METRIX OX 7042, OX7046, OX7102, OX7104, OX7202 User Guide

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Pôle Test et Mesure de CHAUVIN-ARNOUX

Parc des Glaisins - 6, avenue du Pré de Challes

F - 74940 ANNECY-LE-VIEUX

Tél. +33 (0)4.50.64.22.22 - Fax +33 (0)4.50.64.22.00

X03311D00 - Ed. 1 - 09/10

Page 2

General Instructions

Contents

General instructions Chapter I

General...................................................................................................4

Software updating.................................................................................7

Description of the instrument Chapter II

Presentation ......................................................................................... 9

Views....................................................................................................10

Terminal Boards..................................................................................11

Activation.............................................................................................16

Battery..................................................................................................17

Using the menus .................................................................................19

Network................................................................................................19

Micro SD Card .....................................................................................23

Description of Accessories C

HX0061 ...............................................................................................28

HX0063 ...............................................................................................28

PROBIX ...............................................................................................29

HX0030..................................................................................30

HX0031..................................................................................31

HX0032..................................................................................32

HX0033..................................................................................33

HX0034..................................................................................34

HX0035..................................................................................35

HX0036..................................................................................36

HX0072..................................................................................37

HX0073..................................................................................38

Recommendations for use.................................................................40

Oscilloscope Mode Chapter IV

Keys......................................................................................................42

Display..................................................................................................47

Menus

"Vertical" menu .................................54

"Trigger" menu .................................66

"Horizontal" menu ................................. 77

"Display" menu .................................82

"Measurement" menu.................................84

"Memory" menu.................................89

"Utilities" menu .................................92

"Help" menu .................................99

Multimeter Mode Chapter V

Keys....................................................................................................102

Display................................................................................................104

Menus.................................................................................................107

"Vertical" menu ...............................108

"Trigger" menu ...............................110

"Horizontal" menu ............................... 111

"Display" menu ...............................111

"Measurement" menu...............................113

"Memory" menu...............................116

"Utilities" menu ...............................116

"Help" menu ...............................116

hapter III

I - 2 SCOPIX

Page 3

General Instructions

Harmonic Analysis Mode Chapter VI

Display................................................................................................118

Menus

"Vertical" menu ...............................122

"Horizontal" menu ............................... 124

"Display" menu ...............................125

"Measure" menu...............................125

"Memory" menu...............................126

"Utilities" menu ...............................126

"Help" menu ...............................126

Recorder Mode Chapter VII

Keys....................................................................................................128

Display................................................................................................131

Menus

"Trigger" menu ...............................140

"Horizontal" menu ............................... 145

"Display" menu ...............................146

"Measurement" menu...............................147

"Memory" menu...............................149

" Utilities" menu ...............................152

"Help" menu ...............................154

Vertical" menu ...............................139

HTTP and FTP Server Chapitre VIII

General...............................................................................................156

ScopeNet............................................................................................157

ScopeAdmin ......................................................................................167

PolicyTool..........................................................................................169

FTP Server .........................................................................................170

Applications Chapter IX

Display of the calibration signal...........................................................171

Automatic measurements...................................................................173

Cursor measurements ........................................................................174

Phase offset measurement with cursor...............................................174

Automatic phase measurement..........................................................174

Manual phase measurement...............................................................175

Videosignal display..............................................................................175

Examination of a specific TV line........................................................177

Automatic measurement in “Harmonic Analysis” Mode......................178

“ROLL” Mode display of slow phenomena..........................................180

Min/Max Acquisition ............................................................................181

Measurement in “Multimeter” Mode....................................................183

Measurement in “Recorder” Mode......................................................184

ETHERNET network application examples ........................................ 188

File transfer.........................................................................................188

Hard copy on network printer..............................................................189

Installation of a FTP server.................................................................190

”Virtual Printers”..................................................................................194

Technical Characteristics C

Specifications.........................................................................200 to 217

General & Mechanical Specifications Chapter XI

Specifications ...................................................................................218

Supply C

Supply ...............................................................................................219

hapter X

hapter XII

Index

SCOPIX I - 3

Page 4

General Instructions

Introduction

Congratulations ! You have just purchased a portable digital oscilloscope

Thank you for your trust in the quality of our products. Here is the family of instruments to which it belongs:

SCOPIX II OX 7042

SCOPIX II OX 7062

SCOPIX II OX 7102

SCOPIX II OX 7104

SCOPIX II OX 7202

SCOPIX II OX 7204

monochrom or color

color 2-channel 100 MHz 2,5 GS/s sample

color 4-channel 100 MHz 2,5 GS/s sample

color 2-channel 200 MHz 2,5 GS/s sample

color 4-channel 200 MHz 2,5 GS/s sample

2-channel 40 MHz 2,5 GS/s sample

2-channel 60 MHz 2,5 GS/s sample

✧ All instruments in this range are equipped with Micro SD card.

This oscilloscope also offers the following modes:

• Multimeter mode

• Harmonic Analyser mode (option)

• Recorder mode (option)

• Other possible options, see p. 7  Check our website regularly.

It complies with safety standard NF EN 61010-1 (2001), double insulation, relative to electronic measuring instruments.

For optimum service, read this manual carefully and comply with the operating precautions.

Non-compliance with the warnings and/or operating instructions might damage the instrument and/or its components and could prove dangerous for the user.

Precautions and

afety measures

• This instrument has been designed for use:

- indoors

- in an environment with pollution level 2,

- at an altitude of less than 2000 m,

- at a temperature between 0°C and 40°C

- with relative humidity of less than 80% up to 31°C.

• The safety of any system integrating the apparatus concerns the

responsibility of the assembler of the system.

• It can be used for measurements on circuits 600V CAT III, 1000V CAT II

in relation to earth and can be powered by a 98 to 264V mains network, with an external power supply. However, some accessories can lead you to use this instrument on circuits of lower voltage and category. Conform the given values when connecting the accessory.

I - 4 SCOPIX

Page 5

General Instructions

General Instructions (cont’d)

Precautions and safety measures (cont’d)

before use

during use

Definition of

measurement

Symbols used on the instrument

SCOPIX I - 5

Warning: Risk of danger. Refer to the operating manual to find out the nature of the potential hazards and the action necessary to avoid such hazards.

Earth Dual insulation Selective sorting of waste for recycling electric and electronic materials.

In accordance with the WEEE 2002/96/EC directive: must not be treated as household waste.

Application or withdrawal not authorized for non-insulated conductors carrying dangerous voltage levels

Page 6

General Instructions

General Instructions (cont'd)

Warranty

Maintenance and metrological verification

This equipment is guaranteed for 3 years against any defect in materials or workmanship, in accordance with the general terms and conditions of sale.

It can only be repaired by the manufacturer. The manufacturer reserves the right to carry out repair or replacement of all or part of the equipment. If the equipment is returned to the manufacturer, initial transport costs shall be borne by the customer.

The warranty does not apply following:

• unsuitable use of the equipment or use with other in

compatible

equipment

• modification of the equipment without explicit authorization from the

manufacturer’s technical services

• repair carried out by a person not certified by the manufacturer

• adaptation to a specific application, not provided for in the definition of

the equipment or by the operating manual

• an impact, a fall or a flooding.

Before the equipment is opened, it must be disconnected from the mains supply and the measurement circuits, and the operator must not become charged with any static electricity. This could cause the destruction of internal parts.

Any adjustment, servicing or repair of the unit under power must be undertaken only by qualified personnel, after reading the instructions in this manual.

A qualified person is a person who is familiar with the installation, its construction, its use and the hazards that exist. They are authorized to activate and deactivate the installation and equipment, in compliance with the safety instructions.

As for all surveying equipment, yearly metrological checks are necessary. These checks can also be done as part of preventative maintenance.

Information and contact details : contact your nearest distributor.

Unpacking Repacking

All the equipment was verified mechanically and electrically before shipping.

When you receive it, carry out a quick check to detect any damage that may have occurred during transport. If necessary, contact our sales department immediately and register any legal reservations with the carrier.

In the event of reshipping, it is preferable to use the original package. Indicate the reasons for the return as clearly as possible in a note attached to the equipment.

Repair

For all repairs before or after expiry of warranty, please return the device to your distributor.

I - 6 SCOPIX

Page 7

General Instructions

General instructions (cont'd)

Cleaning

• Turn the instrument off.

• Clean it with a damp cloth and soap.

• Never use abrasive products or solvents.

• Allow to dry before any further use.

Update the instrument's internal software

• Log on to the www.chauvin-arnoux.com website.

• In the "Support" section, select "Download Center".

• Download the "firmware" corresponding to your instrument model.

• Also download the installation instructions for this firmware.

• Refer to these instructions to update your instrument.

SCOPIX I - 7

Page 8

General Instructions

I - 8 SCOPIX

Page 9

Description of the instrument

Oscilloscope

Description of the instrument

This manual describes the operation of an OX 7204 oscilloscope. OX 7xx4 : the adjustment of the 4 channels is accessible by the opposite keys.

OX7xx2 : the adjustment of the 2 channels is accessible by the opposite keys.

Presentation

This instrument is part of our range of portable oscilloscopes. Its special feature is that it groups 4 instruments into one:

FFT

function

Digital

Harmonic

Analyzer

OX 7042 OX 7062 OX 7102 OX 7104 OX 7202 OX 7204

Multimeter

Recorder

• DC voltage measurement

• AC voltage measurement

(RMS)

• Current measurement for

clamps

• Resistance measurement

• Condenser measurement

• Diode test

• Continuity test

• Temperature measurement

PT100 or TCK

• a digital oscilloscope for laboratory use, intended for the analysis of the

signals encountered in electronics and electrical engineering

• an 8,000-count multimeter

• a "harmonic" analyzer, for breaking down 4 signals (or 2) (option)

• a recorder, designed to capture single or slow signals (option)

All the channels are insulated from one another for measurements on 600V CAT III, 1000V CAT II installations with appropriated PROBIX accessories while complying with the standard IEC 61010-1 (2001).

The instrument works with a constant acquisition depth of 2500 counts. Memory management is organized using a "Windows®"-type file system. A large LCD screen is used to view the signals applied, along with all the

settings. The main control functions are directly accessible using the keys on the front

panel and can be modified using a touch-sensitive pad with the stylus supplied.

A graphical interface similar to a PC's is used to:

• select the advanced functions by means of drop-down menus and the

touch-sensitive pad

• act directly on the objects (curves, cursors, etc.) displayed on the screen.

This means that the settings can be modified.

This instrument is completed by :

USB via HX0084 adapter ETHERNET CENTRONICS (option) RS232 via HX0042 cable (option)

SCOPIX II - 9

Page 10

Description of the instrument

Description of the instrument (cont'd)

OX 7202

Front Panel

Rear Panel

II - 10 SCOPIX

Page 11

Description of the instrument

Cover of

the battery

Description of the instrument (cont'd)

OX 7204

Front Panel

Rear Panel

Stylus

Fans

Stand

pack

Strap

Using the stand

SCOPIX II - 11

The oscilloscope is equipped with a tilt-stand, allo placed on a benchtop.

wing easy viewing while

Page 12

Description of the instrument

Description of the instrument (cont'd)

Markings on rear

panel

TO AVOID ELECTRICAL SHOCK

DISCONNECT LEADS, PROBES AND

POWER SUPPLY BEFORE REMOVING COVER

ONLY REPLACE WITH

9.6V NiMH CUSTOM PACK

II - 12 SCOPIX

Page 13

Description of the instrument

Description of the instrument (cont'd)

Side view

Marking

Communication

Interfaces

« Micro SD-Card »

location

« Wallplug » power supply

input

Calibration

probe

SCOPIX II - 13

Page 14

Description of the instrument

Description of the instrument (cont'd)

Measurement terminal block

OX 7202

Marking

OX 7204

Marking

II - 14 SCOPIX

Page 15

Description of the instrument

1 On/Standby/Off

Description of the instrument (cont'd)

Front (description)

key

1 touch-sensitive

pad and stylus

4 "operating mode"

keys

The main functions of the instrument are accessible on the front panel and can be modified using the touch-sensitive pad (with its stylus) or the menu bar.

• power on by a short press

• switch the instrument to standby (yellow LED flashing inside the key) by one

short press. A second press on the key reactivates the instrument.

• power off by a long press (> 3 s):

- the recording time of the files and configuration is < 15 s.

- In certain cases, the standby of the instrument is effective 45 s. after a long press on this key.

If the instrument is not equipped with a battery, never disconnect the instrument from the mains while the message "System shut down : Please wait before switch off power" is displayed on the screen. Otherwise, the current file and all the files previously saved will be lost.

These can be used for: selection of menus, validation of functions, movement of symbols appearing on the LCD screen.

• The menus at the top of the screen and the submenus selected by the

pointer open and are validated with the stylus.

• The menus in the curve display area,

the command area

the status area can be opened with the stylus.

• The stylus can move the symbols displayed in:

1. the main display area:

trigger position reference of the traces displayed

2. the bargraph:

trigger position position of cursors position of zoomed area in the acquisition memory

Place the pointer on the symbol to be moved and keep the stylus pressing down while you move it to the required position.

• It is possible to use the stylus to zoom in the display area: drag to create a

rectangle.

