Roche AVL9120,9130,9140,9180,9181 - Service Manual PDF
October 6, 2022 | Author: Anonymous | Category: N/A
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Download Roche AVL9120,9130,9140,9180,9181 - Service Manual PDF...
Description
7 Daily Maintenanc e Menu - 918 91811
DAILY MAINTENANCE?
NO
OPERATOR FUNCTIONS?
YES
Probe moves to upper position
YES Perform Daily Cleaning?
Introduce Sample
Cleaning Solution detected?
YES
CLEAN
NO
NO CleaningSolution not detected!
Perform Daily Conditioning?
YES
Probe moves to upper position
Introduce Sample
Condition. Solution detected?
YES
NO
NO Condition. Solution not detected!
YES
Remain in Daily Maintenance? NO/1min.
CLEANING AND/OR COND.PERFORMED?
YES
NO YES Calibration due?
NO
30 SECOND STABILIZATION
CALIBRATE
NA KCA READY
CONDITION
35
8 Operator Functi ons M Menu enu - 91 9181 81
*****STATUS***** **NOSnapPak**
OPERATOR FUNCTIONS?
NO
Pack detected? GLOBAL*
PROGRAM INSTRUMENT?
YES Check/Change SnapPak?
YES YES
37% 37% remaining
Change SnapPak?
NO Go to Standby Mode
YES
YES
Fluid Counter reset to 100%
NO
NO YES
New SnapPak installed?
NO *Background check in all menus except "Take out of Operation?"
***STANDBY!*** YES -> READY
Maint. due?
YES/NO
NO
YES
NO New Pack Prime ...
Leave Standby Mode?
NO
YES PRESS YES WITHIN 2s
CALIBRATE
YES
IS CALIBRATION DUE?
NO
Na K READY
YES Daily Cleaning?
NO
YES Set Time/Date?
YES
Date: 01-FEB-94 YES Time: 12:00 ok ?
Daily Conditioning? YES
CLEAN
1min/NO IS NO CALIBRATION YES DUE?
CONDITION
NO
NO NO
Date: 01-FEB-94 Time: 12:00 ok
30 SECOND STABILIZATION
NO
YES NA K
Select Parameter YES Configuration?
YES Sel. Parameter: [Na] [K] [ ] ok?
NO
READY
YES Sel. Parameter: [Na] [K] [Cl] ok?
NO Reset Sample Number?
YES
YES/ NO
SET SAMPLE NUMBER TO0
NO
YES
Shutdown Plug and YES Water installed?
Transp Housing Ref installed?
YES
Remove Water and Press YES
YES
NO NO
Remain in Operator Func? YES
in place? YES Sel. Parameter: [Na] [K] [Li] ok? NO YES Sel. Parameter: [Na] [ ] [Li] ok?
YES
NO Take out of Operation?
A Are re you su sure re? ?
YES Sel. Parameter: NO [Na] [K] [Ca] ok?
YES Sel. Parameter: NO ([Na]) [ ] [Li] ok?
New Parameter added? YES Electrodes
CALIBRATE
NO
YES Remain in Daily Maintenance?
NO
Shutdown Complete Turn Power Off
A Allll Elec lectr tro odes & Plug Removed? YES
YES
Do You Wish to DELETE all Data?
YES
Pump Windings Pump Windings Relieved?
YES
5 Relief Clamps Inserted?
YES
36
9 Program Instrum ent Me Menu nu - 91 9181 81 PROGRAM INSTRUMENT?
NO
SERVICE FUNCTIONS?
YES Enter Code: A AA AA
YES IN IN-CORRECT
CODE ERROR! RETRY?
NO
CORRECT Program QC Level 1 Ranges?
YES
Current Lot: 0000 Change Lot?
YES
Print old Values and Statistics?
NO
NO New Lot! Delete old Data?
YES
Enter last 4 Dig of Lot#: 0000 YE YES S
NO
NO NO
A Add dditio itiona nall Parameters?
YES K low K high
YES YES Na low = 1.5 1. 5 = 15.0 ok? Na high
YES = 040 = 205 ok?
Enter last 4 Dig of Lot#: 0000 ok?
NO
YES Cl low Cl high
Program QC Level 2 Ranges?
YES Ca low = 0.2 YES Li low = 050 = 200 ok? Ca high = 5.0 ok? Li high
= 0.1 = 6.0 ok?
YES
YES "see Level 1"
NO Program QC
YES
"see Level 1"
Level 3 Ranges? NO Program Normal Ranges?
YES
YES K low Na low = 136 Na high = 145 ok? K high
YES = 03.5 = 05.1 ok?
NO Program Corr Factors
YES YES
Reset Corr Factor (default)?
NO
Input/Verify Corr Factors?
YES
YES
NO
NO
Na (b) Na (m)
Remain in Corr Factors?
= =
+00.0 YES 1.000
K (b) K (m)
NO
= =
+00.0 1.000
YES
YES ProgramBicarb. Corr Factors
YES
Reset Bicarb. Factor (default)?
NO
Input/Verify Bicarb. Factors?
YES
YES
NO
NO
Remain in Bicarb Factors?
Na (b) Na (m)
= =
+00.0 YES 1.000
K (b) K (m)
= =
+00.0 1.000
YES
NO YES
Program Acetate Corr Factors
YES
Reset Acetate Factor (default)?
NO
Input/Verify A Ace ceta tate te Fact Factor ors? s?
YES
NO
NO
YES
Remain in A Ace cetate tate Factors tors? ?
Na (b) Na (m)
= =
+00.0 YES 1.000
K (b) K (m)
NO
= =
+00.0 1.000
YES
YES Program Urine Corr Factors
YES
YES
YES
Patient Report off?
YES
Remain in Program Func?
YES/NO NO
NA K
NO
Print two Patient Reports?
YES/ NO
Remain in Urine Factors?
Na (b) Na (m)
= =
+00.0 YES 1.000
NO
A Aut utom omatic atic Cal Report?
READY
K (b) K (m)
= =
+00.0 1.000
YES YES/ NO
Enter Comment Line? NO
A Act ctiv ivat ate e Data Link?
NO
NO
YES
YES
NO
Program Interface?
Input/Verify Urine Factors?
YES
NO
Program Printer Setup?
Reset Urine Factor (default)?
NO
YES Ent Enter er Comment: _ YES
37
10 Servi Servi ce Functi ons M Menu enu - 91 9181 81 SERVICE FUNCTIONS?
NO
CALIBRATION?
YES Test Electrodes?
*same for Std. A, B, C
NO YES
YES Std. A*: Na = 0000 K =0000 Ca = 0000
Test Standard A *?
NO
Test External Sample?
YES
Introduce Sample
Retract Probe -> YES
NO NO
YES NO
YES
Remain in Test Electrodes?
NO
Ext.: Na = 0000 K = 0000 Ca = 0000
NO Test Sample Sensor?
YES
DRY: 80-120: 102 YES YES=Pump/NO=Exit
External: 102 Pump: NO=OFF
wash...
NO Test SnapPak Sensor?
YES
SnapPak: I I=In O=Out
YES/NO
YES
Language Switch English
YES/NO
YES
U=0 L=1 Sample Position?
NO Test LanguageSwitch? NO Test Probe?
Probe moves to extended
Probe moves to upper
U=0 L=0 Upper Position?
position
U= 0 L=0 Cup Position?
position
NO Tray moves to mid position
Probe moves to upper position
Probe moves to lower position
U= 0 L=1 Exit Probe Test?
YES
U=0 L=0 Lower Position?
Probe moves to cup position
Tray moves to cup position
Probe moves to upper position
Tray homes
Probe moves to lower position
NO Test Sampler? NO Test Pump?
YES
Test Pump! Very slow speed
2s
Test Pump! Slow speed
2s
Test Pump! Medium speed
2s
Test Pump! Fast speed 2s
NO NO
YES Test Valve A: YES/NO=ON/OFF
Test Valves?
NO
NO Test Interface? Jump Pins 2&3
YES YES
-- Test --- Interface --
Interface ok!
Remain in Test Interface?
Test Valve V: YES/NO=ON/OFF NO
NO Test Valve R: YES/NO=ON/OFF
NO
NO Test A Am mplifi ifie er? r?
NO Test Valve C: YES/NO=ON/OFF
Test Valve B: YES/NO=ON/OFF
YES
Na = -1030 K = -1200 Cl = -1093
NO
Ground -2500mV
= 2 NO = -2496
NO
NO
NO
Temp (mV) = -2670 Temp(°C) = 26.2 YES
Enter Service Code?
YES
Enter Code: A AA AA ok?
YES
NO
YES
Code A Acc ccep epted! ted!
NO YES
Remain in in Service Func?
Is Code valid?
YES
Code Error! Retry?
NO Calibration?
Calibrate...
NA K CA READY
Enter Other Service Code?
NO
38
11 Calibr atio ationn Sequence - 918 91811 (1) (Example Na/K/Li Calibration)
CALIBRATION?
A
YES
A As sp. Std td.. A into into Meas. Chamber
Ca Calibration libration in in Process 124
Clear Sample Path
Standard A detected?
NO
** **STANDARD STANDARDA** NOT DETECTED
YES Calibrate Sample Sensor
Sample Sensor Voltage ok?
Obtain Electrode Voltages Std. A NO
***CHECK*** SAMPLE SENSOR
3 Std. A Values obtained?
NO
YES
YES Prime Standard B
A Are re Values lues reproducible?
NO NO
6 Aspir. of Std.A performed?
YES Prime Standard C
YES YES
A Asp spir. ir. Std td.. B into into Meas. Chamber
A Att lea least 1 Channel reprod. ? Channel NO
Standard B detected?
Prime Standard A
NO
** **STANDARD STANDARDB** NOT DETECTED
YES A Allll 3 Stan tanda dard rds s not detected?
YES
*********CLOG******** CHECK FLUID PATH
Obtain Electrode Voltages Std. B
YES
**STANDARD X/Y** NOT DETECTED
Calc. of Std.AStd.B (slope)
YES
** **STANDARD STANDARDX** NOT DETECTED
NO Two Standards not detected? NO Standard A,B,C not detected? NO Pressurize Ref. A Asp sp.. Std. td. A into into Meas. Chamber NO
Perform Wash Cycle
NO
1st
Reference Housing ok?
2nd
try try
YES
tr try y
A
A Att lea least 1 slop lope in Range?
***CHECK*** REF HOUSING
B
NO
***CHECK*** ELECTRODES
***CHECK*** ELECTRODES
39
11 Calibr atio ationn Sequence - 918 91811 (2)
C
B
A As spir. Std. td. A into into Meas. Chamber
A Att lea least 1 slop lope in Range?
NO
***CHECK*** ELECTRODES
NO
NA K LI READY XX, XX NOT CAL'D
NO
NA K LI READY XX, XX NOT CAL'D
YES Standard A detected?
NO
** **STANDARD STANDARDA** NOT DETECTED
YES
YES
A As spir. ir. Std. td. C into into Meas. Chamber
Standard C detected?
A Allll Std td.A .A volt. reprod.? NO
**STANDARD C** NOT DETECTED
YES Obtain Electrode Voltages Std. C
Perform Wash Cycle
A As spir. Std. td. A into into Meas. Chamber
Standard A detected? YES Obtain Electrode Voltages Std. A
Calculation of Std.A-Std.C (Use last Std. A) C
Slope A-B and A-C ok for all Electrodes?
NO
** **STANDARD STANDARDA** NOT DETECTED
YES NA K LI READY
40
12 Power-up - 918 91811
Power-up
AV AVL9180 A8 A80X1.AA .AA WARM UP
All All dots lit for 1/2 sec.
Cold start?
YES
Se Sett Time/Date
Date: Time:
NO
1-JAN-95 12:00 YES
Power Fail 1-Nov-95 1:12 (Print)
NO
*Background check in all menus except "Take out of Operation" and "Service Functions"
Pack in place? Global* YES
YES *****PLEASE***** *******WAIT******* (Wash)
Perform Daily Cleaning?
NO
YES Clean/Cond. needed?
Perform Daily Conditioning?
NO
Remain in Daily Maintenance?
NO 1min
YES
YES
YES Clean...
Is Calibration due?
Stabilizing 30 sec.
Condition...
NO YES
AV AVL9180 A8 A80X1.AA .AA WARM UP 59
NO
Clean/Cond. needed? NO
NO
Calibration...
Pack inserted? Global*
****STATUS**** **NO SnapPak** Pack in place? Global*
YES
New SnapPak installed?
PRINT FUNCTIONS?
YES READY
NO
NO
QC/STD/DAILYSATE /URINE SAMPLE?
NO
DAILY MAINTENANCE? NO
NO
NO CALIBRATION?
Reset counter to 100%
*Background check in all menus except "Take out of Operation" NO and "Service Functions"
NO
NA K CA
YES
SERVICE FUNCTIONS?
NO
PROGRAM INSTRUMENT?
NO
OPERATOR FUNCTIONS?
NO
41
3.4 3.4 Se Servic rvic e Functio ns The Service Functions mode provides a menu of service test functions to assist in failure diagnosis and identification. identification. A logic flow chart is provided for reference of the sequences included in the Service Functions mode.
TEST ELECTRODES
This mode allows for the measurement and display of electrode voltages. Standard A, Standard B or an external sample can be measured to determine electrode performance and provide measurement data useful in locating electrode calibration faults. Each electrode parameter will be displayed and the electrode voltage associated with the sample type selected can be observed. Example Displays: Std. A: Na=1582 K= 654 Cl=-904
Std. B: Na=237 K=-988 Cl=647
Ext: Na=1321 K=-598 Cl= -127
TEST SAMPLE SENSOR
In this mode, the sample sensor output is displayed which is useful for electrical adjustment or for troubleshooting sample sensor faults. A dry sample sensor should display a value of 100 with a range of 80 to 120. After verifying a dry sensor, aspiration of a clear fluid (i.e., water) should increase the displayed value by at least 40 units. Example Display:
DRY 80-120: 102 YES=Pump/No=Exit
External: 153 Pump: NO=OFF
42
TEST SnapPak SENSOR (9180 and 9181 only)
In this test, the SnapPak Sensor detects whether the ISE SnapPak™ is in plac place. e. "I "I"" indi indica cate tess that that the the IISE SE S Snap napPak Pak™ ™ iiss iinn plac place, e, ""O" O" in indi dicat cates es ttha hatt iitt iiss either not present or not completely seated. Example Display: SnapPak: I I = IN O = OUT
TEST LANGUAGE SWITCH (9180 and 9181 only)
This mode displays the the language selected for di display splay and printout. To change the selection, set the language switch (located behind printer) to the desired language. The display will indi indicate cate the language choice according to the swi switch tch setting. To activate a new language, turn the analyzer off and back on wi with th the switch set to the desired language. Example Display: Lanugage Switch English
TEST SAMPLE DOOR (except 9181)
This test verifies the operation of the sample door light gate and its associated circuitry. The display indicates an “O” or “C” depending on the position position of the door. Example Display: Sample Door: C C:Closed/O:Open
43
TEST PROBE (9181 only)
This test verifies the operation of the sample probe motor, position sensor and associated circuitry. The "U" represen represents ts the output of the upper position sensor, the "L" represents the output of the lower position sensor. Example Display: U=0 L=1 Sample Position?
TEST AUTOSAMPLER AUTOSAMPLER (9181 only)
This test verifies the operation of the Autosampler turntable assembly. The display indicates the output of both the position and home sensors. Note: If the Autosampler is not plugged in or the TABLE PRESENT bit is not activated, this test will not appear under the SERVICE FUNCTIONS menu.
Example Display: Home: 0 Pos = 1
TEST PUMP
This test turns on the peristaltic pump at each of the four pump speeds. The display indicates for two seconds each pump speed while each pump speed is being tested. Observe that the peristaltic pump changes speed as is indicated on the display. *** Pump Test *** Very Slow Speed
*** Pump Test *** Slow Speed
*** Pump Test *** Medium Speed
*** Pump Test *** Fast Speed
44
TEST PINCH VALVES
This test turns on/off each solenoid valve as indicated and is useful to verify both electronic control and mechanical operation of each solenoid valve.
TEST INTERFACE
The Interface Test can be used to verify correct operation of the RS232C serial port. To operate this test, jumper pin 2 and pin 3 of the rear interface connector prior to invoking the test. During the interface test, the analyzer sends out a test string and checks if it is received within a set period of time. If correct operation is observed after completion of the test, INTERFACE OK will be displayed.
TEST AMPLIFIER
The Amplifier Test displays ground, reference and output voltage of each input amplifier. The values displayed for each electrode channel will be dependent on the electrode inputs and may vary. Display of the ground should read between -10mV and +10mV with the reference voltage reading between -2490mV and -2510mV. With all inputs open, the display display should read +/- 4095 for each channel. On the 9140/ 9180/9181, an additional display indicating the temperature voltage and temperature in degrees C is available to verify the temperature adjustment.
ENTER SERVICE CODE
Service Codes are available and allow additional programming features. Following is a listing of the available Service Codes and functions: Set
Reset
Ser v i c e Cod e Des cr i p t i on
A LL
LL A
This service code will enable the Ca++ value during automatic serum/blood measurement. Special precautions are necessary to obtain the correct Ca++ value due to sample exposure to room air.
(9181 only)
CDC
Clears all Service Codes.
45
DE C CED
Provides one additional digit of resolution for each measured parameter for blood and serum samples. QC and Standard samples are always displayed with high resolution. Urine samples are al always ways displayed in low resolution.
E C O O CE
Allows themode. operator run the instrument the economy Thetoinstrument will ente enterrinthe STANDBY MODE. Thi Thiss oc occur curss at the ti time me of of th thee next 2-point calibration when no samples have been analyzed anal yzed ssinc incee the llast ast 22-poi -point nt cal calibr ibrati ation. on.
FIF
Allows printing of electrode voltages during printout of measurements and calibrations. (not available for 9140)
I FI
L E M M EL
(9 (918 180/ 0/91 9181 81 only only))
This service code will print the last 20 error messages with with the the da date te an andd ti time me of oc occu curr rren ence ce..
MGL LGM
This service code is available only in the model 9140/ 9180/9181 analyzer and enables Ca++ values to be displayed in mg/dL. The normal mode displays values in mmol/L. QC and Standard results are alw always ays displayed in mmol/L.
NOB BON
This service code disables the beep.
(9180 /9181only) QCC C C Q
When this code is enabled, QC values will be reported in direct ISE measurement instead of flame-equivalent val values. ues. to In the thismeasured mode mode,, correlat correlation ion facto factors rs are NOT applied values.
