Elettronika S r l TXUP500 500 Watt Analog TV Broadcast Transmitter User Manual APT139B VEGA Rev0 Date100604

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Document ID	636674
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Document Description	Users manual Exciter Part 2
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Date Submitted	2006-03-15 00:00:00
Date Available	2006-05-19 00:00:00
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Document Title	APT139B_VEGA_Rev0_Date100604
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Document Author:	Gianluca

_______________________________________________________________________________________________
Section 3 - Diagram
Contents:
- Cable diagram
- APT139NM2 VEGA Component list
- Modules description
57
58
Component list
APT139NM2 - VEGA
Part Name Code
Description
Qty
S0007
MTG0077AR0
MTG0076AR0
MTG0078AR0
MTG0072AR0
MTG0073AR0
MTG0084AR0
MTG0075AR0
MTG0079AR0
MTF0088BR0
05352
OPT016
MODULAR STRUCTURE
POWER SUPPLY MODULE
EXTERNAL REFEREMENT MODULE
MULT. AUDIO STEREO MODULATOR - OPT.
MULT. VIDEO MODULATOR MODULE
MULT. IF PRECORRECTOR MODULE
MULT. LOCAL OSCILLATOR MODULE
MULT. CHANNEL FILTER MODULE
DISPLAY AND POWER SUPPLY MODULE
15W UHF AMPLIFIER MODULE
SAW FILTER SF0036BA01033T (EX 523) B/G
OPTION NOTCH FILTER UHF VEGA
S0007 VEGA Structure
Part Name Code
Description
Qty
05627
05616
05552B
DET1010
05611A
05611B
CON0256
05609A
05617
SCH0194AR1
05636A
02699
02867
02884
02881
02897
VEN00004
07596
DET0875I
CON0239
08878
08879
08880
DET1056
02513
02515
08502
10
BOARD GUIDE cod. 010Z000
FRONT METAL SIDE M 2.5 cod. 000EA084
3-4U HANDLE KIT cod. 235.012
DET1010R1 DOWN DIN GUIDE FOR VEGA
FRONT METAL SIDE cod. 000DA084
REAR METAL SIDE cod. 000DA085
CON0256R0 LEFT SIDE FOR VEGA
ANGULAR FOR HANDLE cod. 116ZF001
REAR METAL SIDE M 2.5 cod. 000EA085
BUS STRUCTURE
PERFORATED COVER RACK cod. 405MB084
10 WAYS FEMALE CONNECTOR cod. IDS10FSR1
20 CONT. FEMALE CONNECTOR cod. IDS20FSR1
6 WAYS MALE KSC 6 EXTR. CLAMP-HOLDER
4 WAYS MALE KSC 4 EXTR. CLAMP-HOLDER
2 WAYS MALE 90° KSCO2 EXTR. CLAMP-HOLDER
PAPST FAN mod. 4184NXH 24V
FAN GRID LZ 201
DET0875R1 CONVEYER FAN FOR VEHA INOX P.2678
CON0239R0 RIGHT SIDE FOR VEGA
RG316 50W 41626-SMB 90° 260mm DIN CABLE
RG316 50W 41626-SMB 220mm DIN CABLE
RG316 50W 41626-41626 120mm CABLE
DET1056R1 UP DIN GUIDE FOR VEGA
SMB 90° R114186000 SOCKET
SMB R114313000 SOCKET
RG316 50W CABLE
59
MULT. AUDIO MONO MODULATOR MODULE
MTG0071AR1
DESCRIPTION
The audio signal enters the module through one 600W balanced or 10kW unbalanced
XLR connection, which may be placed either on the front or rear panel and softwareselected. It is conditioned by a digital power-meter with a ±8dB 0.5dB-step dynamic and
muting. Then there are the emphasis and clipping stages (which can be inserted via software),
before the frequency modulation of the audio carrier.
The control system of the audio subcarrier is a PLL which locking frequency can be selected
via software depending to the transmission standard, while the reference frequency comes
from the video module.
The control frequency comes from a VCTCXO inside the module to foresee the possibility
of a separated-audio system, for which the 20MHz may be locked to a more precise
system coming from the 5/10MHz bus.
The carrier obtained this way is modulated in frequency and level-conditioned by an IF gain stage trough a
digital power-meter with a ±3dB dynamic in fine tuning before being added to the video carrier.
The following control signal for the modulator operation are present on the board: PLL lock status of the
audio subcarrier, Overload on the audio input, Peak level of the deviation of the audio subcarrier.
All of the operating parameters of the board are managed by the built-in micro-processor. Communication to
outside are performed trough RS485 bus.
TECHNICAL CHARACTERISTICS
Input impedance
Nominal level
Input
Emphasis
Deviation limiter
Low-pass filter
Frequency response
THD
Intermodulation
Synchronous AM S/N
Asynchronous AM S/N
FM S/N CCIR
Analog measures
Carrier frequency synthesis
Audio carrier characteristics
Frequency reference
External interface
Firmware
60
600W - 10kW selectable
2Vpp -¥/+8dB
Front and back XLR selectable
FLAT-50msec (FLAT-75usec)
Selectable
15kHz excludible
< ±0.5dB
< 0.5%
< 60dB (d2,d3)
> 50dB
> 70dB
> 72dB
Carrier FM deviation
PLL
On/Off selection and level adjustment > ±3dB
Internal TCXO externally lockable
Microprocessor with RS485 protocol
Re-configurable through RS485
61
The module contains the following blocks:
1. Input relay – chooses the audio source between the XLR on the front panel of the module and the one
on the back of the apparatus and selects the input impedance to 600W or 10kW; both switching are
managed by the software.