You can select the operating mode of the instrument by pressing one of these 4 keys:

"oscilloscope" "multimeter" "harmonic analyser" (option) "recorder" (option)

position of cursors

28 keys only active

SCOPIX II - 15

when pressed

Shortcut access to the most common functions: see chapter on "The Keys" for the "Oscilloscope", "Multimeter", “Harmonic Analyser” and “Recorder” modes.

Page 16

Description of the instrument

Description of the instrument (cont'd)

Initial operation of the oscilloscope

Fuse

Starting up

The portable oscilloscopes in this range are designed to operate on a power source delivering 98 to 264 V (ACrms) or in stand-alone mode with a battery.

The instruments are delivered with a mains adapter, an external power supply (battery charger) and an Ni-MH battery (9.6 V ; 4 A/h).

Type: time delay, 2.5 A, 250 V, 5 x 20 mm The external power supply is equipped with a protection fuse that must only be

replaced with an identical model. Replacement must only be performed by qualified personnel. Contact your nearest service centre.

• Connect the 4-point lead of the external power supply to the "'DC-Input" socket located on the side of the oscilloscope.

 Do not insert any metal objects into this lead.

• Connect the mains lead from the external power supply to the external power supply.

The POWER LED on the adapter lights up, indicating that it is live. The CHARGE LED flashes, indicating:

• the absence of the battery or

• slow charging of the battery, if it is present in the oscilloscope.

Press the instrument's ON switch: it lights on and then a clock is displayed on the screen during the start-up sequence.

The message "Instrument start-up" is displayed. The oscilloscope is then ready for use.

By default, the "Advanced" mode is not active (see page 98).

external power supply



The symbol in the display area for t

II - 16 SCOPIX

the instrument is connected to the mains supply.

he current value means that

Page 17

Description of the instrument

To prevent any electric shocks, remove the Probix adapters and the

Description of the instrument (cont'd)



external power supply lead before installing or replacing the battery.

• Using a coin or a screwdriver, turn by a quarter turn (anticlockwise) the 2 plastic screws located on the cover of the battery compartment located at the rear of the instrument

• Lift the cover of the battery compartment by inserting the coin under the slot at the top of the cover.

• Then connect the 4-point battery connector to the connector located inside the battery compartment of the oscilloscope, taking care to respect the failsafe systems.

• Position the battery inside the oscilloscope compartment (battery wires at the bottom of the oscilloscope's battery compartment).

• Close the cover of the battery compartment and lock it by turning the 2 plastic screws by one quarter turn (clockwise).

Screw

Cover

Changing the batterie

Battery

Battery compartment

Lower casing

Follow the same procedure and make sure that the replacement battery model is identical to the original one.

The oscilloscope contains a Ni-MH battery. The flat battery must be handed over to a recycling firm or a company specialized in the treatment of dangerous waste materials. Never dispose of the battery with other

solid waste.

For further information, contact your nearest service centre.

When the oscilloscope is delivered, the battery may be discharged and require a complete recharge. Full charging of the battery will then take about two and a half hours, with the oscilloscope switched off.

SCOPIX II - 17

Page 18

Description of the instrument

Description of the instrument (cont'd)

Charging the battery

Charging the battery while using the oscilloscope

Once the battery is located in its compartment, follow the external power supply start-up instructions.

• To speed up recharging of the battery, switch off the power to the oscilloscope by a long press on the ON/OFF button.

• Battery fully discharged: during the first 10 minutes, the CHARGE LED of the external power supply flashes, indicating that the battery is slow-charging. The CHARGE LED then lights up when it switches to fast-charging.

During the loading of the battery (after 15 min), the startup of the



oscilloscope causes the premature stop of the load. It is possible to restart the loading while disconnecting, then reconnecting the charger.

The LED goes out when the battery is fully charged (approx. 2h30).

When the oscilloscope is connected to the mains via the external power supply, it is possible to perform slow-charging of the battery.

The CHARGE LED of the external power supply lights up. Full recharging of a totally discharged battery then takes approx. five hours and a half. The LED goes out when the battery is fully charged.

Frequently recharging a battery when it is not fully discharged reduces its



life span.

Powering the instrument with the battery

When the oscilloscope is powered by a battery, an charge status indicator is included in the display area of the current value:

the battery is 100 % charged

the battery is 80 % charged

If you change battery, a complete battery charge and discharge cycle (until the instrument is automatically deactivated when discharging has finished) is essential to calibrate this indicator.

To maintain the battery in good condition, use the oscilloscope at least until the level before recharging.

the battery is 60 % charged, etc.

this symbol indicates that there are only a few minutes more, so you are advised to recharge it or switch to the mains supply.

The battery is totally flat and the screen is about to be deactivated. You must either recharge the battery or connect the instrument to the external power supply.

II - 18 SCOPIX

Page 19

Description of the instrument

Erase

Description of the instrument (cont'd)

Using the menus

The various instrument parameters can be accessed via menus.

The rules for using, selecting and modifying an option are identical to those defined by Microsoft Windows.

To input a numerical value (time base, alignment, etc.), a double click on the numerical field brings up a virtual keyboard:

key

Exit the window, validating (or cancelling) the value entered

The window title indicates the adjustment in process and the measurement unit

Numerical value being input

Pressing on one of these keys initialises the input field with the min. or max. value of the parameter

Use the E key followed by an exponent to indicate a power of 10

Network

General principles

of the ETHERNET

network

Addressing

ETHERNET physical

addresses

Configuration of the "Network" interface (ETHERNET). This interface uses the same connector (USB/RS232/ETHERNET), located

on the right-hand side of the instrument, and requires a specific ETHERNET / RJ 45 cable.

ETHERNET and TCP/IP (Transmission Protocol/Internet Protocol) are used to communicate on a company's network.

Each piece of equipment under TCP/IP has a physical address (ETHERNET) and an Internet address (IP).

A physical or ETHERNET address, stored in ROM or PAL, identifies each item of equipment on the network. The physical address enables the equipment to determine the source of data "packet" transmission. The physical address is a number coded over 6 bytes represented in hexadecimal form. Hardware manufacturers procure physical addresses and allocate them incrementally when the product is manufactured. The physical addresses cannot be modified.

SCOPIX II - 19

Page 20

Description of the instrument

Description of the instrument (cont'd)

IP addresses

An IP address is coded over 4 bytes, displayed in decimal format. ( Example: 132.147.250.10). Each field may be coded between 0 and 255

and is separated by a decimal point.

Unlike the physical address, the IP address can be modified by the user.

You must ensure that the IP address is unique on your network. If an address is duplicated, network operation becomes random.

The IP address is made up of two parts:

• the network identifier (Network ID) identifying a g

iven physical network

• the host identifier (Host ID) identifying a specific item of equipment on the

same network. There are 5 addressing classes. Only classes A, B and C are used to identify

the equipment.

See below:

Class A

0XXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX

Network ID Host ID

Class B

10XXXXXX XXXXXXXX XXXXXXXX XXXXXXXX

Network ID Host ID

Class C

010XXXXX XXXXXXXX XXXXXXXX XXXXXXXX

Network ID Host ID

II - 20 SCOPIX

Page 21

Description of the instrument

Description of the instrument (cont'd)

SUBNET mask and GATEWAY

DHCP protocol

FTP protocol

If the result of the operation ' ET LOGIQUE' between IP address of the recipient of the message and the value of subnet mask is different from the address of the recipient of the message, this message is sent to the gateway which will be given the responsibility to forward it to destination.

The programming of the mask and the address of the gateway is possible on the instrument, in the Advanced mode.

This protocol is used to automatically assign an IP address to the instrument when it connects up to the network.

A DHCP (Dynamic Host Configuration protocol) server must be accessible on this network (contact your network administrator to make sure that this server is present).

A file can be transferred quickly between a PC and the instrument using FTP (File Transfer Protocol). To use the "FTP Server" function, open your favourite browser on the PC (Firefox, Explorer 7, Chrome, ...) and type in the URL field: "ftp://192.168.3.1/RAM:" to access the internal file system of instrument IP address 192.168.3.1 "ftp://192.168.3.1/CARD:" to access the file system of instrument SDCARD IP address 192.168.3.1

The oscilloscope can also be used as an FTP client. See §. Applications p. 190.

HTTP protocol

LPD protocol

The instrument integrating the 'HTTP server' protocol functions like a WEB server and can be accessed from a PC using a standard browser (EXPLORER, NETSCAPE, FIREBOX …). You can then reach the most current adjustments and visualize traces on your PC.

To use it, open the browser on the PC and, in the URL field, type the IP address of the instrument, preceded by "http:"

xample: http://192.168.3.1

 E

See §. Applications p. 156.

To be able to display the traces, you must install on your PC the Java Virtual Machine JVM SUN 1.4.1 (or higher). This JVM can be dowloaded from the site http://java.sun.com

This protocol (Line Printer Daemon) is used by most of the printers connected to an ETHERNET network, but also by the printing server units which handle conversion between ETHERNET and CENTRONICS.

( Example: Jet Admin) and UNIX and LINUX workstations.

An LPD server can also be installed on a PC (available as an option with WINDOWS 2000 or XP).

In all cases, the instrument is an LPD client which has to be configured to indicate to it the IP address of the LPD server (the workstation PC or directly the printer) and the logical name of the printer managed by the server. ”Virtual Printers” can also be used for this purpose.

See §. Applications p. 189.

SCOPIX II - 21

Page 22

Description of the instrument

II - 22 SCOPIX

Page 23

Micro SD Memory Card

Introduction

Installation

Location

Insertion/Extraction

Operation

The internal memory of the oscilloscope (2 MB) may be extended by using an SD Card (128 MB - 2 GB).

The oscilloscope accepts the Micro-SD format (but not Micro-SDHC).

FAT32 format is not compatible with the oscilloscope.

The SD Card compartment is located on the right-hand side of the oscilloscope near the communications interface connector.

- Insert the SD Card, in the card compartment, printed surface facing up.

- Push to the click  the card is in position.

- To remove the card, press slightly on the card itself and support it while

removing.

Recording

a file

• The filename is limited to a maximum of 20 characters + extension. If this rule is not observed, the message: 'Filename too long’ is displayed.

• If the name already exists or is incompatible, an error message ‘Impossible! File already exists' will be displayed.

• By moving the pointer onto the names of the files, you will see their characteristics displayed (date and time saved and size).

SCOPIX II - 23

Page 24

Micro SD Memory Card (cont’d)

Micro SD Memory Card

Special folder

"Hot Plugging"

Formatting the

SD Card

A specific folder on the SD Card, called "metrix", is used for recording files by the oscilloscope.

From within the oscilloscope, the user can only act in this folder:

• File creation,

• File saving,

• File deletion.

If, at the moment of file saving, the "metrix" folder does not exist, it is automatically created.

It is possible to insert or remove an SD Card from its compartment, even when the oscilloscope is running. Never remove a card while a file is being written on it. Doing so can cause the file save operation to fail, and even damage the memory card.

If a window displaying the memory was open during card insertion/removal, it is recommended to close it, then to open it again to update the display.

The SD Card is formatted using a PC. It cannot be formatted via the oscilloscope.

Two options:

- either using Windows software directly

- or using a specialised software application. See next page.

II - 24 SCOPIX

Page 25

Micro SD Memory Card

represented

Micro SD Memory Card (cont’d)

with Windows

Formatting

(French Windows XP example shown)

Insert the SD Card into the SD Card slot of your PC, or using the special USB adapter.

Access the workstation window by clicking on:

Here, the SD Card is

by disk "E:"

By a right click on the disk, representing the SD Card, select the option

"Format..."

SCOPIX II - 25

Page 26

Micro SD Memory Card (cont’d)

The "Format disk…" window appears:

Micro SD Memory Card

Formatting using

pecialised

software

In the "File System" block, select option FAT (not FAT32, which is not compatible with the oscilloscope). Click on: "Start".

A message appears, warning that the formatting will delete all data memorised on the SD Card. If you really wish to continue, click on "OK". Formatting will begin.

It is possible to download a free software called "SDFormatter" on this website: www.sdcard.org.

This software is specifically designed to format SD Cards. Its use is very simple.

FAT16 format, compatible with the oscilloscope, is selected by default.

II - 26 SCOPIX

Page 27

Micro SD Memory Card

SCOPIX II - 27

Page 28

Description of Accessories

HX0061

Powering from a

vehicle battery

This accessory comes as an option and has to be connected to the standard power supply of SCOPIX.

It is used by itinerant technicians to recharge the SCOPIX battery in a vehicle during the journey between two measuring sites.

It is also possible to use (and supply) the SCOPIX in the vehicle.

1. Connect the SCOPIX to the external power supply.

2. Connect the external power supply to the HX0061.

3. Connect the HX0061 to the cigarette lighter socket of the vehicle.

Vehicle

Cigarette lighter socket

HX0061

Ext.

Power

supply

SCOPIX

HX0063

Charging the

instrument's battery

externally

The HX0061 module comes with a 12 VDC / 24 VDC cigar lighter socket of the

ype normally used in vehicles.

The HX0061 can only be used with the instruments explicitly listed in its

✧

operating guide.

Use this accessory, which comes as an option, to charge the battery when disconnected from the instrument.