SFC
(9180/9181 oonnly) SLC
CL S
(9 (918 180/ 0/91 9181 81 oonl nly) y)
S S C CS S
(9181 only)
This code allows the input of a percentage for the ISE SnapPak TM counter. When this code is set, the current setting of the leasing co coun unte ter, r, wh whic ichh ccan anno nott bbee res reset et by th thee ope opera rato tor, r, is print pri nted ed on tthe he ccali alibra bratio tionn repor report. t. This code toggles needle height to accommodate smaller sample cups. In the default setting, the analyzer works with 2.0 mL cups. To select 0.25 0.25 mL sample cups, SSC has to be activated. activated. To return to the ddefault efault se sett ttin ing, g, CSS has to be activated.
46
CODE
FUNCTION
9120
9130
9140
91 9180
9181
ALL
Enables Ca++ during autom. blood blood/s /ser erum um meas measure ureme ment nt
CDC
Clears all Service Codes
X
X
X
X
X
DEC
Additional display resolution
X
X
X
X
X
ECO
Economy Mode
X
X
X
X
X
FIF
Cal voltages on display
X
X
X
X
LEM
Last 20 error messages printe pri ntedd
X
X
MGL MG L
Display mg/dL
X
X
X
NOB
No beep
X
X
QCC
QC values direct ISE measurement
X
X
X
SFC
SnapPak Counter input
X
X
SLC
Set "Leasing Counter"
SSC
Small Sample Cups
X
X
X
X
X X
ANALYZER RESET
Press YES an andd NO keys simultaneously and turn power off and back on to provide a total reset of the instrument software. CAUTION! All QC Data and Instrument Programming will be lost. lost.
WARM-UP BYPASS
Press YES and NO keys simultaneously during instrument warm-up.
47
4
Des c r i p t i o n o f Mo d u l es
4.1
Mech chaan ica icall A ssse sem m bbliliees
4 . 1. 1
Front ront Doo Doorr Asse Assemb mbly ly
For the 9120, 30, 40 and 80 analyzers, the front door can be removed by moving the analyzer to the edge of a work surface so the analyzer door, when opened, will extend past the edge of the the work surface. With one hand, hol holdd the analyzer door near the right side hinge pin and, with the other hand, gently apply pressure to the middle rear area of the door. This will allow the righ rightt hinge pin to clear the retaining hole in the main main chassis. The door can then be removed from the analyzer. The 9181 front panel can be removed by tilting it slightly away from the analyzer and lifting it straight up. The plastic window can also be replaced in the field by gently pressing from the rear of the window and snapping the plastic window out toward the front of the analyzer door. The door magnets cannot be replaced in the the field as they are glued in place with conductive adhesive. 4.1.22 Needle 4.1. Needle Unit Assembl y
Both sample needle and fill port are designed for easy replacement by the user. To remove the fill port assembly for replacement, pull the fill port holder towards the front for easy access. Then, press the two plastic ttabs abs on the fill port to allow removal of the fill port from the fill port holder. The sample needle can also be removed and is supplied as a one-piece assembly including the intake tubing. To remove the sample needle, grasp the needle near the white holder block and pull up to unsnap the sample needle from its position. To replace the assembly, align a replacement sample needle and press the replacement assembly into place. Three screws located on the left side of the assembly hold the needle unit assembly in place. To access the two rear screws, turn power off and remove the rear panel. The rear panel can be moved away from the unit for easier access by unplugging the wire harness from the power supply. The SBC board can now be removed by removing the screws which secure the SBC board and disconnecting the cables on the SBC board. Disconnect the conn connector ector to the lamp boa board rd which supplies the the Door Open signal. The two rear screws which secure the needle needle unit can now be removed using an Allen wrench. Then, remove the front securing screw, the sample intake tubing and the reagent supply tubing tubing (red tag) from the fill port. The needle unit can now be removed from the front of the analyzer for replacement. Reference the Illustrated Parts diagram in Section 8 for a detailed parts diagram of the needle unit.
48
4.1.3 4.1 .3 Electrode Holder Holder Assembly
To remove the electrode holder assembly from the analyzer, first unplug the sample intake tubing on the right side of the module, then the sample sensor cable, then remove the reference solution tubing connector and last, take out the waste tube (green tag) at the the left side of the electrode hol holder. der. The electrode holder can now be removed by pressing the two plastic tabs (right and left side of the module) and sliding the module forward. Press the plastic tabs again to release the second detent and completely remove the module from the analyzer. The sample sensor and/or the left side electrode holder can be removed and replaced by removing the screws on the under side of this module. The Illustrated Parts List in Section 8 provides a detailed reference of the parts of this assembly.
4.1.4 4.1 .4 Peris Peristaltic taltic Pump Assembly Assembl y
Replacement of the roller assembly of the peristaltic pump can be accomplished by re remo movi ving ng the the ppum umpp tub tubin ingg aand nd fi firm rmly ly pu pull llin ingg tthe he ro roll ller er as asse semb mbly ly to towa ward rd th thee front. To replace the roller assembly, align the roller and the the flat on the motor shaft and press the replacement roller into position. To remove the motor, first remove the rear panel assembly and SBC Board as described in Sections 4.1.7 and 4.1.8. Now, the electrical connector on the lamp board can be accessed to unplug the motor connector. The motor can now be removed by removing four screws located on the front of the housing near the peristaltic pump.
4.1.5 Solenoid Assembly
Removal of each solenoid is is identical. Each solenoid valve has a removabl removablee pressu pre ssure re ppiec iecee which which is hheld eld in pplac lacee by a sole solenoi noidd cap. cap. To remo remove ve tthe he ppres res-sure piece, locate the arrow on the solenoid cap and remove the solenoid cap by slid slidin ingg itit off off tthe he sole soleno noid id sh shaf aftt iinn tthe he di dire rect ctio ionn of of tthe he arro arrow. w. This This ex expo pose sess tthe he pressu pre ssure re ppie iece ce w whic hichh ca cann no now w be remove removedd fr from om the the sole solenoi noidd shaft shaft.. To repl replace ace pressur pre ssuree pi piece ece aand nd ccap, ap, ener energiz gizee th thee soleno solenoid id aass descri described bed iinn Se Secti ction on 3.2 3.2 (Test (Test Valves). This extends the solenoid shaft to the outermost position for ease in replacing pressure piece and cap. Removal of the pressure piece and cap iiss required prior to removing the solenoid and allows for easier replacement of the tubing under each solenoid.
49
To remove the solenoid assembly, assembly, the rear panel and the SBC Board described described in Section 4.1.8 must be removed first. Each solenoid has an electrical connection to the lamp board which must be unplugged prior to removal of the solenoid. At this point, poi nt, rem remove ove the the tw twoo sc screw rewss on the the fr front ont panel panel to rrem emove ove th thee sole solenoi noidd assem assembly bly..
4.1.6 Printer Assembly
The printer assembly is designed to allow for easy removal by the user which can be accomplished without removal of the electrical power to the analyzer. Slide the paper pap er ttray ray for forwar wardd to allow allow aacce ccess ss ttoo th thee print printer, er, tear tear th thee paper paper roll roll an andd co compl mplete etely ly remove it together with the paper tray. Slide fingers under the printer assembly and pull pu ll the the ppri rint nter er forw forwar ard. d. This This will will dise diseng ngag agee tthe he prin printe terr fro from m tthe he in inte terc rcon onne nect ctor or an andd enable removal of the assembly from from the front of the analyzer. Removal of the print pri nter er sshou hould ld bbee pe perfo rforme rmedd for for re repl place acemen mentt an andd fo forr re remov moval al of of a ppape aperr jjam. am. To replace the printer, locate locate the printer slide and insert the the printer assembly. Press firmly into place to ensure electrical connection of the printer. Note: Never attempt to dislodge paper from the printer with a paper clip or similar object to avoid damage to the print head or printer platen.
4.1.77 Rear 4.1. Rear Panel Panel Assembly Ass embly
To remove the rear panel assembly, ensure that the power cord has been disconnected. Remove the four corner screws to expose the rear panel. The power supply module located on the rear panel assembly can now be removed by removing the three screws securing the circuit board and by disconnecting the wiring interconnections. The main power receptacle can also be replaced by removing the two screws holding this assembly. 4.1.8 SBC Board
After the rear panel (Section 4.1.7) has been removed, the SBC Board is accessible for removal. This circuit board can be removed by removing the seven screws securing the board to the housing and by disconnecting electrical connectors from the power supply module, display board and lamp board. The electrode push pins can now be replaced by simply pulling the connecting pin from its socket. When installing the board, make sure to place the plastic washers under the screw heads.
50
4.1.9 Lamp Board
The rear panel and SBC board must be removed to gain access to the lamp board. boa rd. Rem Remove ove one scr screw ew and and w wash asher er w whic hichh ho hold ld the the boar boardd in place place aand nd remove the electrical connectors to remove this board.
4.1.10 Display Board
The rear panel and SBC board must be removed to gain access to the display board. boa rd. Rem Remove ove tthre hreee screws screws and 50 ddegre egreee sp space acers rs an andd un unplu plugg the the sampl samplee sensor cable from the front and the ribbon cable to the SBC board to remove the display board.
51
4.2 4.2 Fluidic M Module odule 4.2.1 Standard A
Standard A is drawn to the electrode module by vacuum provided by the peristaltic pump. pum p. Whe Whenn St Stand andard ard A is to bbee as aspir pirate atedd in into to the the eelec lectro trode de m modu odule, le, soleno solenoid id valve A is opened and solenoid solenoid valves B, V and R are closed. Standard A is then drawn from the ISE SnapPak TM, to the fill port, through the sample needle and is sensed by the sample sensor. At this point point,, solenoid valve V is opened and sol soleenoid valve A is closed as the peristaltic pump continues to pump Standard A into the electrode module. module. As the trailing edg edgee of the Standard A sample is sensed by the sample sensor, the peristaltic pump stops. During the time Standard A is aspirated into the electrode module, the reference housing is pressurized due to the peris per ista talt ltic ic pump pump pr prov ovid idin ingg ppres ressu sure re ttoo tthe he ref refer eren ence ce ssol olut utio ionn llin inee and and solen solenoi oidd val valve ve R being closed. An amount of reference solution is forced out through the reference juncti jun ction on ttoo pr provi ovide de ccont ontact act to the the ssamp ample. le. 4.2.2 Standard B/C
The process for Standard B/C is identical to that of Standard A with the exception of the operation of solenoid valves valves B and C. These solenoid valve valvess are operated in reverse order of Standard A aspiration. 4.2.3 Reference Solution
The reference housing is filled automatically using the second winding of the perist per istal alti ticc ppum umpp and and so sole lenoi noidd vval alve ve R R.. The The re refer feren ence ce ssol olut utio ionn conne connect ctor or aall llow owss for for the reference housing tubing to be plugged into the reference solution circuit. As the perist per istalt altic ic pum pumpp as aspi pirat rates es rrefe eferen rence ce sol soluti ution, on, soleno solenoid id vvalv alvee R iiss opene openedd to al allo low w excess solution to be pumped into the reference return line of the ISE SnapPakTM. 4.2.4 Waste Liquids
Calibration standard and sample waste are pumped out of the left side of the electrode module (green-banded tubing) through the peristaltic pump to the waste line of the ISE SnapPakTM. An internal one-way valve iiss incorporated int intoo the TM waste line of each ISE SnapPak to prevent any waste products from leaking out of the ISE SnapPakTM.
52
4.2.5 Main Tube Set
The main tube set is supplied as a pre-cut tubing harness with the fluidic interconnections preassembled. Replacement of the tube set should be performed annually. For removal of the ttubing, ubing, first remove the ISE S Snap napPak Pak TM from the reagent compartment. This will allow access for removal of the white TPR TM
bloc bl ockk w whi hich ch iisblock s the the ma main inte interco rconn nnec ecti tion ongrasping betw betwee eennthe tthe hefront ISE surface Snap SnapPak Pak the tubing. This caninbe removed by and and pulling pulling forward. Next, remove tubing from each solenoid valve. Follow the procedure outlined in Section 4.1.5 for disassembly of the solenoid valves to enable fluidic tubing to be easily removed at each solenoid. Pull the two pump windings at the peri pe rista stalt ltic ic pum pumpp tub tubee se sett off off tthe he pum pumpp roll roller er and and remove remove th thee whi white te ref refere erence nce solution tube connector. Remove the white TPR reference solution block by grasping the front of the block and pulling pulling forward. The three tube connections are labeled with green, blue and red tags. All remaining tubes can now be removed and the entire tubing harness can be discarded. Fit the replacement tubing harness and assemble in reverse order as disassem bly. bly. Ref Refere erence nce the Tub Tubee Di Diagr agram am on on tthe he next next pag pagee fo forr co corre rrect ct ttube ube lo locat cation ions. s.
53
M A R G A I D C I D I U L F 0 4 1 9 , 0 3 1 9 , 0 2 1 9 L V A
T R O P L L I F
E L E P B O M A R S P
E B Y O L R B P M E E L S P A S M A S
T N E V R I A
T O D
l a C C
W O L L E Y
K a N F E R
E U L B
D E R
V D I O N E L O S
Y S S A E D O R T C E L E
P M U P I R E P
B D I O N E L O S A D I O N E L O S
N E E R G
R
T O D W O L L E Y
E R C O N T E C R E E N F N E O R C
R D I O N E L O S
O T C E D I N U N L O F C N R U T E R . F E R
F E R
E T S A W
C B A ) D E S U T O N (
K C A P D I U L F
54
M A R G A I D C I D I U L F 1 8 1 9 / 0 8 1 9 L V A
T O D W
T R O P L L I F
E L E P B O M A R S P
E B Y O L R B P M E E L S P S A M A S
T N E V R I A i l a L C C
O L L E Y
K a N F E R
E U L B
D E R
V D I O N E L O S
Y S S A E D O R T C E L E
P M U P I R E P
B D I O N E L O S A D I O N C E L D I O O S N E L O R S
N E E R G
T O D W O L L E Y
E R C O N T E C R E E N F N E O R C
R D I O N E L O S
O T C E D I N U N L O F C N R U T E R . F E R
F E R
E T S A W
C B A K C A P D I U L F
55
4.3 Electronics 4.3.1 ISE SBC Card Powerr Circuits Powe Circuit s
Power is supplied to this circuit board through connector JP3 from the power supply assembly. Test points are provided to measure supply voltages, and light emitting diodes D1 through D5 are turned on to indicate each supply voltage presen pre sentt on the car card. d. Since Since eac eachh LE LED D iiss conne connecte ctedd in series series after after tthe he ffuse use,, a bblow lownn fuse results in the respective LED turned off. Four additional voltage voltage regulator circuits circuits are mounted on the ISE SBC II Card. IC U2 and IC U3 provide -8 VDC and +8 VDC (9180/9181: -5 VDC and +5 VDC) and are used to provide the supply voltages for the analog circuitry. IC U1 develops the supply voltage used to operate the peristaltic pump and provide either +10 VDC or +22 VDC. The +22 VDC is supplied only for the FAST speed and +10 VDC is used for all other pump speeds. Signal FAST/SLOW determines which supply voltage is selected. U5 switches the voltage between 22VDC and 12.5 VDC which supplies the solenoids. When a soleno solenoid id is turned on, the vol voltage tage switches switches to 22VDC for 0.5 sec, then it returns to 12.5 VDC. The circuit which includes Q7 and R5 provides necessary switching for the measuring chamber illuminator LED’s. The following list identifies the test points, fuses and LED’s for each respective DC supply voltage: Tes t Poi n t
Vo l t ag e
Fu se
Rat i n g
TP1 TP2 TP3 TP4 TP5 TP6 TP7 TP8 TP9 TP10 TP11 TP12 TP13 TP14
+24 VDC F3 +5 VDC F1/F2 -12 VDC F4 +12 VDC F5 Ground -8 VDC (9180/9181: -5 VDC) +22/12 VDC +8 VDC (9180/9181: +5 VDC) N a+ Channel K+ Channel ++ Ca /Cl- Channel (Li+ 9180/9181 only) Temperature +10.000 V Ref. Voltage -2.500 VRef. Voltage
TP156
S enDsoCr +a2m 2/p1l2e.5SV
L ED
D3 D1/D2 D4 D5
56
Valve Drivers
The solenoids are activated by transistors Q9 - Q13. To open the solenoid, a 0.5-second pulse of 22 volts is applied, then the voltage drops down to 12.5 volts to hold the solenoid open.
Pump Motor Driver/Cover Driver/Cover Sensor
The pump driver circuit IC U9 and IC U10 provide the drive and control for the peristaltic pump. Signals PUMPEN, Pump Enable and PUMPSTEP, Pump Step Pulses enable IC U10 to provide the necessary control to driver IC U9 which supplies pump drive signals PHASE A through PHASE D to control peris pe rista talt ltic ic pum pumpp ooper perat atio ion. n. IC U11 operates with signal DCLOSED from the sample door light gate to provid pro videe si signa gnall D DOOR OOR whi which ch ddete etects cts the sta status tus of the the samp sample le ddoor oor (op (open en oor r closed).
Input Amplifiers
IC U13, U14 and U15 (9180/9181: U13 only) provide high to low input impedance matching for each Electrode input. Offset generator IC U12D and amplifiers IC U12A, U12B and U12C provide the necessary gain and offset for each electrode channel. TP9, TP10 and TP11 provide test points for the Na+, K + and Cl-/Ca++/Li channels respectively.
Temperature Sensor
This is an optional circuit which is used in the 9140, 9180 and 9181. The circuit creates a temperature-dependent voltage which is converted by software to degrees C. R54 can be adjusted for correct temperature setti setting. ng.
Analog Anal og Channel Selector Selecto r and an d A/D A /D Converter Conv erter
Analog inputs from the input amplifiers are selected via signals ADSEL0 through ADSEL2 and are multiplexed by IC U19. This multiplexed signal is then fed to the A/D Converter IC U20. IC U21 supplies the necessary reference voltage (2500mV) for the A/D Converter and can be measured at TP14.
57
Microprocessor
Microprocessor IC U31, EPROM IC U25 (9180/9181: U40) and MOSTEK Real Time Clock/RAM IC U22 form the components of the central processing system. IC U23 Address Demultiplexer, IC U24 Programmable Array Logic (PAL) and IC U28 provide serial data buses (9180/9181: U23, U24 and U28 not present). IC U34 through IC U38 convert serial data to parallel data and provide printer data, display data, solenoid valve control and peristaltic pump control. This fashion of serial to parallel data conversion is used to prevent analyzer lock-up by peripheral devices. The RS232 serial interface is a direct input/output from the microprocessor utilizing interface driver and receiver U29 and U30.
