PROMAX PROMAX PROMAX-12 Manual

Test Equipment Depot - 800.517.8431 - 99 Washington Street Melrose, MA 02176 - TestEquipmentDepot.com

PROMAX-

QAM ANALYSER

12

- 0 MI2000 -

SAFETY NOTES

Read the user’s manual before using the equipment, mainly "SAFETY RULES"
paragraph.

The symbol

on the equipment means "SEE USER’S MANUAL". In this manual

may also appear as a Caution or Warning symbol.

WARNING AND CAUTION statements may appear in this manual to avoid injury
hazard or damage to this product or other property.

USER'S MANUAL VERSION

Version Date Firmware Version

2.2 June 2016 1.32

What's new in User's Manual

v2.2: Several improvements. New option for editing channels.
v2.1: Change in voltage specification.
v2.0: New graphic in annex.
v2.0: Mistakes correction.
v2.0: Settings change (system).
v2.0: Available option: DVB-T (COFDM).
v1.2: Added ATTENUATION option in settings.

PC Software Version

1.07

June 2016

SAFETY RULES

* The safety could not be assured if the instructions for use are not closely

followed.

* Use this equipment connected only to devices or systems with their common at

ground potential.

* This equipment can be used in Over-Voltage Category I installations and

Pollution Degree 2 environments.

* Use the mains adapter in Over-Voltage Category II installations and Pollution

Degree 1 environments. It is for INDOOR USE.

* When using some of the following accessories use only the specified ones to ensure

safety.

Power adapter.
Mains cable.

* Observe all specified ratings both of supply and measurement.

* Use this instrument under the specified environmental conditions.

* The user is not authorised to manipulate inside the instrument:

Any change on the equipment should be carried out by qualified personnel.

* Follow the cleaning instructions described in the Maintenance paragraph.

CAUTION:

The battery used can present danger of fire or chemical burn if it
is severely mistreat. Do not disassembly, cremate or heat the
battery above 100 °C under no circumstances.

June 2016

* Symbols related with safety:

Descriptive Examples of Over-Voltage Categories

Cat I Low voltage installations isolated from the mains.

Cat II Portable domestic installations.

Cat III Fixed domestic installations.

Cat IV Industrial installations.

June 2016

TABLE OF CONTENTS

1 GENERAL ........................................................................................... 1-1

1.1 Description ............................................................................... 1-1

2 SETTING UP....................................................................................... 2-3

2.1 Package Content ....................................................................... 2-3

2.2 Power supply ............................................................................ 2-4

2.2.1 Battery charge ...................................................................... 2-4

2.2.2 Recommendations for using .................................................... 2-5

2.3 Installation and start-up ............................................................. 2-5

2.3.1 Contrast adjustment .............................................................. 2-5

2.4 Equipment Details ..................................................................... 2-6

3 OPERATING INSTRUCTIONS.............................................................. 3-8

3.1 Operating instructions and Navigation

3.2 Global configuration

menu ........................................................ 3-11

3.2.1 Edit Channel Plan................................................................. 3-13

3.3 SCAN operating mode .............................................................. 3-14

3.3.1 SCAN mode configuration ..................................................... 3-17

3.4 CHANNEL-FREQUENCY operating mode....................................... 3-18

3.4.1 Channel tuning .................................................................... 3-20

3.4.1.1 Video carrier measurement (analogue

3.4.1.2 Audio carrier measurement (analogue channels) ................... 3-21

3.4.1.3

3.4.1.4

Distortion products measurement (analogue channels) .......... 3-21

Measurement of DVB-C / DVB-T / DAB (digital channels)........ 3-24

3.4.1.5 Constellation Diagram (digital channels) .............................. 3-26

3.4.1.6

Channel tuning configuration.............................................. 3-27

3.4.2 Frequency Tuning ................................................................ 3-30

3.4.2.1 Level Mode ...................................................................... 3-31

3.4.2.2 Analogue Mode................................................................. 3-31

3.4.2.3 Digital Mode..................................................................... 3-33

3.4.2.4 Frequency tuning configuration

3.5

SPECTRUM ANALYSER operating mode ....................................... 3-38

3.5.1

Spectrum operating mode (SPT) ............................................ 3-39

3.5.2

Max operating mode............................................................. 3-41

3.5.3 Min operating mode ............................................................. 3-42

3.5.4 Spectrum analyser mode configuration

TILT operating mode................................................................ 3-44

3.6

3.6.1 Tilt mode configuration......................................................... 3-45

3.7 HUM Operating Mode ............................................................... 3-47

3.7.1 Hum Configuration mode ...................................................... 3-48

3.8 DATALOGGER operating mode................................................... 3-49

3.8.1 Datalogger configuration....................................................... 3-51

4 CONNECTION TO A COMPUTER ........................................................ 4-53

.......................................... 3-8

channels) ................... 3-2

0

........................................... 3-34

................................... 3-43

June 2016

5 CONTROL SOFTWARE PROMAX-12................................................... 5-54

5.1 Software Installation ................................................................ 5-54

5.2 Starting the program ............................................................... 5-54

5.3 Firmware Updating .................................................................. 5-55

5.4 Editing a channel plan or a channel plan group ............................ 5-56

5.5 Datalogger ............................................................................. 5-58

6 SPECIFICATIONS

....................................................................... 6-59

6.1 Specifications PROMAX-12 ........................................................ 6-59

7 MAINTENANCE

.......................................................................... 7-66

7.1 Instructions for returning by mail............................................... 7-66

7.2 Method of maintenance ............................................................ 7-66

7.3 Cleaning the cover................................................................... 7-66

7.4 Components which user can not replace

7.4.1

Not replaceable fuses by user ................................................ 7-67

..................................... 7-67

ANNEX 1 OP-012-O: DVB-T (COFDM) option .............................................1

ANNEX 2 CARRIER / NOISE RATIO MEASUREMENT (C/N) ........................4

June 2016

CABLE TV ANALYSER

PROMAX - 12

1 GENERAL

1.1 Description

12

The PROMAX-
telecommunication installer since it integrates several functions: Level Meter,

Datalogger, Scan, Tilt, Spectrum Analyser, measurement and type of voltage
(AC/DC) detection, HUM and Cable Digital Analyser which makes it an

excellent tool for the installation and maintenance of analogue and digital
television signal reception/distribution systems working in the 5 to 1005 MHz
range, which includes FM radio, community TV systems (MATV), cable TV (CATV)
and wireless cable TV (MMDS) including the sub-band (return path).

is a multi-functional equipment, perfect for the

12

The PROMAX-
whole frequency band, very useful to check a possible input saturation of some
broadband demodulators and optical transceivers. In addition, with the HUM
function is possible to detect a modulation at low frequency that affects the
carrier and produces a distinctive hum in both image and audio.

As a Level Meter, the PROMAX-

► Analogue channels:

► Digital channels (TV and radio):

► Digital channels DVB-C, ITU J-83 (Annex A, B and C)

incorporates the power level measurement function in the

12

enables the following measurements:

Video carrier level measurement.
Carrier / Noise ratio measurement (C/N).
Video / Audio ratio measurement (V/A).
Audio Carrier Power Measurement.
CSO - CTB Intermodulation distortion measurement.
HUM measurement.