By using two batteries (one in the instrument and the other being charged), long measuring campaigns are then possible.

The HX0063 can be used with the HX0061 (powering from a vehicle battery).

Ext.

Power

HX0063

supply

Battery

in charge

III - 28 SCOPIX

Page 29

Description of Accessories

The scaling and the units are managed automatically by the Probix system, thus

Description of Accessories (cont’d)

Concept The portable oscilloscopes in this range use Probix intelligent probes and

adapters, offering users active safety.

When connected to an oscilloscope input, a safety message in English concerning the probe or adapter used indicates:

• its maximum input voltage according to the category

• its maximum voltage in relation to the earth, according to the category

• its maximum voltage between channels, according to t

• its type

• its basic specifications

• the use of suitable safety leads.

he category

 For user and instrument safety, this information must be respected.

Some probes are equipped with buttons whose assignment can be programmed.

The colour of the signal measured with a particular accessory is parameterised in the "Green"  "chX"  "Probix" menu. An interchangeable elastic band or plastic collar can be used to match the probe colour to the curve colour.

allowing fast measurements and without risk of error.

The oscilloscope provides the power supply for the probes and adapters.

Recommendations for use: see p. 40.

SCOPIX III - 29

Page 30

Description of Accessories (cont’d)

Description of Accessories

HX0030 and development

Probix 1/10 probe

o

Offset

The HX0030 accessory is a 1/10 probe equipped with a LED and pushbuttons (A and B), the action of which can be programmed via the menu: "Green"  "chX"  "PROBIX".

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

The measurement output is totally insulated. When the HX0030 probe is connected to the SCOPIX, the following

information is displayed. This information may be different if other PROBIX probes are connected.

 The positive input is indicated by a + sign.

The "

o" button controls the lighting of the area measured.



III - 30 SCOPIX

Page 31

Description of Accessories

Description of Accessories (cont’d)

HX0031

Probix BNC adapter

The HX0031 accessory is a BNC adapter, connected via a BNC lead to a measuring signal.

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

The measurement output is totally insulated.

When the HX0031 probe is connected to the SCOPIX, the following information is displayed.

This information may be different if other PROBIX probes are connected.

SCOPIX III - 31

Page 32

Description of Accessories (cont’d)

Description of Accessories

HX0032

Probix BNC 50Ω

adapter

The HX0032 accessory is an adapter with a 50 Ω load, connected via a BNC lead to a measuring signal.

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

To distinguish between this adapter and the HX0031, the measuring signal unit via an HX0032 adapter is "VΩ"; this unit can be modified via the menu: "Green"  "chX"  "Vertical scale".

✧ The maximum input voltage to the HX0032 is 10 Vrms.

When the HX0032 probe is connected to the SCOPIX, the following information is displayed.

This information may be different if other PROBIX probes are connected.

III - 32 SCOPIX

Page 33

Description of Accessories

Description of Accessories (cont’d)

HX0033

Probix banana

adapter

∅∅∅∅

4 mm:

The HX0033 accessory is an adapter used to connect leads with banana plugs.

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

The measurement output is totally insulated.

When the HX0033 probe is connected to the SCOPIX, the following information is displayed.

This information may be different if other PROBIX probes are connected.

SCOPIX III - 33

Page 34

Description of Accessories (cont’d)

Description of Accessories

HX0034

Probix current

clamp adapter

Offset

The HX0034 accessory is a current clamp using a Hall-effect cell to measure DC or AC currents up to 80 A peak, without any intervention on the electrical installation (cutting off the current to be measured).

A voltage output transducer, this clamp is a "PLUG and PLAY" element. Its internal electronics are powered by the oscilloscope.

The action generated by the pushbuttons (A and B) can be programmed via the menu "Green"  "chX"  "Probix". Use the third pushbutton (Offset) to adjust the residual offset (see below).

The measurement output is totally insulated.

Utilisation

1. Connect the clamp to the oscilloscope: it is recognized by the instrument and the measurement unit is displayed in A/div. on screen.

2. Adjust the offset by pressing the "Offset" button.

The offset can only be adjusted when no current is present. However, the presence of a DC current is permitted. In this case, the offset will be obtained in relation to this initial current.

3. Use the trigger to open the jaws of the clip and then insert the conductor, respecting the current direction.

4. Close the clamp. Make sure that it is properly closed and centred on the conductor for optimum measurement accuracy.

When the HX0034 probe is connected to the SCOPIX, the following information is displayed.

This information may be different if other PROBIX probes are connected.

III - 34 SCOPIX

Page 35

Description of Accessories

Description of Accessories (cont’d)

HX0035 and development

Probix

K Thermocouple

adapter

The HX0035 accessory is an adapter used to linearise temperature measurements from a K-type thermocouple.

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

Thermocouple and earth are electrically insulated.

The signal unit measured via an HX0035 is "°C". When the HX0035 probe is connected to the SCOPIX, the following

information is displayed. This information may be different if other PROBIX probes are connected.

Measurements are available 30 sec. after connection of the HX0035, after a calibration phase.

During this phase, the following message is displayed:

SCOPIX III - 35

Page 36

Description of Accessories (cont’d)

Description of Accessories

HX0036

Probix PT100

adapter

The HX0036 accessory is an adapter used to linearise temperature measurements from a PT100.

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

PT 100 and earth are electrically insulated.

The signal unit measured via an HX0036 is "°C". When the HX0036 probe is connected to the SCOPIX, the following

information is displayed. This information may be different if other PROBIX probes are connected.

Measurements are available 30 sec. after connection of the HX0036, after a calibration phase.

During this phase, the following message is displayed:

III - 36 SCOPIX

Page 37

Description of Accessories

Description of Accessories (cont’d)

HX0072

AmpFLEX probe

Probix

HX0072 is an AmpFLEX Probix probe, to be used to measure AC currents of up to 3000 A

RMS

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

000 A~ 1000 V CAT III 600 V CAT IV

When connecting the HX0072 probe to the SCOPIX, safety information is displayed.

This information may be different if other Probix accessories are connected.

The range of use for weak currents is wider than that indicated in the information window, which corresponds to the specified measuring field.

SCOPIX III - 37

Page 38

Description of Accessories (cont’d)

Description of Accessories

HX0073

MiniAmpFLEX

Probix

probe

HX0073 is an AmpFLEX Probix probe, to be used to measure AC currents of up to 300 A

RMS

This adapter is a PLUG and PLAY element. Its internal electronics are powered by the oscilloscope.

00 A~ 1000 V CAT III 600 V CAT IV

When connecting the HX0073 probe to the SCOPIX, safety information is displayed.

This information may be different if other Probix accessories are connected.

The range of use for weak currents is wider than that indicated in the information window, which corresponds to the specified measuring field.

III - 38 SCOPIX

Page 39

Description of Accessories

Description of Accessories (cont’d)

Connection Disconnection

A window indicating the safety conditions is displayed when you connect or disconnect a Probix to/from one of the instrument channels:

General characteristics of the last adapter connected

Input:

Maximum voltage

of the signal

measured by the

Probix adapter

Floating input:

Maximum voltage permitted on each Probix terminal in

relation to the

earth

Between channels:

Maximum admissible voltage between channels (this voltage depends on the combination of

Probix adapters connected)

SCOPIX III - 39

Page 40

Description of Accessories ((cont’d)

Description of Accessories

Recommandations for use

Connection of

reference

conductors for the

1/10 Probix HX0030

probe

Distribution of stray capacitances:

It is essential, given the stray capacitances, to connect properly the reference conductors for each probe. These conductors should preferably be connected to the cold points, to prevent the transmission of noise by the stray capacitance between modes.

he noise of the digital earth is transmitted to the analogue input by the stray

T capacitance.

To prevent electric shocks or

ossible fire, never use the

p “earthing spring” accessory of the 1/10 probe for voltages > 30 Vrms in relation to earth.

III - 40 SCOPIX

Page 41

Description of Accessories

SCOPIX III - 41

Page 42

Oscilloscope Mode

Oscilloscope Mode - The Keys

The Keys

5 "UTILITY" keys or

key pad

By pressing this key, you can select the "oscilloscope" mode.

Direct access to LCD light adjustment.

When this key is pressed, the display mode switches from normal to "full screen" display (and vice versa).

The screen is organized in such a way as to leave an optimum trace plotting surface area, removal of: the menu bar, the parameters of the traces of the time base, the bargraph.

Only the permanent settings and the measurements will remain. The controls on the front panel remain active.



Triggers a hardcopy in accordance with the configuration chosen in the "Util" and "Hardcopy" menus.

A second press before the end of the process will interrupt the current printout.

If printing is impossible, a "Printing error" message will be sent.



1 "AUTOSET" key

Selective

"AUTOSET"

The " " symbol is displayed in front of the settings display zone when printing is in progress.

The first press will freeze the traces on the screen. They will be displayed in a lighter colour as a reference to be compared with another acquisition. A second press will erase them: they will then be lost.



• Traces will be saved only through the "Memory

• The reference memories will be accompanied by their reference number.

Automatic optimum adjustment by Autoset on the channels where the signal is applied. This affects parameters: coupling, vertical sensitivity, time base, trigger type and slope and trace positionning. The lowest frequency signal is used as the trigger source. If no trace is detected on the inputs, the autoset will be aborted.

When pressed at the same time as a CHx key (CH1 to CH4), this defines the corresponding channel as the trigger source. It initiates an autoset which will take this selection into account. Channel CHx then becomes active for adjustment using the keys:

Trace  Save" menu.

IV - 42 SCOPIX

Page 43

Oscilloscope Mode - The Keys

Oscilloscope Mode (cont’d)

4 "Trigger" keys

Sets the trigger level to the average value of the signal (50%) without modifying the trigger coupling. When pressed in combination with a CHx key, this activates the same the same function, after first selecting the corresponding channel as the trigger source.

selects the trigger s

The slope is indicated in the status area.

Successive presses can be used select one of the following acquisition modes:

Single shot (Mono) = SINGLE Triggered Trig Automatic (Auto) = REFRESH

lope (up or down ) by successive presses.

• "SINGLE" mode:

In Single Shote mode, a single acquisition is armed by pressing the RUN HOLD key. After receiving a trigger, the waveform is displayed and the instruments returns to HOLD mode. For any further acquisition, the acquisition must be rearmed by pressing the RUN HOLD key.

If the time base is less than 100 ms/div accessed via the "Mono (< 100 ms/div)" option. If not, Single mode can be accessed via the “Roll Mono (> 50ms/div.)” option and ROLL mode is automatically activated.



SINGLE mode can be

• "TRIGGERED" mode:

The screen's content is only refreshed when there is a trigger event linked

to the signals present on the oscilloscope's inputs (CH1, CH2, CH3, CH4).

If there is no trigger event linked to the signals present on the inputs (or if

there is no signal on the inputs), the trace is not refreshed.

• "AUTOMATIC" mode:

The screen's content is refreshed even if the trigger level is not detected

on the signals present on the inputs.

When there is a trigger event, screen refreshing is managed as in the

"Triggered" mode.

• allows acquisition to be started and stopped in "TRIGGERED" and "AUTOMATIC" modes.

• rearms the trigger circuit in "SINGLE" mode. Acquisition is initiated according to the conditions defined by the acquisition

mode (SGLE REFR key). The acquisition status is indicated in the status area:

RUN = started STOP = stopped

PRETRIG = acquisition

SCOPIX IV - 43

Page 44

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The Keys

3 "MEASURE" keys

Displays or hides a window for the 19 automatic measurements on the reference trace.

When pressed in combination with a CHx key, it displays the measurements concerning the corresponding channel.

By means of successive presses, this selects one of the displayed traces as the reference trace for the automatic and manual measurements.

It appears in the "Measure" menu  Reference.

Activates or deactivates the cursor display for manual measurements. The cursors can be moved directly on the touch -sensitive pad using the

stylus.

• The "dt" measurements (time difference between the two cursors)

and "dv" measurements (voltage difference between the 2 cursors) are indicated in the status area.

• The absolute value of the cursor selected is indicated in the "Current

Settings” area.

3 "HORIZONTAL" keys

or key pads

Adjustment of the time base coefficient (T/DIV). After a Zoom, the "Z-Pos." setting modifies the position of the screen in

the acquisition memory. Activates or deactivates the "Zoom" function.

By default, the zoom is performed around the samples located in the middle of the screen.

A zone can be zoomed by tracing a rectangle around the area to be enlarged using the stylus on the touch-sensitive pad. The sensitivity, time base and horizontal and vertical alignment values are recalculated automatically.

IV - 44 SCOPIX

Page 45

Oscilloscope Mode - The Keys

Oscilloscope Mode (cont'd)

Definition of terms

used

5 "VERTICAL" keys

or key pads

OX 7204

OX 7202

Validated channel: Display enabled, trace displayed after RUN Displayed channel: Channel validated, trace present on the screen Selected channel: The parameters of this channel can be set with the keys:

Before pressing one of the

following keys : The channel concerned is

not displayed.

Step 1 Step 2 Step 3

The channel concerned is displayed, but not selected.

The channel concerned is displayed and selected.

Press 

and

After pressing one of the

preceding keys: The channel is displayed and

selected. The vertical sensitivity and vertical position are assigned to the channel selected.

