Transcript
CXA3050M NICAM and SMATV RF MODULATOR/PLL Description Fully synthesized I2C controlled UHF/VHF TV RF Modulator compatible with PAL and NTSC video formats.
24 pin SOP (Plastic)
Features • Minimal adjustment of external components • For use on VHF and UHF TV Frequencies • Video RF carrier frequency programmable in 125kHz steps • Accepts NICAM 6.552MHz QPSK input signal • Accepts FM Stereo input signal • I2C control of: a. Video RF Carrier Frequency b. Sound Carrier Frequency c. Modulation Depth (±2% Typ.) d. FM Deviation (±8% Typ.) e. P/S ratio (±1dB Typ.) f. Nicam output enable to sleep g. Video RF carrier enable to sleep • On chip Regulator 3.1V
Structure Bipolar silicon monolithic IC Applications • PAL and NTSC System VCR • Satellite Receiver • Set Top Box • SMATV Recommended Operating Voltages (Ta = 25°C) • Supply voltage VCC 5.0 ± 0.5 V • Supply for VCO Varactor 30 ± 0.5 V • Operating Temperature –10 to +80 °C
RF-OUT
Analog GND
NICAM-in
Analog VCC
OSC VCC
OSC4
OSC3
OSC2
OSC1
OSC GND
PDout
EF
Block Diagram
24
23
22
21
20
19
18
17
16
15
14
13
NICAM MIXER
AMP
AMP VCO
VIDEO MIXER
PLL
AMP
TPSG W/C-CLAMP FM-OSC
PLL I2C-Interface
PLL
1
2
3
4
5
6
7
8
9
10
11
12
Vreg
Mod-adj
Audio-in
FM-Tank
Audio-Loop filter
Digital GND
Xtal
Digital-VCC
SCL
SDA
NC
OSC
Video-in
REG
Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.
–1–
E96331A66-ST
–2–
SCL
SDA
Video in
Modulation depth
Audio in PAL
Audio in NTSC
B
I2C
Video clamp
4MHz
Switch
Multi-standard RF Modulator
Memory Latch CCT
video limiter
62.5kHz
Amp
B
Modulation depth
FM Mod PLL
Audio Loop Audio Filter Tank
Fig. 1
V Reg
Regulator
divide M
divide 8
P/S control
Buffer ×2
Mixer and Adder
NICAM Mixer
Phase detector
SMATV Nicam in
B
A 62.5kHz 250kHz
divide 25
RF Amp
Analog VCC Ground
4MHz OSC
Loop Filter
OSC
Digital VCC
Digital Ground
4MHz
XTAL
B
Loop filter
A
D
C
B
A
RF Output
CXA3050M
CXA3050M
Functional Description of RF Modulator System A block diagram of the RF modulator is shown in Fig. 1. The composite video signal passes through an amplitude limiting circuit and a digitally controlled modulation depth adjustment circuit. By means of three allocated I2C control bits it is possible to adjust the modulation depth from a nominal 74% to 86% in 2.0% steps. Modulation depth can also be controlled externally by addition of an external resistor on pin3. The video signal is then passed through to the mixer. In the mixer stage, both the video composite signal and FM sound carrier amplitude modulate the RF carrier from the UHF OSC, and the issuing signal is fed to the output via an RF amplifier. The audio signals enter the chip via pin4. The FM Voltage Controlled Oscillator is band-switched to the approximate centre frequencies of the four sound carrier frequencies 4.5MHz (NTSC) or 5.5, 6.0, 6.5MHz (PAL). The required correct audio carrier frequency is fine tuned by the adjustment of fsound via I2C, where upon the FM phase locked loop will lock the VCO onto the exact centre frequency. Minimum distortion of the FM signal occurs when the centre frequency of the oscillator coincides with a mid-rail control voltage (to 2.0V). Hence fine adjustment capacitors are also integrated on the chip, which tag into account any capacitance variations from one batch to another. This is achieved by fine adjustment of Delta fsound via I2C control. The design of the FM modulator eliminates the need for an external varactor. The amplitude of the FM signal is varied via I2C by a digitally controlled logarithmic gain stage, which controls the picture to sound power ratio (P/S). This signal is then fed into the RF amp. Hence at the RF output the P/S ratio can be programmed in 1dB steps between the range 10dB and 17dB (see Electrical Characteristics). Audio sensitivity can be programmed in 8% steps between the range –32% and +24%. The UHF is phase locked to the reference frequency by means of the UHF phase locked loop. The VCO output passes through a prescaler (≈8) followed by an I2C controlled programmable divider (≈M), and then phase compared with that of a reference signal at 15.625kHz. The reference signal is derived from a 4MHz crystal oscillator feeding a –256 divider. The UHF oscillator covers the frequency range 471MHz to 855MHz in frequency steps of 125kHz. This is adequate for the UHF NTSC and PAL TV channels (471.25MHz (CH21) to 855.25MHz (CH69)). By adjustment of the external components around the oscillator and some adjustment to output matching the RF modulator can also achieve range of frequencies in the VHF range. The Nicam input (pin 22) accepts the 6.522MHz Nicam signal subcarrier QPSK at 728K bits/s data. This is then buffered and feed into a separate mixer (controlled via VCO). This then feeds to the RF amp with the composite video and audio. The I2C control will switch the Nicam signal output off or on.