Channel power measurement by integration.
Carrier / Noise ratio measurement (C/N).

∗

:

Bit Error Rate (BER) measurement.
Modulation Error Ratio (MER) measurement.
Graphical representation of Constellation Diagram.

∗

Also available DVB-T (COFDM) option under request.

June 2016 1-1

The Datalogger function allows up to 55 loggers or measurements to be taken
and stored, each with carrier levels, C/N and V/A ratios, channel power or MER of
up to 140 channels. The measures obtained can be checked on the equipment or
transferred to a PC via the mini-USB connector.

12

In Scan operating mode, the PROMAX-

indicates the level of all channels
present on the band in a bar-graph display. The span and reference level are
user definable. A moving marker shows the exact level of each specific channel.

In Tilt operating mode, the screen shows, both graphically and numerically, the
difference in levels between any four previously defined pilot frequency channels,
in order to obtain a qualitative measurement on band equalisation.

As a Spectrum Analyser it provides the analysis of the entire band, with a span
defined by the user from 1 to 100 MHz. Furthermore, it is possible to alter the
reference level, and to detect and maintain the maximum and minimum values
for INGRESS measurements.

The HUM mode measures the frequency and the value (%) of the HUM, which is
a low frequency modulation that affects carriers and produces a distinctive hum
in both image and audio, especially in analogue signal. At the input, this function
also identifies automatically the voltage type (DC or AC), the voltage and the
frequency (only for AC).

12

In designing the PROMAX-

, special attention was given to building a multi­purpose, accurate, yet easy-to-use instrument. A simple keyboard gives direct
access to the various operating modes and, once in them, any measurement
parameter can be easily changed using the rotary selector/button.

In addition, it has a mini-USB terminal for connecting to a computer for
producing reports on the measurements obtained.

The instrument is powered by means of an internal rechargeable battery.

All these functions have been brought together in one instrument weighing only

12

half a kilo. The ergonomic, sturdy design makes the PROMAX-

a working

tool without parallel.

June 2016

1-2

2 SETTING UP

2.1 Package Content

Check that your package contains the following elements:

PROMAX-

F/female - F/female input adapter.

Mains Adapter 100-240V/50-60 Hz.

Mains cable for EUROPE and other countries.

Carrying bag.

Rubber holster.

Quick reference guide.

NOTE: Keep the original packaging, since it is specially designed to protect the

equipment. You may need it in the future to send the analyser to be
calibrated.

12

analyser.

June 2016 2-3

2.2 Power supply

The PROMAX-
rechargeable battery. Before taking any measurement, the user should make
sure that the battery is fully charged.

The equipment can work powered by the battery or connected to the mains
through the power adapter.

2.2.1

Battery charge

The instrument has a 100-240V / 50-60 Hz mains adapter, to power the
instrument or to recharge the battery.

CAUTION: Before using the power adapter, make sure that the adapter is

12

is a portable instrument powered by a built-in 7.4 V Li Ion

suitable for the mains voltage.

Figure 1. PROMAX-12 connected to the power adapter.

June 2016

2-4

2.2.2

Recommendations for using

In case of anticipating a long period of inactivity for the equipment it is
recommended to store it with the battery fully charged and at temperatures
below 25 °C.

It advisable in these cases to carry out each three moths a charge / discharge
cycle and later a partial charge (for example, 50%).

2.3 Installation and start-up

The PROMAX-

12

has been designed for use as a portable equipment.

An indicator on screen shows the battery level (

). This indicator has 4 level
according to the charge level. A fully charged battery can power the equipment
for more than six hours.

When the low battery indicator appears on the display (

), the battery must

be recharged.

When a fully discharged battery is installed, it is possible that, due to residual

12

charges, the PROMAX-

may start up. In this case, the instrument will

automatically disconnect before the low battery indicator appears on the display.

2.3.1

Contrast adjustment

If you are holding down the key CONFIG, you will see the message "CONTRAST
ADJUSTMENT - Move the Encoder" on the screen. In this situation, turning the

rotary knob

is possible to adjust the contrast to get the best displaying at any
environmental condition. The new contrast value remains even after you shut
down the instrument.

June 2016 2-5

2.4 Equipment Details

Front View

Figure 2.

June 2016

2-6

Keyboard

Figure 3.

Selects the CHANNEL - FREQUENCY operating mode.

Selects the SCAN operating mode.

Selects the TILT operating mode.

Selects the DATALOGGER operating mode.

On/Off key.

Selects the SPECTRUM ANALYSER operating mode.

Access to CONFIGURATION menus specific to each operating mode

and to the global configuration menu of the unit.

Indicator of measured voltaje at the input.

Battery charge indicator.

Selects the HUM operating mode.

June 2016 2-7

3 OPERATING INSTRUCTIONS

3.1 Operating instructions and Navigation

► Operating Modes

12

The PROMAX-

It changes between frequency tuning and channel tuning. The

operating mode measures the video carrier level, the Carrier/Noise
ratio (C/N), the Video/Audio ratio (V/A) and activates audio carrier
demodulation for analogue channels. For digital channels, it
measures the channel power and the Carrier/Noise ratio (C/N), the Bit
Error rate (BER) and the Modulation Error ratio (MER) and represent
the Constellation Diagram. It also permits to measure the CSO and
CTB intermodulation distortion.

has the following independent operating modes:

The LOGGER operating mode enables multiple measurements to be

performed and memorised for subsequent checking and transfer to PC.
It can perform and store up to 55 loggers in the memory. Each logger
carries out level, C/N, V/A, channel power or MER measurements on
the channels activated in the channel plan (up to a maximum of
140 channels).

The SCAN operating mode shows the signal level of all channels

present on the chosen frequency band in a bar-graph display. The span
and the reference level may be selected through the rotary selector. In
addition, a moving marker shows the numeric level of any specific
channel. This mode also allows the user to define the pilot channels,
used for the TILT measurement (only in the forward band).

The SPECTRUM ANALYSER mode provides a spectrum analysis over

the entire band in two parts: return path or sub-band (5 to 80 MHz)
and forward band (5 to 1005 MHz). The span is user definable. In
addition, it is possible to change the reference level, and maximum
and minimum levels may be detected and held for INGRESS
measurements.

June 2016

3-8

The TILT operating mode shows on the display, both graphically and

numerically, the level difference between any four frequencies,
previously defined as pilot channels, in order to obtain information
about band equalisation. This function can be applied to the forward
band and to the return path, independently.

This is a multifunctional key. For one hand, it measures the HUM

frequency and value (%). HUM is a low frequency modulation that
affects carriers and produces a characteristic buzzing in both image
and audio, especially in analogue signals. On another hand, it
automatically identifies the voltage type (DC or AC) at the input and
the frequency in case of alternating voltage.

Access the CONFIGURATION parameters for the selected function

and the global parameters for the equipment (more details in the next
section).

June 2016 3-9

►

Navegation

To access any operating mode, simply press the corresponding key.

The parameters relative to a particular operating mode can be modified through
the configuration menu associated to the mode. In order to access the
configuration menu associated to a particular operating mode, simply press the

key

second page it is necessary to press the

. Some modes have more than one configuration page, to access to the

key again. The general parameters
of configuration (selecting/editing the channel plan, measurement units,
language, etc.) can be changed through the Global Configuration Menu, to

which it is access by pressing again the

key. To leave a configuration menu,

just press the key of the operating mode you wish to access.

