D2NE1300SG_SW Manual_Nemo.indd

Transcription

SOFTWARE MANUAL
VERSION 1.3
-2-
INDEX
1
2
3
4
5
6
7
8
PROGRAM TREE........................................................................... PAGE 4
INTRODUCTION.............................................................................. PAGE 5
2.1
OPERATING LIMITS................................................................... PAGE 5
2.2
COMMAND BAR...................................................................... PAGE 5
2.3
USER INTERFACE..................................................................... PAGE 6
2.4
VIRTUAL KEYBOARDS................................................................ PAGE 8
2.5
SCREEN SAVER....................................................................... PAGE 9
HOME PAGE.................................................................................. PAGE 10
LOGIN............................................................................................. PAGE 11
SETTINGS....................................................................................... PAGE 12
5.1
HARDWARE SETTINGS................................................. PAGE 13
5.1.1 MEASURE DEVICES....................................... PAGE 14
5.1.2 DIGITAL I/O............................................... PAGE 30
5.2
GLOBAL SETUP......................................................... PAGE 33
5.3
LANGUAGE............................................................... PAGE 43
5.4
INFO...................................................................... PAGE 44
5.5
BACKUP/RESTORE..................................................... PAGE 45
5.6
NETWORK................................................................ PAGE 46
PROGRAMMING............................................................................ PAGE 49
6.1
PART PROGRAMS...................................................... PAGE 50
6.2
MASTER SET............................................................ PAGE 57
MEASURE....................................................................................... PAGE 61
7.1
MEASURE................................................................ PAGE 62
7.2
BATCHES................................................................. PAGE 65
SERVICE......................................................................................... PAGE 69
8.1
TRANSDUCERS VIEW.................................................. PAGE 70
8.2
I/O LINES MAP......................................................... PAGE 70
8.3
LIVE MEASURE.......................................................... PAGE 71
-3-
1
PROGRAM TREE
LOGIN
SERVICE
MEASURE
SETTINGS
PROGRAMMING
PAGE 11
PAGE 69
PAGE 62
PAGE 12
PAGE 49
MEASURE
BATCHES
PART
PROGRAMS
MASTER SET
PAGE 62
PAGE 65
PAGE 50
PAGE 57
TRANSDUCERS
VIEW
I/O LINES
MAP
LIVE
MEASURE
PAGE 70
PAGE 70
PAGE 71
GLOBAL
SETUP
HW SETTINGS
LANGUAGE
INFO
BACKUP
RESTORE
NETWORK
PAGE 33
PAGE 13
PAGE 43
PAGE 44
PAGE 45
PAGE 46
MEASURE
DEVICES
DIGITAL I/O
PAGE 14
PAGE 30
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2
INTRODUCTION
Nemo, compact, robust and reliable professional gage computer offers features
that enable you to perform simple measurement applications intuitively and
rapidly.
Nemo is capable of acquiring data from traditional wired and wireless measurement
devices, then the data locally or uploading the data to a LAN network in real time.
The 5.7”TFT colour display guarantees that the measurements are easy to read,
for your operators and the touch screen enables them to carry out programming
operations (password protected) and acquire data, without the need for external
input devices. The embedded architecture based on “RISC Processor Technology”
with the built in Secure Digital micro card provides powerful memory capacity.
An important function of the Nemo, when a system crash happens, it saves a .log
file with the complete backup of the Nemo. In that way, it is possible to recover
and analyze the situation just before the system crash.
2.1
Operating limits
Maximum number of sensors/transducers
8
Maximum number of characteristics
4
Maximum number of auxiliary characteristics
4
Maximum number of part programs
40
Maximum number of steps
8
Maximum number of batches
40
Maximum number of classes
32
2.2
Command bar
A command bar containing a series of buttons corresponding to the selected
menu is always displayed in the upper part of the screen, each button includes a
brief description, keeping on tapping on any button you can read a more detailed
description of the command associated.
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2.3
User interface
The user interface is a touch-screen, so it is necessary to tap the buttons and fields
to interact with the Nemo software, alternatively, it is possible to connect a USB type
mouse to navigate the screen easily.
HOME: to return to HOME PAGE
BACK: to return to upper level
Note: The HOME and BACK buttons are always present on the superior bar;
they are enabled and you get back to the home page or the previous page
displayed, tapping them
OK: appears on all windows programming, tap this button to exit and
save the data
CANCEL: appears on all windows programming, tap this button to exit
without save the data
SCROLL UP: tap this button to scroll towards the top of the current
page in order to display the elements that would otherwise be outside
the limits of the screen
SCROLL DOWN: tap this button to scroll towards the bottom of the
current page in order to display the elements that would otherwise be
outside the limits of the screen
SCROLL LEFT: tap this button to scroll towards the left of the current
SCROLL RIGHT: tap this button to scroll towards the right of the current
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NEW: tap this button to create a new element on the current page
SELECT: tap this button to select various elements on the current page
COPY: tap this button to copy one or more element on the current
page
DELETE: tap this button to delete one or more element on the current
page
EDIT: tap this button to modify one or more element on the current
page
PREVIOUS PAGE: tap this button to view the previous page
NEXT PAGE: tap this button to view the next page
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2.4
Virtual keyboards
The operator can enter data through by a virtual keyboards that vary in their format
depending on the language and type of data to be entered or modified.
Tap OK button to confirm the data that have been entered.
Tap this button to view the below page, where it is possible to switch from
alphabetic to numerical mode, and vice versa.
Note: It is also possible to connect a USB keyboard to Nemo, or a laser
scanner (for reading barcodes or datamatrix codes) if it is configured in
wedge emulation. To guarantee a correct functionality of those devices
we suggest to connect it before the Nemo startup.
-8-
2.5
Screen saver
It is possible to set up the screen saver from the GLOBAL SETUP menu.
If the Nemo screen is not tapped for a preset period, the following screen is
displayed.
Tapping on the screen to the last page will be shown.
Before setting the screen saver, you have to set the Standby parameters.
Note: In order to avoid any trouble, on the display, about the persistence
of a static image, it is strongly suggest to enable the screen saver mode
-9-
3
HOME PAGE
The menu provides access to all functions of the software.
Access to MEASURE page
User switching between ADMINISTRATOR and OPERATOR
Access to PROGRAMMING menu
Access to SETTINGS menu
Access to SERVICE menu
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4
LOGIN
Tap this button in HOME PAGE to enter in LOGIN menu.
In this section you can decide whether to enter the program with
OPERATOR rights.