–3–
CXA3050M
I2C Interface Data Format Modulator Address
1
1
0
0
1
0
0
R/W
ask
Data 1
PD
ADJ1
ADJ0
S1
S0
over mod
X
X
ask
Data 2
M12
M11
M10
M9
M8
M7
M6
M5
ask
Data 3
M4
M3
M2
M1
M0
MD2
MD1
MD0
ask
Data 4
X
NIC
FM2
FM1
FM0
PS2
PS1
PS0
ask
Sound Carrier Course Adjust S1
S0
Sound Carrier Frequency
TV System (Pre-emphasis)
0
0
4.5MHz
NTSC
0
1
5.5MHz
PAL
1
0
6.0MHz
PAL
1
1
6.5MHz
PAL
Sound Carrier Fine Adjust ADJ1
ADJ0
df Adjust
on chip capacitance
0
0
–f
6.4pF
0
1
Normal
3.2pF
1
0
+f
1.6pF
1
1
+f
0
PD RF Power on (RF Amp & OSC) OVM Over Modulation Test M12–MO Main divider control data S1–S0 Sound carrier frequency selection ADJ1–ADJ0 Sound carrier frequency adjust (0 to 6.4RF) MD2–MD0 Modulation Depth PS2–PS0 Picture/Sound control FM FM deviation adjust NIC Nicam Enable M12 MO Main UHF PLL Divider MSB LSB 8191 to 2 Video Carrier frequency calculated from = 125 (M + 2) kHz
–4–
1 bit 1 bit 13 bits 2 bits 2 bits 3 bits 3 bits 3 bits 1 bit
CXA3050M
Software Application Notes The minimum requirement to drive the CXA3050 and I2C bus drive is a 386/486 with 4M bytes hard disk space, 16MHz clock speed and running DOS5.00 or above. Insert the disc into the drive and type TESTS and at the prompt type iic. At this there should appear a single list of user friendly functional tests that can be changed by keyboard manipulation. As an aid the test list is written below. Note Page up increments the status, page down decrements the status.
Function RF Output Power Delta Sound
Fsound
Frequency mode
Nominal Status 1/0
Comments Turns RF Amp, OSC on/off
1
Fine tune audio carrier
0
Course adjust for 4.5MHz (0) 5.5MHz (1) 6.0MHz (2) 6.5MHz (3)
2 to 8191
Check listing on page 10 for frequency to hex conversation
Mod depth
4
Ranges mod depth from 72% to 86%, 80% (4)
FM Deviation
4
Sensitivity adjustable
P/S Ratio
4
Programmable in 8 steps of 1dB
Nicam on/off
1/0
Nicam Mixer on
Over Mod on/off
1/0
Increase Video modulation ratio
–5–
CXA3050M
Pin Description Pin No.
Reference
Pin Voltage Typical DC
Equivalent circuit
Description Vcc
1
Video-in
2.5V
Video input
1
Vcc
2
Vreg
3.1V
Chip voltage supply regulator
2
MIXER
3
Mod-Adj
2.5V
4
Audio-in
10mA
FMOSC
External Adjust Mod depth.
3
Audio input 4
5
5
FM-Tank
Sound Carrier oscillator tank
4.0V
–6–
CXA3050M
Pin No.
Reference
Pin Voltage Typical DC
Equivalent circuit
Description Vcc
6
AudioLoop filter
2.02V
Sound Carrier FM tank loop filter. See page 2 for set up note
6
Vcc
8
Xtal
4MHz input crystal frequency
1.5V 8
10
SCL
5/0 V
11
SDA
5/0 V
13
EF
0.7V
I2C Clocking signal input
10
11
I2C Data signal input
13
Charge pump output
–7–
CXA3050M
Pin No.