2. Audio level regulation stage – regulates the level of the audio signal by means of a digital potentiometer
which can be programmed trough a uWIRE interface (with 0.5dB step between -8dB and +8dB).
3. Emphasis stage – inserts an emphasis curve on the audio signal with a time constant depending on the
standard (50,75us); the choice can be selected via software.
4. Deviation limiter – cuts the audio level to limit the FM deviation; its intervention is handled by the
software and the intervention of the clipper, if any, is signalled by a red LED on the front panel.
5. Low-pass filter – filters the audio signal before the modulation to suppress external residues from the
audio band (20Hz-15kHz); the filter can be inserted by means of jumpers on the board.
6. Audio signal level measurement – this stage detects the peak level of the audio signal providing a
conditioned analog voltage for the A/D conversion; the voltage will be processed by the microcontroller
of the display board (see MTG0079) to be shown as VU-METER.
7. Frequency modulator – converts to intermediate frequency the audio signal as FM modulation of a
carrier.
8. Carrier level regulation stage – switches on and off the audio carrier and the regulation within at least
±3dB of the level referring to the video carrier.
9. IF amplifier – amplifies the audio carrier to obtain an output level of -6dBm.
10. Output low-pass filter – filters the harmonics of the audio carrier.
11. Audio IF oscillator – generates the audio carrier performing the PLL frequency synthesis; the selectable
standards and the lock indication are handled by the software.
12. 20MHz reference – the frequency reference for the PLL synthesis of the carrier is generated by a
TCXO which may be locked to a more precise 5/10MHz external reference (see MTG0076).
13. Controller – all of the described operations are managed by a microcontroller communicating to the user
interface board (see MTG0079) by RS485 protocol; the local controller stores the status of the module
and a reprogramming of the firmware (possible via RS485 from the display board) does not alter its
contents.
62
CALIBRATION PROCEDURE
- Instrument list
MEASURE
Lock of the carriers and reference
Calibration of the audio parameters
after the FM modulation
INSTRUMENT
- Spectrum analyser
- Oscilloscope
- Tester
- Audio generator
- FM Audio receiver
- Audio parameters analyser
Description of the adjustment points
COMPONENT
DESCRIPTION
R6
FM deviation level
R36
Unused
R37
Audio carrier level (-6dBm)
R99
VU-METER deviation
C17
Tuning of the local oscillator of the audio carrier
L5
Fine tuning of the local oscillator of the audio carrier
J7
IF video testpoint (50kHz)
J10
Unused
J3
VCO control voltage testpoint (7...8V)
J6
TCXO testpoint (50kHz)
J11
Unused
J12
External reference testpoint (100kHz)
J2
Audio input (panel)
J5
IF Monitor (panel)
63
Component layout for adjustment points
64
The calibration procedure of the module requires a complete structure of display board (see MTG0079)
and extension module (see MTG0095) in order to perform the software selection which will be referred
to later and power the module itself.
Menu of the Multistandard Mono Audio Modulator Module
Verification of the IF oscillator section – connect a spectrum analyser to the monitor of the J5 module
and check the sections in it:
q Configure the module with IF On and IF Level at ½ of the scale and calibrate C17, L5 to lock the audio
carrier to the intermediate frequency of the set standard (to change the standard refer to the standard
change procedure) and obtain a lock voltage between 7V and 8V on J3, checking that SC is on Lock in
the menu of the display.
q In case of problems in obtaining the lock, check that on J6, J7 and J12 there are the frequencies listed in
the table of the description of the adjustment points.
Verification of the audio base-band section – connect an audio source to J2 and an FM demodulator
with audio parameters measurement capability to the IF monitor of J5 and check the sections in it:
q Configure the module with Audio Lvl at 0dB, Zin on 600W, Limiter off, Emph present and Source
front.
q Calibrate R6 to obtain the correct level of audio deviation.
q Increase Audio Lvl to +6dB and set Limiter on, chect that the over LED lighted up and that Overload
indicates Pres, restore Audio Lvl to 0dB and check that the LED becomes unlit and Overload indicates
Trig, if needed reset this indication with Reset Trig and check that it goes to Abst.
q Calibrate R99 for the correct indication of the VU-METER.
65
Component layout SCH0198AR3 - Bot layer
Component layout SCH0198AR3 - Top layer
66
MULT. AUDIO STEREO MODULATOR MODULE (Option)
MTG0078AR0
DESCRIPTION
This modulator allows the Mono, Stereo and Dual Sound coding of TV audio signal.
The boards accept two input audio channels with a nominal amplitude of 2Vpp ±8dB on
a selectable impedance of either 600W balanced or 10kW unbalanced. The selection of
the input impedance is made by means of a relay, the adjustment of the input level is made
by means of a digital power-meter. The audio inputs are trough balanced XLRF audio
connectors on the front panel or trough the bus connector. The audio source, either from
front or back, is switched by a relay.