ADMINISTRATOR
or
In order to access all the program functions, the user must log in as Administrator
since Operator level users cannot access certain parts of the program, for example,
in the section dedicated to the part programs, operators can view the existing
programs, but cannot modify the parameters or create new part programs, they
can, however, create batches and associate them with the existing part programs.
Operators may also view the devices connected to Nemo, but may not modify their
settings.
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5
SETTINGS
Tap this button in HOME PAGE to enter in SETTINGS menu.
In this section you can configure several parameters to meet your needs.
Access to HARDWARE SETTINGS menu
Access to GLOBAL SETUP menu
Change the LANGUAGE
Access to INFO about the Nemo software version and other
information
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Do a BACKUP of all data or perform a RESTORE OF a previous saved
configuration
Export the data on a NETWORK path
5.1
HARDWARE SETTINGS
Tap this button in SETTINGS menu to enter in HARDWARE SETTINGS menu.
Access to MEASURE DEVICE page
Access to DIGITAL I/O page
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5.1.1 MEASURE DEVICE
Tap this button in HARDWARE SETTINGS menu to enter in MEASURE DEVICE
page.
The MEASURE DEVICES page displays the devices connected to Nemo and the
transducers connected to them.
The following is a list of the devices that can be connected to Nemo.
• M1 Wave: Marposs Bluetooth® bore gauges with electrical plugs.
• M2 Wave: Marposs Bluetooth® snap with electrical plugs.
• I-Wave: Marposs Bluetooth® bore gauges with mechanical plugs.
• MultiWave: Marposs multisection bore gauges with Bluetooth® interface.
Manages up to 7 measurement channels, excluding the optional heat sensor (i.e.
a maximum of 6 channels if the system is also fitted with the heat sensor).
• Easy Box U1AIR: 1 pneumatic input.
• Easy Box U3AIR: 3 pneumatic inputs.
• Easy Box U4AIR: 4 pneumatic inputs.
• Easy Box U4H: 4 Marposs standard half-bridge/HBT transducers.
• Easy Box U4D: 4 Mitutoyo Digimatic compatible transducers.
• Easy Box U4T: 4 half-bridge/HBT compatible with Tesa amplifiers.
• Easy Box U4F: 4 Marposs standard full-bridge/LVDT transducers.
• Easy Box U8IO: 8 digital Input/Output.
• Easy Box U4P: push button for remote control and data acquisition.
• Easy Box U4M: “MG” 4 HBT transducers interface.
• Easy Box U4TP_E: for type-E thermocouples.
• Easy Box U4TP_J: for type-J thermocouples.
• Easy Box U4TP_K: for type-K thermocouples.
• Easy Box U4TE: for “Trac” tranducers.
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• Easy Box U4E: 3 inputs for incremental transducers.
• Easy Box U4F-HR: 4 Marposs standard full-bridge/LVDT transducers with
sub-micron resolution.
• Digi Crown: Marposs digital network for connecting various devices
Digi Crown_1LVDT
Digi Crown_2LVDT
Digi Crown_INOUT
Digi Crown_INPUT
Digi Crown_AN_IN
Digi Crown_ANENC
Digi Crown_DGENC
• Red Crown 2 USB: USB pencil probe.
The following list represents the serial devices managed by Nemo.
MARPOSS DEVICES:
• Quick Digit: digital dial indicators with RS232 (simplex or duplex comunication
protocol) or USB (duplex comunication protocol).
• Quick Read: compact electronic display unit.
• E4N: microprocessor column display unit.
SYLVAC DEVICES/PROTOCOLS:
• Caliper Simplex
• Caliper Duplex
• Holematic
TESA DEVICES/PROTOCOLS:
• Cal IP65
The connected devices are shown in the DEVICE NAME area; the boxes are
highlighted in green if the corresponding devices are connected and programmed
correctly, or in red if the devices are not programmed and/or connected correctly.
The transducers connected to the devices are shown in the TRANSDUCER NAME
area, the boxes are highlighted in green if the corresponding transducers are
connected and correctly programmed (the maximum number of transducers which
can be connected is 8), red if they are connected but not programmed correctly or
vice versa, and grey if they are neither connected nor programmed.
Note: We cannot guarantee the complete compatibility of the protocols
developed, to comunicate with these devices, due the continuous
developement performed by the manufactures of them. On demand we
can develop the protocol for a new serial device only if it is provided to us.
Please contact us for any other detail.
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Tap UPDATE to update the configuration of the connected devices
When this button is tapped, the following message will be shown:
Tap YES to update the configuration, so that all the elements currently connected to
Nemo are retained, and only those that are not connected will be cancelled.
It is suggest to Tap this button to carry out a complete update of the connected
devices. Otherwise Tap NO to update the configuration without any data retention.
- 16 -
How to connect a wireless device
1) Connect a Bluetooth® key dongle for wireless Marposs wave devices using the
USB port.
2) Tap UPDATE
in MEASURE DEVICE page.
3) The system recognizes that a Bluetooth® key dongle is connected, showing
the following message. Tap on YES.
4) Select the wireless device then tap on OK.
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5) Tap on OK on the following message when the device is ready to be set in
“DISCOVERABLE” mode, after that press the button until the led becomes red
continuosly from red blinking.
6) Wait until the operation is carried out.
7) When the binding operation is completed, a message, described in the step
3, it is displayed. If it don’t need to connect any other wireless device, tap on NO.
Now the wireless device is ready to use.
- 18 -
Tap CHECK to check that the connected devices configuration is corrected
When this button is tapped, the following message will be shown:
Tap YES to display an additional message that indicates the status of the connected
devices.
Tap SIMPLE to display only the types of devices that can be used to connect
the transducers to Nemo (DigiCrown, EasyBox and Bluetooth)
Tap ALL to display all the modules connected to Nemo
Tap REPLACE to replace a damaged device, with an identical model, without
losing the configuration data
In the event of a damaged device, replace it with an identical model, then tap
REPLACE. The below message will appear:
Tap YES, and, if the devices has been replaced correctly, the system will be updated
with the identity of the new unit.
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Tap TRANSDUCERS to access to the page that displays the connected
transducers
Tap μM| IN to switch from meters to inches and vice versa.
The message INV indicates that the transducer doesn’t work, the number in
parentheses is the error code. Below there is a list of error codes with the associated
descriptions.
1
Undefined transducer
2
Uncalibrated transducer
3
Wrong Mode
4
Transducer not connected
5
HW Error Offset
6
HW Error Gain
7
Transducer not ready
8
Overrange transducer
20 HWError (Incremental)
Error codes greater than 20 may have different meanings, depending on the type
of transducer.