Reference
14
PDout
15
OSC GND
16
OSC1
2.5V
17
OSC2
1.7V
18
OSC3
1.7V
19
OSC4
2.5V
20
OSC VCC
Pin Voltage Typical DC
Equivalent circuit
Description
14
Phase detector output
2.1V
0V
5V
VCO Ground
20
UHF OSC
15 19
18
17
Oscillator supply Voltage 5V
16
22
22
Nicam-in
NICAM or FM carrier input
2V
MIXER
24
24
RF-OUT
3.4V
RF output. Must be terminated with 75Ω.
Application Circuit Notes 1. RF output pin 24 should be connected to a 75Ω load in oder to measure accurate input level. Also note pin 24 has 2.7kΩ to GND. The output is measured using a spectrum analyzer. 2. After turning the device on, tune the variable inductor FM Tank so at the 6.5MHz setting (set by I2C control) the voltage on pin 6 should read 2.02V. Set Fsound = 3 Delta Fsound = 1 –8–
CXA3050M
Specifications Parameter
New Specification
Operating temperature range
–10 to 80°C
Modulation Index
77.5 to 90%
Diff. Gain 80 to 87.5% modulation
±6.5%
Diff. Gain 80 to 87.5% modulation
±6.5 degree
Deviation range (audio)
±10kHz to ±100kHz
NICAM input level
79dBµV
NICAM input resistance
1kΩ
Picture/sound ratio adj
1dB × 7steps
Video modulation adj
2% × 7steps
Audio FM sensitivity
8% × 7steps
Picture/Sound ratio
1dB × 7steps
Inter carrier accuracy
±1kHz
Parameter
Min.
Typ.
Max.
Unit
Analog
40
50
61.3
mA
digital
20
25
30.6
mA
OSC
9.6
12
14.6
mA
DC Supply operating range
4.5
5.0
7
Vdc
Operating temperature range
–10
75
°C
Current consumption Full operation VCC = 5.0V
Condition
Input level Output level
79 Conversion, Loss = 30dB
Input resistance
–20
–22
dBµV –24
1 10e–9
Bit error rate
KΩ 10e–6 10
Eye-height degradation
–9–
dBc
%
CXA3050M
RF Characteristics Parameter
Condition
Min.
Output impedance
Typ.
Max.
Ω
75
Output return loss
–7
RF Output level
700MHz 75Ω termination
RF Frequency respone
Using attached application
Unit
dB 79
±2.5
dBµV
±1
dB
Picture/Sound ratio
10
17
dBc
VHF1 Frequency range
50
120
MHz
VHF2 Frequency range
170
230
MHz
UHF Frequency range 1
470
860
MHz
670
800
MHz
±50
kHz
UHF Frequency range 2
Using attached application
RF Accuracy Inter-carrier frequency range
4.5, 5.5, 6.0, 6.5
4.5
6.5
MHz
Inter-carrier accuracy
4.5, 5.5, 6.0, 6.5
0
±1
kHz
RF Carrier phase noise
10kHz offset frequency
–84.7
–80
dBc/Hz
Sound carrier phase noise
10kHz offset frequency
–84.7
–80
dBc/Hz
–60
dB
–78
–65
dBc
–63
–60
dB
RF Harmonics
–15
dBc
Sub-carrier harmonics
–60
dBc
NICAM Beat
–65
dBc
–55
dBc
–65
dBc
Hum modulation Chroma beat C/N Ratio
Reference spurious frequency.
1/2 Video band offset
–60
15.625kHz
Spurious output level
– 10 –
CXA3050M
Video Characteristics Parameter
Condition
Input resistance Input voltage
30
100
KΩ
0.55
Vp-p
% Modulation Clipping 7 steps
Modulation flatness
Band Limited (46CH to 60CH)
Modulation
0.55p-p input (mod Adja)
Modulation stability by temperature
mp (Ta = –10 to 80°C) –mp (Ta = 25°C)
Unit
Typ.
80% Modulation
I2C control index
Max.
Min.
2
73
80
97
%
±0.4
%
±1.4
%
87
%
±3
%
Field time distortion
0
0.5
2
IRE
Line time distortion
0
0.5
2
IRE
–60
dB
2
%
±0.5
dB
Max.
Unit
S/N
Weighted
K Factor
With 2T pulse
Video frequency response
Per standard
0
Audio Characteristics Parameter Input voltage
Condition
Min.
Typ.
