Page 1
r
r
LIFESTAT
200
noninvasive blood pressure monitor
Operating
Manual
October
No.
802450-02
1985
and
Service Manual
PHYSIO
CONTROL
Corporate Headquarters
11811
Willows
Redmond. Washington 98052-1013 USA
Telephone
Domestic
152330DPHYSIO
International
152326
(206)
Telex
Telex
PHYSIO
Road
RDMD
881
-4000
RDMD
Page 2
SERIAL NO.
LIFESTAT®
ation,
LS
200
of
one
products
proper
operating
All
defective
its
authorized
Transportation
Service
at
the
No
other
liability
in
writing,
and
11811
is
year
Willows
warranted
from
which
use
and
and
service
productsorcomponents
charges
performedbyother
discretionofPhysio-Control,becausetovoid
party
for
Physio-Control
will
Physio-Control®
Road,
against
Redmond,
all
defectsinparts
dateofdelivery.
prove
maintenance
service
to
be
manual.
center,
defective
procedures
withadetailed
mustbeprepaid.
than
is
authorizedtomake
products.Noother
be
recognized.
are
trademarksofthe
Washington
WARRANTY
Physio-Control
during
are
must
98052.
and
workmanship
will
the
warranty
followedasprescribedinthe
be
returnedtoPhysio-Control,
explanationofthe
Physio-Controlorits
any
other
warranty,orto
warranty,
Physio-Control
foraperiod
repairorreplace
period
authorized
this
warranty.
either
agents
assume
implied
Corpor
any
provided
or
failure.
may,
any
or
© OCT. 1985 PHYSIO-CONTROL
Page 3
gP^N
LIST
OF
EFFECTIVE
PAGES
SECTION
Title
Trademark
List
Page
Warranty
of Effective
and
Page
Pages
Configuration
Information
Table
List of Illustrations
List
How
This
of
of
to
Manual
Contents
Tables
Use
PAGE
iii
vii
vii
viii
DATE
Oct '85
Nov '84
Oct '85
Oct '85
Oct '85
Oct
'85
Oct '85
Nov '84
SECTION
Section 5
(Parts
Lists,
Assemblies,
Schematics)
Section
6
(Component
Diagrams)
Reference
PAGE
5-1
Thru
5-62
6-1
Thru
6-16
DATE
Oct
'85
Oct '85
Safety
Section
Information
1
(Description)
Section
2
(Operation)
Section
(Testing
3
and
Troubleshooting)
Section
(Service
4
and
Maintenance)
,
ix
1-1
Thru
1-17
2-1
Thru
2-16
3-1
Thru
3-23
4-1
Thru
4-16
Nov '84
Oct
*85
Oct '85
Oct '85
Oct
'85
© OCT. 1985 PHYSIO-CONTROL
PB-002
Page 4
CONFIGURATION
AND
CHANGE INFORMATION
/-^^l
This
manual
following
is
part
numbers.
PART NUMBER
802267
802306
802583
802597
802603
802634
802648
802673
802675
802678
802680
802978
802985
803008
803012
803020
803114
803116
current
accordingtothe
REV
A
B
A4
C
B2
B2
A2
0RIG2
0RIG1
ORIG
ORIG
0RIG1
0RIG1
0RIG1
ORIG
ORIG
B
A5
listed
revision
level
of
the
11
©OCT.
1985
/^^^Ss
PHYSIO-CONTROL
Page 5
TABLE
OF
CONTENTS
SECTION PAGE
LIST
OF
ILLUSTRATIONS
LISTOFTABLES
HOW
SAFETY
TO
USE
INFORMATION
THIS
MANUAL
vii
vii
viii
ix
1
DESCRIPTION
1-1
1-2
1-3
1-4
SCOPE
PHYSICAL
FUNCTIONAL
CIRCUIT
1-5
1-6
1-7
1-8
1-9
1-10
1-11
1-12
1-13
1-14
1-15
1-16
1-17
1-18
1-19
1-20
1-21
1-22
1-23
1-24
1-25
1-26
1-27
1-28
1-29
1-30
1-31
1-32
1-33
1-34
1-35
1-36
1-37
1-38
1-39
DESCRIPTION
DESCRIPTION
BATTERY
Transformer
Semiconductor
LC
Filter
Error
INTERFACE
Serial
Front
Display
Operating
Power
Grounding
Servo
Beeper
Auto
Zero
Dump
Valve
Pump
Fail
Safe
Real
Time
Real
Time
Power
Low
Battery
Printer
Static
SYSTEM
PCB
Analog
A to D
±12
Volt
System
Real
Time
Watchdog
Blood
DISPLAY
Data
Pneumatic
PFC
Display
DESCRIPTION
CHARGER
PCB
and
Switch
Amplifier
PCB
ASSEMBLY
Communication
Panel
Interface
PFC
Interface
Mode
Supplies
Circuit
Valve
Circuitry
Clock
Clock
On
Relay
Detect
Circuitry
Protection
ASSEMBLY
Circuitry
Conversion
Supply
Control
Clock
Circuit
Pressure
Processor
Computation
ASSEMBLY
System
ASSEMBLY
Rectifier/Filter
(803114)
Port
Selection
Supply
Enable
Delay
Circuit
(803116)
(802583)
(802597).
Processor.
...
. .
1-1
1-1
1-1
1-4
1-7
1-7
1-7
1-7
1-7
1-7
1-8
1-8
1-8
1-8
1-9
1-9
1-9
1-9
1-9
1-9
1-9
1-9
1-10
1-10
1-10
1-10
1-10
1-11
1-11
1-12
1-12
1-12
1-13
1-13
1-14
1-14
1-14
1-15
1-15
1-16
iii
©OCT.
1985 PHYSIO-CONTROL
Page 6
TABLE
OF
CONTENTS
(Continued)
SECTION
2
3
pAGE
OPERATION
2-1
2-2
2-3 CONTROLS AND INDICATORS 2-1
2-4 SUGGESTED PERFORMANCE VERIFICATION
2-5. OPERATOR MAINTENANCE
2-6
2-7
2-8
2-9
2-10 Pen Removal Procedure 2-15
2-11
2-12
2-13
TESTING
3-1
3-2
3_3
3-4
3-5
3-6
3-7
3-8
3-9
3-10
3-11
3-12
3-13
3-14 Printer 3-10
3-15
3-16
3-17
3-18
3-19
3-20
3-21
3-22
3-23
3-24 6805 1/0 Test 3-20
3-25
GENERAL
OPTIONAL
ACCESSORIES AND
PROCEDURES
Batteries
Cuff
Cuff
Care
Pen
Paper
Inflation
Cleaning
and
Cleaning
Installation
Loading
Preparation
AND
TROUBLESHOOTING
GENERAL
TEST
TEST
FUNCTIONAL*
FAULT
TROUBLESHOOTING
SIGNATURE
EQUIPMENT
SETUP
Power
Systems
Test
Test
Test
Test
Test
Supply
Connector
1
2
3
4
5
Additional
Real
Time Clock Set/Check 3-9
Pulse,
Ground
6809
6809
6805
6805
Alarms
Continuity
ISOLATION
RAM
EPR0M
RAM
EPR0M
Interface
TEST
Display
A/D Converter 3-5
Static
Overpressure
Pressure
ANALYSIS
Test
Test
Test
Test
PCB
REPLACEMENT
Systems
Procedure
Procedure
for
StorageorShipment
AND
CALIBRATION
Tests
System
Leakage
and
Printer
GUIDE
Signature
and
Switch
Systems
Analysis
,
Alarm
Tests
.''!.'
Audio.
ITEMS
. .
2-1
2-1
2-1
2-7
2-14
2-14
2-14
2-14
2-14
2-15
2-15
2-16
3-1
3-1
3-1
3-2
! 3-3
3-3
3-5
3-5
3-7
3-8
3-8
3-8
3-11
3-12
3-12
3-14
3-18
3-19
3-19
3-19
3-20
3-22
iv
©OCT.
•'^^^
1985 PHYSIO-CONTROL
Page 7
TABLE OF CONTENTS (Continued)
SECTION
4
PAGE
SERVICE
4-1
4-2
4-3
4-4
4-5
4-6 Cover Removal 4-2
4-7
4-8
4-9
4-10 Printer Removal 4-4
4-11 Door/Membrane Switch
4-12 Interface PCB
4-13
4-14
4-15
4-16
4-17
4-18
4-19 Transformer
4-20
4-21
4-22
4-23
4-24
4-25
4-26
4-27
4-28
4-29
4-30
4-31
4-32
4-33
4-34
4-35
4-36 Transformer Installation 4-13
4-37
4-38 Servo
4-39
4-40
4-41
4-42
4-43 Interface PCB Installation 4-15
4-44
4-45
4-46
4-47
AND
MAINTENANCE
GENERAL
TOOLS
DISASSEMBLY
INSPECTION
CLEANING
REPAIR
LS
AND
MATERIALS
List
of
Tools
Activities
List
of
Tools
Activities .
System
Front Bezel Removal 4-2
Display
Charger
Handle
Pump
PCB
PFC
PCB
Support
Removal
Overpressure
Servo
Battery
Valve
Pack
TECHNIQUES
Exterior
Interior
TECHNIQUES
General
Interior
Exterior
Cleaning
Cleaning
and
and
PROCEDURE
Removal
Removal
Removal
Removal
Removal
Switch
Assembly
Removal
Removal
Visual
Visual
Inspections
Inspections
Materials
Materials
Removal
Removal
Removal
for
for
Cleaning
Repair
......
TECHNIQUES
General
Repair
200
Battery
Overpressure
Pump
Handle
Charger
Front
Front Bezel Installation
System
Cover
Procedures
General
PCB
Component
Replacement
RepairofDamagedorDefective
Repairing
Cover
ASSEMBLY
Pack
Valve
Installation
Support
PCB
Bezel
PCB
Installation
Lifted
and
Case
Repair/Replacement
PROCEDURE
Installation
Installation
Switch
Installation
Installation
Assembly
Installation
Conductors
Installation
Conductor.
....
4-1
4-1
4-1
4-1
4-1
4-2
4-2
4-4
4-4
4-4
4-5
4-5
4-5
4-6
4-6
4-6
4-7
4-7
4-7
4-7
4-8
4-8
4-8
4-10
4-10
4-10
4-10
4-10
4-10
4-11
4-12
4-13
4-13
4-14
4-14
4-14
4-14
4-15
4-15
4-15
4-16
4-16
4-16
v ©NOV.
1984
PHYSIO-CONTROL
Page 8
TABLE
OF
CONTENTS
(Continued)
SECTION
5 ASSEMBLIES,
5-1
5-2
5-3
6
COMPONENT
6-1
PARTS
GENERAL
PARTS
PARTS
GENERAL
LISTS.
ORDERING
REFERENCE
USTS,
....
SCHEMATICS
......!''!
DIAGRAMS.
' ' ' ' ' '
PAGE
5-1
51
5-1
5-1
6-1
6-1
vi ©
NOV.
1984
/^%
PHYSIO-CONTROL
Page 9
LIST
OF
ILLUSTRATIONS
FIGURE
1-1
1-2
1-3 PNEUMATIC SYSTEM DIAGRAM 1-17
2-1 LS 200 FRONT PANEL CONTROLS AND INDICATORS 2-2
2-2 LS 200 HIDDEN PANEL CONTROLS 2-5
2-3 LS 200 REAR PANEL CONTROLS 2-6
2-4 PRINTER ANNOTATION - MANUAL MODE 2-10
2-5 PRINTER ANNOTATION - AUTOMATIC MODE 2-11
2-6
2-7
2-8
3-1
3-2
3-3
4-1
4-2
4-3
4-4
TABLE
LIFESTAT
LS 200
PRINTER
LS 200
PREPARATION
TEST
LINEAR
CLOCK
WIRE
TYPICAL
REPAIRING
TYPICAL
200 NONINVASIVE BLOOD PRESSURE
FUNCTIONAL
ANNOTATION-AUTOMATIC
PERFORMANCE
CONFIGURATION
BLEED
SET
ROUTING
PRINTED
LIFTED
FOR
STORAGE
SERVO
FIXTURE
WIRING
DAMAGED
CONDUCTOR
BLOCK
VALVE
CONDUCTOR
DIAGRAM
VERIFICATION
OR
SHIPMENT
DAMAGE
UST
OF
MODE,
PROCEDURE
TABLES
MONITOR
TRENDED
...
PAGE
1-2
1-5/1-6
2-11
2-12
2-16
3-2
3-6
3-10
4-3
4-11
4-12
4-12
PAGE
1-1
2-1
2-2
2-3
2-4
3-1
3-2
3-3
5-1
5-2
6-1
GENERAL
ACCESSORIES
LS
200
LS
200
LS
200
TEST
FAULT
TROUBLESHOOTING
PARTS
ASSEMBLY
COMPONENT
SPECIFICATIONS
AND
REPLACEMENT
FRONT
HIDDEN
REAR
PANEL
PANEL
PANEL
EQUIPMENT
ISOLATION
GUIDE
LISTS,
ASSEMBLY
LOCATION
CODES
REFERENCE
CONTROLS
CONTROLS
CONTROLS
DIAGRAMS
ITEMS
AND
DRAWINGS
INDICATORS
[ [
AND
SCHEMATIC
. .
'
....
DIAGRAMS
.'
"
1-3
2-1
2-3
2-6
2-7
3_i
3.12
^^
5-2
5.3
vn
©OCT.
1985
PHYSIO-CONTROL
Page 10
HOW
TO
USE
THIS
MANUAL
Section1of
GENERAL SPECIFICATIONS and CIRCUIT DESCRIPTIONS.
Section2familiarizes
identifies
TIONAL
TIONS.
the
CHECKOUT,
This
clinical
INSTRUCTIONS
Section
and
major
Section 4 consists of CORRECTIVE MAINTENANCE PROCEDURES and
DISASSEMBLY INSTRUCTIONS.
Section 5 contains ILLUSTRATED PARTS LISTS with EXPLODED VIEWS of
MECHANICAL
PRINTED CIRCUIT BOARD ASSEMBLIES.
Section 6 contains reference data for ELECTRONIC COMPONENTS used
in
this
3
TROUBLESHOOTING
replaceable
instrument.
the
manual
CONTROLS
and
section
use
booklet
of
is
provides
guidance
assemblies
ASSEMBLIES,
provides
the
user
AND
INDICATORS,
gives
is
not
the
simple
intended
instrument.
provided
FUNCTIONAL
in
and
COMPONENT
introductory
with
OPERATION
provides
OPERATOR
to
for
this
TEST
the
AND
form
SIGNATURE
LAYOUTS,
information
OF
a
MAINTENANCE
instruct
A
separate
purpose.
CALIBRATION
of
FAULT
ANALYSIS.
AND
THE
EQUIPMENT,
PERIODIC
INSTRUC
the
operator
OPERATING
PROCEDURES
ISOLATION
SCHEMATICS
with
OPERA
in
to
FOR
/^^\
viii
©NOV. 1984
PHYSIO-CONTROL
Page 11
_ SAFETY
*
SAFETY
The
servicing
the
TERMS
CAUTION
damage
WARNING
personal
TERMS
CAUTION
reads
DANGER
the
SYMBOLS IN THIS MANUAL
SUMMARY
general
manual
IN
to
AS
indicatesapersonal
the
indicatesapersonal
marking.
safety
personnel.
where
THIS
statements
the
statements
injury.
MARKED
they
MANUAL
equipmentorother
ON
EQUIPMENT
marking,ora
information
Specific
apply,
identify
identify
but
conditions
conditions
injury
hazardtoproperty
injury
in
this
warnings
may
not
property.
hazard
hazard
summary
and
cautions
appear
or
or
in
this
practices
practices
not
immediately
including
immediately
is
for
both
will
be
found
summary.
that
that
could
could
accessibleasone
the
equipment
accessibleasone
operating
throughout
result
result
itself.
and
in
in
reads
This
be found.
SYMBOLSASMARKED
MAKE
Inspect
as
cord
Electrical
frayed
symbol
L$\
h±rO
A\
PERIODIC
indicates
DANGER—High
Protective
ATTENTION—refer
SAFETY INSPECTIONS
the
power
needed.Donot
or
plug.
and
wires
may
shouldbepaid
flexure
will
eventually
ON
cord
operate
visual
cause
to
the
where
EQUIPMENT
applicable
voltage.
ground
checks
interferenceorloss
cause
(earth)
to
manual.
periodically
the
apparatus
should
point
at
terminal.
for
be
which
breakageofstrandsatthis
cautionaryorother
frayingorother
from
made
the
mains
on
cables
of
signal.
wires
power
enter
damage,
withadamaged
and
Particular
the
point.
informationisto
and
replace
power
wires.
terminals,
Broken
attention
since
or
ix
©NOV.
1984
PHYSIO-CONTROL
Page 12
POWER SOURCE
This
more
conductorsorbetween
connectionbyway
for
The
rooms.
USE
Use
power
This
supplied
(Hospital
The
the
(Hospital
the
create an
USE THE
To
in
are in the Maintenance Section.
productisintendedtooperate
than
safe
productiscompatible
THE
only
product
ground
product.
grounding
avoid
type,
250
volts
of
operation.
PROPER POWER CORD
the
power
cord
that
is
in
requiresathree-wire
(in
Grade)
electric
PROPER
fire
voltage
U.S.A.
Grade)
(earth)
For
connection.
FUSE
hazard,
for
electric
power
shock hazard.
rating,
RMS
(132V
either
the
supply
grounding
with
cord
terminalofthe
and
connector
good
condition.
and
Canada)
connectiontothe
shock
outlet
Any
use
only
and
fromapower
RMS
in
U.S.A.
conductor
conductorinthe
isolated
specified
(18
gauge,
with
power
plug
protection,
withaprotective
interruption
the
current
fuse
rating.
is
specified
and
and
power
a
three-terminal,
directly
insert
of
source
Canada)
that
does
between
ground.Aprotective
power
systemsasused
for
your
SJT-grade)
source
ground
the
Fuse
and
connectedtothe
this
contact.
grounding
for
your
replacement
cord
product.
power
cord
polarized
protective
plug
only
connection
product,
is
in
inamating
Do
instructions
not
apply
the
supply
ground
essential
operating
Use
only
which
ground.
frame
not
identical
is
plug
of
bypass
can
a
/~*«4fflk
DO NOT OPERATE IN EXPLOSIVE ATMOSPHERES
Do
not
anesthetics.
the
Use
must
flammable anesthetics.
USE ONLY SAFE METHODS OF INTERCONNECTION
To
protect
equipment
essential.
battery
approved
equipment
Electrical
517-80
NOTE
operate
of
notice
against
is
operation
ground
interconnectionsbemade
and
this
Explosion
Inhalation
operatedatless
electrical
electrically
When
Code,
517-120isespecially
Within
this
should
terminal
Article
certain
accessory
laboratory.
leakage
product
can
Anesthetics,
connected
product
be
on
517,
equipment
After
current
result.
than5feet
shock
is
avoided
the
Heath
governmental
and
in
the
states
from
connected
rear
in
Care
important
must
interconnection
grounding
presence
Safety
document
that
above
the
product
to
this
to
unless
panel.
accordance
be
the
Facilities.
jurisdictions,
labeled
requirements
of
portable
the
floor
cabinet
product,
other
It
line-operated
product
is
extremely
with
Compliance
by
with
flammable
NFPA
56A,
electronic
in
the
whenever
proper
is
equipped
NFPA
No.
all
an
approved
Standards
grounding
important
with
interconnected
accessory
must
be
gasses
equipment
presence
auxiliary
equipment,
with
70,
National
paragraph
or
for
of
is
an
that
testing
equipment,
maintained.
^^
"^
'
©NOV.
1984
PHYSIO-CONTROL
Page 13
SERVICE
Component
service
DO NOT MOUNT PRODUCT DIRECTLY ABOVE PATIENT
Place
fall from its shelf or other mount.
USE ONLY RECOMMENDED ACCESSORIES
To
ensure
Foralist
ACCESSORIES
USE
ONLY
Do
not
Do
not
approve
A
product
qualified
current
replacement
personnel
the
product
patient
of
AND
RECOMMENDED
autoclave
autoclave
it.
Many
that
service
values.
and
internal
only.
in
a
location
safety,
those
REPLACEMENT
STERILIZATION
this
accessories
accessories
has
been
use
only
accessories
ITEMS,
product.
unless
can
droppedorseverely
personneltoverify
adjustments
where
it
accessories
recommended
TABLE
METHODS
2-1.
the
be
severely
proper
cannot
must
harm
be
the
made
patient
recommendedbyPhysio-Control.
for
use
with
manufacturer's
this
instructions
damagedbyautoclaving.
abused
operation
should
and
acceptable
by
qualified
should
product,
be
checked
it
see
clearly
by
leakage
xi
©NOV.
1984
PHYSIO-CONTROL
Page 14
SECTION
DESCRIPTION
1
1-1.
1-2.
SCOPE
This
section
of
the
LIFESTAT
divided
providesadescriptionofthe
200
Noninvasive
into
three
parts:
descriptionoftheLS200
tion
diagram
provides
LS
PHYSICAL
The
monitor
pressure,
displayed
Additional
initial
repeat
vals,
stolic,
algorithm
cuff
dump
these
a shorter time frame.
briefly
level;
200
PCBs.
LS
200
used
cuff
of
and
or
inflation
pressure
features
describes
TheoryofOperation
detailed
DESCRIPTION
isamicroprocessor
for
pulse
simultaneouslyonLED
product
measurement
ALARM
Systolic
is
active
circuit
noninvasive
rate,
and
features
inflation
cycles
limits
high/Diastolic
during
pressure,
based
to
upon
specific
which
and
the
Blood
Physical
lists
LS
200
Pressure
Description
specifications;
circuitryatthe
reviews
descriptionsatthe
based
determinationofsystolic/diastolic
mean
pressure,
the
arterial
displays.
include
at
1,
can
the
automatic
cuff
previous
patients,
portable
pressure.
OVERRIDE
MODE
2,
be
SELECT
3, 5,
assigned
low.
deflation
reading
accurate
circuits
and
Monitor.
providesageneral
Functional
the
pneumatic
schematic
blood
All
pressure
function
10,
15
and
to
Systolic,
In
addition,
cycle
mode
bleed
rate,
information.
readings
general
The
section
functional
system
level
pressure
vital
selection
for
30
minute
Mean,
an
that
and
are
adjusts
By
obtained
features
is
Descrip
block
and
of
the
and
pulse
blood
signs
automatic
adaptive
the
adapting
are
for
inter
Dia
the
cuff
in
f^"
Operation
technique
pressure
single
include
The
line
contains
pack
connection
The
provides
In
on a
sequent
reading.
violations
for the
hose
pediatric,
LS
200
operated
must
optional
automatic
vertical
readings
printing
of
the
which
cuff
four
be
to
hard-copy
In
are
utilizes
for
pressure
is
powered
power
rechargable
present
line
PRINTER
mode
pressure
addition,
noted.
of
LS
200
is
arterial
blood
adult,
power.
recording
the
for
day,
pressure
cuff
large
from
supply/battery
D-size
in
the
is
a
Systolic,
axis
comparison.
interval
This
date
based
with
adult
either
unit
factory
of
the
Mean
and
changes,
option
and
upon
pulsations
and
Luer
an
charger.
sealed
for
connected
Pulse
includes
time
the
pulse
fitting
and
thigh
internal
lead-acid
proper
installed
displayed
and
Diastolic
Rate
artifact
with
oscillometric
acting
determination.
The
operation
vital
with
is
a
each
against
is
utilized.
sized
Real-Time
cuffs.
battery
internal
cells.
graphics
signs
readings
trending
also
conditions,
recording.
recorded
measurement
an
inflated
A
standard
or
an
internal
battery
The
with
or
plotter
information.
are
lines
and
Clock
Options
pack
battery
without
that
located
to
sub
at
each
alarm
feature
1-1
©NOV.
1984 PHYSIO-CONTROL
Page 15
Section
Description
1
-
-
FIGURE
1-1.
LIFESTAT
200
NONINVASIVE
1-2
BLOOD
PRESSURE
MONITOR
NOV. 1984 PHYSIO-CONTROL
Page 16
Section
Description
1
CHARACTERISTIC
RANGE
ACCURACY
•
PRESSURE
•
PULSE
INFLATION
INFLATION
INITIAL
R/T CLOCK ACCURACY
RATE
PRESSURE
DEFLATION
RATE
GENERAL
TABLE
SPECIFICATIONS
1-1
QUANTITY
40mmHg
OR
diastolic
systolic.
±
5mmHg
(diastolic)
±4BPM
170BPM.
Less
over
over
than
to
the
80mmHg/sec.
180+10mmHg/-15mmHg
290+10mmHg/15mmHg
-4±ImmHg/sec.
± 3 minutes/week.
SPECIFICATIONS
to
the
range
180mmHg
range
of
(systolic).
of
initially,
maximum.
260mmHg
60mmHg
30BPM
to
OPERATING
POWER
• AC INPUT
• POWER
• BATTERY CAPACITY
• BATTERY
GENERAL
•
•
ENVIRONMENTAL
•
MODES
SOURCE
SIZE
WEIGHT
TEMPERATURE
POWER
CONSUMPTION
TYPE
Manual
90 to
264Vac
70W maximum at
Approximately
16
mode
hose
Sealed,
battery
6"W X 11.5"D x 8.6"H.
15
5
hour
at
and
pounds.
to
45°C
and
Automatic
130Vac
(50
or
60Hz).
115Vac,
45
charge
25°C
using
printer
rechargeable,
8Vdc,
(41
2.5A-h.
to
or
in
on.
113°F).
cycle.
optional
60Hz.
minutes
5
minute
adult
cuff,6ft
198
to
with
cycle
lead-acid
a
•
RELATIVE
•
ATMOSPHERIC
HUMIDITY
PRESSURE
0
775
ft).
1-3
to
95%
(noncondensing).
to
500mmHg
(-570
©OCT.
ft.
to
+10,000
1985 PHYSIO-CONTROL
Page 17
Section
Description
1
1-3.
FUNCTIONAL
The
following
electrical
Functional
The
LS
200
system
the
linear
consistsofthe
overpressure
bleed
implements auto-zeroing,
overpressure
excessive.
The
LS
200
System
PCB,
contains
Processor,
to-digital
pump,
cuff
Processor,
the
systolic,
servo
data
data
regulated
are
also
DESCRIPTION
paragraphs
circuitry
Block
contains
and
Diagram
pneumatic
and
pump,
switch.
servo
switch
electronics
Interface
all
of
U7,
the
does
valve
causes
are
PCB,
data
the
machine
assembly
conversionofcuff,
valve,
before
U14.
processing
diastolic,
+5Vdc
generatedonthe
beeper,
passing
The
Blood
involvedinconverting
and
mean
power
supplies
pneumatic
and
System
containabrief
system.