Figure 4. Accessing the configuration menus.

June 2016

3-10

3.2 Global configuration menu

In order to access the global configuration menu, from any operating mode

(SCAN, CH-FR, SPECT, etc.), you must press the

key repeatedly until you
see at the top of the screen the headline “Global Config: 1/2”. The global
configuration menu consists of two pages (attached figure shows the first one),

to switch from one to the other simply press the

key.

Figure 5. Global configuration. 1/2

In order to modify the state of a given parameter, you must turn the rotary
selector

until this one appears shaded and next press it, then the value of the

parameter will appear shaded and turning the selector a new value will be able to
be defined. Finally, to validate the new state, press the rotary selector

The first page of the global configuration menu permits to modify the following
parameters:

► CHANNEL PLAN

It allows you to choose the active channel plan between the 10 channel
plans that unit can store (CCIR, EIA, OIRT, FCC, etc…).

► EDIT CHANNEL PLAN

Refer to next section "Edit Channel Plan".

► UNITS

The equipment allows the user to select the level units among dBmV, dBµV
and dBm.

► TIME

To enter the time select the TIME field and press the rotary selector. Firstly,
turn the rotary selector to change the minutes field. Next press the selector
again to modify the hours and finally press it once again to confirm the new
time.

again.

June 2016 3-11

►

DATE

To enter the date select the DATE field and press the rotary selector. First
change the year field, then the month and finally the day.

The parameters which may be modified on the second page of the global
configuration menu of the unit are as follows:

Figure 6. Global Config. 2/2.

► AUTO POWER OFF

This field permits to activate (ON) or deactivate (OFF) the POWER-OFF
function. When this function is ON, the unit automatically turns off when it
has remained inactive for a period of 10 minutes.

► BEEP

This function permits to activate (ON) or deactivate (OFF) the equipment
beeper. When it is on, it sounds on pressing any key or when turning the
rotary selector in order to alert the user.

► LANGUAGE

This field permits to select the language between: SPANISH, FRENCH,
POLISH, ENGLISH and GERMAN.

► BATTERY

It indicates the battery level.

► BER RESOLUTION

LOW BER measurements every 2s. The minimum measured BER for a

-7

signal at 64QAM and a SR at 6875 Ks/s is 10

HIGH BER measurements every 20 s. The minimum measured BER for a

signal at 64QAM and a SR at 6875 Ks/s is 10

-9

Continuous measurements up to 30 minutes. The minimum measured BER

-11

for a signal at 64QAM and a SR at 6875 Ks/s is 10

.

June 2016

3-12

The resolution selected in the configuration, applies also in the measurements
done in LOGGER mode, with the exception of the CONT mode that measures time
of 20 s (in HIGH mode).

► SW

The lower line of the screen shows the version of the unit control

software.

IMPORTANT: To leave the global configuration menu, just press the key

of the operating mode you wish to access.

3.2.1

Edit Channel Plan

When selecting this field and pressing the rotary selector, the unit access to the
active CHANNEL PLAN.

The attached figure shows an example of channel plan. The first line shows the
name of the channel plan (CCIR in the figure), the audio carrier offset
(5.50 MHz), the modulation type (FM) and the units of measurement (dBµV).
Next line shows the head of the columns that constitute the channel plan: the
first column (CHAN) shows the name of each channel and the second one
(FREQ) the associated frequency, in MHz. The third column (BW) defines
channel bandwidth, in MHz. The fourth column (ON) activates or deactivates the
channel and the fifth ones (DIG) defines if the channel is analogue or digital.

In the case of defining the channel as digital, the configuration page of
parameters relative to QAM measurement will be accessed directly.

The maximum number of channels in a channel plan is 140.

Figure 7. Channel Plan Editor.

The activation (ON) / deactivation (OFF) of the channels affects to the following
operation modes: SCAN and LOGGER. When a channel has been deactivated,
this one will not be able to be tuned nor to be measured. This property allows to

12

make agile the operation of the PROMAX-

, because it allows to activate only

those channels in which we are interested.

June 2016 3-13

The Edit Channel Plan function allows to automatically activate all the channels
defined in the channel plan by means of the ALL field on the third line. When to
the right of ALL we select ON, all the channels of the plan will be activated,
otherwise, if we select OFF all channels will be deactivated. In order to activate /

deactivate a particular channel, turn the rotary selector

until this one appears
shaded and then press it, the cursor will jump to the ON column, then turning
the selector it will be possible to activate it (it appears a cross) or to deactivate it
(it does not appear a cross).

By means of the Edit Channel Plan function also it is possible to define channels
as analogue or digital. To do this, turn the rotary selector

until the channel
that you wish to modify appears shaded and then press it twice, the cursor will
jump to the DIG column, then turning the selector it will be possible to define it
as digital (appears a cross, channel C02 in the example of the previous figure) or
as analogue (it does not appear a cross). In the case of selecting it as digital it is
possible to access directly to the digital channel configuration. In order to return

to the Edit Channel Plan function press the

key.

After editing an analogue channel, the feature ΔFCH appears at 0.00 MHz. It is
the displacement of the channel when it is tuned, for those channels that have
the frequency displaced relating to the standard frequency. You can vary within a
range from -2.00 to +2.00 MHz.

To modify the rest of characteristics of the channel plans it is necessary to use

12

the PROMAX-

control software available in the PROMAX download area at

the website.

To exit the Edit Channel Plan function, press any other function key.

3.3 SCAN operating mode

The SCAN operating
active channels in the channel plan by means of a bar-graph. In addition, the
exact level of any particular channel may be measured by simply placing the
marker over it (the measurement is calibrated only for analogue channels; for
digital channels refer to the note at the end of the section).

To access this mode of operation you should press the SCAN
the field channel (C44 in the figure) will appear shaded, indicating that is
selected and modifiable. Next to the channel, it appears the frequency
(655.25 MHz in the figure) and the level (65 dBµV in the figure) of the channel

mode shows, in a single screen, the signal level of all the

key. At first,

where the marker is pointing. The marker is moved by using the rotary knob

June 2016

3-14

.

Figure 8. SCAN mode, full span.

To change the span (bandwidth represented on the screen), first select it by
pressing the rotary knob until you see the "sp" shade (at the middle bottom of

the screen). Then turn the rotary knob

. If you rotate clockwise the span will
increase and if you rotate anti-clockwise it will decrease. Span can acquire the
following values: 10, 30, 100, 300 MHz and full span.

Figure 9. SCAN mode, span 100 MHz.

When pressing again on the rotary knob

the field level of reference will be

selected. It is the maximum level of the vertical axis of the chart. By turning the

rotary knob

clockwise it will increase and if you turn anti-clockwise it will

decrease.

Figure 10. SCAN mode, Ref. 90 dBµV.

June 2016 3-15

To change the tune, press again the rotary knob . The field Channel will be
activated again. Turning the rotary knob will be possible to change its value.

The attached figure shows a horizontal line at 45 dBµV. This line allows
establishing judgements of channel level acceptance easily. To activate and
define this reference line, you should see the SCAN configuration menu.

