Send 29 Master Fader Computer Return 30 VCA 1 cut svvitch 31 NP 32 VCA 2 cut svvitch 33 NP
T82020.50
8-8
I O L. V JLV / I [ O J IL/ VJ
L01 L02
o o o o o o o o o o o o o o o o
NORMAL LINK CONFIGURATION SHOWN.
FOR REVERSED POSITIONING OF 651 / 681, REVERSE LINKS.
FOR G SERIES L01 IN NORMAL POSITION, REMOVE L 0 2 .
o — o o o
o o o — o o o o — o OL01O
COMPUTER
SENDS
R9 11 CZr—T—O 100 R J- S16
C9"J"l00n
R10 12
C Z r — I O 100R JL S16E
c s j i 100n
R11
Z Z 3 — ! — o
100R J _ S16E
C ö " p 0 0 n
R12 14 Z D — 1 — o
100 R _L S16E C4~p00n
R13 15
-O 100R ZTsi6E
C7~p00n
RH 16 - i — o
-L S16E 100R _L S16E
C10"J"l00n
R15
100 R -L S?6E
f p O O n
R16 18
100R -L S16E
C1lJ"l00n
RESISTOR PACK'S ARE 15K 2 %
THUMBV/HEEL RD
O S19E-5
S16E-8 COMR RET. 8
S16E.9 O O 29 MASTER FADER COMP RETURN • 28 MASTER FADER COMP SEND
i 38 MULTITRACK SENSE COMMON »40 MULTITRACK RECORD SENSE >41 SYNC RELAY CONTACT > 42 SYNC RELAY CONTACT »16 VCA SOLO DISABLE • 22 DROP IN REHEARSE COMMAND >17 MULTITRACK PLAY SENSE ' 21 DROP IN REHEARSE COMMON
T 1 - T 4 ARE CA324*S T 5 - T 7 ARE LF347BN T10-T19ARE BFR39'S T21-T30ARE BFR80'S x = 0 . 5 % TOLERANCE
1 Broadcast or I F F l i p Svvitch 30 C 2 VCA to Mon Svvitch 31 D 3 Broadcast Buss 32 A 4 Broadcast or IP Fl i p Lamp 33 Red Light Svv 5 Rehearse Common 34 Red Light Lamp 6 Mul t i Machine Sync Relay (REPLAY) | 351 Red Lig h t Relay Contacts 7 Mul t i Machine Sync Relay (COMMON) 136 j Red Lig h t Relay Contacts 8 Mu l t i Machine Sync Relay SYNC 37 NU 9 Rehearse Command 38 NU
10 Record Status Svv 39 Autocue Svv 11 Spare 40 Omni Svv 12 Mix Status Svv 41 Cue Svv 13 Replay Status Svv 42 NU 14 Mix Status Bus 43 Omni Inputs on 8223, 8225, +8234 15 Mix Status Lamp +8224 16 Record Status Bus 44 Omni Lamp 17 Record Status Lamp 45 Cue Input On CF8222 + CF8321 18 Record Status Lamp 46 Cue Lamp 19 Slate Signal Bus 47 NU 20 VCA to Mon Lamp 48 NU 21 VCA t o Mon Bus 49 +13v 22 Spare 50 NU 23 Machine Record Bus 51 +20v 24 Listen Mic t o Tape 52 -20v 25 Mu l t i Machine Replay Sense 53 Ov 26 M u l t i Machine Sense Common 54 Ov 27 M u l t i Machine Record Sense 55 Ov 28 Keyvvay 29 B
REDRAVVN 584 D.D DRG. AMENDED e^nJ R 59,61 WAS 15K ^ N0W 470R
T'tie MASTER STATUS: RED LIGHT VCA TO MON-AUTOCUE MACHINE REC BUS Drg.No.
T82021-71
Solid State Logic 8- 1 1
MT I6J6IB D
55 Way Modulo Connector
From: Monitor F u l l - Dim - Mute Relays and Outputs Mini Relays and Outputs CF82E22
To: Mother Card SL651E (XM®CTOR NO: T82E22
No| D e s c r i p t i o n |No| D e s c r i p t i o n
1 NP 34 NP 2 NP 35 NP 3 Mini LS output t o Amp R 36 NP 4 Mini LS output t o Amp L 37 NP 5 Mini LS voiume pot vviper L 38 NP 6 Mini LS voi une pot vviper R 39 Mini lamp 7 L i s t e n signal frcm l i s t e n 82E33 40 L i s t e n mic t o tape svvitch 8 Monitor output RB- 41 + l l v 9 Monitor output RB+ 42 L i s t e n mic svvi tch
10 Monitor output LB- 43 Mini svvitch 11 Monitor output LB+ 44 Dim switch(not used) 12 Monitor output RF- 45 Penthouse Dim Led(not used) 13 Monitor output RF+ 46 Cues inp u t ( n o t used) 14 Monitor output LF- 47 MD Svvitch (not used) 15 Monitor output LF+ 48 NP 16 CR Level pot LF vviper 49 NP 17 CR Level pot RF vviper 50 +18v 18 CR Level pot LB vviper 51 NP 19 CR Level pot RB vviper 52 -18v 20 Keyvvay 53 Ov 21 Spare 54 Ov 22 Spare 55 Ov 23 NP 24 NP 25 NP 26 NP 27 NP 28 NP 29 NP 30 NP 31 NP 32 NP 33 NP
T82022.50 14 Feb 83
8-12
zsz:
+ 11V
• 18V
• 18V Qgc
HH? r \ I 7 R35 1K5
SPARE DEVICE
VR8 SKO
MON O/P RB
3 |B CSB C27 220U 2SV
E 3 V E R S I O N
~7V
REVttSSUd
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DOCUMENT MAY NOT BE REPRODUCED
IN ANY FORM UITHOUT THE URITTEN PERMISSION Cf SOLID STATE LOGIC.
B
DATE 25 JULY 90 13 NOV 90
STOCK NUMBER 82S6D022 ADDED
DETAILS
NEW DRAVJING BC STEFF BC MM
SHEET 1 OF 2 STOCK NO 82SGD022
REFi TGS1E A2 TITLE 6S1G
MONITOR OUTPUTS G SERIES
DRG.NO. T 8 2 0 2 2 . 7 1 . 3
Solid State Logic 8-13.
43 D5
H-
RPi
MINI SWITCH
RP4 1SK + H V
• IBV
AUTrJCUE 2 3
AUTOCUE
Di
-•f-L I S T E N MIC SW
RS5 1K0
L I S T E N -MIC LAMP 24
4 RP4 2 X 15K
• 11V
R5G 24OR
44
LISTEN MIC DIM
40
D3
D4
+ 1BV
3 RP3
|B IC9-B
—1— 4572UB
IC9-A 4572UB + 18V
L I S T E N MIC TO TAPE SUITCH
21
RS7 10R
RPi • 11V
MINI CUT L SUITCH
D7
>1
RP4 1SK + H V
RPS
7 ^ L , B
^1 IC9-D — 4 5 7 2 U B RP4
1SK + H V
| MINI ON~"[_
22
MINI CUT R SUITCH
DB RPS I C 9 _ E
RP4 1SK + H V
• IBV RP3 SKG
I C I I - C V I O 4 , , 3 4011B
TR1G BC212LB
RSB 240R DG
-M-3 9
MINI LAMP
C29
10K Tn 3
L I S T E N SIGNAL FROM 82033
3 - l b - r R38 2K0
MINI L POT UIPER
12
• 18V
IT4
13 ICli-D Vvii 4011B
i l •11V
4 I C I O - B V S
5 4023B
R41 10M
TR9 [ J 1 1 2
ITR11 Ui 12 R 4 3 10M
R42 10M
R47 7KS0
R44 10M
• 18V
MINI R POT UIPER
TR12 J 1 1 2
]TR14 J H 2 R46 1QM^
R4S 10M
TR13 I J 1 1 2
RSi 7K50
12 13
I C 1 0 - C K i l 4023B
IC11-A 4011B
MINI L TRIM
R48 5KG2
C33 33P
VR9 10K
+ 1BV C
3 _ j 5 >
+ 1 - 0 V C34 UNBALl K ||10N ' ' U
•Mf-' , 220U 13 ^ 0 V n n 25V
H5 9" B5S02
OV
13 G C37 ION
MINI O/P L
-18V
• 1UIN
C3G 220U 2SV
1 MINI R TRIM |
VR11 10K U > 1
HG < BS502 T 1
f ov
R53 1KS
VR12 5K0
MINI O/P R
13 [6 C42
25V
3 6
- H -18V
C42 I ION
f OV
E 3 V E R S I O N
R E V I S S U S
4
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DCOJMENT MAY NOT BE REPRQDUCED
IN ANY FORM UITHDUT THE URITTEN PERMISSION OF SOLID STATE LOGIC.
1 611 AFL Mix Bus 29 688V AFL Mix Bus R 2 611 AFL Mix Bus Ov 30 AFL Level pot CV (R) 3 Ext Mon Buffer Input RB 31 SLS Output L-4 Ext Mon Buffe r Input LB 32 SLS Output L+ 5 Ext Mon Buffer Input RF (R) 33 Status Lock Bus 6 Ext Mon Buffer Input LF (L) 34 Ext to SLS Switch Lamp 7 Ext Mon Buffer Output LF (L) 35 Ext to SLS Svitch 8 Quad/Ext to SLS pot CW (L) (Japan) 36 TB to Studio L 9 Quad/Ext to SLS pot CW (R) (Japan) 37 SLS Level pot Wiper L
10 AFL Level pot CW (L) 38 688V AFL Mix Bus Ov 11 Quad to Studio Switch (Japan) 39 688V AFL Mix Bus L 12 Ext Mon Buffe r Output RF (R) 40 No pin 13 Keyway 41 No pin 14 Quad to Studio L (Japan) 42 No pin 15 Quad to Studio R (Japan) 43 No pin 16 Ext Mon Buffer Output LB 44 No p i n 17 Ext Mon Buffer Output RB 45 Omni Switch (from 82E21, 43) 18 Record Status Bus 46 611 AFL Enable 19 Ext to SLS L 47 SLS On I n d i c a t o r ( v i a 82E237) 20 SLS Level pot CW L 48 + l l v 21 Ext to SLS R 49 +18v 22 SLS Level pot CW R 50 No pin 23 Echo Return AFL L 51 -18v 24 Echo Return AFL R 52 No pin 25 SLS Output R- 53 Ov 26 SLS Output R+ 54 Ov 27 SLS Level pot Viper R 55 Ov 28 TB to Studio R
T82023.51 9 June 87
8 - 1 4
:xz:
6 8 8 A F L BUS L
LK 1
ECHO RETURN
R F L BUS L
6 1 1 RFL i
BUS
6 1 1 RFL "
BUS OV
ECHO RETURN
R F L BUS R
LK2
6 8 8 RFL BUS R
" S i 3 I
S L S POT
CH L ( J R P )
SLS POT
CH R
S T U D I O R ( J R P ) CH R ( J R P J
LK3
RFL POT C6 CH L
TB TO STUOtO
POT H1 PER L
3 Q , RFL POT U C 1 7 CH R
2 2 Q u F
6V
TB TO S T U O I O
POT H I P E R R
SLS O/P L HOT
COPYRIGHT (E) S 5 L R L L R1CHT5 R E S E R V E D .
T H I S DOCUMENT MflY NOT BE REPROOUCEO
I N RNY FORfl H I T H O U T THE H R I T T E N .
P E R M I S S I O N OF S O L I O STRTE L O D I C .
P E R M I S S I O N OF S O L I O S T A T E L O O I C .
REV ISS DRTE 3
RUG SQ 16
OCT S2
DETRILS
NEW ORRWING BC STEFF
ECO 4K/975 NO CHRNGE
MM
PCB ISSUE PR USED ON 65 1 G R2
TITLE S L S * R F L
DRG.NO.
T82023.72.3
SHEET 2 0 F 2
Solid State Logic
8-16
T82E24 65 way Module Connector
From: 82E24 Int/Ext M o n i t o r i n g Select Relays. Mon Mut es. Meter Buffers
To: SL 651E Master Module
No | Description |No j Description
1 CR Level Pot RB CW 34 Meters from Ext .source svvitch 2 CR Level Pot LB CW 35 Taik t o MD input 3 CR Level Pot RF CW 36 Taik t o cues input 4 CR Level Pot LF CW 37 Dim Svvitch 5 RB Dim Pot 38 Dim Penthouse LED 6 LB Dim Pot 39 Listen Mic Input 7 LB Meter O/P 40 Cut Lamp 8 RF Meter O/P 41 Echo Return AFL's 9 LB Dim Pot 42 Listen Mic t o Tape Input
10 LF Dim Pot 43 Omni Input 11 LF Meter O/P 44 SF Solo cut bus 12 RB Meter O/P 45 VCA Solo cut bus 13 LF I n t e r n a l I/P , 82E25 p7 46 AFL Lamp 14 LF Dim Pot 47 AFL Enable svvitch 15 RF Dim Pot 48 Externals to monitors svvitch 16 LF External I/P , 82E23 p7 49 Monitor Cut Svvitch 17 RF Dim Pot 50 RB Monitor mute svvitch 18 RB Dim Pot 51 LB Monitor mute svvitch 19 AFL I/P , AFL le v e l pot vviper 52 RF Monitor mute svvitch 20 Dim Lamp 53 LF Monitor mute svvitch 21 Meters follovv monitors lamp 54 Solo LED 22 RF External I/P , 82E23 p l 2 55 Quad Svvitch 23 Meters from e x t . source lamp 56 Mono Svvitch 24 RF In t e r n a l I/P , 82E25 p23 57 Stereo Svvitch 25 LB I n t e r n a l I/P , 82E25 p26 58 + l l v 26 LB External I/P , 82E23 p l 6 59 Mono Lamp 27 RB External I/P , 82E23 p l 7 60 Quad Lamp 28 RB I n t e r n a l I/P , 82E25 p31 61 Stereo Lamp 29 Keyvvay 62 +18v 30 Penthouse Mute LED 63 -18v 31 Meters fro m desk out Lamp 64 Ov 32 Meters f o l l o w monitor svvitch 65 Ov 33 Meters from desk out svvitch 66
P E R M I S S I O N OF S O L I D STRTE L O G I C .
