Diagram B08B Contains The Dvb-S2 Lnb Supply; Front-End Analogue And Dvb-T, Dvb-C; - Philips 32PFL8605H/12 Service Manual

EN 62 7. Q551.1E LA
• +V-LNB, input voltage for LNB supply IC (item no. 7T50)
• +5V-DVBS, input intermediate supply voltage for DVB-S2
(diagram B08A)
• +3V3-DVBS, clean voltage for silicon tuner and DVB-S2
channel decoder
• +2V5-DVBS, clean voltage for DVB-S2 channel decoder
• +1V-DVBS, core voltage for DVB-S2 channel decoder.
A +12 V under-voltage detector (see diagram B03C) enables
the 12V to 3.3V and 12V to 5V DC/DC converters via the
ENABLE-3V3-5V line, and the 12V to 1.8V DC/DC converter
via the ENABLE-1V8 line. DETECT2 is the signal going to the
Stand-by microcontroller and ENABLE-3V3n is the signal
coming from the Stand-by microcontroller.
Diagram B03D contains the following linear stabilisers:
• +2V5 stabiliser, built around item no. 7UCO
• +5V-TUN stabiliser, built around items no. 7UA6 and 7UA7
• +1V2 stabiliser, built around items no. 7UA3 and 7UA4.
Diagram B08A contains the DVB-S2-related DC/DC
converters and -stabilisers:
• a +24V under-voltage detection circuitry is built around
item no. 7T04
• the switching frequency of the 24 to 14...20V switched
mode converter is 350 kHz (item no. 7T03 and +V-LNB
lines)
• the output signal on the +V-LNB line goes to the LNBH23Q
(item no. 7T50)
• the LNBH23Q (item no. 7T50) sends a feedback signal via
the V0-CNTRL line
• the switching frequency of the +5V-DVBS to +1-DVBS
switched mode converter is 900 kHz (item no. 7T00)
• a delay line for the +2V5-DVBS and +1V-DVBS lines is
created with item no. 3T03 (R=10k) and 2T06 (C=100n)
• a 3.3V to 2.5V linear stabiliser is built around item no. 7T01
• a 5V to 3.3V linear stabiliser is built around item no. 7T02.

Diagram B08B contains the DVB-S2 LNB supply:

• the +V-LNB signal comes from item no. 7T03
• the V0-CTRL signal goes to item no. 7T03
• the LNB-RF1 goes to the LNB.
Figures gives a graphical representation of the DC/DC
converters with its current consumptions:
+ 5V
dc -dc
+ 12V
+ 3V 3
2919 m A
dc -dc
+ 1V 8
dc -dc
+ 1V 1
dc -dc
Figure 7-19 DC/DC converters non-DVB-S2 devices
2010-Oct-01
Circuit Descriptions
+ 5V 5-TUN
196 m A
+ 5V + 5V 5-TUN + 5V -TUN
+ 5V -TUN
2179 m A
s tabiliz er
+ 3V 3 + 3V 3 + 2V 5
+ 2V 5
2371 m A
s tabiliz er
+ 1V 8 + 1V 8 + 1V 2
+ 1V 2
2450 m A
s tabiliz er
+ 1V 1
5100 m A
18770_226_100127.eps
+ 24V
537.1 m A
Figure 7-20 DC/DC converters DVB-S2 devices
7.5

Front-End Analogue and DVB-T, DVB-C;

ISDB-T reception
7.5.1 European/China region
The Front-End for the European/China region consist of the
following key components:
• Hybrid Tuner
• Switchable SAW filter 7/8 MHz (Eur.), or single SAW filter
(8 MHz) (China)
• Bandpass filter
• Amplifier
• PNX85500 SoC TV processor with integrated DVB-T and
DVB-C channel decoder and analogue demodulator.
Below find a block diagram of the front-end application for this
region.
196 m A
Figure 7-21 Front-End block diagram European/China region
450 m A
7.5.2 Brazil region
550 m A
The Front-End for the Brazil region consist of the following key
components:
• Hybrid Tuner with integrated SAW filter and amplifier
• External ISDB-T channel decoder covering the Brazilian
digital terrestrial TV standard
• Bandpass filter
100426
• Amplifier
• PNX85500 SoC TV with integrated analogue demodulator.
Below find a block diagram of the front-end application for this
region.
back to
div. table
+ 5V + 5V
+ 5V
777.4 m A
dc -dc
+ V -LNB + 3V 3 tuner
down
400 m A
c onverter
+ V -LNB LNB -RF1 + 5V
linear
400 m A
s tabiliz er
+ 3V 3 tuner
+ 3V 3
296 m A
s tabiliz er
+ 2V 5
+ 2V 5
90 m A
s tabiliz er
+ 1V 0
+ 1V 0
1820 m A
dc -dc
18770_227_100127.eps
100426
18770_235_100127.eps
100219