Figure 11. SCAN mode with reference line at 45 dBµV.

In the case of having activated the broadband power detection function (POWER
MEAS -> ΣPWR) in the configuration menu of SCAN mode, on the display of
equipment will appear the total power level on the instrument RF (ΣPWR) input.
See the attached figure.

Figure 12. SCAN mode, power detection function.

This parameter indicates the total power that is being transmitted by the
connected coaxial cable to the equipment in the band from 5 to 1005 MHz.

The SCAN operating mode also allows channels to be programmed for use as
pilots in TILT operating mode, in the forward band (see section TILT operating
mode).

June 2016

3-16

IMPORTANT: In the SCAN operating mode, all channels are considered

as analogue. When the power of a digital channel is
measured in this mode, the instrument does not carry out
the integration of the power values, but it just measures at
the central frequency of the digital channel. Then, the
resulting value is not calibrated and is 6 or 7 dB lower than
the measurement made in the CHANNEL-FREQUENCY
mode, which does the power integration

3.3.1

SCAN mode configuration

In the SCAN operating mode, pressing the CONFIG key

will access the

configuration menu for this mode.

Figure 13. SCAN configuration menu.

This menu permits to change three parameters: THRESHOLD, REFERENCE
LINE and POWER MEASUREMENT. To access to any of them, turn the rotary
selector until it appears shaded and next press the selector, then the value of the
parameter will appear shaded and turning the selector you will be able to modify
its value. Finally, to validate the new value, press the rotary selector again.

► THRESHOLD

It defines the minimum level to show channel on the display (OFF or
between 21 and 120 dBµV). If the threshold is deactivated (OFF), on the
SCAN representation will appear all the active channels of the channel plan
with a level higher than 20 dBµV. Otherwise, if we define a level for the
THRESHOLD parameter, channels with a level lower than the threshold
value will not be displayed.

► REFERENCE LINE

It permits to activate or to deactivate (OFF) a reference line on the SCAN
graph (between 21 and 120 dBµV). This reference line allows to establish
judgements of channel level acceptance just with a glance at the SCAN
screen.

June 2016 3-17

►

POWER MEASUREMENT

It allows to define if the measurement of the power is carried out on the
channel bandwidth (CHAN) indicated by the MARKER or over the full band
between 5 and 1005 MHz (ΣPWR).

IMPORTANT: To leave the SCAN operating mode configuration menu,

just press the key of the operating mode you wish to
access.

3.4 CHANNEL-FREQUENCY operating mode

The CHANNEL-FREQUENCY operating mode provides the following
measurements

► Analogue channels: Video carrier level.

Carrier / Noise (C/N) ratio.

Video / Audio (V/A) ratio.

Audio Carrier Level.

CSO-CTB intermodulation distortion

measurement.

► Digital channels: Channel power by measurements

integration.

Carrier / Noise (C/N) ratio.

Bit error rate (BER).

Modulation error ratio (MER).

Constellation Diagram.

To access to this mode of operation, press the CH-FR key

.

There are two tuning modes: by channel or by frequency. To switch between

these two modes of tuning, press successively the CH-FR key

.

June 2016

3-18

Figure 14. Access to the measurement functions, CH-FR operation mode.

June 2016 3-19

3.4.1

Channel tuning

3.4.1.1

Video carrier measurement (analogue channels)

If the tuned channel has been defined as analogue by means of the Edit Channel
Plan function (see section Global Configuration Menu), the PROMAX-
display a screen as the one shown in the attached figure.

Figure 15. V/A and C/N Level measurement.

The tuned channel (C69 in the figure) appears in the higher left hand corner; this

12

will

may be changed by turning the rotary selector

. At its right appears the

frequency (855.25 MHz) and the active channel plan (CCIR in the figure).

Below is shown the video carrier level, VIDEO Carrier (80 dBµV in the
example). The units of measurement may be changed using the Global
Configuration Menu. At the bottom, a bar-graph displays the level with a
resolution of 1 dB.

Also the ratios between the video and the audio carriers (V/A) and the
video carrier and noise (C/N) are shown. The example in previous figure
shows a channel with a Video/Audio ratio of 16 dB and a C/N ratio of 54 dB.

June 2016

3-20

3.4.1.2

Audio carrier measurement (analogue channels)

For the PROMAX-

12

to demodulate an audio signal and show its

characteristics (level and frequency offset), press the rotary selector
In the attached figure, the audio carrier level (AUDIO Carrier) is 64 dBµV and the
frequency offset is 5.50 MHz (F). It also shows if the audio (whether Level, FM or
AM) is activated (a speaker appears) or not (the speaker does not appear). To
change the audio carrier offset (F) and the audio modulation (Level, FM or AM)
access to the Channel-Frequency configuration menu.

Figure 16. Audio demodulation and measurement.

3.4.1.3

Distortion products measurement (analogue channels)

The active devices present in the distribution systems, when working in its non­linear zone, generate interfering signals, called distortion products, that can fall
within the video bandwidth. From a certain level this interference becomes visible
on the TV image.

again.

The distortion products of greater level and which usually fall within the channel
bandwidth are those of second and third order beats.

The CSO distortion (Composite Second Order) is defined, as a ratio of the peak
level of the video carrier to the peak of the distortion products of second order
beat, produced by the rest of channels. The ratio is expressed in dB and can be
resembled to a C/N measurement as it is desired to be maximum.

Similarly, the CTB, Composite Triple Beat, is defined as a ratio of the peak level
of the video carrier to the peak of distortion products of third order beat, which
show up at the same frequency as the video carrier.

In order to obtain these measurements, the carriers of the channel plan that is
desired to transmit, must be present in the network and the measurements must
be carried out for each one of the channels of the system.

June 2016 3-21

Second order beats show up within the channel, around the video carrier, but as
the relative position of the video carrier in all the channels can be different, it is
difficult to determine where they are going to appear, as a consequence we
would have to be made a sweep within all the channel. The equipment performs
this measurement automatically at four frequencies around the video carrier
(-1.5, -0.5, +0.5 and +1.5 MHz). These frequencies can be modified by the user
(refer to the section 4.2.3.3. Channel-Frequency mode configuration menu).

Figure 17. Interpretation of the CSO and CTB measures.

The equipment displays as CSO value the worst measurement (that is to say, the
CSO ratio that has minor value) accompanied of the frequency offset for which it
has been obtained (for example, in the figure previous at +0.5 MHz).

The CTB measurement is performed equivalently to the CSO. If all the channels
that are transmitted have the video carrier at the same position within the
channel, then the CTB beat will show up at the same frequency as the video
carrier. It is for that reason, that the equipment makes this measurement at the
same frequency as the video carrier and, as consequence, to make this
measurement it is necessary to turn off the video carrier of the channel we want
to analyse. If it is not possible to turn off the carrier at the head-end, the
equipment allows, like approach, to make this measurement at one of the free
adjacent channels (see section Channel-Frequency mode configuration).