SnapPak Sensor (9180/9181 only)
Optical detector ISO1 provides a signal indicating if the ISE SnapPak™ is in place. This signal is fed to U41 which converts the light gate input to a digital logic output indicating SnapPak position (IN or OUT).
4.3.2 Lamp Board
The lamp board contains the LED array used to illuminate the measuring chamber and the interconnectors used for all solenoids, the peristaltic pump, door sensor and sample turntable (9181 only). A ribbon cable from the SBC Board supplies the electrical connection for each signal through connector JP6.
4.3.3 Display Board
The display board contains the LCD display, sample sensor connector and the YES and NO switches used for operation operation of the analyzer. Power and signal interconnection is accomplished via a ribbon cable from the SBC board through JP2 on the display board. Display boards utilized in the 9181 analyzer also contain circuitry for both the needle mechanism motor control and position sensor. The autosampler "Table Present" signal is also buffered through U1 on this board.
58
5
Mainte intena nann ce and Tro rouu b le less hoo hoo ti tinn g
Maintenance procedures for the 9120, 30, 40, 80, 81 Analyzers require minimal time by the operator to to perform. The procedures outlined below should be perfor per formed med by tthe he ssche chedul dulee in indic dicate ated. d. Detail Detailed ed iinst nstruc ructio tions ns for for tthes hesee pr proce ocedur dures es ccan an be foun foundd in the Op Opera erato tor's r's Man Manual ual des descri cribin bingg the the corre correct ct met method hod to perf perform orm rou routi tine ne analyzer maintenance. 5.1 Maintenance
Daily Maintenance - Perform cleaning cycle. - Perform conditioning cycle. Wee Weekly kly Maintenance - Clean sample probe and fill port. - Clean analyzer surfaces. Monthly Maintenance Maintenance - Clean reference elect electrode rode housing. Six Month Maintenance Maintenance - Replace peristaltic pump tubing. An Annual nual Prevent ive iv e Maintenanc Maint enancee - Replace complete tubing set set.. - Replace peristaltic pump tubing. - Replace fill port assembly. - Replace sample probe. - Replace sample sensor Quad-ring. - Check sample sensor voltage. - Check sample temperature (9140/80/81 only).
59
5.2 5.2 Error M Messages essages and Troubl eshoot ing STATUS: NOT CALIBRATED
This message is only displayed when a calibration has been interrupted by pressing pressi ng NO or opening the sample door. Perform a calibration to return to the READY Mode.
STANDARD A NOT DETECTED
This message is displayed when the sample sensor is unable to properly detect the Standard A solution in a programmed time period. As the analyzer draws a sample of Standard A, the leading edge of the solution is detected by the sample sensor. The sample sensor must also detect a continuous flow of Standard A Solution into the sample chamber, lasting several seconds, without encountering air bubbles or air. After several seconds, the trailing edge of the Standard A sample is sensed, the peristalt peristaltic ic pump stops and measurement occurs. Possiblee causes and remedies: Possibl remedies:
•
Ch Chec eckk ffor or ai airr lea leaks ks prev preven enti ting ng th thee Sta Stand ndar ardd ffro rom m bei being ng draw drawnn iint ntoo tthe he chamber. Ensure that all O-rings are in place. There must be a continuous draw of standard solution, free of air bubbles. Check solenoid V for proper sealing of the vent line. Check fill port to ensure the absence of air leaks.
•
Ch Chec eckk fo forr cclo lots ts or cr crys ysta tals ls fo form rmed ed in th thee St Stan anda dard rd A ttub ubin ingg or electrode chamber.
•
En Ensu sure re that that the the sam sampl plee sen senso sorr iiss pplu lugg gged ed in se secu cure relly and and pe perf rfor orm m Sample Sensor Test to ensure sensor is operating correctly. Clean, adjust or replace sample sensor to correct sample sensor operation.
•
Re Repl plac acee pe peri rist stal alti ticc ppum umpp ttub ubee se sett ttoo ensu ensure re pro prope perr sa samp mple le aspi aspira rati tion on..
•
Check the fluid rreemaining in the ISE SnapPakTM. If less than 5% remains, replace the ISE SnapPakTM.
60
STANDARD B NOT DETECTED STANDARD C NOT DETECTED (9180/9181 only)
The system for drawing Standard B or or C is like that of Standard A A.. If Standard A is drawn properly and Standard B or C is not detected, check Standard B tubing for crystallization. Perform checks for Standard A detection detection problems to correct. During the calibration sequence, Standard B or C is drawn into the measuring chamber prior to Standard A, therefore check if Standard A calibrant can be proper pro perly ly dete detect cted ed ttoo is isol olate ate possi possible ble flu fluidi idicc faul faults. ts. If nneit either her St Stand andard ard A, B nor C are detected check for air leaks or blockages within the fluidic path.
CHECK SAMPLE SENSOR
The sample sensor must provide a reading of 80 - 120 when air is detected. Perform Test Sample Sensor Sensor to observe sample sensor response. When clear fluid (e.g. water) is aspirated, the sample sensor display must indicate an increase of of at least 40 units. For blood samples (not ttransparent), ransparent), the reading should decrease by at least 40 units. units. The sample sensor is calibrated with air during each calibration. Perform a calibration to remove the error message after troubleshooting. Possiblee causes and remedies: Possibl remedies:
•
Clea Cleann samp sample le sens sensor or usi using Dail Dailyy Cl Clea eani ning ng pr proc oced edur ure. e.
•
Ch Chec eckk ffor or co corr rrec ectt dryi drying ng of me meas asur urin ingg ccha hamb mber er du duri ring ng th thee wash wash cycl cycle. e.
•
Replace peristaltic pump tube set.
•
Test Test and and aadj djus ustt samp samplle se sens nsor or to co corr rrec ectt ad adjjus ustm tmen entt.
•
Replace sample sensor assembly.
61
CHECK REFERENCE HOUSING
At the beginning of a calibration, pressure is formed in the reference housing while the R valve is closed closed and the V valve is open. After Standard A is detected in the sample chamber, the back pressure formed in the reference housing causes the the standard StandardAAsolution solutionistodetect moveedback toward the sensor, sample the R sensor. When detected by the sample valve is opened to to release the pressure. If the sample sensor does not detect standard A as it moves back, CHECK REFERENCE HOUSING will be displayed. Possiblee causes and remedies: Possibl remedies:
•
Ch Chec eckk ffor or clog clogge gedd rref efer eren ence ce ho hous usiing an andd cle clean an pe perr m mon ontthl hlyy maintenance procedures.
•
Ch Chec eckk aand nd en ensu sure re that that re refe fere renc ncee ttub ubin ingg iiss ssec ecur urel elyy con conne nect cted ed at th thee tubing connector.
•
Ch Chec eckk for for prop proper er fill fillin ingg of of th thee refe refere renc ncee ho hous usin ingg and and ensu ensure re th that at reference solution reagent level allows complete filling of the reference housing.
•
Check ffoor bu bubble-fre reee as aspiration of of St Standard A A..
PLEASE CLOSE SAMPLE DOOR (except 9181)
This message occurs and prints NO SAMPLE on the print-out, when either of two conditions exists. 1.
Sa Samp mple le door door is not not clo close sedd w wit ithi hinn 20 20 sec secon onds ds afte afterr ssam ampl ples es are are iinn place. plac e.
2.
Sa Samp mple le door door ha hass bbee eenn oope pene nedd aand nd no sa samp mple le is de dete tect cted ed wi with thin in 20 seconds.
Possiblee causes and remedies: Possibl remedies:
•
Close sa sample ddooor w wiithin tthhe ttiime aalllowed.
•
Check needle mechanism light gate.
•
Check w whhether sa sample sseensor iiss pl plugged iinn.
62
NO SAMPLE
This message is displayed when any of the following conditions occur: 1.
Du Duri ring ng sa samp mpli ling ng,, eeit ithe herr a bbub ubbl blee iinn tthe he sam sampl plee iiss dete detect cted ed or th thee sa samp mple le si size ze is smaller than the minimum sample required.
2.
Th Thee sam sampl plee ddoo oorr iiss oope pene nedd aand nd no samp sample le is fed fed iint ntoo tthe he anal analyz yzer er..
3.
Sa Samp mple le door door is not not clo close sedd w wit ithi hinn 20 20 sec secon onds ds afte afterr ssam ampl plee iiss det detec ecte ted. d.
Possiblee causes and remedies: Possibl remedies:
•
Ch Chec eckk wh whet ethe herr the the samp sample le se sens nsor or is pl plug ugge gedd in an andd pe perf rfor orm m TEST SAMPLE SENSOR to verify that it operates correctly.
•
Ch Chec eckk sa samp mple le draw draw an andd lo look ok for for clo clots ts or leak leakss iinn th thee samp sampli ling ng sy syst stem em..
CLEANING FLUID NOT DETECTED
When the cleaning cycle has been initiated, the analyzer checks for proper aspiration of the cleaning cleaning solution usi using ng the sample sensor. If solution is not detected in the proper time, above error message will be displayed. Possiblee causes and remedies: Possibl remedies:
•
En Ensu sure re ttha hattand a ssuf uffi cien t vol volum umeeare ofpresent clea cleani ning ngasso solu luti tion on isispr pres esen ente tedd ffor or aspiration nofici airent bubbles solution aspirated.
•
Ch Chec eckk to to eens nsur uree tha thatt the the so solu luti tion on is bein beingg asp aspir irat ated ed th thro roug ughh tthe he samp sampli ling ng mechanism correctl correctly. y. The samp sample le path must be free of leaks leaks or clots.
•
Ve Veri rify fy that that sa samp mple le se sens nsor or is pr prop oper erly ly pl plug ugge gedd iinn and and pe perf rfor orm m th thee SAMPLE SENSOR TEST to verify the correct operation of the sample sensor.
•
Ch Chec eckk ppum umpp tub tubin ingg aand nd repl replac acee aass nec neces essa sary ry to en ensu sure re a cor corre rect ct pu pump mp rate.
63
CONDITIONING FLUID NOT DETECTED
When the conditioning cycle has been initiated, the analyzer checks for proper aspiration of the conditioning conditioning soluti solution on using the sample sensor. If the solution is not detected in the proper time, this error message will be displayed. Possiblee causes and remedies: Possibl remedies:
•
En Ensu sure re that that a ssuf uffi fici cien entt volu volume me of co cond ndit itio ioni ning ng so solu luti tion on is pres presen ente tedd ffor or aspiration and no air bubbles are present as solution is aspirated.
•
Ch Chec eckk to to eens nsur uree tha thatt the the so solu luti tion on is be bein ingg pro prope perl rlyy aasp spir irat ated ed through the sampling sampling mechanism. The sample path must be free of leaks or clots.
•
Ve Veri rify fy that that sa samp mple le se sens nsor or is corr correc ectl tlyy pplu lugg gged ed in an andd per perfo form rm th thee SAMPLE SENSOR TEST to verify its proper operation.
•
Ch Chec eck ppum ump tubin ingg aand nd repl replac acee aass nnec eces essa sary ry to en ensu sure re co corr rrec ectt pum pump pkrat rate. e. p tub
INTERFACE ERROR
This message is displayed only during the INTERFACE TEST. Pins 2 and 3 must be shorted together to perform the INTERFACE TEST. Make sure that the pins are not shorted to chassis ground. Possible cause cause and remedy:
•
Replace SBC Card.
PAPER JAM OR PRINTER DEFECT
This message is displayed when the printer head is jammed and tries to print. It is a temporary message that is displayed for 2 seconds and then sample results are displayed. To clear paper jjam am remove printer from the analyzer and remove jammed paper. Replace printe printerr and ret retry. ry. The printer can be removed by gr gras aspi ping ng the the re rear ar edge edge of the the ppri rint nter er as assem sembl blyy and and pu pull llin ingg iitt ttoo tthe he fro front nt.. The The print pri nter er ccan an bbee re remov moved ed w wit ithh th thee An Analy alyzer zer pow power er oon. n. To free free up jjamm ammed ed ppape aper, r, turn the small gears on the left side of the printer module.
64
CHECK ELECTRODES
This message is displayed when either of the following conditions are present. 1. 2.
Mo More re than than six six aasp spir irat atio ions ns of St Stan anda dard rd A aare re requ requir ired ed fo forr all all elec electr trod odee channels. Th Thee ddif iffe feren rence ce be betw twee eenn vvol olta tage ge A aand nd B is is out out of sp spec ecif ific icat atio ionn ffor or al alll channels.
Possiblee causes and remedies: Possibl remedies:
•
Elec Electr trod odes es ar aree nnot ot plug plugge gedd iin. n. Ch Chec eckk tthe he sl slid idee mec mecha hani nism sm to ensu ensure re it is in the correct position and firmly pushed into electrode connectors.
•
Perform Daily Maintenance.
•
Check or rreeplace re reference eellectrode.
•
Replace ISE SnapPakTM.
NA NOT CAL’D K NOT CAL’D CL NOT CAL’D CA NOT CAL’D LI NOT CAL’D
These messages will be displayed when a specific electrode does not calibrate proper pro perly ly duri during ng a cal calib ibrat ration ion seq sequen uence. ce. If m more ore tha thann si sixx stand standard ard draws draws aare re required or the difference between Standard A and Standard B voltages is out of range, the NOT CALIBRATED message will be displayed for each channel which exhibits either of these conditions. A copy of the calibration report should be print pri nted ed ttoo pr provi ovide de tthe he eele lect ctrod rodee ou outp tput ut voltag voltages es m meas easure uredd du duri ring ng cal calib ibrat ratio ion. n. The electrode voltage range table identifies correct voltage ranges for each electrode parameter. If the difference between Standard A and Standard C (9180/9181 only) is out of range for Li+ or Na+, LI NOT CAL’D will be displayed. Possiblee causes and remedies: Possibl remedies:
•
Ch Chec eckk to to eens nsur uree ccal alib ibra rati tion on reag reagen ents ts are are ttra rans nspo port rted ed co corr rrec ectl tly. y. Te Test st fo for r leaks, blockages, bubbles, or improper pump flow rate.
•
Check or replace ISE SnapPakTM.
•
Ch Chec eckk wh whet ethe herr el elec ectr trod odes es are are pplu lugg gged ed in pr prop oper erly ly.. Chec Checkk th thee sl slid idee mechanism to ensure it is in the correct position and firmly pushed into electrode connectors. Clean and/or replace electrode.
•
If A-C is out of range for Na+, repeat the calibration or replace the ISE SnapPakTM.
•
Check or replace SBC Card.
65
ELECTRODE VOLTAGE RANGES 9120, 30, 40 Elec trod e
Na+ K + ClCa++
Sta Standar ndard dA
-600 -700 -3100 -2600
Sta Standa ndard rd B
t o +2400 -1600 t o +1000 -2500 t o -100 -1100 t o +1400 -2100
to to to to
+2200 +500 +1800 +2700
Allowabl Allowablee Difference Differenc e A - B (9120/9130) (9140)
+720 to +2000 +520 to +1800 -520 to -1200 n o t u s ed
+250 to +680 +470 to +1200 n ot us e d -480 to -900
ELECTRODE VOLTAGE RANGES 9180, 81 Electro Ele ctro de
Sta Standar ndar d A
Stan dard B
Stan dard C
Na+ K + ClCa++ Li+
-600 -700 -3100 -3100 -3100
to to to to to
+2400 +1000 -100 +1000 +1900
-1600 -2500 -1000 -2300 -3600
to to to to to
+2000 -600 +500 -700 +3000 -3100 +2500 -3100 +1400 -2600
to to to to to
+2400 +1000 -100 +1000 +3400
+250 +470 -370 -350 +1
Allowable Allowa ble Diffe Difference rence A-B A-C
t o +680 t o +1200 t o -860 t o -660 t o +760
-50 to +50 -40 to +40 n ot uusse d -150 to +150 -1730 to -285
CLOG CHECK FLUID PATH
After completion of sample measurement or calibration, the analyzer will monitor the sample sensor to determine if the sample path has been cleared. This message will be displayed if the sample path has not been cleared. Possiblee causes and remedies: Possibl remedies:
•
Ch Chec eckk ffor or bloc blocka kage gess in in the the sa samp mple le pa path th,, eesp spec ecia iall llyy iinn tthe he samp sample le prob probe, e, th thee tubing to the sample sensor and in the sample sensor.
•
Ch Chec eckk sa samp mple le sens sensor or iiss sec secur urel elyy pplu lugg gged ed in in aand nd cche heck ck sa samp mple le se sens nsor or tes testt to ensure correct operation.
•
Ch Chec eckk pper eris ista talt ltic ic pump pump an andd tub tubin ingg aare re co corr rrec ectt aand nd all all ttub ubin ingg iiss pro prope perl rlyy iinn place. place.
↑↑↑↑ ↓↓↓↓ In case the analyzer displays arrows up or arrows down instead of sample results, the concentration of the sample is outside of the measurement range. Possiblee causes and remedies: Possibl remedies:
•
If the the sam sampl plee iiss a ur urin inee sam sampl ple, e, ar arro rows ws up in inst stea eadd of of tthe he K rres esul ultt iind ndic icat atee that further dilution of the specimen is required.
•
Check ffoor pprroper sa sample pprreparation.
•
En Ensu sure re that that the the sam sampl plee iiss ccor orre rect ctly ly aspi aspira rate tedd iint ntoo tthe he me meas asur urin ingg ccha hamb mber er
•
and ensure small air bubbles are not present. Check ffoor pprroper as aspiration ooff S Sttandard A A..
66
↑ ↓ On the 9140, 9180 and 9181 models, the calibration report will print an arrow up or down instead of the actual temperature, if the temperature measured is out of range (10.0°C -40.0°C). The temperature sensor is located in the right side electrode holder. Possiblee causes and remedies: Possibl remedies:
•
En Ensu sure re that that samp samplle ssen enso sorr ccab ablle iiss ssec ecur urel elyy plu plugg gged ed in in..
•
Ch Chec eckk w whe hetthe herr rroo oom m ttem empe pera rattur uree iiss w wiith thiin spe speci cifi fied ed lim imit itss (15°C to 32°C / 60°F to 90°F).
•
Perf rfoorm temperature adjustment procedure.
•
Rep epllac acee S SB BC bbooard or rriight si side de electrod odee hhoolde derr.
ERR
The analyzer will display ERR in place of sample results when the analyzer is unable to obtain valid voltage readings from the electrode (A/D over- or underflow). Possiblee causes and remedies: Possibl remedies:
•
En Ensu sure re that that the the eele lect ctro rode dess aare re secu secure rely ly in pl plac acee aand nd pl plug ugge gedd iint ntoo tthe he analyzer.
