ETC 3X8292

FRONTEND 4049 FM5
3x8168; 3x8292
TARGET SPECIFICATION ELECTRICAL DATA
1. Description:
The frontend 4049 FM5 is specially designed for multimedia applications. It includes TV as well as
FM reception possibility. TV reception standard are B/G; I, D/K, L, L`. The frontend includes a
hyperband tuner which covers the frequency range from 45 to 865 MHz and an IF-part with SAWfilter, IF-amplifier, video- and sound demodulator. So the AF signal is available at the audio output
nd
terminal, the CVBS signal is available at the video output terminal. Also a 2 IF output is provided,
which allows external sound demodulation for stereo and NICAM reception. A video buffer is built
in which makes a direct connection to 75 Ω inputs possible. The reception frequency range is
divided in VHF low, VHF high and UHF.
VHFlow part of the tuner is used for FM reception also. Complete FM signal processing including
demodulation and stereo decoding is built in. Baseband signals L (left) and R (right) as well as
MPX (Baseband Multiplex signal) are on pins available.
Band, standard selection and tuning are done via I²C-bus, completely. Also a digital AFC-function
can be realized, because the AFC-voltage generated by the IF-demodulator is fed to an
analogue/digital converter which is integrated in the IF demodulator-IC and readable via I²C-bus.
A DC/DC converter is built in. Therefore supply voltage is 5V only.
2. Mechanical Characteristics:
2.1. Dimensions: according drawing 3x8168GZ
2.2. Weight: appr. 52 g
I²C bus signal SCL
I²C bus signal SDA
Address selection for I²C bus
FM sound output R
FM sound output L
2nd IF
Video output CVBS
Supply voltage VS1
AF sound output / FM MPX
3X8168 ED
November 02
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8168ED01.DOC
2.3. Types
Tunertype
Sockettype
3x8168
IEC connectors
3x8292
Phono sockets
Socketlength
Height
14.4 mm
28.55/10.25 mm
10.3 mm
28.55/10.25 mm
3. Working Data:
3.1. Reception Standard:
B/G, I, D/K, L, L`
3. 2. Frequency Range:
VHF low
VHF high
UHF
FM
ch IA ...S6
ch S7 ...S41
ch 21 ...69
45.75 MHz
147.25 MHz
471.25 MHz
87.50 MHz
... 140.25 MHz
... 463.25 MHz
... 855.25 MHz
… 108.10 MHz
Margin:
VHF low
VHF high
UHF
FM
ch IA ...
ch S7...
ch 21 ...
S6
S41
69
+0.5 MHz/-0.25 MHz
+1 MHz/-6 MHz
+3 MHz/-6 MHz
+/- 0.5 MHz
Recommened take over frequencies:
VHF low / VHF high
VHF high/ UHF
141 MHz
464 MHz
Frequency referred to picture carrier.
IF:
picture carrier
sound carrier 1
sound carrier 2
NICAM sound carrier
B, G
38.9
33.4
33.16
33.05
I
38.9
32.9
L
38.9
32.4
32.348
33.05
L`
33.90
40.40
D/K
38.9
32.4
33.05
all frequencies in MHz
Oscillator operates above received frequency.
3X8168 ED
November 02
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3.3. Supply voltage:
Supply voltage VS1
5 V +/- 5%
max. 230 mA
3.4. Input impedance:
75 Ω, unbalanced
VHF/UHF and FM
3.5. Temperature:
Operating temperature:
Storage temperature:
( measured in slowly moved air )
0 ... 60 °C
-25 ... 60 °C
4. Test conditions:
If not otherwise noticed all data are hold under following conditions:
Measurement tolerance:
Ambient temperature:
Supply voltage:
10 % or 1 dB
25 °C +/- 3°
V S1 +/- 5%
5. TV Tuner Data:
5.1. VSWR:
min.
VHF low
VHF high
UHF
typ.
max.
unit
5.0
5.0
5.0
Referred to channel center frequency.