June 2016

3-22

►

MEASURING METHOD

When pressing the rotary selector

again, we will access to the CSO-CTB
distortion products measuring screen. First of all it will appear the
message REMOVE CARRIER. PRESS TO MEASURE. That is to say, once
the video carrier level on which it is desired to make the measurement

appears on the screen, you must press the rotary selector

in order that
the unit retains the carrier level and comes to calculate the CSO and CTB
ratios; next you must turn off the video carrier of the channel you want to
make the measurement (at the right of the CTB measurement will appear
the message Carrier OFF).

Figure 18. CSO and CTB measurement.

The display will show the level of the video carrier (80 dBµV in the previous
figure) and the CSO ratio accompanied by the frequency offset for which the
minimum ratio has been obtained and the CTB ratio with the message Carrier
OFF or Carrier ON according to the instrument has detected the absence or not
of carrier.

At the lower part of the display it is shown the 4 measures made for the
estimation of the CSO value.

If the rotary selector

is pressed again, the unit will return to the

measurement screen of the video carrier + V/A +C/N.

June 2016 3-23

3.4.1.4

Measurement of DVB-C / DVB-T / DAB (digital channels)

When the tuned channel has been defined as digital by means of the Edit
Channel Plan function (see section 4.2.1 Global Configuration Menu) a screen as
shown in the attached figure will appear. This screen shows the digital CHANNEL

POWER together with its related channel bandwidth (BW) and the
Carrier/Noise ratio (C/N). At the bottom of the screen, as in the case of

analogue channels, a bar graph represents the channel power, with a resolution
of 1 dB.

Figure 19. Measuring a digital channel.

VERY IMPORTANT: In order to measure digital channels correctly,

previously, the channel must be defined as digital (see
Edit Channel Plan function at section 'Global
Configuration menu’) and, if necessary, the CHANNEL
BW parameter should be redefined by means of the
Channel-Frequency configuration menu.

When a channel has been defined as digital, the
equipment tunes it at its central frequency.

June 2016

3-24

Digital channels power measurement is carried out by means of an integration
method. The equipment divides the bandwidth of the channel (CHANNEL BW) in
sections of 230 kHz (4 by each MHz approximately) and measures the
contribution of each one to the total power of the channel. This way, a very exact
measurement is obtained, specially in the case of degraded channels, because
the channel flatness is had in consideration.

Figure 20. Measuring the power of a digital channel by integration.

The C/N ratio measurement shows the ratio between the digital channel power
and the noise power. The user can define the frequency where the noise power
must be measured. Two possibilities exist:

► Absolute method

Selecting in the Channel-Frequency configuration menu the NOISE MODE
parameter as FREQ, the equipment will interpret the NOISE FREQ. value as
the frequency where the noise power measurement must be done. Naturally
the user must be sure that the NOISE FREQ. value corresponds with a free
channel.

► Relative method

Selecting in the Channel-Frequency configuration menu the NOISE MODE
parameter as ΔF, the unit will make the measurement of noise at the
frequency obtained to add to the tuning frequency (channel central
frequency) the value defined for the NOISE FREQ. parameter. The
equipment takes by default NOISE FREQ. = BW/2 + 0.5 MHz, where BW
is the channel bandwidth defined in the channel plan, thus for example, if it
is desired to measure the C/N ratio of a digital channel with a bandwidth
(BW) of 8 MHz, NOISE FREQ. will take as value 4.5 MHz. The Channel­Frequency configuration menu allows the user to redefine this parameter;
when tuning a new channel the equipment will return to assign to NOISE
FREQ. the default value.

The following figure shows that when making C/N measurements in the
relative method (ΔF), it is essential to bear in mind the presence of adjacent
channels; otherwise, the noise could be confused with the signal of another
channel.

June 2016 3-25

Figure 21. Example of digital channels spectrum.

Taking as example the previous figure, if we suppose that for the channels
that appear in the figure it has defined a bandwidth of 8 MHz, in the relative
mode of measurement the equipment will take as value for NOISE FREQ. =

4.5 MHz. Note that this method can cause erroneous measures in the
measurement of the channels D24 and D25.

For D24 it is advised to configure NOISE FREQ = -4.5 MHz and to verify if
the measurement increases. In case a channel has two adjacent channels
(for example channel D25) it is recommended to select the absolute mode
and to assign to the NOISE FREQ. parameter a frequency corresponding to
a free channel (for example between D26 and D27).

3.4.1.5

Constellation Diagram (digital channels)

Once obtained the Power and C/N ratio measurement, the BER and MER
measurement on tuned channel as well as the Constellation Diagram graph
representation for the DVB-QAM digital signal can be obtained pressing the

rotary selector

.

The equipment, after some seconds for calculation, will show a screen like the
one of the attached figure. On it besides the Constellation diagram, also appears
the type of QAM modulation, the symbol rate (SR), the error rate obtained for
the digital signal (Post-BER measurement (BER after FEC) shown as BER;
Pre-BER measurement (BER before FEC) shown as BER), the modulation
error ratio measurement (MER), the represented quadrants and the type of
detected codification.

June 2016

3-26

When pressing again the rotary selector , the equipment carries out a new
measurement. If the selector rotary is pressed twice, you will access the screen
of Power and C/N ratio measurement again.

Figure 22. Constellation Diagram representation and

Pre-BER, Post-BER and MER measurement in a digital channel.

3.4.1.6

Channel tuning configuration

In CHANNEL-FREQUENCY mode, when the instrument works in channel

tuning, if you press the CONFIG key

you will access the first page of the

configuration menu of the parameters relating on this mode (Fig.23).

Figure 23. Digital Channel Configuration. 1/2.

The parameters which may be changed and their values range are shown in the
following table. The parameters are different depending on the channel, whether
it is digital or analogue.

To define a CHANNEL as DIGITAL or ANALOGUE, you should go to the EDIT
CHANNEL option that is in the GLOBAL CONFIGURATION menu.

June 2016 3-27

To access the second page of the GLOBAL CONFIGURATION screen, press

T

again the CONFIG key

(Fig. 24).

Figure 24. Digital Channel Configuration 2/2.

To change a parameter value, turn the rotary selector

until the field is
activated (it will appear shaded) and then press the rotary selector, the value of
the parameter will be activated and you will be able to change it by turning the

rotary selector. When the value you want appears, press the rotary selector
to validate it.

Numeric fields such as FREQ. AUDIO, are edited digit by digit, starting from the
lowest weight digit.

CONFIGURATION parameters of ANALOGUE CHANNELS in CHANNEL
TUNING mode.

DESCRIPTION PARAMETERS VALUES

Audio Modulation AUDIO MODE FM: Audio FM

AM: Audio AM
LV:
a tone whose frequency varies
according to the received
signal level.
OFF: Audio deactivation.

Audio carrier offset AUDIO FREQ. From 4.00 to 9.00 MHz

CTB Measurement mode CTB SHOWED IN CH or free channel

ΔF CSO1 ΔFCSO1 ± 2,50 MHz
ΔF CSO2 ΔFCSO2 ± 2,50 MHz
ΔF CSO3 ΔFCSO3 ± 2,50 MHz
ΔF CSO4 ΔFCSO4 ± 2,50 MHz

he loudspeaker emits

June 2016

3-28

CONFIGURATION parameters of DIGITAL CHANNELS in CHANNEL TUNING
mode

DESCRIPTION PARAMETER VALUES

Digital channel bandwidth CHANNEL BW From 0.3 to 9.9 MHz.
Frequency where noise is
measured in the C/N
measurement.
Noise measuring mode. NOISE MODE FREQ (Absolute): Noise level

System (according to country) SYSTEM DVB-C, ITU J83-B, ITU J83-C,

QAM Modulation MODULATION 16, 32, 64, 128, 256
Symbol Rate SYMBOL RATE 1,000 to 7,000

Constellation Quadrant View QUADRANT

NOISE FREQ. ± 99.9 MHz (relative mode).

