T e c h n ic a l D o c u m e n ta tio n
7 7 0 0
C o m p a c t
W ilh e lm D - 9 0 5 3 T e l. + + 4 F a x + + 4
M 0 W 9 / 9 /
a is e e n 9 1 2 9 1 2
ls tr. 1 d e ls te 9 / 2 8 9 / 2 8
4
in
2 8 3 -3 0 2 8 3 -2 8
R E V IS IO N
1 8 . J a n 2 0 0 1
3 .0 b
0 0 -4 4 1 0 1 7 -0 3 7 7 c 0 0 _ 0 3 .d s 4
F U S E L IS T fo r 7 7 0 0 F u s e F 1
F 5
tin g 5 A 0 A 5 A 0 A 2 A 1 0 A 1 .6 A
F 1
5 0 0 m A
B 2 0 6 -8
A C IN
B 2 0 6 s c h e m a tic / F lu o r o M o d e C o n tr o l L o g ic / F ilm
F 1
5 0 m A 5 0 m A
B 1 1 1 B 1 1 1
A C IN A C IN
P o w e r O n P o w e r O n
F 1
5 0 m A 5 0 m A
B 1 1 1 M R B 1 1 1 M R
A C IN A C IN
M o n ito r R o ta tio n M o n ito r R o ta tio n
F 1
1 0 0 3 1 5 3 1 5 3 1 5 3 1 5
A C 5 V 5 V 2 4 V 5 V
P o w e r O n B 1 0 4 B 1 0 4 M o n ito r R o ta tio n B 1 0 4
F 2 F 3 F 4
F 2 F 2 F 2 F 3 F 4 F 5
R a 1 2 1 2
m A m A m A
F 2
2 A
F 1
2 .5 A
F 1
F 2 F 6 0 8 F
2 .5 A 2 .5 A 1 .2 5 A 2 ,5 A
F
4 A 4 A F
F 1
F F F 2 F 3 F 4 F 5
S e r S e r S e r S e r S e r
m A
2 A
o d -2 -1 -2 -1
e l 4 0 3 0 4 0 3 0 V
L o c a tio n P o w e r P la te A s s e m b ly
F u n k tio n A C IN
P o w e r O n
V
P o w e r P la te A s s e m b ly
A C IN
P o w e r O n
P o w e r P la te A s s e m b ly P o w e r P la te A s s e m b ly P o w e r P la te A s s e m b ly
A C IN 2 4 V A C 2 2 0 V A C
V V
C o m p a c t C o m p a c t
m A
F 1
M 2 0 0 1 0 0 2 0 0 1 0 0
ie s ie s ie s ie s ie s
B 1 1 B 1 1 B 1 1 B 1 1 B 1 1 N G N G N G N G
6 6 6 6 6
1 (B 2 B 1 (B 2 B
4 2 4 3 4 2 4 3
0 ) 0 ) 0 ) 0 )
B 1 4 3
A C IN
P o w e r O n
A C IN
P o w e r O n
2 4 V D C
m A G e n e r a tio n & R e g u la tio n
2 2 0 V A C 2 2 0 V A C
P o w e r O n P o w e r O n
2 2 0 V A C
P o w e r O n
S e r ie s S e r ie s
Im a g e P ro c e s s o r Im a g e P ro c e s s o r
2 2 0 V A C 2 2 0 V A C
P o w e r O n P o w e r O n
5 0 0 m A 5 0 0 m A
S e r ie s S e r ie s
M o n ito r H C C M o n ito r H C C
2 2 0 V A C 2 2 0 V A C
P o w e r O n P o w e r O n
1 .6 A 5 0 0 m 1 0 0 m 1 0 0 m 8 0 0 m
S e S e S e S e S e
9 V 9 V 2 2 0 2 2 0 9 V
P o P o P o P o P o
A
A
A
r ie r ie r ie r ie r ie
s
s
s
s
s
B 1 1 7 B 1 1 7 B 1 1 7 B 1 1 7 H C C B 1 1 7 H C C
G
D C A C D C
P o w e r O n P o w e r O n / C a r m L ift / k V G e n e r a tio n & R e g u la tio n / m A G e n e r a tio n & R e g u la tio n / I n te r c o n n e c t S c h e m a t ic M o n ito r R o ta t io n / I n te r c o n n e c t S c h e m a t ic
6 4 1 6 4 1 W M N M 3 8 1 9
A
M o n ito r B M o n ito r B M o n ito r M o n ito r W
IN D C
G
H C H C H C 1 1
C 2 C 2 C 2 & H C C 2 & H C C 2
F u n c tio n a l S c h e m a tic D ia g r a m
A C A C V A C V A C A C
w e w e w e w e w e
r S r S r S r S r S
u p u p u p u p u p
p ly p ly p ly p ly p ly
fo fo fo fo fo
r B r B r B r B r B
1 0 1 0 1 0 1 0 1 0 8
8
8 8
8
M o d e C o n tr o l L o g ic / Im a g e S y s te m
B 6 4 B O A R D
1 . 2 . 3 . 4 .
C o n tro l P a n e l In te rfa k V C o n tro l L o g ic m A C o n tro l L o g ic II M a g M o d e C o n tro 5 . F lu o ro & F ilm M o d e 6 . H a n d a n d F o o ts w itc h
1 . k V C o n tro l L o g ic 2 . k V D is p la y C o n tro l M P 3 1 2
+ 1 6 V S + 5 V S G N D S
(X 1 -3 A ) (X 1 -3 2 A )
(X 1 -4 A ) (X 1 -5 A ) (X 1 -3 1 A )
+ 5 V + 1 6 V
(S T 1 -1 A ) (S T 1 -3 A )
M P 1
+ 5 V S
l
5
(S T 1 -5 A )
1 . 2 . 3 . 4 .
V C C = 5 V S T 5 -3 G N D = S T 5 -4 M P 2
S T 1
B 3 0 0 B O A R D
S T 1
V C C V B S = 5 V S T 3 -1 7 G N D V B S = S T 3 -2 5 M P 3
B 6 4 B O A R D
M P 1
M P 2
B 1 4 3 B O A R D
P ro c e s s o r In te rfa M o d e C o n tro l L r X ra y L a m p C o r " H o m e P o s itio
c e o g ic n tro l n in g "
1 . m A C o n tro l L o g ic
M P 1 V C C
B R 1
V C C S Y S
B R 2 G N D G N D S Y S B R 1 C lo s e d fo r C o m p a c t B R 2 C lo s e d fo r C o m p a c t
+ 2 4 V G N D
(X 2 -5 ) (X 2 -3 )
+ 1 6 V G N D
(X 1 -2 7 A ) (X 1 -3 2 A )
F R E E S L O T B 0 0 0 1 M O T H E R B O A R D S T 1 S T 9
M P 2
Im a g e F lu o ro M o n ito M o n ito
V C C S Y S = 5 V S T 5 -1 / S T 9 -1 A /C G N D S Y S = S T 1 -1 /2 / S T 9 -3 2 A /C
S T 1
M P 1 G N D
M P 3
G re e n
(S T 1 -A 1 ) (S T 1 -A 3 )
B 3 0 4 B O A R D
E x p o s u re T im e C o n tro l
(S T 1 -A 1 )
+ 5 V + 1 6 V
D 5 7
G N D
B 1 0 2 B O A R D
+ 5 V + 1 6 V
D 5 8 G re e n
G N D S
G N D
1 . F ilm
1 . Iris C o n tro l 2 . F lu o ro E x p o s u re T im e C o n tro l 3 . F lu o ro B e e p C o n tro l
C o n tro l L o g ic M o n ito rin g
M P 4
M P 2
B 1 0 1 B O A R D
B 3 0 0 B O A R D
-5 V R e g U 1 6
8
+ 1 2 V
B 3 0 4 B O A R D
7 7 0 0 C o m p a c t
B 1 0 2 B O A R D
F o r R e fe r e n c e O n ly
B 1 0 1 B O A R D F R E E S L O T
S T 1
+ 1 6 V G N D
+ 1 2 V R e g U 2 6
c e
B 1 4 3 B O A R D
7 7 C 0 1 _ 0 2 .D S 4
P a g e 1 o f 1 2 8 .J u ly 2 0 0 0
C O N T R O L R A C K B O A R D S P O W E R &
F U N C T IO N A L D E S C R IP T IO N
9 0 V A C 0 V A C W 1
W 3 F 2 2 A
W 3
F 1 2 A
F 2 2 A
N G 1 P O W E R S U P P L Y
A C
W 1
F 4
2 4
R 1
B R 1
2 4
2 A
K 1
2 4 V A C
1 0 A
F 3
- Im a g e P ro c e sso r
R 3 9
R 3 9
S 1 3
3
T 1
O F F
C O N T R O L P A N E L
K 2 2 4 V D C X 2 1
G 1
3 R 3
C 1 D 1
7 0 m S D e la y B 7 9 B O A R D
P O W E R O N 1 . B 1 1 1 - re la y K 1 e n e rg iz e s w h e n th e " o n " s w itc h is p re s s e d 2 . P o w e r re la y K 1 th e n e n e rg iz e s a llo w in g A C p o w e r to T 1 . T h is in p u t c u rre n t is lim ite d b y re s is to r R 1 3 . A p p ro x im a te ly 7 0 m s la te r th e p o w e r re la y K 2 e n e rg iz e s w h ic h a llo w s th e in p u t c u rre n t to b y p a s s th e c u rre n t lim it re s is to r R 1
1 7
S 4 0
2
2 4 V D C
L E D 3 9
2 4 V A C
1
2 4 V D C
3
1
O N
2
X 4
F 2
9
S 3 9
1
X 1 F 1
S T 1 0 4
2 4 V D C
S 2 7
1
5 0 m A -K O N
E M E R G E N C Y O F F
6 5
1
2 4 V D C
+ 1 2 V
4
-1 2 V
2
+ 5 V
1 0 1 3 1 1 + 5 V S
5
+ 1 6 V S
1
+ 2 4 V + 1 6 V + 5 V
4
S 1 3
T o M o n ito r R o ta tio n d ia g ra m
S T 5
9 0 V A C
S u p p lie s p o w e r fo r:
- C o n tro l R a c k /G e n e ra to r - C a m e ra - II
0
2 0 A /1 1 0 V 1 5 A /2 3 0 V
2 0 A /1 1 0 V 1 5 A /2 3 0 V
F 1 2 A
T 1
F 2
F 1
N G 2 P O W E R S U P P L Y
S u p p lie s p o w e r fo r:
2
In
A ll re la y s s h o w n in th e d e -e n e rg iz e d s ta te
7 R 1
1 0
1 0
S T 1 1 1
X 2 X 3 2 1
1 . B " 2 . P s
1 1 1 -re la y o ff" s w itc h o w e r re la y h u ttin g o ff
P O W K 1 is p K 1 A C
E R O F F d e -e n e rg iz e s w h e n th e re sse d . th e n d e -e n e rg iz e s p o w e r to T 1 .