5.2. AGC-Range:
VHF low
VHF high
UHF
FM
40
40
35
40
dB
dB
dB
dB
50
60
60
50
dB
dB
dB
dB
60
60
55
50
50
dB
dB
dB
dB
dB
5.3. IF-Rejection:
VHF low
VHF high
UHF
FM
5.4. Image-Rejection:
VHF low
VHF high
VHF high
UHF
FM
3X8168 ED
November 02
ch S7 .... ch S20
ch S21 .... ch S41
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8168ED01.DOC
6. TV Output parameter:
6.1. Video output:
Conditions:
min.
typ.
max.
unit
Standard B/G; Ant. input level 66 dBµV
CVBS - Output level (B/G, D/K, L/L`):
(Standard I):
Load impedance
1
Vpp
0.9
Vpp
75
Ω
46
47
dB
dB
45
dBµV
Video S/N (unweighted):
Flat Field
VHF
UHF
Video sensitivity (Off Air Channels)
Video S/N = 30 dB
Frequency response:
(sin x)/x Ref.: 0.2 MHz
1 MHz
2 MHz
3 MHz
4 MHz
4.43 MHz
5 MHz
-1.5
-2
-4
-4
-5
2
3
3
4
3
-12
dB
dB
dB
dB
dB
dB
sound carrier rejection
B/G
30
dB
I, D/K, L/L´
26
dB
modulated 5 step staircase
3
%pp
Differential phase modulated 5 step staircase
5
°pp
Differential gain
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November 02
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8168ED01.DOC
6.2 TV Sound output:
Pin 21
Load
Output level:
min.
DC
AC
DC
typ.
max.
100
10
unit
kΩ
kΩ
V
2.3
6.2.1 TV FM sound
Conditions:
Ant.input level 66 dBµV; Video signal: color bar
Audio signal 1kHz, 27 kHz deviation; 50 µs preemphasis
Measurements with 50 µs deemphasis:
AF - level:
THD:
S/N:
Frequency response: 40 Hz ... 15 kHz
400
540
680
0.5
50
-1
1
mVrms
%
dB
dB
(6 kHz deviation)
6.2.2 TV AM sound
input level 66 dBµV, video signal: color bar
audio signal 1kHz AM 54% modulation
AF - level:
THD:
S/N:
400
500
600
1.0
45
mVrms
%
dB
AC level of SC1 5.5, 6.0, 6.5 MHz:
400
mVpp
AC level of SC1 6.5 MHz:
400
mVpp
AC level of SC2 5.74, 6.55 MHz:
125
mVpp
6.3. 2nd IF output
(PC/ sound carrier SC1: 7, 10, 13 dB)
(sound carrier SC2 off )
(PC/ sound carrier: 10 dB)
(L standard, without modulation)
(PC/ sound carrier SC1: 10 dB)
(PC/ sound carrier SC2: 20dB)
Load impedance
3X8168 ED
November 02
0.5
kΩ
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8168ED01.DOC
7. FM part
7.1 FM output
min.
7.1.1 Frequency range
typ.
87.5
max.
unit
108.1
MHz
7.1.2 Output levels
AF = 1 kHz, 75 kHz deviation
MPX
AC
DC
810
2.3
100
mVrms
V
kΩ
AC
DC
255
1.0
100
mVrms
V
kΩ
Load impedance
L, R resp.
Load impedance
7.1.3 Frequency response
40 Hz to 15 kHz
-2
7.1.4 Usable sensivity
30 dB S/N
50 dB S/N
2
dB
5
15
dBµV
dBµV
65
dB
0.2
%
7.1.7 Stereo channel separation
30
dB
7.1.8 AM suppression
60
dB
80
dB
1 kHz 75 kHz deviation
7.1.5 S/N at high input level
Vin = 60 dBµV, Mod. = 1kHz
75 kHz deviation
measured at MPX output with 50 µs deemphasis
7.1.6 Distortion at high input level
22.5 kHz deviation
Vin 60 dBµV 75 kHz dev. AM 30%
7.1.9 Image rejection
53
unwanted signal 66.6 MHz above wanted signal
7.1.10 IF rejection
50
dB
referred to 33.3 MHz unwanted signal
3X8168 ED
November 02
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8168ED01.DOC
8. I²C bus
There are two different I²C bus used one I²C Tuner to control tuning and one I²C IF to control IF
2
demodulation and baseband processing. With port P0 of control byte 2 the slave address of I C IF can be
controlled.