Incremental
21 Warning Phase A
22 Warning Phase B
23 Warning Marker
24 Overspeed
25 Warning Phase Analogic
26 Synchronism Overrun
27 Warning Marker Phase A
28 Warning Marker Phase B
29 Warning Marker Phase A and B
30 Warning Phase A and B
31 No Power
- 20 -
When the field DEVICE NAME is selected, tap EDIT to modify the connected
devices configuration parameters
Depending on the connected devices, different pages are shown.
EASY BOX U4H
The following parameters are configurable:
• DEVICE NAME: to enter the device name.
• ACQUSITION DELAY 1÷4 [S]: to enter the acquisition delay.
Note: The measure resolution depends on the acquisition delay value.
The default value is the best trade-off between them, to get a better
resolution you must set an higher value on the acquisition delay.
Through that device, it isn’t allow to manage the complete range in some
pencil probe models.
- 21 -
EASY BOX U4P
• INPUT 1÷4: NORMAL or COMMUTATIVE.
Note: In the INPUT FIELDS is possible to choose NORMAL or COMMUTATIVE. The
difference between them is based on the behavior of the programmed
input bit.
EASY BOX U4E
• EXTERNAL POWER SUPPLY: YES OR NO.
Note: The EXTERNAL POWER SUPPLY must be changed to YES if it is present.
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DIGICROWN 1/2 CH LVDT
• ENABLE TEDS: enabling this function (choosing YES instead of NO), Nemo will read
the retentive data written on the head of the digital pencil probe.
• LINEARIZATION: this parameter gives the possibility to consider the linearization data.
• PRE-TRAVEL VALUE: to enter the pre-travel value.
• EXTRA-TRAVEL VALUE: to enter the extra-travel value.
The configurable parameters are the same for Digicrown 1 Ch and the Digicrown 2 Ch.
DIGICROWN AI
- 23 -
• VREF: the DigiBox AI (analog input) permits to drive an output voltage
(calibrated at the factory) for only voltage reference purpose (no supply). For
example to measure or transducers bridge, which need a voltage reference. The
value could be programmed when the Check Box is ticked.
• ENABLE FILTER: the DigiBox AI (Analog Input) permits to apply a digital filter IIR
LP to the analogic input measure. When the Check Box is ticked, it is possible to
insert the cut-off frequency value of the LP, Low Pass filter. If the Check Box isn’t
ticked, there is no filter ( maximum band and maximum noise).
BLUETOOTH DEVICE (M1 WAVE, M2 WAVE, MULTIWAVE, IWAVE)
Note: to communicate with a wave device, it is necessary to connect a
dongle Bluetooth® USB and performing successfully the binding of the
wave device.
• ACQUISITION SPEED: SLOW (10 samples/second), MEDIUM (20 samples/second), FAST
(40 samples/second).
• BATTERY TYPE: LI-ION, ALKALINE.
• TURN OFF TIME: to enter the turn off time.
• BATTERY LEVEL: it shows the battery level.
Note: it is possible to use up to 7 wave devices simultaneously.
- 24 -
RED CROWN2 USB
Tapping ALL, Nemo will display all modules connected. This operation is
required to show the following devices.
EASY BOX U8IO
• REFRESH TIME[S]: to enter the channel reading period (Minimum=0, Maximum=1).
- 25 -
DIGICROWN I/O ONLY INPUT
• FILTER TIME: this parameter, espressed in [ms], could set an optional filtering
(only present on the modules DigiCrown I/O), based on the minimum time on
staying on Low or High state of the physical input pin in order to be detected as
the next effective value. There is only one parameter for all 8 input pins.
DIGICROWN I/O INPUT/OUTPUT
• FILTER TIME: this parameter, espressed in [ms], could set an optional filtering
(only present on the modules DigiCrown I/O), based on the minimum time of
staying on Low or High state of the physical input pin in order to be detected as
the next effective value. There is only one parameter for all 8 input pins.
- 26 -
• WATCHDOG: to enter the watchdog time [s].
Note: the devices DigiCrown Y EMB and the BT Dongle are shown
if Nemo has the DigiCrown embedded and the dongle Bluetooth®
connected, they are interface devices instead acquisition devices.
DIGICROWN Y EMB.
• NET BAUDRATE: to enter the net baudrate (9600/208333/625000 bit/s).
BT DONGLE
- 27 -
Tap EDIT TRANSDUCER to modify the connected transducers configuration
parameters
Note: this function may also be accessed by double-tapping on the
connected transducers identification area.
• TRANSDUCER: to enter the number of transducer.
• SERIAL NUMBER: to enter the serial number.
• SENSOR TYPE: to enter the sensor type.
• MEASURE UNIT: to enter the measure unit.
• MEASURING RANGE: to show the measuring range.
• APPLICATION RANGE: to enter the application range.
• OFFSET: to enter an additional value at the transducer.
- 28 -
• CORRECTION: to enter a value with a meaning such as gain adjustment.
• ARM RATIO: to enter a moltiplicative factor at the transducer.
• SIGN INVERSION: to set the direction of the measure.
Below are shown the default value for this parameter and the direction of the
measurement value, when the sensor is pushed:
Device
Measurement value
when sensor is
PUSHED
Sign inversion
Pencil probe
(LVDT - HBT)
Decreasing
Yes
Wireless bore gauge
(LVDT)
Decreasing
No
Wireless bore gauge
(HBT)
Increasing
No
Pneumatic
(used with U1Air, U3Air, U4Air)
Decreasing
Yes
- 29 -
5.1.2 DIGITAL I/O
Tap this button in HARDWARE SETTINGS menu to enter in DIGITAL I/O page.
In order to minimize the efforts made by the user to program the device, Nemo
software manages digital signals (Input and Output) using precompiled lists of
signals. The operator can create the I/O layout according to his needs.
For more detailed information on the I/O Layout management, please contact the
nearest Marposs office.
Tap DEFAULT button to set the device functions in standard mode (ex.
EasyBox/footswitch)
Input signals
The management of the inputs occurs (unless otherwise indication) on the rising
edge.
• START/STOP TYPE1: the rising edge works as START, the falling edge works as
STOP. The same line is used to give both commands. On rising edge the START,
on falling edge the stop. This configuration is available (and cannot be changed)
in all the footswitch connected to Easy Box.
• START/STOP TYPE2: the first rising edge works as START, the second rising edge
works as STOP. The same line is used to give both commands. START and STOP
commands are active on rising edge, it means that two pushes on the button are
necessary to complete an acquisition. This configuration is available (and cannot
be changed) for all the M1 Wave pushbuttons.