Figure
the
The
contains
rapid
1-3,LS200
and
electrical
linear
pump
deflates
bleed
inflates
the
the
deflationifcuff
containedinfour
Charger
processing
and
it
Pressure
PCB,
electronics.
control
pulse,
and
displays,
to
the
Computation
pressure
and
Analog
PCB.
and
processing,
servo
and
6809
and
pulse
+12Vdc
descriptionofthe
RefertoFigure
Pneumatic
circuits.
servo
the
valve
patient
System.
The
assembly,
cuffatcontrolled
pressure
transducer.
pressure
printed
Display
circuit
PFC.
The
The
System
controls
error
pre-processes
Blood
the
cuff
data,
Pressure
Processor
and
pulse
rate
measurements.
and
-12Vdc
operates
the
does
Power
LS
200
1-2,LS200
pneumatic
and
cuff.
The
rates,
The
becomes
boards,
System
the
PCB
Control
the
analog-
the
pulse
and
Computation
all
of
data
into
The
Supply
/rt*%
Blood
Control
and
opens
time
iations
three
are
the
Blood
Computation
pressure
Pressure
the
PFC.
power
A
PCB
information.
PCB.
serial
pressure
Panel,
inflate
and
allows
the
pressure
in
separate
multiplexed
System
Control
pressure
and
Computation
System
The
Display
switch.
printer
and
controlleronthe
provides
This
transmission
determinationisinitiated
causing
the
cuff.
the
an
analog
signals:
and
and
Processor.
pulse
Control
the
System
After
Control
the
pressuretobleed-down.
transducer
signal.
converted
Processor.
pulse
When
data
it
Processor.
Processor,
PFC
contains
converts
The
cuff,
rate
pulse,
into
digital
are
the
System
periodically
The
which
all
Interface
the
I/O
A
Systems
port
printer
permits
of
data
Connector
with
external
from
the
when
START
Processortoturnonthe
cuff
is
inflated,
During
arterial
analog
and
signal
servo
signals
pulsations
is
error.
which
calculatedbythe
Control
sends
data
sends
display
PCB
receives
annotated
is
also
control
unit
to a
Processor
the
is
processed
the
resultstothe
drivers,
graphic
mounted
of
remote
data
the
is
pressedonthe
the
servo
this
bleed-down
into
conditioned
The
are
accepted
Blood
contains
data
to
and
returned
the
displays,
from
the
blood'
on
the
Interface
LS
200
and
location.
pump
valve
var
into
signals
by
Pressure
blood
Blood
to
Display
and
the
System
pressure
allows
/
^
1-4 ©NOV. 1984 PHYSIO-CONTROL
Page 18
KEY
1
SYSTEM
2
INTERFACE
3
DISPLAY
4
VALVE
5
PUMP
PCB
PCB
ASSY
PCB
MEAN
~l
|
J
PULSE
1
ALARMS
I
1 J
1
SYS
MEAN
1
1
DIAS
1
PRINTER
OfJ
1
kkshJ-
1
lcw|
i_
UW
BATTERY
FIGURE
1-2.
LS
200
FUNCTIONAL
BLOCK
DM6MM
Page 19
1
-4.
Section
Description
CIRCUIT DESCRIPTION
The
following
Battery
Charger
Assembly,
diagrams
should
contains additional information about selected ICs to aid in circuit
analysis
of
be
referred
and
paragraphs
PCB
Assembly,
Display
the
troubleshooting.
PFC
electrical
to
while
contain
Assembly,
circuits
reading
detailed
Interface
and
Pneumatic
which
the
circuit
descriptions
PCB
Assembly,
System.
are
provided
descriptions.
of
in
the
System
Schematic
Section
Section
LS
1
200
PCB
V
5
6
1-5.
1-6.
1-7.
BATTERY
The
25°C
CHARGER
Battery
and
a
current
compensated
battery
Transformer
Charger
bridge
provide
volts
CR1,
Semiconductor
from
diode
transistors
width
frequency
and
fraction
voltage,
providing
R14
(see
PCB
CR1
smoothing
peak
CI
and
the
rectifier/filter
which
modulation
of
C7.
of
adjusted
voltage
and
C5,
and
to
the
maintains
The
givingasoft
PCB
ASSEMBLY
Charger
constant
Figure
Rectifier/Filter.
Assembly
rectifies
peak.
off-board
Switch.
are
approximately
controller,
the
PCB
limit
voltage
5-3).
with
the
of
the
Thermistor
Darlington
current
controlled
controller
output
by
voltage
R6,
regulation.
(802597).
provides
of
3.5A±18%.
charge
20Vac
ac.
at
A
rectified
RT1
capacitor.
transistor
into
50kHz.
controls
through
by
the
Ul.
Ul,
the
Ul
compares
of
Pulse
start
with
the
unit
on
The
transformer
a
5000yF
signal
limits
LC
filter.
LI
open
switches
The
switching
the
regulator.
the
width
time
with
This
the
8
input
when
collector
an
duty
voltage
off-board
to
an
inrush
pair
Ql
Ql
internal
cycle
at
constant
a
regulated
maintainsatemperature
volt
sealed
supplies
of
capacitor
ac
ripple
current,
Ql
and
Q3
CR4
isafree
is
not
conducting.
outputs
and
Q3 on
frequency
reference
The
resulting
of
Ql
start-up
of
100ms.
9.8Vdc
lead
the
115V.
value
protecting
switch
wheeling
of
the
and
off
is
set
and
Q3,
is
limited
at
acid
Battery
Diode
and
CI
of 4
power
The
pulse
at a
by
R13
with
error
thus
by
a
1-8.
1-9.
LC
Filter.
for
the
occur
in
ductor.
from
the
voltage
generated
Error
R17.
pin
duty cycle of Ql and Q3
approximately
Voltage
RT2
Amplifier.
The
14)
senses
path.
voltage
InductorLIand
50kHz
the
CR2
ac
pulses
circuit.
isolates
line.
feedback
by
the
regulator.
negative
at
R8.
sensing
When
3.5
is
ambient
The
sense
of
0.82
volts
from
the
The
loop.
Current
voltage
the
Amps.
performed
temperature
voltage
at
capacitorsC2and
Ql.
R5
providesaminimum
charger
voltage
C8
sensing
at
CR3
drop
is
included
R4
from
is
is
limits
summed
voltageatUl,
decreases.
by
at
the
R15,
Ul,
junction
R19,
and
compensates
pin
1-7
C3
voltage
the
battery
across
to
it
damp
performed
with
pin
15,
This
1,
of
causes
RT2,
is
compared
R12
©OCT.
formalow
transients
load
current
when
is
compensatedbythe
the
by
R3
+5
volt
drops
a
R6,
Q2
the
and
R18.
1985
PHYSIO-CONTROL
pass
for
not
switching
in
parallel
reference
below
current
and
ground,
R7
voltage
with
a
The
filter
that
the
may
in
operating
noise
with
(Ul,
the
limit
in
feedback
reference
parallel
at
series.
Page 20
Section
Description
1
1-10.
1-11.
combinationofRll
error
phase
sense
INTERFACE
The
the
system,
Assembly
panels
5-5).
Serial
asynchronous
device
erated
transmits
ready)
are
The
levels
are
voltageofCR19
voltageofCR19
are
lishes
appliedatJl,
the
reducedto4.7V
by
input
amplifierathigh
shift
line
Interface
System
into
Communication
and
available
input
at
used.
translated
the
output
germanium
levels.
introducedbythe
from
the
PCB
ASSEMBLY
PCB
PCB
Assembly,
printer,
also
converts
data
LED
that
communication
is
also
by
serial
pin
and
Jl
Yl
are
Any
referred
a
out
20
at
Jl,
output
0=-12V
signal
will
will
as
reverse
pin
will
by
diode
with
RIO
and
C6
frequencies.
LC
filter.
battery
Assembly
displays,
may
Port.
1.8432
data
(DTR,
on
logic
appliedtoU14B,
be
be
-12V
translation
3,
is
accordinglybe+12V
zener
CR17.
when
(803114).
into
commands
be
the
converts
on
and
systems
from
used
by
Serial
interface
to
as
a
UART.
MHz
crystal.
(SOD),
data
the
levels
and
shiftedto-12V
and
terminal
rear
panel
for
1=+12V,sovoltage
shiftedto+12V
and
+12V
respectively.
for
inputs
aboveorbelow
CR18
anda-12V
Thus
the
and
communication
inputstoU9
rolls
off
the
gain
Thisisnecessary
VFET
chargerisnot
address
off
connector.
the
systems
the
System
adapter
The
The
outputs
ready)
systems
U9
are
pin
and
at
into
the
or
-12V.
level
Q2
and
data
signals
connector
PCB
is
(ACIA)
time
serial
+5V
at
when
6,
any
U14B,
the
connector.
0=0V
and
translators
that
signal
pin
Likewise,
U9.
forward
A
will
are
isolates
on.
Assembly
base
communication
pin6(DSR,
is
If
voltageofCR19
+12V
be
of
the
voltage
becauseofthe
the
voltage
information
for
the
The
Interface
and
(see
implemented
U9.
unit
7.
This
for
is
1=+5V.
U14A
below
above
Thus
U14A
the
U9
on.
The
the
the
0V
signal
level
reducedto-0.3V
translatedtosafe
from
pneumatic
PCB
control
Figure
by
an
type
is
data
and
forward
forward
accomp
gen
port
set
These
logic
U14B
and
level
of
5V
then
will
be
/^%
'
1-12.
1-13.
Front
Panel
Interface
buffers
SWIN1
to
the
set
through
Display
U9,
System
which
five
logic)
its
through
U7,
U16
EN
System
lines
the
PFC
which
PCB
is
latches
Ull.
input
16.
U8
or
Interface.
PCB
through
and
and
SWIN2
PCB
are
also
Display
Interface.
must
be
through
always
are
As
signals
As
U9
(see
The
front
J7.
U18
when
EN
from
through
read
PFC
on
accessed.
Interface
enabled,
The
their
U4.
transceiver
through
J12.
The
Display
Data
PCB
and
J12.
generatedonthe
each
each
latchiswritten
and
sends
line
Figure
outahigh
is
5-6).
1-8
toggled
panel
active
outputs
The
outputs
port
these
PFC
to
the
transceiver
Latch
Interface
to,
the
switches
low
inputs
are
from
U10.
ports,
has
are
enabled
U16
The
but
five
latches,
Display
U10,
enable
PCB
Ull
(LE)
by
PAL
decodes
pulseonthe
data
©OCT.
is
latched
1985
connected
are
passed
by
control
and
U18
clock
these
PFC
comes
display
signals
to
through
are
select
lines
U5
through
from
buffer
for
(programmed
the
address
LE
lines,
into
PHYSIO-CONTROL
pins
U5,
the
lines
passed
and
come
the
U17
the
array
from
12
U6,
Page 21
Section 1
Description
1-14.
1-15.
1-16.
Operating
modes:
Mode
Selection.
MANUAL,
incrementedbyU7
SELECT
The
When
System
mode
Power
Assembly,
the
components
Grounding.
Each
supply.
GO
Gl
G2
G3
G4
G5
G6
switch
mode
may
U18,
Control
select
Supplies.
U22
logic
ground
The
Return
Low
Battery
Digital
Analog
Display
Printer
Pump
ground
is
also
pin
13,
Processor07(on
inputs
and
power.
in
case
The
is
routed
function
to
charger
ground
ground
drivers'
ground
1,
2,
3,
on
the
depressed.
be
selected
is
driven
from
Jl,
There
U23.
circuit
detect,
CR7
of
regulator
back
of
board
ground
are
U22
and
each
real
The
unit
5,
10,
System
PCB
through
low,
the
pins
22,
two5volt
provides
CR8
are
failure.
layout
to
utilizes
star
ground
time
may
be
15,
and
each
systems
external
System
23,
and
regulators
the
printer
5
volt
ground
is
clock
before
as
follows:
power
placedinone
30
minutes.
time
control
PCB)
24.
tranzorbs
7
the
front
connector
is
then
power
grounds,
returning
and
on
the
chip
responds
that
of8operating
The
mode
panel
Jl,
pins
asserted.
MODE
22-25.
The
only
Interface
and
U23
protect
GO
through
to
enable
the
PCB
provides
the
G6.
power
ground
is
to
1-17.
1-18.
1-19.
1-20.
1-21.
Servo.
the
on
energizes
Beeper
cies
System
constant
sounds
feedback.
Auto
buffer
from
Dump
dump
K2
is
air to bleed out of the cuff.
Pump.
PCB)
cause
to
U26A,
collector
transistor
serves
The
System
these
Circuit.
are
PCB)
alarm
the
Zero
U20,
VBSW
Valve.
servo
PCB
lines
the
stepper
generated
through
adjustable
This
Valve.
pin
to
energize
The
is
controlled
through
pulls
The
buffer
the
motor
alarm
and
controlledbythe
buffer
soundsbyenergizing
beeper
volume
The
15.
System
is
auto
This
the
Control
valvebysendingahigh
open,
The
through
the
no
powerisappliedtothe
pumpisturnedonby
buffer
outputofthe
pin
2,
is
U20,
also
AND
high.
transistorinU19.
Q13
as
a
which
catch
provides
diode
valve.
pin
to
by
the
U20,
open
windings
has
U20,
pins2,5,
collector
through
two
available
pins9and
transducer
for
both
pulse
adjustedbythe
zero
valveisenergizedbya
turns
on
transistor
Processor
signal
through
valve
the
System
6.
A
high
gate
U26A
The
The
powertothe
protect
AND
low
to
gate
output
the
System
16
outputs
connector
tones.
System
12.
and
rear
(U7,
System
J4,
so
Control
output
go
highifthe
U26B
at
pump
pump
Control
and
19.
of
Both
Control
If
U20,
XI.
front
Pulling
panel
panel
Q2
and
PCB)
pin
31,toQ3.
it
will
Processor
from
then
U19,
through
from
reversed
ProcessorU7on
A
high
output
U19
low.
J8.
alarm
frequen
Processor
pin9,is
pin
12
touch
switch
potentiometer.
high
output
allows
current
energizes
If
open
this
FAIL
turns
pin
J3,
and
(U7,
buffer
SAFE
on
the
12,
turns
pin
2.
polarity.
System
This
(U7,
low
a
low
at
the
relay
allow
will
input
open
on
CR35
1-9
©OCT.
1985
PHYSIO-CONTROL
Page 22
Section
Description
1
l"Z2'
Fail
Safe
and
that
if
the
these
the
dump
the
pump.
If
the
pressure,
opens
to
open.
then
off
outputsalow
the
Circuitry.
the
dump
conditions
valve
normally
current
deactivating
This
pump.
RelayK2can
Ul
pin
13.
the
dump
valve
pin3down
signal,
in
U19
prevent
when
During
low.
the
closed.
invertedbyU3C,
which
the
K2
opens.
normal
This
Darlington
dump
This
valve
circuitry
will
valveisclosed
occurs
and
providesalow
closed
flow
the
also
relayK2will
overpressure
ceases
DUMP
causes
to
the
Darlington
alsobeopenedbya
Ul
is
removed
to
power
128
line
seconds.
causesK2to
unintentional
operation
is
invertedatpin3and
transistors.
from
goes
U3B
open.
energizingofthe
when
insures
open:ifcuff
for
longer
than
open.
inputtoAND
switch
through
VALVE
FAIL
128
RESETbyU3D
high.
If
Ul
and
U3A,
R5
the
START
Relay
the
POWER
line
SAFE
switch
second
Ul
then
times
turns
and
Cll
switchispressed,
appliedtoU19
K2
is
that
pressure
128
opens
coil
and
the
pump
will
exceeds
seconds.Ifeither
This
interrupts
gate
U26A
due
to
of
K2.
causing
which
excessive
The
the
inputtoU26Atogo
array
out,
enabled
U19,
time-out
and
begins
divides
pin
off
Darlington
delay
relay
the
due
and
pin
5,
pulse
appearing
its
the
8kHz
13
goes
Ul
RESET
to
contact
U3A
pin6which
the
dump
not
run
320mmHg
or
of
power
to
disables
cuff
relay
dump
low.
which
count
high.
transistors
signal
pin2goes
then
valve
U26A
turns
when
input
This
bounce
turns
valve
at
at
to
on
is
^%
'
1-23.
1-24.
1-25.
1-26.
Real
Time
the
System
the
unit
is
off
CR3
direct
when
limited
is
Real
Control
real
turned
After
Power
The
This
by
and
bypass
Low
the
U24
the
powered
Time
time
power
RS
drives
the
Q12
Battery
System
voltage
Clock
PCB
is
then
the
unit
by
RIO.
by
Clock
Processor
clock
on,
128
counts,
On
Relay.
switch
latch
System
in
VBATT
Detect
Control
Supply.
The
powertothe
real
AssemblyisprovidedbyInterface
on
then
the
current
is
the
opto-isolator
on
formed
Q14
Control
the
power
detector.
power
power
plugged
Voltage
AC
mains.
Enable
(U7,
(U8,
U8,
Main
the
front
by
on,
which
event
into
Circuit.
Processor
is
is
provided
flow
Delay.
System
System
pin
battery
U25A
Processor
of a
to
in.
is
only
PCB)
U7
14,
panel
and
energizes
low
the
latch
(U7,
Processor
provided
by
protect
The
charging
available
This
PCB)
removes
goes
Battery
from
during
high
power
or
from
U25B
power
(U7,
battery
circuitry.
System
involvement
by
5V
Bl,a3.6V
U6
and
circuitry
writing
power-up.
counter
and
is
switched
pin
is
set at
relay
System
power
voltage
PCB)
time
regulator
allow
of
Bl
at
J2,
U8
enables
13
of
power
PCB)
shut
sensing
by
allowsacontrolled
clock
Board
U6.
nicad
Kl.
sampling
battery.
Bl
is
directed
pin
5,
prevents
incorrect
When
from
the
real
from
systems
either
up by
The
through
down.
is
Circuitry.
only
when
the
a
connector
latch
the
chip
RESET
Ull,
performed
If
be
by
the
data
LS
time
R56
R66
output
(U8)
the
CR2
charged
CRl
the
System
to
200
state.
clock.
the
and
is
reset
pin
and
on
If
unit
and
and
unit
the
is
main
Jl.
C7.
18,
C8
by
of
shut
1-10
©OCT.
1985
PHYSIO-CONTROL
Page 23
Section 1
Description
1-27.
down
also
predefined
with
below
low
Control
noise
hysteresis
Printer
U12,amasked
the
buffer
24.
to
Processor,
to
second
The
interrupt
System
pin
The
with
of
enables
an
1.15V,
battery
Processor.
filter
Circuitry.
System
U5.
Input
the
the
printer
byte
third
Control
internal
36,
lets
same
the
the
load
internal
during
Control
pin
printer
by
byte,
line
timing
pin
RESET
unit
the
is
the
detect
on
version
The
command
3
writing
control
leaves
after
high
Processor
of
the
System
is
signal.
afterablood
battery
voltagetobe
present.
reference
open
collector
line
Trip
the
voltage
The
of a
Processor
is
used
controller
three
the
meeting
again.
U12
used
to
of
high.
voltage
sense
detection.
printer
6805,
words
for
bytes
with
data
is
the
unchanged
that
set
Control
initiate
line.
(U7,
U12
the
pressure,
U24
compares
1.15V.
output
This
is
set
circuitry
to
control
System
are
read
interrupt
are
to
U5.
interrupt
interrupt
U12
pulls
the
command
bya4MHz
Processor
the
reading
sampled
the
When
line
R67
but
printer
the
at
pin4turns
is
by
R63
provides
has
the
PCB)
by
U12
detection.
sent
The
line
drops
timing
pin
crystal
start
during
input
voltage
then
to
its
printer.
are
on
from
first
high
the
13
low
is
Y2.
and
self
has
taken
the
times
voltageatpin
at
off,
read
7.80V.
a
own
sent
input
Typically,
the
interrupt
requirement,
being
stop
test
by
C9
small
microprocessor,
Commands
to
pins
System
byte
presents
(U12,
indicating
executed.
A
separate
the
when
place.
when
It
a
3
pin3drops
sending
the
serves
amount
U12
18
commands
pin3).
line
paper
combined
the
System
as
of
from
through
through
Control
data
The
low.
sets
the
to
the
The
input,
feed.
a
U12
output
printer
the
in
the
moved
control
tary.
to
pull
the
Q5
through
to
energize
pen
turns
voltage
pin
ground.
pen
stepper
current
printer's
to
the
when
A
low
the
solenoidinthe
Qll
down
outputislow,
on
the
will
10,
through
A
similar
up
output
ultaneously.
clamped
draw
motor
ital
printatest
at
the
and
5V
approximately
printer
the
supply.
pins
25
motors.
drivers
stepper
desired
the
pen
output
pen
down,
convert
the
pen
base
turn
the
is
low.
Voltage
has
pen
up/down
If
pattern
through
in
By
U13
motor
32
control
sending
are
windings.
position.
will
on
one
be
up
or
pin
energizes
whilealow
opposite
solenoid
of
Qll.
on
Q8.
solenoid,
series
Q5
spiking
its
J10
followingapower
direction,
low
outputs
connectedatJ5
Q7
is
turned
When
Thus
current
back
of
events
Ensures
caused
12V
by
CR5
own
5V
regulator
solenoid.
is
connectedatpins2and
the
high
turned
pulses
on,
This
Two
other
down.
These
the
outputonthe
pulling
from
Qll
on.
comes
the
Q7's
can
in
J5,
pin
occurs
that
and
U12
Q6
and
by
shutting
CR6.
and
on
reset.
with
U22.
x
and
y
position
out
on
which
outputs,
solenoidinone
Printer
pins
on,
flow
Q7
U5
energize
allows
outputs
other
the
pen
10
rising
its
through
11,
Q6,
will
off
Due
to
U22
are
3,
the
pins
are
pin
up.
Control
and
collector
falling
and
through
Q9
and
never
the
the
powers
poweredbythe
the
of
these
the
9
pen
lines
phases
to
and
complemen
direction
will
energize
Transistors
Processor
11.
When
voltage
collector
Q8,
out
Qll
Q10
when
come
on
sim
solenoid
heavy
printer
the
current
stepper
dig
will
the
be
10,
the
J5,
to
the
is
|F^
1-28.
Static
connector
Protection.
Jl
by
metal
Static
oxide
protection
varistors
1-11
circuitry
RV1-RV15.
©NOV.
is
provided
1984
at
systems
PHYSIO-CONTROL
Page 24
Section 1
Description
1-29
1-30.
SYSTEM
The
pressure,
and
Analog
acquires
regulator
to
ferential
times.
PCB
System
±12
Blood
the
Pressure
Circuitry.
and
U38
transducer,itgeneratesavoltageatJ3,
amplifier
R58
videdatthe
analog
pass
analog
The
through
-3dB
Control
5,
response
R77.
large
multiplexer
filter
multiplexer
pulse
the
roll
off
Processor
and
6,
of
This
cuff
waveform
switches
ASSEMBLY
PCB
volt
(803116).
contains
supply,
Computation
The
analog
conditions
provides
allows
data
+10V
U34
amplifies
adjustmentofthe
outputofU34Dis-1
U29
inanonlinear
with
third
U28C
frequency
pressure
point
-3dB
and
point
U29
envelope
order
U7
A,
high
can
be
sendsahigh
C,
U28D
shift
changes
represents
shifted
andDare
the
System
Processor
pressure
from
the
for
the
volt;
at
6.1Hz.
is
enhanced
pass
by
switching
allows
caused
analog
Control
cuff
input
Processor,
(see
Figure
circuitry
Real
5-5).
circuitryonthe
pressure
transducer.
for
Time
Clock,
System
Voltage
cuff
PCB
transducer.Aspressureisapplied
this
voltage
less
operating
the
filter
between
signal
closed.
the
by
cuff
pins2and
voltage
by
offset.
offset
region.
The
output
instantaneous
by
passing
formed
.5
to
in
filter
inflation
by
to
3Hz.
analog
This
parallel
changes
to
recover
approximately
The
than
this
U28B,
cuff
the
U28C
and
When
switch
resistors
or
artifact.
4.
offset
places
U28B
pin
pressure.
cuff
U28D.
the
U27,
the
frequency
quickly
Dif
110
pro
the
isalow
14,
into
pressure
The
System
pins
R75
and
from
3,
1-31.
The
instantaneous
the
input
the
necessary
bleed
by
op-amp
pulse
controlled
input
in
the
more
artifact
quickly
terminates.
determined
pressure
measure
maintain a
A to D
U29
The
routine
pressurestoa
pin
a
gradual.
and
multiplyingDtoAconverterisused
18,
current,
to
the
down
channel
U27,
rate
U28A,
filter
by
pin
circuit,
during
insuring
U35
by
is
subtracted
of
cuff
linear
Conversion.
drives
in
the
is
always
because
unfiltered
servo
feedback
may
sample
error
to
be
controlled.
and
select,
the
System
4.
Closureofthe
detuning
This
the
pin
digital
prevents
cuff
inflation
stability
samples
System
from
bleed
System
rate.
bleed down rate.
U37A
18
of
Control
form.
negative.
of
the
cuff
System
hold
the
Control
the
filter
the
within
the
Control
this
The
buffers
U32,amultiplying
The
TheDtoAconverter
constant
pressure
signal.
U35,
-3dB
Processor,
switch,
servo
which
seconds
instantaneous
Processor,
servo
the
Processor,
voltage
The
Control
The
servo
and
pointofU28A's
U27
thus
allows
sampled
input
making
error
after
valve
output
withasuccessive
input
resistanceatpin
from
servo
Processor,
op-amp
the
cuff
U7.
value,
is
digital
U7,
U34,
error
error
U36.
U7,
through
pins
of the
13
its
filter
servo
the
pressure
The
adjusted
to
to
the
reads
cuff
to
convert
pin
1,
provides
signal
U7,
signal
Similar
low
pass
analog
and
14,
roll
off
from
channel
instantaneous
providingarunning
analog
responding
inflation
as
analog
approximation
converter
this
provides
so
the
cuff
is
generated
to
filter
switch
places
slope
to
recover
cycle
at
intervals
cuff
necessary
multiplexer
converter.
analog
voltage
18
cuff
at
U32,
(lOKft).
the
is
R76
far
to
to
as
1
1-12
©OCT.
1985 PHYSIO-CONTROL
Page 25
The
System
is
summedatU32,
current
digital
System
current
Processors
U31
detects
if
the
Processors
converts it to TTL levels.
A
software
Processor,
input
to
output
is
process
to
1,
set
U32
to
then
Control
is
equal
word
Control
at
Processor
pin
1,
to
the
U32,
Processors
pin4through
outputatU32,
approximationisfrom
the
current
magnitudeofthe
approximation.
successive
U7,
U32
the
is
low,
and
is
repeated
then
drives
is
first
comparator,
the
the
test
represents
approximation
the
driven
high
is
until
the
U7,
controlsareference
with
current
current
into
into
U32,
pin
approximationofthe
pin
1,
indicates
the
actual
out
of
analog
The
Analog
with
U31,
order
bit
repeated.
all
analog
U32,
signalissmaller
comparator
the
pin
routine,
to
Digital
a 00
output
is
reset,
The
bits
signal
hex.