REV
G
G
ISS DRTE 2 5
16 NOV 90
26 SEP 91
26 FEB 92
DETAILS
NEW ORRHING BC
S T E F F
STOCK NUMBER 82S6DQ25 ADOED
ECO 4K/746 B C
PCB HRS HJ NOH LM MM
FILM BUS TABLE ANO TEXT RODEO
MM
St k No 82S6D025
PCB ISSUE LN
USED ON SL651G R2
T I T L E M H I N QURO BUS O/Ps ( H A I N F I L M BUS O/Ps )
DRG.NO. T82Q25 .72 .3
SHEET 2 0 F 2
Solid State Logic
82E26 55 Way Module Connector
Frcm: Q3 Mix Amps , Patch Returns,
To: Conpressor Side Chain 82E26 Master Module SL651E
NojDescription |No | D e s c r i p t i o n
1 Spare 34 -12v 2 Spare 35 +12v 3 Spare 36 Ratio Sw Pole 4 Spare 37 Ratio Sw 10 5 Mix Amp 0 38 Ratio Sw 4 6 Spare 39 Ratio Svv 2 7 Not Used 40 + 13v 8 Mix Amp 180 41 Spare 9 Pre Ccmp Send 180 42 D
10 Pre Ccmp Send 0 43 Spare 11 Not Used 44 Spare 12 Pre Ccmp Return 180 45 Spare 13 Pre Ccmp Return 0 46 Spare 14 Not Used 47 Spare 15 VCA Trim 48 Spare 16 VCA Control Input 49 +20vB) 17 A (Quad Ccmpress or In/Out Svvitch) 50 Not Used 18 Not Used 51 -20vB) 19 Post Ccmp Send 0 52 Not Used 20 Post Ccmp Send 180 53 Ov(LF) 21 Not Used 54 Ov 22 Keyway 55 Ov 23 Post Ccmp Return 180 56 24 Post Ccmp Return 0 57 25 Spare 58 26 Not Used 59 27 Spare 60 28 Output 61 29 Spare 62 30 Spare 63 31 + 15v 64 32 - 15v 65 33 C
CDPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DOCUMENT KAY NOT BE REPRODUCED
IN ANY FCRM UITHDUT TH£ URITTEN PERIISSION OF SOLID STATE LOGIC.
TITLE
STOCK NO 82S6D026
REFi TGS1G A2i
GS1G OUAD BUS MIX AMPS • COMPRESSOR
DRG.NO. T B 2 0 2 6 . 7 1 . 3
Solid State Logic 8 - 2 6
T82E27 55 Way Modulo Connector
From: Conpressor Time Constants, Auto Fade Quad Fader
To: Master Module SL651E
No|Description |No|Description
1 Set Fade ACW 29 Not Used 2 Set Fade Wiper 30 +15v 3 Auto Fade Lamp 31 -15vo Sw Pole 4 Auto Fade Sw 32 C 5 .1 ) 33 -12v 6 .3 ) 34 +12v 7 .6 ) Release Times 35 Spare 8 1.2 ) 36 Spare 9 Auto ) 37 Spare
10 Make Up ACW 38 Keyway 11 Release and Attack Poles 39 Threshold ACW 12 Make Up Wiper 40 Threshold CW 13 Spare 41 D 14 Spare 42 Spare 15 B 43 .1 16 A 44 .3 17 Spare 45 1 18 Master Fader Wiper 46 3 19 Master Fader Computer Send 47 lOt Used 20 Master Fader Computer Retum 48 30 21 Make Up CW 49 +20v 22 Spare 50 Not Used 23 Meter Output 51 -20v 24 Threshold Wiper 52 Not Used 25 Spare 53 Cv 26 Not Used 54 Cv 27 Not Used 55 Cv 28 +5v to Quad Fader
T82E27-510-7910-0
8 - 2 7
8 - 2 8
65 Way PCB Edge Connector
From: 82E338 External Monitoring Selectors
To: SL 651 Master Module
Note: These connections on component side of board
1 Not Used 34 Stereo Cues Lamp 2 Not Used 35 Aux 2 Lamp 3 Not Used 36 Stereo 3 Lamp 4 Not Used 37 Aux 3 Lamp 5 Not Used 38 Keyway 6 Not Used 39 Aux 4 Lamp 7 Not Used 40 Stereo 1 Lamp 8 Not Used 41 Stereo 5 Lamp 9 Not Used 42 Quad Disc Lamp 10 Not Used 43 Stereo 4 Lamp 11 Not Used 44 Quad 1 Lamp 12 Not Used 45 Stereo 2 Lamp 13 Not Used 46 Quad 2 Lamp or QB to SLS Lamp 14 Not Used 47 Spare 15 Not Used 48 Not Used 16 Not Used 49 Not Used 17 Not Used 50 Not Used 18 Not Used 51 Not Used 19 Not Used 52 Not Used 20 Not Used 53 Enable from EXTERNAL TO 21 Not Used MONITORS/SLS svvitch 22 Not Used 54 Not Used 23 Not Used 55 Not Used 24 Not Used 56 Not Used 25 Not Used 57 Not Used 26 Not Used 58 Not Used 27 Not Used 59 Not Used 28 Not Used 60 +ll v 29 Not Used 61 Not Used 30 Not Used 62 Not Used 31 Not Used 63 Not Used 32 Not Used 64 Not Used 33 Aux 1 Lamp 65 Not Used
9 Stereo 5 R Input 42 Not Used 10 Stereo 4 R Input 43 Not Used 11 Stereo 3 R Input 44 Spare 12 Stereo 2 R Input 45 Spare 13 Stereo 1 R Input 46 SL 4000 To 82E25 +Ve for QUAD 14 RF Output SL 6000 To 82E154 -Ve for MONO 15 Stereo Cue R Input 47 Aux 3 Svvitch 16 Aux 1 Input 48 Aux 4 Svvitch
17 Aux 2 Input 49 Stereo 1 Svvitch
18 Aux 3 Input 50 Stereo 2 Svvitch
19 Aux 4 Input 51 Aux 2 Svvitch
20 Not Used 52 Aux 1 Svvitch 21 Not Used 53 Stereo Cues Svvitch 22 Not Used 54 Quad 1 Svvitch 23 Stereo Cue L Input 55 Quad 2 Svvitch or QB to SLS Svvitch 24 L F Output 56 Quad Disc Svvitch 25 Stereo 1 L Input 57 Stereo 5 Svvitch 26 Stereo 2 L Input 58 Stereo 4 Svvitch 27 Stereo 3 L Input 59 Stereo 3 Svvitch
28 Stereo 4 L Input 60 +l l v 29 Stereo 5 L Input 61 +18v
30 Quad Disc L F Input 62 -18v
31 Quad 1 L F Input 63 Ov 32 Quad 2 L F Input 64 Ov
33 Quad 2 RB Input 65 Ov
26:5:89
8-29 Yu.v - -
3 3 U flUX i
L f l M P
3 5 U AUX 2
L f l M P
! ™ AUX 3
L f l M P
I X Z I
3 4 U STEREO CUE
L f l H P
3 9 U flUX 4
L f l M P
4 Q U STEREO 1
L f l M P
4 5 u STEREO 2
L f l M P
3 6 u STEREO 3
L f l M P
STEREO 2 8
4 L
COPYRIGHT (C) SSL R L L R I O H T S R E S E R V E D .
T H 1 3 DOCUMENT MflY NOT BE REPROOUCED
I N RNY FORM H I T H O U T THE H R I T T E N
P E R M I S S I O N OF S O L I O STRTE L O D I C .
.1 Not Used 2 Not Used •3 Not Used 4 Quad D i s c I n p u t + LB 5 Not Used 6 Not Used 7 Not Used 8 Not Used 9 Not Used
10 Not Used 11 Not Used 12 Quad M/c 2 RF I n p u t + 13 Not Used 14 Not Used 15 Not Used 16 Not Used 17 Not Used 18 Not Used 19 Not Used 2 0 ST5R I n p u t + 21 Not Used 22 Not Used 23 Not Used 24 Not Used 25 Not Used 26 Not Used 27 Not Used 2 8 ST2R I n p u t + 2 9 Not Used 30 Not Used 31 Not Used 32 Not Used 3 3 Keyway
34 Not Used 35 Not Used 36 Not Used 37 ST2L Inp u t + 38 Not Used 39 Not Used 40 Not Used 41 Not Used 42 Spare 43 Spare 44 Not Used 45 ST5L I n p u t + 46 Not Used 47 Spare 48 Not Used 49 Not Used 50 Not Used 51 Not Used 52 Not Used 53 Quad M/c 2LF I n p u t + 54 Not Used 55 Not Used 56 Not Used 57 Not Used 58 Not Used 5 9 Quad D i s c RB I n p u t + 60 Quad D i s c RB I n p u t -61 Not Used 62 +20v 63 Not Used 6 4 Ov 65 Ov
82E29-510-7910-0
8-3 1
35 O-
L
34 O
15K R1
C2 30K1 - Q H = J -
R3*
30K1 C1 R2*
19 K I n
R4* U
,31
ST1 R Q 3 0
^ L ^37y_
ST2 R n 28u
0 40
ST3 L 39
26
ST 3 R q2L
ST4 L A2_
ST4R Q 2 2
S T 5 L ^45u.
ST 5 R ° 20
20u
33pF
C4
19K1
R5*
S53S5 036
33pF C3
32
38
29
41
27
44
24
46
21
,48 QUAD DISC LF ,47
QD RF J8
J7
OD LB ,
oiOu Q D R B 0 ^ ;
01 LF
O-o5L 50
Q1 RF ° 1 4
Q1LB
I59_ Q 1 R B ^ "
02LF^53y_
Q2RF J 2
O 12u
O 02 LB 9
10
02 R B ° 56
55
10R
}—Ot18 R6 62u
O 0 V 64,65 64u.65u
7x10 nF=i=
NOTES. 1. CIRCUIT SHOWN GIVES-4dB GAIN FOR UNITY GAIN (OdB) R4 AND R5 SHOULD BE 30K1*.
2. CT = 22pF Ali ICs ARE NE 5534.
3. C1 = C2 = 10 iF 35v.
4. * = 0-5% RESISTOR. 5. NUMBER F0LL0WED BY w eg 20q INDICATES EDGE CONNECTION ON TOP SIDE OF RC.
I
Rev. Issue
Copyric iSL Ali rights reserved. This docu...ent may not be reproduced in any form vvithout the vvritten permission of SSL
From: Cues 1-4 Patch Returns. M a t r i x . External QB & TB Inputs
To: Master Module SL651E
No | Description |No | Description
1 St Cans L Input- 34 Cue Input 2 St Cans L Input + 35 NU 3 St Cans R Input - 36 Status Mix Bus 4 St Cans R Input + 37 Status Record Bus 5 Aux 1 Input - 38 +13V 6 Aux 1 Input + 39 TB t o Cans Wiper 7 Aux 2 Input - 40 Aux 2 L Out + 8 Aux 2 Input + 41 Aux 2 L Out -9 QB/Ext t o Cans Pot R CW 42 Aux 2 R Out +
10 SLS t o Cans R 43 Aux 2 R Out -11 Spare 44 Aux 1 Cans L Out + 12 Quad t o Cans R 45 Aux 1 Cans L Out -13 SLS t o Cans L 46 Aux 1 Cans R Out + 14 Quad t o Cans L 47 Aux 1 Cans R Out -15 QB/EXt t o Cans Pot L CW 48 St Cans L Out + 16 Spare 49 St Cans L Out -17 Spare 50 St Cans R Out + 18 QB/Ext t o Cans Pot L Wiper 51 St Cans R Out -19 Spare 52 +20V 20 QB/EXt t o Cans Pot R Wiper 53 -20V 21 Spare 54 Ov 22 Spare 55 Ov 23 Spare 56 24 Quad t o CAns Svv 57 25 NU 58 26 Aux 4 Input - 59 27 Aux 4 Input + 60 28 NU 61 29 Keyvvay 62 30 SLS On Svv 63 31 NU 64 32 Omni Input 65 33 NU 66
1 Ov Mixing S4 31 ST Cue R (Aux 3) output 0? 2 Ov Mixing S4 32 Ov 3 Ov Mixing S4 33 Ov 4 ST Cue L (Aux 2) Mixing Bus 34 Aux 1 (Aux 4) Mixing Bus 5 Ov 35 Ov 6 Ov 36 Ov 7 ST Cue L (Aux 2) Output 180? 37 Aux 1 (Aux 4) Output 180? 8 ST Cue L (Aux 2) Gain CW 38 Aux 1 (Aux 4) Gain CW 9 ST Cue L (Aux 2) Gain Wiper 39 Aux 1 (Aux 4) Gain Wiper
10 ST Cue L (Aux 2) H F CW 40 Aux 1 (Aux 4) H F CW 11 ST Cue L (Aux 2) L F CW 41 Aux 1 (Aux 4) L F CW 12 ST Cue L (Aux 2) L F Wiper 42 Aux 1 (Aux 4) L F Wiper 13 ST Cue L (Aux 2) H F Wiper 43 Aux 1 (Aux 4) H F Wiper 14 ST Cue L (Aux 2) H F ACW 44 Aux 1 (Aux 4) H F ACW 15 ST Cue L (Aux 2) L F ACW 45 Aux 1 (Aux 4) L F ACW 16 ST Cue L (Aux 2) Output 0? 46 Aux 1 (Aux 4) Output 0? 17 Ov 47 Aux 1 (Aux 4) Cues to M + I 18 Ov 48 ST Cue R (Aux 3)Cues to M -19 ST Cue R (Aux 3) Mixing Bus 49 ST Cue \ L (Aux 2)Cues to M -20 Ov 50 Keyway 21 Ov 51 NU 22 ST Cue R (Aux 3) Output 180? 52 +20v 23 ST Cue R (Aux 3) Gain CW 53 -20v 24 ST Cue R (Aux 3) Gain Wiper 54 Ov 25 ST Cue R (Aux 3) H F CW 55 Ov 26 ST Cue R (Aux 3) L F CW 27 ST Cue R (Aux 3) L F Wiper 28 ST Cue R (Aux 3) H F Wiper 29 ST Cue R (Aux 3) H F ACW 30 ST Cue R (Aux 3) L F ACW
Ext Mon Ext Mon
T82032.50 22 Dec 81
8-37
3 O
< £^
c
c >
» °
-J
C
C
o> o
= c
CL —
o x
00 vi vi
> 0
/ a: tn
CAP. 25V
:TED.