• START: the rising edge works as START. START command active on rising edge.
• STOP: the rising edge works as STOP. STOP command active on rising edge.
• SKIP ZERO STEP: during the zeroing cycle it reports to pass to the next step.
• ZERO MODE: to go in the page where it is possible to perform the zeroing.
- 30 -
• MEAS MODE: to activate the measurement mode by batch.
• BATCH SELECTION: trigger to work with the Batch code.
• BATCH CODE: for example, if you program two consecutive bits with this value
you will address up to 4 batch. Trying to give more details, with those two bits
a code will be assigned to each batch using the binary code (00, 01, 10 or 11)
and it can be associated in the batch definition page the I/O index as 1, 2, 3 or
4 respectively. After this codification setting 1 on the Batch selection field, Nemo
starts working with the programmed batch. Please note that it is possible to use
up to 4 bits to code the batches.
• BACK STEP: to return at the previous step.
• BATCH 1÷16: to direct selection of the batch.
• STEP 1÷8: to direct selection of the step.
Output signals
• READY TO START: If it is high, it indicates that Nemo is ready to start a cycle (measure or
zeroing). It goes low when:
- Nemo is showing a programming page
- During an acquisition step
- The state is busy
• ZERO ERR: if an error happens during the zeroing it goes high. It goes low after a well
performed zeroing or exiting from zeroing procedure.
• PART GOOD: the signal indicates that last gauged part is GOOD. It works at the
end of the cycle; at the start of a new cycle it will be reset.
• PART REJECT: the signal indicates that last gauged part is SCRAP. It works at the
end of the cycle; at the start of a new cycle it will be reset.
• PART REWORKABLE: the signal indicates that last gauged part is REWORKABLE. It
works at the end of the cycle; at the start of a new cycle it will be reset.
• PART TREND: the signal indicates that last gauged part is in TREND range. It
works at the end of the cycle; at the start of a new cycle it will be reset.
• BATCH ERROR: this signal indicates an error during batch selection (the
addressed BATCH is not available) or measure interrupted by an error during
the sensor acquisition (sensor broken, disconnected).The measurement is
interrupted abnormally if one of the inputs is in over-range (programmed at
sensor level) upon completion of the measurement.
• CYCLE ERROR: it indicates an error on cycle.
• END CYCLE: it indicates that the gauging sequence is completed. It works at the
end of the cycle; at the start of a new cycle it will be reset
• MEASURE STEP RUNNING: It indicates that system is gauging. The signal
goes high subsequently the START signal (beginning of measure step) and it goes
down at the end of the measure step STOP signal.
• PART ZEROED: It indicates that the part, on the batch active, is zeroed. It works
if the state is MEASURE or READY. If a zeroing is requested, moving on measure
directly, with this signal low, it generates an error.
- 31 -
• PART ROTATION: It indicates that a dynamic measure step is running. It works
such as the MEASURE STEP RUNNING but it is active only on the measure steps
where there are dynamic measure acquisition programmed.
Note: the minimum time between two subsequent edges, in order to
be detected by Nemo is 200 milliseconds and the minimum time for
staying high the signal is 100 milliseconds.
100 ms
Signal 1: Start
Signal 2: Stop
200 ms
- 32 -
5.2
GLOBAL SETUP
Tap this button in SETTINGS menu to enter in GLOBAL SETUP pages.
Miscellanous page
In the MISCELLANOUS page, you can change the following parameters:
• PASSWORD ADMINISTRATOR: to enter the alphanumeric password for the administrator.
• PASSWORD OPERATOR: to enter the alphanumeric password for the operator user.
• CLASS MANAGEMENT: the possible choices are YES or NO. It is possible to manage
up to 32 classes, programmable in automatic or manual way. Before managing
the classes, in the part program menu, it is necessary to enable it in this menu.
• STANDBY (MIN): to enter the number of minutes after which the screen goes into
standby mode.
• SCREENSAVER (MIN): to enter the number of minutes after which the screen saver
is displayed, after going into standby mode.
Tap TIME button to change the date and/or the time
- 33 -
Video page
In the VIDEO page, you can change the following parameters:
• BARGRAPH MODE: VERTICAL, HORIZONTAL
• BARGRAPH BACKGROUND: BLACK, COLOUR
• MEAS. DISPLAY MODE: ABSOLUTE, DISPLACEMENT
• VIEW SOFTKEY TEXT: YES, NO
• BARGRAPH INDICATOR: FILLED, LED
• SAMPLE NUMBER: to insert the number of SAMPLE
Actions on batch closing
In the ACTIONS ON BATCH CLOSING page, you can change the following parameters to set
the default options at the moment of a batch creation:
• AUTOMATIC DATA EXPORT: NO, MEASURE.
- 34 -
Data export
In the DATA EXPORT page, you can change the following parameters:
• DATA EXPORT FORMAT: TEXT (.CSV), Q-DAS (.DFQ).
• EXPORT ON USB DISK: YES, NO, ONLY IF PLUGGED.
• EXPORT ON NETWORK: YES, NO, ONLY IF CONNECTED.
CSV FORMAT
FIELDS
DESCRIPTION
Date and time
Date and time of the measure
*
Separator (for characteristic)
Short Description
Name of the characteristic
Value
Value of the characteristic
UoM
Measure unit of the characteristic
Absolute value
Absolute value of the characteristic
Abs. value UoM
Measure unit of the absolute value
Nominal value
Nominal value of the characteristic
UTL Value
Upper tolerance value of the characteristic
LTL Value
Lower tolerance value of the characteristic
- 35 -
Q-Das FORMAT
K-FIELDS
DESCRIPTION
K0001
Date and time of the measure (for each characteristic)
K0002
Attribute
K0004
Time/Date
K0100
Total number of characteristics in file
K1001
Part number
K1002
Part description
K1041
Drawing Number Text
K1053
Contract
K2001
Characteristic Number
K2002
Characteristic Description
K2004
Characteristic Type
K2022
Decimal Places
K2101
Nominal Value
K2110
Lower Limit Value
K2111
Upper Limit Value
K2120
Lower Limit type
K2121
Upper Limit type
K2141
Unit
K2142
Unit Description
K2404
Gage Resolution
- 36 -
Network
In the NETWORK page, you can change the following parameters:
• IP ADDRESS, SUBNET MASK and DOMAIN: to connect the Nemo on the network.
Entering in this page it is possible to change the IP address of the Nemo, the
default IP address is 192.168.0.1.
Note: the system detects automatically all the domains of the
connected network .
For more information see the paragraph 5.6 “NETWORK”.