5.00 MHz to 863.00 MHz
(absolute mode).

is measured at the frequency
defined by NOISE FREQ.

(Relative): The value

ΔF

defined by NOISE FREQ.
added to the tuning
frequency.

BW/2 (Relative): It is measured at
a frequency defined as half the
bandwidth.

DVB-T*

Q1, Q2, Q3, Q4, Q1+, Q2+,
Q3+, Q4+, ALL

is

The CTB SHOWED parameter allows defining the method of measurement for
the CTB. “IN CH” (within the channel) is the suitable method whenever the
carrier of the channel in study can be turned off. If it is not possible, as
approach, any other channel (free) can be defined for the measurement of the
CTB.

Figure 25. CH-FR Configuration 2/2.

Parameters ΔFCS01, ΔFCS02, ΔFCS03 and ΔFCS04 allow you to modify the
frequencies where the CSO is measured (the equipment admits values from -0.5
to -2.50 and from 0.5 to 2.5 MHz). These parameters are modified digit to digit,
beginning by the one of smaller weight.

*DVB-T (COFDM) option available under request.

June 2016 3-29

IMPORTANT: To exit the CHANEL-FREQUENCY CONFIGURATION menu,

press the mode of operation to which you want to access.

3.4.2

Frequency Tuning

Pressing the CH-FR

key you can switch between tuning by channel or tuning

by frequency and vice versa.

Figure 26. Frequency tuning.

To verify you are working on the Frequency Tuning mode, check what field is
shaded:

If the channel is shaded, then you are working in Channel Tuning Mode.

If the frequency is shaded, then you are working in Frequency Tuning

Mode.

In the frequency tuning mode, the instrument becomes a receiver with a
resolution of 10 kHz within the band from 5 to 1005 MHz. In this mode you can
tune any signal within this band, including leakage pilots or telephone and
communications signals.

To change frequency, turn the rotary knob

. User can change the frequency
step in the Configuration menu (refer to "Frequency tuning configuration"). The
channel name appears at the left of the tuning frequency, as long as it
corresponds to an active channel.

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There are three modes of frequency tuning measurements:

Level Mode.

Analogue Mode.

Digital Mode.

You can change the measurement mode from the Configuration menu (see
section “Frequency Tuning Configuration”).

3.4.2.1

Level Mode

In the level Mode it appears a screen where the level of the input signal is
represented by a bar graph and by a numeric value.

Figure 27.

The signal also can be audible through the loudspeakers, depending on the
option selected on the Configuration menu.

3.4.2.2

Analogue Mode

In the Analogue Mode can be taken three types of measures. Press the rotary

knob

to switch among them. These measurements are:

► Video Carrier Measurement.

It shows the power level of the video carrier at the frequency tuned. It is
represented by a bar graph and in numeric value.

June 2016 3-31

It also shows the V/A ratio and the C/N ratio in dB.

Figure 28.

► Audio Carrier Measurement.

It shows the power level of the audio carrier at the frequency tuned. It is
represented by a bar graph and in numeric value.

It also measures the V/A ratio and the offset between the audio signal and the
video signal.

Figure 29.

June 2016

3-32

►

CSO-CTB intermodulation measurement.

On the screen appears: the level of the video carrier, the CSO measure, the
deviation of the frequency from which has been obtained the minimum ratio, the
CTB measure and whether the Carrier is OFF or ON.

Figure 30.

3.4.2.3

Digital Mode

In this mode, you can make two types of measurements. To switch between
them, you must press the rotary knob one or two times. The measurements are:

► Input Channel Power

The digital mode shows the power level of the input channel. It is
represented by a bar graph and in numeric value. It also measures the C/N
ratio (carrier / noise).

Figure 31.

June 2016 3-33

To switch to Constellation Diagram press once the rotary knob.

► Constellation Diagram

In this mode is shown the Constellation Diagram and other related
measures (see figure).

QAM modulation type.

Encoding type detected.

Symbol rate (SR).

Error rate obtained for the Post-BER digital signal (BER after FEC)

indicated by BER

Error rate obtained for the Pre-BER digital signal (BER before FEC)

indicated by BER.

Error rate of modulation (MER).

Quadrant shown.

Locked / Unlocked.

Figure 32.

To measure again, just press again on the rotary knob

.

To switch to the Input Channel Power, press fast and twice the rotary knob

.

3.4.2.4

Frequency tuning configuration

From the FREQUENCY TUNING mode, press the key

CONFIG and then it

will appear the Configuration menu related to the frequency tuning.

June 2016

3-34

Depending on the type of measurement, the Configuration menu changes. There
are three types of measurements in frequency tuning: ANALOGUE, DIGITAL
and LEVEL. Each one can be selected from the FREQ. MODE option on the

CONFIGURATION menu.

Figure 33. Config Level.

The options available on the Configuration menu in the LEVEL measurement
mode are next:

► Freq. Mode: It allows you to change the measurement signal among ANL

(Analogue), DIG (digital) and LEV (Power Level).

► Freq. Step: It allows you to change the step of frequency. This is put

into practice when you are using the rotary knob to change

frequency

.

► Audio Mode: There are four options to receive the audio signal: LEVEL,

AM, FM, OFF.

In LEVEL mode, the instrument beeps depending on the
power input.

In AM mode, you can listen to AM (Amplitude Modulation)
radio signals.

In FM mode, you can listen to FM (Frequency Modulation)
radio signals.

In OFF mode, the loudspeakers are off.

June 2016 3-35

Figure 34. AN. FR CONFIG: 1/2.

The options available on the Configuration menu in the ANALOGUE
measurement mode are next:

► Freq. Mode: It allows you to change the measurement signal among ANL

(Analogue), DIG (digital) and LEV (Power Level).

► Freq. Step: It allows you to change the step of frequency. This is put

into practice when you are using the rotary knob to change
frequency.

► Audio Mode: There are four options to receive the audio signal: LEVEL,

AM, FM, OFF.

In LEVEL mode, the instrument beeps depending on the
power input.

In AM mode, you can listen to AM (Amplitude Modulation)
radio signals.

In FM mode, you can listen to FM (Frequency Modulation)
radio signals.

In OFF mode, the loudspeakers are off.

June 2016

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Press CONFIG again to the next page 2/2.

Figure 35. Analogue Configuration Screen 2/2.

► CTB Showed: The CTB SHOWED parameter allows defining the method of

measurement for the CTB. IN CH (within the channel) is the
suitable method whenever the carrier of the channel in study
can be turned off. If it is not possible, as approach, any
other channel (free) can be defined for the measurement of
the CTB. Parameters

ΔFCS04 allow modifying the frequencies where the CSO is

ΔFCS01, ΔFCS02, ΔFCS03 and

measured (the equipment admits values from -2.50 MHz to

2.5 MHz).

The options available on the Configuration menu in the DIGITAL measurement
mode are next:

Figure 36. Digital Configuration Screen 1/2.