Details
REDRAV/N
R26-27 WAS ' N0W 33R
'LEVEL' ADDED
LU U_ _J
D
OQ
^ CM
o
m
T
&i
uj cm
g S
3 $
Ckd
oo 2" eo
°
£ il
2: S
. 0
f
X
Irl Ö
Ö
JD
a
a
Rev.
vD
OO
CO
0
0
a UJ +
•
sn
CN
I
sn
m
CD
CNl C
vi rn
X
co
UJ
21
h-
oo
tij
a>
CUI
0
2 ci m
H m
O
.91
O)
O
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0
R3
+-*
(f)
O,
T82E33. 50 55 Way Modulo Connector
From: 2 x TB AMPLIFIERS AND COMPRESSOR STEREO CANS
To: MASTER MODULE SL651E
No | Description |No | Description
1 Spare 29 Spare 2 Spare 30 Spare 3 Spare 31 Keyvvay 4 Spare 32 K (T3) 5 Spare 33 J (T3) 6 Spare 34 H 7 Spare 35 Not Used 8 Spare 36 A) TXR 2 9 Spare 37 C)
10 Spare 38 D) 11 Spare 39 B) 12 Spare 40 Spare 13 Spare 41 Not Used 14 TB Amps + Compressor Output- 42 1.5V 15 TB Amps + Compressor Output+ 43 Not Used 16 K (T2) 44 Spare 17 J (T2) 45 G (+48V) 18 Not Used 46 Not Used 19 H 47 +48V 20 Spare 48 Not Used 21 A) TXR 1 49 +20V 22 O 50 Not Used 23 D) 51 -20V 24 B) 52 Not Used 25 Spare 53 OV 26 Not Used 54 OV 27 Not Used 55 OV 28 Not Used
8-39
8-4
0
82E34
55 Way Connector
From: Oscillator and Slate Oscillator To: Master Module SL651
No Description
1 Oscillator (from patch) 180 2 Oscillator (from patch) 0 3 Oscillator On Svvitch 4 Oscillator Frequency Switch Pole 5 Vari Pot CW + Cal Pot CW 6 Spare 7 Spare 8 Vari Pot Wiper 9 Cal Pot Wiper 10 CalPotACV/ 11 Vari Pot ACW 12 50 Hz. Oscillator Frequency Sw. 13 100 Hz. Oscillator Frequency Svv. 14 220 Hz. Oscillator Frequency Sw. 15 440 Hz. Oscillator Frequency Sw. 16 1 KHz. Oscillator Frequency Sw. 17 3 KHz. Oscillator Frequency Sw. 18 10 Hz. Oscillator Frequency Sw. 19 15 Hz. Oscillator Frequency Sw. 20 Oscillator Output - (to patch) 21 Oscillator Output + (to patch) 22 Cal Svvitch 23 Not Used 24 Not Used 25 Keyvvay 26 Listen Amp + Compressor Output 27 Signal Slate Bus 28 MD Output + (to patch)
T82E34.50 29 Jun 1993
No Description
29 MD Output - (to patch) 30 TB Amp + Compressor Output 31 Taik to MD input 32 Listen Mic to Tape Input 33 Omni Input 34 Oscillator to Groups Svvitch 35 Oscillator to QB Svvitch 36 Oscillator Dim Button (82E22) 37 Multi Slate Control Bus 38 Not Used 39 Not Used 40 Not Used 41 Not Used 42 Facility for Spare 43 Facility for Spare 44 Facility for Spare 45 TB Enable from 61 ls (SL8000GB) 46 Facility for Spare 47 Facility for Spare 48 Facility for Spare 49 +13v 50 Not Used 51 +20v 52 - 20v 53 Ov 54 Ov 55 Ov
8-41
[ f l
•iBV
SLATE CONTROL BUS
LISTEN 3 5
TAPE TO MIC
OMNI
LISTEN INPUT
RBO 15K
zzx:
REV ISSUEJ DATE
110
N
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DOCUtNT rUY NOT BE REPRQDUCED
IN ANY FORM UITHUT THE URITTEN PERMISSION OF SOLID STATE LOGIC.
7
7
8
A
A
A
B
A
A
4/84
7/8S
7/BS
JAN BG
19 MAR 88
A
24 JULY 90
DETAILS
REV UPDATE
REV UPDATE
REV UPDATE
STATUS LOCK DELETED
DTG STEFF:
ECO 4K/323 BC C36 470U iBV DELETED.Ti3 LH0002CH ADDED
STEFFi
ECO 4K/447 BC T13 UAS LH0002CH NOU LT1010CH STEFF
22 MAR 93
ECO 4K/i072
NO CHANGE
SHEET i OF 2
REFi T6S1C A2 TITLE GS1E/V
MAIN • SLATE OSCILLATOR MD SEND
DRG.NO. T 8 E 0 3 4 . 7 1
Solid State Logic
8-42
" x z :
R23 130R
CAL
22K LIN
+ 11V
-18V -IBV
REVttSSUE
KO
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DOOJrtNT KAY NOT BE REPRODUCED
IN ANY FORfl UITHDUT THE URITTEN PERMISSION OF SOLID STATE LOGIC.
7
7
8
A
A
A
B
A
A
A
DATE
4/B4 REV UPDATED
7/8S R22 VALUE NOU BBR R2S VALUE NOU GBOR
7/85
OCT BG
19 MAR 90
24 JULY
22 MAR 93
DETAILS
R23 VALUE NOU 13OR
R2 DELETED. RES 24OR ADDED STEFF
ECO 4K/323 NO CHANGE
BC STEFFI
ECO 4K/447 NO CHANGE
BC
STEFF
ECO 4K/1072 R3B R45 R47 UERE 10R NOU IR MM
SHEET 2 OF 2
REF» TGS1D A2 TITLE
MAIN GS1E/V
SLATE OSCILLATOR MD SEND
DRG.NO. T 8 2 0 3 4 . 7 2
Solid State Logic
8-42a
t! H l
t!
J i CUE; i ^!
CUE 1 !
CUE 2!
' CANS ! i i
M K !Gn t t
Y
Be R
00 I
CO
ö ö ö ö
TO AUX MIX BUS ON 651 MOTHERBOARD VIA 15K RESISTORS
Ö Ö
O LF
O LB
O RF
Rev. Issue Details
2 a • REDRAWN 3-84 V.B.
2 b NOTES ADDED 4-86
Copyright^ SSL Ali rights reserved. This document may not be reproduced in any form vvithout the vvritten permission of SSL
O RB
AFL
Be ,
TO AFL MIX BUS ON 651 MOTHERBOARD VIA 15K RESISTORS
+11v O + 3 -R4
270R SWITCHES
PC SIDE
AFL Q_ CONTROL BUS
D1
Cli R17
-0+18v
100nF' 100R
Title STEREO RETURN SWITCH CARD
Drg.No. T82035-71
Solid State Logic Stonesfield • Oxford • England
M r nt*>n n
SL.652 S p l i t Cues Panel - General Description
The SL652 s p l i t cues panel provides an increased number of cue and effects sends available from the SL611 channei module, by enabling any of the cue mix busses to be ' s p l i t ' betvveen the l e f t and right hand sides of the console. For instance a bus may be s p l i t to allow one eff e c t s device to be accessed from modules on the l e f t hand side of the centre section ( v i a the SL652 panel) vvhilst another device i s accessed from modules to the right of the centre section ( v i a the S L 6 5 I ) . Meanwhile, the other busses could be used as cue sends by not s p l i t t i n g them.
The sends from the l e f t hand side of the console only appear as ' s p l i t cues 1 outputs on the patchbay, and these outputs are available whether or not the ' s p l i t 1 button i s pressed. When the ' s p l i t ' buttons are out then the 'echo send' and 'cue i n s e r t ' points on the patch perform as standard, i e they are fed from a l i channels. When a ' s p l i t ' button on the 652 panel i s pressed then only the modules to the right of the centre section feed that 'echo send' or 'cue i n s e r t ' point, the modules to the l e f t feeding the ' s p l i t ' output as above. Note that i f the stereo cue bus, or bus 1 or 2 , i s s p l i t then the l e f t hand side modules w i l l not feed the cue sends on that bus, nor w i l l they appear on the 'Ext to Mon' or 'Ext to Studio' selectors.
The s p l i t outputs have the same controls as the main cue sends, i e gain, HF eq, and LF eq. In addition each output has an 'AFL' svvitch, operating t h i s svvitch puts the console into AFL and feeds a post gain and eq signal to the AFL bus.
The s p l i t cues c i r c u i t r y i s contained i n an assembly mounted on the rear of the s p l i t cues control panel. I t consists of a buscard (82E308) into vvhich are plugged tvvo 82E32 cue mix amp/eq cards, i d e n t i c a l to those f i t t e d to the S L 6 5 I . Each card i s used for three cue busses, i e one for Stereo (L & R) and 1 , and one for 2,3, & 4. The balanced outputs from these cards (post eq and gain) are sent to the patch v i a S153E. The outputs from the cue mix amplifiers on each channei (pre gain control) are connected to buffers on the 82E307 card, vvhich i s mounted on the front panel. When the s p l i t buttons are released t h i s signal i s mixed onto the cue busses on the right hand side of the console. The 82E307 card also contains the c i c u i t r y for the AFL svvitching.
For connection of the panel into the SL4000G console the ribbon connectors S3E and S4E are s p l i t at the centre section, and fed as l e f t and right hand side connectors into the S L 6 5 2 assembly. I f these assembly i s to be removed for any reason then the l e f t and right hand side connectors may be plugged together, the console vvill then function normaily (vvith, of course, the exception of the s p l i t cues!).
8-44
SL652 S p l i t Cues Panel - S i m p l i f i e d Block Diagram
From LHS channels
S3EL
S4EL
82E308/032s
AFL & Status busses on S3E and S4E
S153E S151E
AFL \-from /-patchable VCAs
I I AFL+ \ / l i n k
82E307
\ / S p l i t cue outputs to patch
S3ER
S4ER
\ / \ /
SL651
-/
-\ From RHS channels
-/
-\
8-45
SL652 S p l i t Cues Panel - A d d i t i o n a l connections on 82E308
20 o—
Rl —o 16 —o
S153E
19 o—
22 o—
R2
R3
—o 17 —o
—o 18 —o
L- S4EL,R
23 o—
R4 —o 19 —o
R5
R6
17 —o
20 —o
S3ER
R7 5 -o
R8
R9
6 -o
9 -o
S4ER
RIO 10 —o
y R2,3 15k 0.5% Rl,4-10 15k 5%
8-46
82E308 S p l i t Cues Mothercard.
82E32 Cues L e f t , Right and One 55-vay Modulo
No Desc r i p t i o n From/To
1 OV Power S152E pins 5,6 2 OV Pover " 5,6 3 OV Power 5,6 4 Cue Stereo L e f t Mix Bus Hot S4E Le f t pins 11,12 5 n n n " " Cold " ff pin 9 6 M n n " " Cold n n n g
7 I I n n Output Cold S153E pin 2 8 I I n n Gain CW S151E pin 1 9 M n n Gain Wiper Pad Front Panel Control
10 I I n n HF CW n n n n
1 1 I I t i n LF CW n n n n
12 I I n n LF Wiper n n n n
13 I I n n HF Wiper n n n n
14 I I n n HF ACW n n n n
15 I I n n LF ACW n n n n
16 I I n n Output Hot S153E pin 1 17 OV Power S152E pins 5,6 & S153E pin 3 18 ov Power " " 5,6 & " " 3 19 Cue Stereo Right Mix Bus Hot S4E Left pins 13,14 20 i f n n 11 " Cold " " pin 10 2 1 »f n n n n n
22 !! n i» Output Cold S153E pin 5 23 I I i i f» Gain CW S151E pin 3 24 I I n n Gain Wiper Pad Front Panel Control 25 »1 n n HF CW I I H I I n
26 I I n n LF CW I I I I I I n
27 I I n n LF Viper I I I I 1» n
28 I I n n HF Wiper I I I I »1 n
29 I I n n HF ACW I I I I I I n
30 I I n n LF ACW I I I I I I n
3 1 I I n n Output Hot S153E pin 4 32 OV Pover S152E pin 5,6 & S153E pin 6 33 ov Power " 5,6 & »« i» 6
34 Cue 1 Mix Bus Hot S4E Lef t pins 7, 8 35 n 1 " " Cold pin 6 36 n 1 " Cold " " pin 6 37 n 1 Output Cold S153E pin 8 38 I I 1 Gain CW S151E pin 5 39 n 1 Gain Wiper Pad Front Panel Control 40 n 1 HF CW I I I I H n
4 1 n 1 LF CW I I I I I I n
42 n 1 LF Viper M »1 I I M
43 n 1 HF Wiper »f M I I M
44 n 1 HF ACW " It M f!