- 37 -
Serial output protocol
For the time being two different serial output protocols (DOP-STD01 e DOP-STD02
the same used by the Merlin SW) are managed by Nemo.
Note: it is recommended to use these serial output protocols through
EasyBox U4S.
Standard protocol N°1 (DOP-STD01)
The following description is concerning the standard data output protocol on a
serial port for the Nemo software, denominated DOP-STD01.
OUTPUT MESSAGE FORMAT
START
Name
Start
Name
Characters
Meaning
1
Start message character: <STX>
2
<CR><LF>
GLOBAL DATA
Characters
Meaning
Date
8
Date test was performed in “DD/MM/YY” format
Hour
8
Time test was performed in “HH:MM:SS” format
Program
20
Name of part program used
- 38 -
20
Serial number or progressive number of piece
within the active batch
Piece result
2
Code that indicates the result of the measurement
performed on the piece: G (good), T(trend),
R(eject), NV(not valid)
Number of
characteristics
2
Number of characteristics sent (only non auxiliary
characters are sent)
2
<CR><LF>
Serial number
CHARACTERISTIC DATA
The following information is sent for each characteristic
Name
Characters
Name
Meaning
3
Name of the characteristics.
Value
12
Absolute or relative measurement value, as
displayed. The value is formatted according to the
precision setup for the characteristic. The decimal
separator is always represented by a point. The
sign is always indicated.
Measurement
unit
4
Measurement unit symbol, as displayed (μm,
mm, °C…)
3
performed on the single characteristic: G,T+,T,R+,R-,NV+,NV-
2
<CR><LF>
Result
CLOSING
Name
Characters
Meaning
Checksum
3
Message checksum, defined as the low byte of
the sum of the ASCII codes of all the characters in
the message (apart from the stop message ETX
character and the final <CR> <LF>)
Stop
1
Stop message character: <ETX>
2
<CR><LF>
- 39 -
EXAMPLE OF DATA OUTPUT
In the following example, the values of two measurements (OG1 and OG2)
performed on good piece number 11 using the Biella program are transferred:
<STX><CR><LF>
10/01/0815:10:01biella______________11__________________G_2_<CR><LF>
OG1+24.1234____μm__G__<CR><LF>
OP1-12.123_____μm__G__<CR><LF>
xxx<ETX><CR><LF>
Legend:
<STX>: character ASCII 2
<ETX>: character ASCII 3
<LF>: character ASCII 10
<CR>: character ASCII 13
_ : ASCII space character 32
xxx: indicates the value calculated for the checksum
Standard protocol N°2 (DOP-STD02)
The following description is concerning the standard data output protocol on a
serial port for the Nemo software, denominated DOP-STD02.
OUTPUT MESSAGE FORMAT
START
Name
Start
Name
Characters
Meaning
1
Start message character: <STX>
2
<CR><LF>
GLOBAL DATA
Characters
Meaning
Date
8
Date test was performed in “DD/MM/YY” format
Hour
8
Time test was performed in “HH:MM:SS” format
Program
20
Name of part program used
Serial number
20
Serial number or progressive number of piece
within the active batch
Piece result
2
performed on the piece: G (good), T(trend),
R(eject), NV(not valid)
Number of
characteristics
2
Number of characteristics sent (only non
auxiliary characters are sent)
2
<CR><LF>
- 40 -
CHARACTERISTIC DATA
The following information is sent for each characteristic
Name
Name
Characters
Meaning
3
Name of the characteristics.
Value
12
Absolute or relative measurement value, as
displayed. The value is formatted according to
the precision setup for the characteristic. The
decimal separator is always represented by a
point. The sign is always indicated.
Measurement
unit
4
Measurement unit symbol, as displayed (μm,
mm, °C…)
3
performed on the single characteristic: G,T+,T,R+,R-,NV+,NV-
5
Characteristic classification code, calculated
on the basis of the measurement value, in
accordance with the table selected during the
programming phase. If the classification code
is not required for the characteristic a series of
space characters is sent instead.
2
<CR><LF>
Result
Class
CLOSING
Name
Characters
Meaning
Checksum
3
Message checksum, defined as the low byte of
the sum of the ASCII codes of all the characters
in the message (apart from the stop message
ETX character and the final <CR> <LF>)
Stop
1
Stop message character: <ETX>
2
<CR><LF>
- 41 -
EXAMPLE OF DATA OUTPUT
In the following example, the values of two measurements (OG1 and OG2)
performed on good piece number 11 using the Biella program are transferred. The
classification for the first measurement value is 02 for the second it is 05:
<STX><CR><LF>
10/01/0815:10:01biella______________11__________________G_2_<CR><LF>
OG1+24.1234____μm__G__02___<CR><LF>
OP1-12.123_____μm__G__05___<CR><LF>
xxx<ETX><CR><LF>
Legend
<STX> : character ASCII 2
<ETX> : character ASCII 3
<LF> : character ASCII 10
<CR> : character ASCII 13
_ : ASCII space character 32
xxx: indicates the value calculated for the checksum
Note: the only difference between protocol DOP-STD01 and protocol
DOP-STD02 is that the latter also includes the characteristic class code
- 42 -
5.3
LANGUAGE
Tap this button in SETTINGS menu to enter in LANGUAGE pages.
Available languages: English, Italian, French, German, Japanese, Spanish,
Portuguese, Chinese, Dutch, Swedish, Polish, Hungarian, Czech and Korean.
- 43 -
5.4
INFO
Tap this button in SETTINGS menu to enter in INFO pages.
In this page, you can find the information about the software version.
Tap UPDATE button to update the Nemo firmware.
To update the firmware, connect a USB (pen drive / flash drive / memory
stick) containing the updated version of the firmware, then tap UPDATE
button.
Tap RESET button to delete all the programming, getting back to the
factory settings.
Tap on YES if you want to reset Nemo to factory settings, otherwise tap on NO.
- 44 -
5.5
BACKUP/RESTORE
Tap this button in SETTINGS menu to enter in BACKUP/RESTORE page.
Tap BACKUP button to save all configurations (hardware, part programs,
general settings, measure acquisition)
Tap RESTORE button to chose the data that you’d like to restore (see the
points described below)
Tapping the RESTORE button, a window will be opened to select the type of restore :
• RECOVERY: to restore all previously saved data (this function is useful when it is
necessary to break a Nemo in order to upload its data to a new one).
• CLONE PROGRAMMING AND HARDWARE SETTINGS: to restore all previously saved
data, with the exception of the measurement acquisitions.
To restore hardware configurations, it is necessary to execute a “REPLACE” from the
“MEASURE DEVICE” menu.