The modulator allows to add a pre-emphasis circuit, which time constant can be set in
factory to either 50 or 75 microseconds.
It is possible to add a deviation circuit to prevent an overdrive of the modulator by an
excessive-level base-band signal.
The base-band audio signals are limited in frequency through low-pass filters which suppress frequencies
higher than 15kHz.
The deviation level is monitored by two peak detectors, one for each audio channel.
The Mono, Stereo or Dual Sound coding is analog. The pilot tone identifying the codification is overlapped to
the audio signal which modulates the secondary audio subcarrier. This tone is represented by a 54.6875kHz
pilot frequency, synthesised locally and locked by a PLL to the line frequency of the video signal in base band.
The coding requires this pilot frequency to be non-modulated for monophonic audio. The pilot frequency is
AM modulated with a frequency equal to 117.5Hz, 50% modulation depth, for Stereo. It is AM modulated
with a frequency of 274.1Hz, 50% modulation depth, for Dual Sound audio.
The coded audio signal modulates the two subcarriers generated by the VCO, PLL locked to a reference
frequency of 20MHz. Each of the subcarriers can be disabled, and the nominal level can be changed by
±3dB. On the board there is an IF input for the 38.9MHz video carrier. The latter is added to the two audio
subcarriers and sent to the output.
The following control signal for the modulator operation are present on the board:
- PLL lock status of the primary audio subcarrier.
- PLL lock status of the secondary audio subcarrier.
- PLL lock status of the pilot tone.
- Overload on the main audio input.
- Overload on the secondary audio input.
- Peak level of the deviation of the primary audio subcarrier.
67
- Peak level of the deviation of the secondary audio subcarrier.
All of the operating parameters of the board are managed by the built-in micro-processor. Communication to
outside are performed trough RS485 bus.
TECHNICAL CHARACTERISTICS
Input impedance
Nominal level
Input
Emphasis
Deviation limiter
Low-pass filter
Frequency response
THD
Stereo crosstalk
Intermodulation
Synchronous AM S/N
Asynchronous AM S/N
FM S/N CCIR
Analog measures
Carrier frequency synthesis
Audio carrier characteristics
Pilot tone characteristics
Pilot tone modulation
Modulation frequency
Frequency reference
External interface
Firmware
68
600W - 10kW selectable
2Vpp -¥/+8dB
Front and rear XLR selectable
FLAT-50msec (FLAT-75usec)
Selectable
15kHz excludable
< ±0.5dB
< 0.5%
< -40dB
< 60dB (d2,d3)
> 50dB
> 70dB
> 72dB
FM deviation of the carriers
A PLL
On/Off selection and level adjustment > ±3dB
54687.5Hz (3/2fs) ±10Hz
AM 50%
274.12Hz (1/57fs) 117.48Hz(1/133fs)
Internal TCXO externally lockable
Microprocessor withRS485 protocol
Re-configurable via RS485
69
The module contains the following blocks:
1. Input relays (2) – chooses the audio source between the XLR on the front panel of the module and the one on
the back of the apparatus and selects the input impedance to 600W or 10kW; both switching are managed by
the software.
2. Audio level regulation stages (2) – regulates the level of the audio signal by means of a digital potentiometer
which can be programmed trough a uWIRE interface (with 0.5dB step between –8dB and +8dB).
3. Emphasis stages (2) – inserts an emphasis curve on the audio signal with a time constant depending on the
standard (50,75us); the choice can be selected via software.
4. Deviation limiters (2) – cuts the audio level to limit the FM deviation; its intervention is handled by the
software and the intervention of the clipper, if any, is signalled by a red LED on the front panel.
5. Low-pass filters (2) – filters the audio signal before the modulation to suppress external residues from the
audio band (20Hz-15kHz); the filter can be inserted by means of jumpers on the board.
6. Stereo matrix – encodes the two audio signals depending on the transmission mode set and adds the modulated
pilot tone to define the transmission standard as either mono, stereo or dual sound; the selection can be made
via software and is indicated by three yellow LEDs on the frontal panel.
7. 14MHz quartz oscillator – generates the clock needed to synthesise the pilot tone locked to the line-synchronism
frequency of the video signal coming from the video modulator module (see MTG0072).
8. Synthesised pilot tone generator – synthesises the pilot tone by means of DDS programmed trough an
uWire interface.
9. Audio signal level measurement – this stage detects the peak level of the audio signal providing two conditioned
analog voltages for the A/D conversion; the voltages will be processed by the microcontroller of the display
board (see MTG0079) to be displayed as VU-METERS.
10. Frequency modulators (2) – converts to intermediate frequency the audio signal as FM modulation of a
carrier.
11. Carrier level regulation stages (2) – switches on and off the audio carrier and the regulation within at least
±3dB of the level referring to the video carrier.
12. IF amplifier – amplifies the audio carrier to obtain an output level of -6dBm.
13. Output low-pass filter – filters the harmonics of the audio carrier.
14. Audio IF oscillators (2) – generates the audio carrier performing the PLL frequency synthesis; the selectable
standards and the lock indication are handled by the software.
15. 20MHz reference – the frequency reference for the PLL-synthesis of the audio carrier is obtained from the
video module (see MTG0072) to keep a perfect intercarrier lining.