The channel is selected.

The channel is cancelled by double-pressing.

Step 1 Step 2 Step 3

Before pressing one of the

following keys : The channel concerned is

not displayed.

The channel concerned is displayed, but not selected.

The channel concerned is displayed and selected.

A long press on one of the keys CHx causes a vertical autoset:



• This modifies the sensitivity and vertical positioning of the channel in

question.

• It optimizes the display on the screen by activating and selecting the

channel. The channel is displayed and selected.

Press 

After pressing one of the

preceding keys: The channel is displayed and

selected. On CH1 and CH4, the vertical sensitivity and the vertical position are assigned to the channel selected.

The channel is selected.

The channel is cancelled by double-pressing.

SCOPIX IV - 45

Page 46

Oscilloscope Mode (cont'd)

Activates or deactivates horizontal splitting of the display zone. When activated, the "Full Trace" function is indicated by:

- the presence of a continuous horizontal line in the middle of the display area

- horizontal splitting of the graticule. After activation of the function:

- traces 1 and 3 are assigned to the upper part of the display,

- traces 2 and 4 are assigned to the lower part in order to prevent overlays. The traces can then be moved vertically in the two zones.



This function can also be used in "full screen" mode.

Successive presses allow selection of the input coupling (AC, DC or GND) for the last channel selected.

The coupling is indicated in the channel parameters area: AC :

DC :

Oscilloscope Mode - The Keys

GND :

Adjustment of the vertical sensitivity of the last channel selected:

increases the vertical sensitivity, while reduces it.

Adjustment of the vertical position of the last channel selected:

moves it downwards, while moves it upwards.

IV - 46 SCOPIX

Page 47

Oscilloscope Mode - Display

4. Menu bar

Oscilloscope Mode (cont'd)

Display

Composition

Cursor2

The oscilloscope display is divided into 4 functional zones.

Direct access to main settings

3. Display area

2. Control area

1. Status area

Display and adjustment of current value

SCOPIX IV - 47

Page 48

Oscilloscope Mode (cont'd)



Trig 1 Pretrig

Position and movement of

manual cursors

Oscilloscope Mode - Display

1. Status area

Bargraph

Cursor measurements

Movement towards left of

screen in acquisition

Permanent settings

memory

Three types of general information appear in this area:

• The bargraph representing the screen position, the trigger and the

cursors in the acquisition memory.

• The instrument permanent settings.

• The measurements, when the cursors are present on the screen.

(1)dt=110,0µs, div=100.0µV





Each element in the bargraph can be moved with the stylus.

This zone refers to the trigger status (mode, edge, source, current status).

Position and movement of

Representation and

movement of the screen in

acquisition memory

time trigger

Permanent settings



Movement towards right of

screen in acquisition

memory

xample: AUTO 1 STOP



Cursor

measurements

 E

When the stylus is placed on this information, the "Trigger Parameters" menu can be opened by pressing twice.

This zone refers either to:

• the horizontal (dt) and vertical (dv) differences between 2 cursors in the

case of manual measurements

 Example: (1) dt = 110.0 µs, div = 100.0 µV

• phase measurement in the case of manual phase measurement (Ph).

 Example: (1) Ph = 200.0°

• the automatic measurements selected using the "Automatic

Measurements" or "Phase measurement" menus

 E

xample: (2) F = 1.0000 kHz, Vpp = 7,500 V

IV - 48 SCOPIX

Page 49

Oscilloscope Mode - Display

Oscilloscope Mode (cont'd)

2. Control area

The parameters displayed in this area are:

• The parameters of each channel and trace: display, sensitivity, coupling,

bandwidth limitation, vertical scale, function, Zoom.

• The time base value, the presence of a Zoom and a change in the signal

representation domain (FFT).

• Active adjustment of the last selected element:

trigger level trigger time position channel offset value X & Y position of cursor

• Time display, if no measurement has been selected.

• Display of the battery status

• A mains socket if the instrument is connected to the Wall Plug.

Light

25.0 %

Display of the trace parameters (in the colour of the trace): validity, coupling, bandwidth limitation, sensitivity Display of ZOOM mode

Display of the math function parameters (in the colour of the trace): validity, value of one division Display of ZOOM mode

Display of memories (M): validity Value of time base coefficient (s/div) in

oscilloscope mode or of the frequency (Hz/div) in FFT mode

Change of signal representation domain (FFT selection)

Indication and adjustment of last setting selected

• The channels and functions can be validated using the stylus or the keys.



• The "" symbol indicates whether a channel or function is selected, or

whether FFT mode is selected.

• The settings of the time base (or the frequency) and the value of the active

parameter can be modified using the UP/DOWN button next to the display of the current value.

• After modification of the time base, the corresponding sampling frequency

is indicated in the settings area.

• A double press on the parameters or a channel or on the value of the time

base directly opens the associated menus:

- Sensitivity/Coupling and Vertical Scale, for the channels

- Vertical scale for the functions

- Source, trigger mode and RUN/STOP, for the time base

SCOPIX IV - 49

Page 50

Oscilloscope Mode (cont'd)

The grouped "Source" and "Trigger Mode" menus can be opened by a double press with the stylus on the time base area.

RUN/STOP starts and stops acquisition from this menu. The acquisition status is indicated in the status area on the screen.

Oscilloscope Mode - Display

3. Display area



The symbol "" indicates the source and trigger mode selected.

The graphic elements displayed associated with the traces in this area are:

• a trigger time position indicator

• a trigger level indicator

• a trace number identifier

• a vertical position indicator for the reference level of each trace

• cursor position indicators linked to the trace for the automatic

automatic measurements

• position indicators regarding the cursors linked or

for manual measurements

• selection of a zoom zone

not to the trace

IV - 50 SCOPIX

Page 51

Oscilloscope Mode - Display

Oscilloscope Mode (cont'd)

Display elements

ϕϕϕϕ

Definition of display

Refs. Elements selectable using the touch-sensitive pad

Trace displayed

3 4 5

6 7

8 9 10

Trace displayed Vertical position indicator of the reference level of the trace

displayed and identification of the trace number Indication of Trigger time position Division of graticule Position indicator of the cursors for the first automatic

measurement Manual measurement cursor position indicator Phase measurement cursor position indicator

Trigger level and coupling on the trigger position indicator Selection of a zoom zone Indicator of trigger time position overshoot outside the display

window Indicator of trigger level position overshoot outside the display

window.

Indicator of channel level overshoot outside the display window.

SCOPIX IV - 51

Page 52

Oscilloscope Mode (cont'd)

Oscilloscope Mode - Display

Menu accessible

from display area

By double-tapping with the stylus in the display area, the menu concerning the display can be opened directly.

The "Full Screen" and "Zoom Out" options are directly accessible (see §. Display Menu). The same applies to the

It is possible to use the stylus to zoom in the display area by pulling a rectangle.

After zooming in on part of the screen, the sensitivities of the traces and the time base are recalculated.

• The symbol "Z

display.

• The zoomed section is represented in the bargraph.

• The "Zoom Out" menu (see §. Display Menu) or the Zoom

key can be used to return to the original display.

• The value of the horizontal zoom is adjusted to assign a calibrated

value to the horizontal scale (zoom factor: x 5 max.)

• If the vertical selection of the zoom is greater than 6 divisions, no

vertical zoom is performed (zoom factor: x 16 max.).

All the symbols present in the display area:

- trigger indicators,

- trace position indicator,

- manual cursor position indicator,

- etc.

can be moved using the stylus.

" appears in the signal and time base parameters

selection of the automatic and manual measurement reference signal (see §. Measure Menu).

The new modified symbol value is indicated in the cu



display area.

Calibration of the

touch-screen

IV - 52 SCOPIX

To optimize selection of the different elements present in the display area using the stylus, calibration of the touch-sensitive screen may prove necessary.

Select the "Touch Screen Calibration" option proposed in the display area menu or in the Util menu.

By double tapping on the curves zone, you can also access touch-screen calibration.

rrent settings

Page 53

Oscilloscope Mode - Display

Oscilloscope Mode (cont'd)

Calibration of the

touch-sensitive

screen (cont'd)

Corner of the touch screen

Follow the instructions on the screen.

Use the stylus to point at the centre of the 4 patterns displayed on the screen.

Validation of the input is indicated by modification of the pattern.



The pointing order is not important.

4. Menu bar

Once the 4 inputs have been recorded, validate the calibration with OK.

The touch-sensitive screen is calibrated and the display returns to normal mode.

All the oscilloscope functions can be accessed via the main menus.

SCOPIX IV - 53

Page 54

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Vertical" Menu

The "Vert" Menu

≠≠≠≠ Advanced mode

IV - 54 SCOPIX

Advanced mode

Page 55

Oscilloscope Mode - The "Vertical" Menu

Oscilloscope Mode (cont'd)

Display

ch1 ch2 ch3 ch4

Sensitivity / Coupling

Channel Sensitivity

Coupling

Opens the "Trace display" menu for validating or devalidating the traces. Validation of the selections by "OK". Exit from the menu without modification

by "Cancel". The "" symbol in front of a trace indicates that it has been validated. The traces can be validated or devalidated from the control area by using the

stylus.

Modify the parameters of channels ch1, ch2, ch3 and well as the vertical scale of the trace selected.

Modifies the parameters of the selected channel. Modification of the channel's sensitivity using the stylus on the scrollbar,

adjustable by sequence: from 2.5 mV to 200 V/div.



The sensitivity is indicated in the channel parameter display area. It takes into consideration the parameters of the "Vertical scale" menu.

Modification of AC - DC - GND coupling AC: blocks the DC component of the input signal and attenuates the

signals below 10 Hz

DC: transmits AC and DC components of the input signal GND: internally, the instrument links the input of the channel selected to a

0 V reference level.

ch4 independently, as

The "" symbol indicates the coupling selected. Coupling is indicated in the



modified channel's parameter display area.

bw limit

Vertical scale

Coefficient

Limits the bandwidth of the channel and its trigger circuit to reduce display noise and false triggering.



The bandwidth of each channel can be limited to 5 kHz, 1.5 MHz or 20 MHz. The bandwidth limit of a channel is indicated in the control area by following symbols :

20 MHz 1.5 MHz

This menu can also be called up by double-pointing with the stylus on the required channel parameter display area.

Defines the vertical scale of the channel selected on the basis of the current settings. Readings of the direct measurements of the value analyzed and its unit are provided.

Assignment of a multiplication coefficient to the selected channel's sensitivity. This can be modified with the stylus, using the table of usable numbers, after

selecting the "Coefficient" zone. The  key deletes the character preceding the cursor in this area. The predefined values (x1, x10, x100, x1000) correspond to standard probe

coefficients and can be assigned directly.



The sensitivity value indicated in the channel parameter display will be modified according to this coefficient.

5 kHz

SCOPIX IV - 55

Page 56



Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Vertical" Menu

Measurement unit

Init

Probix

o

button

Buttons A and B

Modification of the selected channel's vertical scale unit. The modification is performed by means of the stylus, using the table of

usable characters after selecting the “measure unit” zone. The  key deletes the character preceding the cursor in this area.



The vertical scale unit will be indicated in the modified channel's parameter display.

Reinitializes the multiplication coefficient to 1.00 and returns to the V measurement unit.

Validation of the selections by "OK". Exit from the menu without modification by "Cancel".

This menu can also be called up by double-pressing with the stylus on the required channel's parameter display area (CH1, CH2, CH3 or CH4).

When selected, this opens the "Probe Configuration" menu. When a Probix HX0030 (or HX0034) probe is connected to one of the

oscilloscope's inputs, this menu becomes active. The can be used to switch the LED on or off.

can be assigned to different settings (see table below).

o

Colour

Sensitivity Higher sensitivity Lower sensitivity Vertical/horizontal

alignment Time base Higher time base Lower time base

Trig. edge / Run-Hold Auto Meas. Ref. Meas. Autoset CHx / Auto 50 %

Alignment on higher division

AUTO MEAS. CHx Auto CHx AUTO 50 % CHx

Button A

Alignment on lower division

RUN HOLD REF MEAS.

Button B

• See the chapter on "The Keys" for further details on the function provided.

• The modified parameters are updated in the control area.

• The “" symbol indicates the parameters elected and assigned to the

probe.

modifies the colour that you want to assign to the trace.

• The “" symbol indicates the colour selected.

• These parameters will be memorized in the probe, even after

disconnection of the oscilloscope.

When using Probix adapters, the choice of the colour remains possible.



IV - 56 SCOPIX

Page 57

Oscilloscope Mode - The "Vertical" Menu

Oscilloscope Mode (cont'd)

math1 math2 math3 math4

Function definition

Functions

For each trace, definition of a mathematical function and the vertical scale. If "Advanced" mode is not activated, simple functions (Inversion, Addition,

Subtraction, Multiplication and Division of curves) can be selected and linked to the curves 1 or 2.

In "Advanced" mode, mathematical functions can be defined literally. The mathematical function can be defined on 2 lines.



• The mathematical function can be defined on 2 lines.

• mathx cannot be used in the definition of a function

The  key deletes the character preceding the cursor in the window.