K 1
7 7 0 0 C o m p a c t
C 2
F o r R e fe r e n c e O n ly
B 1 1 1 B O A R D
7 7 C 0 2 _ 0 3 .D S 4
P O W E R
O N
P a g e 1 o f 1 2 1 J u ly . 2 0 0 0
W a rm u p In d ic a to r 1 6 V
S T 1 3 7
C O N T R O L L O G IC
S T 2 -W A R M L E D
3 7
IP S L S II0 1 6 -6 0 4
3 0 S E C O N D T IM E R
C O N T R O L P A N E L X ra y s a re d is a b le d u n til th e w a rm u p s e q u e n c e is c o m p le te
B 3 0 0 B O A R D
7 7 0 0 C o m p a c t/S e r ie s F o r R e fe r e n c e O n ly
P a g e 1 o f 1
7 7 X 0 3 _ 0 2 .D S 4
2 1 . J u ly 2 0 0 0
S Y S T E M
W A R M U P
D 2 5
U 5 U P S W IT C H S 2 6
S T 1 3 8
S T 2 -K C U P
L a ttic e 1 0 1 6 -6 0 9
D 3
3 8
-IN C U P
S 2 9
C O N T R O L P A N E L
1
+ 5 V + 1 6 V
S T 1 -A 1 S T 1 -A 3
M P 1
M P 2
+ 5 V S
3 1
S T 7 9
T 2
+ C U P
5 -C U P
U P P E R L IM IT S W IT C H
S T 1 -A 5 S T 1 -A 3 1
B 3 0 0 B O A R D
L 4 X 1 L IF T M O T O R
1
R 6 1
R 7
K 2 6
2 4 7
N O
2 9 L 3
K 1
2 3
N O
K 3
1 4
K 1
1 3
K 4 1
5
X 3 3
D 6 1
2
N O
R 4
D 4 2
K 5 N C
3 -C U P
C 4
1 0
N C
1
K 1 2
1 1
K 4
1 0 8
K 5 9
D 1
N C
N O
2 4 V D C
L 1
B 1 0 5 B O A R D L 2
A ll re la y c o n ta c ts a re s h o w n in th e p ro p e r s ta te fo r th e lift m o to r to m o v e u p
K 2 2
5
X 2
G o ld re s is te rs b e n e a th th e B 1 0 5 b o a rd
K 1 K 2 K 3 K 4 K 5 -
C u rre D ire c D ire c C u rre C u rre
n t tio tio n t n t
C o n tro l n C o n tro l U p n C o n tro l D o w n E n a b le U p E n a b le D o w n
E n e E n e D e E n e D e -
rg iz rg iz E n e rg iz E n e
F 4
e d
e d rg iz e d e d rg iz e d
1 0 A B R 1
2 4 V A C
T 1 A C P o fro P O W E D ia g
w e r In m R O N ra m
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly
P a g e 1 o f 3
7 7 X 0 4 _ 0 2 .D S 4
1 8 . J a n 2 0 0 1
C -A R M
C -A R M
L IF T
U P M O V E M E N T
D 2 4
U 5 D O W N S W IT C H S 2 5
S T 2
S T 1 3 9
-K C D O W N
D 4
3 9
2 7
S T 7 6
C O N T R O L P A N E L
+ 5 V + 1 6 V
S T 1 -A 1 S T 1 -A 3
M P 1
M P 2
+ 5 V S
T 1
+ C D O W N
+ IN C D O W N
S 3 0
1
L a ttic e 1 0 1 6 -6 0 9
-C D O W N
B 3 0 0 B O A R D
L 1
K 2
1 0
9 1
N C
L 4 1
X 1 1
6
K 3
2 4 7
N O
K 1
2 3
N O
1 4
K 1
1
1 3
K 1
K 1 K 2 K 3 K 4 K 5 -
C u rre D ire c D ire c C u rre C u rre
n t tio tio n t n t
C o n tro l n C o n tro l U p n C o n tro l D o w n E n a b le U p E n a b le D o w n
2 9
K 4 8
1 1
K 5
X 3
1 0
D 7 2
2
R 5
D 5 2
K 4 3
-C D O W N
K 5
1 0
D 2
N O
N C
2 4 V D C
N O
B 1 0 5 B O A R D L 2
A ll re la y c o n ta c ts a re s h o w n in th e p ro p e r s ta te fo r th e lift m o to r to m o v e d o w n
K 3
8
C 3
2 L 3
8
X 2
N C
1
R 6 R 7
L O W E R L IM IT S W IT C H
S T 1 -A 5 S T 1 -A 3 1
G o ld re s is te rs b e n e a th th e B 1 0 5 b o a rd
L IF T M O T O R
8
E n e D e E n e D e E n e
rg iz E n e rg iz E n e rg iz
e d rg iz e d e d rg iz e d e d
F 4
2 4 V A C
7 7 0 0 C o m p a c t / S e r ie s A C P o fro P O W E D ia g
1 0 A B R 1 T 1
w e r In m R O N ra m
F o r R e fe r e n c e O n ly 7 7 X 0 4 _ 0 2 .D S 4
C -A R M
C -A R M
L IF T
P a g e 2 o f 3 2 1 .J u ly 2 0 0 0
D O W N M O V E M E N T
1
A ll re la y c o n ta c ts a re s h o w n in th e p ro p e r s ta te fo r n o lift m o to r m o v e m e n t G o ld re s is te rs b e n e a th th e B 1 0 5 b o a rd
K 3 9
L 3 5
N C
X 1 L IF T M O T O R
R 7 1
R 6
1 0 6
2 1
L 4 9 L 1 6
K 2
N C
1 0 5
B 1 0 5 B O A R D K 1 K 2 K 3 K 4 K 5 -
C u rre D ire c D ire c C u rre C u rre
n t tio tio n t n t
C o n tro l n C o n tro l U p n C o n tro l D o w n E n a b le U p E n a b le D o w n
D e D e D e D e D e -
E n e E n e E n e E n e E n e
rg iz rg iz rg iz rg iz rg iz
e d e d e d e d e d
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly 7 7 X 0 4 _ 0 2 .D S 4
N O
C -A R M
L IF T
L IF T M O V E M E N T
P a g e 3 o f 3 2 1 .J u ly 2 0 0 0
X 3
X R A Y H E A D T U B E A S S E M B L Y
S T 4 K V G N D
1
K V S O L L 2
-X R A Y 4
M A IS T 5
-D A 6
(F ilm
2
S e e k V G e n e ra tio n & 4 5
S e e m A G e n e ra tio n & 6
S e e F ilm M L im its flu o is > 6 2 d e g R e g u la tio n s e e F ilm M
(A c tu a l F lu o ro m A ) s h o t)
- Q M A 0 5 (0 .5 m A m o d e ) + 1 2 V D C 8
0 V
9 1 0 1 1 1 2 1 3 1 4 1 5 1 6
-S B Z U
7
(F o r Iris P o t)
8
(F o r Iris P o t)
P O T IM
9
(Iris P o t W ip e r)
-M IB Z
(Iris C lo s e )
-M IB A
(Iris O p e n )
(S lo t C o llim a to r S h u tte r O p e n )
-S B C C W
( S lo t C o llim a to r R o ta te C C W )
-S B C W
S e e C o llim a to r C o n tro l D ia g ra m P a g e s 1 & 2
1 2 1 3
S e e C o llim a to r C o n tro l D ia g ra m P a g e 3
1 4 1 5
(S lo t C o llim a to r R o ta te C W )
G N D
S e e m A G e n e ra tio n & 1
2
U H
X 3
H V S U P P L Y
4
H V -G N D
B 7 9 B O A R D
+ ~
4
B R 2 C 1 -
C O N T R O L P A N E L 1
E R R O R C O N D IT IO N S T h c o 1 . 2 .
is n d T e U (B
s ig n a l g o e itio n s , p r e m p e ra tu re H (F ila m e 1 4 3 , B 4 0
s tr u e w ith o n v e n tin g e x p o s > 7 0 d e g re e s n t V o lta g e ) is & B 4 3 )
e o f th e fo llo w in g u re . C (T e m p S e n so r & B 4 3 ) to o lo w (0 - 5 V D C )
T o d e te rm in e if y o u h a v e a " O v e r T e m p e ra tu re o r " L o w F ila m e n t V o lta g e " fa u lt, m o n ito r U 2 p in s 2 & o n th e B 4 3 b o a rd a s fo llo w s : 3
U 2 -3 lo g ic L o w = O v e r T e m p e ra tu re F a u lt U 2 -2 lo g ic L o w = L o w F ila m e n t V o lta g e S e e th e fo llo w in g d ia g ra m s fo r m o re G E R R d e ta ils :
R e g u la tio n D ia g ra m
(F ila m e n t V o lta g e )
A p ro x 2 6 5 V D C - F ilm M o d e , H ip M o d e , S n a p s h o t M o d e A p ro x 1 6 5 V D C - S ta n d a rd F lu o ro M o d e , C h e s t M o d e , H a n d M o d e A p ro x 1 2 5 V D C - > 6 2 D e g re e s C , F lu o ro M o d e
1 6 V
T y p ic a l 1 0 - 2 1 V D C 0 - 5 V D C w ill c a u s e a G E R R F a u lt > 2 1 V D C w ill d is a b le X ra y g e n e ra tio n o n th e B 1 4 3 P c b
4 3
1 5 1
(F a u lt)
B 1 4 3 B O A R D
2
+ 1 6 V D C 2
T e m p / E rro r In d ic a to r
1 . F lu o ro M o d e C o n tro l L o g ic 2 . F ilm M o d e C o n tro l L o g ic
1 6 X 3
1
-G E R R
R e g u la tio n D ia g ra m
C o n tro l L o g ic D ia g ra m A to 0 .5 m A w h e n te m p e r tu r e C , s e e m A G e n e ra tio n & g ra m . D is a b le s film m o d e , C o n tro l L o g ic D ia g ra m
1 1
X 2
X 1
o d e ro m re e s D ia o d e
1 0
(S lo t C o llim a to r S h u tte r C lo s e )
-S B A U F
1 5 S ta rts X ra y g e n e ra tio n , S e e F ilm o r F lu o ro C o n tro l L o g ic D ia g ra m s
(X ra y O n )
S T 1
R e g u la tio n D ia g ra m
3 1
M o d e P re p , a c tiv e 1 s e c o n d p rio r to film
7
F IL T E R B O A R D
(F a u lt)
S T 2
1
(D e s ire d K V )
-G E R R 3
B 3 0 0 B O A R D
~
S e e k V G e n e ra tio n &
R e g u la tio n D ia g ra m
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly
P a g e 1 o f 1
7 7 X 0 5 _ 0 2 .D S 4
2 1 .J u ly 2 0 0 0
IN T E R F A C E S IG N A L S X R A Y T U B E H E A D T O C O N T R O L E L E C T R O N IC S
S T 1 1 0
+ 1 6 V L E D 4
S 4
F IL M
S T 2 -K D A
D 1 6
1 0
( S e e F ilm
M o d e C o n tr o l L o g ic d ia g r a m )
B R 2
M O D E
U 5 -2 6
+ S E C O N D S 3 0
S 5
-S E C P L U S
3 0 S e e F ilm M o d e C o n tr o l L o g ic d ia g r a m
-S E C O N D S S 6
+ 1 6 V L E D 7
S 7
A U T O
S 8
S 9
S 1 0
1 7
-K F L U O R O
1 7
4
-K D O P U
4
D 1 7
( S e e F lu o r o M o d e C o n tr o l L o g ic d ia g r a m )
T y p ic a l S w itc h L o g ic C o n tro l
D 1 4 U 5 -4 2
1 4
- K S IP U
1 4
1 3
-K K V M A N
1 3
D 1 5
( S e e m A G e n e r a tio n & R e g u la tio n d ia g r a m )
F L U O R O
D 2
( S e e k V G e n e r a tio n & R e g u la tio n d ia g r a m )
M A N U A L
1 1
S 1 1
-K V P L U S
1 1 S e e k V G e n e r a tio n & R e g u la tio n d ia g r a m
-K V S 1 2 + 1 6 V S 3 4
S 3 5
L O W
-K V M IN U S
1 2
4 8
-K H A N D
4 8
4 9
-K B E C K