45 n 1 LF ACW " f M I I
46 I I 1 Output Hot S153E pin 7 47 n 1 AFL S151E pin 6 48 Cue Stereo Right AFL 49 t i L e f t AFL " 2 50 Keyway M/C 5 1 NU N/C 52 +18V Power S152E pins 1,2 53 -18V Pover 7,8 54 OV Power 5,6 & S153E pin 9 55 OV Power 5,6 & M »1 0 ,
8-47
82E308 S p l i t Cues Mothercard
82E32 Cues 2, 3 and 4 55-way Modulo
No Desc r i p t i o n From/To
1 OV Power S152E pins 5,6 2 OV Power " " 5,6 3 OV Power 5,6 4 Cue 2 Mix Bus Hot S4E L e f t pins 3, 4 5 I ! 2 " " Cold " ,f pin 5 6 ?! 2 " Cold n n n ^
7 It 2 Output Cold S153E p i n 11 8 I I 2 Gain CW S151E pin 7 9 I I 2 Gain Wiper Pad Front Panel Control 10 I I 2 HF CW n n n M
11 I I 2 LF CW n n n n
12 I I 2 LF Wiper n n n n
13 I I 2 HF Viper n n n n
14 I I 2 HF ACW n n i» n
15 I I 2 LF ACW n n n n
16 I I 2 Output Hot S153E pin 10 17 OV Power S152E pins 5,6 & S153E pin 12 18 OV Power " " 5,6 & n n 12 19 Cue 3 Mix Bus Hot S3E L e f t pin 18 20 I I 3 " " Cold n n n
21 I I 3 I I I I I I n n " 1 7
22 I I 3 Output Cold S153E pin 14 23 I I 3 Gain CW S151E pin 9 24 I I 3 Gain y i p e r Pad Front Panel Control 25 I I 3 HF CW n n n n
26 I I 3 L F CW n n n n
27 I I 3 L F Wiper n n n n
28 I I 3 HF y i p e r n n n M
29 I I 3 HF Acy n n n n
30 I I 3 L F Acy n n n n
31 I I 3 Output Hot S153E pin 13 32 OV Power S152E pin 5,6 & S153E p i n 15 33 ov Power " " 5,6 & n n 15 34 Cue 4 Mix Bus Hot S3E Le f t pin 19 35 4 " " Cold »» n n 20
36 4 " " Cold n ». n 20
37 4 Output Cold S153E pin 17 38 4 Gain Cy S151E pin 11 39 4 Gain y i p e r Pad Front Panel Control 40 4 H F cy n n n n
41 4 L F cy n n n n
42 4 L F y i p e r M I I I I n
43 4 H F y i p e r 1! H 1» n
44 4 H F Acy H II I I n
45 " 4 L F Acy " 11 I I M
46 4 Output Hot S153E pin 16 47 4 A F L S151E pin 12 48 3 A F L „ 1 Q
49 " 2 A F L „ g 50 Keyway N/C 51 NU N/C 52 +18V Power S152E pins 1,2 53 -18V Power 7,8 54 OV Power " " 5,6 & S153E p i n 18 55 OV Pover ff 5,6 & I I I I 18
8-48
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8-49-
82E308 S p l i t Cues Mothercard
S151E 26-vay Ribbon Connector
No Descri p t i o n From/To
1 Cue Stereo L e f t Gain C/V 82E32 L,R, 1 pi n 8 2 Cue Stereo L e f t AFL If L,R, 1 n 49 3 Cue Stereo Right Gain C/V ff L,R, 1 »t 23 4 Cue Stereo Right AFL f l L,R, 1 n 48 5 Cue 1 Gain C/W ff L,R, 1 n 38 6 Cue 1 AFL I I L,R, 1 n 47 7 Cue 2 Gain C/W 82E32 2,3, 4 pin 8 8 Cue 2 AFL I I 2,3, 4 n 49 9 Cue 3 Gain C/W I I 2,3, 4 n 23 10 Cue 3 AFL I I 2,3, 4 I I 48 11 Cue 4 Gain C/V I I 2,3, 4 n 38 12 Cue 4 AFL I I 2,3, 4 n 47 13 Spare N/C 14 Spare N/C 15 Spare N/C 16 Spare N/C 17 Spare N/C 18 Spare N/C 19 +18V Power S152E pin 1, 2 20 +18V Power I I
pin 1, 2
21 +11V Power I I 3, 4 22 +11V Power I I 3, 4 23 OV I I 5, 6 24 OV I I » 5, 6 25 -18V Power 1» 7, 8 26 -18V Power I I 7, 8
8-50
82E308 S p l i t Cues Mothercard
S152E Power 10--way Ribbon Connector
No Description From/To
1 +18V Power S151E pins 19,20 82E32 cards pin 52 2 I I n 19,20 If t i n 52 3 +11V Power " " 21,22 4 n n " " 21,22 5 OV 23,24 82E32 cards pins 54,55 6 OV 23,24 ff n n 54,55 7 -18V Power 25,26 ff n pin 53 8 M n 25,26 f f n n 53 9 10
8-51
82E308 S p l i t Cues Mothercard
S153E S p l i t Cues Output 26 vay ribbon
No D e s c r i p t i o n From/To
1 Cue Stereo L e f t Output Hot 82E32 L,R, 1 p i n 16 2 Cue Stereo L e f t Output Cold I ! L,R, 1 " 7 3 Ov 1! L,R, 1 pins 17, 18 4 Cue Stereo Right Output Hot 82E32 L,R, 1 p i n 31 5 Cue Stereo Right Output Cold I I L,R, 1 " 22 6 Ov I I L,R, 1 pins 32, 33 7 Cue 1 Output Hot 82E32 L,R, 1 p i n 46 8 Cue 1 Output Cold I I L,R, 1 " 37 9 Ov I I L,R, 1 pins 54, 55 10 Cue 2 Output Hot 82E32 2,3, 4 p i n 16 11 Cue 2 Output Cold I I 2,3, 4 7 12 Ov I I 2,3, 4 pins 17, 18 13 Cue 3 Output Hot 82E32 2,3, 4 pi n 31 14 Cue 3 Output Cold I I 2,3, 4 " 22 15 Ov I I 2,3, 4 pins 32, 33 16 Cue 4 Output Hot 82E32 2,3, 4 pi n 46 17 Cue 4 Output Cold I I 2,3, 4 3 7
18 Ov I I 2,3, 4 pins 54,55 19 Patchable VCA AFL L e f t Hot Via R2 to S4E p i n 17 20 Patchable VCA AFL L e f t Cold Via Rl to S4E pin 16 21 Ov S152E pins 5, 6 22 Patchable VCA AFL Right Hot Via R3 to S4E p i n 18 23 Patchable VCA AFL Right Cold Via R4 to S4E p i n 19 24 Ov S152E pins 5, 6 25 Spare N/C 26 N/U N/C
8-52
82E308 S p l i t Cues Mothercard
S3E Right 20-way Ribbon Connector
No Description From/To
1 Slate Signal Bus S3E L e f t pin 1 2 Spare n I I 2 3 VCA to Mon Bus f! It 3 4 Slate Control Bus 1! f! 4 5 Channel Solo Cut Bus ff ff 5 6 Spare ff ff 6 7 Status Mix Bus ff ff 7 8 Master Input F l i p Bus ff ff 8 9 Monitor Solo Cut Bus ff f» 9 10 Spare ff ff 10 11 Machine Record Bus ff »f 11 12 Master Ready Group Bus »f ff 12 13 Status Record Bus ff f» 13 14 Spare »f ff 14 15 Solo Disable Bus f» »f 15 16 VCA to Meters Bus »f ff 16 17 Cue 3 Mix Bus Cold v i a R5 to OV 18 Cue 3 Mix Bus Hot N/C 19 Cue 4 Mix Bus Hot N/C 20 Cue 4 Mix Bus Cold v i a R6 to OV
8-53
82E308 S p l i t Cues Mothercard
S4E Right 20-way Ribbon Connector
No Desc r i p t i o n From/To
1 Dynamics Link S4E Le f t p i n 1 2 OV I I .» n 2
3 Cue 2 Mix Bus Hot N/C 4 Cue 2 Mix Bus Hot N/C 5 Cue 2 Mix Bus Cold v i a R7 to OV 6 Cue 1 Mix Bus Cold v i a R8 to OV 7 Cue 1 Mix Bus Hot N/C 8 Cue 1 Mix Bus Hot N/C 9 Cue Stereo L e f t Mix Bus Cold v i a R9 to OV
10 Cue Stereo Right Mix Bus Cold v i a RIO to OV 11 Cue Stereo L e f t Mix Bus Hot N/C 12 Cue Stereo L e f t Mix Bus Hot N/C 13 Cue Stereo Right Mix Bus Hot N/C 14 Cue Stereo Right Mix Bus Hot N/C 15 AFL Mix Bus Cold S4E Le f t p i n 15 16 AFL Mix Bus Cold Rl and S4E L e f t pin 16 17 AFL Mix Bus Hot R2 and S4E L e f t pin 17 18 AFL Mix Bus Hot R3 and S4E L e f t pin 18 19 AFL Mix Bus Cold R4 and S4E L e f t pin 19 20 Peak Hold Bus S4E Le f t p i n 20
8-54
82E308 S p l i t Cues Mothercard
S3E L e f t 20-way Ribbon Connector
No Description From/To
1 Slate Signal Bus S3E Right pi n 1 2 Spare f» I I K 2 3 VCA to Mon Bus I I I I n 3 4 Slate Control Bus n »1 n 4 5 Channel Solo Cut Bus n I I M 5 6 Spare n I I I I 6 7 Status Mix Bus n I I I I 7 8 Master Input F l i p Bus n I I I I 8 9 Monitor Solo Cut Bus n I I I I 9 10 Spare n I I I I 10 11 Machine Record Bus n I I I I 11 12 Master Ready Group Bus n I I I I 12 13 Status Record Bus n I I I I 13 14 Spare n I I I I 14 15 Solo Disable Bus n I I I I 15 16 VCA to Meters Bus n I I I I 16 17 Cue 3 Mix Bus Cold 82E32 2,3, 4 pins 20, 21 18 Cue 3 Mix Bus Hot I I 2,3, 4 pin 19 19 Cue 4 Mix Bus Hot I I 2,3, 4 p i n 34 20 Cue 4 Mix Bus Cold I I 2,3, 4 pins 35, 36
8-55
82E308 S p l i t Cues Mothercard
S4E L e f t 20-way Ribbon Connector
No Description From/To
1 Dynamics Link S4E Right p in 1 2 OV I I ». n 2
3 Cue 2 Mix Bus Hot 82E32 2,3,4 p i n 4 4 Cue 2 Mix Bus Hot fl 2,3,4 " 4 5 Cue 2 Mix Bus Cold I I 2,3,4 pins 5,6 6 Cue 1 Mix Bus Cold 82E32 L,R,1 pins 35,36 7 Cue 1 Mix Bus Hot I I L,R,1 pin 34 8 Cue 1 Mix Bus Hot I I L,R,1 » 34 9 Cue Stereo L e f t Mix Bus Cold I I L,R,1 pins 5,6 10 Cue Stereo Right Mix Bus Cold I I L,R,1 » 20,21 11 Cue Stereo L e f t Mix Bus Hot 1» L,R,1 pin 4 12 Cue Stereo L e f t Mix Bus Hot I I L,R,1 » 4 13 Cue Stereo Right Mix Bus Hot I I L,R,1 « 19 14 Cue Stereo Right Mix Bus Hot I I L,R,1 " 19 15 AFL Mix Bus Cold S4E Right pin 15 16 AFL Mix Bus Cold Rl and S4E Right pin 16 17 AFL Mix Bus Hot R2 and S4E Right pin 17 18 AFL Mix Bus Hot R3 and S4E Right pin 18 19 AFL Mix Bus Cold R4 and S4E Right pin 19 20 Peak Hold Bus S4E Right pin 20
Off Load 15V 77V 375V 32V 32V VCres IV ±2V ±5V ±0.5V ±0.5V
On Load (Imax) 12V 65 V 310V 28V 28V VCres ±1V ±2V ±5V ±0.5V +0.5V
Ripple on O/P < lOmV < lOmV <50mV < lOmV < lOmV at Imax
Voltage Range 5-10 44-50 215 - 265 18-22 18-22 Normaily Set 6.5V 48V 250V 18.5V 18.5V
Max. Current 7A 0.5A 0.55A 25A 25A (Set)
Over Voltage 12V 52V - 22.5V -22.5V Threshold (Set) (Fixed)
Max. Short Cct. 2A 0.015A 0.015A 5A 5A Current (Set)
Eiectrical Description
Before appiying power to the unit, ensure that it has been correctly configured to the available voltage supply, as shown in the Input Voltage Selection Table below.
The -20V regulator tracks the +20V regulator, the +18.5V and -18.5V supplies being connected in series at the 661G output. The supply is thermally protected by circuit breakers operating at 100°C and mounted on the main transformer and on the +20V, -20V, and +7V regulator heatsinks.
Power is fed to the main transformer via a Current Trip, mounted on the front panel, and via Relay A which is energised via an auxiliary transformer. The secondary of this transformer feeds a rectifier, D l , on the 82E331 Trip/Driver Card. The output of D l drives Relay A directly, and also drives Relay B via a delay circuit based around TRI and associated components.
Four thermal circuit breakers, mounted on the main transformer and on the +20V, -20V, and +7V regulator heatsinks respectiveiy, are connected in series with the feed to Relay A de-energise this relay under excess temperature conditions, thus disconnecting the power feed to the main transformer.
Inrush current to the main transformer is limited by a 1 Ohm 50W resistor which is shorted out by contacts 4 and 6 of Relay B after a time delay generated by circuitry on the 82E331 Trip/Driver Card.
Ali regulators are current limited, and ali except the 250V supply have overvoltage devices fitted. The 250V supply has a separate front panel on/off switch in the rectifier circuit.
9-2 15.10.90
Input Voltage Selection
The table below lists the link configuration requirements for the Main and Auxiliary Transformers and the Input Power Feed (wire 52) for each of the input voltage options.
Input Main Transformer Auxiliary Transformer Connect Voltage Links Links Wire 52 to:
100 Volts 3 to 5 4 to 8 5 to 9 20 to 22 21 to 23 Terminal 20 110 Volts 3 to 6 4 to 8 6 to 10 20 to 22 21 to 23 Terminal 20 120 Volts 3 to 7 4 to 8 7 to 11 20 to 22 21 to 23 Terminal 20 200 Volts 5 to 8 3 to 9 21 to 22 Terminal 20 210 Volts 5 to 8 3 to 10 21 to 22 Terminal 20 220 Volts 6 to 8 3 to 10 21 to 22 Terminal 20 230 Volts 7 to 8 3 to 10 21 to 22 Terminal 19 240 Volts 7 to 8 3 to 11 21 to 22 Terminal 19
Setting Up
The power supply should be set up as follows:
1. Raise the 651 Master Unit to expose the PC mother board.
2. Connect a known accurate Digital Voltmeter between the 0V and +18V rack buses. Locate the +20V supply in the main power supply rack and carefully adjust the voltage preset on the supply to give +18.5V ± 0.1V on the 651 power bus. Locate the power rail buses running down the lower edge of the mother board. These are identified by the notation on the silk screen towards the front of the module.
3. Transfer the DVM to the 0V and -18V buses. Locate the -20V supply in the rack and carefully adjust the voltage preset on the supply to give -18.5V ± 0.1V on the 651 power rails.
4. Transfer the DVM to the +13V and +18V buses. Locate the 7V power supply in the rack and adjust the preset to give a reading on the DVM of 6.5V ± 0.5V
5. The 48V supply is preset at the factory and will not require further adjustment.
6. The 250V supply (when fitted) is also preset at the factory and will not require further adjustment.
28.11.90 9-3
SL4000/6000 Console Rail Voltages
The console requires either four or five power sources.
Analogue (Audio) integrated circuits and incandescent filament lamps are fed by +18.5V d.c. (see above). A 40 input channei console will consume typicaliy 20A on these rails.
Logic and LEDs are fed from a single 6.5V rail (see above). The positive line of this supply is connected to the +18.5V supply rail (also see above). Thus the negative line of the 6.5V supply is at +12V (i.e. 18.5V minus 6.5V) with respect to the console OV (signal ground and chassis). A 40 input channei console will consume between 2A and 6A depending upon the number of LEDs that are Iit.
A 48V 0.5A supply is used to provide phantom power for microphone inputs.
Finally, consoles fitted with Plasma Bargraph metering use a 263V 0.5A d.c. supply for the displays. The negative line of this supply is connected to the negative of the 6.5V logic supply.
The interconnection of the various power sources is shown in symbolic form in the diagram below.
+ 250V
+ + 18V _
+ + 6V
+ {
+ 18V
+ 263V Plasma Positive
+ 18V Analogue Positive Logic Positive
+ 12V Logic Common
OV Analogue Common and Chassis - 18V Analogue Negative
9 -4 15.10.90
T h i s page i s l e f t i n t e n t i o n a l l y blank! !
9-6
Bk3
01 , G A ÖOOV
BK 4
J^Bk18
Heateink
• P INS 4,5 and 8.9 L I N K TO OTHER 82E98 BOAROS
R2a IOOR
5x 2N58B6
R 3 R M
D 2 y " | > ~ D I L . IKJ40OI
7 6 L I 1
T l
7S>LI2
B 6 /ÖK2 SET V TRIP
NOTES: 1, COMPONENT REF. NUMBERS REFER TO T H I S REGULATOR ONLY
ANO NOT TO THE COMPLETE 82E99 RC.a 82E98 DAUGHTER BOARD COMPONENT REFS. ARE ALSO SEPARATE SEE COMPLETE ASSEMBLY DIAGRAM 661E-16 TO CLARIFY.
ALL D IODLS I S 4 4 UNLESS OTHERWISL STATE.D TO XON
.•20V Reg '
Copyright(£) S S L Ali rights reserved. This document may not be reproduced in any form vvithout the vvritten permission of S S L
Rev. Issue I Ckd Details
REDRAWN V84
R 3 . C 5 VALUES CHANGED 7-85
COMPONENT REFS. ADOED V86
Title 2 O Y 0 L T NEjG. R E G U L A T O R
Drg.No
T0661E-72
Solid State Logic Stonesfield • Oxford • England
NOTES:
\ COMPONENT REfi NUMBERS REFER TO T H I S REGULATOR ONLY
AND NOT TD THE COMPLETE 82E99 P C B .