8 predefined mathematical functions can be linked to the traces:

divh( divv(

("horizontal division") ("vertical division")

step(

("step") using "t" (∗)

sin(

("sine")

cos(

("cosine")

exp(

("exponential")

log(

("logarithmic")

sqrt(

("square root")

(∗) t = abscissa of the sample in the acquisition memory.

 divh(1) is equivalent to 250 samples (counts) = 1

horizontal division (or 5000 samples if the EXTENDED ACQUISITION MEMORY option is installed).

Validation of the selections by "OK". Exit from the menu without modification by "Cancel".

If … then …

... the dynamic calculation of the vertical scale is impossible

... the dynamic calculation of the vertical scale is possible

... a message indicates that the measuring unit on this function will be vertical division (div).

... it takes into account of the sensitivities of the channel sources.

 Particular cases : Value of the measuring unit

CHx + CHy Sensitivity and measuring unit used on CHx CHx - CHy Sensitivity and measuring unit used on CHx In each cases, the measuring unit can be re-defined and a coefficient can be

applied to the measurement results (refer to §. Vertical scale).

SCOPIX IV - 57

Page 58

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Vertical" Menu

 Examples

Use of predefined

mathematical

functions

• Predefined divv() function used on its own: math3 = divv(3).

The trace is equal to 3 vertical divisions.

• Predefined step() function associated with a trace:

- math2 = ch1*step(t-divh(4))

The result of math2 is 0 vertical divisions as long as t is less than four horizontal divisions (t-divh(4) < 0).

The result of math2 is equal to ch1 when t becomes greater than four horizontal divisions (t-divh(4) > 0).

- math2 = ch1*step(divh(4)-t)

The result of math2 is equal to ch1 as long as t is less than four horizontal divisions (t-divh(4) > 0).

the result of math2 is at 0 vertical divisions when t becomes greater than four horizontal divisions (t-divh(4) < 0).

IV - 58 SCOPIX

Page 59

Oscilloscope Mode - The "Vertical" Menu

Oscilloscope Mode (cont'd)

Example 1

Addition of two

traces

Traces ch1 and ch2 are optimised on 6 vertical divisions.

Vamp ch1 = 6 vertical divisions Vamp ch2 = 6 vertical divisions

- math3 = ch1+ch2

Vhigh

Vpp(ch1) = Vpp(ch2) = 6 V Sensitivity (ch1) = 1 V/div Sensitivity (ch2) = 1 V/div

Vertical scale math3 = 2.00 div Vpp math3 = 12.00 div Vhigh math3 = 6.00 div

There is a high and low overshoot, so division by 2 is necessary to optimize display of the result.

- math3 = (ch1+ch2) / 2

Vertical scale math3 = 2.00 div Vpp math3 = 12.00 div Vhigh math3 = 6.00 div

Division by two adjusts the addition to the dynamics of the screen. Vamp math3 = 6 vertical divisions The measuring unit and the sensitivity of ch1 are used during the

display of measurements. You can then open the menu “Vertical Scale" of math3

(see §. Opening from math3, math4) to assign a coefficient to the result and to modify the measuring unit.

SCOPIX IV - 59

Page 60

Oscilloscope Mode (cont'd)

Example 2

Multiplication of two

traces

Vamp ch1 = 2 vertical divisions Vamp ch2 = 2 vertical divisions

- math3 = ch1*ch2

Oscilloscope Mode - The "Vertical" Menu

Sensitivity(ch1) = 5 V/div Sensitivity(ch2) = 5 V/div Vamp(ch1) = Vamp(ch2) = 10 V

As for the addition of traces, there is a even more significant high and low overshoot.

The overshoot is due to the increased dynamics of the numbers after a multiplication ; to avoid this and standardize the result, use the divv () function.

Example

following function is used to get an amplitude of 1 divv : math3 = (ch1 * ch2) / divv (1)

The result of the multiplication is translated into divisions on the screen.

: If Amplitude on CH1 = 2 divv and Amplitude on CH2 = 2 divv, the

 - If Vamp ch1 = 8 div and Vamp ch2 = 8 div, the result

must be divided by divv(4) to obtain Vamp math3 = 4 div.

- When mathematical functions associated with traces are used, the dynamics of the result obtained must be verified.

Correction of the result of the operations by mathematical functions (divv(), divh(), / …) is recommended to optimize the screen display.

IV - 60 SCOPIX

Page 61

Oscilloscope Mode - The "Vertical" Menu

Sensitivity(math3) = 25 VV

Oscilloscope Mode (cont'd)

You can then open the menu “Vertical Scale" of math3 (see §. Opening from math3, math4) to assign a coefficient to the result and to modify the measuring unit.

In our example:

• Then select math3 as the reference for the automatic and manual

measurements (see §. "MEASURE" Menu).

• Then display the table of 19 measurements made on the math3 trace

math3 (see §. "MEASURE" Menu). The measurements displayed are the exact result of the multiplication of

the two traces ch1 and ch2 in the unit (V).

Vpp (math3) = 25 VV

SCOPIX IV - 61

Page 62

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Vertical" Menu

Example 3

Association

of predefined

functions

- math3 = divv(3)*sin (2*pi*t/500) (∗)

The trace obtained is a sine-curve produced using the predefined function "sin()". The amplitude is 6 divisions. The period equal to 500 samples (∗∗) (2 horizontal divisions) depends on the time base.

• Same trace produced with the predefined divh() function:

math3 = divv(3)*sin(2*pi*t/divh(2))

In this example, divh(2) is equivalent to 500 samples (∗∗). The period divh(2), equal to 500 samples (∗∗) (2 horizontal divisions),

depends on the time base.

• Production of a sine wave by the predefined cos() function:

math3 = divv(3)*cos(2*pi*t/divh(2))

The trace obtained with the predefined cos() function is offset by 90°.

math3 = div(3) sin (2pi*t / 10 000) if EXTENDED ACQUISITION MEMORY

(∗)

option is installed.

(∗∗)

10 000 samples with EXTENDED ACQUISITION MEMORY option

IV - 62 SCOPIX

Page 63

Oscilloscope Mode - The "Vertical" Menu

Oscilloscope Mode (cont'd)

Production of an

attenuated sine wave

using predefined

functions

math1 = sin (pi*t/divh(1))*exp(-t/divh(6))*divv(4)

"sin (pi*t/divh(1))" can be used to modify the number of periods. "exp (-t/divh(6))" can be used to modify the level of attenuation.

SCOPIX IV - 63

Page 64

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Vertical" Menu

Function definition

(cont'd)

Files

C1MULC2 .FCT

Contains the list of the functions (.FCT) saved by t predefined files.

By selecting the name of the function with the stylus (function name in blue), you can transfer the definition of the function into the 2 lines provided for that purpose.

The scroll bar can be used to scroll through the list of memorized functions. The function can be modified with the table of usable characters, associating

the ch1 and ch2 traces. This menu also contains two predefined functions.

C1MULC2.FCT and SQUARE.FCT

Product of 2 traces with scaling:

he user, along with two



SQUARE .FCT

math3 = ch1*ch2/divv(4) = C1MULC2.FCT

The factor divv(4) is used to optimize the display as long as the source signals have sufficient dynamics (> 6 divisions) and no overshooting.

Definition of a square signal using the first 4 harmonics of a Fourier series development.

math3 = SQUARE.FCT

math3 = (sin(pi*t/divh(2)) + sin(3*pi*t/divh(2))/3 + sin(5*pi*t/divh(2))/5 + sin(7*pi*t/divh(2))/7)*divv(4)

IV - 64 SCOPIX

Page 65

Oscilloscope Mode - The "Vertical" Menu

Oscilloscope Mode (cont'd)

Save

Reset



Vertical scale



Opening of the menu from:

math1 math2 math3 math4

Coefficient



Saves the definition of the function using the “File Copy “ menu (see §. Memory Menu). The file is assigned the suffix .FCT and appears in the list of saved files.

Completely resets the function definition.

After assigning a function to the ch1 (math1), ch2 (math2), ch3 (math3) or ch4 (math4) channels, "mathx" appears in the corresponding channel's parameter display area.

Definition of the vertical scale for the selected trace

Calling this menu from math1 to math4 is identical t long as the functions have not been defined.

Modifies the value of a division (div) in the selected trace. This can be modified with the stylus, using the table of usable numbers, after

selecting the "Coefficient" zone. The  key deletes the character preceding the cursor in this area. The predefined values (x1, x10, x100, x1000) correspond to standard probe coefficients and can be assigned directly.

The value of a division will be entered into the display of the modified trace parameters.

o calling ch1 to ch4 as

Measurement unit Modification of the unit of the vertical scale (div) for the selected trace.

This can be modified with the stylus, using the table of usable numbers, after selecting the measurement unit zone.

The  key deletes the character preceding the cursor in this area. The "" key can be used to switch between upper case and lower-case characters.



The vertical scale unit will be entered into the modified trace's parameter display (3 characters max).

Init

Reinitialization of the multiplication coefficient to 1.000 and return to the V measurement unit.

Validation of the selections by "OK". Exit from the menu without modification by "Cancel".

The "Vertical scale" menu can also be called up by double pressing with the stylus in the parameter display of the required trace (math1 to math4).

SCOPIX IV - 65

Page 66

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Trigger" Menu

The "Trig" Menu

IV - 66 SCOPIX

Page 67

Oscilloscope Mode - The "Trigger" Menu

Oscilloscope Mode (cont'd)

Definition

This range of portable oscilloscopes is equipped with "advanced triggers".

• The "Delay" and "Count" trigger modes require parameterization of a

second "auxiliary" trigger source. The auxiliary source may be the same as the main source.

The trigger choice is validated by exiting from the menu.

If … then … … the user exits from the

"Main" tab, … the user exits from the

"Pulse" tab, etc. etc.



• There is only one Holdoff, although it can be programmed from the "Main",

"Delay", "Count" or “TV” tabs.

When you use "Delay" or "Count", the Holdoff applies to the auxiliary

source, i.e. the source of the count pulses or delay trigger pulses.

In the other cases, Holdoff applies to the main trigger source.

… "Main" triggering is used.

… "Pulse" triggering is used.

• Each trigger source has its own specific attributes: Coupling, Level, Edge,

Noise Reject, Filter.

You can also choose the trigger channel by doubletapping with the stylus in the time base display area.

You can also choose the trigger parameters by double-tapping with the stylus in the display area of the trigger parameters.

SCOPIX IV - 67

Page 68

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Trigger" Menu

Parameters

Main

Source

Coupling

Selection of the "Trigger Parameters". Trigger on edge

selects a channel as a trigger source.

Selection of the filter for the main trigger source: AC

AC coupling (10 Hz to 200 MHz):

blocks the DC component of the signal DC DC coupling (0 to 200 MHz):

a LF Reject Rejection of source signal frequencies < 10 kHz:

facilitates observation of signals with a DC component or an unwanted low frequency

HF Reject Rejection of source signal frequencies > 10 kHz: facilitates observation of signals with high-frequency noise.

The symbol used to indicate the curve trigger level on the curve also indicates the

coupling:

llows the entire signal through

LF Reject

HF Reject

Edge

Level

Noise reject

Holdoff

Selection of the trigger gradient: + ascending trigger edge

- descending trigger edge The selected trigger edge is indicated the status ar

2.04V Adjustment of the trigger level with the stylus on the scroll bar.

The trigger level is entered into the current value display area after modification.



Fine adjustment is possible.

No: hysteresis ≈ 0.5 div. Yes: introduces a hysteresis of ≈ 1.5 div.

108µs allows:

• disabling of the trigger for a predefined period

ea.

• stabilization of the trigger on pulse trains.

Double-tapping in this field displays a virtual numeric keypad which can be used to directly input the value.

IV - 68 SCOPIX

Page 69

Oscilloscope Mode - The "Trigger" Menu

Oscilloscope Mode (cont'd)



Example

Signal injected on CH1: a train of three 6 VDC pulses at a frequency of 20 kHz with a 500 mVDC component, separated by 500 µs.

The trigger is regulated with channel 1 as a source, level at 2.04 V, on a rising edge.

The Holdoff stabilizes the signal by inhibiting the trigger during 108 µs. The DC coupling of the trigger lets the whole signal through. In this example, the signal is not being disturbed and the option of noise reject is

not necessary. The DC coupling of ch1 reveals the continuous component of the signal.

SCOPIX IV - 69

Page 70

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Trigger" Menu

Pulse



Example

Trigger selection on pulse width. In all cases the effective triggering occurs on the end of pulse edge.

t > T1 triggers if pulse duration is greater than specified value T1 t < T2 triggers if pulse duration is less than specified value T1 t > T1 and t < T2 triggers if pulse duration is within interval specified by

values T1 and T2

t < T1 or t > T2 triggers if pulse duration is outside interval specified by

values T1 and T2

The choice of the or edge in the "Main" tab defines the limits of the



analysis:

• edge defines a pulse between and

Signal injected on CH1: 1 pulse of 50 µs (repetitive or not)



The oscilloscope triggers when it sees a pulse whose duration is greater than specified value (25.0 µs + tolerance). The trigger occurs on the trailing edge of the pulse.

The trigger occurs on the ascending edge of the pulse trailing edge.

