Fairchild FMS6419MSA28 Selectable rgb (yuv) hd/sd video filter driver with y, c, composite output Datasheet

www.fairchildsemi.com
FMS6419
Selectable RGB (YUV) HD/SD Video Filter Driver
with Y, C, Composite Outputs
Features
Description
• Three channel video reconstruction filters
• YUV/RGB filters
• 2:1 Mux inputs for multiple RGB/YUV inputs
• Selectable 8MHz or 30MHz 6th order filters
for RGB (YUV) applications
• 8MHz 6th order Y, C filters with composite summer
• DC coupled input, AC coupled output
• All outputs can drive AC coupled 150Ω loads and
provide 6dB of gain
• Dual multiplexed inputs
• 0.6% differential gain with 0.2° differential phase
• 36dB/octave roll-off on all channels
The FMS6419 offers comprehensive filtering for set top box
or DVD applications. This part consists of a triple 6th order
filter with selectable 30MHz or 8MHz frequencies.
A 2-to-1 multiplexer is provided on each filter channel. The
triple filters are intended for either YUV or RGB signals. All
channels accept DC coupled ground-referenced 1V signals.
The filters provide 2Vpp signals into AC coupled terminated
loads. The low-pass filters are powered by 3.3V and the outputs by 5.0V.
Applications
• Cable Set top boxes
• Satellite Set top boxes
• DVD players
• HDTV
• Personal Video Recorders (PVR)
• Video On Demand (VOD)
Functional Block Diagram
INMUX (A/B)
Filter Select (HD/SD)
RINA (VINA)
ROUT (VOUT)
6dB
RINB (VINB)
GINA (YINA)
GOUT (YOUT)
6dB
GINB (YINB)
BINA (UINA)
BOUT (UOUT)
6dB
BINB (UINB)
YIN
YOUT
6dB
AUXIN
CVOUT
CIN
COUT
0.5V
(Internal
Reference)
6dB
CVMUX (YIN/CIN; AUXIN)
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DATA SHEET
FMS6419
Electrical Specifications
(TC = 25°C, Vi = 1Vpp; VCCA = 3.3V, VCCO = 5.0V, all inputs AC coupled with 0.1µF,
all outputs AC coupled with 220µF into 150Ω, referenced to 400kHz; unless otherwise noted)
Symbol
Conditions
Min
Typ
Supply
Current1
VCCA no load
50
85
120
mA
ICCO
Supply
Current1
VCCO no load
50
85
120
mA
Vi
Input Voltage Max
Vil
Digital Input
Low1
FSEL, INMUX, CVMUX
0
0.8
V
Vih
Digital Input
High1
FSEL, INMUX, CVMUX
2.4
VCCO
V
PSSR
PSSR (all channels)
ICCA
Parameter
Reference to ground
Max Units
1.3
DC
V
-40
dB
Standard Definition Electrical Specifications
(TC = 25°C, Vi = 1Vpp; VCCA = 3.3V, VCCO = 5.0V, FSEL = 0, all inputs AC coupled with 0.1µF,
all outputs AC coupled with 220µF into 150Ω,referenced to 400kHz; unless otherwise noted)
Symbol
AVRGBSD
AVYC
f1dBSD
fCSD
fSBSD
Parameter
1
RGB SD Gain
1
Y,C,CV Gain
1
-1dB Bandwidth for SD
1
-3dB Bandwidth for SD
Conditions
Min
Typ
Max Units
R,G,B channels SD Mode
5.65
6.0
6.35
dB
Y,C,CV channels
5.65
6.0
6.35
dB
R,G,B,Y,C,CV channels
4
6.0
MHz
R,G,B,Y,C,CV channels
6.7
8.2
MHz
1
R,G,B,Y,C channels at f = 27MHz
37
55
dB
1
37
Attenuation: SD (stopband reject)
fSBCV
Attenuation: SD (stopband reject)
CV channel at f = 27MHz
55
dB
dG
Differential Gain
R,G,B,Y,C,CV channels
0.6
%
dφ
Differential Phase
R,G,B,Y,C,CV channels
0.2
°
XTALKYC
Crosstalk (channel-to-channel)
at 1MHz
-64
dB
XTALKRGB
Crosstalk (channel-to-channel)
at 1MHz
-70
dB
INMUXISO
INMUX Isolation
at 1MHz
-70
dB
SNR
Signal-to-Noise Ratio
R,G,B,Y,C,CV channels, NTC-7
weighting 4.2MHz lowpass,
100kHz highpass
70
dB
tpdSD
Prop Delay for SD
Delay from input to output
at 4.5MHz
80
ns
tCLDCV
Chroma-Luma Delay CVOUT1
tCLGCV
1
Chroma-Luma Gain CVOUT
f = 3.58MHz (referenced to 400kHz)
-35
2
35
ns
f = 3.58MHz (referenced to 400kHz)
98
102
106
%
Notes:
1. 100% tested at 25°C.