Section
Description
current
U32,
15.
how
analog
1,
(U30)
is
otherwise
set-test-decision-next
are
level.
pin
pin
17,
This
digital
analog
far
off
input.
and
outputsalow
than
buffers
run
by
conversion.
The
high
sampled.
checked.
18.
This
multipliedbythe
word
input.
the
System
the
System
U31's
the
System
The
order
If
the
the
next
The
digital
1
which
reference
is
the
The
Control
signal
Control
output
bit
comparator
lower
and
Control
digital
is
set
bit
bit
set
input
1-32.
Resistor
approximation
reference
ideal
voltage
imately
U37B
conversion
by
two
pressure
displayed
±12
Volt
and
Tl.
30kHz
switching
drivetoQ3
secondary
C36,
switching
The
output
U38
is
R90
voltageatU32,
reference
input
2.1mV
is
used
circuitry.
and
appliesitto
channel
for
Supply.
This
by
switching
frequencyofU33
and
voltageofTl
and
regulatedto±12V
noise.
of
set
at
is
adjusted
routineisequivalenttocuff
currentof870uA.
rangeof0
per
count.
only
during
reading
comparison.
The
+12V
push-pull
voltage
so
the
digital
pin
17,
is
adjustedto8.70
This
to
-8.70V
withaconversion
self-testtoverify
U37B
multiplies
multiplexer
and
the
twice
and
-12V
switching
regulator
supplyisgeneratedbyU33,
converterisdrivenatapproximately
adjustment
the
U29.
U33.
whichinturn
Q4.
CR7
+10V
LI
also
which
and
C28
is
full
wave
by
supplies
is
trimmedto+8.7V
serveasenergy
rectifiedbyCR7,
U39
and
U40.
linear
regulator
output
pressure
the
linearityofthe
cuff
pressure
During
cuff
pressure
C37
and
provides
storage
C32
U38.
at
U32,
of
the
successive
times
would
.ImmHg.
volts,
giving
giveavalid
factorofapprox
channel
self-test
signal
the
cuff
reading
Q3,
R92
control
opposite-phase
elements.
filteredbyC31,
through
pin
The
17,
C35
output
base
dampen
by
R90.
The
an
A/D
are
Q4,
the
The
of
1-33.
System
tne
pressure
analog
cates
processor
address
mable
mapped
Control
front
cuff
with
latch,
array
devices.
Processor.
panel
computation
the
chip.
switches,
pressure
analog
U7
U12
data
logic
decodes
The
System
controls
processor,
inputs.
section
communicates
bus
The
via
buffer,
higher
1-13
Control
the
display,
and
performsAtoDconversions
System
dedicated
with
order
and
Control
all
other
U6
control
address
©NOV.
Processor,
pneumatic
Processor
ports
PA0-7
peripherals
bits
1984
and
buffer.
and
PHYSIO-CONTROL
U7,
services
system,
also
selects
communi
PB0-7
through
Ull
program
blood
on
the
on
the
U13
memory
Page 26
The
System
output
the
Processor
triggers
error
filter,
buffer,
commands
printer
comparator
Pressure
The
device
signals
(U20)
latch
following:
U14,
the
input
controls
U15
from
busy
Computation
System
select
allow
on
the
Control
Processor's
andaninput
providesaninterrupttothe
controls
watchdog
channel,
SEN
1,
the
signal,
output,
Control
lines
the
Interface
timer,
changes
the
dump
inputs
system
selectionof12
and
Processor.
Processor's
connect
processortocommunicate
buffer.
the
RffTT
changes
the
valve
the
connector,
bus
ready
to
PCB,
and
data
following
bus,
The
output
input
the
filter
and
printer
ADBO-7,
and
cutoff
frequencyofthe
information:
status
or
24
status
data
the
Interface
the
Interface
bus
(ADBO-7),
for
also
latch,
Blood
the
U16
Pressure
RF5FT
frequencyofthe
paper
of
hour
the
PCB
with
PCB's
feed.
failsafe
clock
interface
address
through
another
data
Section 1
Description
connectstoan
C0M1,
performs
Computation
linetoU14,
servo
pulse
operating
mode,Ato
output
bus,
channel
The
input
mode
circuitry,
D
to
Blood
lines
Jl.
and
These
latch,
ADCO-7.
1-34.
1-35.
Real
Time
time
circuit
power
formed
access
bytes
Processor
circuitry
System
ADBO-7.
with
held
power
circuitry,
Watchdog
operation
U4D
pulses
until
RESET
has
trigger
will
of
day
(U8)
supply
by
fromamultiplexed
to
Control
the
low
off,
sends
continue
the
continues
elapsed.
pulses
time
Clock.
for
and
located
U3,
U4,
U8
via
(U7)
Next,
DS of
while
Circuit.
of
5MHz
out
first
simulates
Processor
the
U8
disconnects
but
continues
the
charge
The
to
and
The
real
output
to
oscillator
on
U21,
ADBO-7.
writes
the
the
processor
U7
acting
system
The
watchdog
System
pulses
to
to
to
activate
on
C7
be
active
System
U2B,
reset
the
time
the
the
U5,
bus
Forasingle
address
Data
as
power
control
timekeeping.
Control
the
reaches
Control
pin
processor.
clock
system
(Ul)
and
an
the
11,
are
interface
Ull.
by
alternately
address
strobe
Strobe
doesanormal
the
DS
is
circuit
Processor.
dual
RESET
the
until
Processor,
at
provides
connector
poweredbytheir
board.
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read
byte
input
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of
U8.
on.
lines
one-shot,
least
When
and
is
provided
line
threshold
the
RC
once
Decoding
decoding
writing
cycle,
on
when
read
The
this
data
At
U2,
by
triggering
of
time
U7,
e\/ery
year,
and
the
to
the
chip
power
pins4and
constant
month,
printer.
own
battery
for
U8
simulatesasingle
address
the
System
bus.
U8
address
of the
signal
lines
to
up,
U5B.
must
100ms
The
by
decoding
byte
clock
enable
goes
from
ensure
the
12.
the
At
this
of
U2A
continually
or
date,
The
and
clock
and
is
per
and
data
Control
decoding
the
is
on
circuit
for
U8
is
high
external
continuous
output
one
else
at
of
These
shots
time,
(10ms)
send
U2B
1-36.
Blood
Processor
and
printer.
once
the
utilizinga16-bit
U26,
Control
Address
Computation
Processor
Pressure
U14
the
pulse
every
conclusion
and one 8K X 8
Processor
decoding
Computation
computes
rate.
Pressure
10ms
of
Processor's
through
during
the
The
processor
information
cycle
the
cycle.
address
static
U7.
is
C0M1,
The
performed
RESET
U16.
Processor.
Systolic,
is
sent
deflation,
The
CPU,
bus.
RAM
Memory
chip
address
by
is
1-14
The
Blood
Mean
and
Diastolic
also
formats
to
the
and
results
U14,
consists
U24
latch is U22, the data buffer
a
PAL
controlled
is
which
U18.
©OCT.
data
Blood
an
of two
is
shared
by
1985
Pressure
blood
for
output
Pressure
are
calculated
8-bit
The
the
microprocessor
EPROMs,
with the
Blood
System
PHYSIO-CONTROL
Computation
pressures,
Processor
Pressure
to
the
at
U25
and
System
U17.
Control
Page 27
f^
In
normal
setting
available
halt
buses,
shared
the
Control
formed
and
U7
formats
tor, Jl on Interface
The
activated
mode
pressure
10ms
untilacomplete
blood
shared
data
sends
interrupt
operating
pin
40
low.
(BA)
is
the
RAM
calculations.
pressure
Processor
RAM
through
buses
the
the
and
verified,
blood
U24.
U24
into
U17
for
blood
data
for
request
via
test
U14
U7
mode
bus
pressure
calculationsaflag
and
the
pressure
PCB.
jumpers
U7
The
halt
status
indicating
data
is
then
This
bleed
detects
RAM
the
down
U9.
U22.
two
microprocessors.
printer
inputs
J7
resets
mode
(BS)
that
from
taken
sequence
cycle
the
flag
Data
When
and
are
and
tri-stated,
pulse
and
dedicated
J8.
transfer
U14
and
is
signals
U14
is
the
out
of
is
has
occurred.
is
set
and
loads
data
for
output
places
detected
via
SENl
not
using
A/D
converter
halt
repeated
and
for
in
the
they
to
test
mode
shared
address
the
via
Section 1
Description
it
in
halt
by
U7
(U15).
address
is
and
approximately
When
U14
RAM
processed
setup
isolate
Display
the
system
purposes
mode
through
When
and
stored
begins
completes
U24.
data
are
the
address
PFC.
connec
and
by
bus
the
data
in
blood
every
System
from
per
U14
can
be
1-37.
1-38.
DISPLAY
TheLS200
information,
passed
PFC
Display
to
this
ASSEMBLY
drive
board
(802583).
board
the
ConnectorJ3conducts
Interface
5-6).
Data
PCB)
U8
DIG
Display.
loads
contain
LE
through
high.
latch
on
battery
constant
through
approximately
inverter
dischargedbyUll
is
.2
increases,
threshold
Board
data
segment
signal
latches
inverter
This
U9.
signalisinvertedbyU10A
The
voltage.
brightness,
R52
and
3.3
U10A.
to
.7ms
the
voltage
and
J2
Once
into
every
the
information.U9receives
U10B.
durationoftheU9enabling
Ql
charges
volts,
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and
dependingonbattery
current
of
3.3
has40displays,
displays,
through
the
clock
is
1ms
five
data
intoU9and
When
and
connector
set
the
power
the
System
latchesU5through
Ull
is
circuitrytolatch
adjust
inputs
ON
the
Jl
from
switch
Control
also
triggers
triggered,
which
pulseisinversely
This
inverse
dependency
regardlessofbattery
the
the
capacitor
Ull,
next
cycle
pin
DIG
repeats
3,
LE
C5.
goes
pulse
itself.
voltage.
through
volts
R52
sooner.
is
increased
on-time.
from
the
the
connection
Processor
U9.
the
digit
its
enables
keeps
voltage.
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low,
goes
the
disablingU9through
low,
The
As
the
display
Information
Interface
front
paneltothe
(see
(U7,
board.
Fiqure
System
LatchesU5through
select
the
one
output
the
data
shot,
Ull,
(pin3)goes
outputs
dependent
the
displaysata
The
battery,
voltageonC5
capacitorC5is
net
on
time
for
the
and
battery
C5
voltage
reaches
is
The
of
is
U9
its
WhenU9is
from
U9
will
collector
U18.
and
current
When
U4,
through
sinks.
enabled
be
current
they turn
the
Whether
the
high
sinks,
on,
light
displays
at
any
time.
the
quad
current
emitting
current
1-15
turn
on.
Each
Darlington
flows
flows
from
diodes
through
Only
line
and
©OCT.
one
of
is
connectedto4
switch
display
into
the
segmentsona
1985
the7output
devices
drivers
the
U12
Ul, U2,
four
through
selected
display
PHYSIO-CONTROL
lines
open
U3
Page 28
is
determinedbythe
and
U8.
turnsona
time,
turned
The
AC
when
A
high
display
it
takes7enables
on.
MAINS
the
Therefore,ittakes
displayisturned
unit
information
output
from
segment.
is
connectedtoline
that
these
Since
before
on
was
writtentolatches
buffers
allows
only4digits
all
digits
the
system
by
theVCHG
power.
7ms
currenttoflow
can
be
and
indicators
foracomplete
OUT
line
which
Section 1
Description
U5,
U6,
U7
which
^
enabledata }
have
cycle.
is
active
been
1-39.
Pneumatic
The
LS
deflation
pneumatic
pressures
more than two minutes.
Figure
consists
valve,
fittings.
drive
servo
block,
Before
is
nearly
valve
insure
residual
auto
inflate.
signaltothe
predetermined
down
begins.
System.
200
pneumatic
at
system
and
1-3
depicts
of
the
the
overpressure
The
motor.
valve
the
the
itself,
stepper
cuff
closed,
references
that
the
pressure
zero
valve
As
the
a
linear
also
to
ensure
the
patient
pump
The
linear
motor,
is
and
the
transducer
that
closes,
cuff
System
peak
assembly,inturn,
inflated,
pressureisreached,
system
rate,
implements
that
pneumatic
cuff,
switch,
the
dump
the
transducer
the
sealing
inflates,
PCB
is
responsible
and
high
system
the
and
bleed
and
valve,
the
the
auto
is
cuff
servo
pressure
dump
zero
to
zeroed
may
the
the
proportionaltothe
sensing
safeguards
cuff
pump
all
valve
the
of
pressures
in
simplified
assembly,
interconnecting
consists
assembly
auto
transducer.
valve
is
valveisopen.
atmospheric
to
atmosphere
have.
system
pressure
When
and
transducer
the
pump
for
cuff
raw
pressure
to
prevent
are
the
of
the
zero
closed,
pressure.
the
permitting
rising
is
inflation,
excessive
not
form.
linear
tubes
pump
is
comprised
valve,
the
The
open
rather
data.
sustained
The
bleed
and
the
servo
auto
This
cuff
cuff
system
servo
and
tube
the
pump
of
manifold
valve
zero
is
than
pumpisenabled,
the
cuff
inputsananalog
pressure.
disabled
When
and
bleed
The
for
the
/*^^v
to
to
the
to
the
Bleed
operatedbythe
sor,
ensurealinear
against
error
with
then
aperture
Cuff
transducer.
pressure
to
software
is sustained for more than two minutes.
down
the
signal
feedback
signals
pressureismonitoredbythe
open,
is
stepper
which
the
as
required.
switch
and
will
accomplishedbythe
stepper
motor
bleed
pulse-induced
provides
necessarytomaintain
stepper
If
pressure
interrupts
the
cuff
cause
rate.
the
motor.
opens
the
motor
rapidly
dump
the
This
pressure
System
exceeds
system
valve
Under
servo
linear
Control
the
to
increaseordecrease
overpressure
320mmHg
power.
deflates.
to
1-16
needle-type
controlofthe
valve
variations
bleed
in
controlled
rate
are
Processor
linear
open
rate..
switch
(approximately)
This
A
failsafe
in
any
©OCT.
bleed
valve,
6805
which
microproces
increments
providesareference
measured.
(U7,
The
the
as
well
The
System
microprocessor
servo
as
the
causes
event
1985
the
dump
feature
if
cuff
in
pressure
PHYSIO-CONTROL
servo
PCB)
valve
by
the
over
valve
the
is
to
Page 29
BLEED VALVE-
STEPPER
MOTOR
V
SERVO
VALVE
Section 1
Description
•OVERPRESSURE
SWITCH
FILTER
AIR
INTAKEw
I}/
.itK-7
•AUTO ZERO
VALVE
\
DIAPHRAM
PUMP
<5
5
Y
PRESSURE
TRANSDUCER
FIGURE
1-3.
PNEUMATIC
1-17
SYSTEM
DIAGRAM
©NOV.
1984
PHYSIO-CONTROL
Page 30
SECTION
OPERATION
2
f**
2-1.
2-2.
GENERAL
This
section
operation
replacement
OPTIONAL
The
following
Sales
PART
803029-00
801315-02
801099-01
802505-00
802505-01
802505-02
802505-03
802604-00
802601-01
201716-001
201716-002
201716-003
803027-00
802611-00
802450-02
802537-00
802537-01
802537-02
Representative.
NUMBER
of
the
and
testing
items
ACCESSORIES
is
items
ACCESSORIES
ACCESSORIES
ASSEMBLY, Pole Mount
ASSEMBLY,
CUFF,
CUFF,
CUFF,
CUFF,
PAPER,LS200
PAPER,LS200
PEN,
PEN,
PEN,
PLATE,
PUBLICATION,LS200
PUBLICATION,
TUBING
TUBING
TUBING SET,
manual
of
also
may
DESCRIPTION
LS
LS
LS
contains
the
LIFESTAT
provided.
AND
REPLACEMENT
be
obtained
TABLE
AND REPLACEMENT ITEMS
BAG,
Wall
Adult
Large
Thigh
Child Inflatable
Mount
SET,
SET,
Inflatable
Adult
Inflatable
200
Printer,
200
Printer,
200
Printer,
With
LS 200
Latex,
Latex,
Latex,
information
200.
by
2-1
LS 200
Mount
A
ITEMS
contacting
Inflatable
Printer,3Rolls
Printer,1Case
Black
Black
Black
Hardware
Ink,4Pens
Ink,1Box
Ink,1Case
Operating
Service
24
Inch
72
Inch
144
Manual
Cuff
Cuff
Inch
Cuff Extension
and
list
(1
Box)
(50
Boxes)
Manual
Extension
Extension
procedures
of
accessories
a
Physio-Control
(1
Tube)
(50
Tubes)
(50
Boxes)
for
the
and
2-3.
CONTROLS
A.
The
are
to
the
B.
Figure
this
table
function.
AND
INDICATORS
controls
shown
a
in
corresponding
nomenclature
2-3
provides
figure
lists
is
the
and indicators on the Front Panel and Hidden Panel
Figures
keyed
nomenclature
2-1
and
2-2.
listing
and
the
briefly
rear
in
Table
describe
panel
toacorresponding
of
2-1
view
each
Each
2-2
item
item
or
the
of
the
listing
and
©NOV.
is
keyed
2-3.
These
function
LS
200.
in
briefly
1984
on
the
figure
tables
of
each
Each
Table
describes
2-4.
give
item.
item
The
its
PHYSIO-CONTROL
on
Page 31
Section
Operation
2
FIGURE
2-1.
LS
200
FRONT
PANEL
2-2
CONTROLS
©NOV.
AND
1984
INDICATORS
PHYSIO-CONTROL
Page 32
Section
Operation
2
FIGURE
KEY NO.
0
©
©
©
TABLE
LS 200 FRONT PANEL CONTROLS AND INDICATORS
CONTROL
INDICATOR
ON
MODE SELECT
OR
Rocker
Membrane switch for selection of manual or
automatic
sustained
3,
cycles,
START/OVERRIDE
Membrane
cuff
tiates
time
gress).
2-2
FUNCTION
switch
for
inflation
pressure
5,
10,
15,
and
manual
switch
inflation.
inflation
(unlessacycle
Pressing
inflationtocontinueupto
switch is released.
STOP/DEFLATE
Membrane
and
deflate
10
seconds.
resets
display.
switch
cycle
cuff
In
timer
AUTO
main
and 30 minute
modes.
on
power
switch
control.
Repeated
selects
successively.
to start and/or
Momentary
cycle
in
is
and
holding
pressure
any
mode
already
switch
300mmHgoruntil
to
to
abort
less
mode,
and
inflation
than
blanks
lOmmHg
STOP/DEFLATE
elapsed
or
1,
2,
automatic
sustain
ini
at
any
in
pro
causes
cycle
within
also
time
©
©
©
©
ALARM
LOW
HIGH
ALARM
SELECT
LIMIT
LIMIT
SILENCE
Membrane
on
and
monitored
Repeated
selects
systolic/low
sively.
Dual membrane switch to set low alarm limit.
Repeated
of
switch
ed
pressure
limit.
of
5mmHg.
Dual
limit.
left
or
sustained
switch
in
increments
Membrane switch to silence alarm.
switch
off
and
(systolic,
or
systolic,
or
lowers
Range
membrane
Repeated
side
of
raises
to
turn
to
select
sustained
mean,
diastolic,
sustained
limit;
on
right
is
30 to
switch
or
switch
pressure
limit.
of
5mmHg.
High
and
the
diastolic,
pressure
diastolic,
and
pressure
repeated
side
sustained
lowers
Range
of
160mmHg
to
set
limit;
on
is
right
Low
BP
parameter
or
on
off,
on
left
or
sustain
switch
in
increments
high
pressure
repeated
side
50
to
alarms
mean).
switch
high
succes
side
raises
alarm
on
of
260mmHg
2-3
©NOV.
1984
PHYSIO-CONTROL
Page 33
Section
Operation
2
FIGURE
KEY NO.
©
©
©
©
©
©
LS 200 FRONT
CONTROL
INDICATOR
PRINTER
PAPER
ARTIFACT
LOW BATTERY
PRINTER ON
SYS
MEAN
DIAS
OR
ADVANCE
TABLE
PANEL
2-2
(Continued)
CONTROLS
Membrane
off.
Membrane
LED
to
contains
by
audio
LED
LED
LED
monitored.
taneously
systolic
BP.
to
to
indicate
to
indicate
AND INDICATORS
FUNCTION
switch
switch
indicate
excessive
tone.
indicate
illuminated,
BP,
for
turning
to
advance
that
pressure
artifact.
low
when
BP
When SYS and DIAS are
low
alarm
battery
printerison.
parameter
high
monitors
printer
printer
measurement
Accompanied
condition.
being
alarm
monitors
diastolic
on
and
paper.
alarm-
simul
©
©
©
©
©
©
©
PULSE
MEAN
HIGH
Alarm
LOW
Alarm
CUFF
SYSTOLIC
DIASTOLIC
ELAPSED TIME
Digital
completion
down
pulse
Digital
pressureatcompletionofcycle.
Digital
alarm
Used
Digital
blood
Digital
pressure
Digital
since
minutes
first
display
of
an
LED
in
is
detected.
display
display
limitsasset
for
test
purposes
display
pressure
display
at
completion
display
beginning
and
seconds.
inflation
to
indicate
cycle.
this
display
to
to
indicate
by
to
at
to
indicate
to
of
last
cycle
pulse
Also
flashesaseach
indicate
ALARM
only.
SELECT.
indicate
completion
diastolic
of
cycle.
indicate
inflation
Displays
after
power
during
mean
high
systolic
of
time
cycle
00:00
up.
rate
at
bleed
blood
and
low
cycle.
blood
elapsed
in
until
2-4
Change JUL. 1985
©NOV.
1984
PHYSIO-CONTROL
Page 34
Section
Operation
2
FIGURE
KEY NO.
®
®
©
TABLE
LS 200 FRONT PANEL
CONTROL
INDICATOR
Mode
Display
ABORT
AC
Mains
OR
Select
2-2
(Continued)
CONTROLS
LED
or
automatic
LED
been
error
Accompanied
LED to
ac
to
1,
2,
to
aborted
rejection,
indicate
1ine
power.
indicate
r.
AND
INDICATORS
FUNCTION
indicate
3, 5,
cycle.
by
by
audio
that
manual
10, 15,
that
inflation
failsafe
or
pressing
tone.
LS 200 is
inflation
or 30
circuit,
STOP/DEFLATE.
connected
cycle
minute
cycle
repeated
has
to
FIGURE
2-2.
4
1^7)
IPtI
0 \2)
LS 200 HIDDEN PANEL CONTROLS
2-5
©NOV.
B
1984 PHYSIO-CONTROL
Page 35
Section
Operation
2
FIGURE
KEY NO.
©
©
©
©
CONTROL
INDICATOR
SELECT
SET
Printer
Release
(Pen
Storage)
LS
OR
Door
Button
200
TABLE
HIDDEN
Membrane switch to select real time clock
parameter
pressure
year,
Membrane switch to set real time clock.
Repeated
real
SELECT.
Pushbutton
Space
2-3
PANEL
hour,
time
for
CONTROLS
FUNCTION
to
be
on
switch
and
or
sustained
clock
to
release
storing
set.
minute,
parameter
extra
Repeated
selects
or
month,
successively.
pressure
selected
Printer
door.
Printer
sustained
increments
pens.
day,
by
'
FIGURE
2-3.
LS
200
REAR PANEL CONTROLS
2-6
©NOV.
1984
~
PHYSIO-CONTROL
Page 36
Section
Operation
2
FIGURE
KEY NO.
©
©
©
©
©
©
LS 200 REAR PANEL CONTROLS
CONTROL OR
INDICATOR
ALARM VOL
SYSTEMS
Mains Power Switch
Voltage
Swi tch
AC Mains Fuses
AC
Power
Connector
Select
Mains
Input
TABLE
Turn
counterclockwise
I/O
purposes.
On/Off
Configures
Provide
Receptacle
2-4
FUNCTION
clockwise
connector
switch
input
overload
for
for
to
increase
to
decrease
for
remote
AC
Mains
for
115
protection.
power
cord.
control
or
230
alarm
alarm
Vac.
volume,
volume.
and
test
2-4.
SUGGESTED
To
assure
the
fully
A
suggested
for
the
provided
of
the
following
PERFORMANCE
accurate
assembled
Performance
LS
200
for
accordingly.
1.
PHYSICAL
2.
Inspect
tion
dents,
fitting,
leaks,
positive
AC
MAINS
Verify
nected
indicator
all
and
condition
or
that
to ac
blood
LS
200
are
included
the
customer's
tests
(See
INSPECTION.
is
Figure
controls,
proper
operation.
of
pressure
cuff
obstructions.
latch
(BATTERY
function.
CHARGE)
the
AC
power.
is
extinguished.
VERIFICATION
pressure
should
measurements,
be
Verification
in this section.
use
and
completed,
2-7.)
indicators,
Check
labels,
MAINS
Verify
loose
and
tubing
Check
INDICATOR.
LED
is
that
PROCEDURES
performed
Procedure
may
be
copied
the
Check
and
displays
surfaces
or
missing
for
printer
illuminated
when
door
mains
the
at
three
(PVP)
The
when
Off
List
for
fluid
hardware.
physical
for
when
power
following
month
and
Check
Check
Off
needed.
should
for
physical
spills,
condition,
ease
of
the
unit
is
disconnected,
tests
on
intervals.
Off
List
List
As
be
is
each
marked
condi
cracks,
Check
Luer
obvious
operation,
is
con
POWER
A.
UP
INITIALIZATION
Set
the
displays
showing
main
"888"s.
power
are
CHECK.
switch
illuminated,
2-7
to
the
with
ON
position.
the
©OCT.
Verify
seven-segment
1985 PHYSIO-CONTROL
that
displays
all
Page 37
B.
Verify
seconds
C.
Insure
segment
valve
D.
Verify
displayisilluminated
4.
TEST1(DISPLAY
A.
Simultaneously
SELECT.
window,
numbers0through
when
B.
Depress
SILENCE to disable alarm.
that
and
that
displays
closing
that
Verify
and
odd
numbers
ALARM
self
that
upon
has
the
FUNCTION).
test
the
printer
completionofthis
are
stopped.
legend
depress
that
that
the
9,
are
displayed.
SELECT,
sequence
lasts
drawsasquare.
blanked,
MANUAL
(except
and
is
for
that
backlit,
AC
START/OVERRIDE,
"tSt1"appears
seven-segment
with
and
all
verify
light
that
for
approximately
self
test
the
period
sound
and
MAINS).
STOP/DEFLATE,
brieflyinthe
displays
bar
displays
alarm
sounds.
Section
Operation
all
seven-
of
the
that
no
and
alarm
cycle
through
illuminated
Press
2
10
servo
other
ALARM
limit
ALARM
5.
TEST2(ANALOG
A.
Using
mercury
paragraphs
B.
Depress
alarm
C.
Depress
SYSTOLIC
215±2mmHg
6.
TEST3(SYSTEM
A.