IV - 70 SCOPIX

, but is effective on the

Page 71

Oscilloscope Mode - The "Trigger" Menu

Oscilloscope Mode (cont'd)

Delay

Trigger delay

Holdoff

Qualifier

Trigger

Coupling

Selection of edge trigger with delay The delay is triggered by the auxiliary source. Effective triggering occurs after the end of the delay on the next event from the

main source.

35.2µs Adjustment with the stylus using the setting scroll bar to choose the required delay value.

Double-tapping in this field displays a virtual numeric keypad which can be used to directly input the value.

108µs Adjustment with the stylus using the setting scroll bar, allows disabling of the trigger for a predefined period and, among other things, stabilization of the trigger on pulse trains.

Double-tapping in this field displays a virtual numeric keypad which can be used to directly input the value.

selects the settings on the qualifier source selects the settings on the trigger source selects the filter for the auxiliary trigger source:

AC AC coupling (10 Hz to 200 MHz): blocks the DC component of the signal

DC DC coupling (0 to 200 MHz): allows the entire signal through

LF Reject Rejection of source signal frequencies < 10 kHz:

facilitates observation of signals with a DC component or an unwanted low frequency

Rejection of source signal frequencies > 10 kHz:

Level

Edge

Noise reject

HF Reject facilitates observation of signals with high-frequency noise

2.04V Adjustment of the trigger level with the stylus on the scroll bar.

selects the edge for the auxiliary trigger source: + rising trigger edge

- falling trigger edge

No: hysteresis ≈ 0.5 div. Yes: introduces a hysteresis of ≈ 1.5 div.

SCOPIX IV - 71

Page 72

Oscilloscope Mode (cont'd)



Example

Signal injected on CH1: a train of three 6 VDC pulses at a frequency of 20 kHz separated by 500 µs.

Oscilloscope Mode - The "Trigger" Menu



The trigger is active after the end of the delay (35.2 µs) on the first ascending edge.

The Holdoff stabilizes the signal by disabling the trigger for 108 µs.

IV - 72 SCOPIX

Page 73

Oscilloscope Mode - The "Trigger" Menu

Oscilloscope Mode (cont'd)

Count

Trigger delay

Holdoff

Qualifier

Trigger

Coupling

Edge

Selects the edge trigger with counting of events. The count is triggered by the auxiliary source. The main source serves as a

clock for the count. Effective triggering occurs after the end of the count on the next event from the

main source.

3 Adjustment with the stylus using the setting scroll bar to choose the number of events required.

Double-tapping in this field displays a virtual numeric keypad which can be used to directly input the value.

232µs Adjustment with the stylus using the setting scroll bar, disabling of the trigger for a predefined period and, among other things, stabilization of the trigger on pulse trains.

Double-tapping in this field displays a virtual numeric keypad which can be used to directly input the value.

selects the settings on the qualifier source selects the settings on the trigger source

Selection of the filter for the auxiliary trigger source: AC AC coupling (10 Hz to 200 MHz):

blocks the DC component of the signal

DC DC coupling (0 to 200 MHz): allows the entire signal through

LF Reject Reject of source signal frequencies < 10 kHz

facilitates observation of signals with a DC component HF Reject

Rejection of source signal frequencies > 10 kHz:

facilitates observation of signals with high-frequency noise

Selection of the trigger slope : + trigger on rising edge

- trigger on falling edge The selected trigger slope is indicated the status area.

Level

Noise reject

1.09V Adjustment of the trigger level with the stylus on the scroll bar.

• No: hysteresis ≈ 0.5 div.

• Yes: introduces a hysteresis of ≈ 1.5 div.

SCOPIX IV - 73

Page 74

Oscilloscope Mode (cont'd)



Example

Signal injected on CH1: a train of five 6 VDC pulses at a frequency of 20 kHz separated by 500 µs.

Oscilloscope Mode - The "Trigger" Menu



The trigger is set on the descending edge. The first edge activates the trigger. It is not included in the count. The trigger is triggered on the third descending edge of the pulse train. The Holdoff stabilizes the signal by disabling the trigger for 232 µs.

IV - 74 SCOPIX

Page 75

Oscilloscope Mode - The "Trigger" Menu

Oscilloscope Mode (cont'd)

Trigger on a TV signal

See Chapter VI - Applications: §. Video signal display. This menu is only applicable to the CH1 input.

Standard

Polarity

Holdoff

Line

Trigger on a specific line number. The trigger starts on the front edge of the line synchronization signal.

• 625 lines (SECAM) or

• 525 lines (PAL)

+ Direct video

- Reverse video

Adjusted by scrolling with the stylus. Triggering impossible for a pre-defined time.

Double-tapping in this field displays a virtual numeric keypad which can be used to directly input the value.

25 Adjustment of the no. with the stylus using the scroll bar.

Double-tapping in this field displays a virtual numeric keypad which can be used to directly input the value.

The "" and “” symbols indicate the selected parameters. Validation of the selections by "OK".

The "Trigger Parameters" menu can also be called up by double-pointing with the stylus in the trigger settings display area.

SCOPIX IV - 75

Page 76

Oscilloscope Mode (cont'd)

Triggered mode

Acquisitions and refreshment of the screen at each trigger event.

Oscilloscope Mode - The "Trigger" Menu

Automatic mode

Single mode and Roll mode

Acquisition and automatic refreshing of screen even when there is no trigger event. Visible traces, even when there is no trigger event.

Acquisition of signal and refreshing of the screen on the first trigger occurring after a trigger reset by pressing the key opposite (or via the time base menu).

In single-sweep mode, if the time base is over 50 ms/div, new samples are displayed as soon as they are acquired and ROLL mode is activated as soon as the acquisition memory is full (scrolling of the trace from the right to the left of the screen). The ROLL mode is not possible if the trigger on automatic measurement threshold is active.



• The "" symbol indicates the selected trigger mode.

• The selected trigger mode is indicated in the status area

(Trig'd, Auto, Single).

• The acquisition status is indicated in the status area: PRETRIG, RUN,

STOP, POSTRIG, READY, … This selection can also be called up by double-pointing with the stylus on the

time base display area.

Triggering on thresholds

Save / Restart

Triggering on thresholds consists of:

1. acquisition implemented according to the conditions defined in the various menus,

2. analysing the trigger signal after classic acquisition,

3. searching for a condition on an automatic measurement,

4. if this condition is met, displaying the validated signals.

If "measurement on thresholds" is activated, the status zone at the foot of the screen indicates it.

When threshold values are input, the instrument displays an error message if the measurement of a threshold value is impossible.

If this option is activated, all the traces acquired are saved to .TRC and .MAC files after each acquisition.

As a result, you can save several rare events to the file system and analyse them later.

The channels are saved in files, the name of which is determined according to the date and time they are saved.

They can be saved on an FTP server or in the local file system if the FTP server parameters have been configured (menu: "UTIL"  "Config I/O Ports"  "Network")

IV - 76 SCOPIX

Page 77

Oscilloscope Mode - The "Horizontal" Menu



Oscilloscope Mode (cont'd)

The "Horiz" Menu

(∗) Function accessible only in

"Advanced" mode. See §. Description, page 98.

(∗) (∗)

Repetitive Signal

Increase in the time definition of a trace for a periodic signal. If this option is valid, the signal can be averaged (see below).

 Example: measurement on a microprocessor bus.

• For time bases of less than 100 µs/div. (without mode zoom active), the signal displayed is reconstituted on the basis of several acquisitions. The time resolution can reach 20 µs.

• If the signal is not repetitive, do not use this option. The time resolution will then be ± 1 ns.

Menu present only in "Advanced" mode (see §. "Util" Menu). Also refer to §. "EXTENDED ACQUISITION MEMORY" option operation p. 100.

If this option is selected, rebuilding a full coherent signal may take some time. The following settings will also affect the time significantly:

• time base,

• trigger recurrence frequency

• averaging function activity.

The signal settings (amplitude, frequency, form) must remain stable during running.

✧ To speed up the rebuilding following a change in signal, stop

acquisition and restart: Stop  Run. The "" symbol indicates that the "Repetitive Signal" option has been

selected.

SCOPIX IV - 77

Page 78

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Horizontal" Menu

Min/Max Acquisition

Averaging

No averaging Average rate 2 Average rate 4

Average rate 16 Average rate 64

Use this mode to view the extreme values of the signal acquired between 2 acquisition memory samples.

This mode:

• detects wrong representation due to under-sampling

• displays short-term events (Glitch, ≥ 2 ns).

Whatever time base is used and the corresponding sampling speed, shortterm events (Glitch, ≥ 2 ns) are displayed.

✧

The "  " symbol indicates that the "Min/Max Acquisition" mode is active.

Selection of a coefficient to calculate an average for the displayed samples. For instance, this is a way of attenuating random noise observed in a signal. For the averaging coefficient to be taken into account for representation of the

signal, the "Repetitive signal" option must be selected.

The calculation is performed using the following formula: Pixel N = Sample*1/Average rate + Pixel with:

Sample Value of new sample acquired at abscissa t Pixel N Ordinate of pixel with abscissa t on the screen, at moment N Pixel N-1 Ordinate of pixel with abscissa t on screen, at moment N-1



The "" symbol indicates the averaging coefficient selected.

(1-1/Average rate)

N-1

FFT (Fast Fourier

Transform)

Description

The Fast Fourier Transform (FFT) is used for calculating the discrete representation of a signal in a frequency domain from its discrete representation in the time domain.

FFT can be used in the following applications:

• measurement of the different harmonics and the distortion of a signal,

• analysis of a pulse response,

• search for noise source in logic circuits.

The FFT is calculated over 2500 points.



The Fast Fourier Transform is selected by the FFT icon in the control area. When the trace is zoomed, the FFT applies to the zoomed part of the trace

(next to the time base adjustment).

The Fast Fourier Transform is calculated using the equation:

−

X (k) =

with: x (n): a sample in the time domain X (k): a sample in the frequency domain N: resolution of the FFT n: time index k: frequency index

1 2

x n j

* ( )* exp −

∑

=−

  



for k ∈ [0 (N – 1) ]

 

The displayed trace represents the amplitude in V or dB of the various signal frequency components according to the scale selected (linear or logarithmic).

The DC component of the signal is removed by software.

IV - 78 SCOPIX

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Oscilloscope Mode - The "Horizontal" Menu

Square signal

scanning coefficient

Oscilloscope Mode (cont'd)

Horizontal unit

FFT with a Hanning window and a log

scale

FFT with a rectangular window and a

linear scale

This is indicated instead of the time base and is calculated according to the scanning coefficient:

Unit (in Hz/div.) =

12.5

Vertical unit

Two possibilities are offered by the sub-menus: a) Linear scale: by selecting the FFT menu and then the linear scale

• in V/div. =

unit of the signal in its time representation (V/div.)

b) Logarithmic scale: by selecting the FFT menu and then log scale (logarithmic)

• in dB/div. = by assigning 0 dB to a signal with an effective

amplitude of 1 in the time representation

The vertical position indicator of the representation is at -40 dB.

Graphic

representation

SCOPIX IV - 79

The FFT representation indicates symmetry in relation to the frequency origin; only positive frequencies are displayed.

Page 80

Oscilloscope Mode (cont'd)

The sub-menus select a type of window.

Rectangular

Hamming

Hanning

Blackman

Before calculating the FFT, the oscilloscope weights the signal to be analyzed by means of a window acting as a band-pass filter. The choice of window type is essential to distinguish between the various lines of a signal and to make accurate measurements.

Oscilloscope Mode - The "Horizontal" Menu

Time representation of signal to be analyzed

Weighting window

Weighted signal

IV - 80 SCOPIX

Frequency representation of signal calculated by FFT

Page 81

Oscilloscope Mode - The "Horizontal" Menu

Oscilloscope Mode (cont'd)

The finite duration of the study interval results in a convolution in the signal frequency domain with a function sinx/x.

This convolution modifies the graphic representation of the FFT because of the lateral lobes characteristic of the sinx/x function (unless the study interval contains an whole number of periods).

Four types of window selections are available: the menus appear directly on selection of the FFT menu.

"EXTENDED ACQUISITION MEMORY" option operation

Type of window

Rectangular window Hanning window Hamming window Blackman window

Width of main

lobe

- 13 dB

- 32 dB

- 43 dB

- 94 dB

Max. amplitude of

secondary lobe

(compared with main

lobe)

4 π/N 8 π/N 8 π/N

12 π/N

Effects of under-sampling on frequency representation: If the sampling frequency is not correctly adjusted (less than or twice the maximum frequency of the signal to be measured), the high-frequency components will be under-sampled and appear in the graphic representation of the FFT by symmetry (aliasing).

• The "Autoset" function is active. This prevents the phenomenon above

and adapts the horizontal scale: the representation is more legible.

• The "Zoom" function is active.

he "" symbol in front of one of the options indicates the function

T selected.

If the "EXTENDED ACQUISITION MEMORY" option is installed (see §. Menu " ? " "Options"):

• The acquisition memory is extended from 2,500 samples to 50,000 samples.

• On the time base range [1 ns, 5 ms], the signal image is obtained by the aggregate of several acquisitions and reconstruction. Deactivate the "HORIZ "  "Repetitive Signal" option if the signal observed is not periodical, acquired and synchronous with the trigger.

• On the time base range [10 ms, 200 s], 50,000 samples are obtained in one acquisition.

