Ilab 300 Plus Service Manual Rev2 PDF
Ilab 300 Plus Service Manual Rev2 PDF
Ilab 300 Plus Service Manual Rev2 PDF
January 2004
This publication and all materials (including software) concerning the products of ILab 300 Plus System are of
proprietary nature and are communicated on a strictly confidential basis.; they may not be reproduced, recorded, stored in
a retrieval system, transmitted or disclosed in any way and by any means whatsoever, whether electronic, mechanical
through photocopies or otherwise, without ILs prior written consent. Information contained herein is believed by IL to
be accurate: in any event, no responsibility, whether express or implied, is assumed hereby by IL for or in connection
with the use thereof, or for infringement of any third party right which arise therefrom, or from any representation or
omission contained herein. Information is subject to change and/or updating without notice.
GENERAL INDEX
GENERAL INDEX
CHAPTER 1
INTRODUCTION
CHAPTER 2
SYSTEM DESCRIPTION
CHAPTER 3
INSTALLATION
CHAPTER 4
CHAPTER 5
DIAGNOSTIC PROGRAM
CHAPTER 6
CHAPTER 7
MAINTENANCE
CHAPTER 8
HOST INTERFACING
CHAPTER 9
CHAPTER 10
CHAPTER 11
CHAPTER 12
ISE MODULE
CHAPTER 13
Service Manual
March 2003
Rev. 01
-I-
Chapter 01 INTRODUCTION
CHAPTER 01
- INTRODUCTION -
INDEX
INTRODUCTION ............................................................................................................ 1
1.1 THE AIM OF THE TECHNICAL MANUAL ....2
1.2
1.3
PRECAUTIONARY MEASURES.................................................................................... 2
1.3.1 CHEMICAL RISKS ............................................................................................... 2
1.3.2 ELECTRICAL RISKS............................................................................................ 2
1.3.3 MECHANICAL RISKS.......................................................................................... 3
1.4
Service Manual
Rev. 02
January 2004
Page 1
Chapter 01 INTRODUCTION
INTRODUCTION
1.2
SYSTEM INTRODUCTION
and
computer controlled.
1.3
PRECAUTIONARY MEASURES
1.3.1
Chemical risks
The individual operator is responsible for assuring that all possible precautionary measures are
taken against eventual risks associated with the use of the ILab 300 Plus instrument in clinical
laboratory settings. The manufacturer will provide the reagents kit and specific written information
on the use of each of the reagents.
It is important that the samples be well coagulated and then carefully centrifuged.
Samples which contain fibrinogen clots can obstruct the probe and lead to inexact sampling.
If blood samples containing gel are used, it is suggested that the manufacturers recommendations
be followed.
Immediately clean and remove any accidental leakage of reagent or other liquid.
1.3.2
Electrical risks
Service Manual
Rev. 02
January 2004
Page 2
Chapter 01 INTRODUCTION
1.3.3
Mechanical risks
WARNING: Never attempt to service or substitute any part(s) of the analyzer when the
instrument is turned on.
Any and all technical repairs or servicing must be performed by specialized personnel only.
1.4
DESCRIPTION
ASSAY TYPE
THROUGHPUT
WORKING TEMPERATURE
37 C
ON LINE REAGENTS
SAMPLE LOADING
Continuous loading
Positive barcode reader
Service Manual
Rev. 02
January 2004
Page 3
Chapter 01 INTRODUCTION
REACTION VOLUME
Minimum
300 l
Maximum
670 l
SAMPLING ARM
Reagent pre-warming at 37 C
DILUTER
CV < 1 % at 3 l
PRECISION
Direct Photometry
READING SYSTEM
Photometer:
wheel
OPTIC SYSTEM
10 mm.
WASHING STATION
REACTION PLATE
IBM Compatible
CPU
MEMORY
Rev. 02
January 2004
Page 4
Chapter 01 INTRODUCTION
PRINTER
PS2
Two Bi-directional RS 232C serial ports and one
parallel
INTERFACE
Multitasking WINDOWS 98 II E
SOFTWARE
AVAILABLE LANGUAGES
SETTINGS
NOTE: Even though the computers demonstrate the same technical and operative characteristics,
some of these could have different hardware installed.
This could cause problems for the ILab 300 Plus software when running tests (A message appears
indicating Random error or blocks the program).
Therefore, if the PC is bought separately/locally, it is highly recommended to test the system at
your offices before preceding with the installation at the final clients.
Consequently, AMS denies any responsibility for software problems that are due to buying the
computer separately from the instrument.
1.4.2 Options
ISE MODULE
POSITIVE BARCODE READER
1.4.3
DIMENSION
Height:
42 cm
Depth:
65 cm
Length:
100 cm
WEIGHT
65 Kg
OPERATING ENVIRONMENT
Service Manual
Rev. 02
January 2004
Page 5
Chapter 01 INTRODUCTION
1.4.4
POWER REQUIREMENTS
Installation requirements
Input Voltage 90 250 Vac
Input Frequency: 47 63 Hz
Power consumption:
300 W for the analytical unit
400 W for the work station
SAFETY REGULATIONS
EN 61010-1:1993 +A2:1995
(in compliance with the main European
safety
ELECTROMAGNETIC
COMPATIBILITY
Directives
Warning: A steady power supply (+ 10%) must be provided for the instrument.
Service Manual
Rev. 02
January 2004
Page 6
CHAPTER 2
REACTION PLATE........................................................................................................ 4
2.1.2
2.5.2
2.5.5
Service Manual
March 2003
Rev. 01
Page - 1 -
2.5.6
2.5.7
PRE-AMPL/ADC ........................................................................................................ 29
2.5.8
2.5.9
Service Manual
March 2003
Rev. 01
Page - 2 -
CHAPTER 2
GENERAL DESCRIPTION
2 GENERAL DESCRIPTION OF THE SYSTEM
"ILab 300 Plus" is a random access, counter-top, computer controlled clinical analysis
instrument.
The system can perform 200 tests per hour and has a machine cycle of 18 sec. Its execution
time ranges from a minimum of 48 sec to a maximum of 756 sec, depending on the analysis
method chosen.
The first time the system is used for normal laboratory analyses, the operator must configure
the system based on the specific needs of that laboratory; i.e.: the chemical parameters; the
reagents racks and the normal, calibrated and control values must all be defined.
The daily routine analyses will be carried out according to patient sample arrival in a
sequential and continuous, non-stop manner.
The work list is organized using a loading rack holding 16 patient samples plus a STAT rack
for 14 patient samples. Rack loading is non-stop.
The racks can accommodate both test tubes and micro caps. The bar code for primary tubes is
optional.
When the system is first turned on, the analytical unit, the computer and the color-meter lamp
are supplied with low voltage power (1.2 volts). The sampling arm pre-heater is turned off
while the reaction plate heater, the reagents refrigerating unit and the electronic components
are turned on. The "Stand-by" light, placed on the front panel will flash until the reaction plate
reaches a temperature of 36 C. At this point, the "Stand-by" light will stop flashing and will
remain constantly lit.
In the case of system failure or malfunction, the "Ready" light, situated on the front panel of
the instrument, will light up red.
In order to enter the main program, double click on the "ILab 300 Plus" icon on the computer
desktop.
The main menu - "System Monitor" - will appear.
Whenever any system function is launched, the color-meter lamp and the sampling arm preheater will receive regular power.
Service Manual
March 2003
Rev. 01
Page - 3 -
2.1
ANALYTICAL CYCLE
2.1.1
REACTION PLATE
The reaction plate of the "ILab 300 Plus" system contains 60 washable and reusable, plastic
cuvettes. The cuvettes can be removed individually.
Cuvette washing takes place under the reaction plate washing station. There are five positions
which alternate in the washing and drying of the cuvettes.
The basic operating cycle of the reaction plate takes 18 seconds. Said cycle includes: optic
reading of the cuvettes in incubation, aspiration and dispensation of the reagents and samples
by the arm, repositioning of the plate and washing of the cuvettes.
The reactions take place at 37 C. this temperature is constantly maintained by the heater
placed under the reaction plate.
2.1.2
After reagents and samples have been placed in cuvette #1, the reaction plate will rotate
counter-clockwise to position #31 so as to bring the first cuvette to be analyzed in front of the
color-meter for reading with one or two wavelengths as required.
The plate will then, moving counter-clockwise, carry out all the readings of any other
prepared cuvettes. After having effected all the readings, the plate will move clockwise to its
initial position minus one cuvette, ready for a new dispensing.
Therefore, the reaction cuvettes will move clockwise 1 - 2 - 3 4 for their dispensation and
washing, and counter-clockwise 4 - 3 - 2 - 1 for their reading.
Service Manual
March 2003
Rev. 01
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2.2
2. The arm moves toward the specific reagent container, while the diluter aspirates an
air bubble to separate the rinse column from the reagent.
3. The arm descends into the reagent to the level indicated by the sensor and aspirates
the required volume of reagent.
If the method requires a line prime volume, an extra amount of reagent (not used in
the analysis) will be aspirated before the quantity of reagent necessary for the
analysis along with a smaller air bubble for separation.
4. While the diluter aspirates a second air bubble, the arm rises and then lowers into the
wash well so that it can be washed externally, to minimize cross contamination.
5. The arm moves to the specified sample and aspirates a third air bubble.
6. When the level sensor senses the liquid, the arm stops and aspirates the sample.
7. The arm rises once again, while the diluter aspirates a fourth air bubble to prevent
sample loss.
8. At this point, the arm returns to the wash well in order to clean the outside of the
probe and it aspirates a fifth air bubble.
9. The arm moves to the reaction plate and dispenses reagent and sample in the reaction
cuvette for incubation and reading.
10. The arm returns to the wash well and carries out a probe wash cycle.
Service Manual
March 2003
Rev. 01
Page - 5 -
2.3
SAMPLING SYSTEM
Air aspiration
Reagent Aspiration
Air Aspiration
(To separate the reagent from serum)
Serum aspiration
Air aspiration
To the washing well for
probe cleaning
H2O
AIR
RGT
Air aspiration
AIR
(Wash.Well)
AIR
Dispensing in cuvette
SERUM
AIR
(Wash.Well)
AIR
Service Manual
March 2003
Rev. 01
Page - 6 -
2.4
WASHING STATION
The reaction plate washing station is made up of a series of five probes situated to one side of
the reaction plate. The probes are connected to the valve and pump system for emptying,
washing and drying operations (please see the hydraulic diagram).
2.4.1
The washing station carries out its operation by alternating upward and downward movement.
In its downward movement phase the probes are suitably guided to carry out the following
operations.
The first probe, using its central cannula, removes the read sample while the external
cannula dispenses, shower fashion, the wash solution (this operation is repeated twice).
The second probe operates exactly like the first but uses distilled water to wash and
repeats the operation three times.
The third probe dispenses distilled water into the cuvette so that an optics check can be
performed (if the results are negative the cuvette is discarded).
The fourth probe aspirates and removes the previously dispensed distilled water.
The fifth probe is a drying pad which removes any residual moisture from the sides of
the cuvette.
All these operations are part of the routine operation of the instrument. Every reaction cuvette
is washed at the end of each round of analysis.
The reusability of each reaction cuvette is always tested before the next round of analysis.
Service Manual
March 2003
Rev. 01
Page - 7 -
2.5.1
INTRODUCTION
The ANALYTICAL CONTROL BOARD (C. P. U.), integrated in the ILab 300 Plus system
is the heart of the low level, real time, processing management.
GENERAL CHARACTERISTICS
The board has been designed to be a generic control of input/output, governed by an external
C.P.U. or by an internal PC board based platform, in light of possible different future
instrument configurations.
CIRCUIT DESCRIPTION
The following description refers to the [SE]00195-01 Rev. C. electrical wiring diagram
POWER SUPPLY
The main power supply VM (24V), filtered by C10 and C12, is taken up via connector J6
and used to generate the +5 volts; moreover, it is brought back on connectors J9 and J10
to 25 pins
The 5V is obtained through U4 (LM2575), the Schottky D5 diode, the L1 inductance and
condensers C14 and C15: the entire circuit makes up a step down converter - from 24V to
5V - with 1 Ampere of current.
Said power supply is brought back on connector J6 forecasting the possibility that it
could come directly from an external power source (in this case the step-down
components are not mounted, with the exclusion of the C14 and C15 condensers).
A second power supply, 12.5V, filtered via C9 and C11 is taken up via connector J6, in
addition to being brought back on connectors J9 and J10 to 25 pins and on connectors J13
and J14 to 10 pins and utilized to generate the 12V for the two flash memories inside the
two U1 and U2 microprocessors and the AVCC.
AVCC (5V) used for the operational U23 and U24 and also for the two microprocessors'
internal A/D converters.
Service Manual
March 2003
Rev. 01
Page - 8 -
The two Micros are HITACHI H8/3048, configured in operative mode 7, single chip.
Following are some basic performance features:
-
4 KBYTES RAM;
70 I/0 signals, almost all having more than one function, plus 8 input only.
The following two tables list the 78 Micro 'P' and Micro 'R' signals. For each the following
are specified:
-
the name of the signal on the pin of the Micro (e.g.: P30)
the buffer used for the input or the output (e.g.: U7);
the name of the buffer input signal (if in input) or at buffer output (if in output);
Service Manual
March 2003
Rev. 01
Page - 9 -
I/O Buffer
I/O
I/O
I/O
I
I/O
I/O
I/O
O
I
I
I
I
I
I
I
I
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
Conn.
U21
J9/11
U17
U15
U15
U15
U15
U15
U15
U15
U15
U7
U7
U7
U7
U7
U7
U7
U7
U9
U9
U9
U9
U9
U9
U9
U9
U8
U8
U8
U8
U14
U14
U21
U21
U21
U21
J9/14
J7/21
J7/23
J7/25
J17/1
J17/3
J17/5
J17/7
J17/9
J7/2
J7/4
J7/6
J7/8
J7/10
J7/12
J7/14
J7/16
J7/1
J7/3
J7/5
J7/7
J7/9
J7/11
J7/13
J7/15
J7/18
J7/20
J7/22
J7/24
J7/17
J7/19
J9/1
J9/5
J9/23
J9/10
Service Manual
Signal
Connector
R14
R15
R16
PINP
R10
R11
R12
PDAR1
PINP1
PINP2
PINP3
PINP4
PINP5
PINP6
PINP7
PINP8
PENA
PENB
PENC
PEND
PDIRA
PDIRB
PDIRC
PDIRD
PUT1
PUT2
PUT3
PUT4
PUT5
PUT6
PUT7
PUT8
PPDA
PPDB
PPDC
PPDD
PUT9
PUT10
PG1
PG2
PSCLK
PTTL
Function
Synchronization 1 micro R
Synchronization 2 micro R
Synchronization 3 micro R
Generic
Synchronization 1 micro P
Synchronization 2 micro P
Synchronization 3 micro P
Pump Diluter
Sample rack 1 in place
Sample rack 2 in place
Sample rack 3 in place
Sample rack 4 in place
Sample rack 5 in place
Sample door switch
Stat door switch
Sample button
Motor A enable
Motor B enable
Motor C enable
Motor D enable
Motor A c.w./c.c.w.
Motor B c.w./c.c.w.
Motor C c.w./c.c.w.
Motor D c.w./c.c.w.
ST-BY lamp button (Control Panel)
SAMPLE lamp button (Control Panel)
STAT lamp button (Control Panel)
READY lamp button (Control Panel)
Not used
Not used
Not used
Not used
Motor A power down function
Motor B power down function
Motor C power down function
Motor D power down function
Reserved 1
Reserved 2
ADC1 gain A
ADC2 gain B
ADC1-ADC2 serial clock
Not used
March 2003
Rev. 01
Page - 10 -
P70
P71
P72
P73
P74
P75
P76
P77
P80
P81
P82
P83
P84
P90
P91
P92
P93
P94
P95
PA0
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
I
I
I
I
I
I
I
I
I
I
I
I
I
O
O
I
I
I
I
I
I
O
I
O
I
O
O
O
I
O
I
I
I
I
I
U23A
U23B
U23C
U23D
U16
U16
U16
U16
U14
U14
U14
U14
U14
U25
U25
U25
U25
U16
U16
U6
U6
U8
U6
U8
U6
U21
U17
U8
U21
U8
U16
U21
U16
J17/10
J9/16
J9/25
J13/9
J9/3
J9/7
J9/9
J9/17
J17/11
J17/13
J17/15
J17/16
J17/12
J1/1
J11/3
J1/3
U14
J17/14 PINP14
J9/8
J9/15
J13/8
J13/7
J7/26
J13/6
J17/2
J13/5
J9/21
J13/4
J17/6
J9/6
J17/4
J9/24
J9/4
J9/2
Service Manual
PAN1
PAN2
PAN3
PAN4
PFOTO1
PFOTO2
PFOTO3
PFOTO4
PINP9
PINP10
PINP11
PINP12
PINP13
P90OUT
X91
P92IN
X93
PRDY2
PRDY1
POSR1
POSR2
PCLKA
POSR3
PCLKB
POSR4
PPWM
PDAR2
PCLKD
PLEAK
PCLKC
PADC1
PSLI
PADC2
March 2003
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I/O Buffer
I/O
I/O
I/O
I
I/O
I/O
I/O
O
I
I
I
I
I
I
I
I
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
Conn.
U22
J10/11
U17
U19
U19
U19
U19
U19
U19
U19
U19
U13
U13
U13
U13
U13
U13
U13
U13
U11
U11
U11
U11
U11
U11
U11
U11
U12
U12
U12
U12
U20
U20
U22
U22
U22
U22
J10/14
J8/21
J8/23
J8/25
J18/1
J18/3
J18/5
J18/7
J18/9
J8/2
J8/4
J8/6
J8/8
J8/10
J8/12
J8/14
J8/16
J8/1
J8/3
J8/5
J8/7
J8/9
J8/11
J8/13
J8/15
J8/18
J8/20
J8/22
J8/24
J8/17
J8/19
J10/1
J10/5
J10/23
J10/10
Service Manual
Signal
Connector
P14
P15
P16
RINP
P10
P11
P12
RDAR1
RINP1
RINP2
RINP3
RINP4
RINP5
RINP6
RINP7
RINP8
RENA
RENB
RENC
REND
RDIRA
RDIRB
RDIRC
RDIRD
RUT1
RUT2
RUT3
RUT4
RUT5
RUT6
RUT7
RUT8
RPDA
RPDB
RPDC
RPDD
RUT9
RUT10
RG1
RG2
RSCLK
RTTL
Function
Synchronization 1 micro P
Synchronization 2 micro P
Synchronization 3 micro P
Power led opto (3)
Synchronization 1 micro R
Synchronization 2 micro R
Synchronization 3 micro R
Diluter pump
Leak
Interlock
Not used
Not used
Not used
Not used
Not used
Not used
Motor A enable
Motor B enable
Motor C enable
Motor D enable
Motor A c.w./c.c.w.
Motor B c.w./c.c.w.
Motor C c.w./c.c.w.
Motor D c.w./c.c.w.
EV1 valve
EV2 valve
EV3 valve
EV5 valve
Cover lock
MP2 pump
MP3 pump
MP4 pump
Motor A power down function
Motor B power down function
Motor C power down function
Motor D power down function
Reserved 1
Reserved 2
ADC1 gain A
ADC2 gain B
ADC1-ADC2 serial Clock
Lamp off
March 2003
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R70
R71
R72
R73
R74
R75
R76
R77
R80
R81
R82
R83
R84
R90
R91
R92
R93
R94
R95
RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RB0
RB1
RB2
RB3
RB4
RB5
RB6
RB7
I
I
I
I
I
I
I
I
I
I
I
I
I
O
O
I
I
I
I
I
I
O
I
O
I
O
O
O
I
O
I
I
I
I
I
U24A
U24B
U24C
U24D
U18
U18
U18
U18
U20
U20
U20
U20
U20
U25
U25
U25
U25
U18
U18
U6
U6
U12
U6
U12
U6
U22
U17
U12
U22
U12
U18
U22
U18
J18/10
J10/16
J10/25
J14/9
J10/3
J10/7
J10/9
J10/17
J18/11
J18/13
J18/15
J18/16
J18/14
J3/1
J11/3
J3/3
RAN1
RAN2
RAN3
RAN4
RFOTO1
RFOTO2
RFOTO3
RFOTO4
RINP9
RINP10
RINP11
RINP12
RINP13
R90OUT
X91
R92IN
X93
J10/8 RRDY2
J10/15 RRDY1
J14/8 ROSR1
J14/7 ROSR2
J8/26 RCLKA
J14/6 ROSR3
J18/2 RCLKB
J14/5 ROSR4
J10/21 RPWM
J14/4 RDAR2
J18/6 RCLKD
J10/6 RLEAK
J18/4 RCLKC
J10/24 RADC1
J10/4 RSLI
J10/2 RADC2
U20
J18/12 RINP14
Service Manual
March 2003
Rev. 01
Page - 13 -
PROGRAMMABLE LOGIC
Generation of X91 associated with one of two TX lines (Micro 'P' P91 and
Micro 'R' R91) to be directed toward the PC both in the operative phase and in the
BOOT phase.
R91 is chosen if SELP is low (downloading phase Micro 'R') or if R10 is low
(operative phase in which Micro 'R', after ascertaining that the channel is free, wants
to transmit): in all other cases X91 brings back P91.
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SERIAL INTERFACES
The first serial of each Micro (signals P90 and P92 for Micro 'P'; R90 and R92 for Micro 'R') is
dedicated to communicating with its own auxiliary device (respectively J1 and J3).
For the reception channel of the second serial:
-
RX).
linked in parallel with those of Micro 'P' and therefore linked to series 1 of the PC
(R93
TX2).
share the transmission to the PC with the other Micro (tin soldered jumper on pins
2-1 of J11). In this case the arbitration between the two Tx signals is carried out in
the BOOT phase via the SELP signal and in the operative phase via the R10 and
P1 signals which the two Micros exchange and which respectively receive on
signals P14 and R14 everything governed by programmable logic).
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The two Micros carry out program downloading via J2: in addition to the TX and RX signals
also the following signals are utilized for this function:
-
SELP which goes directly on the programmable logic and which if low, signals that
it wants to load the program on Micro 'R'.
RTS and DTR which after the RS232-TTL conversion become BOOT and RESB and
are brought back on the programmable logic for reset generation and for enabling the
programming voltage for Micros 'P ' and 'R'.
'1' for those messages which can be processed only by Micro 'P', recognized
because the PB6 input is high;
'2' for those messages which can be elaborated only by Micro 'R', recognized because
the RB6 input is low.
TX5V TX: transmission toward either Micro 'P's or Micro 'R's PC,
Service Manual
March 2003
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CLOCK
The system clock is supplied by quartz at 16MHz X1 connected to the Micro 'P' internal
oscillator pins EXTAL and XTAL: output TTL of this oscillator (U1/67) is brought back on
input XTAL of the Micro 'R' oscillator.
LED
There are two LEDs
-
BUZZER
The acoustic signals are channeled to the LS1 buzzer and can be activated via the PDAR2
and/or RDAR2 signals of the two Micros.
Service Manual
March 2003
Rev. 01
Page - 17 -
2.5.2
INTRODUCTION
The "STEPPER MOTORS DRIVER BOARD" is the interface between the control board and
the stepper motors.
GENERAL CHARACTERISTICS
This board has been designed to be used in various systems or sub-groups which require
mechanical movement .
It can manage up to four stepper motors and has an open collector (Darlington) interface for
16 signals, whose output can be sent to various devices including electro-valves, continuous
current motors.
CIRCUIT DESCRIPTION
The following description refers to the [SE]00188-01 Rev.B. electrical wiring diagram
POWER SUPPLY
The main power supply, VM (24 V), applied via J3 and indicated by the lit green D22 LED, is
used for the stepper driver power portion (TA8435H).
The secondary power supply, 12.5 Volts, also comes through connector J3, is filtered by
condenser C13, monitored via the green D21 LED and used to generate the 5 Volts necessary
for the stepper driver logic section and for the pull-up resistors.
The 5 volts are obtained from the 12.5 Volts through U5 (LM7805) and the C14 filter
condenser.
Service Manual
March 2003
Rev. 01
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The four drivers are represented by the U1, U2, U3 and U4 components.
Following is a description of the functioning of the first (U1) of the four identical circuits.