► Freq. Mode: It allows you to change the measurement signal among ANL

(Analogue), DIG (digital) and LEV (Power Level).

► Freq. Step: It allows you to change the step of frequency. This is put

into practice when you are using the rotary knob to change
frequency.

► Channel BW: It allows you to change the channel bandwidth.

► Noise Freq.: It allows you to change the noise frequency.

June 2016 3-37

►

Noise mode: In this mode there are three options: AF (frequency offset),

BW/2 (half the bandwidth), FREQ (noise frequency).

Press CONFIG

again to the next page 2/2.

Figure 37. Digital frequency configuration 2/2.

► System: Compression system used. Possible values are DVB-C,

ITU J83-B or ITU J83-C (also available DVB-T (COFDM)
option under request).

► Modulation: It is the modulation used. Selectable values are QPSK,

QAM 16, QAM 32, QAM 64, QAM 128 and QAM 256.

► Symbol Rate: It is the rate of symbols sent. The range is from 1000 to

7000.

► Attenuation: User can select attenuation between auto or manual (values

between 0 and 60 dB in 10 dB steps).

► Quadrant: To select what constellation quadrant you want to view: ALL,

Q1, Q2, Q3, Q4, Q1+, Q2+, Q3+, Q4+.

NOTE: When switching from frequency to channel, if the tuned frequency does

not correspond to any channel, the equipment will search for the channel
nearest to this frequency and will stay tuned to this channel. This
operation may take a few moments.

3.5 SPECTRUM ANALYSER operating mode

Pressing the
function has 3 different operating modes (SPT, MAX and MIN), which are
selectable through the spectrum mode configuration menu.

key the unit switches to the SPECTRUM ANALYSER mode. This

June 2016

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3.5.1

Spectrum operating mode (SPT)

In the SPECTRUM mode, the equipment provides a spectral analysis of the
band; the span and the reference level are variable. The spectral analysis can be
done in the forward band or in the return path as it is selected in the
spectrum configuration menu; this menu also allows to select the detector used
for the representation of the spectrum between peak and average.

Figure 38. SPECTRUM mode.

The marker frequency is displayed in the higher left hand corner of the screen
and, to its right, the frequency signal level. To alter the marker frequency turn

the rotary selector

.

By pressing the rotary selector
100 MHz and full span (5-1005 MHz).

Figure 39. SPECT mode, span reduction.

you can alter the span between 1, 5, 15,

June 2016 3-39

By pressing the rotary selector again the reference level may be modified.

Figure 40. Reference level setting.

Pressing the rotary selector

a second time will activate the tuning frequency

field of the marker, being possible to tune new frequencies.

The attached figure shows an horizontal line at 45 dBµV. This line allows to
identify levels over a reference of our interest easily. The activation and
definition of this reference line is carried out on the spectrum analyser
configuration menu.

Figure 41. Reference line.

June 2016

3-40

3.5.2

Max operating mode

The SPECTRUM operating mode also permits to be configured as maximum
hold (MAXIMUM INGRESS). This option is selected on the Spectrum

Configuration menu. In the MAX mode, the equipment holds on the screen the
maximum measured level through a dotted line.

Figure 42. MAX mode.

This measurement is used to be carried out on the return path and permits to
detect intermittent interferences.

Since on this operation mode the equipment holds on the screen the maximum
measured value (through a dotted line), after making several measurements
over the band, it will be possible to detect impulsive type interferences. It is
advised to previously define a reference line which actuates as a maximum noise
threshold.

June 2016 3-41

3.5.3

Min operating mode

This measurement permits to detect permanent channel interferences that in an
other way could remain masked because of the variable nature of the signal. It is
interesting in analogue channel measurements as well as in digital channel.

To select this representation mode you must select the MIN mode, MINIMUM
INGRESS (see section Spectrum mode configuration menu).

In this operating mode it is advised to select the Average detector (see section
Spectrum mode configuration menu).

Figure 43. MIN mode. First scan.

Figure 44. After several scans.

Previous figures show an example of this measurement over a digital channel.
Left figure corresponds to the first sweep. After several sweeps (right figure) an
interference is seen at the centre of the channel, which previously remain
masked by the noisy nature of the signal.

June 2016

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3.5.4

Spectrum analyser mode configuration

Pressing the CONFIG key

will access the parameter configuration menu for

the SPECTRUM function.

Figure 45. SPECT mode configuration.

To change the value assigned to one parameter, turn the rotary selector until
its field is activated (this will appear shadowed) and then press. The value of the
parameter will be activated and may be changed by turning the rotary selector.

When the value you want appears, press the rotary selector

to validate it.

The parameters that can be modified through this menu are:

► BAND

It selects the analyzed band between:

RETURN PATH Sub-band spectrum (5 to 80 MHz).

FORWARD Band from 5 to 1005 MHz.

► MODE

It selects the representation mode:

SPT Instantaneous value.

MIN Minimum values held (MIN INGRESS).

MAX Maximum values held (MAX INGRESS).

► DETECTOR (only for SPT, MAX and MIN modes)

It selects the type of detector between:

PEAK

AVERAGE

June 2016 3-43

►

REF. LINE

It permits to activate / deactivate and to define the reference line level in 1
dB steps from 20 to 120 dBµV (dBµV units). This line appears on the
spectrum representation.

IMPORTANT: To leave the configuration menu of the SPT mode, just

press the key of the operating mode you wish to access.

3.6 TILT operating mode

The TILT operating mode displays on-screen, graphically and numerically, the
difference in level between any four frequencies previously defined as pilots. This
function provides a quantitative measurement about band equalisation.

This function can be applied to forward and to the return paths, according to is
defined in the TILT mode configuration menu (section Tilt mode configuration).

To access this mode of operation press the TILT key

. The screen will show a
bar-graph of the four pilot channels and the difference in level (TILT) between
the upper pilot and the lower pilot (- 5 dB in the example). When the pilots are
not present or its level is lower than 20 dBµV, the message ‘NO PILOTS’ will

appear. Turning the rotary selector

Figure 46. TILT mode.

the reference level may be modified.

June 2016

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The pilots may be defined in two ways:

► By frequency

Using the TILT configuration menu. See section “TILT mode configuration”.

► By channel (only pilots in the forward band).

From the SCAN mode. In order to do this:

Place the marker over the channel you want as low pilot

Press the SCAN key , and the message ‘PILOT 1: PRESS TILT’

will appear at the bottom of the screen.

Keeping the SCAN key held down, press the TILT key , and a

message ‘PILOT 1 ENTERED’ will appear as confirmation.

Repeat the steps 1 to 3 for the 3 following pilots.

3.6.1

Tilt mode configuration

Pressing the CONFIG key will access to the first page of the configuration
menu.

Figure 47. TILT configuration

(FORWARD mode).

June 2016 3-45

To change a given parameter turn the rotary selector until the field is
activated (this will appear shadowed) and then press. The value of the parameter
will be activated and may be changed by turning the rotary selector. When the

value you want appears, press the rotary selector

► BAND

It permits to select between the FORWARD mode (5 to 1005 MHz) and the
REVERSE mode (5 to 80 MHz). When selecting one of these modes, the user
can define the associated frequency.