4 9
4 1
-K H A D 0 S
4 1
6 L E D 1 0 0
S 1 0 0
+ 5 V D C
S w itc h R e le a s e d
+ 5 V D C
+ 5 V D C
D 1 9
( S e e C o lim a to r C o n tr o l d ia g r a m )
0 V D C
0 V D C U 5 -2 6
B u ffe r In v e rte r
F u n c tio n O F F
F u n c tio n O F F F u c tio n O n
U 5 -2
D 1 3
( S e e m A G e n e r a tio n & R e g u la tio n d ia g r a m )
U 5 -2 7
D 1 8
( S e e Im a g e S y s te m
d ia g r a m , p a g e 1 )
U 5 -3 6
D O S E
+ 1 6 V
C O N T R O L P A N E L
1 2
(H A F D O S )
S 3 8
S w itc h P re sse d
S w itc h R e le a s e d
H IP M O D E
+ 1 6 V L E D 4
S w itc h P re sse d
H A N D M O D E
+ 1 6 V L E D 3 5
U 5 -1 0
S W IT C H C O N T R O L L O G IC
+ K V
L E D 3 4
U 5 -8
S N A P S H O T
+ 1 6 V L E D 1 0
2 9
P U L S E D F L U O R O
+ 1 6 V L E D 9
-S E C M IN U S
F L U O R O
+ 1 6 V L E D 8
2 9
-K T O X 6
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly 7 7 X 0 6 _ 0 2 .D S 4
D 2 0
P a g e 1 o f 1 2 1 .J u ly 2 0 0 0
U 5 -4 1
C H E S T
B 3 0 0 B O A R D
X R A Y C O N T R O L S W IT C H E S
B 2 0 6 B O A R D
S T 2 0
H A N D S W IT C H
2
-H A N D
O P T O IS O L A T O R U 9 3
6
-H A N D S W
F 1
F O O T S W IT C H 1
-F U S S
O P T O IS O L A T O R U 8
S T 6
2
5
-H A N D S W
6
-F O O T S W 1
L E D 7
1 6 V D C
S T 1
1 1
1 1
8
-F L U O R E Q *
1 6
-M E M F L U R E Q
O P T O IS O L A T O R U 2 D O P T O IS O L A T O R U 1 3 A
1 0
2
2 6
-X R Y
C O N T R O L L O G IC IP S L 1 0 1 6 -6 0 6
-S T R A
2 1
-S P T
4 4
-S P R
O P T O IS O L A T O R U 6 A 2
6
O P T O IS O L A T O R U 7 B
1 6
4
-G E R R 1
U 5 -4 1
K 1 -1 4
D 1 2
X ra y -O n (G re e n )
3 6
1 0
U 5 -2 0
T IM E R
U 1 F -1 1
D 5 6
1 6
S e e In te rfa c e D ia g ra m
-X R A Y
2 4 V A C F ro m B 1 1 1 M R b o a rd X 4 -2 (s e e M o n ito r R o ta tio n d ia g ra m )
3 5
X ra y In d ic a to r 1 6 V
S T 5
1 0
-M E M F L U R E Q
2 se c o n d
U 6 -8
1 7
S 7 A u to F lu o ro M o d e
L F 1
-F L U O R E Q * U 5 -2 1
IP S L 1 0 1 6 -6 0
U 5 -1 5
D 1 7
-K F L U O R O
S T 1 1 6 V
C O N T R O L L O G IC U 5 /U 6
R E L A Y K 1
1 7
-K F L U O R O
U 5 -5
D 7
-F O O T S W
2
B 3 0 4 B O A R D
B 3 0 0 B O A R D
D 8
P o w e r fo r b o a rd
0 ,5 A
3
S T 1 0
K 1 -1
T 8 M O N O T O R X R A Y L A M P L O G IC R E L A Y K 1 T 8
1
-T R IG O U T -T R IG IN
T o /fro m im a g e p ro c e s s o r (s e e Im a g e S y s te m d ia g ra m )
S T 2 -X R A Y
S T 1
1 6
2 9 C
1 8 C
2 9 A
S T 4 4
S T 4 4
3 -G E R R
S T 1
S 2 8 -5 M IN S W
3 5 S T 1 M o th e r B o a rd
H 3
H 4
H 5
H 6
1 0 M in
1 M in
1 0 S e c
1 S e c
S T 9
S T 2
S T 3 1 0 E R 1 0 0 E R 6 7
C O N T R O L P A N E L
6
1 0 0 0 E R
8
9
1 E IM IM IM IM
9 1 0
T T
1 1 1 2 1 3
T T
R A
1 1 D C
B
1 2 1 3
1
M O N IT O R A S S E M B L Y
U 1 8 -2 3 F L U O R O T IM E D IS P L A Y L O G IC P A L U P A L U U 4 , U U 1 1 , U U 1 3 , U
1 7
S T 1 -X R A Y
1 8 1 0 1 2 1 4
1 8 C
U 1 0 -6 X 1
X 1
1 8 C
T o k V c o n tro l lo g ic (s e e k V G e n e ra tio n & R e g u la tio n d ia g ra m )
-X R A Y
1 1 A
T o m A c o n tro l lo g ic (s e e m A G e n e ra tio n & R e g u la tio n d ia g ra m )
B 6 4 B O A R D
B 1 4 3 B O A R D
Ju m p e r S C H 1 2 3
1
B 1 0 1 B O A R D
T R IG IN = e n a b le s th e im a g e p ro c e s s o r. T R IG O U a fte r th e T h e tim e d o e s n o t
X 3 -G E R R
Ju m p e r B R 2 IN = 4 s e c flu o ro b e e p O U T = n o flu o ro b e e p 1
X R A Y L A M P
B 1 0 3 B O A R D
Ju m p e r B R 1 A lw a y s o u t 7
8 1 0 U 2
2 3 C
-B U Z Z E R
X 4
4
2 9 A
2 9 C
U 1 0 -4
F L U O R O E X P O S U R E T IM E D IS P L A Y
X 1
T = x ra y r o n te rm
fro s w th e in a
m
th itc h B 3 0 te a f
e im a g e is re le a s 0 b o a rd te r th e 6
p ro c e d . T te rm 4 0 m
e s s o r s ta y s h is e n s u re s in a te s e x p o s e c tim e p e
a c tiv e , e n a b lin g e x p o s u re , fo r 6 4 0 m s e c s u ffic ie n t tim e to fo r la s t im a g e h o ld . s u re a fte r 2 s e c o n d s if th e T R IG O U T rio d .
3 4
F IL T E R B O A R D
3 6
-X R A Y
-5 M IN L E D
2 4 V A C
-X R A Y
L E D 2 8
1 6 V
-C L R B U Z
5 M in u te W a rn in g In d ic a to r
-L E D A L A R M
(G e n e ra to r E rro r)
X R A Y T U B E H E A D A S S E M B L Y
7 7 0 0 C o m p a c t F o r R e fe r e n c e O n ly
P a g e 1 o f 1
7 7 C 0 7 _ 0 3 .d s 4
2 2 . N o v . 2 0 0 0
F L U O R O M O D E C O N T R O L L O G IC
B 2 0 6 B O A R D 3 2
-H A N D
O P T O IS O L A T O R U 9 6
-H A N D S H
S T 1 0
S T 6
2
5
U 5 -7
D 8
-H A N D S H
C O N T R O L L O G IC
U 5 -5
( F ilm
U 5 /U 6
U 6 -2 6 F 1 P o w e r fo r b o a rd
1
0 ,5 A
1 6 V L E D
1 0
1 0 -S E C P L U S
S 4 F ilm M o d e 4
B R 2
3 0
-S E C M IN U S
e n a b le
D 1 6
d is a b le
2 9 1
X r a y In d ic a t o r L F 1
S T 1 -X R A Y
1 6 V
2 8 A
1
1
C O N T R O L L O G IC
S e tu p 1 5 m A 2
1
2
U 5 -4 3
K 1 -1 4 1
2
-G E R R
6
D 5 6 X ra y -O n L E D (G re e n )
1 6 V D C
4
-X R A Y
-X R A Y
1 2 C
2 8 C
1 8 C
1 2 A
1 9 A
S T 1 X 1
-X R A Y
S T 1
E X P O S U R E T IM E D IS P L A Y H 2
2 8 C
-S E C P L U S
1 S e c
0 .1 S e c
2 8 A
-S E C M IN U S
U 2 -1 7
U 2 -1 5 S T 3 2 5
C O N T R O L P A N E L
1 2 A
4 3
Q A Q B Q C Q D
S T 2
S T 1
2
1 0 C 9 C 1 1 A 1 0 A
5 4
3
B 1 0 1 B O A R D
Q A Q B Q C Q D
1 0 C 9 C 1 1 A 1 0 A
U 2 -1 4
T o k V c o n tr o l lo g ic ( s e e k V G e n e r a t io n & R e g u la tio n d ia g r a m )
B 6 4 B O A R D
S T 1
1 8 C
S T 1
H 1
U 1
1 2 C
(C o u n t)
2 9
1 8 C
-X R A Y
-S E C M IN U S
4
U 5 -4 4
U 5 -3 2
-E N C N T 6 3
3 0
X R A Y T U B E H E A D A S S E M B L Y
3
+ E N D A
S 6
F IL M
-S E C P L U S
S 5
6
-D A
-X R A Y F ilm e x p o s u r e t im e c o n tr o l s w itc h e s
3
1 6 V D C
-D A
( P r e p , a c tiv e 1 s e c p r io r to e x p o s u r e )
3
U 5 a ls o p r o v id e s a 1 s e c d e la y b e tw e e n film e x p o s u r e s
1 6
P re p L E D (R e d )
U 5 -3 7
S e tu p 2 0 m A
3
D 5 9
B R 1 = m A D is p la y
2
D 1 2
-G E R R
7
(G e n e ra to r e rro r )
U 5 /U 6 K 1 -1 4
B R 2 = F ilm s h o t
-K D A
U 5 -4 1
e x p o s u re re q u e s t, P re p )
X 3 -Q M A 0 5
7
e x p o s u r e if te m p e r a tu r e > 6 2 d e g r e e s C )
( 1 S e c P r e p T im e c o m p le te )
1 S E C P R E P T IM E R
S T 2
S T 1
-Q M A 0 5 ( D is a b le s f ilm
S T 4
D 1 1
F IL T E R B O A R D
S W IT C H
( E q u a l)
H A N D
B 3 0 0 B O A R D
S T 2 0
U 2 -1 1
K 1 -6
-X R A Y
1 1 A
-D A
1 1 C
T o m A c o n tr o l lo g ic ( s e e m A G e n e r a tio n & R e g u la tio n d ia g r a m )
B 1 4 3 B O A R D
F IL M E X P O S U R E T IM E C O N T R O L L O G IC P A L U 2 , U 3 , U U 7 , U 8 , U 9 R e la
7 7 0 0 C o m p a c t / S e r ie s
U 1 4 , U 5 , U 6 , U 1 0 , U 1 1 y K 1
F o r R e fe r e n c e O n ly 7 7 X 0 8 _ 0 2 .d s 4
B 1 0 2 B O A R D
F IL M
P a g e 1 o f 1 2 2 . N o v . 2 0 0 0
M O D E C O N T R O L L O G IC
C A M E R A
Y e llo w + k V
+ 1 6 V S T 1
S T 2
-K K V M A N
1 3
D 2
1 3
U 5 -2 6
1 3
K E Y B O A R D IN T E R F A C E C O N T R O L L O G IC
U 1 D
-K V P L U S
1 1
D 5 6
-X R A Y
-K V M IN U S
F ro m
1 2
F lu o ro M o d e d ia g ra m
S 1 2 k V D e c re a se
k V D IS P L A Y
a n d F ilm
M o d e d ia g ra m
IC 8
6
H 1 2 2
* 1
S T 2 1 0 1 1 1 2 1 3
C O N T R O L P A N E L
3 6
IC 2 5
-K K V M A N
2 3 A
1 4
7
1
2 2 C
-K V P L U S
2 2 C
1 8 C
-X R A Y
1 8 C
2 2 A
-K V M IN U S
2 2 A
1 7 C
K V S O L L
1 7 C
K V S O L L * 2
K V Q K V Q K V Q K V Q 2
1
C T o p a g e 3
S T 4
k V C a lib r a tio n D u rin g a 7 5 k V m a n u a l flu o ro e x p o s u re , a d ju s t R 4 9 fo r 7 .5 v d c o n T P f (o n th e B 5 4 b o a rd . s e e P a g e 2 ). V e rif y th a t th e re is 3 .6 v d c o n T P f d u rin g a 3 6 k V e x p o s u r e a n d 1 0 .0 v d c d u rin g a 1 0 0 k V e x p o s u re . Y o u c a n m e a s u re k V w ith th e K e ith ly T ria d S y s te m , u s in g th e w id e ra n g e filte r p a c k o r w ith th e V ic to re e n 4 0 0 0 + .