Later on in this manual a brief description of the functioning of the NMB SDI-C403 device or
TOSHIBA's equivalent TA8435H will be provided.
The driver under examination is made up of:
A logic section for decoding signals arriving from the control board, via the J4 and J7
connectors, which uses the following inputs:
DIRA (pin 5): determines the direction of the rotation of the motor;
RES (pin 2): reset;
CLKA (pin 6): controls phase excitation frequency: the pilot mode depends on the M1A (pin 8)
and M2A (pin 9) inputs, set via the SW1DIP SWITCH according to the following table:
M2A
M1A
Function
0(on)
0(on)
1 full step
0(on)
1(off)
1/2 step
1(off)
0(on)
1(off)
1(off)
1/8 step
Please note that the other clock input (pin 7) is connected to the +5 volts.
Use of the 1/4 and 1/2 steps, with respect to the full step, make it possible to lessen vibration
and improve positioning accuracy.
A power section, (made up of 2 H-shaped bridges), that generates the voltage to be applied to
the two stepper motor windings (AM62, AM62N, BM62, and BM62N respectively on pins
23, 20, 19, and 16) on connector J1.
The latter are supplied when the RES signal is high and the ENA signal (coming from the
control board, via connector J4) is at a low logic level.
The state of the ENA signal level, and therefore that of the relative Stepper Motor driver, is
indicated by the yellow D17 LED.
The D1, D3, D5 and D7 Schottky diodes are to protect the internal power circuits.
Service Manual
March 2003
Rev. 01
Page - 19 -
A power control and monitoring section which, via the C5 (3.3nF) condenser generates a
circa 60 kHz internal oscillation frequency used to control the Pulse Width Modulation
(PWM).
Said control is affected by:
the voltage levels, produced by the potential drop on the R1 and R2 power resistors, present
on pins 21 and 18;
the PDA (pin 10) signal, arriving from the control board (via connector J4), which conditions
the internal switching logic intervention threshold; to 0.8 volts if it is kept at a high logic level
and 0.5 volts if at a low logic level.
Two integrated circuits are present on the board, U6 and U7 (ULN2803), and constitute an
open collector interface for 16 signals:
10 of which come from the control board (UT1UT10) via J4 with their outputs connected
to J2;
6 gathered via J5 and placed in output on J6.
These outputs are used to pilot various types of power devices: continuous current motors,
solenoids, electrovalves, etc.
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March 2003
Rev. 01
Page - 20 -
2.5.2.1 TA 8435 H
INTRODUCTION
TA 8435 H controls the PWM for setting the current of the Stepper Motor windings to a
constant value. The device is an integrated circuit for micro-step piloting, used in order to
have an efficient and low vibration control over the Stepper Motors.
MICRO-STEP PILOTING
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March 2003
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Page - 21 -
Control of the output current via the detection resistor of the output and input current REF-IN:
the motor current (maximum current for micro-step piloting I ), is regulated as shown in the
following equation, using the REF-IN in-put and the detection resistor of the external current
RNF:
I = VREF/ RNF
Where:
for
for
CONTROL LOGIC
Service Manual
March 2003
Rev. 01
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2.5.3
The "Sampling Interface Assy" board controls the arm, the diluter, the pre-heater and wash
well liquid leakage.
The Home Sensors (vertical, external arm, internal arm and diluter) are connected to the board
via the J9, J10, J11 and J13 connectors.
The Vertical Home, External Arm Home and Internal Arm Home LEDs are placed in series
with their power absorption control via the ALFD3 signal, connected to J2 Pin 11 that reports
information on the Analytical Control Board (CPU).
Information from the leakage sensor enters on the J12 connector, is processed by U1A, exits
on J2 Pin 6 and arrives through J10 to the Analytical Control Board for management.
The N.T.C. resistor detects the temperature of the pre-heater and is connected to J7 on Pins 5
and on Pins 3 and 4 (ground). These Pins are connected to the U2B amplifier, whose output
via J2 Pin 25 carries information to the CPU board (Analytical Control Board) on input AN2
(P72) of the Micro R U2.
The pre-heater heating element is connected via J7 Pins 6 and 7 and is powered by Q1 which
is controlled by P.W.M. generated by the Micro R of the CPU. Furthermore, it can be
excluded by switching the LS1 relay through Q6, conditioned by the OFFPR signal generated
by the CPU.
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March 2003
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v INPUT:
Vertical Home
(J9)
(J10)
(J11)
Diluter Home
(J13)
NTC +
(J7 Pin 5)
LEAK
(J12)
Vertical Arm
(J3)
Internal Arm
(J4)
External Arm
(J5)
Diluter
(J6)
Diluter Pump
(J8)
Pre-heater
(J7)
LEAK
(J2)
v OUTPUT:
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March 2003
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2.5.4
The integrated U4 circuit generates a trigger signal for U3 where the sampling probe is
connected on Pin 6 via C2.
The capacity variation, produced by the contact between the sampling probe and a liquid,
determines a voltage variation on Pin 3 of U3, which ranges from a value close to zero to one
which tends towards + 5 V.
This signal is then further processed by U2 and Q1 and is placed in output from the board on
J2 Pin 1.
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2.5.5
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March 2003
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v INPUT:
(J3)
(J2)
(J4)
(J5)
(J7)
(J8)
(J1)
(J1)
(J1)
(J6)
(J10)
(J1)
(J1)
(J1)
(J1)
(J1)
(J1)
(J1)
(J1)
(J1)
(J1)
(J1)
(J9)
v OUTPUT:
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March 2003
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2.5.6
This board distributes the motors signals - those of the: filters wheel (J2), washing station
(J3), and reaction plate (J4), part of the Reaction Group Assy.
The connector J1 interfaces the Stepper Motors Driver Board (30-00188-01) which is
managed by the Micro P of the CPU via connector J1. Signal distribution for the three motors
is carried out via the three above cited connectors.
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March 2003
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2.5.7
PRE-AMPL/ADC
The FD1 photodiode detects light energy arriving from the optics. The amplifier (U2)
amplifies this signal and sends it to the A/D serial converter ADS 1250.
Both U1 and U4 produce the +5V; the former for the analogic segment and the latter for the
digital segment. U5 generates the 5V and U6 the voltage reference VREF. Y1 is the
oscillator connected to the U3 clock.
The G0 and G1 signals determine the U3 gain (1, 2, 4 or 8).
The Board interfaces with the Reaction Tray Interface Board (00193-01) via the JP1
connector that sends the signals to the Micro P.
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2.5.8
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2.5.9
This board checks that the samples racks are inserted correctly.
The sole power supply used in the board is Vcc (5V), derived from VM (24V) that arrives to
the board via the J1 connector.
Racks sensing is carried out via OPB848 type opto sensors U1, U2, U3, U4, and U5. These
sensors' outputs arrive to connector J7 of the Control Panel (30-00342-00) via J1. They exit
through the same J1 and go towards J2 of the Stepper Motors Driver Board (30-00188-01)
and from here, via J4 and J7 enter on J7 and J17 of the Analytical Control Board (CPU) (3000195-01) for the management functions performed by the Micro P (U1).
Service Manual
March 2003
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This board controls the levels of the Rinse, Water and Cleaning Solution bottles, the closure
of the sample rack and reagent rack doors, the buttons indicators placed on the front panel
of the instrument and the acoustic alarm buzzer.
The St-by and Ready buttons are only lit indicators. The STAT button, instead, actually turns
off the acoustic alarms.
Signals regarding the presence of the five sample racks pass through this board.
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the
Service Manual
March 2003
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Chapter 3 - INSTALLATION
CHAPTER 3
- INSTALLATION
INDEX
INSTALLATION..................................................................................................................2
3.2
INSTALLATION
3.2.1 Installation site characteristics .........................................................................4
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March - 2003
Rev. 01
Page - 1
Chapter 03 - INSTALLATION
CHAPTER 03
- INSTALLATION -
INDEX
3.1 UNPACKING.................................................................................................................... 2
3.2 INSTALLATION............................................................................................................... 4
3.2.1 INSTALLATION SITE SPECIFICATIONS ............................................................ 4
3.2.2 ELECTRIC CURRENT REQUIREMENTS............................................................. 4
3.2.3 CONNECTION OF THE ACCESSORIES............................................................... 5
3.2.3.1 POWER SUPPLY ................................................................................................. 5
3.2.3.2 COMPUTER - INSTRUMENT CONNECTION ................................................... 5
3.2.4 ATTENTION ........................................................................................................... 6
3.2.5 SYMBOLS............................................................................................................... 6
3.2.6 REGULATORY COMPLIANCE............................................................................. 6
3.3 INSTALLATION ACTIVITY ........................................................................................... 7
3.4 SOFTWARE INSTALLATION PROCEDURE ........................................................... .9
3.5 FIRMWARE UPGRADING ............................................................................................ 11
Service Manual
Rev.02
January 2004
Page 1
Chapter 03 - INSTALLATION
3.1 UNPACKING
The ILAB 300 PLUS is packed and delivered in two separate wooden crates: one contains the
analyzer itself and the other the computer, along with its accessories. In the event that the order
not include the PC component, packing and delivery will involve one wooden crate plus a
corrugated cardboard box. The packing has been expressly studied and designed to insure
maximum protection of the contents during shipping and handling. It is therefore extremely
important that the crate(s)/box be carefully examined upon delivery in order to ascertain their
integrity. Special attention should be dedicated to examining the color of the Shock Watch
glued to the crates, which must show the color white. A red Shock Watch indicates that
the crate(s) have experienced some sort of shock during handling, transport and/or delivery.
This fact must be noted by the courier on the delivery note, as must any and all visible external
damage (for example: holes, dents, rips or tears, water marks, etc.) evident at the moment of
delivery. This will simplify matters in the event of any future claims for damages.
the instrument;
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January 2004
Page 2
Chapter 03 - INSTALLATION
Before connecting the "ILab 300 Plus", remove the protective packing material placed under
the sampling arm and under the wash station group.
Warning: in the event that it is necessary to repack any or all of the delivered item(s), the
following procedures must be carefully followed:
Reposition the protective packing material under the sampling arm and under the wash
station group.
Tape down (using masking tape if possible) the cover of the samples and reagents housing,
the front panels, and the samples and reagents racks.
Remove the probe from the sampling arm and place it inside a cuvette. Then cap the
cuvette and tape the cap down.
Be very careful to not bend the wash station cannulas when repositioning the protective
packing material.
Fill the empty spaces around the accessories packed in the crate using pluriballs or other
suitable packing material.
Service Manual
Rev.02
January 2004
Page 3
Chapter 03 - INSTALLATION
3.2
INSTALLATION
The ILAB 300 PLUS must only be installed by a qualified technician who has been authorised
and trained to do so. During its installation the system will be checked once again to ensure
correct functioning. The persons who are required to operate the ILAB 300 PLUS system must
have received the adequate training. This should also include the "know-how" of the normal
maintenance for the instrument. A description of the maintenance will be found in Chapter 7 of
this manual.
ILAB 300 PLUS is a complex system, and it is therefore extremely important that it is correctly
installed in order to fully guarantee fine performance. If the installation and use directions,
given in this manual, are not correctly followed and/or security indications are not respected,
AMS cannot guarantee correct functioning of the instrument. Apart from this, the security of
the operator could be placed at risk.
3.2.1 INSTALLATION SITE SPECIFICATIONS
Ascertain that the ILAB 300 PLUS system is not exposed to direct sunlight, draughts, dust or
strong magnetic fields. In addition, please take note of the following conditions required for the
location of the installation:
USE
DEGREE OF POLLUTION
INSULATION CLASS
INSTALLATION CATEGORY
II
TEMPERATURE
HUMIDITY
between18-32C
ALTITUDE
Max 3000 m
Shelf or table with a minimum surface of 110x70 cm
stable and free of vibration
Leave a minimum distance of 10 cm around the
instrument to permit air circulation . Make sure that
the fan (situated under the reagent compartment) is
not blocked by any object
20% 85%
LOCATION
VENTILATION
VOLTAGE
FUSES
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January 2004
Page 4
Chapter 03 - INSTALLATION
Fig. 1 Plug (use the feeder cable supplied with the instrument).
The sticker indicates the power supply voltage and the values of the fuses.
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Rev.02
January 2004
Page 5
Chapter 03 - INSTALLATION
3.2.4 ATTENTION
The following label is found at the rear of the instrument.
NOTE:
THE REAR PANELS OF THE INSTRUMENT MUST NEVER BE OPENED WITHOUT HAVING FIRST
SWITCHED THE INSTRUMENT OFF AND DISCONNECTED THE ELECTRICITY CABLE.
THE
AT
ALL
TIMES.
REMEMBER
07
OF THIS
TO FOLLOW THE
3.2.5 SYMBOLS
EMC :
Service Manual
Rev.02
January 2004
Page 6
Chapter 03 - INSTALLATION
3.3
INSTALLATION ACTIVITY
Customer
______________________
Service Engineer
Instrument S/N
______________________
_________
Date____________________
During the preinstallation visit the laboratory area should be inspected in the light of the
following requirement:
Yes
No
Yes
No
Yes
No
Worktable:
q Minimun size 110 x 70 cm plus PC and Printer
Yes
No
q Presence of vibration?
Yes
No
Yes
No
Yes
No
Installation Activity
Unscrew the screws fixing the crate located in the lower sides.
Raise the wood crate and take out all the packaging material.
Place the instrument on the workbench and level it by adjusting the front
feet.
Remove the top cover and check that the cuvettes are well fitted in their
slot.
Connect the ILab 300 Plus to the P.C (see 3.4)
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January 2004
Page 7
Chapter 03 - INSTALLATION
Activity
Install the ILab 300 Plus program provided with the CD Rom. Perform all
the P.C settings. (see Installation Procedure point 1 to 11 sect. 3.6.1)
Keep the arm completely up and turn the instrument , the P.C and the
Printer on.
After removing the protection tube, install the probe. Verify that the probe is
perfectly straight. (see Installation Procedure point 12 to 14 sect. 3.6.1)
Reconstitute the Rinse and cleaning solutions by following the instructions
sheet in the packing.
Place the three bottles in position and fill them with the relevant liquid (H2O,
Rinse, Cleaning). Close with the covers and insert the tubes.
Place the two waste tank (one is the biological waste) * Not supplied. Insert
the waste tubings. The RED connector is the biological outlet.
Check the tubings for any squashing
Boot ILab 300 Plus program and run the Diagnostic; select Diluter and
click on the Probe Wash Test command to execute the priming. Perform
the Washing Well Level. (see Installation Procedure point 15 to 16 sect.
3.6.1)
Open the Global Setting menu in the Diagnostic program. Check and in
case adjust the probe in all the positions. (Samples / Reagents / Standards /
Controls / Diluent / Washing Pot) (see Installation Procedure point 17 to 18
sect. 3.6.1)
Check the optic system. (see Sect.6.2.3)
Check the temperature ( see Sect. 6.6.1)
Check the Backlash ( see Sect. 6.1.6.5)
Run two cuvettes washing cycles (see Installation Procedure point 19 sect.
3.6.1)
Perform the WBL for all the cuvettes and checks the results. (see Installation
Procedure point 19 sect. 3.6.1)
Set the methods, the control serums, standards and reagents.
Calibrate the methods for testing the ILab 300 Plus. Usually one cinetic and
one substrate. Remember to run the Reagent Blank first if necessary
Service Manual
Rev.02
January 2004
Page 8
Chapter 03 - INSTALLATION
Run a precision test on the test previously calibrated, with the control serum.
(See the analytical performance 3.8)
Check the results.
3.4
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Rev.02
January 2004
Page 9
Chapter 03 - INSTALLATION
as required. The system will install the MasterSoftware and the MasterHardware.
Select YES when is asked if maintain the existing files. Chose the language.
17. Run again the installation program. Select Service. Install the program TEST
ILAB and the program WINZIP.
18. Start the ILab 300 Plus program. P.S : Turn on the instrument first.
The instrument will take a minimum of 10 minutes to reach the correct temperature.
Meantime it is not possible to run analysis but it is possible to enter the different parts
of the software.
19. Select the diagnostic program.
20. Reset the arm by selecting the Global Setting folder. Install the probe.
21. Select the Diluter folder and run several time the Probe Wash Test as far as the
rinse tube is filled with liquid.
22. Select the Configuration folder. Type the password 1234 and run the Washing
Well Level test to optimize the level of liquid in the washing pot.
23. Home all the parts of the instrument by selecting the folders in the diagnostic
program. Check all the sensors looking at the color at the bottom of the screen.
24. Select the Global Setting folder and check the probe in all the positions.
25. Exit the Diagnostic program. Select Start (green arrow) and run a washing
cycle and a Water Blank Level. (WBL). Check the result.
NOTE : when the setting is completed save the new Analyzer.MDB file. To access the
Windows program, logout the ILab 300 Plus software by typing Ctrl Alt 5 (Ctrl Alt
Shift with Software Revision up to 1.0.7.) Respond YES when the system prompts
System Shutdown is Turned Off. Select Shutdown then OK. Make a copy of the
Analyzer. MDB file in the Analyzer folder either in a different folder or on a floppy disk.
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Chapter 03 - INSTALLATION
NOTE : when the setting is completed save the new Analyzer.MDB file.
A)
To verify the revision of the firmware, point out the mouse on the figure of the chip at the
bottom of the screen in the ILab 300 Plus program. The version of the firmware will
apeare.
Open the black rear cover and remove the plastic protection to have
access at the Analytical Control Board.
1. Copy the file ALYSSWXX.A20 in the TestILab folder. (The file ALYSSWXX.A20 is
the firmware).
2. Start the Test ILab program by double clicking on Test.exe.
3. With the selection on Plate (Micro 1), click on the Read Down Load key.
4. A window named Write Log with When the downloading is completed press Write
Confirm key will appears. Click OK
5. It will appears the window HFD Hitachi Flash Download. Click on File key and
select *.a20 on the list files of type by clicking on it.
1. Click on ALYSSWXX.A20 file (or a:\ ALYSSWXX.A20 file if it is located on a
floppy disk) in the folder TestILab in order to select it on the File name section and
click OK
2. Click on Activate key and wait until the Micro 1 programming operation finishes
3. When finished , a window named Report will appear, click OK
4. Exit by clicking on Quit key and click OK to confirm.
5. Click on the Write Confirm red button to transfer the setting data on the Micro 1.
When the Write Confirm red button disappears, it means that the data transfer has
been completed.
6. Short circuit pins 1 and 2 of the J4 connector on the Analytical Control Board. Select
Arm (Micro 2) and click on the Read Down Load key.
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Chapter 03 - INSTALLATION
7. A window named Write Log with When the downloading is completed press Write
Confirm key will appears. Click OK
8. Click on File key and select *.a20 on the list files of type by clicking on it.
9. Click on ALYSSWXX.A20 file (or a:\ALYSSWXX.A20 file if it is located on a
floppy disk) in the folder TestILab in order to select it on the File name section and
click OK
10. Click on Activate key and wait until the Micro 2 programming operation finishes.
11. When finished, a window named Report will appear, click OK
12. Exit by clicking on Quit key and click OK to confirm.
13. Click on the Write Confirm red button to transfer the setting data on the Micro 2.
When the Write Confirm red button disappears, this means that the data transfer has
been completed.
14. Remove the short circuit from the pins 1 and 2 on the J4 connector on the Analytical
Control Board P/N 00195-01
15. Click on the HW Reset key and verify a sound signal from the Analytical Control
Board to confirm that the firmware upgrading procedure has been successfully
completed.
16. Click on the Exit key in order to close the application.
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Chapter 03 - INSTALLATION
The functionality of the keys for the updating of the firmware is not changed. Under the
box called FIRMWARE there are the Download Read + Download and Write
Conf. Keys. These buttons maintain the same operative sequence as in the former
version.
Following are the improvements:
Parameters, introduces two functions:
Upload which enable to read the system setting parameters from the Micro Arm
and Micro Plate. These parameters are saved in two different files in the
Analyzer folder. The two files are: Micro_arm.ams and Micro_plate.ams
Download which make possible both to open the files Micro_Arm.ams and
Micro_Plate.ams and write the system parameters previously saved into the
micros This is useful when a replacement of the Analytical Control Board is
necessary. The files with the system setting parameters can be reloaded. The
files Micro_Arm.ams and Micro_Plate.ams are automatically update every time
the Diagnostic is selected or during the Diagnostic shutdown.
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Chapter 03 - INSTALLATION
Service Manual
Rev.02
January 2004
Page 14
P70
LM324
1uF
PAN2
C28 +
1uF
18
16
14
12
9
7
5
3
20
VCC
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
U23B
P71
LM324
PAN3
PINP1
PINP2
PINP3
PINP4
PINP5
PINP6
PINP7
PINP8
2
4
6
8
11
13
15
17
1
19
10
C29 +
1uF
P74
P75
P76
P77
PB3
P95
PB5
P94
VCC
U23C
P72
8
LM324
PAN4
C30 +
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
AVCC
12
13
1uF
U23D
14
P73
LM324
ROSR4
ROSR2
RAN4
DTR
D3
1N4148
1
3
5
7
9
CON10A
2
4
6
8
10
12.5V
RDAR2
ROSR3
ROSR1
RESB
0.1u
R41 6K8
R42 3K3
1
2
3
RA6 4
5
R62 6
R63 7
RA7 8
R17 9
13
8
11
10
C20
1
3
4
5
2
6
0.1u
C18
0.1u
RR7 10K8+C
1
0.1u
VCC
J16 JUMP
PDAR2
2 1
J15 JUMP
RDAR2
2 1 ON
C26
2
C21
R1IN R1OUT
R2IN R2OUT
T1IN T1OUT
T2IN T2OUT
C+
C1C2+
C2V+
V-
12
9
14
7
P92
P93
P90OUT
TX
RX
R93IN
RX2
H3
R92IN 13
R93IN 8
R90
11
R91
10
C19
0.1u
0.1u
C22
LS1
R44 1R
0.1u
1
R43 1R
BUZZER
2 VCC
3ON
2
1
C23
C24
0.1u
0.1u
1
3
4
5
2
6
RVPPE
PMD2E
RMD2E
P17
R17
PA7
RA7
PVPPE
PFOTO1
PFOTO2
PFOTO3
PFOTO4
PADC1
PRDY1
PADC2
PRDY2
18
16
14
12
9
7
5
3
20
VCC
I0
I1
I2
I3
I4
I5
I6
I7
I8
I9
I1
O1
I2
O2
I3
O3
I4
O4
I5
O5
I6
O6
I7
O7
I8
O8
GND COM
U21 74HC244
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
U26 MAX202
12
9
14
7
F0
F1
F2
F3
F4
F5
F6
F7
VCC
GND
12
13
14
15
16
17
18
19
20
10
RUT1
X91
RUT2
PMD2E RUT3
RMD2E RUT4
RVPPE RUT5
PVPPE RUT6
RESP
RUT7
RESR
RUT8
18
17
16
15
14
13
12
11
10
REVPP
EPMD2
ERMD2
PDAR1
RDAR1
PDAR2
RDAR2
PEVPP
U17 ULN2803
1
2
3
4
5
6
7
8
9
J11 H 3
J9
PG1
PFOTO1
PG2
PFOTO2
PFOTO3
PINP
VCC
CX27
0.1u
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
CX28
0.1u
CX29
0.1u
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
2
4
6
8
11
13
15
17
1
19
R62
R63
R64
R65
RA6
RLEAK
RSLI
RINP
VCC
R13 100KR65
2
4
6
8
10
12
14
16
18
20
22
24
26
PADC2
PSLI
PLEAK
PRDY2
PTTL
C31 +
VCC
CX1
0.1u
CX2
0.1u
18
16
14
12
9
7
5
3
20
CX24
J10
PA7/TIOCB2
PA6/CS4/TIOCA2
PA5/CS5/TIOCB1
PA4/CS6/TIOCA1
PA3/TIOCB0/TCKD
PA2/TIOCA0/TCKC
PA1/TEND1/TCKB
PA0/TEND0/TCKA
GND
P84/CS0
P83/CS1
P82/CS2
P81/CS3
P80
AGND
P77/DA1
P76/DA0
P75
P74
P73
P72
P71
P70
VREF
AVCC
2
4
6
8
11
13
15
17
1
19
R50
R51
R52
R53
RA2
RA4
RB2
RB0
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
2
4
6
8
11
13
15
17
1
19
RINP1
RINP2
RINP3
RINP4
RINP5
RINP6
RINP7
RINP8
RENA
RENB
RENC
REND
RDIRA
RDIRB
RDIRC
RDIRD
VCC
RUT9
RUT10
R80
R81
R82
R83
R84
RB7
VCC
U24A
R70
1
LM324
AVCC
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
RAN2
C32 +
1uF
P43 2
P42 3
P41 4
P40 5
P47 6
P46 7
P45 8
P44 9
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
VCC
2
4
6
8
11
13
15
17
1
19
U20 74HC244
18
16
14
12
9
7
5
3
20
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
2
4
6
8
11
13
15
17
1
19
VCC
CX4
0.1u
6
E
VCC
RESR
VCC
R62
R61
R60
R53
R52
R51
R50
R27
R26
R30
R31
R32
R33
R34
R35
R36
R37
1
3
5
7
9
11
13
15
17
19
21
23
25
RINP4
RINP5
RINP6
RINP7
RINP8
RINP9
RINP10
RINP11
R60
R61
RINP9
RINP10
RINP11
RINP12
RINP13
RINP14
J8 CON26A
RUT1
RUT2
RUT3
RUT4
RUT5
RUT6
RUT7
RUT8
RUT9
RUT10
RINP1
RINP2
RINP3
2
4
6
8
10
12
14
16
18
20
22
24
26
J18 CON18A
1
3
5
7
9
11
13
15
17
2
4
6
8
10
12
14
16
18
RENA
RENB
RENC
REND
RDIRA
RDIRB
RDIRC
RDIRD
RPDA
RPDB
RPDC
RPDD
RCLKA
RCLKB
RCLKC
RCLKD
RESR
RAN1
RINP14
RINP13
RINP12
C
GND
AVCC
U24B
7
R71
LM324
RAN3
C33 +
10
AVCC
GND_SIGNAL
U24C
8
LM324
1uF
R72
RAN4
C34 +
C40 1uF
RR4 10K8+C
1
C41 1uF
RR5 10K8+C
1
AMS
Title
Size
A3
12
13
1uF
U24D
R73
14
LM324
C42 1uF
0
Riferimento RMP 60
Rev.