• CLONE PROGRAMMING: to restore only the part programs, and the associated
characteristics which were saved previously.
- 45 -
5.6
NETWORK
Tap this button in SETTINGS menu to enter in NETWORK page.
In NETWORK page, it is possible to change the following parameters:
• USER and PASSWORD: to insert the credentials if they are required from the
network.
• DOMAIN: to show the domain previously programmed in the NETWORK page in
GLOBAL SETUP.
• SERVER: to select the server.
• SHARE: to set the folder where the system exports the data.
Tap CHECK button to verify if the connection at the REMOTE PATH
(programmable in the DATA EXPORT page in GLOBAL SETUP) is possible.
The field REMOTE PATH will change his colour from grey to green if the
connection is possible and in red if it isn’t.
- 46 -
Tap SUBDIR button to select the sub-directory where the data will be
exported
At the batch closing, the data can be saved in three different mode:
• The data can be exported automatically on a USB disk, setting the related
parameter in the page DATA EXPORT of the GLOBAL SETUP (EXPORT ON USB=YES).
• The data can be exported automatically on a network path, setting the relative
parameters in the page DATA EXPORT (EXPORT ON NETWORK=YES) and NETWORK
pages (IP ADDRESS, SUBNET and DOMAIN) of the GLOBAL SETUP.
Note: in this case it is necessary to create a shared folder on the connected
PC (server) and if the Nemo IP address is 192.168.0.1 (default), it has to
set the PC IP address on a similar way (for example 192.168.0.2).
- 47 -
• In the Nemo internal memory, there are data saved which is downloadable
manually in a USB disk tapping the TRANSFER soft-key in the BATCH page or from a
PC using a FTP client.
In this case it is possible to explore the content of some folders, downloading
any data saved related to the batches and parts gauged, using a software
(like FileZilla, NotePad++, etc.) or by browser (like Internet Explorer, FireFox,
Chrome, etc.) writing on the address bar “ ftp://” and the IP address, assigned to
Nemo, as in the figure below:
- 48 -
6
PROGRAMMING
Tap this button in HOME PAGE to enter in PROGRAMMING menu.
To enter in PART PROGRAMS menu
To enter in MASTER SET menu
- 49 -
6.1
PART PROGRAMS
Tap this button in PROGRAMMING menu to enter in PART PROGRAMS
pages. Tap NEW to create a new part program.
The part program name may not contain characters that Microsoft® Windows®
does not accept as part of file names (E.g. / \ : * ? “<>| ø...). If any of these
characters is used, the system will allocate as part program name a string
containing the exportation date and time (YYYYMMDDhhmmss) during the
batch export phase.
Part program definition
• NAME: name of the part to be programmed.
• DESCRIPTION: description of the part to be programmed.
• DRAWING NUMBER: reference DRAWING NUMBER.
- 50 -
Step definition
The configuration parameters are described below.
• NAME: name of the step to be programmed.
• DESCRIPTION: description of the measurement STEP.
• MESSAGE: measurement STEP MESSAGE; this message appears in the page heading
highlighted in yellow, and it can be used to provide assistance to the operator.
• INITIAL DELAY (SEC): initial measurement delay setting (in sec.).
• ACQUISITION TIME (SEC): data acquisition period (in sec.).
Miscellaneous page (Characteristics definition)
This page is used to enter the basic CHARACTERISTIC data, i.e. name, FORMULA and
tolerance limits.
• NAME: to enter the FORMULA name.
• DESCRIPTION: full description of the characteristic.
- 51 -
• TYPE: to select the measurement type (options: generic, external diameter,
internal diameter, external distance, internal distance, taper, ovality, barrelshape,
straightness, flatness, circularity, cylindricity, parallelism, perpendicularity,
angularity, position, concentricity, coaxiality, symmetry, runout, total runout).
• FORMULA: the FORMULA may include TRANSDUCERS, mathematical functions or
previously acquired measurements, up to a maximum of 60 characters. Tap the
“T” button to select the transducers list. Tap a line to add the corresponding
TRANSDUCER to the FORMULA. Tap the “M” button to select the CHARACTERISTIC list. Tap a
line to ADD the corresponding CHARACTERISTIC to the FORMULA.
The following mathematical and trigonometric functions are available:
SIN():
sine function
COS():
cosine function
TAN():
tangent function
ASIN():
arcsine function
ACOS():
arccosine function
ATAN():
arctangent function
CTAN():
cotangent function
SQRT():
square root function
ABS():
POW(X,Y):
power function where x is the
base and y the exponent
absolute value function
MAX:
function for determining the
MIN: function for determining the
maximum value between N operands
minimum value between N operands
(the maximum number of operands are (the maximum number of operands are
10); e.g. max (M1,M4)
10); e.g. min (T1,T2,T3)
PI: high resolution pi function
IN: the operator can manually input a
function that generates random
measurement for the characteristic
values
• DYNAMIC ACQUISITION:
MAXIMUM: returns the maximum value read during the dynamic cycle
MINIMUM: returns the minimum value read during the dynamic cycle
RANGE: returns the maximum value minus the minimum value
AVERAGE: returns (Maximum+Minimum)/2
MID RANGE: returns (Maximum-Minimum)/2
• FORMULA RESULT: it defines whether the measurement detected in the FORMULA is
absolute, or not. If so, the system subtracts the NOMINAL VALUE from the processed
value, whereas in the second case it adds the two values together.
• AUXILIARY: very often applications use intermediate Characteristics to elaborate
another CHARACTERISTIC. These “auxiliary characteristics” are not involved in the part
status evaluation, not stored in the batch and it is possible to exclude them from
the display too. It is possible to configure the measuring steps with auxiliary
characteristics only (visible or not visible); the only limitation is that a PART PROGRAM
must contain at least one OK/NG CHARACTERISTIC.
• DISPLAY: if the auxiliary measurements are enabled, selecting this check box
the user can see these measurements on the screen.
RAND:
- 52 -
Tolerance limits (Characteristics definition)
This page is used to enter the tolerance limits and other parameters.
• MEASURE UNIT: to enter the MEASURE UNIT. The possible choices are:
μM: micron
DEG:
MM:
millimetre
degrees and hundredths °C: degrees Celsius
‘: minutes
MRAD:
S:
seconds
MS:
H:
hour
G:
M/MIN:
HZ:
metres per minute
Hertz
milliradians
milliseconds
grams
μM/SEC: microns per second
NUM:
INCH:
inch
°F: degrees Fahrenheit
MIN:
minutes
μS: microseconds
MM/MIN:
RPM:
mm per minute
revolutions per minute
number
• PRECISION: it defines the number of decimal figures to be used for the Characteristic.