3 0
k V C o n tro l to p a g e 2
U 2 4 -5
K 2 -6
K 3 -6
K V C O N T O L L O G IC
K 1 -6
B 3 0 0 4 b it k V D is p la y C o d e
U 2 9 -2
1 4 1
1
M a n u a l k V C o n tro l
A u to k V C o n tro l 3
K V S O L L
3 K V S O L L C o n tro l V o lta g e A d ju s ta b le b y P 1 A
K V Q K V Q K V Q K V Q
7
R e la y D 7
k V 0 k V
X P D
R 4 9
IC 4
-
K V S O L L A d ju s t
1 6 V
2 3 A
2
* 1 0
2
R e la y D 6
M P 3
2
* 1 0 0
P 1
-F re e z e
X ra y -O n (G re e n ) 1 2
H 1 1
6 V
S T 1
U 5 -1 8
1 1
S 1 1 k V In c re a se
H 1 0
+
1 2 V
B 3 0 4 Im a g e p ro c e s s o r In te rfa c e
4
IC 6
+ 1 2 V R E G
3
1 4 A
V id e o L e v e l s ig n a l fro m c a m e ra ty p ic a lly 6 v d c w h e n A B S lo o p is s ta b liz e d . S T 5 8
+ 1 2 V
D 1 0
In v e rte r
S 1 0 k V M a n u a l
L E D 1 0
D L IS T
2 3
D 4 3
D 2 6 R 3 0
X 1
C N 1
R e d -k V
1 2
1 0 1 1
3
1 2
0
1 3
1 R e la y s s h o w n in d e -e n e rg iz e d c o n d itio n (A u to F lu o ro M o d e )
k V D IS P L A Y C O N T R O L
K V S O L L
6 V 3 6 k V 7 .9 8 V 1 2 .0 5 V 1 1 0 k V 5 5 m V K V S O L L /k V U se S T 1 -3 1 A a s G N D
B 6 4
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly
P a g e 1 o f 3
7 7 X 0 9 _ 0 2 .D S 4
1 8 . J a n 2 0 0 1
k V G E N E R A T IO N & R E G U L A T IO N S W IT C H C O N T R O L &
D IS P L A Y L O G IC
1
T h e s e a r e a p p r o x im a te v o lta g e s a n d w ill v a r y b e tw e e n s y s te m s 0 .5 m A F S ta n d a rd S n a p s h o H ip > 5 6 k F ilm t
M O D E lu o r o ( T e m p > 6 2 C ) F lu o r o , C h e s t , H a n d , H ip < 5 6 k V V
A P R O X 1 2 1 6 2 6 2 6 2 6
V O 5 v 5 v 5 v 5 v 5 v
L T A G E d c d c d c d c d c
C O M M E N T
R a m p G e n e ra to r (T R 1 , T 2 )
X 1 -
M u s t P re p
+ -
X P 3
P 2
X 1
X 1
2 2
2
1 6 C
1 6 C
X 1
X P 1
X 3
K V S O L L * F ro m p a g e 1 A
1
H V P O W E R (D C ) F ro m
B
2 4
H V -G N D
F ro m
p a g e 3
6 C
2
p a g e 3
+
IC 1 0 3
5 C
B 4 5 4
IC 6 +
6 V (5 ,9 5 - 6 ,0 5 a d ju s t w ith R 4 m e a s u re b e tw e e n G N D a n d c )
+
T P f
-
S e e n o te 2
IC 1 0 8
-k V S e n se
B 5 4
IC 1 3
2 0 K D riv G e n (IC 4
3 2
+ k V S e n se X 1
T 1 1 -T 1 3 G
6 C
T 8 -T 1 0
S
G D
X 1 /1
S
1
9 C
P rim a ry W in d in g s 2 6 C
2 D G
S
D G
S 2 9 C
T a n k /T u b e
T 1 4 -T 1 6 2 1
X P 1
T 5 -T 7
H Z e P u ls e e ra to r , IC 7 , IC 9 )
3 1
X 3
D
o n p a g e 1
-
2
X 3
K V S e n se 7 .5 V a t 7 5 k V 1 0 V a t 1 0 0 k V
F IL T E R B O A R D X 1 /3
1
2 4 C
IC 7
B 4 0
X 1
In te rm e d ia te D riv e C irc u itry (T 4 , T 5 , T 6 )
T R 1
In te rm e d ia te D riv e C irc u itry (T 1 0 , T 1 1 , T 1 2 )
T R 2
In te rm e d ia te D riv e C irc u itry (T 1 6 , T 1 7 , T 1 8 )
T R 3
In te rm e d ia te D riv e C irc u itry (T 2 2 , T 2 3 , T 2 4 )
T R 4
2 C
3 1 C
3
X 1 /3
IC 1 0
H .V . P W M
A d d itio n a l k V R e g u la tio n C irc u tiry (IC 3 , IC 8 , IC 1 0 , IC 1 1 )
D riv e
2 4
B 4 3
3 C
7 7 0 0 C o m p a c t / S e r ie s 3 2 C
B 4 2
S o lid -lin e d riv e s ig n a ls a re in -p h a s e w ith o n e a n o th e r. D o tte d -lin e d riv e s ig n a ls a re in -p h a s e w ith o n e a n o th e r. S o lid -lin e a n d d o tte d -lin e d riv e s ig n a ls a re 1 8 0 o u t-o f-p h a s e .