Description
P17 2
PA7 3
PA6 4
5
P62 6
P63 7
8
9
VCC
U2
H83048
QFP100-4
CX13
0.1u
CX20
0.1u
Date:
4
U13 74HC244
18
16
14
12
9
7
5
3
20
VCC
CX19
0.1u
0.1u
C39 1uF
CON26A
RADC2
2
RSLI
4
RLEAK
6
RRDY2
8
RTTL
10
VM
12
RDAR1
14
RAN2
16
18
20
12.5V
22
RADC1
24
26
12.5V
CX3
0.1u
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
VCC
VCC
3
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
U19 74HC244
R20
R21
R22
R23
R24
R25
R26
R27
VCC
MICRO P
VCC
VCC
VCC
U12 74HC244
AVCC
1uF
CX22
0.1u
RG1
RFOTO1
RG2
RFOTO2
RFOTO3
RINP
RFOTO1
RFOTO2
RFOTO3
RFOTO4
RADC1
RRDY1
RADC2
RRDY2
CX18
0.1u
RAN1
VCC
RPDA 18
RPDB 16
RPDC 14
RPDD 12
RCLKA 9
RCLKB 7
RCLKC 5
RCLKD 3
20
VCC
R40
R41
R42
R43
R44
R45
R46
R47
1A1 2
1A2 4
1A3 6
1A4 8
2A1 11
2A2 13
2A3 15
2A4 17
1OE 1
19
2OE VCC
1
3
5
7
9
11
VM
PDAR1
13
VM RRDY1
PAN2
RFOTO4 15
17
ALFD1
19
12.5V
RPWM
21
PADC1
RSCLK
23
12.5V
RAN3
25
CX30
0.1u
2
4
6
8
11
13
15
17
1
19
U18 74HC244
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
CX12
0.1u
CX11
0.1u
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
18
16
14
12
9
7
5
3
20
VCC
R10 100KP65
CON26A
MICRO R
VCC
VCC
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
VCC
VCC
U11 74HC244
18
16
14
12
9
7
5
3
20
U22 74HC244
VCC
P91
TX5V
X91
1
ON2
3
R74
R75
R76
R77
RB3
R95
RB5
R94
VM
18
16
14
12
9
7
5
3
20
VCC
1
3
5
7
9
11
13
VM PRDY1
R92
R93
PFOTO4 15
17
R90OUT ALFD1
19
TX2
PPWM
21
PSCLK
23
PAN3
25
VCC
CX26
0.1u
VCCVCC
P62
RG1
P63
RG2
RSCLK
P64
RTTL
P65
PA6 RPWM
PLEAK RB1
PSLI RB4
PINP R13
2
4
6
8
11
13
15
17
1
19
RR1 10K9+C
PMD2 2
1
RMD2 3
VCC
RVPP 4
PVPP 5
PB6 6
SELP 7
P66 8
R66 9
I0
10
R1IN R1OUT
R2IN R2OUT
T1IN T1OUT
T2IN T2OUT
C+
C1C2+
C2V+
V-
U10 16V8
I0
1
BOOT 2
P91
3
P66
4
R91
5
R66
6
R10
7
SELP
8
RESA 9
RESB 11
P40
P41
P42
P43
P44
P45
P46
P47
POSR1
POSR2
POSR3
POSR4
ROSR1
ROSR2
ROSR3
ROSR4
2
4
6
8
11
13
15
17
1
19
RMD2
VCC
VCC
R66
R65
R64
R63
J14
2
4
6
8
10
C17
P92IN
RX
P90
TX5V
C38 1uF
MAX202
CX10
0.1u
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
1
3
5
7
9
12.5V
PDAR2
POSR3
POSR1
U25
2
4
6
8
11
13
15
17
1
19
+ C14
470uF/50
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
POSR4
POSR2
PAN4
R40 3K3
CON10A
C37 1uF
RR6 10K8+C
R40 2
1
R41 3
R42 4
R43 5
R44 6
R45 7
R46 8
R47 9
VCC
VCC
CX9
0.1u
PG1
PG2
PSCLK
PTTL
PPWM
PB1
PB4
P13
J12
18
16
14
12
9
7
5
3
20
VCC
VCC
C15
0.1u
U6 74HC244
PA0
PA1
PA3
PA5
RA0
RA1
RA3
RA5
J13
C36 1uF
1N4148
BOOT
C35 1uF
R39 6K8
D4
RTS
CX25
0.1u
2
4
6
8
11
13
15
17
1
19
VCC
CX21
0.1u
VCC
C25 0.1u
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
U16 74HC244
18
16
14
12
9
7
5
3
20
VCC
CX16
0.1u
AVCC
U9 74HC244
18
16
14
12
9
7
5
3
20
VCC
LM2575
12.5V
VCC
H6
PUT1
PUT2
PUT3
PUT4
PUT5
PUT6
PUT7
PUT8
P50
P51
P52
P53
PA2
PA4
PB2
PB0
2
4
6
8
11
13
15
17
1
19
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
VCC
CX15
0.1u
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
U15 74HC244
P20
P21
P22
P23
P24
P25
P26
P27
VM
R44
R45
R46
CX6
0.1u
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
MD2
MD1
MD0
P66/LWR
P65/HWR
P64/RD
P63/AS
VCC
XTAL
EXTAL
GND
NMI
RES
STBY
E
P62/BACK
P61/BREQ
P60/WAIT
GND
P53/A19
P52/A18
P51/A17
P50/A16
P27/A15
P26/A14
P60
P61
PINP9
PINP10
PINP11
PINP12
PINP13
PINP14
D5
1N5818
VCC
ADRMICRO 0
2
4
6
8
11
13
15
17
1
19
U23A
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
AVCC
CX23
0.1u
11
C27 +
CX14
0.1u
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
18
16
14
12
9
7
5
3
20
VCC
U14 74HC244
18
16
14
12
9
7
5
3
20
U8 74HC244
PPDA
PPDB
PPDC
PPDD
PCLKA
PCLKB
PCLKC
PCLKD
0.1u
U4
1
2
3
4
5
TO92
R3
10K
11
PAN1
P30
P31
P32
P33
P34
P35
P36
P37
11
AVCC
2
4
6
8
11
13
15
17
1
19
470uF/50
C12
[BRACCIO]
MICRO R
11
VCC
VCC
1A1
1A2
1A3
1A4
2A1
2A2
2A3
2A4
1OE
2OE
0.1u
C10 +
SERIAL 2
VM
1
2
3
4
5
6
PUT9
PUT10
P80
P81
P82
P83
P84
PB7
1Y1
1Y2
1Y3
1Y4
2Y1
2Y2
2Y3
2Y4
VCC
C11
R90
R91
R92
R93
R94
R95
R40
R41
R42
R43
R25
R24
R23
R22
R21
R20
PCLKB
PCLKC
PCLKD
RESP
PAN1
PINP13
PINP14
PINP12
VCC
U7 74HC244
18
16
14
12
9
7
5
3
20
H3
VM
12.5V
470uF/50
RX2
10K
VCC
PB0/TIOCA3/TP8
PB1/TIOCB3/TP9
PB2/TIOCA4/TP10
PB3/TIOCB4/TP11
PB4/TOCXA4/TP12
PB5/TOCXB4/TP13
PB6/CS7/R0/TP14
PB7/DREQ1/TP15
VPP/RESO
GND
P90/TX0
P91/TX1
P92/RX0
P93/RX1
P94/SCLK0
P95/SCLK1
P40/D0
P41/D1
P42/D2
P43/D3
GND
P44/D4
P45/D5
P46/D6
P12
P11
P10
2
4
6
8
10
12
14
16
18
PENA
PENB
PENC
PEND
PDIRA
PDIRB
PDIRC
PDIRD
P53
P52
P51
P50
P27
P26
AVCC
C9
H2
TX2
1
2
3
12.5V
SELP
2
1
J5
J6
VCC
CX8
0.1u
J4
VCC
E
P62
P61
P60
R14
H6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
VCC
RB0
RB1
RB2
RB3
RB4
RB5
RB6
RB7
RVPP
P16
P15
P14
CON18A
1
3
5
7
9
11
13
15
17
CX7
0.1u
RESP
R92IN
H 3 BAR CODE
READING
TX
RX
DTR
RTS
SELP
Q1
PNP RMD2
ERMD2
R11 500R
R17
R16
R15
R14
R13
R12
R11
R10
J17
VCC
VCC
6
5
4
3
2
1
R90OUT
1
2
3
VCC
XTAL
EXTAL
U3
LM2940C
SERIAL 1
J2
ISE
J3
C4
0.1u
10uF
500R
R37
R36
R35
R34
R33
R32
R31
R30
R47
2
4
6
8
10
12
14
16
18
20
22
24
26
U1
H83048
QFP100-4
P25
P24
P23
P22
P21
P20
1
3
5
7
9
11
13
15
17
19
21
23
25
VCC
PENA
PENB
PENC
PEND
PDIRA
PDIRB
PDIRC
PDIRD
PPDA
PPDB
PPDC
PPDD
PCLKA
R12
R11
R10
CON26A
R16
R15
R14
PINP4
PINP5
PINP6
PINP7
PINP8
PINP9
PINP10
PINP11
J7
P17
P16
P15
P14
P13
P12
P11
P10
PUT1
PUT2
PUT3
PUT4
PUT5
PUT6
PUT7
PUT8
PUT9
PUT10
PINP1
PINP2
PINP3
P37
P36
P35
P34
P33
P32
P31
P30
P47
DS1233-10 VCC
RESET
CX5
0.1u
VCC
B
H3
R9
12.5V
C2
R5 TO92
10K
500R
P92IN
L1
470u
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
1
2
3
VCC
VCC
P66
P65
P64
P63
11
U5
RESA
MICRO P
ADRMICRO 1
11
P44
P45
P46
[PIATTO]
P90OUT
1
2
3
PMD2
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
MD2
MD1
MD0
P66/LWR
P65/HWR
P64/RD
P63/AS
VCC
XTAL
EXTAL
GND
NMI
RES
STBY
E
P62/BACK
P61/BREQ
P60/WAIT
GND
P53/A19
P52/A18
P51/A17
P50/A16
P27/A15
P26/A14
R7 TO92
10K
PEVPP
R12
REVPP
Q4
PNP RVPP
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
P90
P91
P92
P93
P94
P95
P40
P41
P42
P43
PA7/TIOCB2
PA6/CS4/TIOCA2
PA5/CS5/TIOCB1
PA4/CS6/TIOCA1
PA3/TIOCB0/TCKD
PA2/TIOCA0/TCKC
PA1/TEND1/TCKB
PA0/TEND0/TCKA
GND
P84/CS0
P83/CS1
P82/CS2
P81/CS3
P80
AGND
P77/DA1
P76/DA0
P75
P74
P73
P72
P71
P70
VREF
AVCC
VCC
PB0/TIOCA3/TP8
PB1/TIOCB3/TP9
PB2/TIOCA4/TP10
PB3/TIOCB4/TP11
PB4/TOCXA4/TP12
PB5/TOCXB4/TP13
PB6/CS7/R0/TP14
PB7/DREQ1/TP15
VPP/RESO
GND
P90/TX0
P91/TX1
P92/RX0
P93/RX1
P94/SCLK0
P95/SCLK1
P40/D0
P41/D1
P42/D2
P43/D3
GND
P44/D4
P45/D5
P46/D6
12.5V
J1
P47/D7
P30/D8
P31/D9
P32/D10
P33/D11
P34/D12
P35/D13
P36/D14
P37/D15
VCC
P10/A0
P11/A1
P12/A2
P13/A3
P14/A4
P15/A5
P16/A6
P17/A7
GND
P20/A8
P21/A9
P22/A10
P23/A11
P24/A12
P25/A13
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
VCC
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PVPP
12.5V
R70
R71
R72
R73
R74
R75
R76
R77
R8 500R
EPMD2
0.1u
D2 LED
Q3
PNP PVPP
R80
R81
R82
R83
R84
C3
10uF
R6 1K
12.5V
VM
TO92
R4
10K
D1 LED
RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
P70
P71
P72
P73
P74
P75
P76
P77
C6
12p
P80
P81
P82
P83
P84
PA0
PA1
PA2
PA3
PA4
PA5
PA6
PA7
C5
12p
C7
R1 2K2
AVCC
11
EXTAL
Q2
PNP PMD2
P47/D7
P30/D8
P31/D9
P32/D10
P33/D11
P34/D12
P35/D13
P36/D14
P37/D15
VCC
P10/A0
P11/A1
P12/A2
P13/A3
P14/A4
P15/A5
P16/A6
P17/A7
GND
P20/A8
P21/A9
P22/A10
P23/A11
P24/A12
P25/A13
12.5V
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
AVCC
XTAL
IN
GND
OUT
X1
16M
R2 1
11
1
2
3
Analyzer
Medical
System
Checked
Approved
Approved
Checked
Drawn
R.CORNACCHIA
[MA]00195-01
Monday, January 08,2001
7
Rev
VM
R10 750R
100/50 C15
VCC
C19
VM
R11 750R
0.1u
100/50 C16
VCC
D17
LED/YELLOW
D1
RES
CLKA
ENA
DIRA
PDA
C5
3n3
M1A
M2A
13
VCC
7
2
6
3
5
10
4
8
9
CK1
RES
CK2
EN
DIR
PD
OSC
M1
M2
VMA
VMB
GNDD
U1
24
15
FA1
FA2
23
20
FB1
FB2
19
16
SA
SB
21
18
GNDPA
GNDPB
22
17
D5
C4
0.1u
D19
LED/YELLOW
AM62
AM62N
BM62
BM62N
D3
D2
RES
CLKB
ENB
DIRB
PDB
D7
C6
3n3
M1B
M2B
R2
1R-2W
R1
1R-2W
13
VCC
7
2
6
3
5
10
4
8
9
CK1
RES
CK2
EN
DIR
PD
OSC
M1
M2
GNDD
U2
SDIC403
VM
R12 750R
100/50 C17
VCC
VMA
VMB
24
15
FA1
FA2
23
20
FB1
FB2
19
16
SA
SB
21
18
GNDPA
GNDPB
22
17
C21
R13 750R
C11
3n3
7
RES
2
CLKC
6
3
DIRC
5
PDC
10
4
M1C
8
M2C
9
D9
ENC
C
VCC
CK1
RES
CK2
EN
DIR
PD
OSC
M1
M2
GNDD
U3
UT1
UT2
UT3
UT4
UT5
UT6
UT7
UT8
UT9
UT10
WLST1-LK
WLST2-IL
WLST3-NC
J4
1
3
5
7
9
11
13
15
17
19
21
23
25
2
4
6
8
10
12
14
16
18
20
22
24
26
VMA
VMB
24
15
FA1
FA2
23
20
FB1
FB2
19
16
SA
SB
21
18
GNDPA
GNDPB
22
17
D20
LED/YELLOW
AM53
AM53N
BM53
BM53N
D11
D13
C10
0.1u
1
3
5
7
9
11
13
VCC
C12
3n3
7
RES
2
CLKD
6
3
DIRD
5
PDD
10
4
M1D
8
M2D
9
CK1
RES
CK2
EN
DIR
PD
OSC
M1
M2
END
D15
R6
1R-2W
R5
1R-2W
GNDD
U4
WLST4-NC
WLST5-NC
KSMP-NC
KSTAT-NC
IN8
KLSTAT-NC
KLRDY-OSM0A
KLSTB-OSM0B
J7
1
3
5
7
9
11
13
15
17
2
4
6
8
10
12
14
16
18
U6 ULN2803
UT1
UT2
UT3
UT4
UT5
UT6
UT7
UT8
CLKB
CLKC
CLKD
RES
AN1
LIQ3-NC
LIQ2-NC
LIQ1-NC
1
2
3
4
5
6
7
8
9
AM10
BM10
IN8
RIS1
VM
J8
1
3
5
7
9
AM10N
BM10N
RIS3-EV2
RIS2
2
4
6
8
10
CON10A
CON12A
D8
R3
1R-2W
R4
1R-2W
C22
0.1u
M1A
VMA
VMB
24
15
FA1
FA2
23
20
FB1
FB2
19
16
SA
SB
21
18
GNDPA
GNDPB
22
17
AM10
AM10N
BM10
BM10N
D12
D14
M2A
R16 10K
R17 10K
R18 10K
R19 10K
R20 10K
R21 10K
R22 10K
R23 10K
M2D
M1D
C
D16
M1B
R7
1R-2W
R8
1R-2W
M2B
M2C
M1C
VCC
SDIC403
LSTB-EV1
RIS3-EV2
LSTAT-EV3
LRDY-EV5
NC-LOCK
NC-MP2
NC-MP3
NC-MP4
18
17
16
15
14
13
12
11
10
I1
O1
I2
O2
I3
O3
I4
O4
I5
O5
I6
O6
I7
O7
I8
O8
GND COM
AM62N
BM62N
AM74N
BM74N
AM53N
BM53N
2
4
6
8
10
12
D10
SDIC403
ENA
ENB
ENC
END
DIRA
DIRB
DIRC
DIRD
PDA
PDB
PDC
PDD
CLKA
J1
13
D6
100/50 C18
VCC
AM74
AM74N
BM74
BM74N
D4
VM
0.1u
AM62
BM62
AM74
BM74
AM53
BM53
SDIC403
D18
LED/YELLOW
C9
0.1u
0.1u
C3
0.1u
C20
SW1
1
2
3
4
8
7
6
5
M1A
M2A
M1B
M2B
ON
OFF
ON
OFF
SW DIP-4
VM
CON18A
CON26A
U7 ULN2803
UT9
UT10
IN1
IN2
IN3
IN4
IN5
IN6
1
2
3
4
5
6
7
8
9
RIS1
RIS2
OUT1
OUT2
OUT3
OUT4
OUT5
OUT6
18
17
16
15
14
13
12
11
10
I1
O1
I2
O2
I3
O3
I4
O4
I5
O5
I6
O6
I7
O7
I8
O8
GND COM
SW2
1
2
3
4
8
7
6
5
M1C
M2C
M1D
M2D
ON
OFF
ON
OFF
SW DIP-4
VM
D21
LED/GREEN
J3
NC-MP2
AN1
PWS
VM
VM
6PIN
U5
LM7805/TO
1K
12.5V
24V
1
VM
R15
+ C13
100uF
2K2
D22
J5
VOUT
VIN
J6
VCC
2
+
C14
10uF
6
5
4
3
2
1
CON6
IN6
IN5
IN4
IN3
IN2
IN1
SPARE
KSMP-NC
LSTAT-EV3
KSTAT-NC
LRDY-EV5
WLST5-NC
WLST4-NC
WLST3-NC
WLST2-IL
WLST1-LK
NC-LOCK
LIQ2-NC
NC-MP4
LIQ3-NC
NC-MP3
SPARE
VM
2
4
6
8
10
12
14
16
18
20
22
24
26
VM
R14
GND
GND
1
3
5
7
9
11
13
15
17
19
21
23
25
6
5
4
3
2
1
KLRDY-OSM0A
KLSTB-OSM0B
KLSTAT-NC
LSTB-EV1
LIQ1-NC
J2
7
6
5
4
3
2
1
OUT6
OUT5
OUT4
OUT3
OUT2
OUT1
0
Rev.
LED/GREEN
Title
Description
AMS
CON7
CON26A
Riferimento RMP60
Analyzer
Medical
System
Checked
Approved
Approved
Checked
Drawn
R.CORNACCHIA
Size
A3
Document Number
Date:
[MA]00188-01
Rev
PDIL
J8
SLI
LEAKS
PDIL
P71
2
1
VM
76384-302
+12.5V
+12.5V
50K
NTC+
PRE/HEATER
EXT.ARM
J10
OS6
R21 2.4K
76384-304
ALFD3
R15 10K
+12.5V
LM358
R16
R33
0R
10K
8
7
6
5
4
3
2
1
R17 10K
IN8
RES2
RES1
NTC+
R31
10K
VCC
VM
SLI
C1
100uF
+ C6
100uF
D11
RL
R6
10K
R30 10K
R4
10K
2
1
76384-302
D2
BAY72
R2
R3
10K
R5
750
Q4
2N2907
MOT+ 3
1
0.1
D5
RES2
R60
OFFPR
220R
2
R59
10K
24V=2K2
LEAKS
LED
PWRES
R50
10K
G1
R11 10K
V1
G2
G1
RIS1
RIS2
RIS3
0.1
U2A
1
R61
10K
P71
VM
R62
10K
U5C
9
LM358
4
G2X
R9
1R/2W
R49
10K
10K
G1
4
G2
76384-305
74LS00
74LS00
0
Rev.
G2OUT
G2X
Size
A4
Date:
R55
10K
3
Q2
G2OUT
1
2N2222A R54 220R
V1
SLI
MOT+
2
V1
VM
MOTMOT+
3
Q3
1
2N2222A
J14
1
2
3
4
5
6
76384-306
Riferimento RMP 60
Description
AMS
Title
NOT USED
1
2
3
4
5
74LS00
U5B
U5A
RL
3
Q6
1
2N2907
J16
10
V1
1
2
3
4
5
6
7
8
R58 2R2
R56
220R
V1
MOT-
J6
VCC
R57
10K
R52
220R
V1
LM358
VCC
D4
Q5
2N2907
MOT- 3
1
VCC
LED
U1A
C3
R12 2K2
1
2
3
4
5
6
7
8
VCC
R53
10K
R51 220R
R10
RES1
14
22
24
1
2
BAY72
12
R1
BAY72
Q1
STP16NE06L
R8
1R/2W
PWRES21
D12
R29 2.4K
J12
J5
76384-308
5V BIP.8A
C2
1M
D1
D9 4.7V
D3
R7 22R
DILUTER
AM1
AM1N
BM1
BM1N
1
2
3
4
5
6
7
8
76384-308
VPRE 11
CON6MX
R32 750
R26 10K
1N5819
PWMR
2
4
6
8
10
J3
LS1
1
2
3
4
5
6
D10 4.7V
AM1N
BM1N
RIS3
RIS2
MICS-D 10
R24 240
OS7
R28 240
OS1
12V=1K
1
3
5
7
9
VCC
D8 4.7V
R27 330
VPRE
J15
AM1
BM1
IN8
RIS1
76384-304
1
2
3
4
5
6
+12.5V
2M2
J13
1
2
3
4
5
6
7
8
76384-308
J17
LED
DILUTER
4
3
2
1
R34
R?