82E98 DAUGHTER BOARO COMPONENT REFS ARE ALSO SEPARATE
\ COMPONENT REE NUMBERS REFER * - " J I S REGULATOR ONLY
AND NOT TD THE COMPLETE 8 2 E r
82E98 DAUGHTER BOARD COMPCt i ARE ALSO SEPARATE SEE COMPLETE ASSEMBLY D IAGRA i . . . -16 TO CLARIFY.
ALL DIODLS ISAA DNLLSS OTHE STATLD
Rev. Date Ckd
R3.C5 VALUES CHANGED
Details
REDRAV/N 4-84
COMPONENT REFS. ADDED 1
DIODE D2 R E M O V E D t
Title 7 V 0 L T R L G U L A T O R
Drg.No.
_ TQ661E-75
Sond State Logi S t o n e s f i f » I H • O v f o r H • Fnnlp»
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S I O
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COPYRIGHT ( t ) l RIGHTS RESERVED.
THIS DOCUMENT j BE REPROOUCEO IN RNY FORfl U. ,..uUT THE MRITTEN
PERMISSION OF SOLIO STATE LOOIC.
REV I S S D f l T E
IB JULY
9Q
O E T R I L S
NEW ORRHING BC S T E F F
P C B I S S U E R
U S E D ON SL661 R3 T I T L E
T R I P / D R I V E R
D R C . N O .
T 8 2 3 3 1 . 71 SHEET 1 O F l
Solid State Logic
9-11 a
Connector Information
S101E: Power Supply Mother CF82E99 Power Supply LED Mounting CF82E87
10-way Ribbon Connector
1 - 20V Cathode 2 - 20V Anode via R 3 + 250V Cathode 4 + 20V Cathode 5 + 250V Anode 6 + 20V Anode via R 7 + 48V Anode via R 8 + 7V Cathode 9 + 48V Cathode 10 + 7V Anode via R
CF82E98 Regulator for Power Supply 33-way Edge Connector
1 Spare 18 Set V Out 2 Spare 19 Set V Out 3 Spare 20 Set I Short Circuit 4 220V - TF 21 Set I Short Circuit 5 220V- 22 +ve Sense 6 Spare 23 +ve Sense 7 Spare 24 Set V trip 8 220V - TF 25 Set V trip 9 220V- 26 Set I max 10 Spare 27 Set I max 11 Keyway 28 SCR Gate 12 + 12V 29 SCR Gate 13 + 12V 30 Set I max 14 - 12V 31 Set I max 15 - 12V 32 Drive 16 33 Drive 17
Pin Designation Wire Colour A 48V +ve Orange B Positive 20V +ve Red C Positive 20V +ve Red D Positive 20V +ve Red E 7V+ve White G 7V -ve Brown J Positive 20V -ve Yellow K Negative 20V +ve Yellow L 48V -ve Black M 250V+ve Yellow N 250V -ve Mauve R Negative 20V -ve Blue S Negative 20V -ve Blue T Negative 20V -ve Blue Z OV (20V Common) V Chassis
9-13 15.10.90
G-WAY BICC CONNECTOR
3 B-WAY BICC CONNECTOR
zzs:
OLPYRIGHT C SSL A L L RIGHTS RESLTOLU. • T H I S DOOJHENT KAY NOT BE REPRQDLCEO I N ANY FfJRM W1TH0UT THE WRITTEN PERrllSSlQN
CF SOLID STATE L O C I C .
REV ISSUEl DATE
2 2
FEB 9 0
DETAILS
NEW DRAWING B c
STEFF
SHEET 1 O F 1
R E F i TB31C /\3
T I T L E SL631
POWER SUPPLY DELAY UNIT
DRG.NO.
T 8 2 3 0 0 . 7 1
ScM State Logic
Solid State Logic
SL4000G Console Service Manual
SECTION 10
SL 663E Power Supply Changeover Unit
o I
M Q
UNIT A LH POVVER SUPPLY ( P I N S ON R E A R P A N E L )
The Bargraph system utilizes the 201 element bargraph manufactured by Burroughs, The system is in tvvo parts; the Meter assembly, the System Master cards.
The Meter assembly consists of three cards, the f i r s t carries the bargraph and the scale i l lumina t ion , then one each for the analog and the logic c i rcu i t s . i
The System Master cards, three and a mother card consist of a Ramp Generator card vvhich provides al i the t iming and transfer functions and the analog bus driving c i rcu i t s , the Svvitch and Lamp Logic card derives the control Iines f rom the svvitches, and the HT card has al i high voltage driver circuits for the cathodes and the povver supply for these drivers. The mother card is covered both back and f ron t vvith plain boards for saftey reasons: there are high voltages in the system.
System Details:
The Burroughs bargraphs are a 201 segment plasma disharge device vvith the cathodes. arranged in a f i ve phase sequence, vvhich must be preceeded vvith a reset cathode. The Reset cathode and the anode-turn on start the discharge (at the bottom of the bar) and then the discharge is passed f rom one cathode to the next, un t i l the anode is turned o f f . The cathode o f f bias voltage is 72volts, the anode o f f bias is lOOvolts. To start the discharge the cathode is taken to Ovolts and the anode is taken to 250volts vvhich then drops to the maintaining voltage of about 150volt$. (NB. In the SSL system the Ovolts for the bargraphs is t ied to the +13volts of the console.)
The brightness of any given segment is dependant upon the t ime spent discharging using that cathode, and the current through the discharge. The SSL system achieves a bright-up by dividing the timebase by four . The point in the ramp being preselectable though normaily +4dBm or OVU for the VU scale and OdBm for the PPM scale. The bargrphs need to be scanned at approximately a rate of 70Hz to avoid f l i c k e r .
Any bargraph system running on a plasma discharge prineiple is l ikely to use high voltages. This device f rom Burroughs requires 250volts, and the voltage of the supply for the SSL implementation is 263volts and vvith a supply requirement of l amp. So please take great care vvhen servicing vvith the HT supplies running.
There follovvs a detailed description of the circui t functions and implementations for each of the cards in the system. Please also refer to the overall t iming diagram and the various sectional t iming diagrams.
T674E (explan-sys) 30.1 20 March 81 rjs
12-1
The Bargraph System.
Circuit Description and Explanation:
The Meter Analog Card, 82E72:
This card is mounted on the l e f t side of the meter assembly and contains a l i the analog c i rcu i t ry to process tvvo signals vvith either VU or PPM balistics and vvith or vvithout f i l t e r i n g . One c i rcui t is used for each bar (there are tvvo bars per channei).
Signal Input:
The main signal input stage is a d i f f e r e n t i a l op-amp stage vvith a tvvo pole f i l t e r vvhich fal ls at 12dB/octave and is -0.5dB at 20kHz. This then feeds the f e t selector.
Spectra Input:
The Spectra Signal Bus feeds direct ly into a tvvo stage Wien bridge f i l t e r vvith a Q = 40 and an overall gain at W? = +i0dB (the nominal level of the Spectra Signal Bus is - lOdB). The capacitors for the f i l t e r are mounted on the pcb d i rec t , there are tvvo sets per f i l t e r , and the associated resistors and the links to select vvhich set of capacipitors are on a 14 pin di i header. The di i header also selects by links either the f i l t e r output or the channei signal or earth as the signal to be fed to the f e t selector. The main channels see Spectra f i l t e r s vvhen in the Spectra mode but the Quad and Cue/Aux meters see thier ovvn signals and the spare channels see earth vvhen in the Spectra mode.
The Rect i f ie r :
The f i r s t stage of the r e c t i f i e r is fed f rom the f e t selector via a gain adjust, marked "Bright Up". Also summed into this point is an DC of fse t adjust marked "Offset". The output of this stage and the input are fed to the next stage vvhich is a mixing amp and is seperate for the tvvo balistic sections.
VU:
The VU mix amp has a gain of 2.94 and completes the r e c t i f i c a t i o n . There follovvs a tvvo pole f i l t e r stage to give the correct t ime constant of 300mS and vvith a 1.5% overshoot on the rise func t i on . The charging of the f i l t e r stage is l imi ted by a zener netvvork to simulate the end stop of a mechanical meter.
T674E (explan-E72) 30.2 20 March 81 rjs
12-2
The Bargraph System.
Circuit Description and Explanation: continued,
The Meter Analog Card, 82E72: continued,
PPM:
The mixing is done by another r ec t i f i e r stage also vvith a gain of 2.94 and vvith a 200kohm feedback resistor. The output of this is fed via a charging resistor to the capacitor, a 3u3F, the resultant is a rise time constant of lnrfS and a decay time constant of 2.8S for 9096 to 10% of FSD. There is a zener l i m i t on the charge voltage of the capacitor to pervent overloading the analog transmission gate that follovvs.
Comparators:
The outputs of the tvvo balistic stages are selected by a 4016 tansmission gate (povvered f rom +13volts and Ovolts) and fed to the invert ing input of the f i r s t comparitor. The other input sees the analog ramp af ter a one pole f i l t e r . The output of this is then compaired vvith the +13volt r a i l and then the output l imi ted to swing between +13volts and +20volts by a diode t ie down. This is then fed to the meter Logic card, 82E57.
T674E (explan-E72) 30.3 20 March 81 rjs
12-3
The Bargraph System.
Circuit Description and Explanation: continued,
The Meter Logic Card, 82E57:
This card is mounted on the right side of the meter assembly and contains the store peak and logic and driving stages for the tvvo bars.
Selector:
The anode svvitch signals come f rom the analog card and go to a 4085 vvhich is a dual tvvo by tvvo AND OR INVERT gate. The other input to this gate on both sides is the output of the d ig i ta i compari tor , (the stored value in the same format as the anode svvitch s ignal) . The control Iines into this AND OR INVERT gate are the Display Signal and Display Store funct ions. The outputs are then inverted and fed via an AND gate vvith the Anode Enable Iines.
HT:
This then feeds the tvvo HT anode driver stages, each vvith tvvo transistors, the f i r s t transistor just svvitches the voltage on the base of the second betvveen about 220volts and 261volts, su f f i c i en t to turn the second transistor on and o f f . The second transistor turns the 261volts on to the bar through the 22kohm anode current l i m i t resistor. The IMohm and 680kohm resistors are -to maintain an anode o f f voltage of about lOOvolts and thence prevent spurious traces of discharge vvhen the bar is suposed to be o f f .
Store:
The store consists of tvvo cascaded four bit D type latches and tvvo cascaded four bi t eomparitors and a NAND func t ion controling the clock inputs of the latches. The operation of this section is explained by a detailed t iming diagram, page number:
Cathodes:
The diode and resistor on each cathode driver are to prevent any shorts on the meter disrupting the bus drive for the other meters.
Scales:
There are three scale drivers on this card for VU, PPM and the Spectra markers. The balast resistors are on this card for the VU and the Spectra markers, the resistors for the PPM are on the Scale Card, 82E59 or 82E83, as they change vvith the type of PPM scale.
T674E (explan-E57) 30.4 20 March 81 rjs
12-4
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48 R
The Bargraph System.
Circuit Description and Explanation: continued,
The Ramp Generator Card, 82E73:
This card contains the logic c i rcu i t ry to generate a l i the t iming functions required, a l i the analog c i rcu i t ry for generating the ramps and the Spectra Bus c i rcu i t s .
The overall t iming diagram for the system vvill make the fol lowing explanations easier to fo l l ow , page number:
The Logic Circuits:
The logic section is based upon a crystal and three sets of counters, the f i r s t associated vvith the crys ta l , the second vvith the DAC - the output of vvhich is the basis for the analog ramp and the third vvith the cathodes. ,
The System Counter:
The crystal is lM8432Hz and feeds tvvo 4040 counters in cascade: the System Counter. This counter is cleared by the Master Clear pulse. The main Enable and Inhibit functions are derived f rom this counter by decoding particular count values and sett ing or resett ing 4043 RS NOR latches. 1
Functions f rom the System Counter:
Anode Enable: Set by a count of 120 and reset by the Master Clear. The Anode Enable is to allovv the anodes to be turned on before the end of the reset cathode and to ensure that they are turned "off at the end of the 200th cathode.
Store Enable/Reset Cathode: These tvvo are the inverse of each other. The RS NOR latch actually generates the Store Enable func t i on . This is set by a count of 128 and reset by the Master Clear.
DAC Clock Enable: Set by a count of 96 in the PPM mode and by a count of 128 in a l i modes (a second set on the latch is ignored), cleared by a count of 16 a f te r the next Master Clear. The earlier s tar t point is due to the required shape of the logri thmic Conversion for the PPM analog ramp.
DAC Counter Clear: The count of 16 refered to above vvhich clears the DAC Clock Enable latch and the DAC Counter.
"96": The count of 96 is a pulse of 16 clock periods long and is used for internal systems checking on the Svvitch and Lamp Logic card.
T674E (explan-E73) 30.5 20 March 81 rjs
12-6
The Bargraph System.
Circuit Description and Explanation: continued,
The Ramp Generator Card, 82E73: continued,
The DAC Counter:
This is another 4040 counter and is cleared by the DAC Counter Clear. The clock input comes f rom the Systen Counter at either 115k2Hz or 28k8Hz, being selected by the state of the Bright-Up RS NOR latch and being enabled by the DAC Clock Enable l a t ch . The 115k2Hz is the normal frequency and the 28k8Hz is for increasing the time spent on each cathode for the section of the scale that is Brighted-Up. The DAC Clock and the f i r s t nine outputs of the DAC Counter are fed to the DAC, an AD561J. The analog output is the begining of the analog ramp. The eight most s ignif icant bits of the DAC inputs are also fed via inverters and G drivers to the ribbonflex meter bus as the Digi ta l Ramp.
Functions f rom the DAC Counter: i
There are three counts detected f rom the DAC Counter by 4048 programmable eight input expandable gates. In a l i cases the gates are used as eight input AND gates vvith and Expand input vvhich is active lovv: this gives the four control inputs; ka, kb, kc, kd = 1001.
Master Clear: This is to detect a count of 800 in VU and a count of 832 in PPM and must be only one clock period long. : :
The main inputs detect count of 512 AND 256 AND NOT 128, 16, 8, 4, AND two* inputs fed by EX OR gates. The Expand input is fed by 2 OR 1, being active lovv this is detecting NOT 2 AND NOT 1. This gives detection of a count value of 768, excluding the EX OR gates. Detecting 786 AND 32 AND NOT 64 gives a count of 800. Detecting 786 AND 64 AND NOT 32 gives a count of 832. The 32 and 64 Iines are fed to this gate through EX OR gates the other inputs being control inputs and are fed f rom the hi i f VU and hi i f PPM funct ions. The tvvo d i f f e ren t count values are to.compensate for the d i f f e r en t start ing counts for the DAC Counter compared vvith the System Counter. An EX OR gate vvith one input used as a control input has an invert ing transfer funct ion i f the control input is hi and a noninverting transfer funct ion i f the control input is l o .