F o r R e fe r e n c e O n ly 7 7 X 0 9 _ 0 2 .D S 4
P a g e 2 o f 3 2 2 . N o v . 2 0 0 0
k V G E N E R A T IO N & R E G U L A T IO N M O N O B L O C K G E N E R A T O R
T 1
0 V A C 9 0 V A C
A C P O W E R IN
1 2 0 V A C
S e e P o w e r O n D ia g ra m
1 9 5 V A C X 3
C
K V 0 V 5 5
F ro m m A G e n e r a tio n & R e g u la t io n D ia g r a m
1 2
8
K 2 -7 S T 6
X 1
4
7
1
4
H V P O W E R (A C ) 2
7
R 7 -
B R 2 +
T 1 C 1
X 2
B 3 0 0 B O A R D
5 6
2
D 4
2 4 V D C 3
-Q M A 0 5
1 9
8
H IV O L T S
-Q M A 0 5 (T e m p e ra tu re > 6 2 d e g re e s C )
R e la y K 5
1 0 5
6
R 5
2
-S W IT R A F
U 5 -2 2
S T 4 7
R e la y K 4 9
1
3
-Q M A 0 5
1 0
2
U 5 -2 4 C O N T R O L L O G IC
X 3 3
> 5 6 k V (H IP M o d e ) K V S O L L IC 1 0 -2 D e te c t L o g ic F ro m p a g e 1 IC 1 0 , K 2 P 5 0
R e la y s s h o w n in th e d e -e n e rg iz e d c o n d itio n 1
2
M F lu o ro M o d e , T S ta n d a rd F lu o ro F ilm M o d e , H ip
O D E e m p > 6 2 d e g re e s C , C h e s t, H a n d , H ip < 5 6 k V > 5 6 k V , S n a p sh o t
X = D o n 't C a r e
D = D e -e n e rg iz e d
P O 9 0 1 2 0 1 9 5
W E V A V A V A
R C
C
C
K 4
K 5
D E
X E
D
B E
E = E n e rg iz e d
B 7 9 B O A R D
2
H V P O W E R (D C ) T o p a g e 2
T 1
F ro m
A C P O W E R IN P O W E R O N d ia g ra m -
B R 1 +
2 4 V D C
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly 7 7 X 0 9 _ 0 2 .D S 4
F 4 1 0 A
2 4 V A C
P a g e 3 o f 3 1 8 .J a n 2 0 0 1
k V G E N E R A T IO N & R E G U L A T IO N H V P O W E R
D 5 6
+ 1 6 V S T 2
S T 1
R 3 1
X ra y -O n L E D (G re e n )
U 1 1 -2
1 6 V D C
K 1 -1 4
-K S IP U
1 4
1 4
D 1 5
+ 1 6 V
4 9
-K B E C K
D 1 3
U 6 -1 0
C O N T R O L L O G IC
R 2 5
L E D 3 5
-K D A
1 0
U 6 -1 6 / U 2 C -1 4
2 4 A
U 2 C -9
6 C
D 1 6
U 6 -6 / U 2 E -1 1
1 7 A
H
-B E C K *
T o p a g e 2
M A IS T -Q M A 0 5 T e m p e ra tu re > 6 2 d e g re e s C (0 .5 m A M o d e )
* 1
S 4 F ilm M o d e
m A D is p la y A d ju s t
* .1 S T 2
U 3
3 5
4
C O N T R O L P A N E L
X P D
M A Q M A Q M A Q M A Q
1
X 1
2
2
9 C 1 1 A 3
3 0
4
1 0 A
5
1 0 C
B 6 4 B O A R D
S T 1
M A Q M A Q M A Q M A Q
1
0
3
2
R 6 8
T o p a g e 2 G
T o p a g e 2
M P 5
m A D IS P L A Y C O N T R O L U 1 2 U 1 4 U 1 7 U 1 8 U 1 9
H 9
2
F
+ 5 V S
m A D IS P L A Y H 8
T o p a g e 2
E
A c tu a l m A S e n s e
1 0
* 1 0
7 A
1 9 C
L E D 4
T o p a g e 2
T o p a g e 2
m o d e (2 0 m A M o d e )
H ip / B o o s t ( 6 m A M o d e )
R 2 6
H 7
D
-D A * F ilm
U 6 -2 6
+ 1 6 V
-S IP U * O n e S h o t (8 m A M o d e )
B R 2
S 3 5 H ip (B o o s t)
J
M o d e L o g ic d ia g r a m s
U 5 /U 6
U 6 -2 7
R E L A Y K 1
4 9
-X R A Y
1 8 C
S e e F lu o r o o r F ilm
S 9 O n e S h o t
L E D 9
S T 1
T h is s ig n a l a ls o g o e s t o t h e k V G e n e r a t io n & R e g u la t io n D ia g r a m p a g e 3 F ilm M o d e L o g ic C o n tr o l D ia g r a m
S T 4
-Q M A 0 5 7 5
M A IS T
1 0 A 1 0 C
C
A c tu a l m A S e n s e
M P 6
F ro m
p a g e 3
F ro m
p a g e 3
7 7 0 0 C o m p a c t / S e r ie s
9 C 1 1 A
I
T e m p e ra tu re > 6 2 d e g re e s C
F o r R e fe r e n c e O n ly
-5 V R 5 1 m A D is p la y O ffse t
7 7 X 1 0 _ 0 2 .D S 4
B 3 0 0
m A G E N E R A T IO N S W IT C H
P a g e 1 o f 4 2 5 J u ly 2 0 0 0
& R E G U L A T IO N
C O N T R O L & D IS P L A Y L O G IC
B 1 4 3
X 1
F ro m
K V S O L L
k V G e n e r a tio n & R e g u la tio n d ia g r a m , p a g e 1
N G 1 P O W E R S U P P L Y
1 6 V D C
(U se T P 1 a s G N D )
1 0 A
T P 7
2 7 A
1 0 V O R E F E R E G E N E R A U 5 , U
S e e P o w e r D ia g ra m
L T N C E T O R 6
+ 6 m A C o n tro l
T P 9
P 7
T P 6
-S IP U * D
-B E C K * E
H ip / B o o s t ( 6 m A M o d e ) F ro m p a g e 1
-Q M A 0 5 G
H
T e m p e ra tu re > 6 2 d e g re e s C (0 .5 m A M o d e ) F ro m p a g e 1 F ilm
-D A
M o d e (2 0 m A M o d e ) F ro m p a g e 1
F IL A M E N T m A S E L E C T L O G IC U 3 U 4 U 1
1 7 A
1 2 A
U 9
+ S lo p e S e le c t 1 3
+ 8 m A C o n tro l
+ 1 0 V
+ 2 0 m A C o n tro l
+ 8 m A C o n tro l
+ 1 0 V
P 2
+ 2 0 m A C o n tro l
9 3
1
U 1 2
R 3 7 4
T P 3
T P 1
+ O ffs e t C o n tro l
X 3
1 + 1 0 V
+ 6 m A C o n tro l
1 2
U 8
1 0
6 m A
1 1
+ 1 0 V
1
3
R 3 8
5
+ 0 .5 m A C o n tro l
F IL A M E N T V O L T A G E R E G U L A T IO N a n d O V E R V O L T A G E P R O T E C T IO N U 1 2 , U 1 1 , U 7 , K 1 , K 2 , K 3
8
4
0 .5 m A
O p e n d u rin g F ilm m o d e
T P 4 1
6
2 0 m A
F ilm M o d e
1 0
X 2
F 1 2 .5 A
K 2
F lu o ro P re h e a t
1
1 2 1 1
8 m A
+ S lo p e S e le c t
5
P 3
2
+ 3 m A C o n tro l
2
+ 1 0 V
+ 0 .5 m A C o n tro l 1 1 C
8
F 4 1 0 A
2 4 V D C 6
U 1 0 0
P 4
+ 6 m A C o n tro l
O n e S h o t (8 m A M o d e ) F ro m p a g e 1
-
+
6
U 1 3
2 4 V A C B R ID G E B 1 +
F ilm P re h e a t
+ 3 m A C o n tro l 1 8 A
2 9
3
+
6
S lo p e A d ju s t
-X R A Y J
3
1 1
8
3 m A S lo p e
T 1
P 8
1 0
6 m A S lo p e
S e e P o w e r d ia g ra m
1 0 R /M in L im it
1 2
R 5 2 + 1 0 -1 0
1 0 V A d ju s t
+ 1 0 V
T P 8
T P 5
P 5
U 1 0
A C P O W E R IN
k V G n d P 6
S e e p a g e 4 , c h a rt 2 fo r v o lta g e s 8
3 m A
A
6 5
+
U 1 2
U H F IL A M E N T V O L T A G E 7
T o p a g e 3
(S e e p a g e 4 , c h a rt 1 fo r v o lta g e s )
9 6
+ 3 m A C o n tro l + 1 0 V
F
P 1 M A IS T A c tu a l m A S e n s e F ro m p a g e 1
9 C
O ffse t
1 2
7 7 0 0 C o m p a c t / S e r ie s
+ O ffs e t C o n tro l 1 3
T P 2 1
F o r R e fe r e n c e O n ly M A IS T A c tu a l m A S e n s e
7 7 X 1 0 _ 0 2 .D S 4
m A G E N E R A T IO N
P a g e 2 o f 4 2 5 J u ly 2 0 0 0
& R E G U L A T IO N
B 1 4 3 F IL A M E N T C O N T R O L
X 1
U H
A
F IL T E R B O A R D
B 4 0 B O A R D
X P 1 X P 1
3
U H 2
3
F IL A M E N T V O L T A G E F ro m p a g e 2
F IL A M E N T V O L T A G E F ro m p a g e 2
(S e e p a g e 4 , c h a rt 1 fo r v o lta g e s )
B 4 3 B O A R D X 1
F IL P R E L T U
X 1
1 0 C
A M E N T -D R IV E O G IC 6 , T 7 , 4 , U 6 , U 7 ,U 9
F ila m e n t C u r r e n t S e n s e
K
1 0 C L A R G E F ila m e n t D riv e
1 1 A 1 2 C
S M A L L F ila m e n t D riv e
1 3 A
m A D E T E C T L O G IC
F IL A D R T R A N S T 1
1 0 A 1 1 C 1 1 A
M A IS T
4 A
1 1 5
* E x p o s u re d is a b le d if > 3 0 m A
M A IS T
C
X P 3
X 2
5 5
5
A c tu a l m A S e n s e T o p a g e 1
B 4 5 B O A R D M A IS T
X 1
X 1
2 0 A
2 0 A
M A IS T
S e e In te rfa c e D ia g r a m
I
-Q M A 0 5
T e m p e ra tu re > 6 2 d e g re e s C . T o p a g e 1
1 4
7 7
7
> 6 2 D e g re e C T e m p S e n se U 1 K 1 0
7 A
* D is a b le s X r a y if te m p is > 7 2 d e g r e e s C
F ila m e n t C u rre n t S e n s e
1 4
1 3
7
8
X 3 4
5
6
7
8
4
X 3
K
2
G E R R S e n s e U 2 6
6
1 1 1
-G E R R
F IL A M E N T C U R R E N T D E T E C T
3 A
* E x p o s u re lim ite d to 5 s e c o n d s If > 8 m A
X 3
M E N T IV E IS T O R S - T 4
7 3
2
* D is a b le s X r a y if f ila m e n t c u r r e n t is lo w
U
X 0
T E M P S E N S E
S M A L L F IL A M E N T
L A R G E F IL A M E N T
m A S E N S E
T U B E / T A N K A S S E M B L Y
-0 .5 M A
1
7 7 0 0 C o m p a c t / S e r ie s
m A JU M P E R
P u ll th is ju m p e r a n d p la c e a c u rre n t m e te r (D V M ) in s e rie s to m e a s u re a c tu a l m A
F o r R e fe r e n c e O n ly
P a g e 3 o f 4
7 7 X 1 0 _ 0 2 .D S 4
2 5 J u ly 2 0 0 0
m A G E N E R A T IO N & R E G U L A T IO N M O N O
B L O C K G E N E R A T O R
U H
B 1 4 3 P c b T R O U B L E S H O O T IN G A p p ro x im a te v o lta g e s U se T P 6 a s G N D
- A P R O X E M E N T F IL A M E N T V O L T A G E
C H A R T
U H F IL A M E N T V O L T A G E * * F ilte r P c b X P 1 -3 o r B 1 4 3 P c b X 3 -4
M O D E
m A
T P 2 M A IS T
T P 3 O ffse t
T P 4 F ila m e n t R e g u la to r C o n tro l
9 .8 v d c - 1 0 .2 v d c
7 6 k V Id o l F lu o ro (N o e x p o s u re )
0 .0
+ 0 .4 4 v d c
0 .0 v d c
+ 1 .5 v d c
0 .2
1 0 .2 v d c - 1 0 .6 v d c
3 6 k V S ta n d a rd F lu o ro E x p o s u re
0 .2
+ 0 .2 5 v d c
-.1 0 3 v d c
+ 0 .1 5
1 1 0
3 .0
1 1 .8 v - 1 2 .2 v d c
6 0 k V S ta n d a rd F lu o ro E x p o s u re
1 .7
- 1 .1 v d c
-.8 6 v d c
+ 0 .9 4 v d c
S n a p sh o t
3 6
8 .0
1 4 .0 v d c - 1 5 .5 v d c
8 5 k V S ta n d a rd F lu o ro E x p o s u re
3 .0
- 2 .4 v d c
- 1 .5 v d c
+ 1 .5 8 v d c
S n a p sh o t
1 1 0
8 .0
1 2 .5 v d c - 1 3 .4 v d c
H ip
3 6
0 .2
1 0 .2 v d c - 1 0 .6 v d c
H ip
1 1 0
5 .0 - 6 .0
1 1 .2 v d c - 1 1 .5 v d c
F ilm M o d e P re p P re s s h a n d s w itc h q u ic k ly (le s s th a n 1 s e c o n d ).