16. Controller – all of the described operations are managed by a microcontroller communicating to the user
interface board (see MTG0079) by RS485 protocol; the local controller stores the status of the module and a
reprogramming of the firmware (possible via RS485 from the display board) does not alter its contents.
70
CALIBRATION PROCEDURE
- Instrument list
MEASURE
Lock of the carriers and reference
Calibration of the audio parameters
after the FM modulation
INSTRUMENT
- Spectrum analyser
- Oscilloscope
- Tester
- Audio generator
- FM Audio receiver
- Audio spectrum analyser
- Description of the adjustment points
COMPONENT
DESCRIPTION
R161
Clipper symmetry, left channel
R176
Clipper symmetry, right channel
R13
Indication of the main carrier deviation
R134
Indication of the secondary carrier deviation
LP1, LP2, LP3, LP4
R41, R42, C42
Frequency response adjustment
Crosstalk adjustment
R103
Pilot tone level adjustment
R29
Adjustment of the main carrier deviation
R104
Adjustment of the secondary carrier deviation
C30, L7
C102, L14
Adjustment of the main carrier frequency
Adjustment of the secondary carrier frequency
R37
Adjustment of the main carrier output level
R76
Adjustment of the secondary carrier output level
R70
Adjustment of the video carrier (Unused)
R72
Adjustment of the carriers output level
71
COMPONENT
MF1, MF2
J2, J7
J4
DESCRIPTION
Adjustment of the output filter
Audio inputs (panel)
IF monitor (panel)
Component layout for adjustment points
The calibration procedure of the module requires a complete structure of display board (see MTG0079)
and extension module (see MTG0095) in order to perform the software selection which will be referred
to later and power the module itself.
72
- Menu of the Multistandard Stereo Audio Modulator Module
Verifica sezione oscillatore a IF – collegare un analizzatore di spettro sulla monitoria del cassetto J5 e
controllare la funzionalità delle sezioni in esso presenti:
q Configure the module with IF1 and IF2 On and IF1 Level and IF2 Level at ½ of the scale and
calibrate C30 and L7 (C102 and L14) to lock the audio carriers to the intermediate frequency of the set
standard (to change the standard refer to the standard change procedure) and obtain a lock voltage
between 2V and 3V on C4 (C113), checking that SC1 and SC2 are on Lock in the menu of the display.
q Connect a spectrum analyser in tracking mode between J3 and the output of the J1 module and check
the response of the filter calibrating MF1 and MF2 to the minimum ripple.
q Calibrate the R37 trimmer to obtain on J1 the maximum level of the main carrier in output and calibrate
R76 for a level of the secondary carrier -7dBc compared to the main, then calibrate R72 to obtain a level
of the main carrier of -6dBm.
Verification of the audio base-band section – connect an audio source to J2 and J7 and an FM
demodulator with audio parameters measurement capability to the IF monitor of J4 and check the sections in
it:
q Configure the module with Mode DualSound, Audio1 Lvl 0dB, Audio2 Lvl 0dB, Zin 600W, Limiter
off, Emph present and Source front.
q Calibrate R29 and R104 to obtain the correct level of audio deviation for both subcarriers.
q Increase Audio1(2) Lvl to +6dB set Limiter on, chect that the over LED lighted up and that
OverloadL(R) indicates Pres, and that the limitation circtuit acts symmetrically on both polarities of the
audio signal, using an oscilloscope on pin3 of JP1 (JP3), and retouch if needed R161 (R176), restore
Audio1(2) Lvl to 0dB and check that the LEDs become unlit and OverloadL(R) indicates Trig, if
needed reset this indication with Reset Trig and check that it goes to Abst.
q Calibrate R13 and R134 for the correct indication of the VU-METERS.
q Configure the module with Mode Mono and calibrate R103 to a 2.5kHz deviation of the pilot tone with
no audio sources connected on J2 and J7.
q Configure the module with Mode Stereo and connect an audio signal to J7, calibrate R41, R42 and C42
to maximise the crosstalk of the right channel over the left channel.
73
Component layout SCH0210AR1 - Bot layer
74
Component layout SCH0210AR1 - Top layer
75
MULT. VIDEO MODULATOR MODULE
MTG0072AR0
DESCRIPTION
The video signal enters the module trough a 75W BNC connection which can be selected
via software on either the front or rear panel of the apparatus, and is conditioned to the
standard value of 1Vpp by a digital power-meter with a maximum dynamic of +/-6dB. A
sample&hold system allows to set the black level independently from the video information
in order to perform clipping operations of the synchronism and luminance levels (which
can be disabled via software).
An electronic switch (selectable via software) allows to add the video pre-correction stage,
made up by the synchronism regenerator and the video group delay pre-corrector. The
former allows to regenerate a normal synchronism level for remarkably degraded video
signals, while the latter allows to correct the shape of the audio trap contained in the TV
receivers. If the synchronism regenerator is not needed, it can be disabled even if the video
pre-correction stage is enabled, but it cannot be used without the latter. The processed video signal modulates
the amplitude of the audio carrier generated by an internal local oscillator and controlled by a PLL which
locking frequency can be selected via software in accordance with the transmission standard.