• LIMITS TYPE: the possible choices are:
BILATERAL: the upper and the lower tolerance limits are programmable, as values
related to the nominal value. The part is good, if the value is between these two limits.
UNILATERAL (UPPER LIMIT): the upper limit is programmable while the lower limit is fixed to
0. The part is good, if the value is between 0 and the upper limit.
UNILATERAL (LOWER LIMIT): the lower limit is programmable while the upper limit is fixed to
0. The part is good, if the value is between the lower limit and 0.
ONE LIMIT ONLY (UPPER): the upper limit is programmable while the lower limit isn’t
defined. The part is good, if the value is less than the upper limit.
ONE LIMIT ONLY (LOWER): the lower limit is programmable while the upper limit isn’t
defined. The part is good, if the value is more than the lower limit.
• NOMINAL VALUE: to enter the NOMINAL VALUE.
• TREND: to enable or disable the TREND.
• REJECT: to set the upper and lower limits for reject parts.
• REWORKABLE: to set the upper and lower limits for reworkable parts.
- 53 -
Zeroing parameters (Characteristics definition)
Tap on ZEROING PARAMETERS to assign a MASTER SET (previously configured) to the
CHARACTERISTIC.
Classification (Characteristics definition)
Note: this page is shown only if the function “CLASS MANAGEMENT”, on the
menù “GLOBAL SETUP”, is enabled.
In this page, there is a numeric field to program the number of the measurement
classes (from 0 to 32). Setting 0 (the default value), this management is disabled.
Changing the number of the classes or tapping the softkey “UPDATE”, it is asked if it
necessary to recalculate the ranges of these classes.
- 54 -
Tapping “YES”, it will displayed the next page containing the classes set.
The ranges are calculated by Nemo with an uniform distance, the user can
change them later, meeting its needs.
The only check, performed at the end of the programmation, is about the
consistency of the ranges (a threshold value has to be upper than the previous
one and lower than the next one).
To make more explicit the limits of every class, the threshold and the name are
programmable by the user and the range will be displayed, like in the previous
screenshot.
- 55 -
Structure of Part Programs
Once the CHARACTERISTIC has been defined, it is possible to view the complete
structure of the PART PROGRAM that has been created.
The following table includes all information entered during the programming
phase: the PART NAME, the measurement STEP, the CHARACTERISTIC, the TOLERANCE
LIMITS and the MASTER SET.
This page enables the user to continue programming by adding new steps, new
measurements and new zeroing steps. To add a new element, select the element
to be added by highlighting it in the display and then tap ADD. The UP and DOWN
functions allow the user to move the selected element around the tree structure.
It is possible to program up to 8 characteristics, 4 standard and 4 auxiliaries.
The COPY function allows the user to copy a step.
- 56 -
6.2
MASTER SET
Tap this button in PROGRAMMING menu to enter in MASTER SET pages.
Tap NEW to create a new master set.
The MASTER SETS are groups of real masters used to zero and adjust the sensitivity
on the programmed characteristics. Each set can be created using one (ZEROING
ONLY), two (min/max mastering - SENSITIVITY) or three masters (ZEROING & SENSITIVITY).
For each master, it is possible to program a master value, a SERIAL NUMBER and a
MESSAGE to guide the operator during the acquisition.
- 57 -
Miscellaneous page (Master set definition)
When creating a new MASTER SET, in the MISCELLANEOUS page it is possible to define
the basic MASTER SET information.
• NAME: name of the MASTER SET to be programmed.
• DESCRIPTION: description of the MASTER SET (optional).
• TYPE: to choose the MASTER SET type, the possible choices are described below
ZEROING: a static master
SENSITIVITY: two static masters
ZEROING & SENSITIVITY: three static masters
• PRECISION: defines the number of places after the decimal point for the
dimensions that make up the MASTER SET (options: x1, x0.1, x0.01, x0.001, x0.0001,
x0.00001).
• MEASURE UNIT: measurement units for the dimensions that make up the MASTER SET
μM: micron
DEG:
MM:
millimetre
degrees and hundredths °C: degrees Celsius
‘: minutes
MRAD:
S:
seconds
MS:
H:
hour
G:
M/MIN:
HZ:
metres per minute
Hertz
milliradians
milliseconds
grams
μM/SEC: microns per second
NUM:
number
- 58 -
INCH:
inch
°F: degrees Fahrenheit
MIN:
minutes
μS: microseconds
MM/MIN:
RPM:
mm per minute
revolutions per minute
Dimensions (Master set definition)
In the DIMENSIONS page, according to the number of dimensions of the MASTER SET,
it is possible to set the ZERO LIMIT, the PERIODIC LIMIT and the ZERO MASTER value for
each dimension. If MASTER SET TYPE foresees up to three masters for zeroing and
sensitivity correction, two more master values must be defined for each dimension.
Tap on the field to be changed, and then edit the value tapping on the relevant button.
• ZERO LIMIT: this value is the maximum allowed difference between the last
acquired zero and the first.
• PERIODC LIMIT: this value is the maximum allowed difference between the last
acquired zero and the last but one.
• ZERO MASTER: this is the certified value of the master associated with the zero.
- 59 -
Serial Number (Master set definition)
On the SERIAL NUMBER the user can enter a series of traceability data regarding the Master.
It is possible to use up to 20 characters to enter the serial number and the associated
message, without distinction between letters and numbers.
The message helps the operator to identify the master to be used quickly (for example,
the message could consist of the diameter of the master and letter indicating whether it
is the internal or external diameter).
- 60 -
7
MEASURE
Tap this button in HOME PAGE to enter in MEASURE menu.
To enter in MEASURE page
To enter in BATCHES menu
- 61 -
7.1
MEASURE
Tap this button in MEASURE menu to enter in MEASURE page.
This page allows the user to view the measurements acquired by the devices
connected to the Nemo in real time. Up to 8 measurements (4 OK/NG+4 auxiliary)
may be displayed simultaneously; if there are more than 4 measurements it is
necessary to scroll the page in order to view all of them. If there is more than one
step, the steps that correspond to the current measurement are highlighted in yellow.
The functions of this page are described below:
• START: to start the measurement sequence or the measure step acquisition.
• STOP: to stop the measuring step acquisition or if it is the last step, to stop the
measurement sequence.
• UP: to see the upper lines of measure (if the measurements are more than four).
• DOWN: to see the lower lines of measure (if the measurements are more than four).
• DELETE: the DELETE function enables the user to delete the last acquisition.