•
Ch Chec eckk to to eens nsur uree ppro rope perr ffil illi ling ng of th thee refe refere renc ncee eele lect ctro rode de ha hass oocc ccur urre red. d.
•
En Ensu sure re prop proper er samp sampli ling ng an andd pro prope perr ssam ampl plee ppre repa para rati tion on.. C Che heck ck for for air air bubbl bub bles es iinn the the sam sampl ple. e.
PERFORM DAILY MAINTENANCE
This message will be printed at the end of a sample report when cleaning or conditioning have not been performed within within the last 24 hours. This message is printed only. Perform Daily Mai Maintenance ntenance to clear this message.
67
REPLACE FLUID PACK
When the monitored fluid level in the ISE SnapPakTM reaches 5% remaining, the analyzer will print REPLACE FLUID PACK at the end of each sample report. This message is printed only. Replace the ISE SnapPakTM following the instructions outlined in the Operator Manual. To maximize the life of the ISE SnapPakTM, continue running the analyzer until a STANDARD A NOT DETECTED message is displayed. This will ensure that the ISE SnapPakTM is completely depleted before replacement. CHECK TEMPERATURE (9140/9180/9181 only)
On the 9140/80/81 models, the analyzer will display CHECK TEMPERATURE at the end of each measurement, if the temperature measured is out of range (10.0°C to 40°C). The temperature sensor is located in the right side electrode holder. Possiblee causes and remedies: Possibl remedies:
•
En Ensu sure re that that the samp sample le sens sensor or cabl cablee iiss ssec ecur urel elyy ppllug ugge gedd iin. n.
•
Ch Chec eckk w whe hetthe herr rroo oom m ttem empe pera rattur uree iiss w wiith thiin spe speci cifi fied ed lim imit itss (15°C to 32°C / 60°F to 90°F).
•
Perf rfoorm temperature adjustment procedure.
•
Rep epllac acee S SB BC bbooard or rriight si side de electrod odee hhoolde derr.
VALVE OVERTEMP! CHECK VALVES
In case one of the valve solenoids overheats, the message VALVE OVERTEMP! CHECK VALVES will be displayed. Each solenoid incorporates a thermo-fuse, which will reset automatically. Possiblee causes and remedies: Possibl remedies:
•
Turn power off for at least one hour.
•
Check fuse F3 (24V).
•
Ch Chec eckk w whe hetthe herr rroo oom m ttem empe pera rattur uree iiss w wiith thiin spe speci cifi fied ed lim imit itss (15°C to 32°C / 60°F to 90°F).
68
ERROR: UPPER NEEDLE SENSOR
If probe movement to the upper position is not detected within a certain time period per iod,, th thee ab above ove mes messag sagee is dis displa played yed.. Possible Possib le remedies: remedies:
•
Che Check ck for fo forei reign gn ma mater terial ial tthat hat m may ay preven preventt the probe probe fr from om mo movin vingg freely. freely.
•
Co Cont ntac actt AV AVL L fo forr te tech chni nica call as assi sist stan ance ce..
ERROR: LOWER NEEDLE SENSOR
If probe movement to the lower position is not detected within a certain time period, the above message is displayed. Possible Possib le remedies: remedies:
•
Ma Make ke su sure re tthe he fil filll po port rt iiss in inst stal alle ledd co corr rrect ectly ly..
•
Che Check ck for fo forei reign gn ma mater terial ial tthat hat m may ay preven preventt the probe probe fr from om mo movin vingg freely. freely.
•
Co Cont ntac actt AV AVL L fo forr te tech chni nica call as assi sist stan ance ce..
WHEEL MISSING OR SAMPLER DEFECT
During the homing sequence, the sampler checks for the sample wheel to be present. prese nt. Possible Possib le remedies: remedies:
•
Mak Makee su sure re tthe he w whee heell is is pr presen esentt aand nd seat seated ed ccorr orrect ectly. ly.
•
Replace sam sample w whhee eell.
•
Replace sa sampler.
69
SAMPLER JAMMED OR DEFECTIVE
The analyzer checks for correct movement of the sample wheel. If the sample wheel does not move at the expected speed, the above error message is displayed. Possible Possib le remedies: remedies:
•
Che Check ck for ob obstr struct uction ionss prev prevent enting ing tthe he sample sample wh wheel eel fr from om mov moving ing freel freely. y.
•
Replace sa sampler.
70
6
A d j u s t m en t s
The 9120, 30, 40, 80 and 81 Analyzers have been designed to require minimal electronic adjustment. The sample sensor circuit may require adjustment following a change of the sample sensor or during routine troubleshooting. The temperature adjustment is active only for models 9140/9180/9181 and requires the temperature adjustment test plug for correct calibration of the temperature circuit. 6.1 Sample Sample Sensor Sensor Adjustm ent
Select TEST SAMPLE SENSOR in the SERVICE FUNCTIONS menu which will display the current sample sensor setting. Adjust R93 Sample Sensor Adjust located at the top of the ISE SBC card to a value of 100. Press YES to turn on peristaltic pump and ensure displayed value remains constant. Raise sample door and aspirate clear fluid (e.g. water). Displayed reading should now be 150 or greater. Note: R93 can be accessed through the rear cover vent slot and is located at the top center on the circuit card.
6.2 Temperature Adjustment (9140/9180/9181 only)
Select AMPLIFIER TEST in the SERVICE FUNCTIONS menu which will display the current amplifier voltages. Press NO twice to display the temperature voltage and actual temperature temperature display. Unplug the sample sensor and fit the Temperature Adjustment Test Plug in place of the sample sensor plug. Adjust R54 located on the SBC Board Board for a display of 3000mV 3000mV.. Unplug the Temperat Temperature ure Adjustment Test Plug and fit the sample sensor connector to display the actual temperature of the measuring chamber. Due to the elevated temperature inside the analyzer, it is normal for the displayed temperature to be several degrees C higher than the actual room temperature. If no Temperature Adjustment Test Plug is available, place a quality thermometer (preferably (preferab ly mercury) next to the right side electrode holder. With the front door open, wait approx. 10 min. min. Then adjust the disp displayed layed temperature temperature to match the reading on the thermometer.
71
7
El ec t r o n i c Di ag r am s AVL 9120, 30, 40, 80 Analy An alyzers zers System Block Block Diagram 912 9120, 0, 30, 40, 80 ............. .................... ............. ............. ............. ........ 74 System Block Diagra Diagram m 9181 ................................................ .......................................................... .......... 75 System Interconnect Interconnect 9120, 30, 40 ....... .............. .............. ............. ............. .............. .............. ........... 76 SBC PCB - Power Supply 9120, 30, 40 ....... .............. ............. ............. .............. ............. ...... 77 SBC PCB - Valve Drivers 9120, 30, 40 ............. .................... .............. ............. ............. ......... 78 SBC PCB - Pump Motor Motor Driver/ Driver/Door Door Dete Detect ct 9120, 30, 40 ............ ............ 79 SBC PCB - Input Ampli Amplifiers fiers 9120, 30, 40 ............. .................... .............. ............. ........... ..... 80 SBC PCB - Temperature Temperature Circuit Circuit 9120, 30, 40 .............. .................... ............. ........... .... 81 SBC PCB - Analog S Selecto electorr and A/D C Converte onverterr 9120, 30 30,, 40 ....... 82 SBC PCB - Microprocessor Microprocessor 9120, 9120, 30, 40 ............. ................... ............. ............. ........... ..... 83 SBC PCB - Printer/Disp Printer/Display lay Drive Drivers rs 9120, 30, 40 ............. ................... ............. ......... 84 Printerr Daughter PCB 9120, 30, 40, 80, 81 ....... Printe ............. ............. .............. .............. ........... 85 Lamp PCB 9120, 30, 40 ...... ............. ............. ............. .............. ............. ............. .............. ............. ........... ..... 86 Display Displ ay Daughter Daughter PCB 9120, 30, 40 ............. .................... .............. .............. ............. ............. ....... 87
72
AVL 9180/81 An Analy alyzers zers System Intercon Interconnect nect 9180/91 9180/9181 81 .......................... .......................... 88 SBC PCB - Power Supply 9180/ 9180/9181 9181 ....... ............. ............. ............. ............. ............. .......... .... 89 SBC PCB - Valve Drivers 9180/91 9180/9181 81 ...... ............. .............. .............. ............. ............. ........... .... 90 SBC PCB - Pump Motor Driver/Door Driver/Door Detect 918 9180/9181............ 0/9181............... ... 91 SBC PCB - Input Amplifiers 9180/9181 ......................................... 92 SBC PCB - Temperature Temperature Circuit 9180 9180/9181 /9181 ............. .................... .............. .............. ....... 93 SBC PCB - Analog Analog Select Selector or and A/D Conv Converter erter 9180/9181 9180/9181 ....... .......... ... 94 SBC PCB - Microprocessor Microprocessor 9180/9181 9180/9181 ............. .................... .............. .............. ............. ...... 95 SBC PCB - Print Printer/Di er/Display splay Drive Drivers rs 9180/9181 .......... ................ ........... ........... ......... ... 96 SBC PCB - Fluid Pack Detector 9180/9181 9180/9181 ...... ............. .............. .............. .............. ....... 97 Lamp PCB 9180/91 9180/9181 81 ....... ............. ............. ............. ............. .............. ............. ............. ............. ............. ......... 98 Display Daughter PCB 9180 ...................................... ........................................................... ..................... 99
73
9120,, 30, 40, 9120 40, 80 Analyzer Bl ock Diagram
SBC Board Preamplifier
Na Electrode K Cl
Fluid Pack Detector Sensor (9180 only)
Na Amp K Amp Cl/Ca/Li Amp
Display Board Display Driver
Reference Electrode
JP4 Display Module
YES/NO Switc itches
Temp Sensor (9140/9180 only)
Sample Sensor
JP2
GND
Temperature Control (9140/9180 only)
Analo og g Selecto ector r and
JP1
Sample Sensor/Temp Sensor
Printer Driver
A/D A/D Conve vert rter er JP1
Printer Assem As sem bl y
Microprocessor
Power Supply +22VDC / +10VDC +5VDC / -5VDC (9180) +8VDC / -8VDC +22VDC / +12.5VDC
JP5 Peristaltic Pump Driver P. Pump Motor JP8
Lamp Board
Sample Door JP7
Solenoid Valve Drivers
Interface Driver
JP6
Valve A JP1 Valve B JP2 Valve C JP3 JP7
JP3 JP3
Valve V JP4
RS232
Valve R JP5
JP1 Power Supply Module 100 - 240 V~ MAIN 50 - 60 Hz
Power Receptacle 1.6 AT 1.6 AT
Fuse F1 2.5A/250V +5VDC/+24VDC +12VDC/-12VDC
74
91811 Analyzer Block 918 Bl ock Diagram
SBC Board Preamplifier
Na Electrode K Cl
Display Board
Needle Motor Driver
Fluid Pack Detector Sensor
JP5
Needle Sensor Position Buffer
Na Amp K Amp Cl/Ca/Li Amp
Display Driver
Reference Electrode
JP2
Temperature Control
Dis ispl pla ay y Module
YES/N /NO O Swit itc che hes s
Temp Sensor
Sample Sensor
JP1
and A/ A/D D Con onve verter rter
Position Sensor
JP6
JP4 JP4
GND
A Ana nalo log g Select lector or
Probe Motor
JP1 JP1
Needle Mechanism Assem As sem bl y
JP1
Sample Sensor/Temp Sensor
Printer Driver
JP1 Needle Ctrl Lines
Turntable Assembly
Printer Assem As sem bl y
Driver BD
Home Sensor Position Sensor
Microprocessor Turntable Ctrl Lines Power Supply +22VDC / +10VDC +5VDC / -5VDC +8VDC / -8VDC +22VDC / +12.5VDC
BK5014
JP5 JP5
JP9
Peristaltic Pump Driver JP8
BK5013
Bulkhead
Ctrl Lines Turntable
P. Pump Motor
Lamp Board Interface Driver
JP6 JP6 Sample Door JP7 JP7
Solenoid Valve Drivers
Valve A JP1 Valve B JP2 Valve C JP3 JP7
JP3
Valve V JP4
RS232
Valve R JP5