8.1 I²C Tuner
8.1.1 Write data format
Address byte
Divider byte 1
Divider byte 2
Control byte 1
Control byte 2
MSB
1
0
n7
1
P7
1
n14
n6
CP
P6
0
n13
n5
T2
P5
0
n12
n4
T1
P4
0
n11
n3
T0
P3
MA1
n10
n2
RSA
P2
MA0
n9
n1
RSB
P1
LSB
R/W
n8
n0
OS
P0
A
A
A
A
A
A = Acknowledge
R/W = 0 : Write mode
CP = 1 : charge pump current high
T2, T1, T0 = test bits, normal operation: T2 = 0, T1 = 0, T0 = 1
RSA, RSB bits for minimum step size, see 8.1.2
OS = tuning voltage switch, normal operation: OS = 0
8.1.2 Address selection
MA1
0
0
1
1
MA0
0
1
0
1
Address
C0
C2
C4
C6
Voltage at Pin 11
( 0 to 0.1 ) * VS1
(0.2 to 0.3) * VS1 or open
( 0.4 to 0.6 ) * VS1
( 0.9 to 1 ) * VS1
8.1.3 Oscillator frequency and divider byte calculation:
RSA
RSB
Reference divider
Min. tuning step [kHz]
1
1
512
62.5
X
0
640
50.0
0
1
1024
31.25
for FM recption we recommend 50 kHz minimum step size
fref [kHz]
7.8125
6.25
3.90625
fOSC= fD + fIF
fIF = 38.9 MHz at B/G, D/K, I, L
fIF = 33.9 MHz at L’
fIF = 33.3 MHz at FM
fOSC
fD
: Local oscillator frequency
: Desired frequency
fOSC = fREF * 8 * SF
fREF : Crystal reference frequency / 640 = 4 MHz / 640 = 6.25 kHz, ( RSA =X, RSB = 0)
SF
: Programmable scaling factor
Scaling factor
SF= 16384* n14 + 8192 * n13 * 4096 * n12 + 2048 * n11 + 1024 * n10 + 512 * n9 + 256* n8 + 128 * n7 +
64 * n6 + 32 * n5 + 16 * n4 + 8 * n3 + 4 * n2 + 2 * n1 + n0
3X8168 ED
November 02
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8168ED01.DOC
8.1.4 Control byte 1 settings (default)
Control byte 1
MSB
1
0
0
0
1
X
LSB
0
0
A
8.1.5 Control byte 2 (Bandselection)
Band
VHF low
VHF high
UHF
FM
Active port
P7, P5
P7,P4
P5,P4
P7, P5, P2
P7
1
1
0
1
P6
0
0
0
0
P5
1
0
1
1
P4
0
1
1
0
P3
0
0
0
0
P2
0
0
0
1
P1
0
0
0
MS
P0
MAD
MAD
MAD
MAD
2
Programmable module address I C IF
2
0 = Slave address I C IF = 43[hex]
2
1 = Slave address I C IF = 42[hex]
Forced Mono at FM mode:
0 = Stereo Mode with capability of stereo indication
1 = Forced Mono Mode
MAD:
MS:
8.1.6 Read data format
Address byte
Status byte
MSB
1
POR
1
FL
0
I2
0
I1
0
I0
MA1
A2
MA0
A1
LSB
R/W
A0
A
A
R/W :
POR :
FL :
I2, I1, I0:
1 = Read mode
Power on reset flag ( POR =1 at power on)
In lock flag (FL= 1 when PLL is locked)
Digital levels for I/O ports P2, P1 and P0 respect.
