Omega DMD-476, User Manual

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3
Description
The Model DMD-476 is a self contained, AC
powered signal conditioner for bridge type
instrumentation. It contains a precision
instrumentation amplifier with isolated, filtered
output and a highly regulated, low noise, adjustable
output bridge excitation source. The unit is
completely encapsulated for use in rugged
environments.
Features
n Complete Strain Gage
Bridge Signal Conditioner
n Isolated 4-20 mA or 0-20 mA Output
n Output Capable of Driving 1000 ohm Loop
n
Bridge Balance with 80%
Tare Offset Capability
n High Gain Amplifier; Can Accept Full Scale
Live Load Signals as Low as 5 mV and
Provide 16 mA Output Span
n Excitation Supply Capable of Driving
Four Load Cells
n
AC Powered
n Rugged Epoxy Encapsulated Design
Applications
n
Weighing with Load Cells
n Process Control Add-on Loops
n Can Be Used With All Types of
Low Output Sensors
Specifications
NOTE: Unless otherwise noted, specifications apply after one hour
warm up at 25°C ambient. Temperature coefficients apply between
0°C and 55°C ambient.
n o i t a l o s I
t u p t u O o t t u p n I
C D V 0 0 7
F p 0 6
r e i f i l p m A
n i a G
e g n a R t n e m t s u j d A
t u p t u O A m 0 2 - 4 r o f t u p n I
V m 0 5 o t V m 5
y t i r a e n i L
±
e l a c S ll u F f o % 1 0 . 0
y t il i b a t S e r u t a r e p m e T / % 5 0 0 . 0 ( M P P 0 5
°
) C
e s i o N t u p n I
z H 0 1 o t z H 1 . P - P V 2
e g n a R t n e m t s u j d A e r a T
t e s f f O e g d i r B
V m 5 2 + o t V m 3 -
f o . S . F % 0 8 s l a u q E (
) ll e c V / V m 3
e c n a t s i s e R t u p n I
e d o M n o m m o C d n a l a i t n e r e f f i D m h o g e m 0 0 0 1
C D , n o i t c e j e R e d o M n o m m o C m u m i n i m B d 0 0 1
t u p n I e d o M n o m m o C s t l o V 5 +
t u p t u O
t s u j d A o r e Z A m 4 r o 0
t n e i c i f f e o C e r u t a r e p m e T 1
m
C / A
n a p S t u p t u O t n e r r u C A m 0 2 o t 0 r o A m 0 2 o t 4
e g a t l o V e c n a il p m o C s t l o V 0 2 + o t 1 -
t n e r r u C
A m 0 2 + o t A m 1 -
e c n a t s i s e R p o o L
s m h o 0 0 0 1 o t 0
B d 3 - , e s n o p s e R y c n e u q e r F f f O ll o R e l o P 2 , z t r e H 0 1
e m i T e s n o p s e R
% 0 9 o t % 0 1 e m i T e s i R
e u l a V l a n i F f o % 1 . 0 o T
s m 5 3
s m 0 0 1
y l p p u S e g d i r B
e g n a R t n e m t s u j d A e g a t l o V
s t l o V 0 1 o t 5
t n e i c i f f e o C e r u t a r e p m e T l a c i p y T M P P 0 0 1
d e x i F V 2 . 0 1
±
% 5 . 2
t n e i c i f f e o C e r u t a r e p m e T l a c i p y T M P P 0 6
t n e r r u C d a o L
A m 0 2 1 o t 0
e n i L d n a d a o L - n o i t a l u g e R
m u m i x a m % 2 0 . 0
e s i o N t u p t u O
h t d i w d n a B z H 0 2 1 m u m i x a m , S M R V m 1
t u p n I r e w o P
, C A V 5 1 1
±
z H 0 6 / 0 5 V 0 1
A V 7 @
l a n o i t p O % 0 1 – , C A V 0 3 2 r o 0 2 2 , 0 0 1
n o i t a l o s I e n i L
e c n a t i c a p a C F p 0 6
d n a t s h t i W c i r t c e l e i D S M R s t l o V 0 0 1 1
t n e m n o r i v n E
g n i t a r e p O t n e i b m A 5 2 -
°
5 5 + o t C
°
C
e g a r o t S 5 2 -
°
5 8 + o t C
°
C
t h g i e W ) s m a r g 0 1 5 ( . z o 8 1
e z i S
H " 7 8 . 2 x W " 0 . 2 x L " 5 7 . 3
) m c 2 6 . 7 x m c 1 . 5 x m c 3 5 . 9 (