► PILOT 1

It defines a frequency belonging to the forward or the reverse band where the
first measurement of level will be done. This parameter, and the rest of pilots,
is defined digit by digit, by pressing repeatedly and turning the rotary selector

.

► PILOT 2

It defines the second pilot frequency belonging to the forward or reverse
band.

► PILOT 3

It defines the third pilot frequency belonging to the forward or reverse band

► PILOT 4

to validate it.

It defines the fourth pilot frequency belonging to the forward or reverse band.

Figure 48. TILT configuration (REVERSE mode).

IMPORTANT: To leave the configuration menu of the TILT mode, just

press the key of the operating mode you wish to access.

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3.7 HUM Operating Mode

The HUM operating mode measures the HUM value (%). This feature also
identifies automatically the type of voltage (DC or AC) at the input, the voltage
and the frequency for alternating voltage.

The HUM is buzz at low frequency modulation that affects the carrier, producing
a distinctive hum in both image and audio, especially in analogue signals.

To access this mode press the HUM key.

The display shows the power level, voltage and voltage type (AC

∼ or DC ) ,

frequency for alternating and the HUM percentage.

The HUM value up to 2% is considered acceptable. Above this value is not
acceptable and it should take appropriate countermeasures.

Figure 49. HUM operating mode.

Pressing the rotary knob user can change the tuning by frequency or channel. By
turning the rotary knob the channel or frequency changes.

June 2016 3-47

3.7.1

Hum Configuration mode

In the HUM mode, when pressing the CONFIG key

, it gives access to the

first page of the configuration menu with the parameters related to this mode.

Figure 50. HUM Configuration.

To access the different configurable parameters just turn the rotary knob and
once the field you want to change appears shaded, press the rotary knob; then
turning it, it will be possible to change its value. Finally press it again to validate
the new value.

The parameters shown are:

► Mode of Operation

It allows the user to select the carrier to detect HUM. It may be the audio
carrier, the main carrier or the digital signal. By default is selected the audio
carrier.

IMPORTANT: To exit the HUM configuration menu press any mode key.

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3.8 DATALOGGER operating mode

The LOGGER function permits to automatically measure the level, the
Carrier/Noise ratio and the Video/Audio ratio (the latter only in the case of
analogue channels) as well as the power channel and MER measurements of each
active channel in the channel plan (see paragraph Channel Plan editor at section
Unit Global Configuration). These measurements are stored in the memory so
that they can be subsequently viewed or transferred to a PC. The equipment will
store up to 55 obtained channels or loggers in the memory, with a maximum of
up to 140 analysed channels in each.

When pressing the LOGGER

key, a screen similar to the one of the attached
figure will appear. The first line shows the logger number followed by the date it
was acquired (only if MEASURE function was executed on that logger
previously). Below, the different functions you can perform from this operating
mode are shown: VIEW and MEASURE.

Figure 51. LOGGER main configuration screen.

On the bottom of the display appears present time and date. To modify them see
section Global Configuration Menu.

To access to any of the different fields of the initial screen of the LOGGER

function, turn the rotary selector

until it is activated (it appears shadowed)

and next press it.

First of all you must select the logger on which you want to perform any
function: turn the rotary selector until the LOGGER NUMBER field is shadowed
and press it. Then turning the rotary selector, select the desired logger (from 0
to 54) and finally press it again to validate. The acquisition date appears under
the logger number (only if you have taken measurements on this logger).

June 2016 3-49

To carry out a logger acquisition you must select the MEASURE function, for this

purpose turn the rotary selector

and when this field appears shadowed press

it, in this way you will access to the logger. Next press again the rotary selector

in order that the equipment makes all the measurements defined in the
LOGGER configuration menu over all the active channels of the channel plan (see
Edit Channel Plan function at section “Global configuration menu”).

IMPORTANT: The processing of channels as analogue or digital and the

parameters to make the measures (the frequency of the
audio carrier for the analogue channels and the frequency
offset for the noise measure of the digital channels C/N
ratio) will correspond with the configuration of the
equipment at the time of carrying out the measurement.

To return to the initial menu of the LOGGER function press the LOGGER key

.

To check the measurements stored in a specific logger select the VIEW option:

Figure 52. Logger view.

The first line shows the channel plan (CCIR in the example), the audio carrier
offset (5.50 MHz), the audio demodulation (FM) and the units of measurement
(dBµV). The second line shows the logger number (53 in the attached figure) and
the headings of the measurements (V, V/A and C/N). The measurements taken
are shown in the following format: first column shows the channel, the D
indication on its right means it has been defined as digital (see Edit Channel Plan
function at section “Global configuration menu”), the second column shows the
level (analogue channels) or the channel power (digital channels), the third the
V/A ratio (analogue channels) an the fourth the C/N ratio (analogue channels) or

MER (digital channels). Turning the rotary selector

you can see the rest of

channels.

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The time and date when measurements were taken appear at the end of the list
of measurements, in the following order: hour:minute:second and
month:day:year. To return to the initial menu of the LOGGER function press

LOGGER key.

3.8.1

Datalogger configuration

From the LOGGER mode, when pressing the CONFIG key

we will access to
the configuration menu. This menu permits to modify the THRESHOLD and
MEASURES parameters. To access to them turn the rotary selector and once the
parameter we want to change is appears shadowed, press it; then turning it its
value will be modified. Finally press it again to validate the new value.

Figure 53. Logger configuration.

► THRESHOLD: It activates / deactivates the measurement threshold.

This parameter allows to carry out the logger function in an agile way, by
activating only those measures we consider significative.
In the OFF mode (deactivated) all measurements are taken with a level
higher than 20 dBµV. On the other hand, when a level is defined, only those
channels with a level higher than the THRESHOLD value will be measured.

► MEASURES: It defines the types of measurements to be made.

This parameter allows to select the measurements that are desired to made
between:

ANALOGUE CHANNELS DIGITAL CHANNELS

Audio /

Level

LEVEL /

POWER

AV-CN / MER Yes Yes Yes Yes Yes -

AV-CN / MER-

BER

(*) Note: The BER measurements represent an increase of the data acquisition time.

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Yes - - Yes - -

Yes Yes Yes Yes Yes Yes

Video

Ratio

Carrier /

Noise

Ratio

Power MER BER

(*)

IMPORTANT: To leave the configuration menu of the DATALOGGER

mode, just press the key of the operating mode you wish
to access.

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4 CONNECTION TO A COMPUTER

The equipment allows the connection to a PC for data transfer, by means of a
mini-USB (male) to USB (female) connection cable.

12

The PROMAX-
following options:

► CHANNELS PLAN

EDITOR: Modify, add or delete channel plans.

► CONFIGURATION: Permits to modify all the configuration

► DATALOGGER: Permits to edit and to save all the

► DATE: Allows to update the equipment software

control software permits to carry out from a computer the

parameters.

measurement contained in a logger.

version.

12

The PROMAX-

software control is available in the download area at

the PROMAX website

For more details about PROMAX-12 software, check the next chapter.

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