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Page 82

Oscilloscope Mode - The "Display" Menu

Oscilloscope Mode (cont'd)

The "Display" Menu

(∗) Function only accessible

in "Advanced" mode. See §. Description, page 98.

(∗)

Grid

Display modes

Envelope

All samples

Accumulate

Zoom off

Vector



Display / Removal of graticule There are two display modes available: vector and envelope.

A vector is plotted between each sample. The minimum and maximum observed on each horizontal position of the

screen are displayed. This mode is used, for example, to view a time or

amplitude variation or a modulation. The “” symbol indicates the active display mode. The entire acquisition (2,500 or 50,000 samples depending on the

instrument) is displayed on the screen and a vector traced between each sample. Use this mode to view all acquisition details. This function can be used for a memory or curve already acquired.

Accumulation of the different acquisitions on the screen.

The most recent acquisition is displayed using a highlighted colour.

Returns to the original screen size after zooming in on part of the screen.

• This function is inactive unless the screen is in zoom mode.

• If the Zoom mode is active, the letter "Z" is displa

and time-base parameter display area.

yed in the trace

This menu can also be called up by double-pointing with the stylus inside

the trace display area.

IV - 82 SCOPIX

Page 83

Oscilloscope Mode - The "Display" Menu

Oscilloscope Mode (cont'd)

Full screen

Oscilloscope XY

Switches from the normal display mode to the “full screen” display mode and vice versa.

The display is organized so as to leave the biggest surface area possible for trace plotting: only the permanent settings and the automatic or manual measurements remain.

• This function has the same effect as the key.



• The “” symbol indicates that the full screen mode is active.

This function can also be called up by double-pointing with the stylus on the trace display area.

The settings defined on the front panel remain active. The following sub-menus can be used to switch from oscilloscope to XY mode.



The “” symbol indicates the active mode.

This is the basic operating mode. The “XY source” menu is used for assigning the desired traces to the

X axis (horizontal) and Y axis (vertical). Validation of the selections by "OK". Exit from the menu without modification

by "Cancel".





Example

Two sinusoidal

signals assigned to

the X and Y axis with

an offset of

then represented by



Example of

Accumulate mode

/2 are

a circle.

• Each axis is graduated into 8 divisions.

• The selected traces are identified by a figure corresponding to their axis.

• The “” symbol indicates the trace selected for each axis.

In Accumulate mode the Reference memory , the Full screen

SCOPIX IV - 83

and the ROLL mode are not active.

Page 84

Oscilloscope Mode - The "Measure" Menu

)

Oscilloscope Mode (cont'd)

The "Measure" Menu

(∗

Reference

Automatic measurements

Trace 1

race 2

T Trace 3 Trace 4



Selection of the trace on which the automatic or manual measurements will be performed.

Only the active traces can be selected. Inactive traces are displayed in a lighter colour.

The "" symbol indicates the reference trace.

Opens the "Automatic measurements" menu window. The measurements are performed and refreshed on the selected

reference trace. All the measurements that can be performed on this trace are displayed.

(- . - -) is displayed for measurements that cannot be performed.

(∗) Function only accessible

in "Advanced" mode. See §. Description, page 98.

The window can be validated and closed by pointing to OK with the stylus.

The selected measurement(s) will be displayed in the status area.

IV - 84 SCOPIX

Page 85

Oscilloscope Mode - The "Measure" Menu

Oscilloscope Mode (cont'd)



• It is possible to select two permanent measurements.

• The "" symbol indicates the measurement(s) that will be indicated

in the status area.

• Activation of the automatic measurements causes two markers (+) to appear on the curve, if at least one period is visible on the screen.

• The display order corresponds to the chronological order of the selection and the markers are assigned to the first measurement selected.

Automatic measurements in the status area can be deleted by means of this menu, by erasing the selected measurements (no "" symbol in the automatic measurements table).

Reference memory

difference



Example

19 automatic

easurements

SCOPIX IV - 85

Activation of the "Reference memory difference" option is a way of calculating the deviations, for all the automatic measurements, between the selected trace and the memorized reference trace (see §. Memory Menu).

Calculation performed and displayed on one of the 19 automatic measurements:

Vpp (Ref. memory difference) = Vpp (Trace 1) – Vpp (Trace 1  Ref 1) The calculation is performed in the same way for all the measurements.



• This option is only active if a reference trace is present.

It must correspond to the trace on which you wish to perform automatic measurements ( Example: Trace 1 and Trace 1  Ref. 1).

• Condition: the reference trace must have the same characteristics as

the associated trace (sensitivity and time base)

Vmin Vmax Vpp Vlow Vhigh Vamp Vrms Vavg Over+ Trise Tfall W+ WP F DC N OverSum

minimum peak voltage maximum peak voltage peak-to-peak voltage established low voltage established high voltage amplitude rms voltage average voltage positive overshoot rise time fall time positive pulse width (at 50 % of Vamp) negative pulse width (at 50 % of Vamp) period frequency cyclic ratio number of pulses negative overshoot summon of instantaneous values of the signal

Page 86

Oscilloscope Mode - The "Measure" Menu

low

Tfall

Oscilloscope Mode (cont'd)

Measurement

conditions

Automatic

measurement

presentation

• The measurements are performed on the displayed part of the trace.

• Any change to the signal will lead to updating of the measurements.

They are refreshed in step with acquisition.

• To perform automatic measurements on specific portions of the signal,

frame the required measurement area with the manual cursors so that the markers show the new location of the automatic measurement.

• Measurement precision is optimum if two complete signal periods are

displayed.

T = 1/F

W+ W-

Vmax

100%

90%

50%

10%

Vavg

avg

>5%T

Vhigh

high

Vamp Vpp

Vlow Vmin

Trise

t0t1t2 t3t4t5

Tfall

>5%T

• Positive overshoot = [100 * (Vmax – Vhigh)] / Vamp

• Negative overshoot = [100 * (Vmin – Vlow)] / Vamp

i n

• Vrms =

• Vavg =

• Vsum =

[ (y y ) ]

∑

i n

∑

i 0

∑

−

i 0

(y y )

−

δ×

)(y t

GND

2 1/2

= value of the point representing zero volt

GND

IV - 86 SCOPIX

Page 87

Oscilloscope Mode - The "Measure" Menu

Oscilloscope Mode (cont'd)

Phase measurement

Trace1 Phase Trace2 Phase Trace3 Phase Trace4 Phase



Manual measurements (dt, dv)

Automatic measurement of a trace's phase compared with a reference trace (See §. Reference Measurement).

This menu selects the trace on which phase measurements are to be performed.

To deactivate phase measurement, deselect the selected phase measurement using the same menu.

• The "" symbol indicates the trace selected for phase measurement.

• Activation of the phase measurement, if it is possib

of 3 markers: 2 markers for the reference trace period 1 marker indicated as ϕ on the trace for which the phase measurements will be performed. These 3 markers are positioned automatically; they cannot be moved.

• The phase measurement (in °) of the trace selected compared with the

reference trace is indicated in the measurement display status area



Example: (1)Ph (2) = 180.0°

• If the measurement cannot be performed, " - . - -" is displayed.

Cursor measurements on the reference signal The measurement cursors (1 and 2) are displayed as soon as the menu is

activated. The two measurements made are: dt (time difference between the two cursors),

dv (voltage difference between the two cursors). The measurements performed and the displayed cursors are linked to the

selected reference trace (see §. Reference Measurement).

• The ""



• the measurement cursors can be moved directly with the stylus.

They can also be moved with the stylus by selecting the 1 (cursor 1) or 2 (cursor 2) in the bargraph.

• If the free cursor option is not active (see §. "Unattached Cursors"

Measurement), the cursors will remain linked to the reference trace during movements. If the option is active, the cursors can be moved anywhere on the screen.

• The dt and dv measurements in relation to the selected reference

are indicated in the measurement display status area.



symbol indicates that the manual measurements (dt, dv) are active.

Example: (1)dt = 500.0 µs, dv = 1.000 V

le, will cause display

Manual phase measurement

SCOPIX IV - 87

Phase measurements using 3 cursors:

- Use cursors 1 and 2 to indicate the period of the reference signal.

- Use the ϕ cursor to measure the phase.



• The "" symbol indicates that manual phase measurement is active.

• When this menu is active, the 3 cursors are present if at least one

signal is active.

• The cursor marked

cursors" menu is not active.

• The phase measurement (in °) between the cursors is

measurement display status area.  Example: (1)Ph = 120.0 °

can be moved freely, even if the "Unattached

indicated in the

Page 88

Oscilloscope Mode - The "Measure" Menu

Oscilloscope Mode (cont'd)

Unattached manual cursors

Used for linking or not linking the manual measurement cursors (1 and

2) to the reference trace. When the "Unattached cursors" menu is selected, cursors 1 and 2 can

be moved freely over the whole screen.



• The "

• To deactivate this menu, deselect it by pointing with the stylus.

In the case of "Automatic measurements" and manual measurement activation:



" symbol indicates that the "Unattached cursors" menu is active.

If … then …

… the manual cursors and the automatic markers are displayed together,

… the portion defined between the manual cursors is too small [in this case, the fixed markers (+) will not be displayed],

… the automatic measurements are performed on the portion of the trace defined between the manual cursors.

… the automatic measurements selected are impossible, so "-.--" is indicated in the measurement display area.



Deselect the automatic measurements to validate the manual measurements (dt, dv).

IV - 88 SCOPIX

Page 89

Oscilloscope Mode - The "Memory" Menu

Oscilloscope Mode (cont'd)

The "Memory" Menu

Trace 1  Trace 2  Ref. 2 Trace 3  Ref. 3 Trace 4  Ref. 4

 Ref. 1



Storage of the selected trace in its reference memory ( E.g.: Trace 1 in Ref. 1).

The 4 traces have their reference memory.

A reference memory is volatile, which means that it is lost when the instrument is switched off.



• For optimum use, the reference trace must have the same

characteristics as the associated trace (sensitivity and time base).

• A trace can only be saved in its reference memory if it is present

on the screen

• The memorized traces are displayed in a light colour, accompanied by

their reference number.

• The "

saved in the reference memory and that it is present on the screen.

• A reference trace cannot be moved.

• A reference memory can be deactivated by deselecting



" symbol in the menu means that the corresponding trace has been

it in the menu.

SCOPIX IV - 89

Page 90

The trace or reference memory to be saved will appear in grey. The stylus

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Memory" Menu

Trace

Save .TRC

Save.TXT

Saving (to the non-volatile memory) or recall of a trace or a reference memory. The back-up can be saved in two formats: ".TRC" or ".TXT".

The "File copy" menu is adapted to the type of format selected.

Saving of the files for subsequent recall on the oscilloscope screen The back-up files will take the suffix .TRC; they can be recalled in the "Trace  Recall" menu.

Saving of files for export to another application The saved files have the suffix .TXT; they cannot be recalled by the "Trace  Recall" menu for screen display. However, they can be exported in a standard format for use in other software (spreadsheet - e.g. Microsoft EXCEL) using the menu "Util  Files  Export".

The selection made opens a "File Copy" menu.

∗ Then in the "Source" drop-down menu, select the trace or the

reference memory to be recorded.

∗ All the channels can be saved in one operation:

A .TRC file is created for each channel displayed

A .MAC file is created: this file contains the commands needed to

restore all the channels saved.

is used for selection.



• Only traces and reference memories present on the screen are

indicated in the "Source" list (selectable).

• Use the scrollbar on the right of the list to view all the elements.

∗ A default backup file name is proposed above the keyboard. A file is

generated from the date and current time. It can be modified using the

virtual keyboard with the stylus.

The  key deletes the character preceding the cursor in this area. ∗ Once the name has been written, the  key records it by entering it

into the destination menu and closes the menu. The backup file takes the extension .TRC (internal format) or .TXT (text format), depending on the previous selection.

Saving of the file is triggered with this key.

You can exit from this menu without saving by tapping with the stylus on the icon in the top right-hand corner of the window.



• By moving the pointer onto the names of the files, you will see their

characteristics displayed (date and time saved and size).

• If the name already exists or is incompatible, an error message ‘Impossible! File already exists' will be displayed.

• The filename is limited to a maximum of 20 characters + extension.

If this rule is not observed, the message: 'Filename too long’ is displayed.

IV - 90 SCOPIX

Page 91

Oscilloscope Mode - The "Memory" Menu

Oscilloscope Mode (cont'd)

Recall .TRC

Configuration

Save



When selected, this opens a "File Copy" menu. In the "Source" list, the .TRC files previously saved (via the menu "Trace 

Save .TRC") are displayed. Select the file to be called up from the list displayed.

∗ Choose the destination from the "Destination" list. ∗ The destination trace selected is called up in the input zone. ∗ This key triggers call-up of the trace.

The menu can be exited without recalling by tapping the icon in the top righthand corner with the stylus.

• If you wish to recall in one action all the traces memorized jointly, open



corresponding ".MAC" file via menu "UTIL"  "Fichier" (File).

• If the destination trace selected is already present on the screen, it will be

overwritten by the trace called up.

• When a trace is recalled, Mx appears in the destination trace parameters.

• The virtual keyboard cannot be used in this menu.

Saving or recall of an instrument configuration.