7 6
M O D E
k V
F lu o ro S ta n d b y (P re -h e a t)
7 6
F lu o ro E x p o s u re
3 6
F lu o ro E x p o s u re
2 S e c o n d F ilm
E x p o su re
2 S e c o n d F ilm
E x p o su re
m A
C h a rt 2
1 4 .9 v d c - 1 5 .5 v d c
3 6
2 0 .0
1 6 v d c th a n d r o p p in g to 1 4 .3 v d c - 1 4 .8 v d c
8 0
2 0 .0
1 6 v d c th a n d r o p p in g to 1 3 .8 v d c - 1 4 .3 v d c * * U H
F ila m e n t V o lta g e N o te * *
> 2 1 v d c = X ra y is d is a b le d (B 1 4 3 P c b ) F a u lt In d ic a to r O ff 1 0 v d c - 2 0 v d c = g o o d ra n g e 6 v d c - 9 .9 v d c = lo w m A , F a u lt I n d ic a to r O f f < 5 v d c = N o m A , F a u lt In d ic a to r illu m in a te d (S e e In te rfa c e S ig n a ls D ia g ra m fo r F a u lt In d ic a to r) C h a rt 1
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly 7 7 X 1 0 _ 0 2 .D S 4
m A G E N E R A T IO N
P a g e 4 o f 4 2 5 J u ly 2 0 0 0
& R E G U L A T IO N
T R O U B L E S H O O T IN G
C H A R T S
4 8 R 2 3
D 1 9
S 3 4 H a n d M o d e
U 6 -2
9
-IN M A G
-K M A G
L E D 1 9
&
2 1
U 6 -3 1
D 2 1
4 1
S 1 9 M a g M o d e
U 6 -3 6
IN H A O D S + 5 V + 1 6 V
4 1 -K H A D O S
O p e n C o lle c to r
H A N D M O
1
3 8
+ 5 V S
M P 2
S T 1 -A 5 S T 1 -A 3 1
3
U 3 D
M A G 1
O p e n C o lle c to r
5
H A N D
6
U 3 A
H A F D O S
S T 1 -A 1 S T 1 -A 3
M P 1
> 1
4
3 7
3
D 1 8
L E D 3 8
1 5 A
U 6
se e
H A N D M O
C O L L IM A T O R
C O N T R O L
IR IS R E L A Y C O N T R O L L O G IC
9
R 2 4
-IN H A N D
-K H A N D
L E D 3 4
R 3 4
S T 1
S T 2 4 8
- H a n d -M A G 1
S T 1
+ 1 6 V
S T 3 1
0 0 1 0 0 1 1 1
-H A N D
N o r M A M A M A
m a G 1 G 1 G 2
l (2 (1 (1 (1
3 c 5 c 5 c 0 c
m m m m
/ 9 / 6 / 6 / 4
5 M A G 1 9
1 2
U 3 E
-H A F D O S *
O p e n C o lle c to r
+ M A G
B 3 0 0 B O A R D
S 3 8 H a lf D o s e
C O N T R O L P A N E L
IM A G E IN T E N S IF IE R
B 3 5 II P O W E R S U P P L Y & S ig n a ld is trib u tio n
M 2
G 1
P 8
P 8
P 8
2 7 0 V - 9 5 0 V
G 2
P 1
P 2
P 3
G 3
P 4
P 5
P 6
G 4
P 7
P 7
P 7
A N O D E
P 7
P 7
P 7
1 .5 K V - 3 K V
C A M E R A
M 1
8 0 V - 3 2 0 V
2 .4 K V - 1 2 .8 K V
II P O W E R
N
3 0 K V
S T 1 1 3
-L U P E 1
2 2
2 0
H S Y N C 5 0 % + 2 4 V
2 0
2 6
2 /4 /6
L U P E 1 9 5
L U P E 2
S T 4 2
C N 1 2 2
5 0 %
+ 2 4 V 4
N G 1 P O W E R S U P P L Y
7 7 0 0 C o m p a c t / S e r ie s
2 6
F o r R e fe r e n c e O n ly
2 /4 /6
7 7 x 1 1 _ 0 3 .D S 4
C A M E R A
B 3 5 - II P O W E R
S U P P L Y
P a g e 1 o f 1 0 2 .A u g . 2 0 0 0
IM A G E IN T E N S IF IE R
") ") ") ")
S T 1
+ 1 6 V S T 1
R 2 3 -K M A G L E D
9
S T 2
S T 1
9
C 2 7 K E Y B IN T E R a C O N L O
S 1 9 M A G M o d e
3 4
+ 1 6 V
C 2 7
+ M A G
O
A R D F A C E n d T R O L G IC
+ 1 6 V U 5 -2
R 2 3 -K H A N D L E D
4 8
A 1 5
4 8
A 1 5
+ H A N D M O U 5 -1 1
S 3 4 H a n d M o d e
3 4
+ 1 6 V
-D A *
C 6
C 6
K E Y B O A R D IN T E R F A C E a n d C O N T R O L L O G IC
2
+ R B L 2 4
U 1
U 1
-K D A L E D
1 0
1 0
4
K 2
1 2
K 7
T 8
R e la y T r u th T a b le U 5 -1 7
U 5 -1 5
M O D N o rm M A G M A G M a n
E
a l o r H a n d a n d H a n d u a l I r is C o n tr o l X = D o n 't C a r e
in c h 9 6 4
c m
K 1
K 2
K 7
K 8
1 5
E
D
E *
E
X
2 3 D
1 0 X
E = E n e r g iz e d
E *
D D X
E * D
D E X
D = D e - e n e r g iz e d
* T h is r e la y is o n m o m e n ta r ily
S 1 5
-IB Z U
2 7
2 7
A 2 5
A 2 5
-IB Z U
C 2 5
-IB A U F
M a n u a l C o llim a to r Ir is C lo s e S 1 8
1 5
D 1 6 B R 2 J u m p e r
S 4 F ilm M o d e
K 1
K 8 + R H A L U
U 2 -6
R 2 6
1 6
U 1
5
+ R A U T O
B U F F E R U 5 P A L U 2 P A L U 3
-D A *
1
+ R M A G 1
U 5 /U 6
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly
-IB A U F
2 8
2 8
C 2 5
M a n a u l C o llim a to r Ir is O p e n
C O N T R O L P A N E L
B 3 0 0 B O A R D
B 1 0 1 B O A R D
7 7 X 1 2 _ 0 2 .D S 4
C O L L IM A T O R
P a g e 1 o f 3 0 1 .A u g . 2 0 0 0
C O N T R O L
IR IS R E L A Y C O N T R O L L O G IC
1
K 8 7
1
1
R 2 9 N O R M A L
= 2 3 c m
/ 9 in c h
K 1
1 4
R e la y c o n ta c t s ( K 1 , K 2 , K 8 ) a r e s h o w n in t h e p r o p e r c o n d itio n fo r e a c h r e s p e c t iv e f u n c tio n u n le s s in d ic a t e d o th e r w is e
1 4 7
N O
R 3 0 M A G
= 1 5 c m
K 8 7
K 2
1
N O
7 T h e p o s o u t s e n c o m p
N C 1
o r H A N D
/ 6 in c h
1
K 1 7
1 4
N C
K 8 N O
K 2 1
7 1
4
2
R 3 4
d e s ir e d Ir is itio n s ig n a l o f K 2 - 7 is t to th e Ir is a r a to r c ir c u it
B 4 5 B O A R D
5 7
IR IS P O T
5
K 6 7
K 7
M a n u a l Ir is s p e e d a d ju s tm e n t
4 6
R 3 6
IR IS C O N T R O L L O G IC
+ R B L M IN
P A L P A L T R A N N A N
+ R B L P L U
4
U 1
-M IB Z
C 2 0
-M IB A
A 2 0
2
1 4
3
2
8
IR IS O P E N
6 7
2 K 5
1 4
4
2
1 3
U 2
U 3 S T 7 D U 9
3
1 4
U 1
B 1 0 1 B O A R D E C O
1 6 V
P 2
1 2
X P 3
1 2
F IL T E R B O A R D
X 3
1 2
K 5
+ 1 2 V
1 3
IR IS C L O S E 6 2
6 E 0 3 0
X R A Y H E A D A S S E M B L Y
S W IT C H
P 3
L IM IT
9 1 1
2 + 3 - U 7
A p r o x 1 2 .5 V D C ( c h a s s is G n d ) m e a s u r e d w ith a D V M w h e n a c tiv e ( o p e n ) 1 6 V m e a s u r e d w ith a s c o p e w h e n a c tiv e ( o p e n ) 0 V 0 V
IR IS M O T O R
IR IS C L O S E 2 + 5 3 - U 6
+ 1 2 V
P O T IM
S T 1 A 2 1
K 5 ,K 6 & K 7 a r e s h o w n in t h e d e - e n e r g iz e d c o n d it io n
IR IS O P E N
/ 4 in c h
L IM IT
A c t u a l Ir is p o s it io n
N C
A p r o x 1 2 .5 V D C ( c h a s s is G n d ) m e a s u r e d w ith a D V M w h e n a c tiv e ( c lo s e ) 1 6 V m e a s u r e d w ith a s c o p e w h e n a c tiv e ( c lo s e ) 0 V 0 V
3
R 2
7
R 5 8 M A G a n d H A N D = 1 0 c m
R 5 2
7
N C 1
N C
M P 3
K 2
D e s ir e d Ir is p o s itio n
+ 1 6 V
1 1
K 6 1 6 V
S W IT C H
1 0
D R IV E C IR C U IT S
1 0
1 1 1 0
1 1 1 0
S T 4
-M IB A
O P E N
-M IB Z
1 2 1 1
B 3 O O B O A R D
S T 1 A 2 0 C 2 0
C L O S E
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly 7 7 X 1 2 _ 0 2 .D S 4
1 0
A 2 1
C O L L IM A T O R
P a g e 2 o f 3 0 1 .A u g . 2 0 0 0
C O N T R O L
IR IS M O T O R D R IV E L O G IC
S T 1
S T 2
-S B Z U ( S h u tte r C lo s e )
2 3
2 3
-S B A U F (S h u tte r O p e n )
2 4
2 4
-S B A U F
1 4
-S B C C W (R o ta te C C W )
2 5
2 5
-S B C C W
1 5
-S B C W (R o ta te C W )
2 6
S 1 3
S 1 6
-S B Z U
X P 3
P 2
-S B Z U ( S h u tte r C lo s e )
1 3
1 3
1 4
-S B A U F (S h u tte r O p e n )
1 4
1 4
1 5
-S B C C W (R o ta te C C W )
1 5
1 5
-S B C W (R o ta te C W )
1 6
S T 4
X 3
1 3
1 3
D R IV E C IR C U IT S
P 3 3
+ 1 6 V K 2 K 1
4
+ 1 6 V
S 1 4
S 1 7
C O N T R O L P A N E L
2 6
-S B C W
B 3 0 0 B O A R D
1 6
1 6
F IL T E R
B O A R D
2
+ 1 6 V K 3
1 6
K 4
1
+ 1 6 V
B 4 5 B O A R D
L IM IT S W IT C H
R O T A T IO N M O T O R
L IM IT S W IT C H L IM IT S W IT C H
X R A Y H E A D
A S S E M B L Y
7 7 0 0 C o m p a c t / S e r ie s F o r R e fe r e n c e O n ly
S H U T T E R M O T O R
7 7 X 1 2 _ 0 2 .D S 4
C O L L IM A T O R
L IM IT S W IT C H
P a g e 3 o f 3 0 1 .A u g .2 0 0 0
C O N T R O L
S H U T T E R M O T O R D R IV E C O N T R O L
2 2 2 1 2 3 2 4 2 6
L E N S
S T 1 9 1 0 1 1 1 2 1 3
S T 3 5 6 7 8 9
1 1
2 4
1
C A M E R A
G ro u n d 2
V id e o 1
1 5
C N 1
S e e X ra y C o n tro l S w it c h D ia g r a m
A G 1 V M A N L is t A A F D O S
-H a n d
9 IN C H II k V / m A T R A C K IN G 1 m m
S T 4 4
2
6 3
-M K D D H
2 0
2
6
B 3 0 0 B O A R D
1 9
2 0
C C D C H IP
2 0
L E N S
IM A G E IN T E N S IF IE R
L u p e 1 K V m a n D L is t D A 5 0 %
2 2 2 1 2 3 2 4 2 6
N G 1 P O W E R S U P P L Y 4
+ 2 4 V
3
1
M O N IT O R
C N 2
k V 5 9 6 9 7 6
k V s p e c if ic a t io n + / - 3 k V
5
S T 5
C o p p e r filt e r s 1 2 3
B 3 5 B O A R D
L IN E P A IR
m A s p e c if ic a tio n + / - 1 5 %
R E S O L U T IO N F U T U R E
9 IN C H II N O R M A L
N O R M A L
1 .4 L in e s /m m
M A G
m A 1 .7 2 .3 2 ,8
M A G
1 .8 L in e s / m m
+ 5 V 1
+ 1 2 V 4
-1 2 V
n d u ts o v J 6
V 3 a re n o , th e y c a n in g th e ju m (V 3 ) fro m e 1 2 0 H Z p o s e o u tp u ts d o - H is t o f u n c tio
r m a lly 6 0 H b e s e t to 1 p e rs J 5 (V th e 6 0 H Z p it io n . H o w e n o t p r o v id e n .