JP1 JP1 Power Supply Module 100 - 240 V~ MAIN 50 - 60 Hz
Power Receptacle 1.6 AT 1.6 AT
Fuse F1 2.5A/250V +5VDC/+24VDC +12VDC/-12VDC
75
SYSTEM INTERCONNECT - 9120, 30, 40 9 V E D R f o
. p r o C t a r i c u g i o r 0 f C o 4 e 0 i t l G 4 n l e e , 7 i s l 8 c n l 5 S a e 7 ) M w 7 4 s 0 0 L V 3 o 0 4 A 3 R 3 (
8 P J D R A O B
D N G 6 2 5 R 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 H P 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 C J 1 2 3 4 5 6 7 8 9 1 1
H X S R N D I 0 L 1 L 0 0 C 1 U 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 1 1 P Z S B A B A B A B A B A B A B A B A B A B E J A
R E T N I R P
O K H D C - R - - C E E 7 O 6 5 3 4 1 2 A E H C T T T T T T T T T F C C O O O O O O O O V D D D M D D D D T N I R P
D N U O R G D E T A R A P E S T S E I B X E O T Y L S L D A N C U I O S R Y G H P W O T L O L N A O O D T 3 E 0 R 9 A R Y 0 E 0 H 9 T R
1 W 4 0 / 5 1 2 6 P _ P 2 M 4 K J 6 A 0 0 7 9 1 2 R 1
M E T S Y S
D N G D
D N G S
D N G P
D N G
D N G A
D N G P
0
0 0 2 2 2 1 2 0 0 0 9 9 9 R R R
2 3 0 9 R
1
1
3 7 0 8 0 5 9 0
V V V 2 4 2 1 2 1 + + P P P
R 0 7 E 0 X 3 E W P 1 2 3 4 5 6 7 4 L J 0 O O 6 M P 6 2
X E L O M H T I W S E T A M
h c s . 1 b m
P M A L
D N G P
+ P M A L
P M E T A R E E V V L O A V
B E V L A V
T N U I O 2 2 3 S 3 2 T S S 2 C R T S R R
2 3 5 9 4 8 3 7 2 6 1 2 - 7 P S J R
C E V L A V
1
t T e C e E h N S N 6 O 9 N C 9 I R 1 A M r E T , e , b N 0 I 1 C I m u l T N i A r M t p E n A H e C m S u c o D : e e e l z B t t a i i D S T D R A O B
D E - A R V B C D S + O E E E E E E + E L S V S S V S D V C A L L A A A E L D H A H H A H L A P V P P V P D V
2 P J D R A O B
P 9 B D
3 1 7 8 7 4 7 1 P M A
Y A L P S I D
D R A O B
O T
D N G 6 2 4 R 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 H P 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 C J 1 2 3 4 5 6 7 8 9 1 1
Y A L P S I D
D N G P
0 1 2 3 4 5 6 7 D D D D D D D D D D D D D D D D
V V 0 4 1 2 + +
] 7 . . 0 [ D D
0
1
H H H H H H H H H C C C C C C C C C S S S S S S S S S . K . . . . . . . . 1 N 2 3 4 5 6 7 8 9 B I B B B B B B B B M L M M M M M M M M | | | | | | | | | |
O T
C C A C C V V V 5 +
D N G S
1
C C C C V V P P
2
P M A L
D R A O B
H P / E S I
D E E L L E P L M P A M S A S
T T S W S N / A I N P R R / E M P T A P E S N T S T I O A I D C D D
Y L L D A L U E D I I H V S I D E N H I T N T U A R D S E I T C D E N N G N E O L . C : P A E M E D T A R N O S A A N
S N E O E Y N S S
] 7 . . 0 [ D D
K R O W T R A H N O I S I V E R O T S E I L P P A C I T A M E H C S D N O I S I V E R : E T O N
76
SBC PCB - POWER SUPPLY - 9120, 30, 40 9 V E D R + P M A L
f o
S V + " V 2 1 / V 2 2 +
1
3 0 1 K R 1
0 0 8 E 7 J Q M
2
F u 1 4 . C 0 1
2 1
2
2
1
" V 8 +
V 6 1 /
7 1 0 5 " 6 3 P T 1 T U
0 4 8 R 1
1
V 8 +
F u 1 5 . C 0
" V 8 -
7 1 0 5 " 7 3 P T 1 T U
W 0 1 2 9 / 5 . R 3
V 8 -
F u 1 6 . C 0
. p r o C t a r i c u g i o r f C o e i t l G n l e e , i s l c n l
7 1 0 5 " 8 3 P T 1 T U
F 8 u 2 0 C 1 2
V 6 1 /
S L V A
F 7 u 2 0 C 1 1
1
2
2 h c s . 2 b m
1 2 T U O 7 V ADJ 1 3 N 1 M I U L V
C C V T N I R P
1
1
3
K 8 2 . R 1
K 2 3 . R 1 2
1
2
4 0 9 3 1 N Q 2
3
T U 8 O 0 V C 9 7 N 2 M I U L V
1 S H Z
K N I S T A E H
1
3 T U 8 O 0 V C 8 7 N 3 M I U L V
2
1
1
2
F u 1 1 . C 0
N E P M A L
1
1 R
F u 1 2 . C 0
K 1
1
2
1
2
2 F u 8 1 6 . C 0
W O L S / T S A F
V 4 2 +
1
2
F u 9 1 6 . C 0
F u 1 3 . C 0
2 1
2
F u 0 1 7 . C 0 1
1
+ V
V
2
F u 7 1 6 . C 0 1
2
F u 6 1 6 . C 0 1
C C V T N I R P
1
V 0 5 V / 4 F 2 u + 0 9 0 2 2 C 2
V 6 1 / C F C u V 0 0 0 3 2 C 2
V 6 1 / F u 0 4 0 6 0 C 1
1
2
2
1
V
2
V 5 2 / F u 5 0 2 7 C 4 2
1
1
1
1
2
1
1 F 1
2 0 0 1 2 R 2
9 R
" 4 F / D V 4 E 2 D L 1 1 "
1
0 2 2
" 5 F / D V 5 E 2 D L 1 2 + "
2
1
0 6 5
7 R
8 R
0 6 5
6 R
1
1
1
1
1
2 " T T A A 6 6 2 . . F 1 1 " 1
C C V P
" 2 T 2 T A A 5 5 2 2 3 . 4 . F 1 F 1 " " 1 " 7 1 V 7 V 1 4 1 5 0 2 0 + + " 5 " 5 2 3 1 3 P T P T 1 T U T U
V 4 2 + P
V 2 1 P
2 P I L C Z
P I L C E S U F
4 P I L C Z
P I L C E S U F
6 P I L C Z
P I L C E S U F
8 P I L C Z
P I L C E S U F
0 1 P I L C Z
P I L C E S U F
1
2
2 1
F u 7 1 1 . C 0
2
1
F u 3 1 2 . C 0
2
2 1
F
F
F
u 0 1 1 . C 0
u 6 1 1 . C 0
u 2 1 2 . C 0
" T T A 2 A 0 0 0 0 3 3 5 . . F 0 0 " " 1 V 7 2 1 1 0 - " 5 3 3 P T 1 T U
V 2 1 + P
" T T A A 0 0 0 0 3 3 . . 0 0 " " V 7 2 1 1 0 + " 5 4 3 P T 1 T U
1 P I L C Z
P I L C E S U F
3 P I L C Z
P I L C E S U F
5 P I L C Z
P I L C E S U F
7 P I L C Z
P I L C E S U F
9 P I L C Z
1
" D N G " 1
1
2
P I L C E S U F
1
2
2 1 F u 1 1 2 . C 0
2
2 1
F u 4 1 1 . C 0
F u 0 1 2 . C 0
1
F u 1 7 . C 0
C C V
2
F u 5 1 1 . C 0 1
F u 1 8 . C 0
1
7 1 0 5 5 3 P T T U
2
F u 1 9 . C 0
2
2
2 K 2 . 1
2
1
C C V P
" 3 F / D V 3 E 4 D L 2 2 + "
1
" 2 F D / 2 E V D L 5 2 + "
" T T A A 2 2 "
2
F u 4 1 2 . C 0
L A N O I T P O
2
" 1 F D / 1 E V D L 5 2 + "
2
F u 8 1 1 . C 0
F u 1 1 1 . C 0
1 1
2
F u 2 1 1 . C 0
5 . E T 6 C D I 1
2
F u 5 1 6 . C 0
V 5 2 / + F V u 6 0 2 7 C 4
2
2
2 1
F u 3 1 1 . C 0
F u 9 1 1 . C 0
1
V 8 +
2
2 1
V 8 -
2
t Y e L e P h P S 0 U 6 4 S 9 0 N 9 4 I R 1 - A 7 M r E W , 8 e 5 , b O 0 P a 1 I m 4 C 7 ) w 7 M e u l s 0 0 T N i 3 o 0 4 A r 3 R 3 ( M t p E n A H e C m S u c o D e : l e e t z B t i i a T S D
F u 1 1 7 . C 0
2
H P / E S I D R A O B
77
SBC PCB - VALVE DRIVERS - 9120, 30, 40 9 V E D R f o
. p r o C t a r i c u g i o r 0 f C o 4 e 0 i t l G 4 n l e e , 7 i s l 8 c n l 5 S a e 7 )
S R E V I R D
+ E V L A V
" V 5 . 2 1 / V 2 2 + "
1
E V L A V
7 1 0 5 6 3 1 T P U T
H P / E S I
R E V L A V
V E V L A V
C E V L A V
B E V L A V
A E V L A V
M R E H T
2
% 1 8 0 1 0 R 2 1
2
2 S H Z
K N I S T A E H
% 1 2 T U O 7 V ADJ 1 3 N 5 M I U L V
K 2 9 8 1 . R 1 1
F u 1 1 3 . C 0 2
0 0 8 E 9 J Q M
K 0 5 2 . R 1 2
1
2 4 0 9 3 8 N Q 2
3
1
1
2 1 2 R
K 7 . 4
0 0 8 0 E 1 J Q M
0 0 8 1 E 1 J Q M
0 0 8 3 E 1 J Q M
0 0 8 2 E 1 J Q M
V 0 5 / F 6 1 u 3 2 C . 2 2
V 0 5 / F 7 1 u 3 2 C . 2 2
V 0 5 / F 1 u 8 3 2 C . 2 2
V 0 5 / F 1 u 9 3 2 C . 2 2
V 0 5 / F 1 u 0 4 2 C . 2 2
2 1 1 K R 1
2 2 1 K R 1
2 3 1 K R 1
2 4 1 K R 1
D N G S
K 7 0 1 8 R 1 1
2 6 1 R
2 5 1 K R 1
1
1
1
1
1
1
1
2
K 0 6 3
K 7 K 3 0 . 0 K 2 1 1 P M E
V 4 2 +
E V L A V
S t R e E e V h I S R 6 N D 9 9 I A E 1 M r V e L , , b A 0 C m V 1 I u l 0 T 0 4 s 7 L M w N i V 3 o 0 4 A r A 3 R 3 ( M t p E n A H e C m S u c h o c D s : e e e l . z B t t 3 i a i b S D T m D R A O B
F u 2 1 3 . C 0 1
3
1 N E P O
2 N E P O
3 N E P O
4 N E P O
5 N E P O
D N G S
T R E V O
S S S A A A W W W 9 7 0 1 1 2 R R R
C
78
SBC PCB - PUMP MOTOR DRIVER / DOOR DETECT - 9120, 30, 40 9 V E D R A E S A H P
B E S A H P
C E S A H P
D E S A H P
4 0 0 0 4 1 N D 1 S V +
1
1
2
1
1
2
1
2
1
2
1
2
4 0 0 1 4 1 N D 1 2
1
R O O D
D N G S
2
D N G S
D N G S
D N G S
6 2 R 1
V 2 1 / V 2 2 +
D N G S
S V +
H C T
3 7 8 7 4 5 3 4 6 5 6 8 1 1 1 1 1 1 D 1 1 2 3 2 D 3 D D D 4 4 E E T E T N T N N N T E S S U S U G U G G G U S O N O N N O O N E E E E E S S S S 3 4 S B 2 3 1 A 9 N S S 2 N N N 9 N N I V V L E I I U I E
N G S
F u 1 1 4 . C 0 1
T C E T C E C V D
D 2 N G S D 2 N G S
1
2
D N G S
2
1
2
I W S R O O D
9 0 0 1 9 2 1 2 1 2 1 1 1
F u 5 1 4 . C 0
E L P M A S
0 2 2 P S I Z D
D N G S
C C V
R E V I R D
K 3 2 3 . R 2 1
2
1 1 U 2 1 3 R 1
K 0 0 1 C C V
7
1
5 8
4
2 3 9 K 2 0 R 1
C C V
1
1
4 5 6 7 8 9 4 3 5 2 3 1 1 1
F u 2 1 4 . C 0 1
2
D N G S
1 2 2 F A 1 B C D E D E E H H M E N S S N N O R G N N I I H V E E C L S S L C V U L W F O E C / T R L 0 C P F E T B C 7 2 L S N A N C 0 / E 9 1 P A E O N Y S S 2 S I 1 W T C S H C R E S V O U L Z D
% 1
% 1
4 K 2 0 R 1
2 2 3 6 R 5
1
2
1
1
2
2
2
1
2
D N G S
D N G S N E P M U P
D N G S
D N G S
D N G S
D N G S
2
F n 3 3 4 . C 3
3 K 2 2 R 2
P E T S P M U P
2
V 6 1 / F 7 u 4 0 C 1
C C V
1
2 F u 4 1 4 . C 0
7 8 9 0 1 0 1 6 2 1 1 1 2 1 1 1 1
C C V
1
8 K 2 0 R 1
0 K 3 3 R 3 C C V
N 1 1 3 M L
6
D N G S
P M U P
L V A
2
h c s . 4 b m
5 2 R 1
1
1 R 1
C C V
1
V 0 5 / F u 6 0 4 0 C 1
c i f i t n e i c S
+ D E L D 0 7 0 2
4 0 0 2 4 1 N D 1
4 0 0 4 7 N D 1 S V +
2
4 0 0 3 4 1 N D 1
4 0 0 4 8 N D 1 S V +
. p r o C
4 0 0 4 4 1 N D 1
4 0 0 4 9 N D 1 S V +
R O O D D E E S L O P L M C A D S
1
2
f R o O H S 4 P N / E E S S I R E t D V e R t a O e A r i C h O u g / S o r 0 B R 6 C o 4 E 9 e 0 N V 9 l G 4 I I 1 - A l R e , 7 M r D , s l 8 e n l 5 , b R 0 1 a e 7 ) C O M w 7 4 I m u T s 0 0 T N O l i 3 o 0 4 A M r 3 R 3 ( M t E n P p H e M A C m U S u P c o D : e e e l z B t t a i i D S T
79
SBC PCB - INPUT AMPLIFIERS - 9120, 30, 40
T U O H p / a N
7 1 0 5 9 3 P T T U
H a p N v V m m 0 0 0 0 2 1 2 1 - -
0 1 1 9
2 1 K 4 0 6 K 1 0 R 1 1 R 1 7 1 1 1 0 " K 0 0 5 " = 1 3 P T 1 T T U E S F F N O C 9 7 2 C % B L 7 1 2 T K 1 2 2 U 5 . 4 3 R 4
D E F F U T S
2 " H 3 p 6 K / R 1 a 1 N "
T O N
1
9 4 C
T T E E S S F F F F O O
*
H p 7 4 D R N A D N E A S I 4 4 R R O F F O T N E S R E U E L F A F V I D E T E O R N A
*
H p E S % I 1 % K 1 2 . V K 8 8 9 1 + 5
A 2 1 U
F u 2 9 2 4 2 . C 0
N C 9 7 2 C L T
1
4
1
1 E S H I p
2 7 4 R
K K 5 2 6 0 1 1
0 R 5 O C F
1
V m 0 0 7 = T E S F F O
7 1 0 5 1 3 1 T P U T
2
R 2 E 0 D 2 A P E J H
1
2
F u 2 1 5 . C 0 V 8 +
T O N
1
V 8 -
1
2 1
N C 9 7 2 C L T
5 1 K 1 1 R 1
2 8 4 R
1
2
D 2 1 U
A E R A
% 1
E B O R P
K 2 2 . 0 8 3 1 R 1
K S A M
% 2 1 1 4 K R 1
O N : E T O N 3 1 U
V
1
1
M A 3 0 1 A P O
7
4
8 + 2 8 3
T U P N I
2 4 3 R
K 0 0 1
S A R E E R D A L O E S B O F R O P R D A N E A L C G N E I B R D : D L . E R U K T A O S O U H A N G S M
W W 4 R
V
V
8 D E D L E I H S
8 +
E B E O B R O P 2 R P P : E T O N
H p / a N
6
7
4
2 8 3
2 5 3 R
+ N I U R H T
1 2 E B O R P Z
4 1 U
M A 3 0 1 A P O
K 0 0 1
W W 4 R
V
V
8 D E D L E I H S
8 +
E B E O B R O P 3 R P P : E T O N
K
7
4
2 6 3 R 1 4 E B O R P Z
W W 4 R
V 8 D E D L E I H S
2 8 3
K 0 0 1
% 2 1 1 0 3 K R 1 M 1 A 3 0 1 A P 0 6 O 0 3 U
R O F
M A 3 0 1 A P O
6
+ N I U R H T
1 3 E B O R P Z
5 1 U
1
+ N I U R H T
E B E O B R O P 4 R P P : E T O N
l r i C o L
D E F F U T S
V
7
4
8 + 2 8 3
T O N
0 2 0 3 R
4 1
V 8 -
2
1
2
R C 4 R
E S I H D p E V S N O 8 - E L 2 P C O R E 1 D 0 A 2 E P J 1 2 H
O S E 0 I 1 R 1 E 9 S R 0 O 0 F 3 : E T O N
1
f e R
2
S T N E N O P M Y O L C N
7
E B O 5 R P P
1
T E S F F O
V 2 . 6 -
K 0 0 1
7 2 5 8 1 N D 1
K 2 2 4 . R 2
1 5 E B O R P Z
N C 9 7 2 C L T
3 2 1 1
2 F u 2 0 2 0 . 3 0 C
0 1 1 9
% 2 1 9 3 K R 1
% 2 1 0 4 K R 1
1
6
R O T A R E N E G
K 4 0 6
1
R E D L O S
D R A O B
9 0 1
% 1
*
H P / E S I
5
S R t E e I e F h I S L 6 P 9 M 9 A 1
N I A M r T , U 0 , e b C m P 1 N 4 7 w M I u s 0 0 T N I l L i V 3 o 0 4 A r A 3 R 3 ( M t E n p H e A C m S u c h o c D s e : . l e e 5 t z B t b i a i m T D S
2
1
N I
S R E I F I L P M A
. p r o C t a r i c u g i o r 0 f C o 4 e 0 i t l G 4 n l e e , 7 i s l 8 c n l 5 S a e 7 )
F u 1 1 5 . C 0
2
2 3 1 2 E H S p I
D E F F U T S
" a C / l C "
% 8 1 C 2 K 1 2 1 U 6 . 4 8 R 6
4 1 1 K R 1 3
H P
D E F F U T S 0 T 1 O 1 N 9
1 2 3
2 5 2 K 6 K 1 0 R 1 1 0 R 1 1 1
T O N
F u 2 0 2 5 2 . C 0
V 8 -
E S I
% % 1 1
D E F F U T S 2
f o
T U O a C / l C
6 5
3 1 K 1 1 R
1
11 2 3
R O F
= =
F u 2 8 2 2 4 2 . 4 C 0 4 R 1 1
9 V E D R
T U O K
T S 0 P 0 S 3 K Y A L E R P I S
5 3
4 0 0 9 0 3 3 N Q 2
8 4 1 4 N 3 2 1 0 K 3 0 1 R 1 1
2 0 0 3 D C C V
O P G R E P S M D U R J A O B D N A G T V U E C R
N E S S O T S A W 1 3 0 3 R B
80
SBC PCB - TEMPERATURE CIRCUIT - 9120, 30, 40 9 V E D R
T U O P M E T
M H O
. p r o C t a r i c u g i o r 0 f C o 4 e 0 i t l G 4 n l e e , 7 i s l 8 c n l 5 S a e 7 ) 0 0 4 s 7 L M w V 3 o 0 4 A 3 R 3 (
2 9 1 8 @
7 1 0 5 2 3 1
2 2 6 K R 1
V m " 0 P 0 M 0 E 3 T "
T P U T
1
0 K 1 0 1 0 R 1
1
1
2
h c s . 6 b m
0 3 1 9 , 0 2 1 9 R O F D E F F U T S T O N
0 4 1 9
8 4 1 1 6 4 1 N D 1 2
2 1 4 F L
7
% 1 1 K 5 0 R 1
6 5
1
K 3 4 5 7 R 2 1
9 R O F
2
A 7 1 U
7 1 0 5 3 3 1 T P U T
" V 0 0 . 0 1 "
V 8 -
% 1
% 2 1 2 2 5 K 5 5 0 R 1 R 1 1 2 1 4 F 1 L
4
8
K 1 . 8 6
V 8 +
2 3