When selected, this opens the "File copy" menu.

∗ The "Configuration" object is automatically selected in the "Source" list. ∗ A back-up file name is proposed above the Qwerty keyboard.

The  key deletes the character preceding the cursor in this area.

∗ A default save filename is proposed above the keyboard, generated from the

date and current time. It can be modified via the virtual keyboard using the stylus.

The  key deletes the character preceding the cursor in this area. You can exit from this menu without saving by tappin

in the top right-hand corner of the window.

g with the stylus on the icon

• The filename is limited to a maximum of 20 characters + extension. If this rule

is not observed, the message: 'Filename too long’ is displayed.

• If the name already exists or is incompatible, an error message will appear

• By moving the pointer onto the names of the files, you will see their

characteristics displayed (date and time saved and size).

Recall

SCOPIX IV - 91

When selected, this opens the "File Copy" menu. In the "Source" list, the .CFG files saved (via the menu "Configuration 

Save") are displayed. A particular file that is always present called "Default Config" contains the

instrument's default configuration.

Select the file to be called up from the "Source" li This key triggers callup of the configuration.



The virtual keyboard cannot be used in this menu.

st.

Page 92

Oscilloscope Mode (cont’d)

Oscilloscope Mode - The "Utilities" Menu

The "Util" Menu

IV - 92 SCOPIX

Page 93

Oscilloscope Mode - The "Utilities" Menu

Oscilloscope Mode (cont'd)

Files

File type

Selection of the "File Management" menu. It contains the files which have been:

• saved in previous sessions

• created since the last instrument startup.

• The storage capacity of the file system is 2 Mbytes.

These files will be saved in the FLASH memory when the instrument is switched off with the button opposite: they will then be available for the next session.

By moving the pointer onto the names of the files, you will see their characteristics displayed (date and time saved and size).

The selected file appears in grey. Use the scrollbar to the right of the list to scroll

through the entire file system.

File name extension: .CFG: Configuration

.TRC: Trace in OSCILLOSCOPE mode, .MAC: SCPI commands (e.g.: to restore several traces), .REC: Traces in RECORDER mode, .TXT: Text format file, .FCT: Function in OSCILLOSCOPE and RECORDER mode, .PRN, .PCL, .EPS, .BMP, GIF: Print file .∗ : All files

Internal file on

the FTP server

Open

Erase

Erase ∗.∗

Export

Choose the file system to be viewed. The internal file system is used by default when the window is opened. File system selection can be accessed on the FTP server if the FTP server

parameters have been configured in the menu: "UTIL"  "CONFIG PORT D’E/S" 

"Network" in 'advanced' mode.

Opens the selected file, the resulting action depends on the file extension: .CFG: Configuration restoration .TRC: Restoration of a trace in OSCILLOSCOPE mode .MAC: Execution of the SCPI commands contained in the file .REC: Restoration of traces in RECORDER mode .FCT: Restoration of a function

The other types cannot be opened on the instrument.

deletes the selected file. deletes all the files, the extension of which is selected in the 'File type'. Writing of the file selected from the list to an interface.

RS232 Centronics Network (FTP) Network (LPD) Internal file SD CARD

You can exit from this menu by pointing with the sty

lus on the icon in the top

right-hand corner of the window.

SCOPIX IV - 93

Page 94

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Utilities" Menu

I/O port config

USB

In the "USB / RS232" window, check the USB Cable button.

This interface uses the (USB / RS232 / ETHERNET) connector on the right side of the equipment. The HX0084 cable must be used.

The HX0084 cable converts the RS232 format output from the instrument to the USB protocol. After installation of the driver supplied on the CD on the host PC, communications with the instrument can be made using a "Virtual Com Port" (VCP).

Take care to configure the Virtual Com Port on the host PC as follows:

Bits per second 460800 Data Bits 8 bits Parity None Stop Bits 1 Flow control Hardware

RS232

Speed

Format

Parity

Stop bits

Protocol



In the “USB / RS232” window, do not check the USB Cable button. This interface uses the (USB / RS232 / ETHERNET) connector on the right

side of the equipment. The USB / RS 232 adapter (HX0084) or HX0042 RS232 / SUBD9 cable must be used.

Transmission speed: 300 to 115,200 Bauds. Word length: 7 or 8 bits. Parity: even, odd or no parity (none). Number of stop bits: 1 or 2 stop bits

Serial link management mode: Hard Hardware: the protocol is provided by the RTS and CTS lines

of the RS232 link. Soft Software: use of the XON and XOFF characters to synchronize

transmission and reception of the messages (reduced “3-wire” link) None No protocol checking

• The «  » symbol indicates the selected option.

• The option can be modified using the stylus.

IV - 94 SCOPIX

Page 95

Oscilloscope Mode - The "Utilities" Menu

Oscilloscope Mode (cont’d)

Physical address

Network

provided by a

DHCP server



Configuration of the ETHERNET parameters

If this box is checked, the instrument makes a request to the network DHCP server to automatically obtain:

• an IP address

• a subnet mask

• the gateway address

• possibly a network printer IP address

When powering up, if you activated this protocol during a previous session, a confirmation is requested before sending the DHCP request via ETHERNET.

If the instrument is no longer connected to the network, answer “no” to the question, otherwise it will wait several minutes for an answer from the DHCP server, before becoming functional.

Oscilloscope address on the ETHERNET network. This address cannot be modified (it is specific to the instrument)

IP address

Printer (or Ipd server):

IP address

 Example: 00-01-02-03-04-63

Oscilloscope IP address on the ETHERNET network. This address can be input automatically or manually with the keyboard,

after selecting the zone to be modified. The  key can be used to delete the value preceding the cursor in the

zone to be modified. An IP address can be assigned automatically by a DHCP server, if the

server is accessible, by ticking the box “provided by a DHCP server”.

xample: 132.147.200.74

 E

After modification, the IP address is displayed for 30’ at the bottom right of the screen.

IP address of the printer or a PC where the printer is connected. In this case, an “LPD Server” programme must be installed on the PC.

This address must be input manually with the keyboard, after selecting the zone to be modified.

The  key can be used to delete the value preceding the cursor in the zone to be modified.

 Example: 1

SCOPIX IV - 95

32.147.240.1

Page 96

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Utilities" Menu

Name

Name of the printer as it appears in the printing server (or PC). If the printer is connected directly to the network, do not enter anything here.

This key can only be accessed in Advanced mode. Use this function to manually configure:

• The subnet mask (SUBNET MASK)

• The IP address of a gateway (GATEWAY)

If you press this key twice you will access:

• The IP address of an FTP server

• The user name and password to access the FTP server.

Validation of the selections by "OK". Exit from the menu without modification by "Cancel".

IV - 96 SCOPIX

Page 97

Oscilloscope Mode - The "Utilities" Menu

The print format, the type of printer and the communication port are chosen from

Oscilloscope Mode (cont'd)

Hardcopy

Option

Port

this menu. The print format should be selected from the list using the stylus. Use the

scrollbar to the right of the list to view all the printer languages available. Choice of colour or black/white printing.

Selection of the interface used for print data transfer: USB or RS232 : USB link interface or serial (acc. to selection in

USB/RS232 window) Centronics : parallel interface via HX0041option Network (LPD) : network printer or an LPD client File (internal, FTP) : internal file or on an FTP server

• If the RS232C interface is selected, the parameters (speed, format, parity,



stop bit, protocol) must be configured in the "Config I/O Ports" menu. Check that the configuration matches the configuration of the peripheral device connected to the instrument.

• If the "Network" option is selected, the parameters must be configured in the

“Config I/O Ports  Network" menu).

• The "File" option is a way of recording the hardcopy in a file.

".bmp" and ".gif" image formats can be used directly in the Windows Windows applications (word processing, presentations, etc.) As soon as the print request is launched, the "File copy" menu is opened and you should input the name of the file generated (see "Trace" menu  "Save").

Configuration

(Language)

Screen saver

Date/time



Langue



Standby

A hard copy of the screen can be printed by pressing this key. The copy is printed using the parameters defined in the "Hardcopy" menu.

Updating of the date (day, month, year) and the time (hour, minute, second). You can select the required parameter by using the stylus and the scrollbars located on either side of the parameters to be adjusted.

The clock starts when the menu is closed.

Selection of the language in which the menus are written. Options available: French, English, German, Italian, Spanish, etc.

Sets the screen to standby after a defined period of time to minimize the consumption of the equipment and screen ageing. 4 options are available: 15mins, 30mins, 1hr, no standby mode.

The screen can be reactivated by pressing any key on the front panel.

Shutdown of the instrument after a predefined period, in order to limit its energy consumption. In this case, the equipment configuration is saved before the shutdown. 4 options are available: 30mins, 1hr, 4hrs, 24hrs

The equipment is reactivated using the key shown opposite or using a key on the front panel, which will not be taken into account.

 • The “”

symbol indicates the selected option.

• The option can be modified using the stylus.

SCOPIX IV - 97

Page 98

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The "Utilities" Menu

System info

Autotest



Touch screen calibration

"Advanced" mode

Functions available in

"Advanced" mode only

Display of data concerning the operation of the instrument since it was first used.

This list displays the result of the self-test activated when the instrument is switched on.

For verification of the instrument, see §. Maintenance p. 6.

The touch screen needs to be calibrated if the position of the mouse pointer

is offset from the stylus impact point on the touch screen or if access to x

different objects on the screen is difficult. This calibration process is described on p. 52, 53.

The "Advanced" mode gives access to certain additional functions. By default the "Advanced" mode is not activated in order to simplify the use of the equipment.

State in non

advanced

mode

(default

Function

Accessed from

the menu

Selection in

advanced

mode

configuration)

math1, math2, math3, math4

"Vert"

Complex mathematical functions applicable to the 4 traces

Simple mathematical functions applicable only to traces 2 and 3

Choice between

Repetitive signal

"Horiz"

repetitive and non repetitive

Non repetitive mode

mode

Average

Free manual cursors

"Horiz"

"Display"

"Measure"

No averaging., x2, x4, x16, x64

Choice between Oscilloscope (YT) and XY

Manual cursors whether related or not to the reference trace

No averaging

Oscilloscope (YT)

Cursors 1 and 2 related to the reference trace

Option that Access to FTP server

“Memory”

Option that can be selected

cannot be

selected

(grayed)

• The "" symbol indicates that "Advanced" mode is enabled.

• The stylus can be used to modify this.

• By default, "Advanced" mode is not enabled.

• In "Advanced" mode, the instrument starts in the configuration where it

stopped; otherwise it starts in its default configuration (always the

same one).

IV - 98 SCOPIX

Page 99

Oscilloscope Mode - The “Help” Menu

regarding the key pressed.

Oscilloscope Mode (cont'd)

The « ? » Menu

Help

SCOPIX IV - 99

When selected with the stylus, this opens the "Help" The online help concerns the instrument's keyboard. Use the  and  keys to scroll through the description of the keys on

the front panel.

Whenever a keyboard key is pressed, online help will be displayed The functions associated with the keys will not be activated.

The key name is indicated above the explanation. You can exit from this menu by pointing with the stylus in the top right-

hand corner of the window.

menu.

Page 100

Oscilloscope Mode (cont'd)

Oscilloscope Mode - The “Help” Menu

About

Options

This submenu provides information:

- On the name the

- the WEB site to visit to find new products in the range for METRIX instruments.

- the email address questions on the instrument.

You can exit from this menu by choosing OK.

hardware

Installation of the various instrument options. An option is installed by entering a 24-character code and clicking on the

OK key. This is a unique code for the option acquired and for your instrument (it

cannot be installed on another instrument) When an option is acquired, you must specify the serial number and key of

the instrument in your order and CHAUVIN-ARNOUX will supply you with this code.

The serial number and key are indicated in the "Options" window title bar.

of the

instrument, the software version and the version

of the

customer service that can answer your

 : 123456ABC-2997

The list of options installed is also displayed in this window. Options available:

 MULTIMETER  HARMONIC ANALYSER  RECORDER  EXTENDED ACQUISITION MEMORY

 POWER MEASUREMENTS



The installation of a new option is integrated after the instrument is restarted.

IV - 100 SCOPIX

METRIX OX 7042, OX7046, OX7102, OX7104, OX7202 User Guide

Specifications and Main Features

Frequently Asked Questions

User Manual

General Instructions

Introduction

before use

during use

Symbols used on the instrument

Warranty

Maintenance and metrological verification

Repair

Cleaning

Update the instrument's internal software

Description of the instrument

Presentation

Initial operation of the oscilloscope

Starting up

Changing the batterie

Charging the battery

Charging the battery while using the oscilloscope

Powering the instrument with the battery

Using the menus

Network

SUBNET mask and GATEWAY

DHCP protocol

FTP protocol

HTTP protocol

LPD protocol

Micro SD Memory Card

Introduction

Installation

Location

Operation

Description of Accessories

HX0061

HX0063

HX0031

HX0032

HX0033

HX0034

HX0036

HX0072

HX0073

Connection Disconnection

Recommandations for use

Oscilloscope Mode

The Keys

Display

The "Trig" Menu

The "Horiz" Menu

The "Display" Menu

The "Measure" Menu

The "Memory" Menu

The "Util" Menu

The « ? » Menu