The amplitude modulation of the carrier is performed by a Gilbert dell controlled in current to obtain an
effective modulation linearity. After this, there are the vestigial filter and an UF gain stage which also sums the
audio subcarriers, if any. The whole modulation system is locked to an internal 20MHz reference made up by
a VCTCXO, which may in turn be locked to an external 5/10MHz reference present on the control bus, in
case the precision offset support is needed.
This 20MHz reference is also used in the audio modulation module in order to obtain the perfect distance
between the audio and video carriers even without the external precision reference.
TECHNICAL CHARACTERISTICS
Input impedance
Nominal level
Input
Group delay
Frequency response
Differential gain
Differential phase
Luminance non-linearity
k-Factor
Tilt
ICPM
S/HUM
S/Nunwgt
S/Nwgt
Clamping
76
75W - ROS>25dB
1Vpp ±6dB
Front and back selectable BNC
< 50nsecpp
< ±0.5dB
< ±1%
< ±2°
< ±2%
< 1%
< 1%
< 2°
> 48dB
> 60dB
> 68dB
S/H to backporch
Clipper intervention
Synchronism regenerator
Group delay pre-corrector
Analog measures
On synchronism and luminance
Effective within ±6dB
8-celle, excludible
Synchronism and
luminance level
Carrier frequency synthesis PLL
Frequency reference
Internal TCXO
externally lockable
External interface
Microprocessor with
RS485 protocol
Firmware
Riconfigurabile tramite RS485
77
The module contains the following blocks:
1. Input relay – chooses the video source between the BNC on the front panel of the module and the one
on the back of the apparatus; the switching is managed by the software.
2. Video level regulation stage – regulates the level of the video signal by means of a digital potentiometer
which can be programmed trough a uWIRE interface.
3. Clamping stage – uses the timing information of the synchronism extraction stage (see below) to perform
the sample & hold of the black level at backporch.
4. Synchronism and luminance limitation – clips the synchronism and luminance levels without distorting
the crominance signal; the intervention is handled by the software and shown by a yellow LED on the
frontal panel, the intervention of the clipper, if any, is shown by two red LEDs (one for synchronism and
one for luminance) on the front panel.
5. Synchronism extraction stage – extracts from the video signal the synchronism timing to perform the
clamping, the regeneration and the lock of the pilot tone of the stereo audio modulator (see MTG0078).
6. Synchronism regeneration stage – starting from the timing information extracted by the previous stage,
this processes a new synchronism pulse corrected both in level, timing and shape (rising and lowering
times); the intervention is handled by the software and signalled by a yellow LED on the frontal panel.
7. Group delay pre-corrector – performs the pre-correction of the notch filter on the audio carrier in the
demodulator of the receiver in order to equalise its group delay.
8. Synchronism insertion stage – ‘cuts’ the existing synchronism of the video signal and superimposes the
regenerated one; due to the need of a delay in the video signal to perform the cut compared to the
extraction timing of the synchronism, this stage is related to the insertion of the group delay pre-corrector
which inserts this delay.
9. Video switch – this stage chooses between the processed video signal (pre-corrected and regenerated in
synchronism if needed) and the non-processed one, at this stage there is the monitor for the video base
band with 75W output with SMB connector on the frontal panel; the choice is handled by the software
and signalled by a yellow LED on the front panel.
10. Video signal level measurement – this stage detects the peak of the synchronism and luminance levels
providing two analog voltages for the A/D conversion; the voltages will be processed by the microcontroller
of the display board (see MTG0079) to be displayed as VU-METERS.
11. Synchronism level clamper – once all needed processing have been performed with the clamping at
black level, a new clamping operation at the synchronism level is made in order to perform the subsequent
negative AM modulation.
12. Amplitude modulator – converts to the intermediate frequency the video signal referring to the synchronism
78
peak with a modulation depth of 90% at white level.
13. Vestigial SAW filter – filters the double side-band to the broadcast carrier in order to obtain a vestigial
modulation (the upper side-band is partially broadcast).
14. IF Amplifier – performs the amplification after the vestigial filtering and sums the audio subcarrier(s)
coming from the audio modulator module (see MTG0071/78).
15. Output low pass filter – filters the presence of harmonics of the audio and video carriers.
16. IF video oscillator – generates the video carrier by performing the PLL frequency synthesis; the selectable
standards and the lock indication are handled by the software.
17. Riferimento a 20MHz – the frequency reference for the PLL synthesis of the video carrier is generated
by a TCXO which may be locked to a more precise 5/10MHz external reference (see MTG0076), this
reference is buffered and used as reference by the audio modulator (see MTG0071 /78) to synthesise the
frequency of the audio carrier so that there are no frequency offsets between the two carriers, even when
there is no common external reference.
18. Controller – all of the described operations are managed by a microcontroller communicating to the user
interface board (see MTG0079) by RS485 protocol; the local controller stores the status of the module
and a reprogramming of the firmware (possible via RS485 from the display board) does not alter its
contents.
CALIBRATION PROCEDURE
- Instrument list
MEASURE
Lock of the carriers and reference
Calibration of the video parameters
in base band
and after the AM modulation
INSTRUMENT
- Spectrum analyser
- Oscilloscope
- Tester
- Video generator with VITS
- AM Video receiver
- Video parameters analyser
79
- Description of the adjustment points
COMPONENT
DESCRIPTION
R71
White clipper level
R92
Level of the video signal in base band (0dB on dig. pot.)