Press
alarm
threshold
B.
Depress
system
elapsed
pressure
CALIBRATION).
a
"T"
tubing
manometer
3-2
and
MODE
limit
START/OVERRIDE.
MODE
limit
START/OVERRIDE.
to
timer
SELECT,
display
display
at
its
LEAKAGE).
SELECT,
window.
value
250mmHg,
still
exceeds
reads
of
begins.
connector,
and
a
standard
3-3).
window.
lowest
and
Verify
250mmHg.
after
Insure
and
The
215.
point.
verify
Insure
210mmHg.
verify
inflation
The
that
that
Verify
which
connect
volume
that
all
that
mercury
"tSt
the
diastolic
that
the
pump
that
after
the
LIFESTAT
aspirator
fittings
"tSt
pump
2"
will
manometer
3"
is
the
pump
shuts
30
bottle
are
appears
run
should
displayed
window
inflates
down,
seconds
200
to
(see
airtight.
in
the
until
displays
in
and
system
the
read
the
the
the
a
a
C.
Press
the
D.
Press
achieved,
illuminated,
(note
bleed
STOP/DEFLATE.
system.
START/OVERRIDE
depress
and
increased
valve
and
The
again.
HIGH
that
bleed
extinguish
LIMIT
the
rate).
2-8
dump
CUFF
valve
When
up.
servo
Press
display.
should
threshold
Verify
bleed
valve
HIGH
©OCT.
open,
pressure
that
LIMIT
1985
depressurizing
is
again
CUFF
opens
PHYSIO-CONTROL
down
legend
partially
to
close
is
Page 38
E.
Repeat
the
pressure
so,
the
7.
TEST4(OVERPRESSURE
A.
B.
Press
alarm
except
Press
MODE
limit
for
START/OVERRIDE.
350mmHg.
and
330mmHg
C.
8.
Cycle
connect
the
INFLATION
LIFESTAT
LIFESTAT
CYCLE
inflation
cycle
displayedisabove
systolic
SELECT.
display
DIASTOLIC,
Verify
on
test
200
TEST.
display
SWITCH).
Insure
window.
which
that
the
200
the
mercury
power
apparatus,
Luer
fitting.
The
and
test.
flashes
Verify
the
high
that
Verify
and
"tSt
that
that
alarm
an
4"
all
displaysathreshold
system should
overpressure
manometer.
off
and
on
connect
attempt
switch
to
clear
standard
the
limit
alarm
is
displayed
displays
trips
systolic
and
tone
is
of
to
inflate
between
test
pressure
mode.
Section
Operation
blood
that,
heard.
in
the
read
000,
350mmHg.
320
Dis
cuff
2
if
to
to
9.
A.
Place
artery.
itself
B.
Press
approximately
C.
Verify
and
byabeep.
D.
Verify
pressure,
If
repeated,
rate.
ALARM
A.
B.
CHECK.
Press
Verify
high
the
less
displayed.
that
an
alarm
high
than
cuff
(For
and
START.
that
a
that
and
error
with
ALARM
also
alarm
snugly
convenience,
slipped
Verify
180mmHg
cuff
light
systolic
pulse
message
higher
SELECT.
that
limit.
limit
the
systolic
around
onto
that
as
bleeds
flashes
pressure,
values
is
cuff
Verify
a
HIGH
Press
decreases
arm
with
the
the
arm
likeasleeve.)
the
pressure
cuff
inflates.
down
(descending
periodically
diastolic
appear
generated,
inflation
that
display
and
hold
to
blood
pressure
cuff
in
the
of
HIGH
a
the
mark
may
display
pressureisdisplayed)
under
pressure,
their
verify
threshold
SYS
260
value
respective
legend
appears.
LIMIT
approxiamtely
determination
over
be
fastened
rises
PULSE,
that
and
down
the
brachial
rapidly
accompanied
mean
the
is
arterial
displays.
cycle
lower
illuminated.
This
switch
is
currently
around
to
is
bleed
the
until
20mmHg
C.
Repeat
pressure
so,
the
the
inflation
displayed
systolic
cycle
is
above
display
2-9
test.
the
flashes
Verify
high
and
©OCT.
that the
alarm
an
alarm
Change
limit
JUL.
1985
systolic
and
tone
1985
PHYSIO-CONTROL
that,
is
blood
heard.
if
Page 39
D.
Press
flashing
E.
Press
above
pressure
10. AUTO MODE CHECK.
A.
Press
ALARM
display
and
hold
the
display
MODE
backlitonAUTO
produce
tively.
B.
Set
cuff
initial
C.
Verify
inflation
backlighting
automatic
inflation
valueof0
that
cycle
SILENCE.
persists.
HIGH
LIMITupswitch
systolic
stops
SELECT
cycleat2
when
and
scale.
begins,
and
elapsed
begins
Verify
pressure
that
displayed.
flashing.
verify
that
Successive
behind2,3, 5,
and
repeat
verify
begins
time
again
that
incrementing.
reaches
automatically.
alarm
until
pressesofMODE
inflation
tone
high
Verify
MANUAL
10, 15,
ELAPSED
is
alarm
goes
and
cycle
TIME
silenced,
limit
that
off
and
SELECT
30,
test.
displays
approximately2minutes,
Section
Operation
but
rises
systolic
1
is
should
respec
When
an
2
/m%
11. PRINTER CHECK.
A.
Press
B.
Press
C.
Return
D.
Repeat
annotates
2-4.
of 24
indicating
PAPER
PRINTER.
MODE
the
Note:
hour
\—
/
ADVANCE.
SELECT
the
If
mode,
AM or
I
1
1
/
Verify
to MANUAL.
inflation
blood
LS
200
an
PM.
NAME
27-AUG-84
10:57
SYSTOLIC
MEAN
DIASTOLIC
Verify
that
cycle
pressure/pulse
is
"A"
/I.D.
that
PRINTER
test.
operated
or a
"P"
printer
in
99
75
67
ON
is
Verify
values
12
will
-A
paper
illuminated.
hour
appear
advances.
that
as
shown
clock
after
\
I
1
/
/
the
in
mode
printer
Figure
instead
the
time
FIGURE
2-4.
PULSE
PRINTER ANNOTATION - MANUAL MODE
2-10
50
©OCT.
1985 PHYSIO-CONTROL
Page 40
E.
Press
Repeat
tates
\
1
NAME
27-AUG-84
1
REMARKS:
/
1
MODE
SELECT
inflation
the
blood
/I.D.
< > =
* =
A =
ALARM
ARTIFACT
INTERUAL
to
select
cycle
test,
pressure/pulse
CHG
a
and
values
TIME
SYS
HEAN
DIAS
PULSE
one
minute
insure
as
10:26
108
84
68
that
shown
50
automatic
the
in
-A
\
4
Section 2
Operation
cycle,
printer
Figure
anno
2-5,
F.
FIGURE
The
second
the
NAME
27-AUG-84
REMARKS
2-5.
inflation
PRINTER ANNOTATION - AUTOMATIC MODE
cycle
should
determinationiscomplete,
first
/I.D.
:
and
second
determinations.
TIME
SYS
repeat
verify
8:14
119
automatically.
See
m n
< > =
* =
A =
\ "
FIGURE2-6.
ALARM
ARTIFACT
INTERUAL
PRINTER
CHG
PULSE
55
ANNOTATION-AUTOMATIC
that
Figure
8:16
MODE,
the
printer
2-6.
i
\
\
56
\
TRENDED
When
the
trends
2-11
©NOV.
1984
PHYSIO-CONTROL
Page 41
DATE
Section
Operation
2
1.
2.
3.
4.
5.
6.
FIGURE
PHYSICAL
AC
MAINS
POWERUPINITIALIZATION
TEST1(DISPLAY
A.
Displays
odd
TEST2(ANALOG
A.
SYSTOLIC
TEST3(SYSTEM
A.
LOW
B.
System
pressure
C.
STOP/DEFLATE:
D.
HIGH
2-7.
INSPECTION
INDICATOR
FUNCTION)
cycle
numbers
CALIBRATION)
display
LEAKAGE)
LIMIT
switches
inflates
still
LIMIT
up:
LS
200
CHECK
through
reads
toggle
to
250mmHg,
exceeds
System
CUFF
PERFORMANCE
CHECK
0-9,
215mmHg
210mmHg
depressurizes
illuminates,
partially
E.
HIGH
valve
LIMIT
closed
down:
CUFF
display
VERIFICATION
OFF
LIST
bar
LEDs
threshold
after
30
bleed
extinguished,
illuminated
from
250
to
seconds
valve
cuff
bleed
PROCEDURE
on
150mmHg
opens
v '
s*%
7.
8. INFLATION CYCLE
9.
TEST4(OVERPRESSURE
A.
DIASTOLIC
B.
Overpressure
on
manometer
A.
System
B.
Descending
tone
C.
Parameters
ALARM
A.
HIGH
alarm
B.
ALARM
C.
HIGH
inflatesto180mmHg
CHECK
LIMIT
tone
SILENCE
LIMIT
SWITCH)
display
switch
TEST
pressure
displayed
switch
sounds
switch
up
causes
reads
functional:
when
350mmHg
trips
display,
at
limit
operational
display
2-12
320
to
330mmHg
pulse
indicator,
display
flashes
violated
flashingtocease
©OCT.
audible
.
and
. . .
1985 PHYSIO-CONTROL
Page 42
LS 200 PERFORMANCE VERIFICATION PROCEDURE
Section 2
Operation
10.
11.
AUTO
A.
B.
C.
PRINTER
A.
B.
C.
D.
E.
MODE
Elapsed
PAPER
PRINTER
Manual
Auto
Trending
MODE
Inflation
CHECK
SELECT
time
CHECK
ADVANCE
ON
mode
mode
CHECK
switch
timer
cycle
switch
switch
printer
printer
OFF
LIST
operational
operational
begins
automatically
operational
operational,
annotation
annotation
(Continued)
after2minutes
illuminates
display
,
,
,
(f^
^\
2-13
©OCT.
1985 PHYSIO-CONTROL
Page 43
Section
Operation
2
2-5.
OPERATOR
The
following
trouble-free
operator and technician.
2-6. Batteries.
The
LS
200
life
expectancyoflead-acid
but
the
primary
Optimum
chargedatnormal
temperatures
Batteries
fully
them.
insure
is
possible,
storage
battery
DO NOT
WILL CAUSE
TO AC POWER WHEN NOT IN
charged
When
that
also
and
MAINTENANCE
routine
maintenance
operationoftheLS200
batteries
factors
performance
greater
DISCHARGE
DAMAGE.
will
recommended
insure
state.
the
the
that
also
LS
power
ambient
are
are
room
temperatures.
than
40°C
THE
TURN INSTRUMENT POWER OFF AND CONNECT
perform
Completely
200
is
switchisoff.
for
that
the
temperaturesdonot
depleted
temperature
BATTERIES
USE.
not
long
batteries
recommendations
and
shouldbeobservedbyboth
electrolyte
batteriesisdependent
and
will
occur
when
When
may
adversely
CAUTION
COMPLETELY.
best
when
kept
discharging
in
use,
periods
Use
are
connect
of
fully
of
sealed
use.
the
unit
unit
affect
as
much
the
batteries
the
the
connectiontoac
storage.
charged
exceed
upon
is
battery
TO DO SO
25°C.
will
help
lead-acid.
many
is
variables,
operated
charging,
life.
as
possibleinthe
will
ac
power
If
when
cord
this
placed
insure
The
and
ambient
damage
and
power
is
not
in
2-7.
2-8.
2-9.
Cuff
Cuff
damaged
worn
corrected,
result
Cuff
After
washed.
dry.
Care and
Avoid
might
Inflation
inflation
or
defective
in
Cleaning.
removing
dropping
damage
exposure
Air
circulation
clothing,
The
instrument
damp
sponge
fittings,
Systems.
will
repeated
Make
Cleaning.
to
or
make
the
sure
instrument
electronic
water
vents
other
should
or
towel
systems
leaking
should
it
error
latex
the
and
spilled
in
devices
to
should
bladder,
be
repaired
impossible
signals.
bladder,
cuff
is
thoroughly
or
exposing
components.
fluids.
instrument
when
be
cleaned
clean.
be
in
checked
or
or
to
the
to
It
should
use
or
with
periodically
leaking
replaced.
obtain
cuff
extremes
should
a
accurate
rinsed
not
plugged
mild
tubing.
These
may
be
and
then
of
also
be
obstructed
into
soap
defects,
results
machine
heat
be
AC
and
for
worn
Parts
allowed
protected
power.
water.
or
that
and
or
cold
by
or
are
if
not
may
hand
to
air
which
from
linen,
Use
a
/*m%
2-14
©OCT.
1985
PHYSIO-CONTROL
Page 44
DO
NOT
NOT
US£
IMMERSE
ANY
PART
OF
ALCOHOLORKETONES
CAUTION
THIS
(MEK,
INSTRUMENTINWATER.
ACETONE,
ETC.)TOCLEAN.
DO
Section
Operation
2
2-10.
2-11. Pen Installation Procedure.
2-12.
Pen
A.
B.
A.
B.
C.
Paper
A.
B.
C.
Removal
Turn
Push
the
carriage.
Turn
Place
into
Feed
closed.
Loading
Turn
Remove
Guide
left
hand.
Procedure.
off
power
the
pen
off
power
pen
point
pen
retention
leading
Procedure.
off
power
spent
the
paper
hand
The
while
paper
and
open
ejector
and
open
into
fingers.
edge
paper
and
of
open
roll
(withatrimmed
turning
should
printer
door.
levertothe
printer
hole
paper
printer
tube.
in
roll
door.
pen
door.
leading
paper
unrollina
drive
left
and
return
through
edge)
roller
clockwise
the
pen
spring
door
then
exit
into
clockwise
direction.
will
fall
push
slit
as
printer
with
pen
door
with
the
out
body
the
right
of
is
df^\
D.
E.
Place
Feed
roll
on
leading
paper
edge
spindle.
through
slotindoor
before
closing
door.
2-15
©
OCT.
1985
PHYSI0-C0WTR0L
Page 45
Section 2
Operation
2-13.
Preparation
It
is
recommended
LS
200besaved
for
StorageorShipment.
that
for
the
later
useinstorageorshipment.
original
shipping
box
and
packing
for
S^^k
the
FIGURE
2-8.
PREPARATION
2-16
FOR
STORAGEORSHIPMENT
©OCT.
1985 PHYSIO-CONTROL
Page 46
TESTING
SECTION
AND
TROUBLESHOOTING
3
3-1.
3-2.
GENERAL
This
system-level
faulty
and
shooting
test
means
TEST
Test
LIFESTAT
available
EQUIVALENT
section
circuits
Calibration,
Functional
procedures
to
specific
of
SOME PCB ASSEMBLIES IN LIFESTAT
SENSITIVE
SPECIAL
EQUIPMENT
equipment
will
test
guide
and
in
the
Troubleshooting
Testing
for
Guide
and
Calibration
the
major
references
circuits
troubleshooting
DEVICES
HANDLING
A
PROCEDURES.
suitable
200
are
listed
test
SPECIFICATIONS
instruments
the
user
calibration
LIFESTAT
circuits
malfunctions
or
components.
the
digital
CAUTION
(SSDs).
for
in
Table
are
MAY
inasequential
procedures
200.
Guide
provide
in
the
discovered
circuits.
REFERTOSECTION5AND
maintenance
3-1.
recommended,
BE
USED.
to
Included
and
complete
LIFESTAT
Signature
200
CONTAIN STATIC
and
Although
OTHER
fashion
the
identification
are
Functional
Signature
test
and
200.
during
the
Analysis
calibration
specific,
TEST
EQUIPMENT
from
routine,
Testing
Analysis.
calibration
The
Trouble
functional
provides
USE
of
commercially
WITH
of
a
the
NOMENCLATURE
Oscilloscope
Digital
Frequency
Mercury
Signature
Aspirator
(PCC
Multimeter
Counter
Manometer
Analyzer
bottle
#50973-02)
TABLE
TEST
CHARACTERISTICS
100 MHz Dual
3
1/2
Accuracy:
Scale on dcV and resis
tance
reading
340
1/2
or
1900
3-1
EQUIPMENT
Digit
0.5%
ranges,
on
acV.
mmHg
minimum
gallon
ml
Trace
of
1%
of
full
MANUFACTURER
Hewlett
Fluke
Fluke
Hewlett
Cole
Co.
8000A
1900A
Parmer
Catalog
Packard
Packard
Instrument
TJ6080-20
1741A
5006A
3-1
©OCT.
1985
PHYSIO-CONTROL
Page 47
Section
Testing
3
and
Troubleshooting
3-3.
TEST
The
SET-UP
proceduresinthis
section
configuration,asshowninFigure
are
indicated.Todisassemble
graph
MANOMETER
4-5.
require
3-1.
the
unittothis
that
The
the
test
unit
be
equipment
level,
refertopara
SERVO
VALVE
in
the
test
connections
FIGURE
SYSTEM
3-1.
R58
PCB
TEST CONFIGURATION
3-2
©NOV. 1984
"^^v
PHYSIO-CONTROL
Page 48
Section
Testing
Troubleshooting
3
and
(**
3-4.
3-5.
FUNCTIONAL
These
cedure
tenance
to
remedied
Power Supply
A.
B.
C.
paragraphs
for
pass
WHEN
MISALIGNED CONNECTORS MAY CAUSE EXTENSIVE DAMAGE TO ALL
PCBs.
Disconnect
Disconnect
Filter
Figure
Reconnect
TEST
the
or
as
a
any
of
by
calibration,
REJOINING
Tests.
power
harnesses
Capacitor
5-2.
power
AND
CAUBRATION
provideacomplete
LS
200
and
may
be
first-level
the
tests
CONNECTORS,
cord.
(Item
cord.
diagnostic
in
this
proceed
CAUTION
from
15,
Jl
functional
performed
procedure
to
paragraph
OBSERVE
and
Figure
test
as
procedure.
and
3-17
CORRECT
J3,
Charger
5-1)
is
and
routine
the
or
wired
calibration
periodic
If
the
problem
3-18.
POLARITY.
PCB.
Verify
correctly.
unit
cannot
pro
main
fails
be
that
See
D.
Verify
Adjust
E.
Verify
F.
Using
drive
Charger
of Q3 or at
55±5kHz
G.
Verify
voltmeter
H.
Observing
harness
I.
Verify
increases
J.
Insure
Charger
K.
Turn
TP8(+)
that
R6,
that
TP8
to
that
to J3.
that
that
PCB
on
does
dc
Battery
dc
for
Ql
and
bare
boards
the
(pulse
voltage
in
place.
polarity
with
by
no
power
Harness
power
not
voltage
Charger
voltage
ground,
Q2).
only,
R2-R16
width18±
drop
(fins
battery
more
than
switch
at
switch.
exceed
across
PCB,
across
place
TP1(+)
oscilloscope
NOTE:
place
junction.
2uS).
across
on
plug
connected,
220mV.
is
off
Jl,
Battery
Verify
220mV.
TP9(+)
as
For
the
Verify
TP2(-)
go
toward
voltage
Leave
and
Charger
that
and
TP8(-)
necessary
and
TP2(-)is28±2Vdc.
probe
the
802596-02
oscilloscope
that
and
TP8(+)is7 ±
clip),
across
voltmeter
reconnect
PCB.
voltage
drop
is
(see
at
probe
waveform
reconnect
TP2(-)
in
Interface
across
+9.8±O.lVdc.
TP3
and
Figure
(switching
-03
at
obtained
2mV.
3-1).
Battery
the
base
Leave
battery
and
TP8(+)
place.
PCB/Battery
TP2(-)
is
and
L.
After
Display
Verify
the
that
unit
have
has
been
voltage
completed
blanked)
across
its
remove
TP2(-)
3-3
power
and
on
connector
TP8(+)
tests
at
is
©OCT.
(the
J3
60 ±
1985 PHYSIO-CONTROL
"888"s
on
Charger
20mV.
on
the
PCB.
Page 49
Section
Testing
Troubleshooting
3
and
NOTE
"err
"err
"err
"err
"err
"err
Any
proceeding
M.
With
TP8(-).
is 7.80V.
N.
Monitor
circuitry).
Adjust
that
be
The
following
a
memory
power
1":
2": External 6805 RAM error
3":
4": RAM or EPROM error on
5":
6":
malfunction
on
self
Internal
Cyclic
EPROM
No
communication
Pressure
on
noted
with
J3
still
Adjust
U24,
pin
Use
R63
until
slight
low
adjustment
at
7.85V
error
or
communication
tests:
(to
messages
chip)
Redundancy
between
(greater
the
functional
by
an
than
error
disconnected,
R6
on
Charger
4,
on
Interface
TP1
on
Interface
U24,
and
pin
of
high
4,
R6
at
will
error
6805
RAM
error
Check
(CRC)
6809
processors
15mmHg)incuff
message
test.
place
PCB
until
PCB
PCB
for
voltmeter
(part
transitions
on
Charger
7.75V
measured
be
displayed
occurs
error
must
Refer
voltage
of
scope
from
PCB
low
causes
across
during
of
6805
at
power
be
corrected
to
paragraph
across
across
Low
Battery
ground.
to
U24,
if
TP9(+)
test
high.
pin
TP8
before
points
Detect
Verify
and
3-19.
and
4,
to
TP9.
/^tm
>•
Verify
NOTE
IN THE
CHARGER OUTPUT VOLTAGE MUST NOT EXCEED 9.9V.
0.
First
potentiometerR6until
wait
Verify
any
P.
Turn
ReadjustR6for
output
that
If LOW BATTERY LED is left active for more than 5
minutes,
controlled shut-down. To reinitialize the unit
turn
clockwise,
FOLLOWING
adjust
until
that
front
R6
of
the
unit
panel
1
or
U24,
LOW
BATTERY
the LS 200
the
power
then
TWO
R6
so
"888,,s
shuts
controls
2
turns
9.8±0.1V
pin
off,
turn
CAUTION
STEPS,
that
the
display
off
except
clockwise
4,
is
is
illuminated
will
adjust
power
0 AND
the
LOW
LED
remains
blanks.
after
the
between
now
low
on.
10
when
execute
R63
P,
WHEN ADJUSTING
BATTERY
on.
seconds
power
and
switch.
cycle
TP9(+)
and
that
U24,
a
software
1 or 2
LED
is
Then
and
cycle
will
the
and
TP8(-).
LOW
BATTERY
pin
turns
R6,
off,
not
power
4,
is
then
ac
power
respond
switch
Verify
LED
is
high.
turn
and
to
on.
that
off.
Q.
R.
Verify
.4Vdc.
Turn
that
off LS
Charger
200.
PCB
Reconnect
output
battery
3-4
voltage
to
Charger
at
Jl,
©OCT.
pin
5,
is
10.5
PCB
at
J3.
1985 PHYSIO-CONTROL
±
Page 50
Section
Testing
3
and
Troubleshooting
•'|^s
3-6.
3-7.
Systems
Turn
pulsed
blanked.
Connector.
LS
200
24 ±
NOTE:
Test
A.
1:
Simultaneously
SELECT.
on
and
3V
p-p
Self-Test
test
that
unit
simultaneously
ALARM
ALARM
display,
software
facilitate
is
SEL.
display
Repeated
selects
During
Tests
these
diagnostic
displayed
Display
System
Verify
monitor
square
wave
Procedures.
that
diagnosis
placed
This
in
START/OVERRIDE,
causes
anda"l"
verifying
or
sustained
2,
3,
tests,
windows.
are
noted
and
Alarm
press
that
START/OVERRIDE,
"tSt
Systems
exercises
is
present
The
Connector,
LS
200
the
and
self-test
that
"tSt"
to
the
to
appear
unit
pressure
4,
and5successively.
the
LED
displays
The
various
in
each
Audio.
1"
paragraph.
appears
pin
after
the
is
equipped
circuits
calibration.
mode
STOP/DEFLATE,
appear
is
on
by
in
in
the
in
Test1mode.
MODE
SELECT
LOW
are
parameters
STOP/DEFLATE,
in
the
alarm
2.
Verify
"888"s
with
in
ways
The
pressing
and
the
HIGH
ALARM
then
used
being
limit
display
as
and
display.
that
ALARM
a
has
3-8.
B.
C.
D.
Test
A.
B.
Verify
Verify
AC MAINS
Press
turned
control.
Press
2:
Press
that
the
on.
ALARM
A/D Converter.
the
display.
SYSTOLIC
000
DIASTOLIC
XXX
Adjust
.05Vdc
zero the
at
that
which
ALARM
MODE
The
R58
TP12.
system.
all
7-segment
all
bar
remains on.
SELECT
Verify
SILENCE
SELECT
red
MEAN
OXX
PULSE
OXX
System
TP16 on
that
to
LED
PCB
LEDs
LEDs
are
button
volume
shut
switch
displays
(An
"X"
value
(see
System
count
alternately
and
is
not
off
alarm.
until
should
indicates
from0to
Figure
PCB
from
verify
adjustable
"tSt
appear
any
9.)
3-1)
is
ground.
0
turned
that
2"
appears
as
numeric
for
to
9
on
the
audible
from
follows:
a
reading
Press
and
then
and
off
alarm
the
rear
in
alarm
of
STOP to auto
blank.
except
panel
limit
-1.00
is
±
C.
Connectamanometer
3-1)
the manometer. Press START switch.
to
the
front
and
panel
a
Luer
3-5
1/2
fitting
gallon
aspirator
as
shown
©OCT.
bottle
in
Figure
1985 PHYSIO-CONTROL
(see
3-1.
Table
Zero
Page 51
D.
Verify
reads
display
E.
Adjust
lowest
F.
Press
adjustment.
G.
Press
the
that
the
approximately
drops
R90
point.
STOP
STOP.
following
below
System
and
Allow
readings:
pump
215
215.
PCB
repeat
the
pressurizes
and
that
pump
so
that
steps
system
the
C,
D,
pressure
the
system
is
turned
manometer
andEuntil
to
drop
until
on
reads
R90
to
Section
Testing
Troubleshooting
SYSTOLIC
briefly
215mmHg
needs
zero,
then
display
each
no
3
and
time
at
its
further
verify
SYSTOLIC
DIASTOLIC
channel).
MEAN
PULSE
H.
Press
verify
I.
Press
Verify
within1second
J.
Press
and
display
display
DIASTOLIC
seconds)
display
display
START
that
HIGH
that
HIGH
each
reads
reads
reads
again.
PULSE
LIMIT
DIASTOLIC
LIMIT
display
up
each
down
reading
time
000
(raw
cuff
reads
040-050
080-100
the
150
±25,
(true
(twice
Wait
time
until
reads
(right
display
the
(left
should
409.
side).
reading
pump
side).
be
pumpisactivated.
pressure
and
is
cuff
pressure).
true
215mmHg
The
is
activated.
The
shown
SET SCREW
with
stable
cuff
pressure).
(manometer)
CUFF
returns
CUFF
LED
to
LED
to
stabilize
offset).
within
is
should
its
static
should
± 2
(pulse
reached
turn
value
turn
(within
and
on.
off
3
FIGURE
3-2.