If this button is tapped during a step acquisition, the operator can decide whether
to delete the last step only or all the previous ones, (limited to the steps associated
with the last part).
The ZEROING functions allow to set/reset a zero value on the transducer.
This value is for set-up purpose only, and does not affect the
measurement value.
Tap on ZEROING to carry out the device electrical zeroing procedure.
This button will be displayed only if a Master Set is associated to the
characteristic in use.
- 62 -
Tap on CHART button to display the page containing the control
chart for the batch in use. After that, the following page will be displayed.
Tap on OFFSET button to display the zero adjustment page. After that, the
below page will be displayed.
Selecting the option REAL VALUE you can carry out the zero adjustment sampling the
value, instead selecting the option OFFSET you can carry out manually the zero
adjustment.
This page was specifically designed to help the user on programming of OBD
(Over Ball Dimension) issues.
- 63 -
Bar
1
2
4
3
5
1) Name of the active BATCH
2) PART PROGRAM name
3) STEP name
4) Number of GOOD parts (percentage of OK parts)
5) Number of SCRAP parts (percentage of NG parts)
6) Number of TREND parts (percentage of TREND parts)
7) Total number of measured parts
8)
Good parts
Trend parts
Reject parts
- 64 -
8
6
7
7.2
BATCHES
Tap this button in MEASURE menu to enter in BATCHES pages.
This menu contains the commands that are used to manage the BATCHES, i.e. the
data structures used for collecting the measurements. The BATCHES are used primarily to store the data, but also to arrange the measurements in layers according to
the time they were collected in order to prepare the data for further statistical
analysis (in a separate off line device) and to correlate the data collection with the
production BATCHES.
In this page, you can find an Open Batches list, where you can use the following
functions:
• MEASURE: to enter in measure page of the selected Batch.
• ALL: to view all the Batches (both opened and closed).
- 65 -
The ALL function can be used to view all active and closed batches and generate
an alternative command list that enables the operator to work on closed BATCHES,
exporting and deleting them.
In addition to the usual options, you can perform the following operations:
• EXPORT: to export the selected BATCH to a file. The user may decide to export only
the measurements, other correlated data, or the measurements and the other
correlated data.
• TRANSFER: to export all the batches on an USB key.
• OPEN: to open a closed batch.
• CLOSE: to close an opened batch.
• OPENED: to view only the opened batches.
Note: The EXPORT and TRANSFER functions are available only for the closed
batches.
- 66 -
Batch editing
Creating a new BATCH, runs the following window, where you can select the PART
PROGRAM associated with the new BATCH.
Once the PART PROGRAM has been associated, the following set-up pages are available.
Note: The following pages are the same both for the creation of a new
batch and for the update of an existing batch.
Miscellaneous page (Batch definition)
• NAME: name of the BATCH to be programmed.
• I/O INDEX: the I/O index function allows to automatically switch BATCH, and
relevant part program associated, through a digital input sent by an external logic
(PLC) or manually by a push button/rotary switch.
• SELECTION CHANNEL: to select the TRANSDUCER that triggers the change. Each
transducer may only be used to select a single batch.
- 67 -
Close batch (Batch definition)
In CLOSE BATCH page, you can change the following parameters about the action
on batch closing:
• AUTOMATIC DATA EXPORT: NO, MEASURE.
Batch duration (Batch definition)
In BATCH DURATION page, you can set the maximum number of the batch parts.
The default value and the upper limit is 20000 parts. It is possible to manage the
lenght of a batch through the hours and the minutes programmable.
Note: If you select the automatic closure when a new batch is created, it
will not be possible to modify the main parameters (e.g. tolerance, etc.).
The minimum time between a stop cycle and the next start cycle is 1
second.
- 68 -
8
SERVICE
Tap this button in HOME PAGE to enter in SERVICE menu.
To enter in TRANSDUCERS VIEW page
To enter in I/O LINES MAP page
To enter in LIVE MEASURE page
- 69 -
8.1
TRANSDUCERS VIEW
Tap this button in SERVICE menu to enter in TRANSDUCERS VIEW page.
This page enables the operator to check whether all the transducers, connected
to the Nemo, work.
8.2
I/O LINES MAP
Tap this button in SERVICE menu to enter in I/O LINES MAP page.
This page enables the operator to check whether all the I/O devices, connected
to the Nemo, work.
- 70 -
8.3
LIVE MEASURE
Tap this button in SERVICE menu to enter in LIVE MEASURE page.
This page displays the measurements in real time, even if they are not associated
with a batch and without START and STOP.
Tap PARTS, to select from the list the desired PART PROGRAM then tap on OK.
Note: At least one part must have been set-up to enable this function.
- 71 -
- 72 -
NOTES:
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
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________________________________________________________________________
________________________________________________________________________
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________________________________________________________________________
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________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
- 73 -
NOTES:
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
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________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
- 74 -
NOTES:
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
________________________________________________________________________
- 75 -
2002/95/CE
2002/96/CE
INFORMATION FOR USERS
concerning the terms of the National Legislation enforcing the Directives 2002/95/EC, 2002/96/
EC and 2003/108/EN on the restriction of the use of certain hazardous substances in electrical
and electronic equipment, and the disposal of waste materials
The wheelie bin symbol with a cross through it on the equipment or its packaging indicates that the product
must be disposed of separately from other waste materials at the end of its working life.If the user wishes
to dispose of this equipment, he/she must do so in accordance with the applicable National regulations
governing the separation of the unit into its waste materials at the end of its working life. Separating
waste materials correctly before submitting the equipment for recycling, treatment and environmentally
compatible disposal can help to prevent potentially negative effects on health and the environment, as well
as making it easier to reuse and/or recycle its constituent materials. Failure to dispose of this product in
accordance with these indications is punishable in accordance with the applicable laws.
A full, up-to-date list of addresses is available at the official Marposs web site: www.marposs.com
D2NE1300SG – Edition 10/2013 – Details may change without prior notice.
© Copyright 2013 MARPOSS S.p.A. (Italy) – All rights reserved.
MARPOSS, and other names/signs relative to Marposs products, referred to or shown in this document are registered trade marks
or trade marks of Marposs in the United States and in other countries. Any third party rights relating to trade marks or registered
trade marks referred to in this document are recognised for the respective holders.
Marposs has an integrated Company Management system for quality, the environment and safety, with the following
certification: ISO 9001, ISO 14001, OHSAS 18001 and QS9000 T&E. Marposs has also been awarded EAQF 94 and the
Q1-Award.

D2NE1300SG_SW Manual_Nemo.indd

Transcription

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