R156
AM modulation depth (90%)
R196
Video carrier level (-6dBm)
R32, R45, R63, R81,
R37, R50, R68, R86
Control of the passing band of the pre-corrector cells
R39, R54, R73, R88,
R44, R59, R78, R91
Control of the group delay of the pre-corrector cells
R98
R14, R16
R162, R163
Timing of the cut window of the synchronism
Shape adjustment of the synchronism
C49
Control of the passing band of the pre-corrector
C113
Tuning of the local oscillator of the video carrier
MF1, MF3, MF5, MF8,
MF2, MF4, MF6, MF9
MF7
Tuning of the group delay pre-corrector cells
Tuning of the filter on the chrome carrier of the white limiter
L5
Fine tuning of the local oscillator of the video carrier
J4
IF video testpoint (50kHz)
J5
Unused
J6
VCO control voltage testpoint (7...8V)
J7
TCXO testpoint (50kHz)
J8
Unused
J9
External reference testpoint (100kHz)
J1
Video input (panel)
J2-J13
Video link for rear input
J11-J14
IF link for audio carrier input
J12
80
Level of the regenerated synchronism
IF monitor (panel)
Component layout for adjustment points
81
The calibration procedure of the module requires a complete structure of display board (see
MTG0079) and extension module (see MTG0095) in order to perform the software selection which
will be referred to later and power the module itself.
- Menu of the Multistandard Video Modulator Module
Verification of the video base-band section – connect a video source with VITS to J1 and a video
parameter measurer to the video base-band output and check the sections included:
q Configure the module with Video Level at ½ of the scale, Clipper off, Precorr off, Sync.Restore off
and Source front.
q Calibrate R92 to obtain the correct levels of synchronism (Fig.1), luminance (Fig.2) and color burst
(Fig.3).
q Increase Video Level to ¾ of the scale and set Clipper to on, calibrate R71 for the intervention of the
white limitation circuit, check that the over LEDs light up and that White Clip and Sync Clip are on
Pres, restore Video Level to ½ of the scale and check that the LEDs become unlit and that White Clip
and Sync Clip are on Trig, if needed reset this indication by means of Reset Trig anc check that White
Clip and Sync Clip are on Abst.
q Configure the module with Precorr on and calibrate R39, R54, R73, R88, R44, R59, R78 and R91
to obtain the desired group delay mask, if needed calibrate R32, R45, R63, R81, R37, R50, R68,
R86 and C49 to make the passing band flat; in case this cannot be done in the base band (the video
parameters analyser has no group delay mask for the required standard) the calibration of the IF precorrector can be made using the AM receiver set with the trap on the audio carrier enabled, equalising the
group delay in order to make it flat as in Fig.10 (thus automatically compensating the trap on the audio
carrier of the receiver).
q Configure the module with Sync.Restore on and calibrate R14 and R16 for the correct timing of the
synchronism pulse (Fig.5) and color burst (Fig.6) and R98 for the correct level of the synchronism
(Fig.1); only if needed, calibrate R162 and R163 to equalise the rising and lowering time of the synchronism
pulse.
Verification of the IF oscillator section – connect a spectrum analyser on the monitor of the J12 module
and check the sections within:
82
q Calibrate C113 and L5 to lock the video carrier to the intermediate frequency of the set standard (to
change the standard refer to the standard change procedure) and obtain a lock voltage between 7V and
8V on J6 checking that Video is on Lock in the display menu.
q In case of problems in obtaining the lock, check that on J4, J7 and J9 there are the frequencies listed in
the table of the description of the adjustment points.
Verification of the AM modulation section – connect a video source with VITS to J1, a spectrum
analyser to the monitor of the J12 module and an AM video receiver with video parameters analyser to the
output of the J15 module, anc check the sections within:
q Calibrate R196 for a level of –6dBm of the video carrier and check that the video parameters described
in the technical specifications table are obtained (see Fig.1 to Fig.14).
Fig. 1
Fig. 2
Fig. 3
Fig. 4
Fig. 5
Fig. 6
83
84
Fig. 7
Fig. 8
Fig. 9
Fig. 10
Fig. 11
Fig. 12
Fig. 13
Fig. 14
Component layout SCH0172AR3 - Top Layer
Component layout SCH0172AR3 - Bot Layer
85
MULT. IF PRECORRECTOR MODULE
MTG0073AR0
DESCRIPTION
The non-linearity IF pre-correction is performed by two distinct stages which act on different
characteristics of the signal. The first stage works on ICPM and differential phase and gain
(DGDP) of the video signal, which are small signal characteristics and thus need a precorrection based on “adapted” filtering cells.
The second stage works on intermodulation, which is a large signal characteristic and
needs a pre-correction based on the intervention on non-linear stages.
In consideration of this, the work of the second stage is assured by am automatic gain
control system which comes before and after the correction cells, and which is needed to
have the system work correctly for each type of pre-correction adopted.
The whole pre-correction stage can be enabled and disabled via software with a switching
system which prevents the overshoot at IF-level, dangerous for the final stages.