C7 100uF
VM
ALFD1
VM
VERT.ARM
AM5
AM5N
BM5
BM5N
J4
INT.ARM
AM7
AM7N
BM7
BM7N
VPRE
76384-308
R22 10K
LEAK
R25 2.4K
76384-304
MICS-D 12
P72
HOME SENSOR
J11
R23 220
C4
10uF
U2B
INT.ARM
4
3
2
1
EXT.ARM
AM6
AM6N
BM6
BM6N
AM6N
BM6N
AM7N
BM7N
AM5N
BM5N
2
4
6
8
10
12
1
3
5
7
9
11
HOME SENSOR
R20 10K
D7 4.7V
4
3
2
1
J1
AM6
BM6
AM7
BM7
AM5
BM5
VCC
76384-308
VOUT
VIN
+ C5
100uF
J7
76384-304
LED
R14
33K
OS5
R19 2.4K
U4
LM7805/TO220
+12.5V
VCC
VERT.
4
3
2
1
VM
R13
MICS-D 26
+12.5V
J9
R18 2K2
OFFPR
D6
P72
2
4
6
8
10
12
14
16
18
20
22
24
26
2
4
6
8
10
12
14
16
18
20
22
24
26
OS1
ALFD1
PWMR
PDIL
1
3
5
7
9
11
13
15
17
19
21
23
25
VM
D
1
3
5
7
9
11
13
15
17
19
21
23
25
G1
OS5
G2
OS6
OS7
ALFD3
GND
J2
Analyzer
Medical
System
Checked
Approved
Approved
A
Checked
Drawn
R.CORNACCHIA
[MA]00192-01
Rev
J12
ADC1
+ VM
C8
100uF
J13
+12.5V
ADC2
REF.
+12.5V
SCLK(J1/23) 10
ADC2(J1/2) 8
V6
4
+12.5V
2
J6
D6
2
1
4
3
2
1
D9 4.7V
R25 2.4K
CON4P
J4
R29 220
4
3
2
1
R30 240
OS4(J1/9)
R23 2.4K
CON4P
R24 10K
ALFD1(J1/19)
CUVETTE
HOLDER
J5
R26 10K
ALFD3(J1/11)
D10 4.7V
RTC
TRAY
50K
R31 330
4
3
2
1
R22 2.4K
CON4P
R21 10K
1
2
3
4
R11 10K
PWMP(J1/21)
R13
10K
R9 22R
Q1
STP16NE06L
R8 10K
R19
10K
D1
R1
R4
BAY72
1M
10K
REACTION
TRAY LEAK
CON2P
D2
BAY72
0.1
R3
10K
P71(J1/16)
1
LM358
R5
R6
10K
10K
LED RED
LEAKP(J1/6)
1
LM358
0
Rev.
Riferimento RPM 60
Description
AMS
R2
0.1
U2A
D7
U1A
= 24V
Title
VCC = 5V
Size
A4
Date:
4
+ VCC
R7
1R/2W
R18
750R
C2
2
1
LED YELLOW
PWRES(J10/1)
+ VCC
CON2MX
D8 4.7V
VM
D4
C3
R17
1R/2W
PWRES
LM358
+ VM
J7
C5
10uF
R10 2K2
1N5819
P72(J1/25)
10K
+12.5V
2
1
+ VCC
2
+
D3
R14
OFFPL(J1/10)
J10
2
1
C1
220uF
U2B
CON5P
REACTION
TRAY
HEATER
+ VM
6
R12
33K
D11 4.7V
R32 240
OSB(J1/17)
+ VM
J9
5
4
3
2
1
VOUT
VIN
+ VM
1
2
3
4
R15
REACTION
2
TRAY TEMP.
1
SENS.
CON2P
LO/HI
LAMP
ENERGY
LEVEL
OS2(J1/3)
4
3
2
1
V+
GND
CON4MX
CON2P
FILTERS
WHEEL
J2
HOME SENSOR
R28 10K
8
3
C7
100uF
U5
LM7805/TO
+12.5V
J14
R27 2.4K
CAP+
CAPOSC
+ VCC
J8
CON4P
2
4
7
V-
VOUT
C4
10uF
R34 R?
HOME SENSOR
J3
LV
9.1V 1W
+ VCC
R20 2K2
+ VM
2
1
SPARE
D5
R?
LED YELLOW
CON2P
J11
OS3(J1/7)
R33
CUVETTE
HOLDER
SOLENOYD
WASH
+12.5V
STATION
DRDY2(J1/8)
9
7
5
3
1
9
7
5
3
1
MICS-D 10
BCU(J1/14)
MICS-D 26
10
8
6
4
2
6
+
BCU
P71
R16
100
MICS-D 10
C6
1uF
GND
LEAKP
DRDY2
OFFPL
G2(J1/5)
G1(J1/1)
ADC2
2
4
6
8
10
12
14
16
18
20
22
24
26
2
4
6
8
10
12
14
16
18
20
22
24
26
DRDY1
OSB
ALFD1
PWMP
SCLK
P72
1
3
5
7
9
11
13
15
17
19
21
23
25
U4 TC7660
+12.5V
+ VM
1
3
5
7
9
11
13
15
17
19
21
23
25
DRDY1(J1/15)
9
7
5
3
1
9
7
5
3
1
2M2
G1
OS2
G2
OS3
OS4
ALFD3
10
8
6
4
2
SCLK(J1/23) 10
ADC1 ADC1(J1/24) 8
SAMP. V6
4
+12.5V
2
J1
Analyzer
Medical
System
Checked
Approved
Approved
A
Checked
Drawn
R.CORNACCHIA
[MA]00193-01
Tuesday, January 09,2001
Rev
5 BLACK
1
2
3
4 BLUE
J2
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
BM62N
BM62
AM62N
AM62
J1
AM62
BM62
AM74
BM74
AM53
BM53
1
3
5
7
9
11
2
4
6
8
10
12
AM62N
BM62N
AM74N
BM74N
AM53N
BM53N
MICS-D 12
RED/WHITE
76384-308
CON8
RED
MOTOR STEPPER
6 ORANGE
5 WHITE
1
2
3
4 BLUE
8
7
6
5
4
3
2
1
WHITE
J3
8
7
6
5
4
3
2
1
BM74N
BM74
AM74N
AM74
RED
76384-308
CON8
YELLOW
MOTOR STEPPER
6 YELLOW
5 BLACK
1
2
3
4 RED
8
7
6
5
4
3
2
1
BLACK
J4
8
7
6
5
4
3
2
1
BM53N
BM53
AM53N
AM53
BLUE
CON8
76384-308
WHITE
0
Rev.
ORANGE
Emission
AMS
Title
Size
A4
Date:
5
Checked
Description
Analyzer
Medical
System
Approved
Approved
A
Checked
Drawn
R.CORNACCHIA
[MA]00341-00
Wednesday, May 30,2001
Rev
R6
1
0805
TO
CASE
+ VS
C1
.1uF
0805
R1 15M
1/4W
C2
100pF
+12,5 V
7
5
TR1
5K
3296X
FD1
Photodiode
U2
3 +
8
C3
.1uF
0805
C8
.1uF
0805
IN
IN
IN
IN
COM
OUT
U4
+ VD
C16
VOUT 1
GND 2-3-6-7
+12,5 V
MC78L05ACD
SOP8
+ VS
1
C9
C10
-VS 10uF
.1uF
0805
Z1
10K
0805
10uF
C7
.1uF
0805
10uF
C13
.1uF
0805
LM4040
SOT-23
1
2
3
4
5
6
7
8
+VIN
-VIN
AGND
VS
VREF
DSYNC
VD
DGND
DGND
G1
G0
CS
DRDY
CLK
SCLK
DOUT
16
15
14
13
12
11
10
9
G1
G0
DRDY
Y1
OSC-HS
OSC4P
10uF
C15
.1uF
0805
Title
-V
R10
R11
10K
0805
10K
0805
Description
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ADS1250
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U6
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SCLK
DOUT
R9
7
1
C12
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5
R4 5.7K
0805
C6
C11
.1uF
0805
R5
+ VS
+ VS
.1uF
0805
100K
3296X
C5
10uF
JP1
SOP8
.1uF
0805
R8
10K
0805
U3
OPA111
TO99
U5
MC79L05ACD
2
3
6
7
C4
R3
5.7K
0805
TR2
-V
+ VS
VOUT 1
GND 2-3-6-7
MC78L05ACD
SOP8
4
8
1
R7
10K
0805
U1
R2
5.7K
0805
[MA]00107-00
2
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INIT-L
D1
1N4002
1
2
3
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5
M1
U1
LT1083CP
P1
1
2
3
4
5
R3
1K
VI
VO
HALOGEN LAMP
6V/10W
ADJ
OFFPL
R1
120R
TO REACTION CHAMBER
INTERFACE BOARD
INSTALLED ON
PHOTOMETER
R2
+ C1
0R
C
100uF/25V
+
C3
10uF/25V
P1
1K
+ C2
Q1
100uF/25V
B
2N3904
R4
1K
M2
2
0
Rev.
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Rev
J1
WLST1
WLST3
WLST5
+ VM (24V)
1
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9
11
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R6
R1
WLST2
U1
10K
1
330R
WLST4
WLST1
R7
R4
U2
330R
10K
1
3
2
OPB848
WLST2
OPB848
MICS-D 16
C
U6
LM7805/TO220
C1
100uF
U3
330R
+ C2
100uF
WLST3
3
5
R11
10K
VOUT
VIN
GND
R8
R5
+ 5V
330R
WLST4
WLST5
OPA848
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10K
OPB848
R9
U4
[MA]00446-00
Rev
U1
LM7805/TO220
1
+ C1
V OUT
V IN
2 +5V
GND
+24V
+ C2
R14
10K
1
2
3
4
100uF
3
100uF
R9
10K
J8
READY
R7
750R
76384-304
J9
ST-BY
R13
750R
1
2
3
4
R16
10K
J10
AUDIBLE
R15 ALARM OFF
750R
1
2
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4
76384-304
R18
10K
76384-304
J11
SPARE
R17
750R
R21
10K
1
2
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4
J2
SAMPLE
COVER
J3
SPARE
R2
10K
R3
10K
J4
RINSE
BOTTLE
1
2
3
1
2
76384-304
76384-302
R24
10K
J5
D.WATER
BOTTLE
1
2
3
76384-303
76384-303
1
2
3
R5
10K
J6
CLEANING
SOL
BOTTLE
1
2
3
76384-303
76384-303
+VM (24 V)
KSMP
LSTAT
KSTAT
LRDY
WLST5
WLST4
B
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WLST3
WLST2
WLST1
LOCK
LIQ2
MP4
LIQ3
MP3
R6
LS1
LOCK
J13
BUZZER
NTC
50K
J1
R8 10K
2
1
76384-302
+VM (24 V)
MP2
AN1
R10
+VM (24 V)
33K
U2
6
AN1
LMC7101
4
KLRDY
KLSTB
KLSTAT
LSTB
LIQ1
R11
R12
10K
10K
MICS-D 26
J7
WLST1
WLST3
WLST5
1
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7
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11
13
15
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MP2
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R11 10K
R12 10K
R13 10K
D
R14 10K
R15 10K
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OSM0A
OSM0B
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26
1
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25
EV1
VM
EV3
EV5
R16 10K
R17 10K
IL
LK
LOCK
VM
R18 10K
MP4
EV1
VM
EV3
2
R19 10K
MP3
D1
1N4002
VM
MP2
AN1
VM
EV1
VM
EV3
D5
1N4002
EV5
MP3
1
24V100%
EV6
2
D4
1N4002
MP2
24V100%
VM
D3
1N4002
EV5
D2
1N4002
VM
EV4
1
24V100%
1
24V100%
24V100%
MICS-D 26
VM
J2
AM0
BM0
IN8
1
3
5
7
9
VM
2
4
6
8
10
AM0N
BM0N
VM
J3
MP2
1
2
76384-302
VM
J4
VM
J5
MP3
1
2
3
MP4
1
2
76384-302
76384-303
1
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MICS-D 10
D6
1N4002
J6
AM0
AM0N
BM0
BM0N
J8
1
2
3
4
5
LOCK
IL
R10
10K
76384-308
76384-305
VCC
VCC
R5
750R
C2
BAY72
1M
10K
2
1
76384-302
R2
R3
10K
VM
LED
U2
LM7805/TO
1
LK
C3
LMC7101
VOUT
VIN
100uF
VCC
2
+
C4
B
100uF
3
D8
D9
U1
2M2
LEAK
0.1
GND
R4
7
R1
J7
D7
BAY72
VCC
VCC
R6
J9
A
K
E
C
A
R8
J10
330R
4
3
2
1
76384-304
VCC
A
K
E
C
R7
R20
R21
10K
0R
R?
AN1
OSM0A
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3
2
1
76384-304
330R
0
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VCC
R9
R22
R23
10K
0R
R?
IN8
OSM0B
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CHAPTER 05
- DIAGNOSTIC PROGRAM -
INDEX
5 DIAGNOSTIC PROGRAM
10
10
11
11
12
13
13
13
13
14
15
15
15
16
16
17
18
18
18
18
18
18
Service Manual
Rev. 02
January 2004
Page 1
19
19
20
20
21
21
22
22
22
22
22
23
24
24
24
25
26
26
26
26
27
27
28
29
5.11.2 KEYBOARD
29
30
5.11.4 SETTING OF
30
32
33
37
Service Manual
Rev. 02
January 2004
Page 2
DIAGNOSTIC PROGRAM
The diagnostic program enables the operator to perform a complete check of each of the ILab 300 Plus
module functions.
This program has a folder structure, with each folder containing functions pertaining to the specific
module. To launch the program the operator has to click with the left side of the mouse, on the
Diagnostic area located on the lower right side of the screen of the System Monitor (Fig.1).
The ILab 300 Plus must be in the stand-by state to access this area.
Fig. 1
Click Here
Test
Folders
Optical Switch
Sensor Status
(O.S.S.S.)
Status Bar
The diagnostic program is subdivided into three distinct areas: test folders, optical switch sensor status
(O.S.S.S.), status bar. The last two areas are present on every diagnostic window.
Service Manual
Rev. 02
January 2004
Page 3
The three areas enable the operator to verify multiple functions as specified below:
Test Folders:
checks the functionality of the ILab 300 Plus various sub-systems; The
individual functions are illustrated later on.
Optical Switch Sensor Status (O.S.S.S.): visualizes the sensor status pertaining to micro 1 that
controls the reaction plate and the cuvette wash station (Fig. 3), as well as to micro 2 that manages the
arm and the dilutor (Fig. 4)
Fig. 3
Wash Station Optical Switch
Cover Lock Switch
Furthermore, there are three types of unused fields: empty, inactive or those reserved for future use.
While the program is running, the fields given in the figure can be either of two distinct colors, red or
green.
The fields:
turn green when the specific device is in the home position, and turn red when not in the home position.
Service Manual
Rev. 02
January 2004
Page 4
The field
Cover Lock
turns green when the cover is closed, and turns red when open.
The fields:
turn green when there is no leaking, and red when there is.
The following two fields signal the alarms for the bottles containing the liquid waste material:
turning green when the liquid level is not excessive, and red when the waste bottle indicated by the
alarm is almost full.
Fig. 4
Rack Doors Optical Switch
Internal Arms
Optical Switch
ST-BY Indicator
Ready Indicator
Sample3 Doors Optical Switch
Sample3 Doors Optical Switch
External Arms
Optical Switch
STAT
Indicator
Service Manual
Rev. 02
January 2004
Page 5
The fields in the figure can be two different colors: either green or red (for the indicators in Home
Sensor, Leak, Liquid Alarm and front panel button), and either green or dark gray (for the indicators in
Rack/Door except for the field Rgt-Smp Door that can be either green or red).
The fields:
Diluter O.S.
turn green when the relative device is in the Home position, and turn red when the relative device is not
in the Home position.
The following fields signal the presence of the rack in the appropriate home position (reagents,
samples, standard and controls):
turn green when the rack is in the appropriate home position, and turn dark gray when the rack is not
present (not inserted).
The field below signals the general door opening of any of the racks:
Rack Doors O.S.
turns red when the door is open, and green when the door is closed.
The field below signals the ILab 300 Pluss arm leak alarm:
Service Manual
Rev. 02
January 2004
Page 6
The following fields check the liquid level of the distribution/loading bottles:
turning green if the liquid level is above the predetermined minimum limit, and red if the liquid
quantity is below the predetermined minimum level (the bottle is almost empty).
The following fields signal the state of the button on the ILab 300 Pluss operator panel:
ST-BY Indicator
STAT Indicator
READY Indicator
turning green when the button is not pushed in, and red if it is.
5.1
STATUS BAR
Fig. 5
Firmware Rel.
STAT Status Indicator
Date
Instrument Status
ST-BY Status Indicator
Service Manual
Rev. 02
January 2004
Page 7
5.2
TEST FOLDER
Diluter:
Optic:
Plate:
Temperature:
Wash:
User:
Miscellaneous:
Global Setting:
Macro Setting:
Configuration:
Through the use of a password, only qualified technical personal can adjust
certain parameters (This file is not accessible to the Laboratory operator).
ISE:
Checks if the ISE Module is functioning properly and allows the operator to do
maintenance or repair operations.
Service Manual
Rev. 02
January 2004
Page 8
5.3
ARM FOLDER
Warning: the improper use of the functions described in this folder can damage the sampling probe.
VERTICAL
HORIZONTAL
STATUS COMMAND
ARM SETTING
Service Manual
Rev. 02
January 2004
Page 9
5.3.1
(5 commands)
Home:
Down Well:
Up:
Raises the arm tenths of a millimeter as preset in the square found immediately
on the right;
Down:
Go Level:
Brings the probe to either the reagent level, the sample or the standard and reads
the level. Before giving this command, it is necessary to set the parameter for the
probes maximum lowering level in the max area (mm);
5.3.2
(7 commands)
Back to wash well: Brings the arm back to the home position;
Go Reag.:
Brings the arm to the reagent position specified in the sheet menu next to the
command;
Go Sample:
Brings the arm to the sample position specified in the sheet menu next to the
command;
Go Dil.:
Brings the arm to the dilution position specified in the sheet menu next to the
command;
Go ISE:
Go Disp.:
Go Std.:
Brings the arm to the standard/control position specified in the sheet menu next
to the command;
Service Manual
Rev. 02
January 2004
Page 10
5.3.3
Send:
Visualizes the commands sent from the program to the instrument hardware;
Receive:
Visualizes the answers of the instruments hardware to the commands sent by the
program;
Sensor State:
Indicates the sensor status relative to the arms vertical axis, the internal arm and
the external arm.
5.3.4
(8 commands)
+RAB:
Performs the clockwise rotation of the two arms (to adjust the position);
-RAB:
Performs the counter-clockwise rotation of the two arms (to adjust the position);
+RB:
Performs the clockwise rotation of the external arm (to adjust the position);
-RB:
Performs the clockwise rotation of the external arm (to adjust the position);
Save:
Next:
Brings the arm to the next sample, standard, dilution or reagent position
Prev.:
Brings the arm to the previous sample, standard, dilution or reagent position
Reset:
In this area the boxes can be activated when the arm is positioned on a sample, a reagent, a standard or
a control:
Original step:
Offset:
Service Manual
Rev. 02
January 2004
Page 11
OPERATIONS
SENSOR STATE
USER
STATUS COMMAND
Service Manual
Rev. 02
January 2004
Page 12
Asp:
Aspirates the micro-litres as predetermined in the ul. box (may be set manually
through + and or by using the cursor located immediately above);
Disp.:
Distributes the micro-litres as predetermined in the ul. box (may be set manually
through + and or by using the cursor located immediately above);
Receive:
Service Manual
Rev. 02
January 2004
Page 13
5.5
OPTIC FOLDER
OPERATIONS
SENSOR STATUS
FILTERS
DIGITAL CONVERSION
STATUS COMMAND
Service Manual
Rev. 02
January 2004
Page 14
5.5.1
OPERATIONS AREA
(2 commands)
Lamp ON:
Lamp OFF:
5.5.2
5.5.3
FILTERS AREA
(10 commands)
Reset :
340 nm:
380 nm:
405 nm:
492 nm:
510 nm:
546 nm:
577 nm:
620 nm:
Spare:
Service Manual
Rev. 02
January 2004
Page 15
5.5.4
(2 commands)
5.5.5
Send:
Receive:
Service Manual
Rev. 02
January 2004
Page 16
5.6
PLATE FOLDER
OPERATIONS
SENSOR STATUS
USER
MOTOR ON/OFF
REACTION PLATE
STATUS COMMAND
Service Manual
Rev. 02
January 2004
Page 17
5.6.1
OPERATIONS AREA
(3 commands)
Home Back:
Performs the same movement made previously, but in the opposite direction
To Disp.:
Brings the cuvette, indicated on the sheet menu, below the dispense position
To Optic:
5.6.2
USER AREA
(1 command)
Cuvette Holder ON/OFF: Alternately turns ON and OFF the cuvette holder.
5.6.4
(1 command)
Motor ON/OFF:
5.6.5
(1 command)
Reset:
Performs the resetting of the reaction plate bringing the n1 cuvette in the
distribution position (reaction disp.).
5.6.6
Send:
Receive:
Service Manual
Rev. 02
January 2004
Page 18
5.7
TEMPERATURES FOLDER
Plate:
Arm:
Calib. Sensor:
Service Manual
Rev. 02
January 2004
Page 19
The offset value that has been previously inserted and the temperature value
read by the thermometric probe appear in the closed fields.
Cursore:
To enter the offset value 3 C. The offset value will be zero after exiting
from the folder.
START:
To perform the test check and to regulate the temperature of the preheater and of the
reaction plate by using the kit P/N 23550120400, as illustrated in Chapter 6 Setting
and Adjustments.
The number of sample cycles are predefined, whereas the reagent and sample
positions for test execution can be selected by the operator.
Service Probe: the field in which the temperature of the service probe appears.
Service Manual
Rev. 02
January 2004
Page 20
WASH:
EXIT:
To exit from the Temperature Test box and to run a wash cycle on the cuvettes if
they have been used.
5.8
Send:
Receive:
Visualizes the instrument hardwares response to the commands sent by the program.
WASH FOLDER
OPERATIONS
SENSOR STATUS
TEST
STATUS COMMAND
Service Manual
Rev. 02
January 2004
Page 21
5.8.1
OPERATIONS AREA
(2 commands)
Home:
Down:
5.8.2
TEST AREA
(4 commands)
Test E.V. 1:
Test E.V. 3:
Test E.V. 5:
Peristaltic Pump: Starts the peristaltic pump, and automatically turns off after a period of tiis
predetermined by the user.
5.8.4
Send:
Receive:
5.8.5
SENSOR STATE
TEST
STATUS COMMAND
Service Manual
Rev. 02
January 2004
Page 22
5.9
USER FOLDER
STATUS COMMAND
Service Manual
Rev. 02
January 2004
Page 23
Alternatively turns on or off the solenoid valve holder and releases the
main cover lock.
Ready ON/OFF:
Test BUZZER:
5.9.3
Send:
Receive:
Service Manual
Rev. 02
January 2004
Page 24
5.10
MISCELLANEOUS FOLDER
General Reset
Sensor Checking
Sensor Status
Status Command
Service Manual
Rev. 02
January 2004
Page 25
5.10.2
(2 commands)
Plate + 1 Step: To turn the reaction plate in a counter-clockwise direction to check the home
sensor.
Plate - 1 Step: To turn the reaction plate in a clockwise direction to check the home sensor.
5.10.3
(1 command)
Enable:
To save a copy of the files for the technical diagnosis if the instrument
malfunctions. The files are memorized in the folder Log inside the folder
Analyzer.
Performs an automatic test during which the modules (Sampling Arm, Reaction
plate, Washing Station and Photometer) are moved to all the different positions.
The correct modules positioning is also automatically verified and showed on the following table:
Service Manual
Rev. 02
January 2004
Page 26
Receive:
Service Manual
Rev. 02
January 2004
Page 27
5.11
Warning: the improper use of the functions described in this folder can damage the sampling probe.