Bright-Up: This is another RS NOR la tch , the output of vvhich selects vvhich frequency is fed to the DAC Counter f rom the System Counter. The latch is set at the count equivilant to the segment at vvhich the bright-up starts f rom and reset by the count of 16 of the System Counter that clears the DAC Counter. There are seperate 4048 gates for the two scales, selection of the gate used is by the hi i f VU and hi i f PPM functions applied to the Expand inputs (the Expand inputs are active lovv). The eight inputs are l ink selectable to be the true or the inverse of the eight most s ignif icant bits of the DAC input .
T674E (explan-E73) 30.6 20 March 81 ris
12-7
The Bargraph System.
Circuit Description and Explanation: continued,
The Ramp Generator Card, 82E73: continued,
The Cathode Counter:
The 4017 Johnson counter is used to generate the f ive phase cathode funct ions . This counter is cleared by the Reset Cathode or by its own count "5" output . The clock input is f rom the second Ieast s ignif icant bit of the DAC inputs and is enabled by the Store Enable.
Outputs f rom the Cathode Counter:
Reset Cathode: This is the inverse of the Store Enable.
. "0": This is the "0" output f rom the Cathode Counter but i t is inhibited by the Reset Cathode.
. " 1 " through . "4": These outputs come straight out .
A l i these six outputs are then fed to the HT Card, -82E75, via 4050 noninverting buf fe rs .
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9 12-9
The Bargraph System.
Circuit Description and Explanation: continued,
The Ramp Generator Card, 82E73: continued,
The Analog Circuits:
The analog section starts vvith the analog output of the AD561J vvhich is a triangular ramp vvith a knee vvhere the timebase is divided by 4 for the bright-up section, i t starts at +13volts and is rising +ve.
The f i r s t op-amp is part of the DAC func t ion , being thei current summing point . The second op-amp is fed f rom the f i r s t into the non invert ing input and has +13volt fed into the invert ing input . The output of this stage is a ramp rising +ve and start ing at Ovolts.
VU Ramp: The VU stage follovvs vvith a gain adjust marked !TVU Bright-Up f T into an invert ing input. Also summed into this point is a DC of f se t marked "VU Offset" . The feedback loop of this stage has tvvo diodes in seriers vvith the 15kohm resistor and in parai lel vvith the diodes there is a 50kohm pot marked "VU Knee". The output of this stage is a linear ramp, -ve going, s tart ing at Ovolts, and including a l i the master adjustments that apply to the VU Ramp. The tvvo diodes in the feedback loop are to generate a slight knee at the bottom of the VU Ramp. This is to match the non l inear i ty of the bottom end of a standard mechanical VU meter caused by the r ec t i f i ng diodes.
PPM Ramp: If the input port of a VCA is a non zero voltage, then the transfer funct ion f rom the control port to the output port is logar i thmic . The ramp f rom the second stage is fed to an inver t ing input, the non invert ing input is fed vvith an of f se t equal to the maximum voltage of the ramp. There is an adjustment on this o f f se t marked "PPM Bright-Up". This leaves an output ramp vvhich is -ve going and vvith a start point of | max voltage of the ramp | . This in turn is fed through a range setting resistor to the control port of a VCA, the dbx202C. The input port of the VCA is fed vvith 5.1volts through 15kohm. The 5.1volt also feeds th_e of f se t input of the previous op-amp.The output port of the VCA is fed to the invert ing input of an op-amp and also summed at tihis point is an DC of f se t vvhich is marked "PPM Offset" . The output of this op-amp is a logari thmic ramp +ve going and start ing at Ovolts. Then follovvs a invertor stage.
Ramp Selector: The tvvo ramps are then fed via f e t switches to the last stage and thence to the bus.
T674E (explan-E73) 30.8 20 March 81 rjs
12-10
The Bargraph System.
Circuit Description and Explanation: continued,
The Ramp Generator Card, 82E73: continued,
The Analog Circuits:
Spectra Bus Driver:
This is a tvvo stage c i r cu i t , the f i r s t op-amp is a d i f f e r e n t i a l input ( f rom the normal point on the patch bay) the second op-amp is an inverting stage vvith a normal feedback resistor of 43k2ohm and a second feedback resistor of 20kohm svvitched vvith a f e t . This gives a normal gain of unity and a loss of lOdB vvhen the f e t is on. The t r im marked "Spectra t r i m " gives ldB of t r im each vvay. The normal state of this stage is for a loss of lOdB and only revert ing to a gain of unity vvhen the +10dB mode and also a Spectra funct ion selected. The Spectra Signal Bus has a nominal level of -lOdB, this allovvs for headroom vvhen the +10dB mode is selected on the Spectra funct ions .
Povver:
The bipolar 20volt decoupling is as per usual. The bipolar 15volt is for povvering the of fse t pots, the VCA, and the 5.1volt reference. The +20volt for the logic circui ts is decoupled seperately through an inductor.
T674E (explan-E73) 30.9 20 March 81 ris
12-11
The Bargraph System.
Circuit Description and Explanation: continued,
The Ramp Generator Card, 82E73: continued,
The Analog Circuits:
Alignment Procedure:
Assuming an aligned meter or else a meter vvith its ! TBright-up" and "offset" pots in thier mechanical centers and that the normal levels for the markings are being used.
VU: Audio in of +4dBm , adjust "VU Bright-Up" for the last dim segment to be I i t and the f i r s t brighted-up segment not to be I i t . Audio in of -16dBm, adjust "VU Offse t" for the -20 scale mark. Audio in of -6dBm, adjust "VU Knee" for the -10 scale mark. Repeat these three steps un t i l a l i correct , the controls are in terac t ive .
PPM: Audio in of OdBm , adjust "PPM Bright-Up" for the last dim segment to be I i t and the f i r s t brighted-up segment not to be I i t . Audio in of -40dBm , adjust "PPM Offse t" for the -40 scale mark, or for tvvo or three segments to be I i t . Repeat these tvvo steps un t i l a l i correct , the controls are sl ightly in terac t ive .
Spectra: With the meter in one of the Channel meter bus sockets and the system svvitched to Spectra and in VU: Audio in of +4dBm , and at the frequency of that meter adjust "Spectra t r i m " for the 0 scale mark.
T674E (explan-E73) 31.1 20 March 81 rjs
1 2 - 1 2
The Bargraph System.
Circuit Description and Explanation: continued,
The Switch and Lamp Logic Card, 82E74:
This card contains the logic c i rcu i t ry to implement the switch logic and generate the resuiting control functions for the system.
The Svvitch Logic:
There are three levels of pr ior i ty for the switches; the VU and PPM svvitches have the high p r io r i ty , follovved by the VCA to Meters, Spectra, Store Peak, Display Peak, and a Solo led vvhen the Spectra on Solo mode has been selected. Then there are tvvo background svvitches; the +10dB on Spectra and the Spectra on Solo mode.
VU and PPM:
The scale line is the output of a 4043 RS NOR latch vvhose set input is the VU svvitch and the reset input is the PPM svvitch. The scale line is high for VU and lovv for PPM. This then a f te r an AND gate feeds a chane of OR gates and INVERTORS to generate the various VU and PPM outputs. The driver stages are a l i invertors, either op-amps or single transistor stages, so some of the logic for decoding outputs f rom the funct ion Iines is active lovv, some is active high, and some a mix ture .
Scale Storage:
There is a second section to the scale line generation that can be selected or not by a link marked "Scale follovv" vvith tvvo options being "Selector" or 'Store". The "Selector" option simply has the scale line alvvays determined f rom the f i r s t RS NOR latch aiready described, so the scale alvvays follovvs the VU and the PPM svvitches. The "Store" option has the scale determined by the VU and PPM svvitches in every instance except vvhen Displaying the Store or Storing on an aiready partly f i l l e d store. This means that the Displayed Store value is alvvays vievved vvith the correct scale, even i f the system vvas running vvith the other scale at the point that Display Peak vvas selected. Likevvise i f there is a current value in the store and the Store Peak is selected again to summate into the stored value then the system vvill svvitch to the scale used vvhen the f i r s t stored value vvas entered. This prevents any contradictions betvveen the stored value and the scales.
The Scale Storage is implemented as fol lows: A second RS NOR latch is fed f rom the main scale RS NOR latch direct to the set input and inverted to the reset input both via AND gates as inhibi tors . The inhibit inputs are fed f rom a third RS NOR latch vvhich is set by the high i f Storing funct ion and is reset by the Clear Store func t ion . The output of the second RS NOR latch is therefore the same as the main scale RS NOR latch un t i l the Store Peak is selected, vvhere the second RS NOR latch is inhibited un t i l the Store is Cleared. The output of the Second RS NOR latch is used as the scale line in place of the main RS NOR latch output vvhenever the Store Peak or Display Peak functions are selected.
T674E (explan-E74) 31.2 20 March 81 ris
1 2 - 1 3
The Bargraph System.
Circuit Description and Explanation: continued,
The Switch and Lamp Logic Card, 82E74: continued,
The Background Svvitches:
+10dB: This funct ion is to add lOdB of gain to the signal vvhen in a Spectra mode. The svvitch vvhen selected l ights dimly and no funct ion is immediateiy implemented. When a Spectra func t ion is selected and the +10dB has previousiy been activated then the lamp becomes bright and the Spectra Bus Drivers have lOdB of gain applied. The c i rcui t is a JK f l i p f lop vvith the J and K inputs held high and the set and reset inputs held lovv and the svvitch feeding the clock input, so this latch behaves as a toggle type. The output feeds the relay driver via an AND gate wi th the hi i f any Spectra l i ne .
Spectra on Solo: This agian is set and implements nothing un t i l a Solo is jselected and then i t behaves as though i t vvere a second level p r io r i ty func t ion . If the Spectra on Solo is selected then i t is refered to as "Spectra on Solo", i f a Solo has been act ivated as vvell then i t is refered to as an "Actual Spectra on Solo", in the discusions that follovv. The c i rcui t for the Spectra on solo la tch are the same as those of the +10dB section.
The Second Level Svvitches:
These svvitches are VCA to Meters, Spectra, Store Peak, Display Peak and Actual Spectra on Solo. A l i have the svvitch feeding the clock input of a JK f l i p f lop vvhose J and K inputs are held high and vvhose set input is held lovv; resuiting in a toggle type latch vvith an asychronous reset.
VCA to Meters: This is reset by VU, PPM, Spectra, Store Peak, Display Peak or Actual Spectra on Solo.
Spectra: This is reset by VCA, Store Peak, Display Peak or Actual Spectra on Solo.
Store Peak:
This is reset by VU, PPM, VCA, Spectra or Actual Spectra on Solo.
Display Peak: This is reset by VU, PPM, VCA, Spectra or Actual Spectra on Solo.
Actual Spectra on Solo: This is reset by VCA, Spectra, Store Peak or Display Peak. The Spectra on Solo mode is only reset by the above l is t i f they are selected vvhile the system is in the Actual Spectra on Solo.
T674E (explan-E74) 31.3 20 March 81 rjs
1 2 - 1 4
The Bargraph System.
Circuit Description and Explanation: continued,
The Switch and Lamp Logic Card, 82E74: continued,
The Second Level Svvitches: continued,
These reset functions are al i the svvitch inputs OR gated together to the reset inputs of the JK f l i p flops vvith tvvo exceptions, the AND gate in the feed to the reset input of the Spectra on Solo f l i p f lop and the Actual Spectra on Solo reset line in a pulse generated f rom the rising edge of the output of the AND gate vvhose inputs are the output of the Spectra on Solo f l i p f lop and the Solo led l ine .
The Output Functions:
For the most part the output functions that are the inputs to the driver stages are ali simple logic decoding f rom the outputs of the various latches and f l i p f lops . Again as vvith the iVU and PPM outputs the preceeding logic is a mixture of active high and active lovv, al i the output drivers have invert ing funct ions. For the obscure output functions the foilovving might s impl i fy :
Functions for driving Scale I l lumination: These are the VU Scale QB, VU Scale Ch, PPM Scale and Spectra Markers. These buses drive a second jdriver on each meter, card. This second driver is also inverting and therefore the outputs ' f rom the Svvitch and Lamp Logic card onto the-buses are the inverse of the funct ion (these are active low at the bus). Excepting these four al i the outputs to the buses are active high.
Display Outputs: There are four of these outputs, Display Signal and Display Store for both Lef t and Right bars. These äre a derivation of the scale Iines (lovv i f VU and lovv i f PPM) and are in one case inver ted. There is an option as to the display vvhen in both Store Peak and Display Peak simulteanously, selected by a l ink marked "Mode in Store and Display". The "Single" option gives a single-bar l i t shovving the continously updated peak on the bar next to the scale that is being used (on the r ight bar for VU and the l e f t for PPM). The "Dual" option gives tvvo bars I i t , the f i r s t shovvs the real t ime signal on the bar next to the scale being used (on the right bar for VU and the l e f t for PPM) on the other bar the continously updated peak is shown. This requires an inverse funct ion on the scale Iines vvhich is accomplished by the pair of EX OR gates through vvhich the scale Iines are fed prior to the display latch output log ic . An EX OR gate vvith one input used as a control input has an invert ing transfer funct ion i f the control input is hi and a noninverting transfer funct ion i f the control input is l o .
T674E (explan-E74) 31.4 20 March 81 ris
1 2 - 1 5
The Bargraph System.
Circuit Description and Explanation: continued,
The Switch and Lamp Logic Card, 82E74: continued,
The Output Functions: continued,
Anode Enable Outputs: These outputs are the combination of tvvo controling funct ions, the Anode Inhibit ion (to ensure anode turn ond turn o f f l im i t s ) and bar selection (which of the tvvo to be I i t ) . This block is a l i active lovv logic . The OR gates summate the Anode Inhibit to the outputs. The AND gates are for the bar selection; lo i f VU and lo i f PPM are the prime inputs which can be overridden by lo i f any Spectra and lo i f Dual mode AND Store Peak AND Display Peak. There is no input for the lo i f any Spectra for the Quad Bus and Cue/Aux meter feeds as these meters show thier own signal in the Spectra mode. The Dual mode input to these gates also has a switch in the feed marked f T Call ibrat ion M . This position lights a l i the bars regardless of the selected scale and is for testing and alignment purposes. The' ! T Normal n position returns the feed to the Dual mode.
The Inputs:
The inputs f rom the switches have a noise f i l t e r consisting of two 15kohm resistors and a lOnF capacitor. The inputs f r o m logic Iines have a seriers 15kohm resistor.
The Output Drivers:
"A": This is a b i f e t op-amp used as a comparitor wi th one input f rom the logic and the other f rom a potential divider between the two logic ra i ls , the output is through a lOohm resistor.The output is either +20volts or -20volts.