1 T E S Y R O T C A F " . J D A T O P P M K 4 E 5 0 T 1 R 2 " 1 3
v 0 1 +
% 1
5 6 M O I 4 V R 7 T 6 D X 8 N N A 1 I G M U V 4 2
V 4 2 +
2
% 1
, 0 1 1
D E F F U T S
B 7 % 1 U 2 1 9 K 5 8 R 1 1 1
% 1
k 9 6 . 5 0 R 9 1
D E F F R U O T F S
k 9 5 4 . R 7 2
1
0 4 1 9
2
R O T S I M R E C H 5 T 2 C @ T N M H M O O K R 0 F 1
P M E T
H P / E S I
T U f O o Y A 6 L
B C P t R e O e F h S R 6 O 9 N S 9 I N 1 A M r E S , , e 0 b C m E 1 D R A O B
R l I T u N U T i A M t A r E n R p H e E A C m P S u M c E o T D e : l e e t z B t i a i T D S
81
SBC PCB - ANALOG SELECTOR AND A/D CONVERTER - 9120, 30, 40 9 V E D R ] 7 . . 0 [ T A D D A
f o
S U T A T S D A
. p r o C t a r i c u g i o r f C o e i t l G n l e e , i s l c n l
] 7 . . 0 [ T A D D A
S L V A
C V C 8 V -
R E T R E V N O C
0 1 2 3 4 5 6 7 0 1 2 3 4 5 T T T T T T T T T T T T T T A A A A A A A A A A A A A A D D D D D D D D D D D D D D D D D D D D D D D D D D D D A A A A A A A A A A A A A A 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 1 1 1 1 1 1
1 8 0 2 4
1 2 3 4 5 6 7 8 9 0 1 2 R L S B B B B B B B B B 1 1 1 O O U B B B P T A T S D + D L N + - P P T R A O O N N A A U E O H I O M I I C C O F T E N N D L / M F F F F F F T S D E E / N N 0 H L O E E E E E U O N E B Z B E E U 2 N N C R R R R R B M I T L A H S C R U I I
D / A
7 5 C
2 1 6 R
K 0 0 1
1
1
2
0 7 K R 1
2
V 5 0 . 2
7 1 0 4 5 1 3 P T T U
V V 8 8 + -
3
1
F n 6 0 5 5 C 1
R E X E L P I T L U M
2
2 F n 5 0 5 3 C 3
1
" V 0 0 5 . 2 " 1
6 7 8 1
X
O T
1 0 4 6 2 1 5 9 5 2 4 3 1 1 1 1 1 1
1
2
1
2
2 % 3 1 7 % 2 1 7 R R K K 1 3 1 5 V . 0 4 0 5 . 2 + 2
D E S D E S 1 V V V H 9 5 6 7 N 5 4 3 2 1 0 1 0 A B C 4 X X I X X X X U X X
8
: B E S T L O N 1
z H M 8 5 1 . X 3
C C V
% 1 2 1 F u K 1 1 0 7 0 R 2 1
2 1
1
Y L E T A M I X O R P P A
D + N V V G T U O C 9 L S T 0 E O N U 1 S F I O 7 C F C C L S U S S C O B O O I
5 4 3 6 9 7 8 9 0 2 7 1 1 8 9 6 0 7 4 5 2 3 3 3 3 3 3 3 3 2 3 3 1 2 3 1 2 1 2 2 2 2 2 2
4 F 5 n C 1
h c s . 7 b m
V m 1
T U O V
1
3
0 4 D 1 1 N N C 2 I G M U V
0 0 6 0 R 1 2
3 1
8 6 K R 1 2
V 8 +
1
9 6 K R 1 2
6 6 K R 1
1
7 6 K R 1 2
T T U U T O O U H a O p T P C / U M / a O E l N K T C
1
2
1
0 1 2 L L L E E E S S S D D D A A A
N N N E E E U B B C R H L D D D D A A A A
H P / E S I
0 4 0 4 7 8 5
D R A O B
7
t e e h S D 6 / 9 A 9 1
N I A M r , , e 0 C b 1 a m 4 I u w 7 ) M e l s 0 0 T N i 3 o 0 4 A r 3 R 3 ( M t p E n A H e C m S u c o D e : l e e t z B t i i a T S D
82
SBC PCB - PRINTER/ DISPLAY DRIVERS - 9120, 30, 40
- N N 0 1 2 N E E L L L E S B B E E E S S S S L H D D D D D A A A A A
N U R D A
2 3 4 5 W 1 N T N N N N / N E S E E E E R E P N P P P P P S P I O O O O S O I / D I A D T A D
E C D A
] 7 . . 0 [ D D
- - 1 2 3 4 5 6 7 R T T T T T T T O O O O O O O O T D D D D D D D O M
T S A R T N O C
F B P S I D
K 8 7 8 . R 4 1 1
C C V
9 D 8 0 4 3 1 U
12
1
T O 9 P 8 K 2 R 5 1
2
1
0 9 K R 1 + V
1
N E S S
7 1 0 5 5 3 1 T P U T
h c s . 9 b m
" S S " 1
2
4 0 9 3 6 N Q 2
4 0 9 3 3 N Q 2
K 9 1 9 . R 5 1
2 1 K 9 0 R 1
A B C D E F G H ’ Q Q Q Q Q Q Q Q H 4 Q 9 K R 5 R L L K C L R C C L C 7 H 3 E R R C 4 R R S S S U 7
5 1 2 3 4 5 6 7 9 1 A B C D E F G H ’ Q Q Q Q Q Q Q Q H 4 Q 9 R K 5 R L K L C L C L R C C R C 6 H 3 E R 4 R R S S S U 7 0 2 3 4 1 1 1 1 1 1
0 2 3 4 1 1 1 1 1 1
A B C D E F G H ’ Q Q Q Q Q Q Q Q H 4 Q 9 R K 5 R L K L C L C L R C C R C 4 H 3 E R 4 R R S S S U 7 3 4 1 0 2 1 1 1 1 1
C C V
C C V
5 1 2 3 4 5 6 7 9 1
L R T C D A
V 8 +
A B C D E F G H ’ Q Q Q Q Q Q Q Q H 5 Q 9 K R 5 L L K C R C C L 5 H 3 E R R C 4 R G S S S U 7
" . J D A
9 7 5 6 H H Q Q D 1 L C R / K H H H 8 L N 3 E 4 B C D E S 7 F G H C I U S A
2 9 K R 1 A V 5 +
0 1 2 3 1 4 5 3 4 5 6 2 1 1 1 1 1 1 0 1 2 3 4 5 6 7 T T T T T T T T A A A A A A A A D D D D D D D D D D D D D D D D A A A A A A A A
A T A D P S D
] 7 . . 0 [ T A D D A
1
R T S A V
R T S R P
R T S I D
V 8 -
] 7 . . 0 [ T A D D A
6 0 9 3 5 N Q 2
2
2 8 K 9 0 R 1
E L P M A S
T O P K 5
R O F
3
2 2 6 0 K 9 K 1 0 R 1 R 1 1 1
2
D E F F U T S
7 K 9 0 R 1 A V 1 5 +
R T S I D A
0 1 1 9
4 0 9 3 4 N Q 2
A V 5 +
A T A D D A
3 9 S R S " 2 1 2
R T T S E O S D E A R
4 3 2
1
I S K O C M S
1
8
5 1 2 3 4 5 6 7 9 1
L R T C R P
3 5 3 F L
A 9 3 U
R E Z Z U B
C C V
L R T C A V
2
1
0 2 3 4 1 1 1 1 1 1
C C V
1
2 4 9 K R 1
1
] 7 . . 0 [ D D
5 0 9 0 R 1
2
0 1 2 3 4 5 6 7 D D D D D D D D D D D D D D D D
5 1 2 3 4 5 6 7 9 1
E 1 C I m u T T N N l A I i M t R r E n P p A H e C m S u c o D : e e e l z B t t a i i D S T
1 2
D N G P
8 7 5 6 3 4 2 1
0 4 0 4 7 8 5
9 S R E V I D R t R D e e A O Y h B A S L 6 N P 9 I S 9 A I 1 M r D e / , , b R 0
) e 7 4 a w S M s 0 0 L V 3 o 0 4 A 3 R 3 (
2
G P
C 1 2 3 4 5 6 7 M D C T T T T T T T T N V U U U U U U U U G 6 O O O O O O O O 5 2 7 M 1 6 5 4 3 3 1 2 N N B N N N N 3 N N I I L I I I I U I I
. p r o C t a r i c u g i o r f C o e i t l G n l e e , i s l c n l
H P / E S I
R E Z Z U B
1 Z B
0 8 7 6 5 4 3 2 1 9 1 1 1 1 1 1 1 1 1
f o
3
7 0 8 3 R 3
C C V T N I R P
D E L E L P M A S
E L P M A S
" T S A D R E T F N F O T U C O T " N S
3 1
D N
9 V E D R
O S I M
T O N
84
PRINTER DAUGHTER PCB - 9120, 30, 40, 80, 81 1 V E C R D R A O B
T S P S
D E E F
1 W S S 1
R E T R U H C S
. p r o C t a r i c u g i o r f C o e i t l G n l e e , i s l c n l 1 B C B P W Z P
S L V A h c s . r e t n i r p
2
2 1 J 1 2 3 4 5 6 7 8 1 2 3 4 5 6 J 8 P 5 M 1 A 3 0 2 5
6 5 1 P 3 M 0 A 2 5
H X R D 0 1 C Z E
E 0 D 1 B I S T N E N O P M 2 B O 1 B C
S R E T N E C
S N I L L U S
0 0 1 .
H T I W
S E E T D A I M S R 1 E A D L O S N O
- R O K D 6 7 5 4 3 2 1 O H C E T T T T T T C T T C E E O O O O O O C O O A H F D D D D D D V D M T C
0 2 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 0 0 E 1 1 B A B A B A B A B A B A B A B A B 1 1 G P A A B D J E
0 4 0 4 7 8 5
R E T H G U A D
f o 1
t e e h E S S 4 I 9 C 9 L 1
R E T N I r , R e 0 P b 3 a 4 , m w 7 ) M e u r s 0 0 C N e 3 o 0 4 I b 3 R 3 ( T t m A n e M e v E m o H u N C c S o D : e e e l z B t t a i i D S T
85
LAMP PCB - 9120, 30, 40 2
1 V E C R
R 0 7 E 6 P 3 M V 5 P 0 L J 1 2 3 1 A A V
f o 1 . p r o C t a r i c u g i o r 0 f C o 4 e 0 i t l G 4 n l e e , 7 i s l 8 c n l 5 S a e 7 ) M w 7 4 s 0 0 L V 3 o 0 4 A 3 R 3 (
2 0 7 6 P 4 3 M P 0 A J 1 2 3 1
V E V L A V
2
C 0 7 E 6 P 3 M V 3 P 0 L J 1 2 3 1 A A V
1 B W B P W Z P
h c s . p m a l
2
B 0 7 E 6 P 2 3 M V P 0 A L J 1 2 3 1 A V
2
5 -
A 0 7 E 6 P 1 3 M V P 0 A 1 2 3 1 L J A V
0 P 7 6 P M 6 3 M P A U J 1 2 3 4 5 6 0 1 P
R O 3 S 0 N 7 6 P E 7 3 M P A S J 1 2 3 4 0 1 R O D
0 8 4
B E V L A V
- - D A R V B C C + D E + E E E E E E E E + S E S V V S S V V S D O V A L L A A L L A E L L H A A H H A A H L C A P V V P P V V P D D V
D N G 6 0 6 2 T P 8 A P 1 2 3 4 5 6 7 8 9 0 2 3 4 5 6 8 0 1 2 4 6 3 1 1 1 1 1 1 1 1 7 1 1 9 1 2 2 2 3 2 2 5 2 2 C J + P M A L
. a m
P M A E E T V R L E A V V O
= I : E T O N
Y A R R A
Y A R R A
Y A R R A
D E L
D E L
D E L
5 5 5 8 8 8 2 3 6 7 0 1 4 5 8 2 3 6 7 0 1 4 5 8 2 3 6 7 0 1 4 5 8 1 1 1 1 2 1 1 1 1 2 1 1 1 1 2 P P P M M M 1 L 2 L 3 L U H U H U H 1 4 5 8 9 2 3 6 1 1 1
1 4 5 8 9 2 3 6 1 1 1
1 4 5 8 9 2 3 6 1 1 1
D R A O B P M A L , C I r T e A b
t e e h E S S 6 I 9 C 9 L 1 , 1 1
M u E m y H N l C u S t J n e m u c o D e : l e e t z B t i a i T D S
86
DISPLAY DAUGHTER PCB - 9120, 30, 40 1 V E C R D R A O B
D E F F U T S
1 B W B P W Z P
Y A L P S I D D C L
2 1 1 P 1 2 3 4 5 6 J J R
E L P M A S
A C C V C C 5 V V + 6 6 5 8 3 4 5 1 X E L O M
3 . 2 8 0 R 1 E . T R 2 1 U 4 2 H 1 C 1 P S S I
S E Y
3 . 2 8 0 R 1 E . T R 2 1 U 4 2 H 1 C 2 P S S I
O N
1
1
0 1 2 3 4 5 6 7 D D D D D D D D C C V
A A V V 5 5 + + D D T N E P G L E E E L L L P P P P M M M M A A A E S S S T
1
1 4 1 2 X 3 E 0 L 3 O 0 1 2 3 4 2 P M 1 1 1 1 2 J 1 2 3 4 5 6 7 8 9 1
D D D D D D D D
R O S N E S
7 1 0 5 3 T U
1 P T
T O N
D D D D D D D D
C C V
S L V A
T O N
D E F F U T S
Y A L E 1 P 4 T 1 A S 2 X N I 3 E 0 L R D 4 O 0 1 2 3 4 2 P M 1 1 1 1 2 E J 1 2 3 4 5 6 7 8 9 1 D T C L L A 0 1 2 3 4 5 6 7
. p r o C t a r i c u g i o r f C o e i t l G n l e e , i s l c n l
D D D D D D D D
T T S W S N N / A I E R R / P P T A S S N T I I O A D D C D 0 1 2 3 4 5 6 7 D D D D D D D D D D D D D D D D
] 7 . . 0 [ D D
D N G 6 0 2 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 6 P 1 2 3 4 5 6 7 8 9 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 J T P A 3 C
S E Y
O N
R O O D N I A M
h c s . y a l p s i d
0 4 0 4 7 8 5
R E T H G U A D
f o 1
t e e h E S S 2 I 9 C 9 L 1
Y A L P S r , I e 9 D b 1 m ) 7 e a M w 7 4 , u y s 0 0 C N r 3 o 0 4 I a 3 R 3 ( T t u A n r M e b E m e H u F C c S o D : e e e l z B t t a i i D S T
87
SYSTEM INTERCONNECT - 9180, 81 1 V E C 1 R f o
6 7 0 0 3
1 1 P J T S F Z
2 R E N E T S A F
2 1 P J T S F Z
2 R E N E T S A F
T N U I O 2 2 3 S 3 2 T 2 S S C S T R R R
H
X S R R N D I E 0 L 1 L T 1 0 0 C U 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 1 1 Z S N P B A B A B A B A B A B A B A B A B A B E J A I R P
O K C H D R - E C E 1 O 2 3 4 5 6 7 H A E C T T T T T T T T C T F C O O O O O O O O V D M D D D D D D T N I R P
2 3 5 9 4 8 3 7 2 6 1 2 - 7 P S J R
D N G P
M E T S Y S
D N G D
0
D N G P
D N G A
0
W E R C S
P 9 B D
D R A O B
4 1 6 0 5 4 7
Y A L P S I D
2
1
1
3 7 0 8 0 5 9 0
V V V 2 4 2 1 2 1 + + P P P
R 0 7 E 0 X 3 E W P 1 2 3 4 5 6 7 4 L 0 O O J 6 M P 6 2
C E V L A V
D E - A R V + B C D S O E E E E E E E + L S V V V S S S D C A L L L A A A E D H A A A H H H L P V V V P P P D
2 4 K 0 0 9 1 R 1 C C V
1 4 P J J E Z
2 4 P J J E Z
R O T C E J E
D N G P
0 1 2 3 4 5 6 7 D D D D D D D D D D D D D D D D
V V 0 4 1 2 + +
] 7 . . 0 [ D D
X E L O M H T I W S E T A M
E G A U G N A L
8 7 6 5 4 0 B 8 7
1 W S 1 2 3 4
C C V
2
7 0 K 9 0 R 1
T C E L E S
S S S O E O P R P N B P B E T E T T W L P O L B U M B A T T S E E N L I L B A T L O N R R T U N T O C
R O T C E J E
8 0 K 9 0 R 1 1
1
B E V L A V
C C A C C V V V 5 +
0 1 2 3 L L L L E E E E S S S S G G G G L L L L
0
1
P M E T A R E E V V L O A V
0 0 0 0 4 3 0 0 3 4 N 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 W P 1 2 3 4 5 6 7 8 9 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 J C
D N G S
R O T C E J E
V C 4 C V 2 +
P M A
1
1 6 K 2 0 9 7 R 2
2 5 P J J E Z
R O T C E J E
P M A L
D R A O B
3 2 1 2 2 2 0 2 0 0 0 0 9 9 9 9 R R R R
C C C C V V P P
1 7 P J W R C S Z
1 5 P J J E Z
0 0 0 0 4 3 0 0 3 5 N 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 W P 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 C J 1 2 3 4 5 6 7 8 9 1 1
D N G S
D N G P
0
W E R C S
1 0 5 P 6 M 2 A 6
J
D N G D
2 7 P J W R C S Z
+ P M A L
D N U O R G 2 P D E T A R A P E S T S E I B X E O T Y L S L D A N C U I O S R Y G H P W O T L O L N A O O D T 3 E 0 R 9 A R Y 0 E 0 H 9 T R
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8 i s l 5
1 6 0 K 9 0 R 1
2
1 5 0 K 9 0 R 1
2
1
2
D E L E E L L P P M M A A S S
T T S W S N / N A I P R E R / M P P T A E S S N T T I I O A D D C D
Y L L D A L U E D I I H V S I D E N H I T N T U A R D S E I T C D E N N G N E O . C : L E P A E D T M R N O A A A N S
S N O E E N Y S S
] 7 . . 0 [ D D
S S O O P P W K N D C L E D N C C T N P / T O W L U W O M C R D N M S I S N E A N H I C L E M L O E R L T D N E O E C N
c S L V A
0 8 1 9 D R A O B
2
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e 7 C b m I l n a e ) T u y M w 4 A N a s 0 M M 3 o 4 E t 3 R ( H n C e S m u c o D : e e e l z B t t a i i D S T
88
SBC PCB - POWER SUPPLY - 9180, 81 1 V E C 1 R + P M A L
f o
S V + " V 2 1 / V 2 2 +
W 0 1 2 9 / 5 . R 3
1
3 0 K 1 1 R 2
" 6 P P 1 T T
1
2
V 6 1 /
1
1
1
2
l ) n e c S a M w 4 s 0 L V 3 o 4 A 3 R (
2
1
2 U T S F Z
T U O 7 V ADJ 1 3 N 1 M I U L V
1
3
1 S H Z
1
3
K 8 2 . R 1
K 2 3 . R 1 2
1
2
4 0 9 3 1 N Q 2
K N I S T A E H
T U 5 O 0 V C 9 7 N 2 M I U L V
1 R E N E T S A F
3 U T S F Z
3 T U 5 O 0 V C 8 7 N 3 M I U L V
1
2
1
1 R E N E T S A F
2
F u 2 1 7 . C 0 1
1
2 1 R 1