LINEAR
3-6
BLEED
SERVO
VALVE
©OCT.
1985
PHYSIO-CONTROL
Page 52
Section 3
Testing
Troubleshooting
and
\
3-9.
Test3:Static
NOTE: For
This
filter
A.
Press
display.
Verify
set
Figure
B.
Press
(shown
then activate.
Verify
display
the
screw
START.
Leakage.
some
position
assembly
also that if the
tioning
service.
MODE
that
3-2.
in
MEAN
that
is
servo
should
greater
of
the
of
the
is
capacitor.
it
must
SELECT
bleed
be
The
pump
display)
after
30
than
following
servo
located
See
Servo
be
returned
switch
valve
in
contact
should
and
stop.
seconds,
210.
tests,
valve
behind
Figures
Valve
until
is
"tSt
closed
with
pressurize
The
the
the
open
must
Assembly
to
be
the
handle-mounted
3-1
and
the
3"
completely.
the
small
system
ELAPSED
pressure
or
closed
determined.
3-2.
is
factory
appears
TIME
Note
malfunc
in
The
gear
to
display
reading
for
alarm
large
wheel.
250
in
limit
gear
See
±
2mmHg
should
SYSTOLIC
C.
Press
(right
Verify
that
CUFF
D.
E.
Note
valve
With
250.
display
Press
the
that
servo
failsafe
valve
equivalent
Simultaneously
pressure
F.
Press
The
DIASTOLIC
STOP.
After
side).
that
LED
servo
turns
pressing
completely
valve
Verify
is
STOP
opens
is
LOW
that
greater
and
timeout,
to
to
perform
press
dumped
LIMIT
display
the
display
valve
on.
opens
HIGH
and
CUFF
open
wait
after
than
for
1/4
160.
display
the
depressurize
this
START
at
128
down
(left
changes
LIMIT
LED
will
turn,
30
seconds
time
test,
and
± 5
seconds.
side)
from
has
initialized,
about
down
the
1/4
(left
be
turned
press
on
to
initialize.
from
start
system.
NOT
begin
stopwatch
to
selectathreshold
250
turn
START
ELAPSED
the
to
150.
press
(see
side)
off.
again
TIME,
This
of
pump
Use
ELAPSED
timing.
HIGH
Figure
will
to
test
until
a
stopwatch
TIME
LIMIT
3-2)
close
reinflate
the
servo
SYSTOLIC
verifies
the
dump
display.
Verify
of
that
150mmHg.
up
and
to
or
J^
Press
press
than
the
specified
START.
STOP
and
After
verify
pressure
that
lOmmHgonmanometer
aspirator
bottle
reaches
pressure
within30seconds.
150
(shown
rapidly
(Note:
on
MEAN
returns
valid
display),
only
to
only
volume.)
3-7 ©OCT. 1985 PHYSIO-CONTROL
less
with
Page 53
Section
Testing
Troubleshooting
3
and
3-10.
Test
A.
B.
C.
3-11.
Test
4:
Overpressure
Press
display.
read "350."
Press
and
Adjust
NOTE:
MODE
START.
the
To
dump
set
(see
switch.
Turn
Remove
return
After
trip
Verify
290.
5.
the
point
that
Switch.
SELECT
SYSTOLIC
Observing
valve
screw
adjust
paragraph
set
manometer
to
overpressure
between
at
switch
display
opens
at
top
set
screw,
Adjustments
screw
zero
between
320
trip
point
until
should
the
manometer,
between
rear
of
first
4-5).
clockwise
connection
switch
and
This
should
trip
has
330mmHg
the
"tSt
4"
read
verify
320
and
330mmHg.
overpressure
remove
is
a
be
less
to
increase
and
allow
point
been
SYSTOLIC
on
the
checks.
adjusted
display
appears
"000."
that
switch
Handle
very
than
Assembly
sensitive
1/8
trip
pressure
if
manometer,
reads
in
alarm
DIASTOLIC
the
as
turn.
point.
to
should
pump
required.
necessarytoa
press
START.
higher
^"J
limit
halts
than
3-12.
Disregard
Additional
A.
To
return
Verify
on.
B.
Press
the
MEAN
increased.
Verify
display)
C.
Press
pressure
D.
Press
Verify
display)
aspirator
Test5displays.
Pressure
LS
that
and
hold
display
that
and
the
STOP
rapidly
START
that
200
after
the
the
that
again
the
Systems
to
normal
the
START
reads
pump
stopsat290
the
overpressure
switch.
returns
and
system
within12seconds.
bottle
volume.)
Test5is
Tests.
"888"
switch.
50
and
Verify
to
zero.
release
pumps
for
operating
display
The
then
slow
+10mmHg/-15mmHg
switch
that
it.
up
to
(Note:
factory
mode,
blanks
pump
the
180
valid
use
turn
the
should
down
as
does
not
ABORT
+10mmHg/-15mmHg
only
only.
unit
MANUAL
system
run
off
LED
rapidly
pressure
(shownonthe
trip.
LED
is
on
(on
with
the
specified
then
remains
until
MEAN
and
that
MEAN
on.
is
E.
Allow
Verify
seconds.
pressure
that
the
to
decrease
pressure
the
drops
3-8
150mmHg
to
less
then
than
©OCT.
press
lOmmHg
1985 PHYSIO-CONTROL
STOP
within
switch.
30
"^I
Page 54
r
F.
G.
H.
I.
J.
K.
Press
mmHg,
from
Verify
and
then
150mmHgtolOOmmHg
that
SYSTOLIC,
that
Verify
that
Verify
to 25
Verify
again
Push
front
for
the
that
pressurizes
that
seconds.
again
show
ALARM
panel
the
hold
START
release.
after
DIASTOLIC,
ARTIFACT
the
the
time
that
dashes
SELECT
alarm
HIGH
limit.
switch
Verify
(on
the
PULSE,
LED
turns on.
LS
200
the
systemto255
required
the
pressure
and
the
switch
limit
Verify
until
that
MEAN
pressure
and
manometer
time
display)is10-17
has
MEAN
automatically
+10mmHg/-15mmHg.
to
deflate
is
bled
ARTIFACT
five
LEDs
and
times
display
that
the
in
reads
required
bled
down
displays
executes
from
down
ABORT
150
to
LEDs
succession.
30
for
the
bar
LEDs
Section
Testing
Troubleshooting
approximately
to
reduce
seconds.
to
15mmHg,
are
all
dashes
a
retry
to
lOOmmHg
15
and
that
turn
Verify
LOW
cycle
on.
limit
as
3
and
225
pressure
the
and
inflation
is
12
displays
that
and
the
260
follows:
3-13.
L.
Real
A.
B.
Push
switches
30.
alarm
Turn
real
TP10
Turn
units
ALARM
cycle
Verify
limit
Time Clock Set/Check.
off
the
time
on
System
the
LS
only):
1.
Open
the
2.
Press
functions
SYS
MEAN
DIAS
SYS and DIAS
All
Off
SELECT
the
that
from
clock
the
the
260
LS
200.
oscillator
PCB
200
on.
printer
SELECT
indicated
again.
LOW
limits
HIGH
to 50
for
door.
LIMIT
and
Adjust
frequency
Set
the
switch
next to switch.
Verify
to
that
display
down
back
if
and
to 260.
necessary
32.768kHz±5Hz
counter
real
to
time
advance
the
from
up
switches
C3
ground.
clock
through
LOW
30 to
on
at
as
LIMIT
160
cycle
System
Ul,
follows
the
up
and
and
back
the
PCB
pin
8.
(printer
date/time
to
down
to
HIGH
set
Use
3. At each function use the SET switch to set
current
window on the
4. Press the SELECT switch once more to blank the date/time
functions
date
display.
and
front
time.
panel.
3-9
This
will
appear
©OCT.
that
function to the
in
the
ELAPSED
1985 PHYSIO-CONTROL
TIME
Page 55
Section 3
«*>
•^
Testing
Troubleshooting
and
C.
5.
Placing
the
printer
jumper
"A"
or
hour clock mode.
For
an
LS
the
rear
panel
1.
BuildaClock
to the
2.
Using
the
clock
"SET"
date
and
3.
When
the
finished,
time
SYSTEMS
CONNECTOR
the
J5
to
to
2-3
position
"P"
following
200
without
systems
Set
systems
"SELECT"
function
switch
on
time.
display.
jumper
annotate
printer
connector.
Fixture
connector
switch
(month,
the
fixture
press
Jl
/
the
9
CK
10 CK MODE
(System
in
24
results
the
time
the
as
shown
as
indicated.
on
the
day,
SET
year,
set
"SELECT"
PCB)
hour
in
12
in
clock
hour
indicates
real
time
in
clock
hour,
each
switch
SET
SELECT
1-2
position
mode.
clock
AM
clock
Figure
set
minute).
function
one
Moving
annotation.
or
PM
may
3-3
and
fixture
to the
more
time
will
when
be
set
connect
select
Using
current
to
cause
the
in
each
the
blank
/^*A
J5
An
12
via
it
3-14. Printer.
Printer Self-Test,
A.
position
normal
will cause continuous
should
lines.
B.
Press
advanceaslong
C.
Press
printer
D.
Press
and
NOTE
position
draw
Verify
the
PRINTER
does
PRINTER
that
There
paragraph
FIGURE
(2,3).
a
PAPER
not
about
are
\
3-3.
Turn
(1,2).
square
that
all
ADVANCE
as
the
switch.
run.
switch
3/4"
of
additional
3-15.
1 GND
CLOCK SET FIXTURE
Set
jumper
unit
on
J10
and
immediately
Failuretoreturn
paper
and
characters
advance
then
switch
print
are
for
about2seconds.
switchispressed.
Verify
again.
unprinted
that
Verify
paper
printer
PRINTER
that
tests
on
Interface
jumper
following
its
character
legible.
No
printing
ON LED
PRINTER
is
advanced
in
the
PCB
return
to
normal
test.
The
set
Paper
should
turns
ON LED
on and
through
following
to
test
jumper
position
printer
in
three
should
occur.
that
turns
printer.
to
off
3-10
©OCT.
1985 PHYSIO-CONTROL
Page 56
Section 3
Testing
Troubleshooting
and
3-15.
Pulse,
A.
B.
Alarms
Press
HIGH
Verify
successively
Place
artery.
and
slipped
NOTE:
C.
Turn
D.
For
units
E.
Press
allow
the
PULSE
simultaneously
and
ALARM
alarm
displays
that
pressure
(For
Since
pulse
unit
pliance
the
volume
with
MODE
unit
decimal
display
Printer.
SELECT
repeated
selects
cuff
switch.
260
and
or
SYS,
snugly
sustained
MEAN,
convenience,
onto
the
arm
likeasleeve.)
a
test
and
malfunction
with
potentiometeronrear
printers,
SELECT
to
run
point
flashes
heard.
fixture
alarms,
test
to
place
through
LED
to
with
there
that
specifications.
turn
Verify
LOW
alarm
DIAS,
around
the
is
may
are
printer
unit
two
complete
the
right
each
that
arm
cuff
not
responsible
in1minute
pulse
SYS
30.
pressure
SYS/DIAS,
with
may
being
be
reasons
panel
on.
measurements.
of
least
and
is
on
the
be
fastened
used
fully
mode.
that
illuminated
ALARM
off.
"0"
over
SELECT
the
around
to
check
other
for
than
noncom
clockwise.
Press
Verify
significant
an
audible
and
that
switch
brachial
itself
START
and
that
digit
beep
in
is
Verify
lines
F.
Set ALARM SELECT mode to SYS and
to
systolic
to
reading.
the
G.
Press
Verify
displays
that
Verify
alarm
stops,
Verify
H.
Press
I.
Depress
fully
pot
also
between
set
set
diastolic
that
first
systolic
pressure
the
and
alarm
reading
alarm
printer
(Thisisdone
next
BP
measurement.)
MODE
SELECT
to
thatatcompletionofmeasurement
are
alarm
that
volume
but
that
STOP.
all
flashing
sounds.
volume
or
pitch.
that
displays
printer
Press
front
(if
potentiometeronrear
has
PRINTER
panel
counterclockwisenoaudible
fully
clockwiseanaudible
records
second
readings.
DIAS.
approximately
just
approximately20points
so
place
that
unit
obtained.
an
alarm
in
the
results
Press HIGH ALARM down
20
points
Press
condition
MANUAL
both
measured
values
violate
panel
Press
ALARM
SILENCE
continuetoflash.
bracketed
to
switches
turn
beep
the
off
and
beep
alarmed
printer.
verify
is
is
present.
that
heard,
and
lower
LOW
ALARM
higher
than
will
mode.
SYSTOLIC
alarm
has
no
and
verify
values.
with
and
draws
exist
Press
and
levels)
trend
switch
than
up
diastolic
the
switch
during
START.
DIASTOLIC
and
effectonthe
that
alarm
the
that
volume
with
pot
the
3-11
©OCT.
1985 PHYSIO-CONTROL
Page 57
Section 3
Testing
and
Troubleshooting
3-16.
3-17.
Ground
A.
B.
C.
Continuity.
Turn
Unplug
Connect
lowest
pin
is
less
NOTE
FAULT
Table
ISOLATION
3-2
bration
at
fault.
sequence
off
LS
200.
the
ac
the
scale.
on
the
ac
than
This
completes
bration.
tailed
the
Interface
references
Procedure
It
is
prior
to
Verify
line
cord.
leads
of a
Measure
input
or
jack
equal
to
Paragraphs
instructions
PCB.
key
failed
to
the
major
assumed
the
failed
DVM
the
0.1
the
that
test
that
all
Verify
together
resistance
to
chassis
ohms.
unit
3-19
for
testing
tests
assembly
the
in
displays
that
AC
MAINS
and
from
ground.
functional
through
the
in
the
or
assemblies
unit
has
question.
are
off
LED
zero
the
the
Verify
test
and
3-25
System
Functional
passed
exceptACMAINS.
is
off.
instrument
third
wire
that
cali
give
PCB
de
and
Test
most
every
likely
test
on
ground
resistance
and
in
its
Cali
to
the
/^^$k
be
TESTS
POWER
SYSTEMS CONNECTOR
TEST
SUPPLY
1
TABLE
FAULT ISOLATION
STEPS
FAILED
3-5:
D-G
I
K
L
3-6
3-7
3-2
SUSPECTED
Battery
Battery
Battery
Battery
Wire
Display
System PCB
Interface
System PCB
Display
System PCB
Interface
Door
Charger PCB
Charger
Pack
Charger
Harness
PFC
PCB
Membrane
ASSEMBLY
PCB
PCB
W4
PCB
PCB
Switch
TEST
2
3-8
3-12
System
Interface
PCB
Pump/Tubing
Servo
Valve
©OCT.
PCB
Set
Assembly
1985 PHYSIO-CONTROL
Page 58
TESTS
TABLE 3-2 (Continued)
FAULT ISOLATION
STEPS
FAILED
SUSPECTED
ASSEMBLY
Section
Testing
3
and
Troubleshooting
TEST
TEST
REAL
PRINTER
3
4
PRESSURE
TIME
PULSE,
SYSTEM
CLOCK
ALARMS
3-9
3-10
3-12
3-13
3-14
3-15:
Servo
Pump/Tubing
System
Overpressure
System
Interface
Pump/Tubing
Servo
System
Valve
PCB
PCB
Valve
PCB
Assembly
Set
Switch
PCB
Set
Assembly
Date/Time Membrane Switch
Interface
Printer
Interface
System
Printer
D
System
Interface
Display
PCB
PCB
PCB
PCB
PCB
PFC
|^V
CONTINUITY
3-16: A
E,F
B
C
Interface
PCB
System PCB
Rear
Panel
(PartofWl)
Display
Battery
Input
Battery
PFC
Charger
Connector
Charger
Potentiometer
PCB
PCB
3-13
©OCT.
1985
PHYSIO-CONTROL
Page 59
Section 3 .
Testing
and
Troubleshooting
3-18.
TROUBLESHOOTING
Table
3-3,
Functional
equipment.
all
possible
Guide
skills
is
and
providedinthis
are
provided
SYMPTOM
1.
Voltage
Charger
across
PCB,
GUIDE
Troubleshooting
Test
intended
his
and
No
attempt
causes
or
Calibration
for
only
her
manual.
as an
not
additional
LS 200 TROUBLESHOOTING GUIDE
TP1
and
28±2V.
Guide,
references
Procedure
is
made
the
to
cover
all
failureinquestion.
asasupplementtothe
use
of
the
circuit
The
component
reference
troubleshooting
TABLE
CHARGER
TP2,
PCE
3-3
TEST
1. Disconnect Transformer at
J2,
check
If
20Vac
suspect
board
is
present,
step.
failed
to
probable
possible
failure
The
technician's
descriptions
diagramsinSection
aid.
PROCEDURE
Charger
secondary
Transformer
capacitor.
PCB
is
not
proceed
tests
faults
in
in
modes
the
the
or
Troubleshooting
diagnostic
and
schematics
6
(A14)
for
and
20Vac.
present,
or
off-
If
20Vac
to
next
/^i|
2.
Voltage
Charger
tion
adjustable
3.
Waveform
not
4.
Voltage
to
specification(7±
battery
electronics
5.
No
voltage
with
6.
Unit
sequence
graph
across
PCB,
not
TP9
and
to
specifica
TP8,
(+9.8±.lVdc)ornot
via
R6.
at
TP3,
to
specification
across
Charger
TP2
(55±5kHz).
and
TP8
2mV)
and
unit's
disconnected.
across
PI disconnected.
does
as
3-5L.
not
described
other
J3-1
perform
and
power
in
PCB,
not
with
2
para
up
2.
Check
(A14).
3.
Check
(A14).
1.
Check
(A14).
1.
Check
of
1.
Check
Charger
1.
Check
1.
If
internal
dicated.
graph
Ul,
R13,
"ERR
3-19.
CI,
CRl,
Ul,
Charger
tolerance
PCB
Fl,
1"
Charger
Charger
Charger
C7,
and
tolerance
PCB
(A14).
Charger
appears,a6805
RAM
failure
Refer
of
to
PCB
PCB
PCB
(A14).
R3,
PCB.
is in
para
/r^%
3-14
©NOV.
1984
PHYSIO-CONTROL
Page 60
Section
Testing
3
and
Troubleshooting
SYMPTOM
TABLE
LS
200
CHARGER
3-3
(Continued)
TROUBLESHOOTING
PCB
TEST
(Continued)
2.
3.
4.
GUIDE
PROCEDURE
If
"ERR
External
indicated.
paragraph
If
(cyclic
error
indicated.
paragraph
If
"ERR
RAM and/or EPROM failure
is
paragraph
2"
RAM
3-19.
"ERR
3"
redundancy
of
3-19.
4"
indicated.
3-19.
appears,a6805
failure
Refer
is
to
appears,aCRC
check)
6805
EPROM
Refer
is
to
appears,a6809
Refer
to
7.
Load
TP8,
to
8.
U24
in
9. LOW
U24,
voltage
Charger
+7.80Vdc
does
not
Charger
BATT
does not come on when
pin
4,
across
PCB,
at R6.
respond
PCB
is
TP9
not
adjustable
to
voltage.
high.
and
changes
5.
If
"ERR
,5"
is
not
responding
query.
3-19.
6.
If
cuff
than
1.
Check
Charger
1.
Check
by
substitution.
2.
If
no
check
and C9, Interface
1.
Check U18,
PCB;
substitution.
Refer
"ERR
6"
pressure
15mmHg.
R6,
PCB.
U24,
change
R63, R64,
U12,
Q2,
Interface
U10,
System
appears,
to
to
paragraph
appears,
is
greater
Deflate
Ul,
Battery
is
observed,
and
Interface
PCB,
6809
6805
the
cuff.
PCB,
R67,
PCB.
by
3-15
2.
Check
DS17,
©OCT.
Display
1985 PHYSIO-CONTROL
PCB.
Page 61
Section
Testing
3
and
Troubleshooting
TABLE
LS 200 TROUBLESHOOTING GUIDE
SYMPTOM
SYSTEM CONNECTOR CHECK
1.
+5Vdc
and 20 when unit is turned on.
2.
Pump
power
is reached.
1.
Test
a.
not
present
does
not
threshold
1.
Display
at
run
when
at
Jl,
segments
Jl
SELF-TEST PROCEDURES
missing.
pins
+8V
pin
3-3
(Continued)
6
pump
14
PROCEDURE
1. Check R46 and RV12
Interface
1.
Check
anical or electrical de
fects .
1.
If
only
ed,
PCB
2.
check
If
check
(A2).
all
Pump
one
LEDs
Ull,
PCB
(A5).
(A3)
LED
LED
Interface
is
on
are
for
affected,
(A5).
/f!*^
mech
affect
Display
PCB
2.
b.
Alarm
Test
a.
2.
1.00±.05Vdc
obtained
by
adjusting
b.
PULSE
twice
graph
does not sound.
cannot
at
display
MEAN
display
TP12,
R58,
does
System
System
not
3-8G.
in
be
para
PCB,
PCB.
equal
1.
Check
Interface PCB.
1.
Check
output
2.
Check
3.
Check
By
U28,
cross -1.0 ±.05Vdc. U34 can
have
herent
1.
Check
PCB,
specified
present,
R82
2.
If
-2Vdc
failure in A/D Converter
CR20,
U38,
for
System
+10Vdc.
pressure
U34,
System
adjusting
pin
7,
large
in
U37B,
for -2Vdc ±
voltage
check
and
U37.
U37B,
±
R51,
R58,
(TP12)
dc
offsets
chip
pin
pin
lOOmV,
R52
PCB
transducer.
PCB
voltage
7,
lOOmV.
is
C22,
7,
(U29,U30,U31,U32,U37).
and
XI
(Al),
(Al).
at
should
in
design.
System
If
not
R61,
is
at
suspect
3-16
©OCT.
1985 PHYSIO-CONTROL
Page 62
Section
Testing
3
and
Troubleshooting
f"^
3.
SYMPTOM
c.
Pressure
cannot
manometer
adjusting
Test
3.
a.
System
b.
System
with
displayed
be
bleeds
bleeds
Servo
LS
SELF-TEST
made
to
pressure
R90.
down
down
Valve
TABLE 3-3 (Continued)
200
TROUBLESHOOTING GUIDE
on
agree
by
too
too
open.
PROCEDURES
LS
200
with
fast.
slowly
(Co
ntinued)
1.
1.
1.
PROCEDURE "
Check
Check
Valve
Switch
or
pressure
for
leakage
(A4),
and
internal or external
transducer.
Overpressure
Pump
tubing.
Check
improper
Servo
Valve
adjustment
blockage.
in
(A4)
Servo
(A3),
for
or
4.
Test
a.
b.
c.
1.
Unit
displays
graph
is
2.
High
increment
response
controls.
4.
Overpressure
be
adjusted
proper
Pressure
when
System
does
3-15A,
time.
exceeds
override
bleeds
not
as
described
when
pressed.
and/or
to
Low
and
HIGH
Switch
to
is used.
down
cycle
cannot
trip
at
290 ±
too
FRONT PANEL/CL
alarm
in
ALARM
limits
decrement in
and
SELECT
do
LOW
lOmmHg
fast.
limit
para
not
LIMIT
1.
1.
1.
Replace
Switch.
Adjust
trip
Check
Valve
Overpressure
Overpressure
point.
for
(A4),
Switch
or internal
tubing.
OCK
SET
1.
Check
RN3,
Interface
Check
2.
PCB
Check RN3, U16,
1.
RN1A,
(Al).
Interface
2.
Check
PCB
RN1A,
(Al).
leakage
and
PCB
PCB
Switch
in
Servo
Overpressure
Pump
or
U16,
(A3),
external
U17,
(A5).
U12
System
U17,
(A5).
U12,
System
3-17
©OCT.
1985
PHYSIO-CONTROL
Page 63
Section
Testing
Troubleshooting
3
and
3.
4.
5.
SYMPTOM
Unit
gives
display
Alarm
Printer
blood
as
described
LS 200 TROUBLESHOOTING
FRONT
error
repeatedly.
does not sound
does
pressure
rejection
not
plot
determinations
in
paragraph
TABLE 3-3 (Continued)
PANEL/CLOCK
SET
(Continued)
1.
1.
and
trend
2-10D.
1.
2.
3.
GUIDE
Kinked
Switch.
Check
Interface
Insure
Hoses,
XI,
that
Interface
normal
2
shorted).
Check
PCB
Check
face
position
U5
(A5).
U22
PCB
PROCEDURE
Overpressure
CR20,
PCB.
PCB
CR21
jumper
(A5),
(pins1and
and
U12,
output,
(A5)
on the
J10,
is
Interface
Inter
for
+5V.
^%
in
3-19.
6.
Real
Time
Clock
to SELECT and/or SET controls.
SIGNATURE
The
following
diagnosing
associated
interface
digital
the
power
routines
It
is
patterns
devices.
circuitry
continue
then
for
does
ANALYSIS
not
signature
failures
RAM,
up
possible
verification
ROM,
in
sequence.
to
to
run
respond
analysis
involving
buffers,
The
jumper
essentially
In
signature
asaclosed
obtain
purposes.
signatures
4.
If
horizontal or vertical
plotting,
Interface
5.
If
contact
Q5-11,
Interface
1.
Check
face
(SA)
LS
procedures
200
microprocessors
latches,
arrangement
the
same
analysis,
loop
problem
check
PCB
(A5).
problem
with
RN2
PCB
CR5,
PCB
and
(A5).
involves
(A5).
provideameans
decoders,
specified
way
it
is
however,
so
long
as
representing
involves
paper,
and
U18,
check
Inter
and/or
and
peripheral
exercises
exercised
power
is
recurrent
U13,
pen
CR6,
their
the
during
the
test
applied.
signal
of
System
3-24.
PCB
SA
signature
tests
for
analysis
the
Interface
tests
3-18
follow
PCB
are
in
paragraph
found
©OCT.
in
paragraph
1985
3-20
through
3-25.
PHYSIO-CONTROL
//aB'%
Page 64
Section 3
Testing
and
Troubleshooting
3-20.
6809
RAM
Test.
A.
Turn
B.
Set
J9,
J4,
J8
J7
C.
D. Connect
E. Connect the
F.
NOTE:
G.
Connect
off
the LS 200.
test
jumpers
J10
and
J6,
and
to
normal
to
test
Configure
rising
Connect
edge,
the
GROUND
Placing
unstable
a
as
Jll
to
normal
J12
to
test
(1,2)
(2,3)
signature
set
STOP
START
CLOCK
separate
and STOP lines to TP6.
line to TP8.
line
the
readings.
follows
position
position
analysis
for
to U14-1.
ground
ground
on
the
(SA)
falling
line
at
line
System
(1,2)
(2,3)
meter
edge,
other
to
as
set
grounds
U14-1
PCB:
follows:
CLOCK
from
for
may
probe
Set
falling
cause
ground
START
edge.
for
pin.
3-21.
H.
I.
J.
K.
6809
A.
B.
C.
D.