TABLE POSITION
KEYBOARD
DOWN ARM
SETTING OF
Service Manual
Rev. 02
January 2004
Page 28
Lists all the possible instrument positions (samples, reagents, standard, controls,
diluents, ISE, dispense);
Rot A&B:
Gives the base steps for the complete arm (internal and external) in every
position;
Rot B:
Gives the base steps only for the external arm in every position;
Offset A&B:
Gives the corrective steps necessary for the arms adjustment (internal and
external);
Offset B:
Gives the corrective steps necessary for the external arms adjustment.
Prev:
Next:
Go:
Brings the arm to the first position according to the category selected in the area
Setting of (Sample, reagent, Std/Ctrl, Dil, Ise, Disp).
5.11.2 KEYBOARD
The various positions can be improved through the keyboard, saving the operations performed.
The areas visible in Fig.6 may be activated by the mouse or with the help of the numerical buttons on
the keyboard. The buttons are listed with their corresponding function:
CW Rotation
CCW Rotation
Previous
Position
Saves the
settings
Next
Position
Open External
Arm
Close External
Arm
Raise Probe
Lower Probe
Fig.6
ILab 300 Plus
Service Manual
Rev. 02
January 2004
Page 29
Setting Procedure
Click with the left side of the mouse on the Go area (as soon as the area is clicked on it changes
to End);
The ILab 300 Plus resets the arm, and the values of the Offset column appear on the table (Fig.7);
Fig.7
Service Manual
Rev. 02
January 2004
Page 30
The arm centering can be adjusted at the highlighted area by giving commands through the
keyboard or mouse:
8 = CW Rotation
2 = CCW Rotation
4 = Open External Arm
6 = Close External Arm
+ = Next Position
- = Previous Position
NOTE: If the option Manual (default) is chosen in the Down Arm area, to make the arm go up and
down it is possible to use either the buttons pgUp and pgDn or click with the mouse on the
button with the arm figure in the Down Arm Area.
WARNING:
Service Manual
Rev. 02
January 2004
Page 31
5.12
This folder allows the user to read the macro present in the ILab 300 Plus.
To read the macro follow the below procedure:
Select the micro from which the information will be asked;
Select from the menu sheet Read Macro the number of relevant macro;
Click with the left side of the mouse on the Read area;
If the Macro requested exists, the information will appear in the designated area.
Service Manual
Rev. 02
January 2004
Page 32
Gap
Backlash Dil.
Heater
Diluter Type
Service Manual
Rev. 02
January 2004
Page 33
Gap: defines the volume, in L, of the air bubbles that separate the liquids in the sample column;
Tipical values are between 10 to 15. Big air bubbles produce the best separation among sample,
reagent and rinse (Better BIB values). Small air bubbles produce the best sampling precision (Better
BIC values). It is necessary to achieve a compromise in order to obtain the best results doing BIB
and BIC testing as indicated in the following procedure:
3 L
300 L
Filter:
340 nm
Incubation time:
116 sec
Calculation factor:
1000
BIB Procedure
1. Select conical cup in Options
2. Program the BIB method using the above parameters and configure a reagent rack containing it
3. Enter in the calibration screen and select RBL for BIB method.
4. Put RINSE SOLUTION as reagent and sample (fourteenth position) and Start the Calibration
5. Program 64 BIB ; fill 32 conical samples cup with K2Cr2O7 0,04 gr/l
6. Load the racks on sample positions 1 and 2 of the Analyzer.
7. Substitute the RINSE SOLUTION with K2Cr2O7 0,04 gr/l on the reagent rack
8. Start the Analyzer. At the end of the last sampling, move the sample racks into positions 3and 4.
Service Manual
Rev. 02
January 2004
Page 34
The mean value for each of the 32 sample series must be within 360 400.
The coefficient of variation percentage (CV %) must be lower than 0.7 % for each series of 32
samples. If there is only one anomalous result that compromises the CV, rerun it and if the result is
acceptable, no further operations are required.
3 L
300 L
Filter:
340 nm
Incubation time:
116 sec
Calculation factor:
1000
BIC Procedure
1. Program the BIC method using the above parameters and configure a reagent rack
2. Enter in the calibration screen and select RBL for BIC method.
3. Put RINSE SOLUTION as reagent and sample (fourteenth position) and Start the Calibration
4. Program 64 BIC ; fill 32 conical samples cup with K2 Cr2 O7 4 gr/l
5. Load the racks on sample positions 1 and 2 of the Analyzer.
6. Start the Analyzer. At the end of the last sampling, move the sample racks into positions 3 and 4.
The mean value for each of the 32 sample series must be between 350 450.
The coefficient of variation percentage (CV %) must be lower than 1.6 % for each series of 32 samples
If there is only one anomalous result that compromises the CV, rerun it and if the result is acceptable,
no further operations are required.
Service Manual
Rev. 02
January 2004
Page 35
Backlash Dil.: Due to the mechanical inversion of the motors rotation it is necessary to
mechanically recuperate the Diluter in L; the value to be inserted can be
calculated using the following procedure:
1.
Enter in the Diagnostic program and make the Sampling Arm Reset into the Arm folder.
2.
3.
Push PROBE WASH TEST button three times in order to fill the hydraulic sampling line
completely
4.
Remove the samples protective cover and the sample racks from their housing
5.
Enter in the ARM folder and push the GO button in order to move the probe in the sampling
position number 1
6.
Put a sample cup containing distilled water under the probe (about 1ml)
7.
8.
Remove the sample cup containing distilled water and put a plastic sheet under the probe
9.
10. Select 1 L of distilled water and aspirate a certain number of times until seeing an aspirationlike effect in the drop on the probe
11. The number of aspirations performed until one sees the aspiration effect represents the BACK
LASH value to be inserted into the specific field in the Configuration folder
12. Push the Save button to memorize the inserted data
13. Push the Reset button into the ARM folder
14. Close the Diagnostic program by clicking on the Diagnostic button
Heater:
to adjust the setting of the sample arms preheater and reaction plate;
Diluter Type:
to select the kind of diluter to be used. Each kind of diluter has an individual ratio
step per L.
Cover Lock SW.: to disable the check for the closure of the ILab 300 Plus cover;
Service Manual
Rev. 02
January 2004
Page 36
Wash. Well level Test: By clicking on the Run Test button the system performs an automatic
verification and adjustment cycle for the liquid level in the washing well.
A number appears in the box Level that corresponds to the rotation time
of the rinse pump in milliseconds, that is necessary to maintain the correct
liquid level in the washing well.
The functioning range is between 400 and 700 milliseconds. If the
washing well is not sufficiently filled, a message appears to warn the user
to check the hydraulic line.
If the value taken during the test is different from the previous one, it is
necessary to click on Save in order to save the new data.
5.14
ISE Folder
Service Manual
Rev. 02
January 2004
Page 37
CHAPTER 06
- SETTINGS AND ADJUSTMENTS -
INDEX
6.1
SAMPLING ARM.......................................................................................................... 4
6.1.1
6.1.2
6.1.3
6.1.3.1
6.1.3.2
6.1.4.1
6.1.4.2
6.1.4.3
6.1.5
6.1.5.1
6.1.5.2
6.1.6
6.1.6.1
6.1.6.2
Service Manual
Rev. 04
January 2004
Page 1
6.1.6.3
6.1.6.4
6.16.5
BACKLASH ADJUSTMENT 29
6.2
OPTIC ASSEMBLY..................................................................................................... 31
6.2.1
6.2.2
6.2.3
6.2.4
6.2.5
6.2.6
6.3
6.3.1
6.3.2
6.3.2.1
6.3.3
6.3.4
6.3.4.1
6.4
REACTION PLATE..................................................................................................... 44
6.4.1
6.4.2
6.4.3
6.4.4
6.5
6.5.1
Service Manual
Rev. 04
January 2004
Page 2
6.5.2
6.5.3
6.5.4
6.5.4.1
6.5.4.2
6.5.4.3
6.5.5
6.5.5.1
6.5.5.2
6.5.5.3
6.6
6.6.1
6.6.2
6.6.3
6.7
6.7.1
6.7.2
Service Manual
Rev. 04
January 2004
Page 3
6.1
SAMPLING ARM
6.1.1
1.
2.
Launch the Diagnostic program, select "Global Setting". Wait until the instrument has
completed the reset procedure.
3.
Make sure that all the "home sensors" of the Sampling Arm (Vert., Int. Arm and Ext. Arm)
light up green.
4.
Make sure that the probe is centered with respect to the wash well. If not, loosen the fastening
screws on the external arm and mechanically align the arm on the wash well, paying attention
to center the probe with respect to the wash well. If absolutely necessary, also the internal arm
can be adjusted - loosen only one of its fastening screws.
Fig.1
Pre-heater Guide Support
Internal Arm
Belt 6M 203 Arm Horizontal
Movement Pn. 23135000500
External Arm
Protective Cover
Cross-bar
Wash well
Reagents - Protective
Cover
Service Manual
Rev. 04
January 2004
Page 4
5.
Tighten the External Arm fastening screws and, if necessary, those of the Internal Arm,
centering the probe with respect to the wash well.
6.
Perform a complete Arm reset in order to ascertain correct centering of the probe on the wash
well. If the centering is not exact, repeat steps 4 and 5.
7.
After having mechanically centered the sampling probe on the wash well, adjust all the other
positions by using the computer's numeric keyboard as follows:
N.B.: make sure that the distance between the top edge of the wash well and the tip of the
probe is "2.0 +/- 0.5 mm"
4"
6"
2"
8.
Select "Sample" from "Setting of" and then press the "Go" key. The arm will automatically
move itself to position #1 of the Samples rack. Adjust the positioning by using the keys
indicated for centering the probe with respect to the hole in the Samples Cover.
9.
Move on to the next position by pressing the "Next/+" key and center the probe, as above.
10.
Make sure that when adjusting position #16, mechanical end-of-run of the arm does not occur.
If this should happen, repeat the mechanical alignment of the sampling probe with respect to
the wash well and repeat the procedure from step 4.
11.
Service Manual
Rev. 04
January 2004
Page 5
12.
Select "Reagent" from "Setting of" and then press the "Go" key. The arm will automatically
move itself to position #1 of the Reagents rack.
Adjust the positioning by using the keys indicated for centering the probe with respect to the
hole in the Reagents Cover.
13.
Move on to the next position by pressing the "Next/+" key and center the probe, as above.
14.
Make sure that when adjusting position #33, mechanical end-of-run of the arm does not occur.
If this should happen, repeat the mechanical alignment of the sampling probe with respect to
the wash well and repeat the procedure from step 4.
15.
16.
Set the positioning of Std/Ctrl and Dil, Ise, Disp. Press "Save" to memorize the new position
settings.
17.
18.
6.1.2
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
1.
2.
3.
4.
Unscrew the four cross bar fastening screws. Remove the cross bar by slipping out the Preheater guide support (Fig.1).
5.
6.
Remove the teflon tube from the diluter head by unscrewing the fastening washer, paying
special attention to leakage of liquid.
7.
Unscrew the four anchored screws indicated in Fig. 5, unplug the J1, J2, J6, J8, J13, J15 and
J17 connectors from the Sampling Interface assy. Disconnect the ground wire and following
the procedure provided in section 6.1.5.1 remove the Level Sensor and Pre-Heater assembly.
Service Manual
Rev. 04
January 2004
Page 6
8.
Take out the sampling arm and substitute it with the new one.
9.
Warning: After having substituted the sampling arm, it is necessary to mechanically align
the probe with respect to the wash well and center all the other positions by following the
procedures provided in Section 6.1.1 "Alignment and Adjustments".
6.1.3
2.
3.
4.
Unscrew the four cross bar fastening screws. Remove the cross bar by slipping out the Preheater guide support (Fig.1).
5.
Loosen the protective cover's set screw (Fig.2) and lift it.
6.
Remove the fastening screws from the optic sensor support, unplug the J11 connector from
the Sampling Interface assy and take out the entire assembly (Fig.3).
7.
Remove the fastening screws from the optic sensor itself and substitute it with the new one.
8.
N.B.: when remounting the optic sensor, make sure to center it with respect to the slots, as
shown in Fig. 4.
N.B.: due to the fact that it may be necessary to further adjust the positioning of the optic
sensor, screw down the cross bar and the protective cover only after having made sure that
the sampling arm functions correctly by carrying out the procedure described in Section
6.1.1
Service Manual
Rev. 04
January 2004
Page 7
Warning: Do not tighten the protective cover's set screw as this could result in mechanical
malfunction of the sampling arm's vertical movement (Fig. 2).
Warning: After having substituted the optic sensor, it is necessary to mechanically align the
probe with respect to the wash well and center all the other positions by following the
procedures provided in Section 6.1.1 "Alignment and Adjustments".
N.B.: the following check is valid only for the OS7 optic sensor
Fig. 2
Fig. 3
OS7 Opto coupler assy
PN. 23910002300
Service Manual
Rev. 04
January 2004
Page 8
Slots
Fig. 4
In order to arrive at the OS6 and OS5 Opto sensors, it is necessary to remove the arm assembly
from its housing. Unplug connectors J9 and J10 from the Sampling Interface assy; disconnect the
wash well hydraulic tube and the teflon tube on the diluter. Loosen the four anchored screws. When
removing the sampling arm, be extremely careful to not damage the pre-heater.
The following steps, from 1 to 6, are to be carried out regardless of which opto sensor is being
substituted (OS6 or OS5).
1.
2.
3.
4.
Unscrew the four cross bar fastening screws. Remove the cross bar by slipping out the Preheater guide support (Fig.1).
5.
Remove the waste tube from the wash well and the teflon tube on the diluter.
6.
Unscrew the four anchored screws indicated in (Fig.5), unplug the J1, J2, J15 and J17
connectors from the Sampling Interface assy (Fig.5). Disconnect the ground wire and remove
the sampling arm.
Service Manual
Rev. 04
January 2004
Page 9
Remove the screws which fasten the opto sensor support and take out the entire assembly
(Fig.6).
b)
Unplug the J10 connector from the Sampling Interface assy, remove the opto sensor fastening
screws and substitute it with the new one.
c)
To remount, repeat the above steps in inverse order: from b) to a) and then from 6 to1 in
Section 6.1.3.2
Warning: Do not tighten the protective cover's set screw as this could result in mechanical
malfunction of the sampling arm's vertical movement (Fig.2).
N.B.: when remounting the opto sensor, make sure to center it with respect to the slots, as
shown in Fig. 4.
Warning: After having substituted the opto sensor, it is necessary to mechanically align the
probe with respect to the wash well and center all the other positions by following the
procedures provided in Section 6.1.1 "Alignment and Adjustments".
Fig. 5
Fig. 6
Anchored screws
Service Manual
Rev. 04
January 2004
Page 10
Carry out Steps 1 through 6 as indicated in Section 6.1.3 "Substitution of the OS6 and OS5
Opto sensors.
b)
Remove the screws which fasten the opto sensor support and take out the entire assembly
(Fig.7).
c)
Unplug the J9 connector from the Sampling Interface assy, remove the optic sensor fastening
screws and substitute it with the new one.
d)
Pay particular attention to the spacer washers placed between the opto sensor and the support
(Fig.8)
e)
To remount, repeat the above steps in reverse order: from c) to a) and then from 6 to1 in
Section 6.1.3.2
Fig. 7
Fig. 8
OS5 Opto coupler assy
PN. 23910002400
Service Manual
Spacer washers
Rev. 04
January 2004
Page 11
Warning: Do not tighten the protective cover's set screw as this could result in mechanical
malfunction of the sampling arm's vertical movement (Fig. 2).
N.B.: make sure that the distance between the top edge of the wash well and the tip of the
probe is "2.0 +/- 0.5 mm"
Warning: After having substituted the opto sensor, it is necessary to mechanically align the
probe with respect to the wash well and center all the other positions by following the
procedures provided in Section 6.1.1 "Alignment and Adjustments".
6.1.4
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
procedure.
Important: pay special attention to the Pre-heater when removing or servicing the sampling
arm.
In order to arrive at the M7, M6 and M5 motors, it is necessary to remove the sampling arm
assembly from its housing; unplug the J1, J2, J3, J4, J5, J15 and J17 connectors from the Sampling
Interface assy; disconnect the hydraulic tube from the wash well and the teflon tube on the diluter;
remove the four anchored fastening screws from the assembly.
Service Manual
Rev. 04
January 2004
Page 12
1.
2.
3.
4.
Unscrew the four cross bar fastening screws. Remove the cross bar by slipping out the Preheater guide support (Fig.1).
5.
6.
Remove the teflon tube on the diluter head by unscrewing the fastening washer - pay
particular attention to leakage of liquid.
7.
Unscrew the four anchored screws indicated in Fig. 3; unplug the J1, J2, J4, J15 and J17
connectors from the Sampling Interface assy; unplug the ground wire; remove the sampling
arm.
8.
Loosen the fastening screw and lift the sampling arm's protective cover (Fig.4), in order to
arrive at the M7 motor.
9.
10.
11.
Take out the M7 motor and substitute it with the new one.(Fig.7).
12.
Lift the pulley to approximately 0.5mm from its upper limit and tighten its screws(Fig.8).
13.
Push the M7 motor outward, as shown in (Fig.9), and holding it in this position, so as to
maintain the belt in tension, tighten the motor fastening screws.
14.
Warning: Do not tighten the protective cover's set screw as this could result in mechanical
malfunction of the sampling arm's vertical movement (Fig. 2).
Service Manual
Rev. 04
January 2004
Page 13
Warning: After having substituted the motor, it is necessary to mechanically align the probe
with respect to the wash well and center all the other positions by following the procedures
provided in Section 6.1.1 "Alignment and Adjustments".
Protective cover
Cross-bar
Fig.1
Teflon tube
Fig. 2
Dilutor Module
Anchored screws
Fig. 3 Arm assembly without base and Sampling Interface Board PN. 23915002000
ILab 300 Plus
Service Manual
Rev. 04
January 2004
Page 14
Pulley screws
Fig. 6
Service Manual
Rev. 04
January 2004
Page 15
Fig. 7
Fig. 8
Fig. 9
ILab 300 Plus
Service Manual
Rev. 04
January 2004
Page 16
Important: pay special attention to the Pre-heater when removing or servicing the sampling
arm.
1.
2.
3.
4.
Unscrew the four cross bar fastening screws. Remove the cross bar by slipping out the Preheater guide support (Fig.1).
5.
6.
Remove the teflon tube on the diluter head by unscrewing the fastening washer (Fig.2),
paying special attention to leakage of liquid.
7.
Unscrew the four anchored screws indicated in (Fig.3); unplug the J1, J2, J5, J15 and J17
connectors from the Sampling Interface assy; unplug the ground wire; remove the sampling
arm.
8.
Take the Sampling Interface assy out by unplugging the connectors and unscrewing the
fastening screws (Fig.10).
Fig.10
ILab 300 Plus
Service Manual
Rev. 04
January 2004
Page 17
N.B.: In order to be able to remove the M6 motor from its support, it is necessary to first
partially disassemble the module as shown in Fig.12.
9.
Unscrew the three fastening screws (Fig.11) and remove the base as shown in (Fig.12).
10.
Remove the motor fastening screws and loosen its pulley screws (Fig.13).
11.
Take out the M6 motor and substitute it with the new one
12.
Lift the pulley to approximately 0.5mm from its upper limit and tighten its screws(Fig.13)
13.
Push the motor outward, as shown in (Fig.9), and holding it in this position so as to maintain
the belt in tension, tighten the motor fastening screws.
14.
15.
Warning: Do not tighten the protective cover's set screw as this could result in mechanical
malfunction of the sampling arm's vertical movement (Fig.4).
Warning: After having substituted the motor, it is necessary to mechanically align the probe
with respect to the wash well and center all the other positions by following the procedures
provided in Section 6.1.1 "Alignment and Adjustments".
Fig. 11
Fig. 12
M5 Motor Assy (Vertical)
PN. 23100039900
Service Manual
Rev. 04
January 2004
Page 18
Important: pay special attention to the Pre-heater when removing or servicing the sampling
arm.
1.
2.
3.
4.
Unscrew the four cross bar fastening screws. Remove the cross bar by slipping out the Preheater guide support (Fig.1).
5.
6.
Remove the teflon tube on the diluter head by unscrewing the fastening washer (Fig.2),
paying special attention to leakage of liquid.
7.
Unscrew the four anchored screws indicated in (Fig.3); unplug the J1, J2, J3, J15 and J17
connectors from the Sampling Interface assy; unplug the ground wire; remove the sampling
arm.
8.
Take the Sampling Interface assy out by unplugging the connectors and unscrewing the
fastening screws (Fig.10).
Service Manual
Rev. 04
January 2004
Page 19
N.B.: In order to be able to remove the M5 motor from its support, it is necessary to first
partially disassemble the module as shown in Fig.12.
9.
Unscrew the three fastening screws (Fig.11) and remove the base as shown in (Fig.12).
10.
Remove the motor fastening screws and loosen its pulley screws (Fig.14).
11.
Take out the M5 motor and substitute it with the new one
12.
Lift the pulley to approximately 0.5mm from its upper limit and tighten its screws (Fig.14).
13.
Push the motor outward, as shown in (Fig.9), and holding it in this position so as to maintain
the belt in tension, tighten the motor fastening screws.
14.
15.
Warning: Do not tighten the protective cover's set screw as this could result in mechanical
malfunction of the sampling arm's vertical movement (Fig. 4).
Warning: After having substituted the motor, it is necessary to mechanically align the probe
with respect to the wash well and center all the other positions by following the procedures
provided in Section 6.1.1 "Alignment and Adjustments".
Pulley screws
Fig. 14
M5 Motors belt PN. 23935003100
Service Manual
Rev. 04
January 2004
Page 20
6.1.5
1.
2.
3.
4.
Unscrew the four cross bar fastening screws. Remove the cross bar by slipping out the rear
Pre-heater guide support (Fig.2).
5.
6.
Remove the teflon tube on the diluter head by unscrewing the fastening washer (Fig.3) pay
particular attention to leakage of liquid.
7.
8.
Lift the teflon washer and expose the half-ring; remove the half-ring (Fig.4) and (Fig.5).
9.
10.
Remove the Pre-heater assembly (Fig.7) and (Fig.8), making sure that the blocking pin
remains in place.
11.
Remount the new assembly, repeating the above steps in inverse order: from step 10 to step 1.
Note 1: the length of the Pre-heater supply cable from the top of the external arm to the
intermediate guide must be approximately 23 cm (Fig.2).
Note 2: when remounting the teflon tube in the diluter, make sure that it is inserted correctly.
12.
13.
Launch the diagnostic program. Select the "Diluter" function and press the "Probe Rinse
Cycle" several times in order to fill the hydraulic circuit with liquid.
Service Manual
Rev. 04
January 2004
Page 21
14.
Make sure that no liquid leaks from the probe assembly and/or the dilutor. Make sure that
the liquid flows from the probe freely.
15.
Select the "Arm" key and then "Go Sample". Set Samples position #16. Make sure that the
Pre-heater cable does not hinder the arm while it is in movement. If this situation should
occur, turn the Pre-heater cable counter-clockwise in order to optimize the assembly.
16.
17.
18.
23 cm
Intermediate cable guide guide
Cross-bar
Fig. 2
Service Manual
Rev. 04
January 2004
Page 22
Teflon tube
Fastening screw
Fig.3
Fig. 4
Fig. 5
Service Manual
Rev. 04
January 2004
Page 23
Fig. 6
Fig. 7
Service Manual
Rev. 04
January 2004
Page 24
2.
3.
Touch the sampling probe with your finger and make sure that the level sensor LED on the
Sampling Interface assy turns on approximately one second, when the probe is touched
(Fig. 9).
Fig. 8
Level Sensor and Pre-Heater assembly
PN 23910006300
Service Manual
Rev. 04
January 2004
Page 25
N.B.:during automatic functioning (routine analysis), every time the sampling probe dips
into any liquid whatsoever, the "Level sensor" LED on the Sampling Interface assy will turn
on for approximately one second. We advise that you never allow the level sensor to operate
when the solution quantity is less than 290 l.
4.