General Note:
Peaking capacitor increases CV output at 4.2MHz nominally by 0.7dB.
2
REV. 5C April 2005
FMS6419
DATA SHEET
High Definition Electrical Specifications
(TC = 25°C, Vi = 1Vpp; VCCA = 3.3V, VCCO = 5.0V, FSEL = 1, all inputs AC coupled with 0.1µF,
all outputs AC coupled with 220µF into 150Ω, referenced to 400kHz; unless otherwise noted)
Symbol
AVRGBHD
f1dBHD
fCHD
fSBHD
Parameter
RGB HD
Gain1
-1dB Bandwidth for
HD1
-3dB Bandwidth for
HD1
Attenuation: HD (stopband
reject)1
Conditions
Min
Typ
Max Units
R,G,B channels HD Mode
5.65
6.0
6.35
R,G,B channels
20
26
MHz
R,G,B channels
30
32
MHz
R,G,B channels at f = 74.25MHz
35
40
dB
dB
XTALKRGB
Crosstalk (channel-to-channel)
at 1MHz
-70
dB
INMUXISO
INMUX Isolation
at 1MHz
-70
dB
SNR
Signal-to-Noise Ratio
R,G,B channels
70
dB
tpdHD
Prop Delay for HD
Delay from input to output
at 20MHz
30
ns
Note:
1. 100% tested at 25°C.
Absolute Maximum Ratings (beyond which the device may be damaged)
Parameter
Min
Max
Units
Supply Voltage
-0.3
6
V
Analog and Digital I/O
-0.3
VCCO +0.3
V
120
mA
Output Current Any One Channel (Do Not Exceed)
Note
Functional operation under any of these conditions is NOT implied. Performance and reliability are guaranteed only if operating
conditions are not exceeded.