Turn
the
Verify
The SA
Turn
Return
on
jumperonJ12
frequency
meter
the
EPROM
Test.
test
position
Turn
jumper
The
NOTE:
SA
the
on
meter
The
reading
approximately
Turn
the
the
LS
LS
200
jumper
(2,3).
LS
200
J12
gate
LS
200
200
at
should
off.
on.
(2,3).
should
appears
off.
unit,
it
will
(2,3).
TP8
is
1.20±.10MHz.
read
9FFP
with
J7
to
normal
It
will
read A191 at +5V.
time
10
seconds.
(the
on
display
interval
SA
display
the
position
"Err
meter)
"Err
probe
before
for
5."
attached
(1,2)
5."
this
and
Lift
a
test
Lift
to
and
+5V.
set
and
replace
stable
is
J8
replace
to
test
the
f*
3-22.
6805
A.
RAM
Test.
Reset
to
together
all
6805
normal
TP10
SA
tests.
position
and
TP11
(1,2)
jumpers
withajumper.
3-19
J4,
Leave
6,
8,
©OCT.
7,
and
12.
jumper
1985 PHYSIO-CONTROL
in
Short
place
for
Page 65
B.
C.
D.
E.
Setup
SA
rising
Connect
Connect
Connect
meter
edge,
START
CLOCK
GROUND
as
and
and
probe
probe
follows:
set
CLOCKtofalling
STOP
probestoTP13.
to
TP3.
to
U7-20.
set
START
to
edge.
falling
edge,
Section
Testing
3
and
Troubleshooting
set
STOP
to
/^*%
^ /
3-23.
3-24.
NOTE
Placing
unstable
F.
Set
jumper
G. Turn on the unit.
H.
Verify
I.
Verify
+5V.
J.
6805
A.
B.
Turn
Return
Turn
the
EPROM Test.
on
NOTE
6805 I/O
Test.
JIO
to
frequencyofTP3
signatureonSA
unit
off.
JIO
to
power
Gate
and
time
ground
readings.
test
position
normal
verify
for
(1,2)
this
line
at
other
grounds
may
cause
(2,3).
is
1.00±.05MHz
meter
signatureisU67C
is
and
29F3
set
(1.0±0.5uS).
with
Jll
to
at
the
test
+5V.
probe
position
testisapproximately5seconds.
connected
(2,3).
to
1
A.
B.
Turn
Turn
1.
the
unit
the
LS
200
6805
Microprocessor
U7-1 118U
2
118U
4
118U
5
7182
6
0000
7
16F3
8
074F
9
118U
10
047F
11
16F3
off.
on
12
13
14
20
29
30 AP01
31 118U
32 118U
33
34
and
074F
16F3
074F
0000
0000
0000
0000
Set
JIO
verify
the
35
36 AP01
37 118U
40
3-20
and
Jll
following
CU8P
118U
to
the
signatures.
2.
Control
U6-1
©OCT.
test
position
Line
Buffer
0000
2
7182
3
7182
4
0000
5
0000
6
0000
7
0000
1985 PHYSIO-CONTROL
10
13
14
8
118U
9
118U
0000
0000
118U
(2,3).
**%
Page 66
Section 3
Testing
and
Troubleshooting
3.
5.
7.
PAL
Ull-9
10
11
12
13 P7P6
14 P7P6
15
16 FAU3
17
18
COM-1
U16-1
10
RAM
Outputs
118U
0000
1782
0000
H6CP
0000
3AP2
Outputs
0000
2
118U
5
118U
6
FHC6
9
0000
0000
Inputs
19
16PC
20
488A
21 UH46
22
4UPP
23 U669
24
118U
11
2C6H
12 FHC6
15
0000
16 118U
19
0000
20
118U
4.
ROM
U10-1
6.
SEN-1
U15-1
8. Real
Inputs
118U
14
0000
20 U669
22
0000
27
118U
28
118U
Inputs
118U
2
118U
4
118U
6
118U
8
0000
10
0000
Time
11
15
17
19
20
Clock
0000
118U
0000
118U
118U
U9-12
9.
Inverter/Buffer
U20-3
1. Real
U4-1
0000
18
20
21
7182
24
4UPP
4
5P61
5
3AP2
6
7
0000
8
9 FAU3
Time
309H
2
118U
3
309H
4
118U
5
7309
6
7309
7
0000
H6CP
H6CP
118U
2C6H
HC7F
10
11
12 PFF9
13
14
Clock
10
14
8
9
0000
118U
UH46
118U
Conti
118U
118U
118U
118U
U8-12
10. NAND
U21-1
12.
Real
U3-3
10
0000
13
0000
14
7309
15
7182
17
309H
Gates
118U
2 118U
3
0000
4
2112
5
118U
6
309H
7
0000
Time Clock
7182
4
0000
5
16PC
6
118U
7
118U
8
0000
9
118U
118U
18
118U
20
0000
22
118U
24
118U
8 UH46
9
118U
10 PFF9
12
5P61
14 118U
AS/I
11
118U
12
118U
13
557U
14
6286
15
2112
16
118U
3-21
©OCT. 1985 PHYSIO-CONTROL
Page 67
Section 3
Testing
and
Troubleshooting
3-25.
13. 6809 Address Latch
U22-1
15.
PAL
U18-8
Interface
A. Turn LS 200 off.
B.
Set
jumpers
C.
Connectatjumper
D.
Configure
0000
10
0000
Outputs
118U
9
UH46
10
0000
11 118U 18 PFF9
12 7182 19 118U
13
4P19
PCB
Signature
JIO
the
SA
11
0000
20 118U
15
UH46
16 118U
17
118U
20 118U
Analysis.
and
Jll
between
meter
on
System
TP10
as
follows:
14. 6809 Data Latch
U17-1 7182 19 UH46
10 0000 20 118U
PCB
to
and
TP11
test
on
position
System
/^$$*
(2,3).
PCB.
E.
F.
G.
H.
Set
START
falling
Connect
Connect
Connect
NOTE
Turn
PCB.
1. PAL
LS
U1L
for
edge.
START
CLOCK
GROUND
Using
200
Outputs
-20
118U
12
1730
13
4173
14
5417
15
0541
16
9054
17
H3C1
falling
and
line
to
other
on
and
edge,
STOP
U7
to
lines
TP3
pin
grounds
verify
on
20
set
to
System
on
System
may
the
following
STOP
TP13
PCB.
cause
2.
for
on
rising
System
edge,
PCB.
PCB.
unstable
signatures.
signaturesonthe
Latch
U4-5
Output
16PC
set
CLOCK
Interface
for
/^^fk
3-22
©OCT.
1985
PHYSIO-CONTROL
Page 68
3.
Printer
Buffer
Outputs
4.
Bus
Buffer
Outputs
Section
Testing
3
and
Troubleshooting
I.
U5-2
5.
ACIA
U9-3
Turn
normal
4P90
5
5U1U
6
4P90
9
5U1U
12
4P90
15
118U
16
4P90
19
0000
(UART)
488A
LS
200
position
off.
Return
(1,2)
jumpers
and
remove
U20-2
12
15
16
19
JIO
and
jumper
6HA8
5
6HA8
6
6HA8
9
6HA8
6HA8
6HA8
6HA8
6HA8
Jll
between
on
System
TPIO
board
and
to
TPll.
3-23
©NOV.
1984
PHYSIO-CONTROL
Page 69
SERVICE
SECTION
AND
MAINTENANCE
4
4-1.
4-2.
4-3.
GENERAL
This
section
areaList
Cleaning
TOOLS
Following
have
List
A.
B.
C.
D.
E.
F.
and
AND
available
of
Tools
Vacuum
Nonmetallic,
Clean,
Dry,
low
Isopropyl
Ethyl
provides
of
Tools
Repair
MATERIALS
is
a
list
for
and
cleaner.
soft-bristle
lint-free
pressure
alcohol,
alcohol,
maintenance
and
Materials,
Techniques,
of
recommended
maintenance
Materials
cloth.
compressed
99%
Fed-Std
O-E-760,
and
and
for
Cleaning
brush.
air
pure
(preferred
procedures
Disassembly
Assembly
tools,
repair
(60
for
LIFESTAT
Procedures,
Procedures.
materials
activities.
Activities.
psi).
solvent).
Grade1,ClassAor
200.
and
B.
Included
Inspection,
chemicals
to
4-4.
G.
Perchloroethylene.
NOTE
List
of
Tools
A.
Crocus
B.
Solder,
or
C.
Sleeving,
MIL-I-3190
D.
5-Minute
Street,
E.
Solder
Arminta
F.
Isopropyl
RMA
cloth,
activated
per
Danvers,
Vacuum
Street,
The
standard
commercial sources.
above
and
Materials
available
equipment
shop
commoditiesorare
for
from
rosin-core,
Federal
Specification
silicone-treated
or
equivalent.
and
Repair
commercial
solvents
Activities.
tin-lead
QQ-S-571d.
fiberglass,
sources.
wire
Epoxy-ManufacturedbyDevcon
Massachusetts,
Part
Number
Van
alcohol,
Nuys,
99%
LTS13-ManufacturedbyEDSYN
California,
pure,
01923.
91406.
available
are
available
Sn
Class
60
HAl
either
from
or
Sn
or
63
Type
HCl
R
per
Corporation,59Endicott
from
Inc.,
commercial
15954
sources.
G.
Trichloroethylene.
H.
Acid brush
'and
cotton
swabs.
4-1
©NOV.
1984
PHYSIO-CONTROL
Page 70
I.
RTV
Silicon
Rubber,
Sealant
-
General
Electric
RTV
Section 4
Maintenance
102,
White.
/^I|
4-5.
4-6.
DISASSEMBLY
The
following
major
as
thetical numbers refer to item numbers.
Cover
A.
B.
C.
D.
componentsofthe
required.
Removal.
Disconnect
Remove
(28)
Remove
the Cover off toward the rear of the instrument.
Disconnect
BEFORE
CONNECT
THAT
PROCEDURE
procedures
Refer
the
line
four
to
ORDER,
screws
the
Cover.
cover
TROUBLESHOOTING
THE
grounding
the
Battery
BATTERY
BEFORE
LS
to
Figure
cord
and
TURNING
providealogical
200.
lockwashers
screw
Pack
A
PACK
Special
5-1
from
cable
CAUTION
UNIT
FIRST
THE
drawings
the
Rear
(77)
(67)
from
AFTER
THEN
UNIT
disassembly
and
ON.
sequence
and
parts
Panel.
(110)
attaching
lockwasher
J3
on
the
COVER
THE
REMOVAL,
LINE
for
notes
list,
(109)
Charger
RE
CORD,
removing
are
provided
the
paren
rubber
then
slide
PCB.
IN
—
the
feet
4-7
4-8,
SOME PCB
DEVICES
HANDLING PROCEDURES.
System PCB
After
A.
B.
C.
D.
Front Bezel Removal.
After
Cover
Remove
PCB
(Al)tothe
Disengage
Lower
Jl, J2 and
Separate
Cover
ASSEMBLIES
J&L
Removal.
Removal
three
the
the
PCB
J3.
the
Removal
screws
System
System
CAUTION
IN
LS
200
(SSDs).
proceedasfollows:
hinged
toahorizontal
proceedasfollows:
REFERTOSECTION5AND
and
lockwashers
standoffs
PCB
PCB
from
from
the
position
the
CONTAIN
(75)
(85).
three
LS
200.
STATIC
(110)
locking
and
remove
SENSITIVE
USE
SPECIAL
connecting
PCB
retainers
the
the
connectors
System
(62).
at
A.
Remove
Cover
two
(18)
screws
to
the
and
Front
lockwashers
Bezel
(5).
4-2
(76)
(110)
©OCT.
securing
1985 PHYSIO-CONTROL
the
Bottom
">
Page 71
Section
Maintenance
4
J^^
CHARGER PCB
•POWER
WIRE HARNESS
SUPPLY/INTERFACE
•INTERFACE/HARNESS
RIBBON CABLE
803020
SERVO VALVE ASSY
A4
DISPLAY PCB
BATTERY
PACK COVER
FRONT
BEZEL
802675
f^
TRANSFORMER/CAPACITOR/
CHARGER
WIRE
802985
HARNESS
PUMP SUPPORT BRACKET
FIGURE4-1.
WIRE ROUTING
4.3
©
OCT.
1985
802603
PHYSIO-CONTROL
Page 72
B.
Remove
Support
C.
Disconnect
J7,
D.
Cut
E.
Separate
J12
tie
two
(10)
and
wrap
the
screws
to
flex
J5,
and
Front
and
lockwashers
the
Front
cable,
ribbon
respectivelyonthe
disconnect
Bezel
Bezel.
tubing
from
cable,
the
LS
(76)
and
(110)
wire
Interface
from
Luer
200.
Section
Maintenance
attaching
harness
PCB
(A5).
the
connections,
fittingonFront
4
Handle
Bezel.
4-9.
Display
After
A.
Disconnect
PFC
Front
Removal.
Bezel
(A2).
B.
Remove
C.
Carefully
washers
Flex
D.
Separate
4-10. Printer Removal.
After
A.
Remove
B.
Remove
Cover
Shield
Front
(21)
three
(72)
the
Bezel
the
three
Removal
wire
screws
unfold
(112),
(80).
Display
Removal
paper
screws
to
the
proceedasfollows:
harness
and
the
PFC
the
PFC
and
from
the
and
Front
at
J2
and
lockwashers
and
remove
Display
from
Display
Printer.
the
Flex
Front
PFC
lockwashers
Bezel,
then
flex
(73)
three
Shield
Bezel.
Removal,
(72)
remove
cable
(112)
at
from
additional
(79),
(113)
the
securing
Printer
J3
on
the
and
the
proceed
Cover.
Display
Display
screws,
Front
as
follows:
the
Printer
PFC
PFC.
lock
Display
/!**%
C.
The
Printer
4-11.
4-12. Interface PCB Removal.
Door/Membrane
After
A.
B.
After
A.
B.
Front
Remove
Plate
Carefully
Bezel.
Remove
Bezel
forward,
Disconnect
(38)
System
the
(5)
Switch
Bezel
two
to
remove
PCB
four
away
J2, J3,
(A7)
Removal,
screws
the
Removal,
screws
to
the
from
can
now
Removal.
proceed
and
Front
Door
and
proceed
and
LS
200
the
Interface
J5,
J7,
be
removed
as
follows:
lockwashers
Bezel.
attached
as
follows:
lockwashers
and
carefully
PCB
J8
and
J12
4-4
from
the
(72)
Membrane
(76)
angle
(A5).
at the
©
Front
(113)
Switch
(110)
Interface
OCT.
Bezel.
securing
from
securing
the
Bezel
PCB.
1985
PHYSIO-CONTROL
the
Hinge
the
Front
the
Front
slightly
Page 73
C.
D.
Remove
bracket
Remove
the
Chassis
the
(heat
six
two
nuts
sink)tothe
screws
(14).
and
lockwashers
and
lockwashers
Rear
(51)
Panel
(75)
(115)
(54).
(110)
securing
securing
Section
Maintenance
the
PCB
I.C.
the
PCB
4
to
4-13.
4-14.
NOTE:
E.
Move
the
bracket
F.
Separate
Charger PCB
After
A.
B.
C.
D.
Handle
Cover
Disconnect
Remove
Remove
the
Pump
Hold
PCB
the
from
Support
When
side
(heat
the
Removal.
Removal
removing
leadsofBattery
Interface
sink)
Interface
the
two
kepnuts
two
screws
Support
Pump
the LS 200.
Foam
Removal.
PCB
clear
proceed
wire
(50)
and
Bracket
Housing
Interface
(Bl)totouch
until
the
PCB
as
the
Rear
from
follows:
the
harnessatJl
securing
lock
washers
(8).
(39)
in
PCB
do
Systems
Panel.
LS
and
PCB
(72)
place
not
200.
J2
heat
while
allow
Chassis
Connector
on
the
sink
(115)
removing
circuit
(14).
and
Charger
to
Rear
securing
the
PCB
Panel
the
the
Charger
I.C.
(A6).
(54).
PCB
to
After
A.
B.
C.
D.
4-15. Pump
After
A.
B.
Cover
Remove
Support
Remove
(14)
Removal,
two
(10)
two
and
(54).
Remove
To
two
the
(61).
Removal.
Cut
fitting.
Disconnect
retaining
kepnut
completely
kepnuts
nylon
Handle
the
screws
to
the
screws
two
screws
(50)
separate
(50)
cable
Support
nylon
Disconnect
cable
the
tie
cable
wire
tie.
proceed
and
(68)
securing
securing
Removal
as
follows:
lockwashers
Front
(64)
Bezel.
securing
attaching
the
Handle
the
Handle
the
Potentiometer
(60)
and
slip
(Step
tie
connecting
the
Pump
harness at J3 on the
4-14,Aand
tubing
(76)
the
(110)
Handle
Handle
attaching
Support
(10)
SupporttoRear
SupporttoChassis.
Support
Capacitor
the
at
Pump
this
from
(13)
B),
point.
the
Bracket
from
proceed
(A3)
Interface
to
the
Handle
to
Chassis
Panel
LS
200
remove
(7),
then
Retainer
as
follows:
the
Luer
PCB and cut
cut
Clip
"Y"
4-5
©OCT.
1985
PHYSIO-CONTROL
Page 74
C.
D.
Remove
Remove
the
the
Foam
Pump
Pump
from
Housing
the
Housing.
(39)
from
the
LS
Section 4
Maintenance
200.
4-16.
4-17.
Overpressure
After
A.
B. Remove the two terminal connectors from the Switch.
C.
Handle
Cut
to
the
from
Remove
assemblytothe
D.
Separate
THE SERVO VALVE ASSEMBLY IS NOT FIELD SERVICEABLE. THE
ENTIRE ASSEMBLY MUST BE RETURNED TO THE FACTORY FOR
ADJUSTMENT,
Servo
After
Valve
Handle
Switch
Support
the
two
Tubing
the
Overpressure
two
the
Assembly
Support
Removal.
Removal
nylon
screws
Switch
CALIBRATION
cable
Set
(101)
and
Pump
Removal.
Removal,
Support
from
(Step
ties
and
Switch
4-14,Aand
connecting
wire
fitting.
harnesses.
lockwashers
Bracket
the
LS
200.
CAUTION
OR
REPAIR.
proceedasfollows:
(74)
(8).
B),
the
Overpressure
Disconnect
(112)
securing
proceedasfollows:
Switch
the
the
(88)
tubing
Switch
4-18.
A.
Remove
pressure
B.
C.
D.
inal
aside
Cut
fitting.
Also
to
Remove
connectors
during
the
cut
frontofmanifold)
Valvetothe
E.
Remove
manifoldtothe
F.
Disconnect
Harness
G.
Separate
Battery Pack
After
Cover
two
screws
Switch
the
nylon
Disconnect
the
two
screws
Chassis-mounted
one
screw
the
(Wl)
at
the
Servo
Removal.
Removal,
and
lockwashers
(88)
cable
cable
Chassis
connector
to
the
and
tubing
following
the
ties
and
and
lockwasher
Interface/Servo
Valve
proceedasfollows:
Servo
tie
at
tubing
securing
and
Servo
lockwashers
(14).
P2.
from
(74)
Pump
Support
attached
Valve
the
from
and
Servo
the
the
Valve
Assembly
(76)
standoffs
(76)
the
(110)
Valve/Pressure
LS
200.
(112)
securing
Bracket
move
Removal.
Valve
fitting.
Pressure
the
(A4)
Transducer
wiring.
(110)-securing
(82).
securing
Switch/Volume
(8).
Switch
manifold
the
the
Over
Leave
term
assembly
elbow
(attached
the
Servo
Servo
Valve
Wire
/^I|
4-6
©OCT.
1985 PHYSIO-CONTROL
Page 75
A.
Cut
the
nylon
Cover
B.
Remove
C.
Remove
D.
Separate
4-19. Transformer Removal.
(3).
four
Battery
Battery
screws
cable
and
Pack
Pack
ties
attaching
lockwashers
Cover
(4)
(3).
from
LS
tubing
(75)
200.
set
(110).
to
the
Section
Maintenance
Battery
4
Pack
4-20.
4-21.
After
proceed
A. Disconnect J3 on the Interface PCB.
B.
C.
D.
E.
F.
INSPECTION
Exterior
Visually
corrosion,
or
Cover
as
Carefully
Bracket
Remove
Bottom
Remove
BrackettoChassis
Disconnect transformer wire harness terminals.
Remove
(100)tothe
droppage.
Removal,
follows:
lift
(8)
two
Cover
two
three
the
and
lay
screws
(18).
screws
screws
Pump
TECHNIQUES
Visual
inspect
Inspections.
the
deterioration,
Handle
Foam
it
to
(67)
and
washers
(14).
and
lockwashers
Support
entire
and
Support
Pump
one
Housing
side.
securing
Bracket.
LS
200
damage
resulting
Removal
the
(75)
for
Pump
(110)
(78)
and
(39)
(114)
wear,
from
Charger
from
the
Support
securing
securing
maintenance
extreme
PCB
Removal,
Pump
Bracket
Pump
Support
to
Support
Transformer
damage,
temperature,
the
4-22.
Interior
A.
Use
wiring,
B.
Inspect
1.
2.
3.
4.
Visual
a
Check
Check
oration.
Inspect
of
Inspect
deterioration
Inspection.
minimum
solder
for
the
all
wires,
sleeving
damage.
components
of
joints
following
connectors
five-power
and
printed
conditions:
for
harnesses
and
tubing
and
or
leakage.
magnification
circuit
loose,
and
cables
for
their
4-7
bent
for
proper
leads
to
check
conductor
or
corroded
signs
installation
for
©OCT.
of
security
1985 PHYSIO-CONTROL
components,
patterns.
contact
wear
or
or
evidence
of
mounting,
pins.
deteri
Page 76
5.
Check
soldering,
6.
Inspect
or brittleness.
terminals
loss
printed
and
connections
or
wear.
circuit
board
for
proper
surfaces
installation,
for
charring,
Section 4
Maintenance
faulty
cracking
4-23.
4-24.
NOTE:
7.
Check
8.
Inspect
surface
9.
Check
cross-threaded
10.
Check
and
11.
Check
indicate a failure.
CLEANING
General.
A.
This
LS
TECHNIQUES
section
200
procedurestobe
Some
be
degree
expected
temperatures
thereon.
identification
chassis,
damage
all
screws
for
damaged
inspect
for
for
any
contains
as
a
preventive
conducted
of
discoloration
due
to
continued
of
some
nameplate
covers
or
missing
and
nuts
threads.
traces
breaks,
other
instructions
maintenance
after
to
exposure
of
the
and
and
brackets
hardware.
for
tightness
on
PCBs.
scratches,
form
of
measure
disassembly
the
PCB
to
components
other
decals
for
or
Look
nicks
or
mechanical
for
periodic
and
and/or
surface
operating
mounted
warping,
signs
for
lifted
pinholes.
damage
cleaning
specific
repair.
may
for
legibility.
of
stripped
conductors
which
bending,
or
may
of
the
cleaning
/^k
4-25.
B.
Parts
having
identical
cleaning
procedures
are
grouped
headings.
C.
No
special
Interior
Cleaning.
VENTILATE WORK AREA THOROUGHLY WHEN USING SOLVENTS.
OBSERVE MANUFACTURERS' WARNINGS ON SOLVENT CONTAINERS WITH
REGARD TO PERSONNEL SAFETY AND EMERGENCY FIRST AID. BE
SURE
CHEMICALS.
OBSERVE SHOP SAFETY AND FIRE PRECAUTIONS. VENTILATE ALL
WORK AREAS WHERE SOLVENTS ARE USED. STORE SOLVENTS AND
SOLVENT SOAKED RAGS IN APPROVED CONTAINERS. REFER TO
MANUFACTURERS' INSTRUCTIONS ON CONTAINERS FOR RECOMMENDED
FIRE FIGHTING PROCEDURES AND NOTE
EQUIPMENT
FIRST
tools
AID
IS
AVAILABLE.
are
required.
EQUIPMENT
WARNING
IS
WARNING
AVAILABLE
THAT
BEFORE
FIRE FIGHTING
under
USING
common
4-8
©OCT.
1985 PHYSIO-CONTROL
Page 77
A.
Magnetics.
Section 4
Maintenance
f*^
Clean
brush.
DO NOT USE SOLVENTS TO CLEAN TRANSFORMERS OR INDUCTORS.
THE
FROM THE WIRE
SOLVENT
RESULTING
B.
Printed
SOME
CONTAIN STATIC SENSITIVE DEVICES. USE STATIC SENSITIVE
DEVICES
transformers
CHEMCIAL
PRINTED
1.
Clean
compressed
2.
Prior
bristle
3.
Dry
and
inductors
CAUTION
ACTION
COILS,
ALSO
Circuit
NEUTRALIZES
IN EVENTUAL TAPE SEPARATION FROM
Boards.
CIRCUIT
A
(SSDs)
assembled
air
to
soldering,
brush
with
low
OF SOLVENTS MAY REMOVE
RENDERING
THE
CAUTION
BOARD ASSEMBLIES IN
SPECIAL
parts
(60
psi).
clean
dipped
pressure
in
compressed
withadry
THE
COMPONENT
ADHESIVE
HANDLING
with
a
surfaces
solvent.
vacuum
nonmetallic
THE
USELESS.
OF THE
COVER
THE
THE
PROCEDURES.
cleaner
with
air.
soft-bristle
VARNISH
THE
TAPE,
WINDINGS.
LS 200
or
low
nonmetallic,
pressure
soft-
f^'
CAUTION
TAKE CARE WHEN CLEANING PRINTED CIRCUIT BOARDS THAT WIRES
OR COMPONENT LEADS ARE NOT BENT BACK AND FORTH IN SUCH A
MANNER
4.
Metallic
1.
2.
DO NOT WIPE OVER SURFACES OF NAMEPLATES OR LABELS WITH
ABRASIVE
WEAR
TO
WEAKEN
Remove
after
Brush
brush.
Wipe
with
AWAY
excess
repairs.
and Plastic Parts.
all
surfaces
metal
isopropyl
CLEANERS
THE
NAMEPLATE INFORMATION.
THEM
AND CAUSE
solder
surfaces
alcohol.
OR
MATERIALS,
from
and
parts
with
CAUTION
CAUTION
THEM
solder
TO EVENTUALLY BREAK.
joints
and
withanonmetallic,
soft,
AS THIS
nonabrasive
WILL
chassis
soft-bristle
cloth
EVENTUALLY
components
dampened
DO NOT USE SOLVENTS TO CLEAN PLASTIC PARTS.
4-9
©NOV.
1984 PHYSIO-CONTROL
Page 78
3.
4.
Dry
Wipe
cleaned
surfaces
surfaces
of
nameplates
with
clean
and
cloth.
labels
with
clean
Section
Maintenance
dry
4
cloth.
4-26.
4-27.
4-28.
4-29.
Exterior
Case
cord.
cleaning
REPAIR
General
A.
necessary
B.
Conduct
C.
Before
Repair
NOTE
Cleaning.
and
Display.