In order to more specifically verify the correct level-sensing functioning, proceed as follows:
a)
Place a cup containing liquid in the first samples rack, position nr 1 (Volume 290 l).
b)
Launch the diagnostic program. Select the "Arm" function and press the "Go Sample" key in
order to allow the probe to move into the position corresponding to the sample cup.
c)
In the window next to the "Go Level", enter the maximum descent of the probe (e.g.500).
d)
Select "Go Level" and make sure that the probe drops down into the cup until it senses the
liquid. In the window to the right of the "Go Level" key the level reached by the probe will
appear, expressed in tenths of millimeters
e)
Repeat step d) several times, each time returning to the Vertical "Home" position. Make sure
that the level indicated remains constant = 10 (1 mm).
f)
Repeat steps b) to e) for positions 8 and 16 of the first rack using the same sample cup. Make
sure that the difference between all the positions is = 1mm.
g)
Repeat steps b) to f) for samples racks three and five (Stat positions 1, 8, 14).
h)
Press the "Back to Wash Well" key and then select "Go Sample" in order to allow the probe to
return to a position in the rack, which does not contain any cup.
i)
Select "Go Level" and make sure that the level reached is the maximum indicated in the given
window is 9999.
j)
Select the "Reset" key, remove the cups from the racks and exit the program by pressing the
"Diagnostic" key.
k)
Service Manual
Rev. 04
January 2004
Page 26
6.1.6
DILUTER MODULE
2.
3.
Remove the teflon tube on the diluter head by unscrewing the fastening washer
(Fig.2), paying special attention to leakage of liquid.
4.
Unscrew the four anchored screws indicated in (Fig.2); unplug the J6, J8, and J13 connectors
from the Sampling Interface assy (Fig.3). Remove the diluter and substitute it with the new
one.
5.
6.
After mounting the new module, carry out the check procedure for mechanical functioning as
described in Section 6.1.6.4
1.
2.
3.
Remove the teflon tube on the diluter head by unscrewing the fastening washer (Fig.2)
paying particular attention to leakage of liquid.
4.
Unscrew the four anchored screws indicated in (Fig.2); unplug the J6, J8, and J13 connectors
from the Sampling Interface assy (Fig.3).
5.
6.
Unscrew the two fastening screws on the micro-pump, take out the pump and substitute it
with the new one (Fig.2)
7.
8.
After mounting the new micro-pump, carry out the check procedure for mechanical
functioning as described in Section 6.1.6.4.
Service Manual
Rev. 04
January 2004
Page 27
6.1.6.3
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
procedure.
1.
2.
3.
Remove the teflon tube on the diluter head by unscrewing the fastening washer (Fig.2)
paying particular attention to leakage of liquid.
4.
Unscrew the four anchored screws indicated in (Fig.2); unplug the J6, J8, and J13 connectors
from the Sampling Interface assy (Fig.3).
5.
6.
Unscrew the two fastening screws on the electro-valve, take it out and substitute it with the
new one (Fig.2)
7.
8.
After mounting the new electro valve, carry out the check procedure for mechanical
functioning as described in Section 6.1.6.4.
2.
Remove the protective cover of the samples and of the reagents (Fig.1).
3.
Launch the Diagnostic program, select the "Diluter" function" and click on "Home" field.
Make sure that the "Home Sensor" Dil. shows green.
4.
Select aspiration and then dispense volumes between 3 to 500 microliters clicking on the
appropriate windows.
5.
Make sure that the diluter both aspirates and dispenses as requested and that there is no
leakage of liquid from the hydraulic connections.
6.
7.
6.1.6.5 BACKLASH
Service Manual
Rev. 04
January 2004
Page 28
BACKLASH ADJUSTMENT
adjusting
Backlash,
able
to compensate
backlash
ByBy
adjusting
thethe
Backlash,
wewe
areare
able
to compensate
thethe
backlash
of of
thethe
diluter.
diluter.
1.
2.
3.
4.
5.
6.
7.
8.
Service Manual
Rev. 04
January 2004
Page 29
Fig.1
Diluter Module
Anchored screw
Fig. 3
Service Manual
Rev. 04
January 2004
Page 30
6.2
OPTIC ASSEMBLY
6.2.1
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
1.
2.
Unscrew the four cross-bar fastening screws and remove the cross-bar (Fig.1).
3.
4.
Remove the J1, J2 connectors and the ground wire from the Reaction Chamber Motor
Interface board (Fig.2).
5.
Remove the J1, J2, J14 connectors and the ground wire from the Reaction Plate Interface
board (Fig.2).
6.
Open the peristaltic pump assembly panel cover. Unscrew the two fastening screws to make
free the support that join the seven tubes coming from the washing station probes.
7.
Disconnect the six tubes coming from the washing station probes and the air tube inserted on
the micro pump P4 coming from the porous pad on fifth probe of the washing station.
8.
9.
Remove the lamp's power supply wires connected to the Lamp Regulator board by loosening
the two screws on the M1 connector (Fig. 4).
10.
Remove the J1 connectors from the Preamp/ADC (Fig.5) and the ground wire from the optic
group.
11.
Unscrew the four fastening screws, remove the optic assembly and substitute it with the new
one (Fig. 3).
12.
Remount the assembly, repeating the above steps, 11 through 1, in reverse order.
13.
After remounting, reseat the lamp and carry out the electronic adjustment check procedures as
described in Sections 6.2.2 and 6.2.3
Service Manual
Rev. 04
January 2004
Page 31
Cross-bar
Fig. 1
Anchored screw
Fig. 2
Service Manual
Rev. 04
January 2004
Page 32
6.2.2
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
1.
2.
Remove the lamp's electrical wires connected to the Lamp Regulator board by loosening the
two screws on the M1 connector (Fig.4).
3.
Unscrew the lamp's fastening screws and remove it from its housing.
4.
Remount the new lamp, repeating the above steps, 3 through 1, in reverse order.
5.
Carry out the electronic adjustment of the photometer as described in Section 6D.2.1.
M1 Connector
Trimmer P1
Fig. 4
Lamp PWS board PN. 23930000400
Service Manual
Rev. 04
January 2004
Page 33
6.2.3
1.
Turn on the "ILab 300 Plus" system /first the instrument and then the computer). Remove the
reaction plate cover (Fig.1).
2.
Launch the diagnostic program, select the "Plate" function and reset by clicking on the
appropriate key.
3.
Make sure that the "Home Sensor" Reaction Plate window lights up green.
4.
5.
Select the "Optic" function and turn the lamp "On" by clicking on the appropriate field.
6.
7.
Make sure that "Home Sensor" Filter Wheel window lights up green.
8.
Make sure that the Regulator board for Connector M1 shows 6.0 volts 0.1. If not, turn the
P1 trimmer (Fig.4).
N.B.: The reaction cuvette must be perfectly clean. If not, carry out a "Cuvette Wash" cycle
(Start Work)
Warning: Room lighting and daylight can influence the reading. To avoid this interference,
replace the reaction plate cover panel before carrying out any check procedures.
9.
Click on "Start Sample Channel Conversion" key and make sure that the adjacent window
shows a count value from 50 to 100. If not, adjust the Preamp/ADC board "Offset" trimmer
inside the analysis plate in order to set the desired value (Fig. 5).
10.
After regulating of the main channel offset, it is necessary to click on " Stop Sample Channel
Conversion" key.
11.
Click on "Start Reference Channel Conversion" and make sure that the adjacent window
shows a count value from 50 to 100. If not, adjust the Preamp/ADC board "Offset" trimmer of
the reference channel located external to the analysis plate in order to set the desired value
(Fig. 5).
12.
After regulating of the reference channel offset, it is necessary to click on " Stop Reference
Channel Conversion" key.
Service Manual
Rev. 04
January 2004
Page 34
13.
Select the filter positions from 1 to 8 (from 340 nm to 620 nm) and click on Start/Stop
Sample Channel Conversion" key and determine which filter transmit the highest signal.
14.
Verify in the adjacent window a count value of 55.000 1000. If not, adjust the Preamp/ADC
board "Gain" trimmer inside the analysis plate in order to set the desired value (Fig. 5).
15.
After regulating the Gain, select all the other filters and clicking on "Start/Stop Sample
Channel Conversion" verify count values between 29000 and 56000
Warning: Room lighting and daylight can influence the reading. To avoid this interference,
replace the reaction plate cover panel before carrying out any check procedures.
16.
Select the highest signal filter, identified in point 13. Click on "Start Reference Channel
Conversion" and make sure that the adjacent window shows a count value of 40.000 1000.
If not, adjust the Preamp/ADC board "Gain" trimmer external to the analysis plate in order to
set the desired value (Fig. 5).
17.
After regulating the Gain, select all the other filters and clicking on "Start/Stop Reference
Channel Conversion" verify count values between 29000 and 41000.
18.
After concluding these operations, empty cuvette #31 and exit the diagnostic program by
clicking on the "Diagnostic" key.
19.
Motor support
PN. 23910001901
Service Manual
Rev. 04
January 2004
Page 35
6.2.4
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
1.
2.
Unscrew the four cross-bar fastening screws and remove the cross-bar (Fig.1).
3.
4.
Remove the J1, J2 connectors and the ground wire from the Reaction Chamber Motor Interface
board (Fig.2).
5.
Remove the J1, J2, J14 connectors and the ground wire from the Reaction Plate Interface board
(Fig.2).
6. Open the peristaltic pump assembly panel cover. Unscrew the two fastening screws to make free
the support that join the six tubes coming from the washing station probes.
7. Disconnect the seven tubes coming from the washing station probes and the air tube inserted on
the micro pump P4 coming from the porous pad on fifth probe of the washing station.
8. Remove the reaction plate from the instrument.
9.
Remove the lamp's power supply wires connected to the Lamp Regulator board by loosening
the two screws on the M1 connector (Fig. 4).
10. Unscrew the lamp's fastening screws and remove it from its housing.
11. Unscrew the four fastening screws on the motor support in order to access the filter wheel.
12. Position the filter wheel in such a manner as to make it possible to see and unscrew the internal
opto sensor support screw. Unscrew the external opto sensor support screw.
13. Unscrew the optic sensor fastening screws from its support and substitute with the new one.
14. Remount the assembly, repeating the above steps, 12 through 1, in reverse order.
15. After remounting, reseat the lamp and carry out the electronic adjustment procedures as
described in Sections 6.2.3
Service Manual
Rev. 04
January 2004
Page 36
6.2.5
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
1.
2.
Unscrew the four cross-bar fastening screws and remove the cross-bar (Fig.1).
3.
4.
Remove the J1, J2 connectors and the ground wire from the Reaction Chamber Motor
Interface board (Fig.2).
5.
Remove the J1, J14 connectors and the ground wire from the Reaction Plate Interface board
(Fig.2).
6.
Open the peristaltic pump assembly panel cover. Unscrew the two fastening screws to make
free the support that join the six tubes coming from the washing station probes. Disconnect
the seven tubes coming from the washing station probes and the air tube inserted on the micro
pump P4 coming from the porous pad on fifth probe of the washing station.
7.
8.
Remove the lamp's power supply wires connected to the Lamp Regulator board by loosening
the two screws on the M1 connector (Fig. 4).
9.
Unscrew the lamp's fastening screws and remove it from its housing.
10.
Unscrew the four fastening screws on the motor support in order to access the pulley.
11.
Unscrew the four fastening screws on the motor; loosen the pulley fastening screws (Fig.3).
12.
13.
Remount the assembly, repeating the above steps, 12 through 1, in reverse order.
Warning: when tightening the motor pulley fastening screws, make sure that the filter wheel is
centered with respect to the opto sensor.
14.
After remounting, reseat the lamp and carry out the electronic adjustment procedures as
described in Sections 6.2.2 and 6.2.3
Service Manual
Rev. 04
January 2004
Page 37
1.
2.
Unscrew the four cross-bar fastening screws and remove the cross-bar (Fig.1).
3.
4.
Remove the J1 connector and the ground wire from the Reaction Chamber Motor Interface
board (Fig.2).
5.
Remove the J1, J14 connectors and the ground wire from the Reaction Plate Interface board
(Fig.2).
6.
Open the peristaltic pump assembly panel cover. Unscrew the two fastening screws to make
free the support that join the six tubes coming from the washing station probes. Disconnect
the seven tubes coming from the washing station probes and the air tube inserted on the micro
pump P4 coming from the porous pad on fifth probe of the washing station.
7.
8.
Remove the lamp's power supply wires connected to the Lamp Regulator board by loosening
the two screws on the M1 connector (Fig. 4).
9.
Unscrew the lamp's fastening screws and remove it from its housing.
10.
Unscrew the four fastening screws on the motor support in order to access the filter wheel.
11.
Unscrew the fastening screw that holds the elastic band that holds the filters.
12.
Remove the filter from its housing and substitute it with the new one.
13.
Remount the assembly, repeating the above steps, 11 through 1, in reverse order.
14.
After remounting, reseat the lamp and carry out the electronic adjustment procedures as
described in Sections 6.2.3.
Service Manual
Rev. 04
January 2004
Page 38
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this substitution
procedure.
1. Unscrew the two knobs to remove the door located on the front elevation of the instrument
(Fig. 1) and the two noticeable screws located on the rear panel (Fig. 2) to access the washing
pump assembly.
Fig. 1
2. Disconnect connectors J1, J2 e J8 from the Hydraulics Interface board (rear side Fig.2)
3. Disconnect the air tubes from P4 and the waste tubes coming from the peristaltic pump
(front side, Fig. 1)
4. Disconnect the three tubes inserted on the EV1, EV4 ed EV6 valves, respectively coming from
the washing well, from the distilled water bottle and from the cleaning solution bottle (front
side, Fig. 1)
5. Unscrew the four screws which hold the Pumps Assembly. Remove it from its site (rear side
Fig.2) and replace the Assembly with the new one.
6. Remount, repeating the above steps, 5 through 1, in reverse order.
Service Manual
Rev. 04
January 2004
Page 39
J1-J2
J8
Fig. 2
Micro-Pump (P3) Assy
PN. 23050044700
6.3.2
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
1. Unscrew the two knobs to remove the door located on the front elevation of the instrument
(Fig. 1) and the two noticeable screws located on the rear panel (Fig. 2) to access the
washing pump assembly.
2. Unlock the hinged tube guide by lowering and rotating the guide lock to the left in order to
free the tubes (Fig. 3).
3. Disconnect the connector J6 from the Hydraulics Interface Board (Rear side Fig.2)
4. Unscrew the two motor fastening screws and remove the peristaltic pump assembly from its
site (Front side Fig.3)
5. Unscrew the four screws which hold the motor and loosen the two grains which hold the
peristaltic wheel.
6. Remove the motor and substitute it with the new one.
7. Remount, repeating the above steps, 6 through 1, in reverse order.
ILab 300 Plus
Service Manual
Rev. 04
January 2004
Page 40
Fig. 3
6.3.3
SUBSTITUTION OF PART(S)
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing
this substitution procedure.
1.
Unscrew the two knobs to remove the door located on the front elevation of the
instrument (Fig. 1) and the two noticeable screws located on the rear panel (Fig. 2) to
access the washing pump assembly.
2.
For each part to be replaced, if necessary, disconnect the relative electrical power
connection, the hydraulic tubes and the fastening screws.
3. If necessary, unscrew the four anchored screws of the assembly and turn it ahead (Fig.2).
4. Remount, repeating the above steps, 3 through 1, in reverse order.
Service Manual
Rev. 04
January 2004
Page 41
Any necessary adjustments (in order to optimize pump aspiration in relation to the newly
substituted tube) can be made by turning the relative screw (Fig. 5) using the Peristaltic
Pump Setting Gage as illustrated in figure.
N.B:. If power loss is experienced in the filling or emptying of liquid (after a period of
instrument activity), perform the following operations before substituting or servicing
any part(s):
Insert a small amount of liquid using a syringe from the disconnected ends in order to wet
the membranes (Fig. 4).
Remove the syringe and reconnect the tube(s); perform functioning check as described in
Section 6.3.2.1.
Fig. 4
6.3.4
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing
this procedure.
The peristaltic pump tubes must be substituted every three to six months, depending on
instrument use.
Service Manual
Rev. 04
January 2004
Page 42
Please note: if the instrument is not able to completely empty the washing well, check the
condition of the tube and make sure that the space between the hinged guide and the rotor is
approximately 1.5 mm. Any necessary adjustments (in order to optimize pump aspiration in
relation to the newly substituted tube) can be made by turning the relative screw (Fig. 5) using the
Peristaltic Pump Setting Gage as illustrated in figure 6 (See Service News N 9 dated 21.05.2003)
Service Manual
Rev. 04
January 2004
Page 43
6.4
REACTION PLATE
6.4.1
1. Turn on the ILab 300 Plus system and launch the Analyzer program. Remove the
reaction plate cover (Fig. 1).
2. Launch the diagnostic program, select the "Optic" function and turn on the light by
clicking on the designated key.
3. Reset the filter wheel by clicking on the appropriate key.
4. Select key Spare to bring filter position # 9 to the 'reading' position.
5. Select the "Plate" function. Reset by clicking on the appropriate key. Make sure that the
"Home Sensor" Reaction Plate window lights up green.
6. Make sure that the light beam inside the cuvette in centered with respect to the sides of the
cuvette. If not, adjust the OS3 optic sensor regulating bar (Fig. 2).
7. To exit the diagnostic program press the "Diagnostic" key
8. To exit the analyzer program press shutdown key
Service Manual
Rev. 04
January 2004
Page 44
Fig. 1
Fig.2
Cross-bar
6.4.2
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure
Service Manual
Rev. 04
January 2004
Page 45
N.B.: After substituting the reaction plate, carry out the mechanical adjustment procedure
of the reaction plate as described in Section 6.4.1
Anchored screw
Fig. 3
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
1. Remove the reaction plate cover (Fig. 1).
2. Unscrew the four cross-bas fastening screws and remove the cross-bar (Fig. 1).
3. Unscrew the four anchored screws of the reaction plate module (Fig. 3).
4. Remove the J1 connector and the ground wire from the Reaction Chamber Motor
Interface(Fig. 3).
5. Remove the J1, J4 and J14 connectors and the ground wire from the Reaction Plate
Interface (Fig.3).
6. Open the cover panel of the peristaltic pump assembly and disconnect the seven tubes
attached to the probes on the washing station.
7. Remove the reaction plate from the instrument.
Service Manual
Rev. 04
January 2004
Page 46
8. Remove the fastening screw from the analysis plate using the special tool supplied by the
manufacturer (Fig. 2).
9. Unscrew the two fastening screws from the bottom cover panel of the washing station and
lift it. (Fig. 4).
10. Unscrew the two fastening screws on the cuvette holder assembly and lift it. This will
make it possible to remove the analysis plate (Fig. 5).
11. Unscrew the two fastening screws on the optic sensor and substitute it with the new one.
12. Remount, repeating the above steps, 11 through 1, in reverse order.
Fig. 4
N.B.: After substituting the optic sensor, carry out the mechanical adjustment procedure of
the reaction plate as described in Section 6.4.1
Service Manual
Rev. 04
January 2004
Page 47
Warning: Belt tension must be regulated by turning the M4 screw (shown in Fig. 7) clockwise
by 1.3 Kg/cm.
Service Manual
Rev. 04
January 2004
Page 48
Fig. 8
M3 Stepper Motor assembly (motor with pulley)
PN. 23910001601
N.B.: After substituting the motor, carry out the mechanical adjustment procedure
of the reaction plate as described in Section 6.4.1
Service Manual
Rev. 04
January 2004
Page 49
6.5
6.5.1
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing
this substitution procedure.
1. Remove the reaction plate cover (Fig. 1).
2. Unscrew the four cross-bas fastening screws and remove the cross-bar (Fig. 1).
3. Unscrew the four anchored screws of the reaction plate module (Fig. 2).
4. Remove the J1and J3 connectors and the ground wire from the Reaction Chamber Motor
Interface (Fig. 2).
5. Remove the J1, J3, J5, J6, J14 connectors and the ground wire from the Reaction Plate
Interface (Fig. 2).
6. Remove the top cover of the washing station using the special tool supplied by the
manufacturer (Fig. 5).
7. Disconnect the seven tubes attached to the probes on the washing station (Fig. 6).
8. Remove the reaction plate from the instrument.
9. Unscrew the four fastening screws on the washing station assembly (Fig. 3).
10. Remove the washing station assembly and replace it with the new one.
11. Remount, repeating the above steps, 10 through 1, in reverse order.
12. After substituting and remounting, carry out the mechanical adjustment and functional
check procedures as described in section 6.5.4
Cross-bar
Fig. 1
Service Manual
Rev. 04
January 2004
Page 50
Motor support
Service Manual
Rev. 04
January 2004
Page 51
6.5.2
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
6.5.3
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure..
Service Manual
Rev. 04
January 2004
Page 52
6.5.4
Fig. 6
Down Cover
Top cover fastening screw
Tubing
Service Manual
Rev. 04
January 2004
Page 53
1. Turn on the "ILab 300 Plus" system (first the instrument and then the computer).
2. Launch the "ILab 300 Plus" program and, under System Monitor, carry out a wash cycle
and reading cycle of the cuvettes using water (WBL).
3. Check system efficiency by comparing the obtained WBL values against the range of
acceptance of WBL. Make sure there is no leakage of liquid inside the analyzer.
Service Manual
Rev. 04
January 2004
Page 54
Service Manual
Rev. 04
January 2004
Page 55
6.5.5.3
MAGNETIC TRIGGER
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
substitution procedure.
Service Manual
Rev. 04
January 2004
Page 56
Support
Opto coupler assy PN. 23910002300
Cuvette Holder Solenoid
PN. 23910006000
Fig. 7
Cuvette Holder
Fig. 8
Reaction cuvettes
Service Manual
Rev. 04
January 2004
Page 57
1. Turn on the "ILab 300 Plus" system and launch the Analyzer program. Wait
approximately one hour in order to allow the instrument to reach temperature balance (at
room temperature 20). The warm-up time may vary from 30 minutes (at about 21 C room
temperature) up to 100 minutes (at about 18 C room temperature).
2. Launch the diagnostic program and select the "Plate" function.
3. Carry out the cuvette # 16 in dispensation position.
4.
Open the door and fill the cuvette # 1 with 50 microliters of distilled water.
N.B.:
9. Remove the temperature probe from the cuvette and empty it.
10. Repeat the procedure from point 3 to 9 using in sequence cuvette # 16, 31, and 46.
11. To exit the diagnostic program press the "Diagnostic" key.
12. Carry out the "Glucose" test on seven samples using distilled water for sample and reagent.
13. Press, "Start" and once the seventh sample has been dispensed, press "Stop". Wait the sound
signal from the analyzer, that means the actual stop.
14. Insert the temperature probe all the way to the bottom of the cuvette in which the sampling
probe is dispensing. Make sure the temperature registered is 37.0 C 0.2 + 0.3.
15. If not, launch the Diagnostic program and select the "Configuration" function.
16. Digit the password (1234) in the appropriate window and press OK.
Service Manual
Rev. 04
January 2004
Page 58
17. Move the cursor within the "Heater" window to select the desired temperature and then click
on "Save" to memorize said temperature.
18. Remove the temperature probe from the cuvette and exit from the Diagnostic program.
19. Carry out a washing cycle from Start Work mask in order to clean the cuvette.
20. To exit the Analyzer program press Shutdown key.
N.B.:
2. Summary:
CHECK WHETHER THE INTEGRATED CHIP TL O71xxx IS INSTALLED ON THE
CONTROL PANEL BD. POS. U2 (see fig. 1) AND REPLACE IT WITH THE
INTEGRATED CHIP LMC 7101 A or B or TLV 2461 cp. BEFORE APPLYING THE
FOLLOWING PROCEDURE.
Turn on the system and wait in order to allow the instrument working temperature
settlement. The warm-up time may vary from 30 minutes (at about 21 C room temperature)
up to 100 minutes (at about 18 C room temperature).
ILab 300 Plus
Service Manual
Rev. 04
January 2004
Page 59
Put 300 L (approx.) of distilled water PRE-WARMED at 37.0 37.3C into the cuvettes #
45 and 46
Measure the temperature into the cuvettes # 45 and 46 to get an indication on the plate
temperature
Launch the temperatures test from the Temperature folder inside the Diagnostic
program in order to measure and/or slightly adjust them
3. Special tools:
Service Manual
Rev. 04
January 2004
Page 60
Turn on the system and wait in order to allow the instrument working temperature
settlement. The warm-up may vary from 30 minutes (at about 21 C room temperature) up
to 100 minutes (at about 18 C room temperature).