In case of FM I1 = 1: Stereo indication
I2, I0 not defined
A2, A1, A0:
FM-AFC or FM-AGC or SIF-AGC radio output detection
A2 A1
A0
SIF-AGC radio output *1)
FM-AGC radio output *2)
1
0
0
not defined
not defined
0
1
1
> 20dBµV
normal signal
0
1
0
5dBµV … 20dBµV
weak signal
0
0
1
<5dBµV
very weak signal
0
0
0
not defined
not defined
*1) typical values, peak level detection within a bandwith of appr. 2MHz
*2) only valid if FM-carrier exist and SIF-AGC radio output = (A2=0, A1=1, A0=1)
*3) typical values, only valid if CARRDET = high, see section 8.3.2
3X8168 ED
November 02
FM-AFC radio output *3)
-100 kHz
-35 kHz
Correct tuning
+35 kHz
+100 kHz
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8168ED01.DOC
8.2. I²C IF
8.2.1. I²C-bus sequence write
Start
Slave addr.
Start
Slave addr
R/W
Subaddress
Ack
Stop
R/W =0
Ack
subaddress
Ack
data
Ack
Stop
start condition.
Slave address (7bit) = 42[hex] or 43[hex] in respect of MAD.
Read/Write bit: 0 = write to component; 1 = master reads from component.
byte which indicates register of component which the are data for.
“switching register”
00[hex]
“adjust register”
01[hex]
“data register”
02[hex]
acknowledge generated by the component
stop condition
If more than one byte of data is transmitted, then auto-increment of subaddress is performed.
i.e. transmit 3 bytes starting with data for switch register
mode
B/G
I
D/K
L
L`
FM - AFC
FM - AGC
SIF - AGC
FM - AFC
stereo
FM - AGC
stereo
SIF – AGC
stereo
Slave addr + R/W =0
MAD=0 / MAD=1
86 / 84
86 / 84
86 / 84
86 / 84
86 / 84
86 / 84
86 / 84
86 / 84
86 / 84
Subaddress
switch reg.
adjust reg.
data reg.
00
00
00
00
00
00
00
00
00
D4
D4
D4
C4
84
DC
DC
DC
DC
70
70
70
10
10
70
70
70
10
09
0A
0B
0B
13
1D
9D
81
1D
86
/
84
00
DC
10
9D
86
/
84
00
DC
10
81
all bytes in [hex]
3X8168 ED
November 02
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8168ED01.DOC
8.2.2 switch register
acc. Chapter 8.2.1 switch register is addressed by subaddress 00 [hex]
switch register
B7
B6
B5
B4
B3
B2
B1
B0
Video mode
Sound bypass off
0
Sound bypass on
1
Audio mute FM
0
Inactive
1
active
Carrier mode
0
intercarrier
1
QSS
Modulation
0
0
1
0
x
1
Positive AM TV
Negative TV
FM Radio
Forced mute audio
0
off
1
on
Output port 1 (Audio-SAW switch)
0
L’
1
B/G, D/K, I, L
Output port 2 (not used)
0
Low ohmic active
1
High ohmic disabled
Recommended settings switch register
mode
B7
B6
B5
1
1
0
B/G
1
1
0
I
1
1
0
D/K
1
1
0
L
1
0
0
L`
1
1
0
FM
3X8168 ED
10/14
November 02
B4
1
1
1
0
0
1
B3
0
0
0
0
0
1
B2
1
1
1
1
1
1
B1
0
0
0
0
0
0
B0
0
0
0
0
0
0
=[hex]
D4
D4
D4
C4
84
DC
Page:
8168ED01.DOC
8.2.3 Adjust register
acc. Chapter 8.2.1 adjust register is addressed by subaddress 01 [hex]
Adjust register
C7
C6
C5
C4
C3
C2
AGC adjustment
1
0
C1
0
C0
0
0
C1
0
0
0
0
0
0
0
C0
0
0
0
0
0
0
0
Deemphasis
0
De-emphasis off
1
De-emphasis on
Value of de-emphasis
0
75 us
1
50 us
Audio gain
0
1
0 dB
-6 dB
Recommended settings adjust register
mode
C7
C6
C5
0
1
1
B/G
0
1
1
I
0
1
1
D/K
0
0
0
L
0
0
0
L`
0
1
1
FM
0
0
0
FM
stereo