, rM ": This is also a b i f e t op-amp as a comparitor vvith one input f rom the logic and the other f rom a potential divider between the tvvo logic ra i ls , the output is-through a 15kohm to 30kohm divider to Ovolts. This is powereed f rom +20volts and Ovolts. The output is either +13volts or Ovolts.
f C This is a dual intensity lamp driver using tvvo transistors. The output either f loats or is through a resistor to the +20volt r a i l .
"E": A single intensity version of the above.
"G ": A driver switching the output to +20volts or being tied by a lkohm resistor to the +13volt r a i l , for driving logic busses.
Power:
Power decoupling is as standard except that an inductor is used on the +20volt r a i l as per the Ramp Card.
T674E (explan-E74) 31.5 20 March 81 r js
The Bargraph System
Circui t Description and Explanation: continued:
The HT Card, 82E75:
This card contains the 83 voit regulator c i rcui t and the bargraph f ive phase cathode driver c i rcu i t s . It mounts on the l e f t of the mother card below the H . T . swi tch.
83 Voit Regulator:
The regulator serves two purposes. It provides the voltage to povver the op-amps in the cathode drivers and also provides a f ixed voitage r a i l to vvhich the bargraph cathodes are returned during the o f f portion of the f ive phase scanning sequence.
263 Volts enters the H . T . card on pins 39 and 40. It is fed to reference zener D6 through current l i m i t i n g resistors RIO, R l l . The zener reference is applied to the complimentary Darlington output stage consisting of Tr4, Tr5, R9, R13, R14, R15. The stage is configured to source or sink current depending on the dynamic requirements of the system. C2 provides a low impedance for supressing the cathode svvitching transients. D7 provides overvoltage protection and R16 over-current protec t ion . Reverse voltage protect ion diodes are incorporated vvithin the output devices.
Cathode Drivers:
The H .T . card containes six identical driver circuits for the f ive cathode Iines and the reset cathode. As the drivers are identical only one vvill be described.
The logic level cathode drive is fed to the H . T . card f rom the 82E73 Ramp Generator card. This is applied to the drive section via isolation resistor R5. This feeds the invert ing input of high voltage op-amp T l . The c i rcui t is configured as an invert ing comparator vvith a current boosting V-FET output stage and overall feedback for slevv rate l i m i t i n g . R7, R8, C l form a decoupled 16.5 Voit r a i l . This is halfvvay betvveen the logic levels of 13 and 20 volts and acts as the comparator !s reference via R4. The op-amp inverts the logic signals and as its output svvings nearly 70 vol ts , provides the voltage needed to turn the bargraph cathodes on and o f f . The current required to supply a consoleTs vvorth of meters is provided by povver transistors T r i , Tr3 . R l , R2 l i m i t the op-amp output current . R3 is the feedback resistor. With feedback the output voltage is slevv rate l imi t ed to about 4 volts/usec. This prevents H . T . svvitching spikes f rom appearing on the povver ra i l s . D l , D3 provide over voltage protection for the V-FET transistors. D5 protects the earlier logic stages f rom high voltage transients and R6 is the output fuse.
T674E (explan-E75)31.6 12 June 85 vc
1 . 2 - 1 7
82E58 Bargraph Mother Card Connector Pinout
S65E 40 Way Ribbon (c/w 82E57)
Descri ption
0 Volts +20 Volts 0 Volts -20 Volts Display Store R +13 Volts Display Store L Display Signal L Display Signal R Anode Enable R Anode Enable L Store Enable Clear MSB Dig i t a l Ramp 6 5 4 • 3 '2 1 LSB Spectra Signal Bus Spectra Relay Channel Relay PPM B a l l i s t i c s VU B a l l i s t i c s Analog Ramp PPM Scale Spectra Markers VU Scale spare spare +263 Volts +263 Volts Cathode 1 H.T. Cathode 0 H.T. Reset Cathode Cathode 3 H.T. Cathode 2 H.T. Cathode 4 H.T.
S66E 20 Way Ribbon (c/w 651 Svvitches)
No
1 2 3 4 5 6 7 8 9
10 11 12 13 14 15 16 17 18 19 20
Descri ption
VCA Svvitch VCA Lamp PPM Svvitch PPM Lamp VU Svvitch VU Lamp +20 Volts -20 Volts +10 dB Svvitch +10 dB Lamp SPECTRA ON SOLO Svvitch SPECTRA ON SOLO Lamp SPECTRA Svvitch SPECTRA Lamp CLEAR PEAK Svvitch CLEAR PEAK Lamp DISPLAY PEAK Svvitch DISPLAY PEAK Lamp STORE PEAK Svvitch STORE PEAK Lamp
S118E 20 Way Ribbon (c/vv 651)
No Description
1 RF 1800 2 LF 00 3 RF 00 4 LF 1800 5 SOLO LED 6 7 8 9
10 VCA TO METERS Bus 11 12 13 14 15 16 17 18 19 20
10 PPM Relay 15 Cathode 1 Drive 16 Reset Cathode Drive 17 Cathode 2 Drive 18 Cathode 4 Drive 19 Cathode 3 Drive 20 Cathode 0 Drive 21 spare 22 Store Inhibit 23 Anode Inhibit 24 "96" 25 VU Relay 26 Analog Ramp 27 spare 28 LF 180? 29 LF 0? 30 Spectra Signal Bus L 31 spare 32 Keyway 35 +10 dB Relay 38 Spectra Signal Bus R 42 RF 0? 43 RF 180? 46 -20 Volts 47 -20 Volts 49 +13 Volts 50 +13 Volts 52 + 20 Volts 53 +20 Volts 55 0 Volts 56 0 Volts
T82073.50 11 May 81
12-23
TECmÖC^i^STRUCTION " " No:T82E73 (20.1) DAJI 8 July
APPLICABLE TO Bargraph Ramp Card REV. 4
LINE-UP PROCEDURE
1. Scope "Master Clear" test point (2V/div . , lmSec./div.) . Check for 4V posit ive going pulse. Trigger scope from this point.
2 Scope right-hand end of R6 (AC coupled, Ö.5V/div.) . Select PPM. Check for 3 ±0.1V P-P ramp. I f not within these l i m i t s t r im R6.
Steps 3-6 establish i n i t i ai settings for the Master Offset and Master Bright-Up controls . These may be trimmed for best overall accuracy.
3 Scope Analog Ramp Out at Tower end of R30 (DC coupled, 0.1V/div. , 1.0mSec./div.). Adjust "PPM Offset" for 200 m i l l i v o l t s at the bottom
of the ramp.
4 Set PPM Bright-Up to occur at "0". (Scope 0.5V/div. , 0.5mSec/div.) Adjust the "PPM Bright-Up" pot to make the break-point of the ramp 3.QV. This adjustment assumes a "0" reference of 0.775 V.
5. Set "VJ Knee" control f u l l y CCVJ.
6. Select Vii. (Scope O . lV /d iv . ) Adjust "VU Offset" for 350 m i l l i v o l t s at the bottom of the ramp.
7 Set VU Uright- Up to occur at "0". (Scope lV /Div . , 0.ImSec./div.) ' Adjust the Bright-Up" pot for a 4.2V P-P ramp. This adjustment assumes
a "0" reference of 1.228V. For other reference levels, t r im R28 and adjust ramp amplitude accordingly. ( I . E . For a 0.775 reference, R28 becomes 33k2 ohms and the VU ramp is 2.6V P-P).
8 Adjustment of "VU Knee" i s made with a bargraph meter. Once the _ Briaht-Up and Offset adjustments are made, check for an accurate m-dication at -10 VU. I f necessary adjust "VU Knee".. There 1 S some inter action among the VU controls so recheck the Bright-Up and -20 VU points and readjust for best overall scale accuracy.
9 Sel-ct SDCCTRA and +10 dB TO SPECTRA. Adjust l e f t and r ight "Spectra ' Trim" controls for unity gain through the Spectra Driver c i r c u i t .
SOL ID"STATE LOCIC STONESFIELD OXFORD ENGLAND 099-389-8282 TLX 837400
12-24
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MODIFICATION
DO NOT SCALE 0R*WING IF IN OOUBT *SK LIMITS UNLESS STi S O L I D S T A T E L O G I C
STONESFIELD 0XFOR0 ENGLANO
MY 112548 R
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S O L I D S T A T E L O G I C STONESFIELD OXFORD ENGLAND
"SPECTRA ON SOLO" Switch "+10 dB" Svvitch "SPECTRA" Svvitch "VCA" Svvitch "CLEAR" Svvitch "VU" Svvitch "PPM" Svvitch "STORE" Svvitch "DISPLAY" Svvitch "96" Anode Inhibit PPM Svvitch Lamp VU scale Quad Bus and Cue/Aux PPM Relay VU Relay VU Svvitch Lamp CLEAR Bus CLEAR Svvitch Lamp VU Scale (Channel) PPM Ballistics VU Ballistics PPM Scale Anode Enable L QB & Cues Anode Enable L Channel Anode Enable R QB & Cues Anode Enable R Channel SOLO LED Store Inhibit SPECTRA Svvitch Lamp STORE Svvitch Lamp Display Signal R Display Store R Store Enable Display Store L DISPLAY PEAK Svvitch Lamp Display Signal L Spectra Relay Channel Relay +10 dB Relay VCA Bus Spectra Markers VCA Svvitch Lamp SPECTRA ON SOLO Svvitch Lamp + 10 dB Svvitch Lamp Keyvvay -20 Volts -20 Volts
+13 Volts + 13 Volts
No Description
51 52 53 54 55 56
+20 Volts + 20 Volts
0 Volts 0 Volts
T82E74 (edge) 50.1 12 May 81
1 2 - 2 8
| TECHNICAL INSTRUCTION No: T82E74 50.2 DATE 8 September 81 j
APPLICABLE TO Bargraph Switches and Lamps
Logic Card
UNIT 674 APPLICABLE TO Bargraph Switches and Lamps
Edgo Connector Pinout N.B. This edge connector ca r r i e s up
to 263 Vo l t s DC. Please take s u i t a b l e sa f t ey precaut ions .
No Descri p t i o n
1 Cathode 0 Logic 2 Cathode 0 H.T. 3 4 5
. 6 Cathode 3 Logic 7 Cathode 3 H.T. 8 9 spare
10 Cathode 4 Logic 11 Cathode 4 H.T. 12 13 14 15 Cathode 2 Logic 1<S Cathode 2 H . f . 17 18 spare 19 Reset Logic 20 Reset Cathode H. 21 22 23 24 25 Cathode 1 Logic 26 Cathode 1 H.T. 27 28 +20 Vo l t s 29 +20 Vo l t s 30 31 Key v/ay 32 +13 Vo l t s 33 +13 Vol t s 34 35 36 H.T. Common 37 H.T. Common 30 39 +263 Vol t s H.T.
401 +263 Vol t s H.T.
82E75 (edge) 50.1 12 M d y 31 vc
1 2 - 3 1
ro i
co .ro
PADS FOR BURROUGHS
BG 12205-2 DISPLAY.
VCA L38
RECORD
GROUP
.34
33
„23
A=B TEST O22
V2
3 8 ^ PPM SCALE
3 7 ^ VU SCALE
3 6 ^ VU SCALE
TAPE 1 3 5 3 5 N SPECTRA
34^
33
2 3 ^
2 2 ,
JXr
2 0 .
1 6 .
1 4 .
1 0 .
- 2 0 V
• 20V
>13V
LEFT SIGNAL SV/ITCH
N.U
SPECTRA SIGNAL BUS
SPECTRA RELAY
CHANNEL RELAY
PPM BALLISTICS
VU BALLISTICS
ANALOGUE RAMP
RIGHT SIGNAL SVVITCH
OV
KA. CATHODE
RIGHT ANODE
LEFT ANODE
KA.ANODE
0 1
0 0
RESET
0 3
0 2
0 4
V1
fr
R2
toMUTEO
. A
G *
t i
R1
ÄYOMITTED
^ R
R6 910RI
G * *
0 ^
SPECTRA. TAPE. VU SCALE. GROUP RECORD. PPM SCALE. VCA.
Cathode 4, Bargraph pin 9 Cathode 2, Bargraph pin 8 Cathode 3, Bargraph pin 7 Reset Cathode, Bargraph pin 4 Cathode 0, Bargraph pin 3 Cathode 1, Bargraph pin 2 not used Keep Alive Anode, Bargraph pin 5 L e f t Anode, Bargraph pin 1 Right Anode, Bargraph pin 10 not used Keep Alive Cathode, Bargraph pin 6 not used 0 Volts Right Signal Svvitch Analog Ramp VU Ballistics PPM Ballistics Channel Relay Spectra Relay Spectra Signal Bus A=B Test Point Le f t Signal Svvitch
- not used
+13 Volts + 20 Volts -20 Volts Spectra Markers VU Scale VU Scale PPM Scale
Cathode 4, Bargraph pin 9 Cathode 2, Bargraph pin 8 Cathode 3, Bargraph pin 7 Reset Cathode, Bargraph pin Cathode 0, Bargraph pin 3 Cathode 1, Bargraph pin 2 not used Keep Alive Anode, Bargraph Le f t Anode, Bargraph pin 1 Right Anode, Bargraph pin 10 not used Keep Alive Cathode, Bargraph pin 6 not used 0 Volts Right Signal Svvitch Analog Ramp VU Ballistics PPM Ballistics Channel Relay Spectra Relay Spectra Signal Bus A=B Test Point L e f t Signal Svvitch
- not used
+13 Volts + 20 Volts -20 Volts Spectra Markers VU Scale VU Scale PPM Scale
0 Volts +20 Volts 0 Volts -20 Volts Display Store R +13 Volts Display Store L Display Signal L Display Signal R Anode Enable R Anode Enable L Store Enable Clear MSB Digi ta l Ramp 6 5 4 3 2 1 LSB Spectra Signal Bus Spectra Relay Channel Relay PPM Ballistics VU Ballistics Analog Ramp PPM Scale Spectra Markers VU Scale spare spare +263 Volts + 263 Volts Cathode 1 H . T . Cathode 0 H . T . Reset Cathode Cathode 3 H . T . Cathode 2 H . T . Cathode 4 H . T .
T82057.50 12 June 81
1 2 - 3 4
5 0
11
rCF82E57
M i
116.5 ^ - 3 1
1 M
R E V I S I O N S
ZONE LTR DESCRIPTION OATE APPROVED
— A NEW DRG. ADDED. 3-7-81 J.EVINS.
ALL DIMENSIONS ARE IN MILLIMETRES.
UNLESS OTHERVVISE S P E C I F I E D CKMENSIONS A R E IN INCHE8 T O L E R A N C E S AR£: FRACTKDNS CHECIMALS ANOUES i .XX r z
.XXX z
CON TRACT NO.
S o l i d S t a t e L o q i c ) UNLESS OTHERVVISE S P E C I F I E D CKMENSIONS A R E IN INCHE8 T O L E R A N C E S AR£: FRACTKDNS CHECIMALS ANOUES i .XX r z
.XXX z A r P f t O V A L l DATE DRG. SHOVVING SIZE & POSITION O F 8 2 E 5 7 H.T
SCREEN.