TECHNICAL CHARACTERISTICS
Input impedance
Output impedance
Nominal level
Group delay
Frequency response
I.C.P.M. pre-correction
D.P. pre-correction
IMD1 pre-correction
IMD2 pre-correction
Video signal for ICPM and DP
Automatic gain control
Pre-correction
Pre-corrector intervention
Analog measures
86
50W - ROS > 25dB
50W - ROS > 25dB
-6dBm
< 10nsecpp
< ±0.2dB
3 cells: (-) (+) (level)
3 cells: (-) (+) (level)
3 cells: (knee) (slope) (phase)
3 cells: (knee) (slope) (phase)
Internal envelopment demodulator
Before and after the IMD1 cells, 2
Excludible via software
Can be enabled even when powered, without overshoot
---
87
The module contains the following blocks:
1. Input amplifier – de-couples the input of the module from the internal pre-correction sections.
2. Input/output relay – inserts or excludes the pre-corrector from the IF chain with the timing needed to avoid
power overshoot due to the internal AGC stages; the switch is handled by the software and signalled by a
yellow LED on the frontal panel.
3. Envelopment demodulation stage – extracts the video information from the AM modulation in order to
process the interventions on the pre-correction of ICPM and DP.
4. Conditioning stages of the video signal (2) – these use the information extracted by the demodulator and
process it by inserting some deformation stages of the video signal which parameters (lower cut, upper cut and
level) depend on the controls on the frontal panel.
5. Equalisation cell – equalises the passing band of the IF pre-corrector by inserting a band-pass filter cell
between the ICPM (set on the video carrier) and DP (set on the audio carrier) pre-correction cells.
6. ICPM pre-correction cell – performs the intervention set by the ICPM conditioning stage on the band-pass
filter cell set on the video carrier.
7. DP pre-correction cell – performs the intervention set by the DP conditioning stage on the band-pass filter cell
set on the audio carrier.
8. Automatic gain control stage (in) – performs the gain control on the IF signal in order to have the IMD precorrection cells always work on the optimal point.
9. Intermodulation pre-correction cells (2) – pre-correct the three-tones intermodulation by inserting two
non-linearity stages which parameters (knee, slope and phase) depend on the controls on the frontal panel.
10. Automatic gain control stage (out) – performs the gain control on the IF signal in order to obtain an output
signal which level does not depend on the inserted pre-correction.
11. Output low-pass filter – filters the presence of harmonics inserted by the linearity pre-corrector.
CALIBRATION PROCEDUE
- List of instruments
MEASURE
INSTRUMENT
Calibration of the pre-correction cells - Spectrum analyser with tracking
and envelopment demodulator
- Oscilloscope
Calibration of the video parameters
after the pre-correction
88
- Video generator with VITS
- AM Video receiver
- Video parameters analyser
- Description of the adjustment points
COMPONENT
DESCRIPTION
R12
IF level without pre-correction (-6dBm)
R123
IF level before the IMD pre-corrector (0dBm)
R126
IF level after the IMD pre-corrector (-6dBm)
C57, L11
Band-pass filter on the video carrier of the envelopment demodulator
C14, L10
Notch filter on the audio carrier of the envelopment demodulator
C23, L9
Tuning of the equalisation band-pass filter
R7, C4
Merit and gain factor of the equalisation band-pass filter
C20, L7
Tuning of the ICPM band-pass filter
R5, C3
Merit and gain factor of the ICPM band-pass filter
C17, L5
Tuning of the DP band-pass filter
R3, C1
Merit and gain factor of the DP band-pass filter
L1, L2, L3
Need no calibration
R187, R188, R189
Calibration of the ICPM parameters
R190, R191, R192
Calibration of the DP parameters
R193, R194, R195
Calibration of the IMD1 parameters
R196, R197, R198
Calibration of the IMD2 parameters
JP1, JP2
J2
JP3, JP4, JP5
J1, J9
JP10, JP11
J4, J11
J8
Jumpers to calibrate the IF filter concerning the ICPM and DP cells
IF input of the filter concerning the ICPM and DP cells
Jumpers to esclude the cells of the ICPM and DP IF filters
IF link (J1 is also the output of the ICPM and DP filter)
Configuration jumpers of the IMD cells (do not use)
IF link
IF monitor (panel)
JP6, JP9
Configuration jumpers of the intervention of the DP pre-correction
JP7, JP8
Configuration jumpers of the intervention of the ICPM pre-correction
89
Component layout for adjustment points
90
The calibration procedure of the module requires a complete structure of display board (see MTG0079)
and extension module (see MTG0095) in order to perform the software selection which will be referred
to later and power the module itself. Besides a video modulator module (see MTG0072) and an audio
modulator module (see MTG0071/78) already calibrated are needed to calibrate, if neededm the
envelopment demodulator (only for the first calibration or to change the standard).
- Menu of the Multistandard IF Precorrector Module
Verification of the ICPM and DP pre-correction section – connect a spectrum analyser with tracking
between J2 and J1 and check the sections therein:
q Calibrate C20 and L7 to tune the cell of I.C.P.M. to the frequency of the video carrier summing about
750kHz (Fig.1) with JP4 on and JP3 and JP5 off.
q Calibrate C17 and L5 to tune the cell of D.P. to the frequency of the audio carrier subtracting about
750kHz (Fig.2) with JP3 on and JP4 and JP5 off.
q Calibrate C23, L9 to tune the equalisation cell to the middle of the intermediate frequency (Fig.3) with
JP5 on and JP3 and JP4 off.
q Set JP3, JP4 and JP5 on and check the response of the filter curve (Fig.4) to the desired passing band,
if needed retouch R3, R5 and R7 to correct the ripple in band and C1, C3 and C4 to equalise the group
delay of the filter obtaining a frequency response as in Fig.5.