3X8168 ED
11/14
November 02
C4
1
1
1
1
1
1
1
C3
0
0
0
0
0
0
0
C2
0
0
0
0
0
0
0
=[hex]
70
70
70
10
10
70
10
Page:
8168ED01.DOC
8.2.3 data register
acc. Chapter 8.2.1 data register is addressed by subaddress 02 [hex]
data register
E7
E6
E5
E4
E3
E2
E1
nd
2
0
0
1
1
Video IF
TV Mode: B3=0
0
0
0
0
0
1
0
1
1
0
1
0
Radio Mode: B3=1
0
0
1
1
E0
IF
MHz
4.5
5.5
6.0
6.5
0
1
0
1
0
1
0
1
0
1
MHz
58.75
45.75
38.9
38.0
33.9
33.4
0
1
44
44
SIF-AGC radio output
FM-AGC radio output
VIF, SIF, tuner gain
0
Normal gain
1
Minimum gain
Gating (pos. AM)
0
0%
1
36 %
VIF AGC output – TV Mode: B3=0
0
Normal port function (Output port2)
1
No port function
PIN 21 output – Radio Mode: B3=1
0
FM-AFC radio output
1
FM-AGC or SIF-AGC radio output acc. E2…E4
Recommended settings data register
mode
E7
E6
E5
0
0
0
B/G
0
0
0
I
0
0
0
D/K
0
0
0
L
0
0
0
L`
0
0
0
FM-AFC
1
0
0
FM-AGC
1
0
0
SIF-AGC
3X8168 ED
12/14
November 02
E4
0
0
0
0
1
1
1
0
E3
1
1
1
1
0
1
1
0
E2
0
0
0
0
0
1
1
0
E1
0
1
1
1
1
0
0
0
E0
1
0
1
1
1
1
1
1
=[hex]
09
0A
0B
0B
13
1D
9D
81
Page:
8168ED01.DOC
8.3.1. I²C-bus sequence read
Start
Slave addr.
Start
Slave addr
R/W
Ack
Ack not
Stop
R/W =1
Ack
data
Ack not
Stop
start condition.
Slave address = 43[hex].
Read/Write bit: 0 = write to component; 1 = master reads from component.
acknowledge, generated by the component
acknowledge, generated by the master
stop condition
8.3.2 Read data format
Status register
Bit7
Bit6
Bit5
Bit4
Bit3
Bit2
Bit1
Bit0
Power on reset
0 Normal
operation
1 Power on reset
AFC value
AFC4
AFC3
AFC2
AFC1
CARRDET – FM carrier detection
0
FM carrier not detected
1
FM carrier detected
VIFLEV - VIF level input
0
VIF low level
1
VIF high level
AFCWIN - AFC window (Note 1)
0
Tuning out of window (+/- 1.6 MHz)
1
Tuning in window (+/- 1.6 MHz)
Note1. If no IF input is applied, then bit AFCWIN = 1 due to the fact that the VCO is forced to the AFC window border for
fast load-in behaviour.
Automatic Frequency Control fVIF Versus f0
fVIF ≤ f0 – 187.5 kHz
fVIF = f0 – 162.5 kHz
fVIF = f0 – 137.5 kHz
fVIF = f0 – 112.5 kHz
fVIF = f0 – 87.5 kHz
fVIF = f0 – 62.5 kHz
fVIF = f0 – 37.5 kHz
fVIF = f0 – 12.5 kHz
fVIF = f0 + 12.5 kHz
fVIF = f0 + 37.5 kHz
fVIF = f0 + 62.5 kHz
fVIF = f0 + 87.5 kHz
fVIF = f0 + 112.5 kHz
fVIF = f0 + 137.5 kHz
fVIF = f0 + 162.5 kHz
fVIF ≥ f0 + 187.5 kHz
3X8168 ED
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November 02
AFC4
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
AFC3
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
AFC2
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
AFC1
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
Page:
8168ED01.DOC
9. ESD Protection
The frontend contains components that can be damaged by static discharge.
Observe these precautions:
Ground yourself before handling the frontend.
Do not touch the frontend connector pins without ESD protection.
NAME
J. Kreil
DATE
07.November 2002
REV.:
01
FÄM.- NO.
DATE
07.11.2002
NAME
J. Kreil
SIGNATURE
3X8168 ED
14/14
November 02
Page:
8168ED01.DOC