Originally it was developed for connecting to a satellite receiver, but it
works well on a cable receiver! but here in holland RTL4 is unscrambled on
the cable.
The adjustment.
This is very simple. Start with connecting pin 35 of U7 (8749) to ground.
turn R39 and R26 halfway, and R38 to gnd, and C9 and C6 to half.
apply a normal videosignal to the input (ie unscrambled) and connect the
output to a monitor/modulator or TV/receiver input or a ossiloscope.
apply 12V to the supply input (J1). Now a picture will appear, rolling over
the screen. turn C9 till the picture slowly scrols to the left, about 1 roll
per 2 seconds. now turn R38 till the picture stops, and turn C6 to the middle
of the 2 ends where the picture begins to scroll. try to turn R38 a bit back
to ground if the hold-region is to big.
Now apply a encoded signal, ie FilmNet or RTL4, and turn R39 till the
blacklevel is equal to the blanking-level, or black appears to be normal on
the screen, not to black, and not to grey.
finaly adjust R26 so that the contrast of the picture appears to be normal.
now remove the power and the connection between pin 35 of U7 and ground.
Turn R38 to ground. Turn on the power, and turn R38 slowly untill the picture
appears, turn R38 a little bit further.
ok, now connect a voltmeter to the junction between R12 and R13 and turn C9
till the voltage is about 3,80 Volts. Remove the voltmeter. (Note that I use
a voltmeter with a Ri of 10Mohm.)
Now switch to RTL4, and turn R38 so that the picture stays positive.
This does NOT apply to cable or FilmNet only use.
Well, for the electronics here a explanation of the adjustment points.
R38 Input level to chroma detector.
R39 Input level of the CVBS signal, adjust so that the blacklevel is equal
to the blanking level. (scope on rastersync.
R26 Output level of the decoded CVBS signal. maximum is about 2.6Vtt
C6 Chroma filter resonance. adjust to 4.43 MHz.
C9 VCO free-running frequency. see TP.
well, success with the building of this decoder! and watch for the ATNDOC's!
---- List of Components ----
*** Capacitors ***
C11,C25 = 22P CRM
C6,C9 = 4-40P TRIMMER
C8,C16 = 100P CRM
C24 = 120P CRM
C17 = 150P CRM
C2,C5,C12 = 1N0 MKM
C14,C15 = 3N3 MKM
C1,C3 = 10N MKM
C7 = 22N MKM
C22,C23 = 100N MKM
C18 = 220N MKM
C10,C13,C20 = 10U ELKO
C4,C19 = 100U ELKO
C21 = 1000U ELKO
*** Diodes ***
D1,D2,D4,D8,D9,D10 = 1N4148
D3 = BB204G
D5,D6,D7 = 1N4007
*** Diversen ***
J1 = 12V
JP1 = VIDEO_IN
JP2 = JUMPER
JP3 = VIDEO_OUT
JP4 = JUMPER
JP5 = JUMPER
L1 = 22UH
X1 = 15MHZ
*** Halfgeleiders ***
Q1 = BC557B
Q2,Q3,Q4,Q6,Q7 = BC547B
Q5 = BF245B
Q8 = BSX20
U1 = LM339
U2 = UA733
U3 = 4066
U4 = 4053
U5 = 8749HC Programmed with MCS 'decprg.bin'
U6 = 7809
U7 = 7805
*** Resistors ***
R4,R10 = 10E
R21 = 47E
R22 = 68E
R11 = 180E
R5,R6 = 220E
R3 = 470E
R23 = 560E
R12 = 820E
R7,R8,R9,R18,R19,R20,R27,R28 = 1K
R31 = 3K3
R29,R34 = 3K9
R14,R30 = 4K7
R1,R2,R13,R24,R26,R33,R37,R38 = 10K
R25 = 33K
R16,R17 = 100K
R15 = 470K
R32 = 1M
R36 = 100E POTMETER pt10LV
R35,R39 = 150E POTMETER pt10LV
Below are PREVIEWS of the schematics for the descrambler.
The PCB drawing (approx 100x160 mm)
The Placement drawing
The PAD-Bridges
The circuit drawing
After you print yourself the circuit boards (of get them printed for you) you're almost done.
Now just program the 8749(8749HC) with the decprg.bin to complete the
descrambler. If you care to read it, the asm source w/ comments(Dutch) are availible.
|