0.1
Vp-p
Input resistance
20
KΩ
Deviation range
±10
Audio distribution
Deviation sensitivity
@50kHz, Deviation
0
4.5MHz
±100
kHz
±15
%
System M 4.5MHz ± 25kHz = 100% = 0dB
0.5
kHz/mV
System B/G 5.5MHz ± 50kHz = 100% = 0dB
0.33
kHz/mV
System I 6MHz ± 50kHz = 100% = 0dB
0.404
kHz/mV
System D/K 6.5MHz ± 50kHz = 100% = 0dB
0.404
kHz/mV
Audio SNR
Quasi-Parallel, Detection
Harmonic distortion
50 to 100%, Deviation
Frequency response
50 to 15kHz
FM Hum and noise
25 to 75kHz, Deviation
–1
– 11 –
–60
dB
1
%
+1
dB
±5
kHz
L1 17µH
C3 22pF
2
VIDEO
VIDEO
C2 0.33µF
VREG
1
C4 22µF
3
C8 330pF
R5 180k
C9 22pF
AUDIO
4
C15 22nF
GND
8
VCC
4MHz-Xtal
9
SCL
C20 0.1µF
10
SDA
11
12
R12 300
C28 1nF
C26 1nF
+30V
R14 200
R15 2k
R16 56k
R13 200
P1
C27 20pF
GND
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same.
C12 47µF
R7 240
7
6
TANK 5 C17 27pF
RFOUT
R3 100k
13
14
15
A-GND
Q1
16
R11 20k
C24 0.01µF
C22 1nF
17
C19 220pF
18
C18 6pF
L2 25nH
C21 1nF
19
C16 2pF
R10 330
C25 1nF C23 0.047µF
20
C14 6pF
1T363
GND
21
C10 0.01µF
C13 220pF
C11 22pF
R8 20k
R9 20k
22
R4 22k
R6 10
VCC OSC
NICAM-IN
23
C5 1nF
C6 22pF
VCC Analog C7 1nF
ANALOG-V
24
R1 2.7k
R2 75
NICAM
OSC-VCC
ALF
– 12 – D-GND
C1 22pF
GND
OSC4
MOD-ADJ
VCO3
AUDIO
OSC2 XTAL
OSC1 D-VCC
OSC-GND SCL
PDOUT SDA
EF NC
RF OUT
Application Circuit 1
CXA3050M
C3 22pF
2
VIDEO
VIDEO
C2 0.33µF
VREG
1
C4 22µF
3
C8 330pF
R5 180k
C10 22pF
AUDIO
4
C15 22nF
GND
C18 27pF
9
D-VCC VCC
4MHz-Xtal
XTAL 8
SCL
C21 0.1µF
10
SDA
11
SDA
12
R12 300
C28 1nF
C27 1nF
+30V
R14 200
R15 2k
C29 20pF R13 200
P1
R16 56k
GND
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same.
C12 47µF
R7 240
7
6
TANK 5
L1 17µH
RFOUT
C11 0.01µF
A-GND
R3 100k
13
14
15
16
17
NICAM-IN
Q1
18
R11 20k
C25 0.01µF
C23 1nF
19
C20 220pF
R10 20k
20
C19 6pF
1T363
C22 1nF
21
R4 22k
L3 14nH
C17 3pF
C16 5pF
C26 1nF C24 0.047µF
22
C14 6pF
L2 14nH
GND
ANALOG-V
C13 220pF
R8 20k
C30 220pF
OSC-VCC
C9 22pF
R6 10
1T363
R9 20k
OSC4
23
C5 1nF
C6 22pF
C7 1nF
L = 14nH
VCO3
24
R1 2.7k
R2 75
NICAM
VCC OSC
OSC2
ALF
C1 22pF
GND
VCC Analog
OSC1
MOD-ADJ
OSC-GND
AUDIO
PDOUT
D-GND
– 13 – SCL
EF NC
RF OUT
Application Circuit 2 Dual-OSC
CXA3050M
2
VIDEO
VIDEO
VREG
1
C3 22pF
C4 22µF
MOD-ADJ
3
C8 330pF
R5 180k
AUDIO
4
GND
9
D-VCC VCC
4MHz-Xtal
XTAL 8
SCL SCL
C21 0.1µF
10
SDA
11
SDA
12
R12 300
+30V
R14 200
C28 1nF
R15 2k
R13 200 C27 1nF
C29 20pF P1
R16 56k
GND
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same.