S V
S 3 D A P Z 2 0 2 ) o s v e th
L 2 S e e c h a rts 1 & 2 p a g e 4 fo r L E D S ta tu s
H Z
F lo p p y
V 2 a o u tp b y m a n d to th th e s A u to
R e s e t S w itc h
L 3
B 1 1 2
1
S 2
C o n t r o l S ig n a ls to /fro m B 1 0 4 B o a rd . (s e e p a g e s 2 )
S e r ia l P o rt
F r o m P a t ie n t A n n o ta tio n K e y b o a rd (s e e p a g e s 3 )
S 4 itio n r, e
N W A -5 0 0
B S A -5 0 0 C
B S A -5 0 0
V 4
V
6 0 H V id e N o U s e
Z t d
o
O
F R A M E S T O R E
t th e t th e e s e r fo r r fo r
B S A N W tw o 1 5 K 1 6 K
-5 0 A -5 c a b H Z H Z
0 'V I N 0 0 'V 4 le s u s o p e ra o p e ra
' c o ' c o in g tio n tio n
n n e c to n n e c to a b a rre u s in g u s in g
r
r
l c o n n e c to r t h e r e a r p a n e l s w it c h e s ( 1 2 " ) t h e r e a r p a n e l s w it c h e s ( 1 7 " )
T 1 2 2 0 fr P O W D ia
1
F 1 /F 2 2 .5 A
V A C o m E R O N g ra m
2 2 0
U
V
7 7 0 0 C o m p a c t T
1 0 0 o r 1 2 0 H Z V ID E O
IP S 2 0 0
o n n e c o n n e c n e c t th m o n ito m o n ito
t h e c a m e r a t o t h e m o n it o r :
2 2 0
V ID E O I
N
V 2 1
is c is c o n e t e t
V ID E O M O N IT O R
1
V 1
1 . D 2 . D 3 . C 4 . S 5 . S
S e e c h a rt 3 p a g e 4
S Y N C
V 3
B Y P A S S
6 4 1 a n d n o t fo r M o n ito r L & B V M 3 8 1 9
T o r o u te v id e o d ir e c t ly f r o m
F ro m
C P U -2 0 0
V ID E O o n ly fo r M o n ito r B G
5 0 o r 6 0 H Z V ID E O
5
P a r a lle l P o rt
N G 2 P O W E R S U P P L Y
C C D C A M E R A
I f v id e o s iz e is r e d u c e d t o fit in s id e c ir c u la r b la n k in g m a s k , r e d u c e lin e p a ir r e s o lu tio n b y 1 0 % .
5 0 o r 6 0 H Z V ID E O
O U T O U T
V id e o t o H a r d C o p y p r in te r , s e e p a g e 3 f o r d e t a ils
F o r R e fe r e n c e O n ly
P a g e 1 o f 4
7 7 C 1 3 _ 0 3 .d s 4
2 2 . N o v . 2 0 0 0
IM A G E S Y S T E M V ID E O
P A T H
S 3 6
-K S A F E (S a v e ) 5
-K U P (In c re m e n t M e m o ry )
6
C O N T R O L P A N E L
9 5
B 3 0 0 B O A R D
S T 1 0 4
6
8
3
1 0
5
S T 3 2
-K M IR + L E D M IR
-K S A F E
5
1 2
-F L U O R O R E G -F 0 2
1 1
1 2
-F M
1
1 0
-P U D
1 4
-P U 1
8 U 2
1 4
-F 2
4 U 2 6
-X R Y
U 2
-F 1
-F 3
1 6
6 U 2
1 3
9
6
+ L E D E N H
1 3
-K E N H
2 8
-S A F E 6
-K U P
8
U 1 3 1
1
1 2
- P r in t
6
-F 1 1 C O N T R O L L O G IC
-F 1 2
4
-F 1 3
2
-S E T U P
8
-S P T
4
-S P R
1 6
-M IR
2 3
R e v e rs e Im a g e R e q u e s t
6
-L E D M IR
1 2
R e v e r s e I m a g e A c k n o w le d g e
-L E D E N H
1 9
A u to w in d o w A c k n o w le d g e
1 6
-E N H
2 1
A u to w in d o w R e q u e s t
1 0
-M +
1 0
S a v e Im a g e R e q u e s t
1 2
-M >
2 2
In c re m e n t Im a g e M e m o ry
1 0
-F C 0
1 5
F ilte r C o d e B it 0
5
1 2
-F C 1
3
F ilte r C o d e B it 1
5
1 4
-F C 2
1 6
F ilte r C o d e B it 2
5
1 6
-F C 3 4
F ilte r C o d e B it 3
5
1 0
-M O D E 8
M e n u M o d e R e q u e s t
1 4
-T R IG IN
2 0
F r a m e S to r e E n a b le
2
-T R IG O U T 5
F ra m e S to re R e a d y
2
U 5
4 2
U 4 1
U 4 1
U 4 1
U 6 1
U 6 1
U 6 1
U 6 1
U 3 1
U 3 1
U 3
1 6 1
1 1 U 5
-F 1 0
S T 1 1 1
U 1 2 L O G IC
U 5
2
7
T R IG IN 8
T R IG O a c tiv e , th e x ra s u ffic ie
= e n a b le s t h e im a g e p r o c e s s o r . U T e n y s n t
= fro m th a b lin g e x p w it c h is r e tim e to fo r
B O A R D
e im a g o s u re , le a s e d la s t im
e p fo . T a g
ro c e s r 6 4 0 h is e n e h o ld
B S A -5 0 0
4
4
F R A M E S T O R E
S e e th e th e o r y s e c tio n o f th e s e r v ic e m a n u a l fo r ju m p e r c o n fig u r a tio n s 4
s o r s ta y s m s e c a fte r s u re s .
A C C E S S F R A M E S T O R E S E T U P 1 . - P s - C - T
r e s s t h e 'O N ' a n d 'S A V E ' s w it c h e s im u lta n e o u s ly y c le t h r o u g h m e n u u s in g t h e 'M > ' s w it c h o g g le s e le c t io n s u s in g t h e 'S A V E ' s w it c h
N o te : If th a v a w ill th e 2 .
e re a re m o ila b le th e m b e d is p la y e 'M > ' s w it c h
re th e s s d . Y to c
e n a g o u h a
tw o e 'N c a n n g e
s e E W th e th e
le c tio n s V A L U E ' n u s e v a lu e .
o r u s e A n n o ta t io n K e y b o a r d fo r S e tu p p r e s s S h ift a n d H o m e
7 7 0 0 C o m p a c t 7 8
S e e F lu o r o M o d e D ia g r a m
B 3 0 4
4
IP S 2 0 0
C o n tro l In p u t
S T 1
L 2
2
1
5
L 3
4
C o n tro l O u tp u t
C o n tro l O u tp u t
S V
S e e c h a r ts 1 & 2 p a g e 6 fo r L E D S ta tu s
+ 5 V S
+ 5 V S
C o n tro l In p u t S T 2
R e s e t S w itc h
S T 5
+ 5 V
B S A -5 0 0 C IM A G E S )
1 4
-F 3
S 2
-F 2
N W A -5 0 0
F R A M E G R A B B E R A L U A :D
S 1 0 1
1 3
-K M IR
8
-K E N H ( A u t o W in d o w )
S 3 7
-F 1
C P U -2 0 0
M E M O R Y (L A S T IM A G E H O L D P L U S 3 S T O R E D
1 0
+ L E D E N H ( A u t o W in d o w )
1 2
S C A N C O N V E R T E R (6 0 H Z T O 1 2 0 H Z ) (5 0 H Z T O 1 0 0 H Z )
D 1
3 7
-F 0
F r o m P a tie n t A n n o ta tio n K e y b o a rd
V M E 6 8 0 0 0 P R O C E S S O R
U 5 /U 6
1 1
R E G
S e r ia l P o rt
3
-F L U O R O
S 4
+ L E D M IR ( R e v e r s a l)
C O N T R O L L O G IC
F lo p p y
L E D
4 0
P a r a lle l P o rt
2 2
S T 2
4 0
S 3
L E D
S T 1 -K M IR ( R e v e r s a l)
N o t U s e d
S 2 2
5
T h th e A v o n S e
e f ilt e r c a m o u n e r a g in g th e o p e e c h a rt
o d t o v a ra 4 ,
e b it s c f a v e ra r ie s d e tin g m o p a g e 6
o n tro l g in g u s e d . p e n d in g d e .