2
1
2
2 F u 8 1 6 . C 0
W O L S / T S A F
V 4 2 +
1
2 1
2
F u 9 1 6 . C 0
F u 1 3 . C 0
F u 1 2 . C 0
K 1
2
F u 0 1 7 . C 0 1
F u 1 1 . C 0
2
F u 1 1 7 . C 0
2
V
1
+ V
2
F u 7 1 6 . C 0 1
2
F u 6 1 6 . C 0 1
C C V T N I R P
1
V 0 5 V / 4 F 2 u + 0 9 0 2 2 C 2
V 6 1 / C F C u V 0 0 0 3 2 C 2
V 6 1 / F u 0 4 0 6 0 C 1
1
2
2
1
V
2
V 5 2 / F u 5 0 2 7 C 4 2
1
1
1
1
2
1
2
1
7 R
0 6 5
6 R
1
1
1
" T T A A 2 2 "
2 " T T A A 6 6 2 . . F 1 1 " 1
C C V P
2
2 1
F u 7 1 1 . C 0
F u 3 1 2 . C 0
1
2
2
2 1
F
F
F
u 0 1 1 . C 0
u 6 1 1 . C 0
u 2 1 2 . C 0
" 2 T 2 T A A 5 5 2 2 3 . 4 . F 1 F 1 " " 1 1 " V V 4 5 2 + + " " 2 1 P P P P 1 T T T T
V 4 2 + P
V 2 1 P
" T T A 2 A 0 0 0 0 3 3 . 5 . 0 F 0 " " 1 V 2 1 " 3 P P 1 T T
V 2 1 + P
" T T A A 0 0 0 0 3 3 . . 0 0 " " V 2 1 + " 4 P P 1 T T
1
2
F u 1 9 . C 0 1
2 0 6 5
1
1
C C V P
" 5 F / D V 5 E 2 D L 1 2 + " 1
2
2 K 2 8 . R 1
0 2 2
9 R
" 4 F / D V 4 E 2 D L 1 1 " 2
1
2 1 F
" 3 F / D V 3 E 4 D L 2 2 + " 1
" 2 F D / 2 E V D L 5 2 + "
2 0 0 1 2 R 2
1
2
F u 4 1 2 . C 0
2
1
" 1 F D / 1 E V D L 5 2 + "
F u 8 1 1 . C 0
F u 1 1 1 . C 0
1 1
2
F u 2 1 1 . C 0
5 . E T 6 C D I 1
2
F u 5 1 6 . C 0
V 5 2 / + F V u 6 0 2 7 C 4
1 R D L H Z
R E D L O H E S U F
2 R D L H Z
R E D L O H E S U F
3 R D L H Z
R E D L O H E S U F
4 R D L H Z
R E D L O H E S U F
5 R D L H Z
1
C C V
2
2 1
F u 5 1 1 . C 0
F u 1 1 2 . C 0
2
2 1
F u 4 1 1 . C 0
F u 0 1 2 . C 0
1
2
2 1
F u 3 1 1 . C 0
F u 9 1 1 . C 0
1
2
F u 1 7 . C 0 1
" D N G " 5 P P 1 T T
2
F u 1 8 . C 0
R E D L O H E S U F
3
D R A O B
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e 7 C b
I T m u y A N a M M E t H n C e S m u c o D : e e e l z B t t a i i D S T
F u 3 1 7 . C 0
F 7 u 2 0 C 1
" 8 P P 1 T T
F 8 u 2 0 C 1
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8 i s l 5
2
F u 4 1 7 . C 0
2
0 8 1 9
6 7 0 0 3
2
2
1
" A V 5 +
V 6 1 /
1
N E P M A L
1
2 1
1
C C V T N I R P
F u 1 4 . C 0
2
0 4 8 R 1
1
A V 5 +
F u 1 5 . C 0
" A V 5 -
" 7 P P 1 T T
0 0 8 E 7 J Q M
A V 5 -
F u 1 6 . C 0
F u 5 1 7 . C 0
1
2
A V 5 +
2 1
2
A V 5 -
89
SBC PCB - VALVE DRIVERS - 9180, 81 1 V E C 1 R f o
6 7 0 0 3
0 8 1 9
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8 i s l 5 c n l S a e ) M w 4 s 0 L V 3 o 4 A 3 R (
S R E V I R D
+ E V L A V
" V 5 . 2 1 / V 2 2 + "
E V L A V
R E V L A V
V E V L A V
C E V L A V
B E V L A V
A E V L A V
M R E H T
6 1 P P T T
1
F u 2 1 3 . C 0 1
2
% 1 8 0 1 0 R 2 1
2
2 S H Z
K N I S T A E H
% 1 2 T U O 7 V ADJ 1 3 N 5 M I U L V
K 2 9 8 1 . R 1 1
1
2
1
2 4 0 9 3 8 N Q 2
3
0 0 8 E 9 J Q M
K 0 5 2 . R 1
V 0 5 / F 1 u 7 3 2 C . 2 2
V 0 5 / F 1 u 6 3 2 C . 2 2
F u 1 1 3 . C 0 1
V 4 2 +
2
2 1 2 R
K 7 . 4
0 0 8 0 E 1 J Q M V 0 5 / F 1 u 8 3 2 C . 2 2
2 2 1 K R 1
0 0 8 2 E 1 J Q M V 0 5 / F 1 u 9 3 2 C . 2 2
2 1 1 K R 1
0 0 8 1 E 1 J Q M
V 0 5 / F 1 u 0 4 2 C . 2 2
2 3 1 K R 1
0 0 8 3 E 1 J Q M 0 5 9 7 1 N D 1
D N G S
2
2 4 1 K R 1
2 5 1 K R 1
2 6 K 1 0 R 1
1
1
1
1
1
1
1
5 N E P O
P M E T R E V O
E V L A V
1 N E P O
2 N E P O
3 N E P O
4 N E P O
D N G S
1
D R A O B
4
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e 7 C I b m T u y A N a M M E t H n C e S m u c o D : e e l e t z B t a i i D T S
90
SBC PCB - PUMP MOTOR DRIVER/DOOR DETECT - 9180, 81 1 V E C 1 R A E S A H P
B E S A H P
C E S A H P
D E S A H P
4 0 0 0 4 1 N D 1 S V +
1
S V +
1 4 0
0 4 9 N D 1
0 3 4 1 N D 1 2
1
4 0 0 4 8 N D 1 2
1
2
1
2
4 0 0 1 4 1 N D 1 2
1
R O O D
D N G S
2
C C V
D N G S
D N G S
S V +
C C V
3 8 7 3 5 7 4 5 6 8 4 6 1 1 1 1 1 1 2
3 2 1 1 2 3 D D D 4 4 D E E T E T T N N N T E N S S U S U U G G G U S G O N O O N N O N E E E E E S S S S 3 4 S B 2 3 1 A 9 N S S 2 N N N 9 N N I V V L E I I U I E
D N G S
2
1
2
R O O D
0 2 2 P S I Z D
D N G S
C C V
R E V I R D
2
1 1 U
N 1 1 3 M L
7
2 K 1 0
6
1
3 R
5 8
4
1
0 1 C C V
H C T I W S
9 0 0 1 9 2 1 2 1 2 1 1 1
F u 5 1 4 . C 0
1
T C E T E D
D N G S
F u 1 1 4 . C 0 1
K 3 2 3 . R 2
D 2 N G S
1
1
D 2 N G S
2 3 9 K 2 0 R 1
C C V
1
8 K 2 0 R 1
2
1
2
0 K 3 3 R 3 C C V
1
2
D N G S 4 5 6 7 8 4 3 9 5 2 3 1 1 1 2 1 2 F A 1 B C D E D E E H H M E N S S N N O R G N N I I H V
P M U P
F u 2 1 4 . C 0 1
2
D N G S
L L U W F C / T C P E F S L 0 / E E A 1 W T R H U C S
E E C S S V L O E R L 0 T B C 7 2 N A N C 9 1 P O N Y S S 2 S I C E S O V L Z D
% 1
% 1
4 K 2 0 R 1
2 2 3 6 R 5
1
2
1 V 6 1 / F 7 u 4 0 C 1
C C V
1
2
2
D N G S
D N G S
D E S O L C D
D N G S
F n 3 3 4 . C 3
3 K 2 2 R 2 1
2 F u 4 1 4 . C 0
7 9 0 1 8 0 1 6 2 1 1 2 1 1 1 1 1
C C V
1
2
1
2
D N G S
D N G P E T S P M U P
N E P M U P
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8 i s l 5 c S
2
6 2 R 1
5 2 R 1
D N G S
1
D N G S
1
V 0 5 / F u 6 0 4 0 C 1
+ D E L D 7 0 2 0 R 1
4 0 0 2 4 1 N D 1
4 0 0 4 7 N D 1 S V +
2
4 0
1
6 7 0 0 3
4 0 0 4 4 1 N D 1 2
1
S V +
f o
D N G D
L V A
0 8 1 9 D R A O B
5
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e 7 C b n I m e ) T a l u y M w 4 A N a s 0 M M 3 o 4 E t 3 R ( H n C e S m u c o D : e e e l z B t t a i i D S T
91
SBC PCB - INPUT AMPLIFIERS - 9180, 81
T U O a N
9 P P T T
a N
0
0 = 1 P P T T T E S F F O
=
A 2 1 U
F u 2 9 2 4 2 . C 0
N C 9 7 2 C L T
1
1
" K "
1
V m 0 0 7
N C 9 7 2 C L T
= T E S F F O
A V 5 +
4 2 3
F u 2 0 2 5 2 . C 0
A V 5 3 1 1 K R 1
1
A V 5 +
" i L / a C / l C "
1
2
1
A V 5 -
2 1
N C 9 7 2 C L T
% 8 1 C 2 K 1 2 1 U 6 . 4 8 R 6 1
9 0 1
2
1
2
% 1
K 5 . 6 6
2 8 4 R
1
1
K 3 4 2
D 2 1 U
A E R A
R O T A R E N E G V
E B O R P N I K S A M R E D L O S O N
S R E I F I L
B 3 1 U
P M A
1
1
4 6 0 6 C M L
7
2 4 3 R
K 0 0 1
G S N M
W W 4 R
E B O 2 R P P
a N
A V 5 +
E B O R P : E T O N
4 6 0 6 C M L
1
4
11 2 3
2 5 3 R
+ N I U R H T
1 2 E B O R P Z
A 3 1 U
D E D L E I H S
6 5
T U P N I
% 2 1 9 3 K R 1
1
: E T O N
S A R E E R D A L O E S B O F R O P R D A N E A L C G N E I B R D D L : . R U E K A O T S U H O A
% 2 1 0 4 K R 1
% 2 1 1 4 K R 1
K 0 0 1
W W 4 R
A V 5 D E D L E I H S
E B O 3 R P P
K
E B O R P : E T O N
4 6 0 6 C M L
4 1
2 6 3 R
K 0 0 1
W W 4 R
2 4 U
2 K 4 2 R 8 1
1
2
2 V 5 . 2 -
T E S F F O
E B O 4 R P P
+ N I
a C r o , i L , l C
E B O R P : E T O N
5 E B O R P Z
R C 4 R
E B O 5 R P P
f e R
1 R D L H P S Z
R E D L O H E B O R P
1 5 P 2 P T S F Z
3 R E N E T S A F
5 . 2 Z X B 5 8 3 M L
3
9 0 1
U R H T
1 4 E B O R P Z
8
4 6 0 6 C M L
3 2 1 1
N C 9 7 2 C L T
D E D L E I H S
3 2 1 1
+ N I U R H T
1 3 E B O R P Z
D 3 1 U
C 3 1 U
4 1
2 5 P 2 P T S F Z
3 R E N E T S A F
0 8 1 9 D R A O B
6
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e 7 C b I m T u y A N a M M E t H n C e S m u c o D : e e e l z B t t a i i D S T
5 1 1 K R 1
% 1 2 7 4 R
2
1
4 1 1 K R 1
1
F u 1 1 5 . C 0
6 5
11
1 1 P P T T
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8 i s l 5 l ) n e c S a M w 4 s 0 L V 3 o 4 A 3 R (
F u 2 1 5 . C 0
% 1 K 9 5
6 7 0 0 3
1 1
% 1 B 7 2 K 1 2 2 U 5 . 4 3 R 4
f o
2 5 6 K R 1
1
1
T E S F F O
T U O i L / a C / l C
2 4 6 K R 1
2 3 6 K " R 1 a 1 N "
V m 0 0 2 2
F u 2 8 2 2 4 2 . 4 C 0 4 R 1 1
1 V E C 1 R
T U O K
92
SBC PCB - TEMPERATURE CIRCUIT - 9180, 81 1 V E C 1 R
T U O P M E T
f o
6 7 0 0 3
2 2 K " 6 1 P R M 1 E T "
2 1 P P T T
0 K 1 0 1 0 R 1 1
1
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8 i s l 5 c S
2
L V A
8 4 1 1 6 4 1 N D 1 2
B 7 % 1 U 1 2 9 K 5 8 R 1 1 1
2 1 4 F L
7
% 1 1 K 5 0 R 1
6 5
1
2
% 1 K 3 4 5 7 R 2 1
2
A 7 1 U
3 1 P P T T
" V 0 0 . 0 1 "
A V 5 -
% 1
% 2 1 2 2 5 K 5 5 R 0 R 1 1 1 2 1 4 F 1 L
4
8 2 3
K 1 . 8 6
A V 5 +
1
4 5 R V
" . J D A T O P P M K E 0 T 1 2 "
1
0 1 +
3
% 1
5 6
% 1
K 9 6 . 5 0 R 9 1
K 9 5 4 . R 7 2
1
2
M O I 4 V R 7 T 6 D X 8 N I 1 N A G M U V 4 2
V 4 2 +
P M E T
0 8 1 9 D R A O B
7
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e 7 C b n T m e ) I a l u y M w 4 A N a s 0 M M 3 o 4 E t 3 R ( H n C e S m u c o D : e e l e t z B t a i i D T S
93
SBC PCB - ANALOG SELECTOR AND A/D CONVERTER - 9180, 81 1 V E C 1 R ] 7 . . 0 [ T A D D A
f o
S U T A T S D A
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8
] 7 . . 0 [ T A D D A
R E T R E V N O C
V m 1
6 5 4 3 2 1 0 3 2 6 5 9 4 7 8 1 1 1 1 1 1 1
1 8 0 2 4
1 2 3 4 5 6 7 8 2 1 R L S 0 9 B B B B B B B B 1 1 1 O O U B B P T B B A T S D + D L - P P T R N + A O N A A U E O N O H T E I O I C C O F N N M I L / D D F F F F F T S E E M F / N N 0 H L N E O E E E E U Z B B O E E U E 2 N N I T M R R R R B A L H C R C R S U I I
Y L E T A M I X O R P P A
D + N V V G T U O C 9 L S T 0 N U 1 E O I O 7 S F C C L C F S S C S U O O I O B
B : S E L T O 1 N
2 7 1 1 5 3 6 9 7 8 9 0 8 4 9 3 0 6 5 2 7 4 3 1 2 3 3 3 3 3 3 3 2 3 1 3 1 2 2 2 2 2 2 2 7 5 C 4 F 5 n C 1 2 1
z H M 8 5 1 . X 3
C C V
% 1 2 1 F u K 1 1 0 7 0 R
2
1
1 2 2 1 6 R
2 F n 5 0 5 3 C 3
K 0 0 1
1
1
2
F n 6 0 5 5 C 1
1
0 7 K R 1
2
V 5 0 . 2
R O T C E L E S
A V 5 +
L E N N
3
A V 5 -
4 1 P P T T
" V 0 0 5 . 2 " 1
6 7 8 1
1 5 0 U X X X C 4 X B X A X X X I 3 9 4 5 2 1 0 1 5 2 4 6 1 1 1 1 1 1
1
2
2 % 3 1 7 % 2 1 7 R K R K 1 3 1 5 V . 0 4 0 5 . 2 +
T U O V 3 0 4 D 1 1 N N C 2 I G M U V
0 0 6 0 R 1 1
G O L A N A
2
2
D E S D E S V V V H 9 2 3 4 5 6 7 N 1 0 1 X
A H C
1
2
3 1
8 6 K R 1 2
A V 5 +
1
9 6 K R 1 2
6 6 K R 1
1
7 6 K R 1 2
T U O i L T / U T a O C P T U / M U O l E O a C T K N
1
2
1
D N G
2 1 0 L L L E E E S S S D D D A A A
8
D R A O B
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e
7 C I b m T u y A N a M M E t H n C e S m u c o D : e e l e t z B t a i i D T S
s l 5 i c n S a e ) M w 4 s 0 L V 3 o 4 A 3 R (
A C V C 5 V 0 1 2 3 4 5 6 7 0 1 2 3 4 5 T T T T T T T T T T T T T T A A A A A A A A A A A A A A D D D D D D D D D D D D D D D D D D D D D D D D D D D D A A A A A A A A A A A A A A
D / A
0 8 1 9
6 7 0 0 3
N N E E N B E B U H C L R D D D D A A A A
D N G D
94
SBC PCB - PRINTER/ DISPLAY DRIVERS - 9180, 81
N 0 1 2 N N E L L L E E B E E E S B S S S S L H D D D D D A A A A A
N U R D A
1 2 3 4 5 W N T N N N N N / E S E E E E E R P N P P P P P P S I O O O O O S I / D I A D T A D
E C D A
] 7 . . 0 [ D D
- - 1 2 3 4 5 6 7 R T T T T T T T O O O O O O O O T D D D D D D D O M
T S A R T N O C
F B P S I D
O S I M
K 8 7 8 . R 4 1 1
C C V
D 9 0 8 3 4 U 1
12
1
2
1
0 9 K R 1 1
+ V
2 K 5 . 1
4 0 9 3 6 N Q 2
" S S " 5 1 P P 1 T T
2 1 K 9 0 R 1 1
D N G P
0 8 7 6 5 4 3 2 1 9 1 1 1 1 1 1 1 1 1
D N G P
C 1 2 3 4 5 6 7 M D C T T T T T T T T N V U U U U U U U U G 6 O O O O O O O O 5 2 7 M 1 6 5 4 3 3 1 2 N N B N N N N 3 N N I I L I I I I U I I 8 7 6 5 3 4 2 1
N E S S
4 0 9 3 3 N Q 2
K 9 1 9 . R 5
R E Z Z U B
1
5 1 2 3 4 5 6 7 9 1
5 1 2 3 4 5 6 7 9 1
A B C D E F G H ’ Q Q Q Q Q Q Q Q H 4 Q 9 K R 5 L L K R L C 6 R C C L H C 3 E R R C 4 R U S S S R 7
A B C D E F G H ’ Q Q Q Q Q Q Q Q H 4 Q 9 R K 5 L K L R C L L C 4 R C H R C C 3 E R 4 S R R U S S 7
0 2 4 1 3 1 1 1 1 1
4 1 0 2 3 1 1 1 1 1
C C V
L R T C D A 2 8 2 9 R
T R E T S S E O R D A
C C V
K 7 . 4
2 9 2 9 R
A V 5 +
1
1
C C V
A B C D E F G H ’ Q Q Q Q Q Q Q Q H 5 Q 9 K R 5 L L K C 5 R C C L H 3 E R R C 4 G U S S S R 7
9 7
] 7 . . 0 [ T A D D A
3 9 S S R " 2 1 2
2 K 9 A V 5 +
1 R 1
6 0 9 3 5 N Q 2
A V 5 +
A T A D D A
T O P K 5 3
4 0 9 3 4 N Q 2
2 2 6 0 K 9 K 1 0 R 1 R 1 1 1
2
7 K 9 0 R 1
A V 1 5 +
2
2 8 K 9 0 R 1
C C V
3 2
A V 5 -
1
K 7 . 4
1
R T S A V
4
0 1 2 3 1 4 5 3 4 5 6 2 1 1 1 1 1 1 0 1 2 3 4 5 6 7 T T T T T T T T A A A A A A A A D D D D D D D D D D D D D D D D A A A A A A A A
A T A D P S D
1
" . J D A
5 6 H H Q Q D 1 L / C K H 8 R H H 4 L N 3 E A B C D E S 7 F G H C I U S
3 5 3 F L
8
5 1 2 3 4 5 6 7 9 1
L R T C R P 2 0 3 9 R
K 7 . 4
2
1 A 9 3 U
C C V
L R T C A V
1
2 4 9 K R 1
] 7 . . 0 [ D D
0 2 4 1 3 1 1 1 1 1
C C V
5 0 9 0 R 1
2
0 1 2 3 4 5 6 7 D D D D D D D D D D D D D D D D
C C V
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , e
1 2
0 2 4 1 3 1 1 1 1 1
D R A O B
C 7 I b m T u y A N a M M E t H n C e S m u c o D : e e l e t z B t a i i D T S
1
A B C D E F G H ’ Q Q Q Q Q Q Q Q H 4 Q 9 K R 5 L L K R L C 7 R C C L H C 3 E R R C 4 R U S S S R 7