During warm-up time, remove the protection cover of the Control Panel Board (Front Side
Light Indicators) (See fig. 1).
During warm-up time, launch the Diagnostic program and then select the
Temperature Folder in the Diagnostic Program
During warm-up time, select Calibration Sensor and carry out the three steps by following
the indications showed on the screen.
Note 1: Now the temperature probe and the service probe function can be used as a
thermometer.
Then route the temperature probe tip through the small door for cuvettes
replacement. (See fig. 2)
To avoid the temperature probe damage be sure that its wires do not interfere with the reaction
plate rotation.
By executing the reaction plate Reset, the cuvettes # 45 and 46 will be accessible through
the small door so allowing the following operations:
a. Pre-warm the micropipette tip by repeatedly aspirating and dispensing the liquid from/into
the 250-500 ml container. Put 300 L (approx.) of distilled water (pre-warmed at
37.037.3C into the cuvettes # 45 and 46.
b. Wait 2-3 minutes then enter in the Temperature Folder and select Temp. Test Run.
c. Measure the temperature by dipping and gently shaking the temperature probe into the
liquid in the cuvettes.
d. Take note about the measured temperatures.
Note 2: The reaction plate temperature must be set at 37.0 37.2 C
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Rev. 04
January 2004
Page 61
e. If necessary, modify the value in the PLATE parameter field, (Configuration Folder in the
Diagnostic Program) by taking into account that:
If the difference should be higher than 2C, wait a few more minutes and repeat steps
a.-b.-c.-d.-e.
f. Close the main cover and after having checked the correct setting of the reaction plate
temperature, select Temp. Test Run in the Temperature Folder inside the Diagnostic
program.
g. Verify that the temperature probe or others tools are correctly positioned so to avoid their
interference with the moving parts of the instrument. During this procedure step in fact, the
Sampling arm, the washing Station and the Reaction Plate will become active.
h. By pressing START, the system will sample seven reaction cuvettes in sequence
i. At the end of the sampling cycles, the main cover will be unlocked.
j.
Open the small door for cuvettes replacement. Measure and take note of the cuvettes
temperature starting from the seventh up to the first cuvette by dipping and gently shaking
the temperature probe into the liquid.
k. At the end of measurements, press WASH. The system is ready for a new cycle.
Note 3: The measure obtained from the seventh cuvette is the best indication of the pre-heater
temperature. The measure obtained on the first cuvette is the nearest to the reaction
plate temperature (previously adjusted to 37.0 37.2 C). The objective is to obtain
the same temperatures into all the seven cuvettes (37 - 37.2C).
l. If necessary, modify the value in the ARM parameter field, (Configuration Folder in the
Diagnostic Program) by taking into account that:
7 COUNTS CORRESPOND TO ABOUT 1C
m. After any modification in the Parameter values repeat the steps from f through k.
Service Manual
Rev. 04
January 2004
Page 62
n. At the end of the adjustment procedure, get out from the Diagnostic Program and from the
Instrument software, execute a WASH cycle then followed by the WBL.
Further information:
The reaction plate has been studied in order to maintain the dispensed liquids at the set
temperature and not to heat them up.
Consequently it is really important to adjust the pre-heater temperature as much as possible
near to the reaction plate temperature value (37.0 37.2 C).
Turn on the system and wait in order to allow the instrument working temperature settlement.
The warm-up may vary from 30 minutes (at about 21 C room temperature) up to 100 minutes
(at about 18 C room temperature).
During warm-up time remove the protection cover of the Control Panel Board (Front Side Light
Indicators). (See fig. 1)
During warm-up time, launch the diagnostic program and select the Temperatures Folder in the
Diagnostic Program
During warm-up time, select Calibration Sensor and carry out the three steps by following the
indications showed on the screen
Note 1: Now the temperature probe and the service probe function can be used as a thermometer.
Route the temperature probe tip through the small door for cuvettes replacement.(See fig 2)
To avoid the temperature probe damage, to be sure its wires do not interfere with the reaction plate
rotation.
Service Manual
Rev. 04
January 2004
Page 63
1. Verify that the temperature probe or others tools are correctly positioned so to avoid their
interference with the moving parts of the instrument. During this procedure step in fact,
the Sampling arm, the washing Station and the Reaction Plate will become active.
2. Select Temp. Test Run in the Temperature Folder inside the Diagnostic program.
3. By pressing START, the system will sample seven reaction cuvettes in sequence
4. At the end of the sampling cycles, the main cover will be unlocked.
5. Wait 10 minutes, open the main cover and the small door for cuvettes replacement.
Measure and take note of the cuvettes temperature starting from the third up to the first
cuvette by dipping and gently shaking the temperature probe into the liquid.
6. At the end of the measurements, press WASH. The system is ready for a new cycle.
Note 2: In this case, cuvettes 1 through 3 can give a good indication of the reaction plate
temperature.
7.
If necessary, modify the value in the PLATE parameter field, (Configuration Folder in
the Diagnostic Program) by taking into account that:
7 COUNTS CORRESPOND TO ABOUT 1C
8. After any modification in the Parameter values repeat the steps from step 1 through 7.
9. Close the main cover and after having checked the correct setting of the reaction plate
temperature, select Temp. Test Run in the Temperature Folder inside the Diagnostic
program.
10. Verify that the temperature probe or others tools are correctly positioned so to avoid their
interference with the moving parts of the instrument. During this procedure step in fact, the
Sampling arm, the washing Station and the Reaction Plate will become active.
11. By pressing START, the system will sample seven reaction cuvettes in sequence
12. At the end of the sampling cycles, the main cover will be unlocked.
13. Open the small door for cuvettes replacement. Measure and take note of the cuvettes
temperature starting from the seventh up to the first cuvette by dipping and gently shaking
the temperature probe into the liquid.
14. At the end of measurements, press WASH. The system is ready for a new cycle.
Service Manual
Rev. 04
January 2004
Page 64
Note 3: The measure obtained from the seventh cuvette is the best indication of the pre-heater
temperature. The measure obtained on the first cuvette is the nearest to the reaction plate
temperature (previously adjusted to 37.0 37.2 C). The objective is to obtain the same
temperatures into all the seven cuvettes (37 - 37.2C).
15. If necessary, modify the value in the ARM parameter field, (Configuration Folder in the
Diagnostic Program) by taking into account that:
7
16. After any modification in the Parameter values repeat the steps from 7 through 14.
17. At the end of the adjustment procedure, get out from the Diagnostic Program and from the
Instrument software, execute a WASH cycle then followed by the WBL.
Service Manual
Rev. 04
January 2004
Page 65
U2
Fig.1
Service Manual
Rev. 04
January 2004
Page 66
Fig. 2
Service Manual
Rev. 04
January 2004
Page 67
6.6.3
Warning: Keep the cooling fan protection grid, placed at the bottom of the refrigerated rack,
unencumbered and free of dust.
Fig. 1
Service Manual
Rev. 04
January 2004
Page 68
Warning: A check of the mechanical alignment of the samples racks must be performed
every time a rack is removed (either for servicing or substitution).
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
procedure.
1. Open the two front panels and remove the samples and STAT racks.
2. Remove the top cover of the samples (Fig.1).
3. Loosen the four fastening screws on the samples racks holder (Fig. 2).
4. Replace the top cover of the samples. Place empty samples cups in the first and last
positions of the racks and reinsert the racks.
5. Align the holes of the caps with those of the top cover of the samples.
6. Once again, remove the top cover of the samples, remove the racks and tighten the
fastening screws of the samples racks holder.
7. Reposition the racks and replace the top cover of the samples.
8. Close the two front panels.
Fig. 1
Fig. 2
top cover of the samples
Service Manual
Rev. 04
January 2004
Page 69
Warning: A check of the mechanical alignment of the reagents racks must be performed
every time a rack is removed (either for servicing or substitution).
N.B.: Make sure the instrument (ILab 300 Plus) is turned off before performing this
procedure.
Fig. 1
Service Manual
Fig. 2
Rev. 04
January 2004
Page 70
Chapter 07 - Mantenance
CHAPTER 07
- MAINTENANCE
INDEX
7.
MAINTENANCE.2
7.1
PREVENTIVE MAINTENANCE2
7.2
7.3
7.4
7.5
BY
THE
USER
AND/OR
BY
THE
MAINTENANCE
TECHNICIAN 18
7.13
DECONTAMINATION PROCEDURE.20
7.14
ANALYTICAL VERIFICATION..20
7.15
Service Manual
Rev.03
January 2004
Page 1
Chapter 07 - Mantenance
MAINTENANCE
This chapter contains all those routine operations, which concern instrument maintenance. Said
procedures, listed and described below, should be carefully and scrupulously followed in order
to guarantee the manufacturers specifications and the perfect working order of the instrument
over time.
7.1
PREVENTIVE MAINTENANCE
MAINTENANCE SCHEDULE
Table A, illustrated below, lists all those procedures to be carried out by the user/operator and
the relative frequency schedule. Strict adherence to said schedule will guarantee the optimal
operative efficiency of the instrument.
PROCEDURE
NOTES
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Chapter 07 - Mantenance
PROCEDURE
NOTES
ONCE A MONTH
ONCE A MONTH
ONCE A YEAR
N. B.: the above-described maintenance schedule refers to that situation in which the
workload of the Analyzer is approximately 500 tests per day. The interval
frequency may vary according to the individual instruments daily workload.
Service Manual
Rev.03
January 2004
Page 3
Chapter 07 - Mantenance
7.2
Service Manual
Quantity
2
60
1
1
1
1
10
10
10
1
Rev.03
Code
23965004000
23965003100
23901003800
23935001600
23965002701
23900125300
23990090600
23905006400
23905006401
23910002801
23910006200
23910006201
23C101004201
23C1010122200
23C1900125400
23F35001900
23050040300
23050040400
23050044700
23050040500
23010122400
23965003500
23350081400
23350081500
23350081600
23350081700
23350083000
23350083100
January 2004
Page 4
Chapter 07 - Mantenance
7.3
7.4
2)
3)
Dampen the gauze or paper toweling with distilled water and clean the outside
of the sampling probe. Wipe the probe from the top downwards only! This is to
avoid that any bits of cloth, paper or lint fibers accidentally enter the probe
itself.
4)
2)
Place a sheet of paper under the wash station cannulas in order to keep any
extraneous material from accidentally falling into the cuvettes.
3)
4)
Dampen the gauze or paper toweling with distilled water and clean the outside
of the cannulas. Wipe the cannulas from the top downwards only! This is to
avoid that any bits of cloth, paper or lint fibers accidentally enter the cannulas
themselves.
5)
Service Manual
Rev.03
January 2004
Page 5
Chapter 07 - Mantenance
7.5
During normal use and over time, mold and dust can build up inside the wash solution bottles.
For this reason, it is extremely important that they be periodically washed. Said cleaning must
be thorough and meticulous in order to insure that every trace of mold or residue be removed.
How often the bottles must be cleaned depends on their use and on the quality of the distilled
water used in that particular laboratory. However, the manufacturer recommends thorough
washing at least once every two weeks.
It is extremely important that the user not underestimate the risks associated with mold and dust
particles. They are to be regarded as a serious hazard as they can be the cause of instrument
malfunction.
The wash solution bottles are located on the right side of the analyzer.
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Rev.03
January 2004
Page 6
Chapter 07 - Mantenance
7.6
The Tip is used to dry the cuvettes after they have been washed. This drying process is carried
out via aspiration and therefore, over time, the Tip will necessarily absorb various
contaminating particles.
The manufacturer suggests that the Tip be replaced every six months. Said frequency may vary
depending on the workload of the individual laboratory and the operating
conditions/environment of the single instrument.
The Tip must be washed regularly in order to guarantee proper functioning and must be
replaced with a new Tip as necessary.
Special tool
Lid
th
5 cannula
Blocking
screw
3. Remove the cannula that contains the Tip (the 5th cannula) and disconnect the aspiration
tube
4. Remove the spring
Aspiration tube
Spring
Service Manual
Rev.03
January 2004
Page 7
Chapter 07 - Mantenance
Connect the
syringe to the
cannula
Sodium hypochlorite
solution
8. Once the Tip is clean, repeat the aspirating and dispensing cycle 10 more times using
distilled water, then disconnect the syringe.
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Page 8
Chapter 07 - Mantenance
Service Manual
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January 2004
Page 9
Chapter 07 - Mantenance
Locking Screw
Guidance Holes
IMPORTANT:
Before starting the instrument back up, manually move the wash station
upwards as far as it will go.
Service Manual
Rev.03
January 2004
Page 10
Chapter 07 - Mantenance
7.6.2
1.
2.
Unscrew the screw that fastens the black top cover of the wash station, using the special
tool included among the instruments accessories.
3.
Remove the wash station cover lid and take out the cannula containing the Tip. Be very
careful to not lose the spring.
4.
Disconnect the aspiration tube, remove the used Tip, and replace it with a new one.
Press lightly to push the new Tip into place be careful to not press too hard as this
could deform the Tip.
5.
Insert the cannula containing the new Tip into a cuvette, pushing it down inside until it
takes on the shape of the inside of the cuvette.
6.
Remove the cuvette, connect the aspiration tube to the cannula and reposition the
cannula back into its proper housing in the wash station. Be careful to not kink the
aspiration tube while doing so.
7.
Reposition the spring in its proper housing. Remount the wash station coverlid making
sure that the cylindrical tops of the cannulas fit into the corresponding holes on the
wash station coverlid.
IMPORTANT:
Before starting the instrument back up, manually move the wash station
upwards as far as it will go.
New Tip
Tip to be
replaced
Service Manual
Rev.03
January 2004
Page 11
Chapter 07 - Mantenance
7.7
During normal use and over time, mold and dust can build up inside the wash bottles and can
have a negative effect on the hydraulic circuit, compromising the correct functioning of the
micro-pump and valves. This, in turn, can lead to inefficiency in the sampling probe and
cuvette washing system.
For this reason, it is extremely important that the hydraulic circuit be periodically washed. Said
cleaning must be thorough and meticulous in order to assure that every trace of mold or residue
be removed.
How often the hydraulic circuit must be washed depends on the operating
conditions/environment of the single instrument and the quality of the distilled water used in
that particular laboratory. The manufacturer recommends thorough washing at least once a
month.
It is extremely important that the user not underestimate the risks associated with mold and dust
particles. They are to be regarded as a serious hazard as they can be the cause of instrument
malfunction.
The hydraulic circuit input cannulas are located inside the bottles on the right side of the
Analyzer.
2)
3)
Insert the three aspiration cannulas, located inside the liquids bottles, into the bottle
containing the sodium hypochlorite solution.
4)
Carry out a Wash cuvettes cycle and then a WBL cycle cycle.
5)
Wait for fifteen minutes. Clean and dry the three cannulas and then insert them into a
bottle containing distilled water.
6)
Carry out a Wash cuvettes cycle and then a WBL cycle. Repeat.
7)
Insert the three aspiration cannulas back into their respective bottles. Said bottles should
have, in the meantime, been cleaned and filled with a fresh supply of the required
solution.
8)
Carry out two Wash cuvettes cycle and then a WBL cycle. Check system efficiency
by comparing the WBL values and the test results obtained against the laboratorys
quality control values.
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January 2004
Page 12
Chapter 07 - Mantenance
7.8
The manufacturer recommends that the Peristaltic Pump tubes be replaced every six months.
Said frequency may vary depending on the workload of the individual laboratory. The quality
and reliability of these tubes is fundamental to a correct emptying of the cuvettes.
2)
Remove the panel located behind the wash station (Fig. 1).
3)
Unhook the hinged guide by lowering and rotating the guide's blocking bracket to the left
(Fig. 2).
4)
Once the hinged guide has been removed, pull the tubes out of their relative nipples.
Peristaltic Pump
5)
6)
7)
Service Manual
Rev.03
January 2004
Page 13
Chapter 07 - Mantenance
8)
Manually rotate the peristaltic pump rotor clockwise and check to make sure that the
tubes are correctly positioned inside the guide.
9)
Turn on the Analyzer and wait until the instrument has reached its proper operating
temperature.
10)
Have the instrument carry out a Wash cuvettes cycle and then a WBL cycle. Check
system efficiency by comparing the WBL values and the test results obtained against the
laboratorys quality control values.
11)
Make sure that there is no leakage and then close back the panel.
Fig.2
Pin
Hinged Guide
Service Manual
Tubes to be replaced
Rev.03
January 2004
Nipples
Page 14
Chapter 07 - Mantenance
7.9
The manufacturer suggests that the lamp be replaced after approximately 2000 hours of use or
one year.
Figure 3 illustrates the photometer lamp, its support base and its power supply wires. There is a
small hole on the lamp base useful for its mechanical alignment. The lamp is mounted on the
photometer, which is located on the right-hand side of the reaction plate.
2)
1)
Disconnect the power supply wires from the Lamp Regulator Board by loosening the
clamp screws on the M1 connector (Fig. 4).
4)
Unscrew the lamps fastening screw and remove the lamp from its housing (Fig. 4)
5)
Replace the old lamp with a new one making sure that the pin is correctly inserted in the
alignment hole (Fig. 4). Remount the assembly by repeating the above steps 4 through 1
in inverse order.
6)
Turn the Analyzer on and wait until the instrument has reached its proper operating
temperature.
7)
Carry out a WBL cycle. Check system efficiency by comparing the WBL values and
the test results obtained against the laboratorys quality control values.
Lamp
Lamp Holder
Bracket
Screw N1
Alignment
Reference Point
Fig.3
Fig.4
WARNING! DO NOT TOUCH THE GLASS PART OF THE LAMP WITH YOUR FINGERS!
IF NECESSARY, USE A CLEAN CLOTH TO REMOVE DUST, OR ALCOHOL TO REMOVE
MORE STUBBORN DIRT.
Service Manual
Rev.03
January 2004
Page 15
Chapter 07 - Mantenance
Turn on the Analyzer and wait until the instrument has reached its proper operating
temperature.
2.
Select Checks
WBL and click on the cell that must be replaced. Click on Change,
located under the work program (Please see Chapter 03 Operator Manual Description of
Instrument Software).
3.
A pull-down menu will appear. Click on Plate First Half and then on OK.
4.
A dialog box will appear asking: Do you want to change the cuvettes requested?
Click on OK to confirm. Remove the reaction plate coverlid.
5.
Remove the cuvettes numbered 1 through 30 by VERTICALLY lifting them out from
their housing and then replace them with new cuvettes. Make sure to reinsert the new
cuvettes VERTICALLY. Moreover, be especially careful to not touch the external
surface of the cuvettes dedicated to photometric reading.
6.
Select Plate Second Half from the pull-down menu and then click on OK.
7.
A dialog box will appear asking: Do you want to change the cuvettes requested?
Click on OK to confirm.
8.
Remove the cuvettes numbered 31 through 60 by VERTICALLY lifting them out from
their housing and then replace them with new cuvettes. Make sure to reinsert the new
cuvettes VERTICALLY. Moreover, be especially careful to not touch the external
surface of the cuvettes dedicated to photometric reading.
9.
Carry out a WBL cycle. Check system efficiency by comparing the WBL values and the
test results obtained against the laboratorys quality control values.
Service Manual
Rev.03
January 2004
Page 16
Chapter 07 - Mantenance
7.11
Over time and through normal use, the tubes become worn.
The manufacturer suggests that the tubes be replaced at least once a year. These tubes are
located behind the panel situated behind the wash station.
2)
3)
Replace the tubes following the indications provided in the hydraulic diagram
(SI 00457-00).
4)
Turn on the Analyzer and wait until the instrument has reached its proper operating
temperature.
5)
Carry out a Wash cuvettes cycle and then a WBL cycle. Make sure that there is no
leakage.
6)
Check system efficiency by comparing the WBL values and the test results obtained
against the laboratorys quality control values.
Service Manual
Rev.03
January 2004
Page 17
Chapter 07 - Mantenance
FREQUENCY (*)
EFFECTUATED
BY
DAILY
OPERATOR
EVERY TWO
WEEKS
OPERATOR
EVERY TWO
WEEKS
OPERATOR
EVERY TWO
MONTHS
OPERATOR
ONCE A MONTH
OPERATOR
AS NEEDED
OPERATOR
AS NEEDED
(e.g.: after replacing
any mechanical
part)
SERVICE ENG.
EVERY SIX
MONTHS
OPERATOR
AFTER 2000
HOURS OF USE
SERVICE ENG.
AS NEEDED
OPERATOR
ONCE A YEAR
SERVICE ENG.
Service Manual
Rev.03
January 2004
Page 18
Chapter 07 - Mantenance
PROCEDURE
FREQUENCY (*)
EFFECTUATED BY
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
REPLACING A MOTOR
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
AS NEEDED
SERVICE ENG.
N. B.: the above-indicated frequency intervals may vary according to the individual
instruments daily workload.
Service Manual
Rev.03
January 2004
Page 19
Chapter 07 - Mantenance
Spray the solution all over the instrument, paying particular attention to wetting:
the sampling arm
the reaction plate (including the cuvettes)
the racks
the instrument chassis
Service Manual
Rev.03
January 2004
Page 20
Chapter 07 - Mantenance
7.15
STANDBY MODE.
Select the Shutdown function from the Monitor and then confirm with Yes. If requested, the
instrument will perform ISE cleaning, and will empty the fluidics. The computer will turn off.
Do not power off the instrument. In this mode all temperature regulation (of reagents and
reaction disk) are ON.
SWITCHING OFF
From the standby mode turn the instrument off by pressing the main switch located on the left
side of the instrument. Remove the reagents and place them in the refrigerator.
SHUTDOWN PROCEDURE
This procedure must be carried out whenever the ILab 300 Plus is to be switched off for several
days.
Take out the tubing from the deionized water bottles, rinse and clean the tubes and insert
them in a bottle filled with deionized water.
Click the Start Button. Select Wash all cuvettes, Water Blank Level and then OK.
Repeat this procedure three times.
Take the tubing from the bottles and leave them in air.
Click the Start Button and select Wash all cuvettes, Water Blank Level and OK.
Turn the instrument off.
Remove the sensor caps and empty the three bottles. Rinse them with deionized water.
To restart the system place the three tubes in their respective bottles.
Click the Start Button, Select Wash all cuvettes, Water Blank Level then OK.
Repeat this procedure twice.
Move down the Ise door. Disengage the Ise module to have access at the upper inlet port of
the assembly.
Dispense 500 uL of Calibrator A into the upper port.
Seal the inlet port with Parafilm
Empty the Calibrator A bottle. Rinse the bottle with distilled water.
Service Manual
Rev.03
January 2004
Page 21
CHAPTER 08
HOST COMMUNICATION
INDEX
Service Manual
Rev.03
January 2004
Page 1
Transmission method
Baud Rate
Data bits:
Parity
Stop bit
Connector
:
:
:
:
:
:
1-CF(DCD)
(DSR)CC-6
2-BB(RD)
(RTS)CA-7
3-BA(TD)
(CTS)CB-8
4-CD(DTR)
(RI)CE-9
5-AB(GND)
Serial connector
Service Manual
Rev.03
January 2004
Page 2
Field: an individual piece of data often referred to as a data field or a data element.
Record: a number of logically related data fields grouped together to form one part of a
complete message.
Repeat field: a data field of the same type as the one immediately preceding it. A
delimiter separates one instance of a repeat field from the next.
Component field: part of data field that might contain more than one piece of data.
The default communication configuration for the Analyzer is the following: "9600,N, 8,1".
ASTM uses record types that are common and familiar to all laboratory personnel. It uses the
following record types:
Header Record (H): contains identifying information about the sending station,
conventions that the device uses for field recognition, and the date and time of send
station transmission.
Test Order Record (O): contains information about the assay or requests themselves
and includes other data.
Result Record (R): contains information about the outcome of individual tests for an
individual patient and follows a sample program record. The results contain the actual
measurements derived from the test and a comparison of the individual result to certain
ranges specified as norms for the laboratory.
Service Manual
Rev.03
January 2004
Page 3
Message Terminator Record (L): although the ASTM protocol supports three
additional record types - a Request for Information Record, a Scientific Record and a
Manufacturer's Information Record - the Analyzer is not implementing these in the first
release and will ignore them.
Field Title
Down
Load
Up
Load
Max
Len
Record Type ID
Delimiters
Component Delimiter
Escape Delimiter
3
4
5
6
7
8
9
Message Control
ID
Access Password
Sender Name or
ID
Sender Street
Address
Reserved Field
Sender Tel.