Do
not
agents
TECHNIQUES
Instructions
iceable condition.
ify
all
areas
removing
lead
or
Procedures.
Repair
only
replacement.
use
may
to
the
necessary
draw
Use
soap
alcohol,
damage
contained
return
requiring
a
the
an
assembly
sketch
procedures
as
an
and
water
solvents,
the
surfaces
in
this
LS
200
unit
level
of
repair.
disassembly
for
showing
contained
alternative
to
or
of
section
and
repair
the
location
here
to
clean
cleaning
the
instrument.
its
or
are
complete
external
covers
solutions.
provide
subassemblies
and
the
inspection
replacement,
of
cables
recommended
assembly
and
line
These
information
to
serv
to
ident
label
and
each
wires.
4-30. General.
A.
Do
members
beyond
B.
PCB
replaced
4-31.
PCB
A.
B.
C.
D.
Component
Replace
outlined
Replace
and
fied
Remove
Grasp
remove
solder
not
attempt
unless
this
installed
when
all
in
electrical
gage
on
excess
as
the
the
components
pads.
to
straighten
the
bending
level
should
components
found
Replacement.
faulty.
electronic
Testing
that
applicable
solder
component
and
wire
being
with
from
or
be
replaced.
are
components
Calibration.
as
required
replaced.
wire
from
list.
pad
pliers
circuit
bent
connector
warpage
normally
Install
by
wieking
and
board,
is
nonrepairable
not
meeting
with
use
wire
the
or
vacuuming.
a 60
being
pins
or
slight.
the
of
same
terminations
watt
soldering
careful
chassis
Parts
and
frame
damaged
must
requirements
length,
color
identi
iron
not
to
lift
be
to
^
4-10
©NOV.
1984 PHYSIO-CONTROL
Page 79
CAUTION
Section
Maintenance
4
WHEN INSTALLING
TO TRANSISTOR
CAPACITOR POLARITIES ILLUSTRATED IN SECTION 5 COMPONENT
LAYOUTS.
E.
Bend
new
component
leads
proper
to
desired
polarity
COMPONENTS
INDEXING,
leads
length.
position
ON
PRINTED
TAB
POSITIONS,
to
fit
mounting
Be
sure
and
installiton
CIRCUIT
DIODE
solder
component
the
BOARD,
MARKINGS,
pads
is
board,
place.
NOTE
USE A HEAT SINK
USE A MINIMUM OF HEAT WHEN SOLDERING COMPONENTS TO PRINTED
CIRCUIT
F. Clean residual flux from soldered areas with
isopropyl
G.
Test
On
lation
with
BOARDS.
before
heat
sink
between
an
ohmmeter
WHEN
alcohol
reassembly.
mounted
the
SOLDERING
then
component
before
CAUTION
dry
with
components,
tab
soldering
DIODES
AND
compressed
verify
and
the
the
leads.
TRANSISTORS,
air.
REFER
on
PCB
and
trim
oriented
then
the
iso
heat
sink
AND
an acid brush and
in
solder
the
in
4-32.
COMPLETE
Repair
Of
complete
sectional
(See
Figure
BREAK
NOTE
Damaged
break
area
4-2).
FIGURE
Repair
The
exceed
Or
Defective
or
scratches,
of
the
conductor
4-2.
should
damaged
five times the conductor width.
TYPICAL PRINTED WIRING DAMAGE
be
section
Conductor.
nicks,
beyond
limited
of
or
pinholes
NICK-
to
two
the
original
conductor
A
damaged
which
repairs
conductor
reduce
design
SCRATCHES
per
board.
should
maj
be
a
the
cross-
specifications
PIN HOLES
not
A.
Clean
side,
both
with
isopropyl
sides
a
rubber
alcohol.
of
break
eraser,
in
4-11
conductor,
then
clean
at
least
with
©NOV.
1/4
inch
an
acid
1984 PHYSIO-CONTROL
on
brush
each
and
Page 80
B.
Cutapiece
1/4
ed
bench vise.
C.
Hold
and
of
22
inch
by
the
longer
placing
wire
than
it
on
solderinplace
22
OR
24
GAGE
or
24
the
between
the
centerline
(See
SOLID
gage
solid,
break.
smooth
Figure
TINNED
tinned
The
wire
metal
of
the
4-3).
WIRE
•SOLDER
'EPOXY •
i —
copper
may
optionallybeflatten
plates
conductor,
and
(SOLDERED)'
Section
Maintenance
wireaminimum
pressing
across
the
with
break,
4
of
a
4-33.>
LAMINATE BOARD
D.
Remove
dry
with
E.
Flowasmall
and
allow
Repairing
portion
not
A.
B.
of
broken
Rinse
compressed
and
making
Apply
tance
C.
Dry
at
FIGURE
solder
compressed
Lifted
the
(See
area
remove
total
5-minute
of
at
room
4-3.
flux
amount
to
dry
at
Conductors.
conductor
Figure
to
be
air.
Be
any
obstacles
contact
epoxy
least
temperature
DAMAGED
REPAIRING DAMAGED CONDUCTOR
with
air.
room
cloth
of
5-minute
temperature
is
separated
A
dampened
epoxy
lifted
CONDUCTOR
cement
for
conductor
from
the
with
15
4-4).
repaired
sure
with
to
1/8
inch
for
with
that
undersideoflifted
which
the
substrate
surface
in
all
one
isopropyl
prevent
of
lifted
directions
hour.
surface.
isopropyl
over
minutes.
PC
board
alcohol
the
lifted
conductor
from
(OPEN)
the
is
present
surface,
conductor
conductor
and
the
alcohol
entire
and
dry
is
toadis
damaged
and
repair
when
but
with
clean
from
area.
a
is
PC
BOARD
FIGURE4-4.
LIFTED
CONDUCTOR
TYPICAL LIFTED CONDUCTOR
4-12
©NOV.
1984
PHYSIO-CONTROL
Page 81
Section 4
Maintenance
4-34.
NOTE:
Cover
and
attempted
be
replaced.
integrity
NOTE:
A.
Replacement.
1.
2.
B.
Repair.
The
length
able
shall
conductor
half
in
Case
only
inch,
Figure
Repair/Replacement.
if
the
Minor
of
the
case.
Do
not
repair
Should
replace
Replace
If
all
restoration
condition,
of
the
not
path
whichever
4-4.
damage
damage
attempt
a
severely
any
damage
defective
cross-
does
then
the
lifted
exceed
between
is
is
damage
to
conductor
one
two
is
smaller.
minor;
straighten
cracked
of
this
part.
or
strip-threaded
not
return
damaged
half
terminal
Cover
otherwise
that
does
severe
cover,
nature
damaged
parts
should
which
the
See
and
not
panel
items.
is
length
areas
dimension
case
the
damaged
effect
bends
or
be
parts
be
replaced.
repair
of
the
or
one
X
repair
or
should
part
the
structural
to
should
plate.
present,
toaserviceable
be
4-35.
LS
200
The
LS
200.
refer
1.
Remove
the
2.
Apply
with a cotton swab.
3.
If
ing
rejoined
necessary.
reassembly.
4.
Should
area can be refinished as follows:
5.
Using
the
6.
Brush
paired
ASSEMBLY
following
Refer
to
Figure
all
traces
damaged
area
with
trichloroethylene
the
is
joint
not
being
necessary;
that
will
Allow
surfaces
crocus
surrounding
apply
surface.
PROCEDURE
cloth,
area.
a
coat
paragraphs
to
Figure
4-1.
5-1,
of
grease,
repaired
not
either
be
nicked,
work
of
provide
drawing
isopropyl
however,
matching
dirt
along
the
is
hold
itself
joint
scratched
burrs
directions
and
or
other
alcohol.
line
closed,
if
a
together
to
set
or
nicks
color
parts
foreign
where
such
asacrack,
separate
for
or
burred,
down
model
for
paint
reassembly
list.
the
piece
then
24
to
For
matter
pieces
is
clamping
hours
the
the
level
to
the
wire
from
meet
clamp
being
is
before
damaged
of
re
of
the
routing
4-36.
Transformer
A.
Secure
screws
Installation.
Transformer
and
lockwashers
(100)
(78)
to
4-13
the
Pump
(114).
Support
©OCT.
Bracket
(8)
with
1985 PHYSIO-CONTROL
three
Page 82
B.
Reconnect
C.
Secure
washers
D.
Attach
screws
E.
Replace
reconnect J3 to the Interface
transformer
Pump
(75)
the
(67).
the
Support
(110).
Pump
Foam
Support
Pump
wire
Bracket
harness
to
Brackettothe
Housing
PCB.
terminals.
Chassis
on
the
(14)
Bottom
Pump
with
two
Cover
Support
Section
Maintenance
screws
(18)
with
Bracket
4
and
two
and
4-37.
4-38.
Battery
A.
B.
Servo Valve
A.
B.
C.
D.
E.
Pack
Replace
LS 200.
Secure
and
lockwashers
Connect
Harness
Secure
and
lockwasher
Secure
two
screws
Reconnect
nylon
Secure
cable
Installation.
the
Battery
the
Battery
Installation.
the
(Wl)
Servo
the
cable
the
ties
at
Valve
Servo
and
the
tubingtothe
tie
Pressure
as
indicatedinFigure
Pack
Pack
(75)
(110).
Interface/Servo
connector
(A4)
(76)
(110).
Valve
lockwashers
(A5)
Covertothe
P2.
manifoldtothe
to
two
(76)
manifold
(58).
Transducer
and
Battery
Chassis
Valve/Pressure
Pack
(14)
Chassis
Chassis-mounted
(110).
and
4-1.
elbow
Servo
fitting
Valve
Cover
using
Switch/Volume
(14)
standoffs
and
wiring
(3)
four
with
secure
with
one
(82)
in
the
screws
Wire
screw
with
with
a
nylon
4-39.
4-40.
Overpressure
After
A.
B.
C.
Pump
A.
replacing
Secure
screws
ener
Reconnect the two
the
and
(25)
Reconnect
withanylon
Installation.
Replace
place
this
Switch
is
the
Pump
assemblyonthe
Installation.
the
Servo
Switch
lockwashers
assembly
secured
terminal
tubingtothe
cable
in
tie.
Pump
Valve
(74)
with
and
to
the
(112).
one
of
connectors to the
SwitchasshowninFigure
Housing
Pump
(39)
Support
4-14
Transformer
Pump
Note
these
as
Support
that
screws
indicatedinFigure
Bracket
©OCT.
proceed
Cable
(See
Switch.
(8).
1985
as
follows:
Bracket
Tie
4-1
with
Mount
Figure
and
Fast
5-1).
secure
5-1
PHYSIO-CONTROL
two
and
Page 83
B.
Reconnect
in
C.
Reconnect
juncture
wire
position.
the
withanylon
harness
Pump
at J3 on
tubing
cable
to
tie.
the
the
Interface
Luer
"Y"
PCB
when
fitting
Section
Maintenance
that
and
secure
board
4
is
this
4-41.
4-42.
Handle
A.
Reinstall
B.
Reinstall
cable
C.
Secure
and
Charger
A.
Secure
two
B.
Secure
screws
NOTE
C.
Connect
Support
tie
the
screws
PCB
Installation.
the
kepnuts
the
and
the
Installation.
the
Volume
the
Capacitor
(60)
as
showninFigure
Handle
(68),
and
Charger
(50).
Charger
lock
washers
Do
not
reconnect
unit
Cover
has
wire
(20)
harnessatJl
Potentiometer
(13)
Support
PCB
PCB
been
to
(A6)
(72)
fully
(10)
the
to
J3
the
(115).
replacement.
Bracket
in
its
4-1.
to
the
Rear
heat
Panel
sink
Pump
on
the
assembled
and
J2
mount
Chassis
(54)
to
Support
Charger
to
on
the
using
and
(14)
with
the
Rear
Bracket
PCB
the
Charger
two
secure
with
two
Panel
until
point
PCB.
kepnuts
with
kepnut
screws
(54)
(8)
with
the
of
(50).
nylon
(50)
(64).
with
two
#*^
4-43.
Interface
NOTE
A.
B.
C.
D.
4-44. Front
A.
PCB
Installation.
When
circuit
Chassis.
Carefully
on the two Rear Panel studs and secure
lockwashers
Connect
Secure
J3
the
lockwashers
Connect J2,
Bezel
Door/Membrane
1.
Assembly.
Slide
Front
(72)
installing
replace
(51)
(115).
on
the
Interface
(75)
(110).
J3,
J5, J7,
Switch.
the
door-mounted
Bezel
(113)
securing
side
leads
the
Interface
Interface
PCB
J8,
(5)
and
Interface
of
Battery
PCB
PCB
to
the
to
the
Chassis
and J12 on the
Membrane
replace
the
Hinge
the
Plate
PCB,
do
(Bl)
positioning
Pump
wire
(14)
Interface
Switch
two
(38)
not
to
touch
the
with
harness.
with
flex
screws
to
allow
the
PCB
heat
two nuts and
six
screws
PCB.
cable
the
through
and
lockwashers
Front
sink
and
the
Bezel.
4-15
©
OCT.
1985
PHYSIO-CONTROL
Page 84
B.
C.
2.
Carefully
screws.
Printer.
in Front
(72)
Display
1.
(113).
Place
positioninthe
secure
2.
Carefully
and
3.
Connect
4.
Connect
Note
Replace
Bezel
PFC.
the
with
secure
that
align
LED-containing
three
fold
with
J2
from
J3
from
Pin 4 has no flex connection.
the
Door
the
Printer
and secure with three screws and lockwashers
Front
Bezel,
screws
the
IC-containing
three
the
the
screws
ON/OFF
DATE/TIME
before
(A7),
half
replace
and
lockwashers
and
Switch
Membrane
tightening
then
of
the
the
the
Display
shields
(72)
half
of
the
lockwashers
to
Display
Switch
the
Printer
PFC
(79)
(112).
PFC
into
(73)
PFC.
(112).
to
Display
Hinge
Section
Maintenance
4
Plate
Cover
(21)
(A2)
(80)
position
in
and
PFC.
/^\
4-45.
4-46.
Front
A.
B.
C.
System
A.
B.
C.
Bezel Installation.
Attach
J12,
Secure
washers
washers
grounding
Cover.
Attach
tie.
First reconnect J3, J2, and
Secure
Interface
Close
(62)
flex
and
J5,
Front
(76)
(76)
terminals
tubing
PCB
Installation.
System
PCB
System
mounted
cable
respectively,onthe
Bezeltothe
(110)
(110).
to
PCB
with
PCB
on
the
ribbon
and
to
When
mount
the
Front
(Al)
three
until
to
screws
secured
Interface
cable
and
Interface
Handle
the
Bottom
securing
on
screws
Bezel
Jl.
the
three
and
by
PCB.
wire
harness
PCB
Support
Cover
Bottom
between
and
(10)
(18)
Cover
secure
hinged
lockwashers
three
nylon,
connectors,
(A5).
with
lockwasher
with
with
to
Bezel,
two
two
a
Standoffs
(75)
(110).
locking
screws
screws
note
and
Bottom
nylon
(85)
on
standoffs
J7,
and
and
that
cable
the
/*%
1
NOTE:
4-47. Cover Installation.
A.
Carefully
the
B.
Attach
screws
Before
Charger
slide
instrument.
four
and
Rubber
lockwashers
replacing
PCB.
Cover
(20)
Feet
(77)
Cover
over
(28)
(110).
4-16
to
(20),
the
the
reconnectJ3on
unit
starting
bottom
©OCT.
of
the
1985 PHYSIO-CONTROL
from
Cover
the
the
rear
with
of
four
Page 85
ASSEMBLIES,
SECTION
PARTS
5
USTS,
SCHEMATICS
5-1.
5-2.
GENERAL
This
lists,
Table
For
reference information can be found in Section 6.
PARTS
A.
B.
C.
D.
section
component
5-1
those
LISTS
FIG-ITEM
assembly
each
part.
PART
part
listed.
provides
lists
I.C.'s
This
and
NUMBER
number
as
DESCRIPTION
information
are
identifiedinthis
handling
USE
CODE
configuration
for
code
for
of
PCB
This
effectivity.
exploded
layouts
the
marked
column
the
and
assemblies
with
contains
assigned
Physio-Control
specified
This
column
each
is
part
column
assemblies
column
differences.
containsanalphabetical
views
schematics
and
a
star
for
their
(*)
the
item
number
Corporation
contained
contains
listed.
by
containing
Consult
mechanical
for
corresponding
on
figure
or
in
the
nomenclature
Static
this
SSDs
the
first
electronic
the
schematics,
number
of
reference
(PCC)
this
part
column
Sensitive
symbol
is
J*** .
required.
code
entry
assemblies,
PCB
assemblies.
figure
numbers.
additional
the
illustrated
designation
number
for
and
or
each
descriptive
Devices
Special
which
in
indicates
the
part
parts
of
other
part
(SSDs)
list
f^*
5-3.
E.
QTY
particular
that
the
PARTS
Some
Corporation,
number,
ORDERING
parts
reference
substituted
of
instrument
This
may
by
column
assembly.
part
has
be
purchased
give
the
designation,
lists
The
been
listed
locally.
instrument
abbreviation
and
Physio-Controltoreflect
circuitry.
the
total
for
reference
When
model
and
description.
quantity
"REF"
purposes.
ordering
serial
of
(reference)
from
number.
Different
modifications
Static
SPECIAL
PER DOCUMENT
parts
for
indicates
Physio-Control
Include
parts
and
improvements
may
&&
ATTENTION
S«n*tth*
HANDLIN6
Davie*
REOUIREO
2000066
each
part
be
5-1 OCT. 1985 PHYSIO-CONTROL
Page 86
TABLE
/^i|k
5-1
DRAWING
802603
802603
802597
803114
803116
802583
802673
802680
802267
802675
802678
802985
803012
803020
NO.
PARTS
LISTS,
ASSEMBLY
DRAWINGS
NOMENCLATURE
LS
200
FINAL
LS 200 INTERCONNECT DIAGRAM
BATTERY CHARGER PCB ASSEMBLY
INTERFACE PCB ASSEMBLY
SYSTEM PCB
DISPLAY PFC ASSEMBLY
ASSEMBLY
ASSEMBLY
INTERFACE/SERVO/PRESSURE
INTERFACE/DISPLAY
SYSTEM/INTERFACE
RIBBON
RIBBON
POWER SUPPLY/INTERFACE WIRE
INTERFACE/SYSTEM POWER
TRANSFORMER/CAPACITOR
CHARGER
INTERFACE/PRINTER WIRE
INTERFACE/HARNESS
RIBBON
AND
SCHEMATIC
SWITCH/VOLUME
CABLE
CABLE
HARNESS
RIBBON
CABLE
WIRE
HARNESS
CABLE
WIRE
HARNESS
DIAGRAMS
HARNESS
FIGURE
5-1
5-2
5-3
5-4
5-5
5-6
5-7
5-8
5-9
5-10
5-11
5-12
5-13
5-14
NO.
802306
803008
802634
802648
PRESSURE TRANSDUCER WIRE HARNESS
ON/OFF SWITCH HARNESS
DOOR
DATE/TIME
MEMBRANE SWITCH
MEMBRANE
SWITCH
5-15
5-16
5-17
5-18
/^ik
5-2
Page 87
TABLE
5-2
LS 200 ASSEMBLY LOCATION CODES
DRAWING
803116
802583
803194
802290
803114
802597
802987
———
NO.
NOMENCLATURE
SYSTEM
DISPLAY
PUMP
SERVO
INTERFACE
PCB ASSEMBLY
PFC
ASSEMBLY
ASSEMBLY
VALVE
PCB
ASSEMBLY
BATTERY CHARGER PCB ASSEMBLY
PRINTER
CHASSIS/HARNESS
FIGURE
Al
A2
A3
A4
A5
A6
A7
A8
NO.
5-3
Page 88
Section 5
Parts Lists
/"^%
LEFT BLANK INTENTIONALLY
5-4
Page 89
••-<
Section 5
Parts
Lists
FIG-
ITEM
5-1
A1
A2
A3
A4
A5
A6
A7
U25
W1
W2
W3
W4
W5
W6
W7
W9
W10
2
NUMBER
802603-14
802603-15
802603-16
802603-17
802603-18
802603-19
802603-20
802603-21
802603-22
802603-23
802603-24
802603-25
803116-01
802583-01
803194-00
802290-07
802290-09
803114-00
803114-01
802597-00
802978-01
803004-202
803004-302
803004-402
803004-502
802673-02
802680-00
802267-02
802675-00
802678-00
802985-01
803012-00
803020-00
803008-01
90-09241
PART
12
3 4 5 6 7
LS
200
115Vac
LS
115Vac
LS
LS
LS
115/230Vac
LS
115/230Vac
LS
115/230Vac
LS
115/230Vac
LS
115/230Vac
LS 200
115/230Vac
LS
115/230Vac
LS
115/230Vac
.
.
. PUMP
.
.
.
.
.
FINAL
200
FINAL
200
FINAL
200
FINAL
200
FINAL
200
FINAL
200
FINAL
200
FINAL
200
FINAL
FINAL
200
FINAL
200
FINAL
SYSTEM
DISPLAY
ASSEMBLY
SERVO
VALVE,
SERVO
VALVE,
INTERFACE
INTERFACE
BATTERY
. PRINTER,
.
I.C,
Digital,
(See
I.C,
I.C,
I.C,
WIRING
Figure
Digital,
Digital,
Digital,
.
.
.
.
Volume
.
CABLE
ASSEMBLY,
(See
.
.
.
.
.
.
.
Figure
RIBBON
HARNESS,
CABLE
ASSEMBLY,
(See
Figure
WIRING
(See
Figure
WIRING
RIBBON
(See
Figure
HARNESS,
. ADHESIVE,
PARTS
DESCRIPTION
ASSEMBLY,
W/Printer,
ASSEMBLY,NoPrinter,
ASSEMBLY,
W/Printer,
ASSEMBLY,NoPrinter,
ASSEMBLY,
W/Printer,
ASSEMBLY,NoPrinter,
ASSEMBLY,
W/Printer,
ASSEMBLY,NoPrinter,
ASSEMBLY,
W/Printer,
ASSEMBLY,NoPrinter,
ASSEMBLY,
W/Printer,
ASSEMBLY,NoPrinter,
PCB
ASSEMBLY
PFC
ASSEMBLY
Linear
Linear
PCB
ASSEMBLY
PCB
ASSEMBLY
CHARGER
PCB
(See
(See
Bleed
Bleed,
ASSEMBLY
Plotter
2764,
EPROM,
5-5)
2764,
EPROM,
2764,
EPROM,
2764,
EPROM,
HARNESS,
(See
CABLE,
Power
HARNESS,
HARNESS,
CABLE
On/Off
Loctite,
Interface/Servo/Pressure
Figure
5-7)
Ribbon,
5-8)
System/Interface
Supply/Interface
Ribbon,
5-11)
Transformer/Capacitor/Charger
5-12)
Interface/Printer
ASSEMBLY,
5-19)
Switch
27L,
LIST
English,
English,
French,
French,
English,
English,
French,
French,
German,
German,
Spanish,
Spanish,
Figure
(See
Figure
PTB
Figure
(See
5-5)
5-6)
5-4)
Figure
(On System
(On
System
(On
System
(On
System
Interface/Display
(See
(See
Interface/System,
(See
Interface/Harness
(See
Figure
Bottle,
5-16)
50cc
UL/CSA,
UL/CSA,
CSA, 115Vac
CSA,
Intl,
Intl,
Intl,
Intl,
Intl,
Intl,
Intl,
Intl,
5-3)
PCB)«™So«
PCB)*™™^
PCB)——
PCB)-^
M'llMIION
Switch/
Figure
Figure
Figure
(Not
5-9)
Power
Shown)
115Vac
A
£^
5-10)
5-13)
*™™
*
USE
CODE
A
B
C
D
E
F
C
H
I
J
K
L
A-H,K,L
I,
J
A,C,E,G,
l,K
B,D,F,H,
J,L
A,C,E,G,
l,K
A,B,D-F,
H,J,L
C,G
I 1
K
A,C,E,G,
l,K
QTY
REF
REF
REF
REF
REF
REF
REF
REF
REF
REF
REF
REF
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
A/R
3
4
5
6
802649-00
802565-00
802099-03
802984-01
802205-00
. BATTERY COVER
.
BATTERY
.
BEZEL
. BEZEL, No
.
BRACKET,
PACK
Printer,
Mounting,
Modified
Printer
5-7
(Not
Shown)
©OCT.
1985
1
A,C,E,G,
l,K
B,D,F,H,
J,L
A,C,E,G,
l,K
1
1
1
1
PHYSIO-CONTROL
Page 90
Section
5
Parts Lists
FIG-
ITEM
5-1
7
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
PART
NUMBER
802644-03
802642-05
802974-01
802636-08
803120-00
201566-002
201619-138
802641-08
201767-000
201393-005
201296-001
802639-08
802983-00
802635-03
802362-00
802214-02
802676-11
90-10019
90-10034
201519-000
201518-001
201245-000
803121-00
200490-000
200256-140
200619-013
201203-014
201203-002
201605-001
802637-01
802679-01
802201-03
802653-01
12
3 4 5 6 7
BRACKET,
BRACKET,
BRACKET,
BRACKET,
BUTTON,
CAP,
CAPACITOR,
CHASSIS
CONNECTOR,
CONNECTOR,
CONNECTOR,
COVER,
COVER,
COVER,
COVER,
DOOR,
DOOR,
FASTENER,
FASTENER,
Screw
FITTING,
Potentiometer
Pump
Paper
Handle
Door
Closure,
Electrolytic,
Inlet,
Plug,
Plug,
Bottom
End,
Foam
Monitor
Printer
Fixed
(Not
Hinged,
Mount,
Mount,
Adjustable
FITTING, Hose, Barb,
FOOT,
Mounting,
FOOT,
Door,
Release
FOOT,
Rubber, SJ5018-B1ack,
FUSE,
Slow Blow,
FUSE,
Slow Blow, 630mA/250V, 5 X
FUSE
CARRIER
FUSE
HOLDER
GROMMET,
HANDLE
HINGE, Door
HINGE,
HOUSING,
Continuous,
Plate
Foam,
PARTS
DESCRIPTION
Spindle
Support
Release
Vinyl,
(Snap-on
1.38
115/230V,
Potential
Power,
Shown)
Printer
Cable
Tie,
Cable
Tie,
L,
Slotted
#10-32,
With Washers #8
(Snap-on
Dual
Element,
.125G,
Pump
LIST
Fit
with
Diameter
5000uF,
5 X
(UsedonC1)
±20%
20mm
Fuses
Equalization,
AC,3Contact,
Mini,
Adhesive
Screw
Mount,
Head, Brass
Brass
Fit
with
Self-adhesive
250V,
1.2/10A
20mm
Nylon,
Natural
#29)
VDE
6A/250V
Back
#8
#11)
USE
CODE
A,C,E,G,
l,K
A,C,E,G,
l,K
E-L
E-L
A-D
A,C,E,G,
l,K
B,D,F,H,
J,L
A,C,E,G,
l,K
A,C,E,G,
l,K
A-D
E-L
A-D
A-D
A,C,E,G,
l,K
A,C,E,G,
l,K
QTY
A/R
40
41
42
43
803456-03
01-50318-15
01-50318-08
01-50318-09
01-50318-10
01-50318-11
802501-02
802501-03
802501-04
802501-05
802501-10
802501-07
802501-08
802501-09
802590-00
802590-01
802590-02
802590-03
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
LABEL
Battery
Package
Caution,
Caution,
Caution,
Caution,
Caution,
Operating
Operating
Operating
Operating
Operating
Operating
Operating
Operating
Paper
Load
Paper
Load
Paper
Load
Paper
Load
Shock
Specifi
Shock
Shock
Shock
Shock
Instructions,
Instructions,
Instructions,
Instructions,
Instructions,
Instructions,
Instructions,
Instructions,
Instructions
Instructions
Instructions
Instructions
5-8
cation
English
Engli
French
French
German
German
Spanish
Spanish
A,B
E,F
C,D,G,H
I,
J
K,L
A,E
sh
B,F
C,G
D,H
I
J
K
L
A,E
C,G
I
K
©
OCT. 1985 PHYSIO-CONTROL
Page 91
Section 5
Parts Lists
FIG-
ITEM
5-1
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
PART
NUMBER
800897-01
800896-03
800897-04
800897-05
800896-09
800897-07
801517-04
801362-05
803119-01
803118-00
90-03019
90-03021
201199-100
201199-100
201393-001
802677-00
802640-12
803294-03
803294-04
802604-02
201716-000
200536-009
200536-002
200536-004
201470-011
200364-023
PARTS
DESCRIPTION
12
3 4 5 6 7
.