MATERIAL
1 l 6 PCB. BOARD. F M , S H CLAD WITH SOLDER RESIST.
™ J.EVINS. 3-7-81 DRG. SHOVVING SIZE &
POSITION O F 8 2 E 5 7 H.T SCREEN.
MATERIAL
1 l 6 PCB. BOARD. F M , S H CLAD WITH SOLDER RESIST.
C H E C K E OJ.EVINS. 3-7-81
DRG. SHOVVING SIZE & POSITION O F 8 2 E 5 7 H.T
SCREEN.
MATERIAL
1 l 6 PCB. BOARD. F M , S H CLAD WITH SOLDER RESIST.
ISSUED s „- — y
3-7-81 S i r E F S C U NO. OWQ. NO. ^_ « t v
A3 8 2 E 5 7 DO NOT S C A L E DRAVVING s c a l £ I ; I | S H f E T i OF 1
Ali r e s i s tors are iW, 0.5%. C 0 i s a 6u8F/35V tant . These components along vvith the required l inks are f i t t e d to 14 pin DIL headers vvhich mount on the 82E72 Analog card.
Cl-4 are f i lm type. 15n0 values are Wima MKS or equal, 470p values are Hima FKC or equal. C1&C3 are selected to match each other within 1%, C2&C4 are selected to match each other vvithin 1%. The matched pairs of C l -4 are f i t t e d on the 82E72 Analog card. The caps vvith values vvithin 2% of nominal are marked and f i t t e d to the cards used in the channels vvith Spectra-Vievv.
Header Pinout top side vievv
1 - -14 2 13 3- — 1 2 4 - -11 5 12 6- +[]-9 7 8
Rf (High Frequencies) Rf (Lovv Frequencies) Rf ( a l i Frequencies); Link for EARTH or CHANNEL SIGNAL Link (Lovv Frequencies) Link (High Frequencies) SPECTRA-VIEW: C 0 6u8F/35V tant . EARTH: Link 8&9, 3 & 12 CHANNEL SIGNAL: Link 7&9, 3&12 (vvhen required)
A complete set of f i l t e r s includes:
60 Spectra f i l t e r s - - tvvo headers for each frequency value. N Earth headers - - N= (number of channels minus 30) times 2. Earth
headers are required for a l i channei meters vvhich do not have Spectra headers.
TITLE WAS> 2 TRACK REMOTE SWITCHES. DRG. N*- WAS T82070-71.785
Title
TAPE TRANSPORT REMOTE SWITCHING CARD.
Drg.No.JQ2239.71
Solid State Logic Stonesf ie ld • Oxford • England
Solid State Logic
SL4000G Console Service Manual
SECTION 14
SL 622G Patchable VCAs
Card No Qty Module Description
82E320 4 622G VCA Audio and Control Card 82E321 1 622G AFL Mix Amps and Interface Card
SL 615E Dual Mic Amps
82E135 615E Dual Mic Amp Card (optional) 82E146 615E Dual Mic Amp Meter (optional)
Custom Modifications
82E148 63 I E Dual Buffer/Svvitch Card (optional) 82E282 63IE Dual Balanced Buffer Card (optional) 82E330 63 I E Balanced Input Buffer Card (optional)
SL622 Patchable VCA's - General D e s c r i p t i o n
The SL622 Patchable VCA rack contains four automated stereo faders w i t h balanced audio inputs and outputs. The audio connections appear on the patchbay to allow i n s e r t i o n i n t o any s i g n a l path. The faders are mounted below the SL651 master module, and operate as other SSL automated faders i n that they may be selected to any of the VCA group busses as w e l l as i n t e g r a t i n g w i t h the SSL Studio Computer system. Each fader has associated 'AFL' and 'CUT' switches. 'AFL' puts the console i n t o AFL and sends a mono s i g n a l to the AFL mix bus from the selected channei. A l t e r n a t i v e l y a PFL s i g n a l can be sent, t h i s o p t i o n i s selected using l i n k s on the VCA c i r c u i t cards. 'CUT' cuts the channei and sends a 'cut' s i g n a l to the automation system, the 'CUT' lamp i s dri v e n from the computer r e t u r n .
A l i the associated c i r c u i t r y i s contained i n a eurocard rack mounted below the computer keyboard. I n t h i s rack are four i d e n t i c a l cards, each of which contains the audio and VCA c o n t r o l e l e c t r o n i c s f o r one stereo channei. A f i f t h card contains the AFL mix a m p l i f i e r s f o r the u n i t , along w i t h ribbon connectors f o r the fader connections, computer sends and r e t u r n s , and AFL and CUT switches. A l i f i v e cards plug i n t o a bus card which i s also f i t t e d w i t h s i x t e e n Molex connectors f o r the audio connections to the patch, plus two connectors c a r r y i n g a stereo AFL output. The AFL si g n a l s are normaily sent at l i n e l e v e l to the SL652 S p l i t Cues panel, where they are mixed to mono onto the AFL bus.
The patch connections appear as two rows of ei g h t j a c k s . The inputs to the rack appear on the upper row, the outputs appearing on the lower row. These connections are u s u a l l y immediateiy below the 'Echo Return' i n p u t s .
14-1
SL622 Patchable VCAs - Interconnections
L e f t i n > 82E320 VCA card Right i n > ( 1 of 4)
-> L e f t out -> Right out
i i v Channels 2 to 4 AFL/cut switches, faders, computer sends and return s .
Computer sends/ re t u r n s (S16E to fader bus card)
14-2
64 DIN 41612 Connector L i s t
From: 82E322 Patchable Stereo VCAs Mother board
To: 82E320 Patchable Stereo VCA card
No Rov A No Rov C
1 OV 1 Cut S v i t c h 2 Fader v i p e r 2 Cut Lamp 3 Fader +5V 3 AFL Svitch 4 Fader Thumbvheel 4 5 Fader OV (M) 5 6 OV (from buscard) 6 7 VCA L e f t input (+) 7 8 VCA L e f t input (-) 8 9 OV (from buscard) 9 10 VCA Right input ( + ) 10 11 VCA Right input (-) 11 12 OV (from buscard) 12 13 VCA L e f t output (+) 13 14 VCA L e f t output (-) 14 15 OV (from buscard) 15 +18V 16 VCA Right output (+) 16 +18V 17 VCA Right output (-) 17 OV L 18 OV (from buscard) 18 OV M 19 VCA Computer send 19 OV R 20 OV (from buscard) 20 -18V 21 VCA Computer r e t u r n 21 -18V 22 OV (from buscard) 22 23 23 24 24 25 25 AFL Mix Bus L 26 26 OV 27 27 AFL Mix Bus R 28 28 OV 29 29 30 30 31 31 32 32
PATCHABLE VCAs: EUROCARD PINOUTS 23.Dec.1987
14-3
82E320 Patchable VCA card - Trim pot l o c a t i o n s
< — VR1 D i s t o r t i o n Trim L e f t
< — VR2 Output Balance L e f t
< _ VR3 Fader Offset
< — VR4 Fader Law
< — VR5 Channel Balance
< — VR101 D i s t o r t i o n Trim Right
< — VR102 Output Balance Right
14-4
64 DIN 41612 Connector L i s t
From: 82E322 Patchable Stereo VCAs Mother board
To: 82E321 Ribbon I n t e r f a c e card
No Row A No Rov C
1 Fader 1 Computer Return 1 Cut Sv i t c h 1 2 Fader 2 Computer Return 2 Cut Lamp 1 3 Fader 3 Computer Return 3 AFL Sv i t c h 1 4 Fader 4 Computer Return 4 Cut Sv i t c h 2 5 OV 5 Cut Lamp 2 6 Fader 1 Computer Send 6 AFL Sv i t c h 2 7 Fader 2 Computer Send 7 Cut Sv i t c h 3 8 Fader 3 Computer Send 8 Cut Lamp 3 9 Fader 4 Computer Send 9 AFL Sv i t c h 3
10 OV 10 Cut Sv i t c h 4 11 Fader 1 Viper 11 Cut Lamp 4 12 Fader 1 +5V 12 AFL Sv i t c h 4 13 Fader 1 Thumbvheel .13 14 Fader 1 OV (M) 14 15 Fader 2 Viper 15 +18V 16 Fader 2 +5V 16 +18V 17 Fader 2 Thumbwheel 17 0V L 18 Fader 2 OV (M) 18 0V M 19 Fader 3 Viper 19 0V R 20 Fader 3 +5V 20 -18V 21 Fader 3 Thumbvheel 21 -18V 22 Fader 3 OV (M) 22 23 Fader 4 Viper 23 24 Fader 4 +5V 24 25 Fader 4 Thumbvheel 25 AFL Mix Bus L 26 Fader 4 OV (M) 26 OV 27 27 AFL Mix Bus R 28 28 0V 29 29 AFL Mix Bus 0/P L 30 30 0V 31 31 AFL Mix Bus 0/P R 32 32 OV
PATCHABLE VCAs: EUROCARD PINOUTS 23.Dec.1987
I I
14-5
S12E 64 DIN 41612 CONNECTOR l
CIRCUIT
1 11A Fader 1 Viper 2 12A Fader 1 +5V 3 13A Fader 1 Thumbwheel 4 14A Fader 1 OV 5 15A Fader 2 Viper 6 16A Fader 2 +5V 7 17A Fader 2 Thumbwheel 8 18A Fader 2 OV 9 Not used 10 Not used 11 Not used 12 Not used 13 19A Fader 3 Viper 14 20A Fader 3 +5V 15 21A Fader 3 Thumbwheel 16 22A Fader 3 OV 17 23A Fader 4 Viper 18 24A Fader 4 +5V 19 25A Fader 4 Thumbwheel 20 26A Fader 4 OV
S16E 64 DIN 41612 CONNECTOR CIRCUIT
1 IA Fader 1 Computer Return 2 2A Fader 2 Computer Return 3 3A Fader 3 Computer Return 4 4A Fader 4 Computer Return 5 Not used 6 Not used 7 Not used 8 Not used 9 Not used 10 5A OV 11 6A Fader 1 Computer Send 12 7A Fader 2 Computer Send 13 8A Fader 3 Computer Send 14 9A Fader 4 Computer Send 15 Not used 16 Not used 17 Not used 18 Not used 19 Not used 20 10A OV
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DOClt£NT MAY NOT BE REPRODUCED IN ANY FORM UITHDUT THE URITTEN PERMISSION
OF SOLID STATE LOGIC.
REV ISSUS
1
A
A
TITLE
DATE
1 MAR 88
2 NOV 92
DETAILS
NEW DRAWING AD BC STEFF ECO 4K/9G0 ^ CS C8 C10S C108 WERE 47 NOW 22P C106-7 WERE 10U NOW NOT FITTED R107-8 WERE 10R NOW NOT FITTED M2,l LINKED TO M102,l &< M2,2 LINKD TO M102,2
SHEET 1 OF 1
REF: TG31A A3 G31E/V
DUAL BALANCED BUFFER CARD
DRG.NO. T82282-.71
Solid State Logic
1 4 - 1 7
MOI
M02 R8 10R
18V O 1
OV O
18V O
R4 »
+ 18V
tC9 '22U 25V
R9 10R
Cl 0 22U 25V
A OV
-18V
E l VERSION E2 VERSION
+ 4DB -4DB
R2 19K1 30K1
R3 19K1 30K1
R4 30K1 19K1
R5 30K1 19K1
REV
COPYRIGHT C SSL ALL RIGHTS RESERVED. THIS DOCUMENT MAY NQT BE REPRODUCED IN ANY FORM WITHQUT THE WRITTEN PERIISSION
OF SOLID STATE LOGIC
ISSUE
0
0
A
B
DATE
20 FEB 90
5 MAR 90
DETAILS
NEW DRAWING RP
STEFF
Cl:2 WERE 100U 1GV NQW 10U 50V.R2-4 WERE _ 8K2 &< 13K0 LP NOW 19K1 &< 30K1
SHEET 1 OF 1
REF: TG31B A3' TITLE G 3 1
BALANCED INPUT BUFFER
DRG.NO. T a 2 3 3 0 . 7 1
Solid State Logic
Rev., Jssue Chkd
PL
Nov85
JH
Aprft6
PN
Nov'861
Details
REDRAWN AND R 11,12,20,21,32 t ^ L ; AMENDED
R31 TO LINK. R57 WAS 270R. NOW 240R. NOTE COMR MARKED 0 ADDED. t2P. E.CON. 23A &• 23B
AMENDED TO 28 A
& 28B €L
Title 82E148 DUAL BUFFER SV/ITCHING CARD
Drg.No. T82148-71
Solid State Logic
AFL/PFL r y l i SELECT w
(S3E,14 UGG)
TP
LK3 Yi O — o * \
R4 15K
4001B
LK2
11V
TP
^ A O ^ K I O
O ? O AFL/PFL ry SELECT w
12
^ R104 (S3E,14 UGG) O 15K
o — £ G /4001B
LK102
1 + 11V
13
+ 18V
x CG
RIO TR2 10M J112
+ 18V
TT R5 10K
IC1-A VviL LK4
w + 1 8 V
3 K RG -T~
TRI I N f O-LK5
TRI " > 9 O O BC212LB I
Dl
l 1
i R12 TR3 10M J112
R8 1 B B B—
IOOK JLG4 X100N Ri1 T R 4
-18V 10M
D2
R 7
10K LK1 I
g—T 1 o n RS IOOK
X 1
" ^ov R13 TR5 10M J175
C5 00N
-18V
-18V
+ 18V
T" R105 10K
iICl-B V ^ l ^LK104^
+ 18V
R10G 4K7
TRI 01 BC212LB
LK105 -O—o—b—b—&
Rii° TR102 loii J112
D101
? i i 2 TRI 03 10M J112
R108 100K
D102
C104 x X100N
R l l l TRIOA 10M
-18V
R107 10K
R109 100K x x -18V
"/^ov R i i 3 TR105 10M J175
C10S 00N
-18V
I C ^ 0 " ^ 3 ^LKB^ le
_ B o—o 14
15
16
^18VO 18
R2 10R
+ 18V
nLKC - - ~ UC1-D ~V U | | KTI 13 /4001B 1 _ LKD _
- i O"1 O
11 LKK t
1 O PFL (82E13,i;
-O AFL/PFL (82E13,22)
-O AFL (82E13,24)
-O PFL (82E13,1)
-O AFL/PFL (82E13,22)
—O AFL (82E13,24)
18V
T — a LKE
i ^ LKG _ i — c f — a
14
1 ~ L K H IIC1-C
8 /4001B
f — O O—f LKL_
1° _ LKM 7 ^
— s — O O—f o
i ^ L K I ^ LKJ
i — o — o o — o
k LKN d
ovO
+ n v O
18
17
Rl 10R
TPOV
2 10U ^ 35V
G S &
-IBVQ 20
C2 10U 35V
+ C 1 / 0 V rCl i iou 35V
+ 11V
R3 10R -18V
+ 11V
REV
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