Verification of the envelopment demodulator section – connect the module to the frame provided with
video modulator by means of the extension board and check the sections therein:
q Calibrate C57 and L11 to obtain the best demodulation of the video signal by connecting an oscilloscope
to C44 (only if changing the IF standard).
q Calibrate C14 and L10 to obtain the best attenuation of the audio signal superimposed to the video signal
connecting an oscilloscope to C44 (only if changing the IF standard and with at least one audio module in
the frame).
Verification of the IMD1, 2 pre-correction sections – connect a spectrum analyser with tracking between
J9 and J10 and check the sections therein:
91
q Configure the module with Prec enabled.
q Calibrate R123 to an IF level of 0dBm on R178 and calibrate R126 to an IF level of -6dBm on J10 with
the tracking on -6dBm.
q Check that the passing band of the section is similar as the one in Fig.6 and able to cover the whole IF
band from 30MHz to 50MHz.
Verification of the module without pre-correction – connect a spectrum analyser with tracking between
J3 and J10 and check the sections therein:
q Configure the module with Prec disabled.
q Calibrate R12 to an IF level of -6dBm on J10 with the tracking on -6dBm.
q Check that the passing band of the section is flat within 0.2dB on the whole IF from 30MHz to 50MHz.
92
Fig. 1
Fig. 2
Fig. 3
Fig. 4
Fig. 5
Fig. 6
The testing procedure of the linearity pre-corrector is the consequence of a series of subsequent
interventions on the pre-corrector cells in order to achieve a good compromise of the video parameters
of the amplifier at the working power.
A calibration technique for the cells allowing to satisfy these requirements is proposed below; the
choice of the good compromise on the video parameters is anyway entrusted to the skill of the tester.
IMD1, 2 pre-correction - the intermodulation pre-correction inserts distortions in the negative Am modulation
linear characteristic of the video signal in order to compensate the distortions due to the power amplifier.
These are characterised by three parameters: Knee, Slope and Phase, and introduce some deviations from
the input/output linear characteristic of the pre-corrector.
For a more complete possibility of shaping the non-linearity characteristic, there are two pre-correction cells
in two particular regions of the characteristic: 50% APL (cell 1) and 100% APL (cell 2).
OUT
OUT
IN
50%APL
100%APL
AM-AM
IN
50%APL
100%APL
AM-PM
The suggested procedure to compensate the characteristic of the final power stage is to start ‘positioning’ cell
1 (by acting on the K and S trimmers) in order to find a minimum point for the intermodulation, then ‘position’
cell 2; retouch the P trimmer if needed to refine the pre-correction.
Usually cell 1 only is needed to pre-correct A-class final stages, while for AB-class ones both cells are
needed.
In order to exclude one of the cells (or both at the beginning of the pre-correction procedure) it only takes
decreasing the K, S and P trimmers to the minimum.
Perform the pre-correction procedure for the intermodulation with the red bar video signal and repeat it for
the other colours if needed, refining the pre-correction.
ICPM pre-correction – a catalogue of the different kinds of pre-correction which can be introduced on the
ICPM parameter is given below. Once the measure has been taken, the situation which better approximates
93
the compensation has to be found, then the figure reproducing the measure in a ‘specular’ way is to be
considered.
In the catalogue there are also the positions of the trimmers and the jumpers to obtain all proposed
configurations, of course intermediate solutions are possible and the intensity of all solutions may be scaled by
means of the level trimmer which is considered to be at the maximum intervention in the catalogue.
DP pre-correction – a catalogue of the different kinds of pre-correction which can be introduced on the DP
parameter is given below. Once the measure has been taken, the situation which better approximates the
compensation has to be found, then the figure reproducing the measure in a ‘specular’ way is to be considered.
In the catalogue there are also the positions of the trimmers and the jumpers to obtain all proposed
configurations, of course intermediate solutions are possible and the intensity of all solutions may be scaled by
means of the level trimmer which is considered to be at the maximum intervention in the catalogue.
94
- I.C.P.M. Pre-correction catalogue with:
JP7 ® 1-2; JP8 ® 1-2
95
- I.C.P.M. Pre-correction catalogue with:
96
JP7 ® 2-3; JP8 ® 1-2
- I.C.P.M. Pre-correction catalogue with:
JP7 ® 1-2; JP8 ® 2-3
97
- D.P. Pre-correction catalogue with: JP6 ® 1-2; JP9 ® 1-2
98
- D.P. Pre-correction catalogue with: JP6 ® 2-3; JP9 ® 1-2
99
- D.P. Pre-correction catalogue with: JP6 ® 1-2; JP9 ® 2-3
100
Component layout SCH0209AR1
101

---

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Modify Date                     : 2006:03:06 14:31:00-06:00
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Title                           : APT139B_VEGA_Rev0_Date100604
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Subject                         : APT139B_VEGA_Rev0_Date100604
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