C12 47µF
R7 240
7
6
TANK 5
C15 22nF
RFOUT
C9 22pF
A-GND
C2 0.33µF
NICAM-IN
C17 27pF
ANALOG-V
R3 100k
13
14
15
16
OSC-VCC
Q1
17
L1 17µH
C23 1nF R11 20k
C25 0.01µF
C22 1nF
18
C20 330pF
C26 1nF C24 0.047µF
19
C18 120pF
L2 1µH
GND
20
C16 47pF
R9 510
C19 1nF
OSC4
21
C10 0.01µF
1T363
C14 120pF
R8 C11 20k 22pF C13 330pF
R10 20k
VCO3
22
R4 22k
R6 10
VCC OSC
OSC2
23
C5 1nF
C6 22pF
VCC Analog C7 1nF
OSC1
24
R1 2.7k
R2 75
NICAM
OSC-GND
ALF
C1 22pF
GND
PDOUT
D-GND
– 14 – AUDIO
EF NC
RF OUT
Application Circuit 3 VHF-Band
CXA3050M
CXA3050M
AA AAAAAAAAA AA AAAAAAAAAAA AA AA AA AA AA AA AAAAAAAAAAAAA AAAAAAAAA A AAAAAAAAAA AAAAAAAAAA A AAAAAAAAA A A AA AA AA AA AA AA AA AA AAAAAAAAAAAAA AAAAAAAAAAAAA
80
82
79
81
Video modulation [%]
RF out [dBµV]
Example of Representative Characteristics
78
77
80
79
78
76
4
5
4
6
5
6
Vcc [V]
Vcc [V]
0.6
20
P/S Ratio [dB]
FM Sencitivity [kHz/mw]
A : 4.5M
19
B : 5.5M
A
18 17
B
16 15
0.5
0.4
0.3
14
4
5
6
4
3.2
90
3.1
3.0
2.9
5 Vcc [V]
6
AA AAAAAAAAA AA AA AA AA AA AAAAAAAAAAA
95
Video modulation [%]
Regulatar out [V]
AA AAAAAAAAA AA AA AA AA AA AAAAAAAAAAA
3.3
4
5
Vcc [V]
Vcc [V]
6
– 15 –
Video max.
Video 0.55Vp-p
85
80
75
600
700
800
RF Frequency [MHz]
900
CXA3050M
AA AAAAAAAAA AAAAAAAAAAAA A A A AA AAAA A A AA AAAA A A AAAAAAAAAA AAAAAAAAAAA A AAAAAAAAAA AA A AA AA AA A AA AA A AA AA AA A AA AA A AA AAAAAAAAAAA AA A AA AAA AA AAAAAAAAAA A AAAAAAAAAA AA A AA AAAA A AA A AA AAAA A AA A AAAAAAAAAAA AAAA A AAAAAAAAAAA AA 69
0.40
Without video
0.35
68
Audio S/N [dB]
Audio dist [%]
Video 87.5%
0.30 0.25 0.20
67 66 65 64
0.15
4
5 Vcc [V]
4
6
5
6
Vcc [V]
3.0
0
2.5
–1
D.P [degree]
DG [%]
2.0 1.5 1.0
–2
–3
0.5
0 3.5
4
4.5
5
5.5
6
6.5
4
0 –0.5 –1.0 –1.5 –2.0
1.0 0.5
Audio out [dB]
Video out [dB]
0.5
6
Vcc [V]
Vcc [V]
1.0
5
0
–0.5 –1.0 –1.5 –2.0
0
5
10
15
20
25
0
100
Audio f response [kHz]
Video f response [MHz]
– 16 –
200
CXA3050M
AA AAAAAAAAA AA AA AA AA AA AAAAAAAAAA A
82
Video modulation [%]
81 80 79 78 77 76
–40
–20
0
20
40
60
80
100
Temperature [degree]
0 Over mod test = OFF Video 0.8Vp-p
Video modulation [%]
20
40
60
80
100 64µsec
0
0
AA AA AA AA AA AA AA AA AA AAAAAAAAAAAA AA A AA Over mod test = ON Video 0.8Vp-p
Video modulation [%]
20
40
60
80
100
64µsec
0
– 17 –
CXA3050M
Package Outline
Unit: mm 24PIN SOP (PLASTIC)
+ 0.4 15.0 – 0.1 24
+ 0.4 1.85 – 0.15 13
6.9
+ 0.2 0.1 – 0.05
12
0.45 ± 0.1
1.27
+ 0.1 0.2 – 0.05
0.5 ± 0.2
1
7.9 ± 0.4
+ 0.3 5.3 – 0.1
0.15
± 0.12 M
PACKAGE STRUCTURE
SONY CODE
SOP-24P-L01
EIAJ CODE
∗SOP024-P-0300-A
JEDEC CODE
MOLDING COMPOUND
EPOXY/PHENOL RESIN
LEAD TREATMENT
SOLDER PLATING
LEAD MATERIAL
COPPER ALLOY / 42ALLOY
PACKAGE WEIGHT
0.3g
– 18 –