LABEL,
.
LABEL,
.
LABEL,
. LABEL,
.
LABEL,
. LABEL,
Serial
Serial
Serial
Serial
Serial
Serial
Number,
Number, Universal/CSA
Number,
Number,
Number, French/CSA
Number, French
. LABEL, UL
.
LABEL,
.
LATCH,
.
LATCH
.
NUT,
.
NUT,
.
NUT,
. NUT,
. NUT, Hex,
.
NUT,
Warning, Fuse,
Paw,
Door
PLATE
(Used
Hex, Kep,
Hex, Kep,
4-40X.250W/.098
4-40
Hex, Kep, 6-32 X
Hex,
4-40
X .188W X
4-40
X .188W X
Hex, Jam, Heavy,
. PAD, Foam, Pump
. PANEL,
. PANEL,
. PANEL,
. PAPER,
. PEN,
. RETAINER,
. RETAINER,
. RETAINER,
Rear
Rear,IEC
Rear,
Printer,
Printer
Cable
Cable
Cable
IEC,
LS
Tie,
Tie,
Tie,
. RETAINER, Component
. RETAINER, PCB,
Support,
LIST
English
German
Spanish
1.2
Amp/250
(Used With #11)
With
#11)
X .250W/.098 T
.250
W/.098 T
.063
.063
M6
(Used With
German,
PTB
200,1Roll
Nylon,
Nylon,
Nylon,
.10
.10
.19
Clip
Locking
T
T
T
(Not
W X
W X
W X
Volt
#16,
Shown)
4.06
8.0
12.0
Not Shown)
L
L
L
USE
CODE
E.F
A,B
I,
J
K,L
C,D
C,H
A,B
A-D
A,C,E,G,
l,K
A,C,E,G,
I K
A-D
E-L
A,C,E,G,
l,K
B,D,F,H,
J,L
E-L
A-D
E-H,K,L
l,J
A,C,E,G,
I.K
A,C,E,G,
l,K
QTY
1
1
1
l
1
1
1
1
1
1
4
2
14
2
6
1
1
1
1
1
1
1
16
1
1
1
3
63
64
65
201105-538
201105-568
201105-502
. SCREW,
. SCREW,
. SCREW,
Flat
Flat
Flat
Head,
Head,
Head,
4-40X.375L
6-32X.250L
2-56X.125
A-E
L
A,C,E,G,
2
7
10
l,K
66
201105-536
. SCREW,
Flat
Head,
4-40X.250
L
A,C,E,G,
1
l,K
67
68
69
200478-792
200478-794
200476-726
.
.
SCREW,
SCREW,
Flat
Flat
. SCREW, Pan
Head,
Head,
Head,
6-32X.250L
6-32X.375L
2-56X.125
2
L
A,C,E,G,
6
1
l,K
70
200476-727
. SCREW, Pan
Head,
2-56X.187
L
A,C,E,G,
8
l,K
71
72
200476-758
200476-760
.
SCREW,
with
Pan Head,
Printer
. SCREW, Pan
4-40X.125L(Not
Grounding
Head,
4-40X.250
Wire)
Shown,
Used
A,C,E,G,
1
l,K
L
A,C,E,G,
10
l,K
200476-760
73
74
75
76
77
78
79
80
200476-764
200476-768
200476-792
200476-793
200476-796
200476-824
802971-00
803511-01
. SCREW, Pan
. SCREW, Pan
.
SCREW,
. SCREW, Pan
. SCREW, Pan
. SCREW, Pan
. SCREW, Pan
. SHIELD,
. SHIELD,
Head,
Head,
Pan Head,
Head,
Head,
Head,
Head,
Display
Display
4-40X.250
4-40X.500
4-40X.750
6-32X.250
6-32X.312
6-32X.500
8-32X.250
Flex
Flex,
Front
L
L
L
L
L
L
L
B,D,F,H,
5
3
2
18
7
4
3
1
1
5-9
©OCT.
1985
PHYSIO-CONTROL
Page 92
Section
Parts
5
Lists
FIG-
ITEM
5-1
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
NUMBER
802638-02
201118-314
802645-00
802188-03
201421-036
802648-01
802648-02
802648-03
802648-04
802634-08
802634-09
802634-10
802634-11
802634-16
802634-13
802634-14
802634-15
201379-001
201665-001
90-08006
200276-211
200276-004
90-06068
200267-002
200514-008
PART
12
3 4 5 6 7
.
SHROUD,
.
SPACER,
.
SPINDLE,
.
SPRING,
.
STANDOFF,
.
SWITCH,
(See Figure
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
.
SWITCH,
. SWITCH,
.
SWITCH,
. TAPE,
Handle
Hex, Threaded, 6-32 X 1.000L X .250W
Support, Paper
Bezel,
Hinged,
Membrane,
5-18)
Membrane,
Membrane,
Membrane,
Membrane,
Membrane, Door
Membrane, Door
Membrane, Door
Membrane, Door
Membrane, Door
Membrane, Door
Membrane, Door
Pressure
Rocker,
Adhesive,
(Used on W2, Not Shown)
.
TERMINAL,
(Not
.
TERMINAL,
(Not
.
TERMINAL,
(Not
.
TERMINAL,
(Not
.
TERMINAL,
(Not
. TERMINAL,
(Not
.
TERMINAL,
.187X.020,
Lug, Ring Tongue,
Shown)
Lug, Ring Tongue,
Shown)
Lug, Ring Tongue,
Shown)
Lug, Ring Tongue,
Shown)
Lug, Ring Tongue,
Shown)
Receptacle,
Shown, Used
Receptacle,
AWG
PARTS
LIST
DESCRIPTION
LS 200 (Used With #11)
M/F,
6-32, 1.000 X .250
Date/Time, English
Date/Time, French
Date/Time,
German
Date/Time, Spanish
Door
(See Figure
Sensing,
DPDT,
Panel Mount, 250V
Double
With
#16-14
Stick,
Quick
#15)
Quick
(Not
SPDT
AWG
AWG
AWG
AWG
AWG
Disconnect,
Disconnect,
.500
#22-16,
#22-26,
#22-26,
#22-18,
#22-18,
Shown)
5-17)
W X
.025
#6
#4
#4
#6
#6
AWG
90°,
OD
T
#22-18
USE
CODE
A,C,E,G,
l,K
A,C,E,G,
l,K
A,E
C.G
I 1
K
A,E
B.F
C.G
D.H
I 1
J 1
K
L
E-L
A,C,E,G,
l,K
B,D,F,H,
J,L
A,C,E,G,
l,K
B,D,F,H,
J,L
E-L
QTY
1
2
1
1
3
1
1
1
1
1
1
1
1
1
1
1
A/R
1
2
1
2
1
8
2
100
101
102
103
104
105
106
107
108
109
96
97
98
99
200514-006
200916-000
200267-020
200514-000
802690-02
803026-02
200283-005
90-07023
201489-000
90-04051
90-04010
201393-002
201393-003
201351-001
.
TERMINAL,
.187X.020,
.
TERMINAL,
AWG
.
.
#22-18
TERMINAL,
AWG
#22-18
TERMINAL,
.25W/.03T,
. TRANSFORMER
. TUBING
.
TUBING,
Used
.
TUBING,
With
. TUBING,
.
WASHER,
#22,
.
WASHER,
#22,
.
WASHER,
.
WASHER,
Used
.
WASHER,
With
#17)
Not
Not
With
SET,
Heat
PVC,
Vinyl,
Flat,
Shown)
Flat,
Shown)
Flat,
Lock,
Lock,
Receptacle,
AWG
Receptacle,
Quick
#22-18
Quick
(Not Shown, Used
Receptacle,
(Not
Receptacle,
AWG
#22-18
Quick
Shown)
Quick
(Not
LS 200
Shrink,
#89)
Clear,
#4 X
#6 X
M6
.250
Red,
#10,
O.D. X
.250
.312
(Not
Shown, Used
External
#16)
External
5-10
(Not
Shown)
.250
105
.062
0D/.020
0D/.050
Tooth,
Tooth,
Disconnect,
Shown)
Disconnect,
With
#89)
Disconnect,
Disconnect,
I.D.
(Not
(Not
Shown, Used
T
T (Used
T (Used
with
M6
(Not
#6
90°,
.23W/.02T,
90°,
90°,
Shown,
with
#5 and
with
#5 and
#16)
Shown,
©OCT. 1985
2
E-L
A-D
A-D
E-L
B,D,F,H,
J,L
B,D,F,H,
J,L
E-L
E-L
4
2
3
1
1
A/R
A/R
A/R
2
2
1
1
1
PHYSIO-CONTROL
Page 93
Section 5
Parts Lists
FIG-
ITEM
5-1
110
111
112
113
114
115
116
117
118
119
120
121
122
123
PART
NUMBER
90-04014
201575-000
201575-002
201575-002
201575-005
90-04061
90-04061
802189-02
802189-03
802189-04
802189-05
802189-06
802179-01
200357-060
200357-272
200357-059
200357-274
200357-069
12
WASHER,
WASHER,
WASHER,
WASHER,
WASHER,
WASHER,
WASHER,
WASHER,
WINDOW,
WINDOW,
WINDOW,
WINDOW,
WINDOW,
WINDOW,
WIRE,
Shown)
WIRE,
(Used
WIRE,
WIRE,
WIRE,
Shown)
3 4 5 6 7
Lock,
Lock,
Lock,
Lock,
Lock,
Lock,
Lock,
Lock,
Display
Display
Display
Display
Display
Exit,
Stranded,
Stranded,
With #15 and #17)
Stranded,
Stranded,
Stranded,
PARTS
LIST
DESCRIPTION
Internal
Internal
Internal
Internal
Internal
Internal
Split,
Split,
Paper,
PVC,
PVC,
PVC,
PVC,
PVC,
Tooth,
Tooth,
Tooth,
Tooth,
Tooth,
Tooth,
#4 X
#4 X
Door
300V,
300V,
300V,
300V,
300V,
#6 X
.285
0D/.025
#6 X
.285
0D/.025
#2 X
.085
0D/.013
#4 X
.260
.260
0D/.015
0D/.015
#4 X
#8, .335 0D X .020 T
.195
0D/.025
.195
0D/.025T(Not
#18,
CSA,
#18,
CSA,
#18,
CSA,
#22,
CSA,
#18,
White/Brown
T
Brown
Green/Yellow
Blue
Creen/Yellow
(Not
(Not
T
T
T
T
T
Shown)
USE
CODE
A,C,E,G,
l,K
B,D,F,H,
J,L
A,C,E,G,
l,K
A,C,E,G,
l,K
B,D,F,H,
J,L
A,B,E,F
C,D,G,H
J
K,L
I
A,C,E,G,
l,K
QTY
31
29
3
8
6
3
4
4
1
A/R
A/R
A/R
A/R
A/R
5-11
®0CT.
1985
PHYSIO-CONTROL
Page 94
Section 5
Parts Lists
LEFT BLANK INTENTIONALLY
5-12
Page 95
Section
Parts
5
Lists
FIG-
ITEM
5-3
A6
C1
C2,3
C4
C5
C6
C7
C8
CR1
CR2
CR3
CR4
F1
J1
J2
J3
L1
Q1
Q2
Q3
NUMBER
802597-00
200204-070
200701-013
200205-046
200205-014
200966-017
200966-014
200893-034
803304-00
803305-00
802299-03
802656-02
200662-006
200534-081
200663-002
200663-000
802160-00
801175-00
801338-01
801233-01
PART
PARTS
LIST
DESCRIPTION
12
3 4 5 6 7
BATTERY
.
. CAPACITOR,
.
. CAPACITOR,
. CAPACITOR,
. CAPACITOR,
.
. DIODE,
. DIODE, GP80A,
. DIODE,
. DIODE,
.
.
.
.
.
. TRANSISTOR, PNP,
. TRANSISTOR, VFET, VN0106N3, TO-92
. TRANSISTOR, PNP, PN2907A, TO-92
CHARGER PCB
CAPACITOR,
CAPACITOR,
CAPACITOR,
Bridge,
Zener,
VSK64,
FUSE,
Fast,
CONNECTOR,
CONNECTOR,
CONNECTOR,
INDUCTOR,
ASSEMBLY
Electrolytic,
Electrolytic,
Electrolytic,
Electrolytic,
.033uF/50V,
.01uF/50,
0.1uF/50V,
10A,
8A,
50V
ICTE-12
6A
6A/32V,
Plug,
Locking,5Contact
Plug,
Locking,4Contact
Plug,
Locking,2Contact
Coil,
Toroid,
D45H11
5%
5%
10%
50V
.625L
220uF/50V,
22uF/25V,
2.2uF/50V,
10uF/16V,
X .25D
330uH,
3A
-50to+50%
100%
10%
-20%to+50%
USE
CODE
QTY
REF
1
2
R1
R2
R3
R4
R5
R6
R7
R8
R9
R10
R11
R12
R13
R14
R15
R16
R17
R18
R19
RT1
RT2
TP1-9
U1
XU1
2
3
4
5
6
7
8
9
10
11
12
13
200470-040
200257-048
200270-000
200054-126
200676-027
200527-028
200470-069
200054-262
200470-054
200470-092
200470-144
200470-113
200470-080
200470-096
200470-082
200470-064
200470-071
200486-002
200660-006
801959-00
801229-02
200907-020
802682-01
802980-00
801665-00
201199-100
200681-001
201345-001
201112-044
200478-761
200478-764
200476-760
90-04061
200431-849
. RESISTOR, 47 fl, 1/4W,
. RESISTOR,
. RESISTOR,
1.0
.10
kfl,
2W, 5%
fl, 2W, 5%
. RESISTOR, 200 fl, 1/8W,
. RESISTOR, 75 fl, 3W, 5%
.
POTENTIOMETER,10kfl,
. RESISTOR,
. RESISTOR,
75a
5.36
fl, 1/4W,
kfl,
1/8W,
. RESISTOR, 180 fl, 1/4W,
. RESISTOR,
6.8
kfl,
1/4W,
. RESISTOR, 1 Mfl, 1/4W,
. RESISTOR, 51
. RESISTOR,
. RESISTOR, 10
. RESISTOR,
kfl,
2.2
kfl,
2.7
1/4W,
kfl,
1/4W,
1/4W,
kfl, 1/4W,
. RESISTOR, 470 fl, 1/4W,
.
(SameAsR3)
.
(SameAsR14)
. RESISTOR, 910 ft, 1/4W,
. THERMISTOR,
.
THERMISTOR,
. TERMINAL,
I.C,
.
SOCKET,
. HEAT
SINK,
. INSULATOR,
.
INSULATOR,
. NUT,
Hex,
. RETAINER,
. RETAINER,
.
SCREW,
.
SCREW,
.
SCREW,
. SCREW, Pan
.
WASHER,
.
WASHER,
2.5
u,
kfl,
Point
TL494,
Contact
Bracket
Sink,
9A
10%
1.1
Test
Linear,
DIP, 16
I.C.
Heat
Silicone,
4-40
X .188W X
Toroid
Clip,
Head,
Head,
Head,
Split,
Fuseholder
Nylon,
4-40X.312
4-40X.500
4-40X.250
Pan Head,
Flat
Flat
Lock,
Shoulder, Nylon, #4 X .115 ID/.060T
5%
1%
1/2W, 10%,
5%
1%
5%
5%
5%
5%
5%
5%
5%
5%
5%
Switching
3
Hole
.18817/.900
.063T
4-40X.750L
#4 X
.195
Multi-Turn
Voltage
Silipad,
OD
L
L
L
OD/.025T
2
2
9
Regulator
TO-220
6
2
3
2
6
4
5-15
®0CT.
1985
PHYSIO-CONTROL
Page 96
Section
Parts
5
Lists
FIGURE
5-3.
BATTERY CHARGER PCB ASSEMBLY
(SHEET1OF
2)
5_16
©OCT.
1985
802597
(A6)
PHYSIO-CONTROL
/'^k
Page 97
Section 5
Parts Lists
LEFT
BLANK
INTENTIONALLY
5-19
Page 98
Section 5
Parts Lists
FIG-
ITEM
5-4
A5
B1
C1
C2,3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21-24
C25
C26
CR1
CR2
CR3,4
CR5
CR6
CR7
CR8
CR9-11
CR17
CR18
CR19-21,
23
CR24
CR25,
33-35
NUMBER
803114-00
803114-01
201426-001
200893-042
200893-034
200893-034
200205-028
200901-046
200264-000
200893-038
200893-038
200274-005
201679-003
200701-006
200893-046
801164-00
801159-00
801167-02
803307-00
802299-00
802299-00
200971-000
200971-000
802093-00
801209-01
801160-00
PART
PARTS
LIST
DESCRIPTION
12
3 4 5 6 7
INTERFACE
INTERFACE
. BATTERY,
.
CAPACITOR,
.
CAPACITOR,
.
CAPACITOR,
.
CAPACITOR,
. CAPACITOR,
.
(Same
(Same
.
(Same
(Same
.
CAPACITOR,
.
CAPACITOR,
. CAPACITOR,
.
(Same
(Same
.
(Same
.
(Same
.
(Same
.
(SameAsC11)
.
(Same
.
(Same
.
CAPACITOR,
.
CAPACITOR,
.
CAPACITOR,
.
CAPACITOR,
.
DIODE,
. DIODE, 1N5817,
.
(Same
.
DIODE,
.
DIODE,
.
DIODE,
.
DIODE,
. (Same As CR7)
. DIODE, 1N914B,
.
DIODE,
. DIODE, 1N270, 200mA, PIV 80
.
DIODE,
.
(Same
.
(Same
. DIODE,
PCB
ASSEMBLY,
PCB
ASSEMBLY, No
Nicad,
.47uF/50V,
.1uF/50V,
.1uF/50V,
With
Printer
Rechargeable,
10%
10%
10%
Electrolytic,
As
C2)
As C1)
As
C2)
As C1)
As C2)
As
C5)
As C2)
As C2)
As C2)
As C11)
As
C2)
.01uF/50V,
470pF/50V,
.22uF/50V,
.22uF/50V,
10pF/500V,
5%
20%
10%
10%
5%
.03uF/50V, +100-20%, 20 Pin
Electrolytic,
1uF/50V,
33uF/16V,
10%
1N3595, 500mA, PIV 125
1A/20V
As CR1)
Bridge,
Zener,
Zener,
Zener,
1N914B,
Zener,
VE28X,
200nS,
1N6000A, 10V
ICTE-5,
ICTE-5,
8nS,
8nS,
Tranzorb
Tranzorb
PIV 75
PIV 75
1N4732A, 5%,
As CR9)
As CR9)
1N4005,
600V,
1.0
A
Printer
PCB
100uF/25V,
1A, 400V
4.7V
Mount,
10%
100%
3.6
USE
CODE QTY
A
B
V
A
B
A
A
B
A
A
A
A
A
A
A 1
A
B 1
A
A
B
A
REF
REF
1
3
9
7
1
2
1
3
2
1
4
1
1
3
1
1
2
8
7
1
1
4
J1
J2
J3
J4
J5
J7
J8
J9
J10
J12
K1
K2
01
02,3
05-7
08,9
010,11
201582-002
200534-030
200534-027
200397-019
200396-044
201542-011
200397-009
200397-004
200396-036
200397-016
201564-000
201720-016
801508-01
801508-01
801507-01
803308-00
803309-00
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
.
CONNECTOR,
Receptacle,
Plug,
Plug,
Plug,
Plug,
Plug,
Plug,
Plug,
With
Locking,5Contact
Locking,2Contact
40
Contact
11
Contact
12
Contact
20
Contact
10
Contact
Plug,3Contact
Plug,
34
Contact
Jack,
. RELAY, DPST, 6Vdc
. RELAY,
Reed,
5Vdc,
500
Ohm
. TRANSISTOR, PNP, 2N3906, TO-92
. TRANSISTOR, PNP, 2N3906, TO-92
. TRANSISTOR, NPN, 2N3904, TO-92
(SameAsQl)
. TRANSISTOR, PNP, NA32,
Power,
TO-92
. TRANSISTOR, NPN, NA31, Power, TO-92
5-20
25
Contact
©
OCT. 1985 PHYSIO-CONTROL
1
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B
A
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Page 99
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Page 100
Section
Parts
5
Lists
FIG-
ITEM
5-4
RN1
RN2
RN3,4
RN5
RN6
RV1-10
RV11
RV12-15
TP1
U1
U3
U4
U5
U6
U7
U8
U9
U10
U11
U12
U13
U14
U16-18
U19
U20
U22
U23
U24
U25
U26
U27
X1
XU1
XU3
XU4
XU5
XU8
XU9
XU10
XU11
XU12
XU13
XU14
XU16-18
XU19
XU20
XU24
XU25,26
NUMBER
200422-083
200422-035
200422-085
200176-075
201251-009
201251-240
801959-00
802319-00
803299-00
801127-00
803301-00
801143-00
801237-00
801239-00
802323-01
802324-00
802465-100
802665-00
803298-00
801152-00
802321-00
802308-07
802310-00
200227-000
200227-000
802311-00
801124-01
803302-00
802334-00
201490-000
200907-020
200907-019
200907-022
200907-025
200675-024
200907-026
200907-021
200907-018
PART
12
3 4 5 6 7
.
RESISTOR
.
RESISTOR
.
RESISTOR
. (Same As RN2)
.
RESISTOR
.
VARISTOR,
.
VARISTOR,
.
(Same
.
TERMINAL,
I.C,
NETWORK,
NETWORK,
NETWORK,
NETWORK,
2000pF, 22V
4500pF,
As RV1)
Test
Digital,
. I.C., Digital,
. I.C.,
.
.
Digital,
l.t..,uigibal,
I.C,
Linear,
. I.C., Linear,
.
I.C,
I.C.,
I.C,
Digital,
Digital,
Digital,
.
.
I.C., Digital,
.
I.C,
Digital,
I.C.,
Linear,
I.C.,
I.C,
I.C,
I.C.,
I.C.,
I.C,
(Same
I.C.,
Linear,
Digital,
Linear,
Digital,
Linear,
Linear,
As U22)
Linear,
.
.
.
.
.
.
.
. I.C., Digital,
I f
.
.
.
.
.
. (Same As XU1)
.
.
.
.
.
.
.
.
.
. (Same As XU3)
Piaital
I.C,
Digital,
TRANSDUCER,
SOCKET,
SOCKET,
(Same
SOCKET,
SOCKET,
SOCKET,
(Same
SOCKET,
SOCKET,
SOCKET,
(Same
(Same
(Same
(Same
DIP,
DIP,
As XU1)
DIP,
DIP,28Contact
DIP,
As XU5)
DIP,
DIP,
DIP,8Contact
As XU10)
As XU1)
As XU5)
As XU14)
PARTS
DESCRIPTION
9 X
7 X
9 X
7 X 27 kfl, 1.52W,
8V
Point
MC14536,
74HC132,
74LS138,3To
/*tnUZ/j,
78L05A,
MCT-2,
Voltage
Opto-Coupler A
MC14520B,
6551A,ACIA
74LS245,
PAL10HB,
DLC-12,
LB1257,
Driver
LF353,OpAmp
74HC244,
ULN2013A,
74HC373,
LM340T-5,
LM340T-5,
ICL8212,
4011,
CMOS,
74HC08
74HC04,
Piezo
Electric
16
Contact
14
Contact
20
Contact
20
Contact
40
Contact
18
Contact
LIST
3.3
kfl, 1.1W, 2%, 10
4.7
kfl, 1.1W, 2%, 8
4.7
kfl, 1.1W,2%,
Pin
Pin
10 Pin
2%,14Pin
Programmable
NAND
Gate
Timer
(ran*
8 Demultiplexer A
DUTTer
Regulator,
Counter—-romo* >
mmium
TO-202
Jg£»
Transceiver
Programmable
Logic
Array
Printer-Controller
A
Buffer
High Voltage
JS™»
Darlington
Latch «££».
Voltage
Voltage
Regulator,
Regulator,
+5V
+5V
Voltage Detector A
NAND
AMD
Gate—
Gate
JS&*,
A
imJmoti
Inverter
Buzzer
J^
«nSw.
A^
JS™,
A
A
mSS*
USE
CODE QTY
1
2
2
1
14
1
1
1
1
A
A
A
A
A
B
A
A
A
A
1
1
1
1
1
1
1
1
1
1
1
3
1
1
2
1
1
1
1
1
1
4
3
3
1
4
1
1
2
Y1
Y2
200417-006
200417-004
2
3
4
5
6
7
8
9
802681-00
201526-000
201176-000
802980-00
803456-05
201199-100
201199-100
200536-009
201256-760
.
CRYSTAL,
.
CRYSTAL,
.
BRACKET,
.
BUSS
.
CONNECTOR,
On
J10)
.
INSULATOR,
.
LABEL,
. NUT,
.
NUT,
.
RETAINER,
.
SCREW,
1.8432
4.0000
I.C.,
BAR,
High
Receptacle,
Silipad,
Specification,
Hex,
4-40X.188
Hex,
4-40X.188
Cable
Flat
Head,
MHz
MHz
Interface,
Capacitance,
Jumper,2Contact
3
Holes,
Battery
W/.063T
W/.063T
Tie,
Nylon,
4-40X.250
5-22
(Heat
9
4.06
Sink)
Pitches
TO-220
Package
L X
L
.10
©
(Used
W
OCT.
1985
A
A
A
B
A
2
7
6
1
3
PHYSIO-CONTROL
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