Number
Characteristics of
Sender
Service Manual
Rev.03
10
&
January 2004
Page 4
10
Receiver ID
11
Comments or
Special
Instructions
Processing
12
13
ASTM Version
No.
Date and Time
14
R
O
I
A
Legend:
Required
Optional
Ignored
Always
14
D
U
N
S
Host
Upload
H | \ ^ & | | | SHAnalyzer | | | | | | | | | 19950301154000<CR>
Analyzer System
Down
Load
Up
Load
Record Type ID
Sequence Number
Practice Assigned
Patient ID
15
Laboratory
Assigned
Patient ID
Patient ID No. 3
Service Manual
Rev.03
January 2004
Page 5
Patient Name
36
Mother's Maiden
Name
Birth Date
Patient Sex
10
Patient Race/Ethnic
Origin
11
Patient Address
12
Reserved Field
13
14
15
Attending Physician
ID
Special Field 1
16
Special Field 2
17
Patient Height
18
Patient Weight
19
Patient Known or
Suspected Diagnosis
20
21
22
Patient Active
Medications
Patient's Diet
Practice Field No. 1
I
I
N
N
23
24
25
Admission Status
26
Location
Service Manual
Rev.03
20
January 2004
Page 6
27
29
Nature of
Alternative
Diagnostic Code
and classifiers
Alternative
Diagnostic Code
and classification
Patient Religion
30
Marital Status
31
Isolation Status
32
Language
33
Hospital Service
34
Hospital Institution
35
Dosage Category
28
Legend:
R
O
I
A
Required
Optional
Ignored
Always
D
U
N
S
Down Load
Up Load
Never
Sometimes
Analyzer
System
Down
Load
Up
Load
Record Type ID
Sequence Number
Service Manual
Rev.03
January 2004
Page 7
is transmitted.
Specimen ID
Instrument Specimen
ID
Universal Test ID
6
7
Priority
Request Ordered
Date/Time
I
I
N
N
Specimen Collected
Date/Time
10
Collection
Volume/Units
11
Collector ID
12
Action Code
13
Danger Code
Service Manual
Rev.03
15
January 2004
Page 8
14
Relevant Clinical
Info.
15
Date/Time Specimen
Received
16
Specimen Type
17
Ordering Physician
18
Physician Tel.
Number
19
20
21
22
23
24
Instrument Charge
25
Instrument Section
ID
26
Record Type
27
Reserved Field
28
Location or Ward of
Specimen Collection
29
Nosocomial
Infection Flag
30
Specimen Service
Service Manual
Rev.03
January 2004
Page 9
31
Specimen Institution
Legend:
R
O
I
A
Required
Optional
Ignored
Always
I
D
U
N
S
N
Down Load
Up Load
Never
Sometimes
O | 1 | AR102 | | ^^^GLU | | | | | | | | | | | 0 | | | | | | | | | | O | | | | |
Analyzer System
O | 1 | AR102 | | ^^^GLU | | | | | | | | | | | 0 | | | | | | | | | | F | | | | |
Down
Load
Up
Load
Max
Len
Record Type ID
Sequence Number
Service Manual
Rev.03
January 2004
Page 10
Universal Test ID
Data or
Measurement value
10
Units of Measure
Reference Ranges
21
Result Abnormal
Flags
Nature of
Abnormality
Testing
Result Status
Service Manual
Rev.03
January 2004
Page 11
Date of Change in
Instrument
Normative Values
or Units
Operator ID
12
Date/Time Test
Started
13
Date/Time Test
Completed
14
Instrument ID
11
R
O
I
A
Legend:
Required
Optional
Ignored
Always
14
D
U
N
S
Down Load
Up Load
Never
Sometimes
Down
Load
Up Load
Max
Len
Record Type ID
Sequence
Number
Termination
Code
Legend:
R
O
I
A
Required
Optional
Ignored
Always
Service Manual
D Down Load
U Up Load
N Never
S Sometimes
Rev.03
January 2004
Page 12
LI1IN
Analyzer System
LI1IN
Field Title
Down
Load
Up
Load
Max
Len
Record Type ID
Sequence Number
It is always 1.
Starting Range ID
Number
31
4
5
6
7
9
10
11
12
13
Ending Range ID
Number
Universal Test ID
Nature of Request
Time Limits
Beginning Request
Results Date and
Time
Ending Request
Results Date and
Time
Requesting
Physician Name
Requesting
Physician Telephone
Number
User Field No. 1
User Field No. 2
Request Information
Status Codes
Service Manual
N
N
N
N
N
N
N
N
A
Rev.03
January 2004
Page 13
Service Manual
Rev.03
January 2004
Page 14
CHAPTER 09
- ERROR SIGNALING AND TROUBLESHOOTING INDEX
9.1
ERROR SIGNALING....2
9.1.1
SYSTEM ERRORS...................................................................................................... 2
9.1.2
Service Manual
Rev.02
January 2004
Page 1
9.1
ERROR SIGNALING
This chapter is dedicated to a description of the error signaling which may occur during the
programming or carrying out of the various operations. Error signals can be divided into the
following two groups:
?
System Errors
Result Flags
Temperature Out-of-Range
? Fatal Error: an X-shape located in the upper, right-hand portion of the System Monitor
Programming Error
Service Manual
Rev.02
January 2004
Page 2
Filter Error
Z Axis Error
Diluter Error
Macro Error
PHYSICAL ERRORS
CONCENTRATION ERRORS
CALIBRATION ERRORS
PROGRAMMING ERRORS
Service Manual
Rev.02
January 2004
Page 3
Every Result Flag, signaling an error, is accompanied by a symbol representing the group it is
part of. The operator need only click on the small red square ( ) next to the Result Flag symbol
to access the visual text message explaining the cause(s) of the signaled error.
In the central column of the following tables, the user will find those symbols which signal the
type of error encounter, as used in the print-out of the final report. These symbols can be
modified by the operator, in the Parameters section, under print options.
WARNING! The use of the Error Symbols in the print-out of the results (inclusion and/or
exclusion) IS UNDER THE DIRECT AND SOLE RESPONSIBILITY OF THE USER
X Physical Errors
Temperature Error:
No Sample
No Reagent:
No Rack:
R Concentration Errors
Very Low and Very High:
L-H
Calculation Error:
Service Manual
Rev.02
January 2004
Page 4
C Calibration Errors
RBL missing:
Calibration missing:
Invalid Calibration:
Inversion:
Depletion Limit:D
First Limit:
FIT:F
RBL out-of-range:
Rev.02
Service Manual
January 2004
Page 5
Results Edited:
Calibrate A drift:
Programming Errors
All those software errors which are deemed unforeseeable are indicated using this symbol.
Result Asterisks
In the event that the following situations and/or error conditions occur, the system will notify
the user via a visualization of two asterisks (**) in the Results field:
PHYSICAL ERRORS
1 very little or no sample
2 very little or no reagent
3 no rack
Service Manual
Rev.02
January 2004
Page 6
CONCENTRATION ERRORS
4 calculation error
PROGRAMMING ERROR
5 all cases
In the following situations and/or error conditions, the results field will contain a 0:
1 if the result is less than zero
2 if the result is equal to zero
Service Manual
Rev.02
January 2004
Page 7
? POSSIBLE CAUSE
v SOLUTION
Service Manual
Rev.02
January 2004
Page 8
CHAPTER 12
ISE MODULE -
INDEX
12.1
12.2
12.3
12.4
12.5
12.6
ELECTRODES ................................................................................................................. 7
12.7
12.7.2
12.8
ELECTRONICS ..............................................................................................................11
12.8.1
12.9
MAINTENANCE ...........................................................................................................11
12.10
Service Manual
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Service Manual
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January 2004
Page 2
Benefits
Features
Integral Sample Entry port
70 ul
Simple Maintenance
No membranes
Simple maintenance
Convenaient maintenance
Service Manual
Rev.02
January 2004
Page 3
Sample Size:
Reproducibility:
Sodium
<0,5%
Potassium
CV<2%
<1,5%
Chloride
CV<2%
<1,0%
Analysis Time:
Throughput:
Reagents:
Calibrant A
Calibrant B
Cleaning Solution
Urine Diluent
Service Manual
Rev.02
January 2004
Page 4
Where:
E = The potential of the electrode in sample solution
E= The potential developed under standard conditions
RT/nF = A temperature dependent constant, termed the slope(s)
Log = Base ten logarithm function
e = Activity coefficient of the measured ion in the solution
C = Concentration of the measured ion in the solution
A comparative method of measurement is utilized. First, the ISE module measures the potential
developed when the sample is positioned in the electrodes. Next, Calibrant A is positioned in the
electrodes. The difference in the two potentials is related logarithmically to the concentration of the
measured ions in the sample divided by their respective concentrations in the Calibrant solution.
Since the difference in potentials and the concentration of the sodium, potassium or the other ions in
the Calibrant solution are known, the computer can calculate the concentration of the ions in the
sample solution, in accordance with the Nerst equation, rewritten as:
Service Manual
Rev.02
January 2004
Page 5
Where:
E = ISE potential developed in sample solution
E = ISE potential developed in the Calibrant solution
S = Electrode slope calculated during calibration
Cx = Concentration of ion in the sample
Cs = Concentration of ion in the Calibrant solution
S, the slope, is determined during calibration using Calibrants A and B, which have known levels
of sodium, potassium, and chloride. When an automatic calibration is initiated, the slope is
calculated between the second Calibrant A reading and the Calibrant B reading.
Excessive drift or noise reading will be flagged and the appropriate error message sent to the host
analyser from the ISE Module.
Service Manual
Rev.02
January 2004
Page 6
12.6 ELECTRODES
The electrodes are maintenance-free and are warranted on a prorated basis for up to 10,000 samples
or 6 months, whichever occurs first. Cleaning Solution, aspirated from an operator designed sample
cup, is used at least once a day at the end of the day in order to minimize protein build-up in the
fluid lines. A two-point calibration of the ISE module is also done at least once a day at the
beginning of the first sample run. If the user is running more than 50 samples a day, both cleaning
and calibrant must be performed after 8 hours by the host analyzer.
The entire double-junction reference electrode is disposable. The reference electrode is filled with
sufficient KCL so that no filling solution must be added during the lifetime of the electrode.
Electrodes require calibrant sampling at 30 minutes intervals for reliable operation, but this is
completely controlled by the Electrolyte Measurement System without any need for control by the
host analyzer or the operator.
The electrodes require a 10 times sample dilution for measurement of urine.
The ISE module depends on the host analyzer to perform the dilution function.
It is not necessary to regulate the electrode housing temperature provided that its environmental
temperature does not exceed 38 C. However, the electrode module should not be subject to
changes greater than plus or minus 8 C without recalibrating.
Service Manual
Rev.02
January 2004
Page 7
Service Manual
Rev.02
January 2004
Page 8
2.
3.
4.
5.
6.
7.
Pumpings of a small amount of Calibrant A are performed when the Electrolyte measurement
System is in Standby or when it is not being used in the Sample mode. This significantly
improves the performance of the electrodes. The Electrolyte measurement System must always be
supplied with power so that pumping can occur. Pumping occurs automatically, without
prompting by the host analyzer, beginning 30 minutes after the last sample or calibration was
performed.
During sample processing, a volume of 200 l of Calibrant A solution is used for one point
calibration, sample, wash, and cleaning. A volume of 120 l is used for each sip.
The Electrolyte Measurement System should perform a two points calibration at the beginning of
the sample run. If the user is running more than 50 sample a day, both cleaning and calibration must
be performed after 8 hours by the host analyzer. 140 l of Calibrant B solution are used during two
point calibration. During two points calibration, electrode calibration slopes are transmitted by the
module for QC purpose and may be used by the operator to diagnose module performance. The
slope is defined as:
Slope = (EB-EA) / log (CB / CA)
Where:
CA = Calibration A concentration in mmol/L
CB = Calibration B concentration in mmol/L
EA = ISE potential developed in Cal A solution in mV
EB = ISE potential developed in Cal B solution in mV
Service Manual
Rev.02
January 2004
Page 9
These slopes are checked by the modules electronic processor and an error code will be transmitted
if they are outside the required range.
Typical slopes are approximately 55mV/decade for Na and K and 45mV/decade for Cl.
Slope (mV/decade)
Range (mmol/L)
Serum
Urine
Na
50-63
Na
20-200
20-1000
50-63
0,2-20,0
1-50
Cl
40-59
Cl
25-200
20-500
Service Manual
Rev.02
January 2004
Page 10
12.8 ELECTRONICS
12.8.1 GENERAL DESCRIPTION
ISE module electronics include all pre-amplifiers and perform microprocessor control of the fluid
pumps, A/D conversion and RS-232C communications. The microprocessors apply proprietary
mathematical algorithms to electrolyte sensor output voltage, converting them to clinical units of
mmol/L.
Sensor Inputs:
Na Electrode;
Reference Electrode;
K Electrode;
Cl Electrode;
10.9 MAINTENANCE
The Electrolyte Measurement System has been designed to require very little operator maintenance.
The only daily maintenance required is to run the Cleaning Solution after the last sample of the day.
REPLACEMENT/PART
12
MO
MO
MO
MO
Pump Tube
Na Electrode
K Electrode
Cl Electrode
Reference Electrode
Reagents
12
MO
MO
MO
MO
Pump Tube
Na Electrode
10.000 samples
K Electrode
10.000 samples
Cl Electrode
10.000 samples
Reference Electrode
10.000 samples
Reagents
Service Manual
Rev.02
January 2004
Page 11
PROBLEM
Low Slope:
Na or K <45mV/decade,
Cl<35 mV/decade or
High Slope:
Na or K>63mV/decade,
Cl>60 mV/decade
CORRECTION
Reconnect or replace cable
Replace board
Replace board.
Remove and replace sensors to
re-seat.
Service Manual
Rev.02
January 2004
Page 12
1. Deterioration of sensing
electrode
2. May occur when new sensor
or new bottle of Cal A is
installed on system.
Air in Sample
2. Electrical
spike
from a) Check that motor or
environmental source
solenoid valve near module
is not activated during the
read portion of the cycle.
b) Component failure on
module board. Replace the
board.
3. May occur when new sensor Purge the Cal A and recalibrate
or new bottle of Cal A is the module.
installed on system.
1. Insufficient sample pipetted a) Host
instrument
must
into module sample port
deliver 70 ul.
Increase dispensed volume
b) Insufficient
sample
in
sample cup for all tests
programmed.
2. Sample
not
positioned a) Pumps
not
connected
properly.
properly.
b) Pump tubing obstructed or
tubing length is excessive.
1. Sample and Cal A are a) Sensors are not properly
segmented with air.
compressed.
Check
compression plate, spring
and seal.
b) Ensure that all sensor and orings are in place.
2. Fibrin or salt is plugging the c) Use Cleaning procedure
sensor flow path
<CLEN> for module
d) Disassemble module and
clean or replace sensor with
plugged flow path.
3. Air Bubble Detector failure Replace air bubble detector
4. Waste Pump failure
Replace the waste pump.
Service Manual
Rev.02
January 2004
Page 13
Service Manual
Rev.02
January 2004
Page 14
Chapter 13
Spare Parts
This chapter contains the part lists for all the servicing aids and replaceable parts for all the
ILab 300 Plus systems.
For easier identification of the parts, this section includes the following documentation:
List Sorted by IL Part Number
List Sorted by Description
Service Manual
Pag 2
Pag 5
January 2004
Rev. 02
-I-
Description
Gauge Peristaltic Pump
Joint Bottles (Rinse,Water, Cleaning)
Micro Pump 4
Micro Pump 2
Connection Joint Assembly
Interlock Assy
Micro Pump 3
Stat Sample Rack
Reagent Panel
Sample Panel
Assy Photometer
Electronic Controller Assy
Peristaltic Pump Assembly
Motors Assy for: S.Arm+ P.Pump
Belt (arm horizzontal)
Pre-Ampl./ADC Board Main Channel
Pre-Ampl./ADC Board from S/N 0205011 Ref Channel
Pre-Ampl./ADC Board up to S/N 0205010 Ref Channel
Stepper Motor Drivers Bd.
Sampling Bd
Reaction Tray Interface Bd.
Analytical Control Bd.
Motor Plate Interface Bd.
Control Panel
Hydraulic Interface Bd.
Racks Identification Bd.
Interlock Switch
Extractor for connectors Lumberg
Sodium Electrode
Potassium Electrode
Chloride Electrode
Reference Electrode
Ise Control Board
Bubble Detector
Peristaltic Pump Waste Assy
Peristaltic Pump Cal A Assy
Pump Motor Cal A
Pump Motor Waste
Head Tube Perilstatic Pump
Ise Connection Tube 6mt
O-Ring 4 Pcs
Motor Cable
Electrode Compression Plate
Alignment Electrode Tool
Inlet Sample Pot Assy
Output Connector Assy
Lower Kit Gasket
Gasket (compression)
Service Manual
January 2004
Rev. 02
Description
Cable W1
Cable W18
Cable W2
Cable W3
Cable W4
Cable W5
Cable W6
Cable W7
Cable W8
Cable W9
Cable W19
Cable W11
Cable W14
Cable W13
Cable W12
Cable W20
Kit Measurament Temperature
Bar Codes kit ILab 300
Tygon Tube M.1
Drying Pad
Special Key
Cannula "A0"
Cannula "A1"
Cannula "B"
Cannula "C"
Cannula "D"
Washing Well Assembly
Sampling Probe
Reagent Rack 3 (from 14-23)
Reagent Rack 4 (from 24-33)
Reagent Rack 1 (from 1-4 + std/ctrl)
Reagent Rack 2 (from 5-13)
Bottle level Sensor assembly
Washing Station Probe Assembly
Cover Lock assembly
Stepper Motor Assembly (motor with pulley)
Stepper Motor (washing probes)
Stepper Motor Assembly (Photometer)
Temperature Sensor
Horizzontal Home Sensor Assembly (filter wheel, reaction plate,
washing station)
Home Sensor Assemby - vertical
Micro Pump Assembly (Probe rinse)
Front Panel Switch assembly
Cuvette Holder Solenoid
Reaction Plate Assy
Complete Probe Assembly
Level Sensor and Pre-heater Assy
Service Manual
January 2004
Rev. 02
Description
Ise Module
Arm Assembly
Refrigerated Reagent Rack assembly
Lamp P.W.S Board
Label Index Board
Halogen Lamp
Reaction Plate Heather
Belt (arm vertical)
Belt for Reaction Plate
Power Supply
Fluidic Valve 2 ways W.P
Fluidic Valve 3 ways W.P
Bar Code Reader
Bottle 2lt
Main Power Socket
Interconnecting Serial Cable 9 Pin 5m
Cable
Cable with Button (SW1) (sample&reagent Door)
kit Ise Module
Tubes Kit
Interferential filters Kit (Photometer)
Reaction Cuvette (60 pieces)
Fuse Holder Kit
Lamps kit (5 pieces)
Caps Kit (yellow, green, red)
Button Kit
Kit Tubing peristaltic pump
Bearing Reaction Plate
Kit Diluter Joints
PC Boards Service kit ILab 300
Power Cord
Tubes Adapter (20 pcs)
Head Diluter Joint
Joint Diluter 10 Pcs
Metal Rings for lev. Sens. & pre-heater fixing (10 pcs)
Locknut (10 pcs)
Level Sensor & pre-heater springs (10 pcs)
Level Sensor & pre-heater assy lock. Key (10 pcs)
Fuse 6,3x32 (10 pcs)
Joint E.V (Rinse) 10 Pcs
Diluter 1000 microl
Solenoid Valve - 2 way
Bottle Sensor Cable
Service Manual
January 2004
Rev. 02
Description
Alignment Electrode Tool
Analytical Control Bd.
Arm Assembly
Assy Photometer
Bar Code Reader
Bar Codes kit ILab 300
Bearing Reaction Plate
Belt (arm horizzontal)
Belt (arm vertical)
Belt for Reaction Plate
Bottle 2lt
Bottle level Sensor assembly
Bottle Sensor Cable
Bubble Detector
Button Kit
Cable
Cable W1
Cable W11
Cable W12
Cable W13
Cable W14
Cable W18
Cable W19
Cable W2
Cable W20
Cable W3
Cable W4
Cable W5
Cable W6
Cable W7
Cable W8
Cable W9
Cable with Button (SW1) (sample&reagent Door)
Cannula "A0"
Cannula "A1"
Cannula "B"
Cannula "C"
Cannula "D"
Caps Kit (yellow, green, red)
Chloride Electrode
Complete Probe Assembly
Connection Joint Assembly
Control Panel
Cover Lock assembly
Cuvette Holder Solenoid
Diluter 1000 microl
Drying Pad
Electrode Compression Plate
Service Manual
January 2004
Rev. 02
-5-
Description
Service Manual
January 2004
Rev. 02
-6-
Description
Service Manual
January 2004
Rev. 02
-7-
APPENDIX
Washing Stations cycle :
Probe N 1
ON = EV1 (empitying of the channel of the Probe1 is enabled), uP4 (ON uPump Probe N5) ,
P.M0 (ON peristaltic pump, remains ON until the end of the cycle).
Washing Station goes down (570mS).
Liquid into the cuvette is aspirated.
Aspirated and dispenced 400uL(+-50uL) of Cleaning solution. While empitying with the
Peristaltic Pump
Wait 100mS.
Aspirated and dispenced 400uL(+-50uL) of Cleaning solution. . While empitying with the
Peristaltic Pump
Wait 300mS.
Washing Station goes up (570mS).
OFF = EV1 (empitying of the channel of the Probe1 is disabled), uP4 ( OFF uPump 4 Probe5) ,
P.M0 (OFF Pump peristaltic).
Cycle lasts 3790mS used 800ul(+-100ul) of Cleaning solution.
********************************************************************************
********************************************************************************
Probe 2
ON = EV1 (empitying of the channel of the Probe1 is enabled), uP4 (ON uPump Probe5) , P.M0
ON peristaltic pump, remains ON until the end of the cycle
Washing Station goes down (570mS).
Liquid into the cuvette is aspirated.
Aspirated and dispenced 400uL(+-50uL) of Dist.Water. While empitying with the Peristaltic
Pump
Wait 100mS.
Aspirated and dispenced 400uL(+-50uL) of Dist.Water. While empitying with the Peristaltic
Pump
Wait 100mS.
Aspirated and dispenced 400uL(+-50uL) of Dist.Water. While empitying with the Peristaltic
Pump
Wait 300mS.
Washing Station goes up (570mS).
OFF = EV1 (empitying of the channel of the Probe1 is disabled), uP4 (OFF uPump Probe5) ,
P.M0 (OFF Pump peristaltic).
Cycle lasts 3790mS used 1200ul(+-150ul) of Dist.Water.
********************************************************************************
Probe 3
ON = EV1 (empitying of the channel of the Probe1 is enabled), uP4 (ON uPump Probe5) , P.M0
ON peristaltic pump, remains ON until the end of the cycle
Washing Station goes down (570mS).
ON EV5 (filling of the channel of the Probe3 is enabled)
Erogo 400uL(+-50uL) of Dist.Water.
Washing Station goes up (570mS).
OFF = EV1 (empitying of the channel of the Probe1 is disabled), uP4 (OFF uPump Probe5) ,
P.M0 (OFF Pump peristaltic), EV5(filling of the channel of the Probe3 is disabled)
Cycle lasts 3790mS used 400ul(+-50ul) of Dist.Water
********************************************************************************
Before the Probe 4, the cuvette is moved in front of the photometer to be verified.
********************************************************************************
Probe 4
ON = EV1 (empitying of the channel of the Probe1 is enabled), uP4 (ON uPump Probe5) , P.M0
(ON Pump peristaltic). remains ON until the end of the cycle
Washing Station goes down (570mS).
Probe 5
ON = EV1 (empitying of the channel of the Probe1 is enabled), uP4 (ON uPump Probe5) , P.M0
(ON Pump peristaltic). remains ON until the end of the cycle
Washing Station goes down (570mS).
Wait 2100mS
Washing Station goes up (570mS).
OFF = EV1 (empitying of the channel of the Probe1 is disabled), uP4 (ON uPump Probe5) , P.M0
(ON Pump peristaltic).
Cycle lasts 3790mS
********************************************************************************