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8
2
0 1
0 8 1 9
6 7 0 0 3
1 0 0 4 P P E 2 2 M K P
2 1 3 9 R
5 1 2 3 4 5 6 7 9 1
f o
s l 5 i c n S a e ) M w 4 s 0 L V 3 o 4 A 3 R (
1 Z B
I S K O C M S
D E L E L P M A S
7 0 8 3 R 3
3 1
C C V T N I R P
1 V E C 1 R
R T S R P
R T S I D
] 7 . . 0 [ T A D D A
R T S I D A
E L P M A S
D N G
D N G D
96
SBC PCB - FLUID PACK DETECTOR - 9180, 81 1 V E C 1 R f o
T E D P F
6 7 0 0 3
8 4 1 8 4 1 N D 1 C C V
1
1 K 2 0 9 . R 3 1
2
2
F u 9 0 7 . C 1 1 8 N 7 0 9 1 2 4 M U L
+ V
+ V
1 0 K 2 3 9 . R 3
2
1 9 1 0 9 2 R 6
2
1
2
2
6 K 1 0 9 6 R 1 1 2 F p 8 0 7 0 C 0 1 2
5
4
6
3
1
7
2
K 3 3 2 . 9 4 R
8
1
1
2
8 K 1 9 9 . R 3 1
2
F u 1 1 8 0 C . 0
F u 1 0 0 8 2 . C 0 1 2 2 2 9 R
K 3 . 4
1
7 1 0 9 0 R 2 C C V
1
2
3
4
2 1 7 B P
1 O S
5 1 0 9 6 R 1 C C V
1
2
O
I 1
2
4 0 9 4 3 1 N Q 2
4 2 1 9 K R 1 1
K L C P F
0 8 1 9
. p r o C t a r i c u g 0 i o r 4 f C o 0 e 4 i t l G n l 7 e e , 8 i s l 5 c n l S a e ) M w 4 s 0 L V 3 o 4 A 3 R (
D R A O B
1 1
t e e h 5 S 1 6 N 0 9 I 5 9 A D 1 M Z r , , C e 7 b I m T u y A N a M M E t H n C e S m u c o D : e e l e t z B t a i i D T S
97
LAMP PCB - 9180, 81 2
1 V E A R
R 0 7 E 6 P 3 M V 5 P 0 L J 1 2 3 1 A A V
f o
. p r o C t a r i c u g i o r 0 f C o 4 e 0 i t l G 4 n l e e , 7 i s l 8 c n l 5 S a e 7 ) M w 7 4 s 0 0 L V 3 o 0 4 A 3 R 3 (
2
V 0 7 E 6 P 4 3 M V P 0 L J 1 2 3 1 A A
V 2
C 0 7 E 6 P 3 3 M V P 0 A 1 2 3 1 L J A V
1 B W B P W Z P
h c s . p m a l
2
B 0 7 E 6 P 3 M V 2 P 0 A 1 2 3 1 L J A V
2
5 -
A 0 7 E 6 P 3 M V 1 P 0 A 1 2 3 J 1 L A
0 P 7 6 P M 6 3 M P A U J 1 2 3 4 5 6 0 1 P
V
+ P M A L
. a m 0 8 4
P M A E E T V R L E A V V O
B E V L A V
R O 3 S 0 N 7 6 P E 7 3 M P A S J 1 2 3 4 0 1 R O O D
- - D A R V B C C + D E + E E E E E E E E + S E S V V S S V V S D O V A L L A A L L A E L L H A A H H A A H L C A P V V P P V V P D D V
4 3
R E D 8 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 A P E 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 H J
= I : E T O N
Y A R R A
Y A R R A
Y A R R A
D E L
D E L
D E L
5 5 5 8 8 8 2 3 6 7 0 1 4 5 8 2 3 6 7 0 1 4 5 8 2 3 6 7 0 1 4 5 8 2 2 1 1 1 1 2 1 1 1 1 1 1 1 1 P P P M M M L 1 L 2 L 3 H U H U H U 1 4 5 8 9 2 3 6 1 1 1
1 4 5 8 9 2 3 6 1 1 1
1 4 5 8 9 2 3 6 1 1 1
0 8 1 9 , D R A O B
1
t e e h 4 S 1 6 P 0 9 M 5 9 A D 1 L Z r , , e 7 C m I b T u y A N a M M E t n H C e S m u c o D e : l e e t z B t i i a T S D
98
DISPLAY DAUGHTER PCB - 9180
. p r o C t a r i c u g i o r 0 f C o 4 e 0 i t l G 4 n l e e , 7 i s l 8 c n l 5 S a e 7 ) M w 7 4 s 0 0 L V 3 o 0 4 A 3 R 3 (
D E F F U T S
1 B W B P W Z P
Y A L P S I D D C L
D E F F U T S
Y A E L 1 T P 4 1 A S 2 X N I 3 E 0 L R D 4 O 0 1 2 3 4 P 2 M 1 1 1 1 2 E J 1 2 3 4 5 6 7 8 9 1 T D L C A L 0 1 2 3 4 5 6 7
A A V V 5 5 + +
R O S N E S
D D T E N P L G E E E L L L P P P P M M M M A A A E S S S T
2 1 1 P 1 2 3 4 5 6 J J R
E L P M A S
A C C V C C 5 V V + 6 6 5 8 3 4 5 1 X E L O M
1
1 4 1 2 X 3 E 0 L 3 O 0 1 2 3 4 P 2 M 1 2 3 4 5 6 7 8 9 1 1 1 1 1 J 2
C C V
7 1 0 5 3 T U
1 P T
T O N
D D D D D D D D D D D D D D D D
C C V
T O N
3 . 2 8 0 R 1 E . T 1 R 2 4 U 2 H 1 C 1 P S S I
S E Y
3 . 2 8 0 R 1 E . T 1 R 2 4 U 2 H 1 C 2 P S S I
O N
1
1
0 1 2 3 4 5 6 7 D D D D D D D D D D D D D D D D
T T S W S N N / A I E R R / P P T A S S N T I I O A D D C D 0 1 2 3 4 5 6 7 D D D D D D D D D D D D D D D D
] 7 . . 0 [ D D S E Y
O N
4 3
R E D 2 A 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 E P 1 2 3 4 5 6 7 8 9 0 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 J H
R O O D N I A M
h c s . y a l p s i d
1 V E A 0 R 8 1 9 f o , D 1 R A O B R E T H G U A D
t e e h 6 S 1 6 0 9 5 9 D 1 Y Z A r , L e 7 P S b m I u y D N a M , t C n I e T m A u M c E o D : e H e l C e t S z B t a i i D T S
99
8
Pa r t s L i s t
100
MAIN ASSEMBLY FRONT FRONT
Item
Part
Description
1
YB5005
SLEEVE: BLACK ELECTRODE HOLDER
2
BP5008
DOOR: IS ISE FRONT COMPLETE (OLD COLOR)
2
BP5084
DOOR: IS ISE FRONT COMPLETE (NEW COLOR)
3
BP5005
NEEDLE UNIT: COMPLETE MECHANISM
4
RE5018
TRAY: ISE ELECTRODE
5
BP5009
MODULE: E EL LECTRODE HOLDER - 9120, 30
5
BP5188
MODULE: E EL LECTRODE HOLDER - 9180
5
BP5035
MODULE: E EL LECTRODE HOLDER - 9140
6
BP5004
MODULE: ISE PRINTER
7
RE5016
TRAY: ISE PRINTER PAPER
8
BP5012
TUBE SET: IS ISE COMPLETE - 9120, 30, 40
8
BP5193
TUBE SET: IIS SE COMPLETE - 9180
9
BP5027
TUBE SET: P PE ERISTALTIC PUMP
10
BP0087
CLAMP: PRESSURE PIECE VALVE TUBING
11
YA0296
CAP: SOLENOID VALVE LOCK
12
ZB5012
LABEL: 91XX PAPER INSERTION DIAGRAM
12
ZB5129
LABEL: 991180 PAPER INSERTION DIAGRAM
13
ZB5007
LABEL: 991120 ELECTRODE HOLDER
13 13
ZB5009 ZB5027
LABEL: 991130 ELECTRODE HOLDER LABEL: 991140 ELECTRODE HOLDER
13
ZB5124
LABEL: 991180 ELECTRODE HOLDER
14
DS5004
SCREW: A AL LLEN HEAD 88--32 X .625
15
DZ5002
WASHER: ##88 STAINLESS FLAT
16
ZB5001
LABEL: S SA AMPLE SENSOR CABLE
17
ZB5015
LABEL: E EL LECTRODE LIGHT WINDOW
18
ZB5005
LABEL: A AV VL 9120 OVERLAY
18
ZB5006
LABEL: A AV VL 9130 OVERLAY
18 18
ZB5025 ZB5123
LABEL: A AV VL 9140 OVERLAY LABEL: A AV VL 9180 OVERLAY
19
ZB5024
LABEL: P PA APER TEAR BAR 101
MAIN ASSEMBLY REAR
Item
Part
Description
1
BP5013
PANEL: IS ISE BACK COMPLETE (OLD COLOR)
1
BP5083
PANEL: IS ISE BACK COMPLETE (NEW COLOR)
2
BB5005
PC CARD: IIS SE SBC COMPLETE 991120/9130
2
BB5006
PC CARD: IIS SE SBC COMPLETE 991140
2
BB5015
PC CARD: IIS SE SBC COMPLETE 991180
3
US3059
PROGRAM SET: 991120 ENGLISH
3
US3060
PROGRAM SET: 991130 ENGLISH
3
US3061
PROGRAM SET: 991140 ENGLISH
3 4
US5010 BB5007
PROGRAM SET: 9180 PC CARD: IS ISE LAMP - 9120, 30, 40
4
BB5014
PC CARD: IIS SE LAMP - 9180
5
BP5007
SOLENOID: COMPLETE ISE
6
BP5002
MOTOR: ISE PERISTALTIC PUMP
7
BB5002
PC CARD: ISE DISPLAY COMPLETE - 9120, 30 , 40
7
BB5016
PC CARD: ISE DISPLAY COMPLETE - 9180
8
RE5025
SPACER: 50 DEGREE
9
DS5005
SCREW: #6 X .625"
10 11
DZ0488 EU1019
WASHER: LOCK M4 CONNECTOR: G GR ROUND LUG
12
DS5006
SCREW: #6 X .375"
13
BP5003
PUMP ROLLER: IS ISE PERISTALTIC PUMP
14
DS5001
SCREW: 66--32 X .312"
15
DS5006
SCREW: #6 X .375"
16
DZ5000
WASHER: FLAT
17
DS5006
SCREW: #6 X .375"
18
DS0970
SCREW: PUMP MOTOR MOUNTING
19
DS5002
SCREW: SOLENOID VALVE MOUNTING
20
YB5002
SPRING PROBE: ELECTRODE CONNECTOR
102
ELECTRODE HOLDER ASSEMBLY
Item
Part
Description
0
BP5009
MODULE: ELECTRODE HOLDER COMPLETE ASSEMBLY 9120/9130
0
BP5035
MODULE: ELECTRODE HOLDER COMPLETE ASSEMBLY 9140
0
BP5188
MODULE: ELECTRODE HOLDER COMPLETE ASSEMBLY 9180
1
BP0171
ELECTRODE HOLDER: LEFT SIDE ASSEMBLY
2
BP5010
HOLDER: ISE RIGHT ELECTRODE 9120/9130
2
BP5036
HOLDER: ISE RIGHT ELECTRODE 9140/80
3
RE5019
HOLDER: BASE ISE ELECTRODE
4
DS0970
SCREW: PHILLIPS M4x16
5
DA0156
O-RING: ELECTRODE SEAL
6
ZB5007
LABEL: 9120 ELECTRODE HOLDER
6
ZB5009
LABEL: 9130 ELECTRODE HOLDER
6
ZB5027
LABEL: 9140 ELECTRODE HOLDER
6
ZB5124
LABEL: 9180 ELECTRODE HOLDER
103
NEEDLE UNIT ASSEMBLY
It e m
Part
De s c r i p t i o n
0
BP5005
NEEDLE UNIT: COMPLETE MECHANISM
1
RE5011
PLATE: ISE NEEDLE UNIT RIGHT MOUNTING
2
RE5010
PLATE: ISE NEEDLE UNIT LEFT MOUNTING
3
RE5012
HOLDER: ISE NEEDLE UNIT PROBE
4
RE5014
GEAR: IIS SE NEEDLE UNIT
5
BP5018
LIGHT GATE: ISE NEEDLE UNIT COMPLETE
6
RE5029
PLUNGER: IIS SE NEEDLE UNIT
7
YB5001
SPRING: ISE NEEDLE UNIT
8
RE5028
ROD: IS ISE NEEDLE UNIT
9
RE5009
FLAP: ISE NEEDLE UNIT
10
BP5006
PROBE: IIS SE COMPLETE
11
BP9043
FILLPORT: ASSEMBLY
12
YA9023
PLATE: FILL PORT MOUNTING
13
DS5006
SCREW: #6 X 0.375"
14 15
DS5000 DZ0478
SCREW: #6 X .312 WASHER: FLAT M3
16
SS5003
TUBING: 3/8"OD X 1/4"ID CLEAR SILICON
17
YB5006
RUBBER STOP: ISE NEEDLE UNIT
104
REAR PANEL ASSEMBLY
Item
Part
Description
0
BP5013
PANEL: ISE BACK COMPLETE (OLD COLOR)
0
BP5083
PANEL: ISE BACK COMPLETE (NEW COLOR)
1
BP5030
COVER: PAINTED ISE REAR (OLD COLOR)
1
BP5081
COVER: PAINTED ISE REAR (NEW COLOR)
2
BN5000
MODULE: SWITCHING ISE POWER SUPPLY
3
BK5000
RECEPTACLE: AC POWER WITH CABLE
4
EU5004
HOLDER: 2 POLE ISE FUSE
5
EV0044
FUSE: 1.6A SLOW
6
NS0025
SCREW PLASTIC TAPING
7
DS5000
SCREW: #6 X .312
8
EU1019
CONNECTOR: FASTON 6.3
9
BK5001
CABLE: DC ASSEMBLY
10
BK5012
CABLE: GROUND ASSEMBLY
105
FRONT DOOR ASSEMBLY
It e m
Part
De s c r i p t i o n
0
BP5008
DOOR: ISE FRONT COMPLETE (OLD COLOR)
0
BP5084
DOOR: ISE FRONT COMPLETE (NEW COLOR)
1
RE5008
WINDOW: IIS SE FRONT DOOR
2
ZB5002
LABEL: 91XX ISE TUBING DIAGRAM
2
ZB5125
LABEL: 9180 ISE TUBING DIAGRAM
106
9
In t er f ac e Sp ec i f i c at i o n s
9.1 9.1 Interface Interf ace Inform Information ation The AVL 9120, 30, 40, 80 and 81 analyzers are equipped with a standard serial interface output. This interface output is intended to be used with standard commercially available computer systems. The data transmitted through the serial interface port employs the ASCII code. The serial interface is terminated on the rear cover with a 9-pin male DB-9 connector. The signal levels are as follows: - Binary 1 = -12V to -3V - Binary 0 = +3V to +12V Two stop bits follow the eight data bits to complete the 10 bit word. The baud rate is set at 9600 Baud fixed. The maximal recommended cable length is 40 feet. The pin assignment is as follows: pin 1... 1...samp sample le groun ground... d...GND GND pin 2... 2...rece receive ive data data.... ....RxD RxD pin 3...s 3...send end data. data...... ......TxD .TxD pin 4...NC pin 5...sig 5...signal nal grou ground.. nd...GN .GND D pin 6...NC pin 7...R 7...RTS TS pin 8...CTS 8...CTS pin 9...NC (NC=Not Connected)
107
Software
The patient sample data is sent at the end of each measurement, the calibration report is sent at the end of each calibration. The interface is always on, independent of the printer settings; the data is always sent. Note: The arrow up (e.g. out of normal range) is sent sent as HEX 18 ( ↑ ), the arrow down as HEX19 ( ↓ ) and the ° (degree) is is sent as HEX1A ( → ).
9.2 Example Data Data Strin Stringg Info Info rmati rmation on Aut omatic omat ic Calibrati Calib rati on Report Repor t
sx* sx* AV AVL L 9130 9130 *c *crc rcrl rlfE fELE LECT CTRO ROLY LYTE TE IS ISEc Ecrc rcrl rlf0 f03J 3JAN AN92 92 10:51crcrlf*CALIBR REPORT*crcrlfcrcrlfDailyMaintenancecrcrlf Performed Last: crcrlf02JAN92 10:35crcrlfcrcrlf Standard AcrcrlfNa = -112mV (3)crcrlfK = -1392mV (3) crcrlfCl = -106mV (3)crcrlfcrcrlfDifference A-Bcrcrlf Na = 1402 1402mV mV ( )cr crlfK = 1032mV ( )crcrlf )crcrlfCl Cl = -1006mV -1006mV ( ) crcrlfcrcrlfFluid Pack:crcrlf6 8% Remainingcrcrlfcrcrlfex Se Serum rum Sample Report Report
sx* sx* AV AVL L 9130 9130 *c *crc rcrl rlfE fELE LECT CTRO ROLY LYTE TE IS ISEc Ecrc rcrl rlf0 f03J 3JAN AN92 92 10:59crcrlfcrcrlf Name: ..........crcrlf ..........crcrlfSample: SERUMcrcrlfcrcrlf SERUMcrcrlfcrcr lf Sample No.13 crcrlfcrcr crcrlfcrcrlfNa= lfNa= 159soh mmol/LcrcrlfK = 5.4 5.4 mmol/LcrcrlfCl= 122soh mmol/Lcrcrlfcrcrlf*P mmol/Lcrcrlfcrcrlf*PERFORM ERFORM DAILY *crcrlf*MAINTENANCE ! *crcrlfcrcrlfex
9.3 9.3 Da Data ta Link Information Information(9180/9181 (9180/9181onl only) The data link with the AVL Compact 2/3 blood gas analyzer allows to combine ISE results with pH/blood gas results on one printout. If Ca++ is activated on the 9180/9181, a pH-corrected Ca++ value will be calculated and printed on the combined sample report. For connection of the 9180/9181 analyzer to the Compact 2/3 analyzer, the optional Interface Kit (BP5202) is required. To install the kit, first turn both bo th inst instru rume ment ntss off off.. Co Conn nnec ectt th thee in inte terfa rface ce fi filt lter er prov provid ided ed in th thee ki kitt to th thee RS232 port on the 9180/9181. Then connect one end of the cable to the the interface filter, the other end to the COM 2 port on the the Compact 2/3. On
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