F o r R e fe r e n c e O n ly
P a g e 2 o f4
7 7 C 1 3 _ 0 3 .d s 4
2 2 . N o v . 2 0 0 0
IM A G E S Y S T E M
F R A M E S T O R E C O N T R O L
S T 2 1
S T 1 1 3
R X D
-C T S O P T O IS O L A T O R U 7 6 4
F 1
3 3 4
-R T S 1 -P R IN T R E Q
1 1
-P R IN T A C K N 6
B 2 0 6 -8 B O A R D
B S A -5 0 0 C
B S A -5 0 0
V 4 S T 2
5 0
5 0
-K P R IN T
S T 5
S T 1
9
9
8
O P T O IS O L A T O R U 5 1
1 0
S T 3 1 1
S 3
S T 1
V 3
D A P
-K P R IN T ( P r in t C o n t r o l)
N W A -5 0 0
P o w e r fo r b o a rd
1 A
S 3 1
C P U -2 0 0
S 2
T X D
6
S e r ia l P o rt
O P T O IS O L A T O R U 6
S 4
3 3
P a r a lle l P o rt
A N N O T A T IO N K E Y B O A R D
F lo p p y
V 2
B 3 0 0 B O A R D
V 1
S e e n o te s o n p a g e 2
S T 1 0 4
S T 2
4
-P R IN T A C K *
6 4
O P T O IS O L A T O R U 7 2
B 3 0 4 S T 1 2
S T 4 2
-P R IN T
3 2
O P T O IS O L A T O R U 5
6 5
3
G N D
8 3
5
O P T O IS O L A T O R U 4 F 1
C O N T R O L P A N E L
1 A
2
P o w e r fo r b o a rd
B 2 0 6 B O A R D
1
B O A R D
1
H A R D C O P Y P R IN T E R
+ B U S Y
1
S T 2 3
3
G N D + B U S Y
F 1
S T 2 4
3 1 1
6
S T 2 2 2
-P R IN T L E D
4
1 A
P o w e r fo r b o a rd
S T 1 3
V ID E O IS C IR C U T 1 , T T 4 , T
O L A U IT 3 2 , T 5 , T S
T IO N
6 0 H Z V ID E O
IP S 2 0 0 F R A M E S T O R E
1 3 6
B 2 0 6 -8 B O A R D
7 7 0 0 C o m p a c t F o r R e fe r e n c e O n ly
1
7 7 C 1 3 _ 0 3 .d s 4
E x t. V id e o O u tp u t
IM A G E S Y S T E M
P R IN T E R / A N N O T A T IO N K E Y B O A R D
P a g e 3 o f 4 2 2 . N o v . 2 0 0 0
C O N T R O L
V ID E O & V ID E O L E V E L A p p r o x im a te V o lta g e s (T h e X r a y H e a d c o v e r s h o u ld b e o n fo r th e s e m e a s u r e m e n ts )
L E D S T A T U S C O N D IT IO N
L E D S V
L E D L 3
L E D L 2
S ta n d b y
O N
O F F
O N
F lu o r o e x p o s u r e
O N
O F F
O N
L o s s o f C a m e r a S y n c d u r in g F lu o r o E x p o s u r e
O N
O F F
O N
N o C a m e r a S y n c d u r in g B o o t- U p
O N
O F F
O F F
T E S T P H A N T O M
V ID E O S IG N A L o u t o f c a m e ra h e a d 9 p in c o n n e c to r p in 5
V ID E O S IG N A L o u t o f V D 0 1 P c b p in 1 7 - w h ite w ir e
D L IS T S IG N A L o u t o f A U 0 1 P c b T P 1
k V
N o o b je c t in th e b e a m
1 .6 V - 1 .8 V P e a k /P e a k
0 .8 V - 1 .0 V P e a k /P e a k
6 .0 V d c
3 9 - 4 5
1 .6 V - 1 .8 V P e a k /P e a k
0 .8 V - 1 .0 V P e a k /P e a k
6 .0 V d c
7 9 - 8 5
T h re e 1 m m
c o p p e r filte r s
C h a rt 3
C h a rt 1
L E D E R R O R IN D IC A T IO N S D U R IN G B O O T -U P B M S 5 0 0 F r a m e S to r e B o a r d F a ilu r e s E R R O R C O N D IT IO N S
L E D S V
C P U 1 0 0 F a ilu r e
O F F
C P U 1 0 0 E P R O M /P R O M
L E D 3
L E D 2
1 B lin k
F a ilu r e
F a ilu r e
2 B lin k s
C P U 1 0 0 C lo c k F a ilu r e
3 B lin k s
C P U 1 0 0 R A M
IM A G E P R O C E S S O R F IL T E R C O N T R O L C O D E S
1 B lin k
B S A 5 0 0 C F a ilu r e
2 B lin k s
B S A 5 0 0 C R A M
3 B lin k s
F a ilu r e
C O N T R O L L IN E S
M O D E
F C 3
F C 2
F C 1
F C 0
F M
P U D
P U 1
S ta n d a r d F lu o r o 0
H H
0 H
H H
P u ls e 0
H H
0 H
S n a p s h o t
B S A 5 0 0 F a ilu r e
B S A 5 0 0 R A M
F IL T E R C O N T R O L C O D E
H 0
H H
0 H
H
H
H ip 0
H a n d 0
H H
0
T h o ra x 0
H H
0
L o w D o s e 0
H 0
0
H
H
H 0 H 0 H
0 H
H
0
0
0 0 0 0
4 B lin k s
F a ilu r e
5 B lin k s
B S A 5 0 0 IC F a ilu r e
C h a rt 4
6 B lin k s
B S A 5 0 0 C o n tr o lle r F a ilu r e
7 B lin k s
B S A 5 0 0 F a ilu r e C h a rt 2
7 7 0 0 C o m p a c t F o r R e fe r e n c e O n ly
P a g e 4 o f 4
7 7 C 1 3 _ 0 3 .d s 4
2 2 . N o v . 2 0 0 0
IM A G E S Y S T E M T R O U B L E S H O O T IN G
C H A R T S
T 1
F 1
2 4 V A C
S T 5
2
6
2 4 V A C
F 5 6
F 2
L L
1 6
1
8
L L S 2 1
(C W )
K 1
D 2
K 2
1
D IR E C T IO N C O N T R O L L O G IC
S T 2
A T M IT G
IO N E IO N IC
1
S T 5 L L
1 6
+ 1 2 V D C
K 1 C O N T A C T S K 2 C O N T A C T S C E N T E R S W 1
is p o w e r e d .
S T 2 8
U 9 -1 9
R O T H O P O S L O
B 3 0 4 B o a rd
X 2 2
+ 1 2 V O L T V O L T A G E R E G U L A T O R U 1
X 5
M O N IT O R Y O K E R O T A T IO N M O T O R
-K O N
S T 1
K 2 -8
b o a rd s
1 . T h e s y s te m is fir s t p o w e r e d o n 2 . T h e O N s w itc h is p r e s s e d w h ile th e s y s te m
D 3
1
D 1
5 0 m A
K 2 - 8 is tie d to g r o u n d , fo r a fix e d d u r a tio n , c a u s in g th e m o n ito r r o ta tio n to m o v e to th e H O M E p o s itio n . T h is o c c u rs w h e n :
S 2 0
3 2
B 1 1 1 M R B O A R D
(C C W )
3
B 1 0 3 B O A R D o r B 3 0 3 B O A R D
W M C 0 1 B O A R D
D 4
B 3 0 0 B O A R D 2
X 1 -3
A p ro x 7 0 V P /P
M O N IT O R A S S E M B L Y
S T 1 0 4 F ro m P o w e r O n D ia g r a m
-K O N
9
X 1 -1 (C W )
C O M P A C T 7 7 0 0
A p ro x 3 5 V
F o r R e fe r e n c e O n ly 7 7 C 1 4 _ 0 2 .D S 4
C O N T R O L P A N E L
1 + 1 5 V D C
1
R o ta tio n H o m e P o s itio n L o g ic , B 3 0 4
X 1
S T 1
2 2 0 V A C
1 .6 A
1
S T 4
5 0 m A
X 1 1 1 0 /2 2 0 A C P O W E R IN F r o m P O W E R O N d ia g r a m
T 1
X 4
T o F lu o r o M o d e C o n tr o l L o g ic d ia g r a m
X 1 -1 (C C W )
A p ro x 3 5 V
P a g e 1 o f 1 0 1 .A u g . 2 0 0 0
M O N IT O R R O T A T IO N
C C D
I s o la tio n B o a r d B 2 0 6 S T 1 1
S 2
S T 4
S 4
fro m K e y b o a rd
- P o w e r o ff G N D
S T 2 9 /1 0 7 /8 5 /6 3 /4 1 /2
C P U -1 0 0
N W A -5 0 0
B S A -5 0 0 C
B S A -5 0 0
S T 1
V 4
S 3
S T 1 9 /1 0 7 /8 5 /6 3 /4 1 /2
S e r ia l P o rt
D IS O IS O D S
P a r a lle l P o rt
G N 5 V R X R T
N o t U s e d
S T 3
K a m e ra
F lo p p y
B 1 5 0 to B 1 1 1
V 3 V 2
IN
V 1
O U T
S T 2
B 1 1 8
0 0 -4 5 3 1 5 6 -0 1 S t 3
IP S 2 0 0 F R A M E S T O R E
fro m B 1 1 1 M o n it o r C a r t
2 4 V id e o 2 8 G ro u n d 1 0 p o l r ib b o n c a b le
S T 1
S T 1
E le k tr o n ic R a c k B 1 0 0 /3 0 0 B O A R D B 6 4 B O A R D
S T 1
B 0 0 0 1 M O T H E R B O A R D S T 1 S T 9
F R E E S L O T
1 6 p o l r ib b o n c a b le
S T 5
1 0 p o l r ib b o n c a b le
S T 2
P o w e r In p u t b ro w n P o w e r In p u t b lu e
P IN 8 ,9 ,1 0 ,1 1 ,1 5 ,1 6 ,1 7 ,2 2
7 7 0 0 C o m p a c t P lu s F o r R e fe r e n c e O n ly 7 7 C 2 0 _ 0 3 .d s f
F R E E S L O T S T 1
P IN 1 ,2
S T 1
B 1 0 1 B O A R D
B 1 4 3 B O A R D
P IN 3 ,4
0 0 -4 5 3 1 5 6 -0 1
B 1 0 4 /B 3 0 4 B O A R D B 1 0 2 B O A R D
P IN 5 ,6 ,7
fro m
K e y b o a rd
P a g e 1 o f 1 1 7 . M a i 0 0
In te r c o n n e c t D ia g r a m m C o m p a c t P lu s