Reliability Information
Parameter
Min
Typ
Junction Temperature
Storage Temperature Range
-65
Lead Temperature (Soldering, 10s)
Max
Units
+150
°C
+150
°C
+300
Thermal Resistance (θJA),
JEDEC Standard, Multi-layer Test Boards, Still Air
47
°C
°C/W
Recommended Operating Conditions
Parameter
Operating Temperature Range
Min
Typ
0
Max
Units
70
°C
VCCO Range
4.75
5.0
5.25
V
VCCA Range
3.135
3.3
3.465
V
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3
DATA SHEET
FMS6419
Standard Definition Typical Performance Characteristics
(TC = 25°C, Vi = 1Vpp; VCCA = 3.3V, VCCO = 5.0V, FSEL = 0, all inputs AC coupled with 0.1µF,
all outputs AC coupled with 220µF into 150Ω, referenced to 400kHz; unless otherwise noted)
Frequency Response RGB Channels
Frequency Response YCCV Channels
10
10
0
1 2
Gain (5dB/div)
Gain (5dB/div)
0
-10
-20
-30
-40
-50
Mkr Frequency
Gain
Ref 400kHz
6dB
1
7.59MHz
-1dB BW
2
8.83MHz
-3dB BW
3
27MHz
-48.93dB
1 2
-10
-20
-30
-40
-50
3
fSBSD = Gain(ref) – Gain(3) = 54.93dB
Mkr Frequency
Gain
Ref 400kHz
6dB
1
7.59MHz
2
8.83MHz
-3dB BW
3
27MHz
-48.75dB
-60
400kHz
5
10
15
20
25
30
400kHz
5
15
20
25
30
Frequency (MHz)
Group Delay vs. Freq. RGB Channels
Group Delay vs. Freq. YCCV Channels
30
1
1
Delay (10ns/div)
Delay (10ns/div)
10
Frequency (MHz)
30
10
-10
-30
-50
5
10
10
-10
-30
-50
1 = 8.2MHz (31.79ns)
-70
400kHz
15
20
25
1 = 8.2MHz (31.85ns)
-70
400kHz
30
5
Frequency (MHz)
10
15
20
25
30
Frequency (MHz)
Noise vs. Frequency RGB Channels
Noise vs. Frequency YCCV Channels
-45
-45
-55
-55
-65
-65
-75
Noise (dB)
Noise (dB)
3
fSBCV = Gain(ref) – Gain(3) = 54.75dB
-60
-85
-95
-105
-75
-85
-95
-105
-115
-115
-125
-125
-135
-135
0
1.0
2.0
3.0
Frequency (MHz)
4
-1dB BW
4.0
5.0
0
1.0
2.0
3.0
4.0
5.0
Frequency (MHz)
REV. 5C April 2005
FMS6419
DATA SHEET
Standard Definition Typical Performance Characteristics
(TC = 25°C, Vi = 1Vpp; VCCA = 3.3V, VCCO = 5.0V, FSEL = 0, all inputs AC coupled with 0.1µF,
all outputs AC coupled with 220µF into 150Ω, referenced to 400kHz; unless otherwise noted)
Differential Gain RGB Channels
Differential Phase RGB Channels
1.0
NTSC
Differential Phase (deg)
Differential Gain (%)
1.0
0.5
0
-0.5
Min = -0.57
Max = 0.00
ppMax = 0.57
-1.0
0.5
0
-0.5
Min = -0.18
Max = 0.00
ppMax = 0.18
-1.0
1st
2nd
3rd
4th
5th
6th
1st
Differential Gain YCCV Channels
2nd
3rd
4th
5th
6th
Differential Phase YCCV Channels
1.0
NTSC
Differential Phase (deg)
Differential Gain (%)
1.0
NTSC
0.5
0
-0.5
Min = -0.58
Max = 0.00
ppMax = 0.58
-1.0
NTSC
0.5
0
-0.5
Min = -0.29
Max = 0.00
ppMax = 0.29
-1.0
1st
2nd
3rd
4th
5th
6th
1st
2nd
3rd
4th
5th
6th
Chroma Gain vs. Chroma Delay
Chroma Gain (%)
110
100
Chroma Gain = 99.7%
Chroma Phase = -6.5ns
90
-40
-20
0
20
40
Chroma Delay (ns)
REV. 5C April 2005
5
DATA SHEET
FMS6419
High Definition Typical Performance Characteristics
(TC = 25°C, Vi = 1Vpp; VCCA = 3.3V, VCCO = 5.0V, FSEL = 1, all inputs AC coupled with 0.1µF,
all outputs AC coupled with 220µF into 150Ω, referenced to 400kHz; unless otherwise noted)
Group Delay vs. Freq. RGB Channels
Frequency Response RGB Channels
8
10
0
4
Delay (2ns/div)
Gain (5dB/div)
2
-10
-20
-30
Mkr Frequency
Gain
Ref 400kHz
6dB
1
2
26.57MHz
31.5MHz
-1dB BW
-3dB BW
3
74.25MHz
-33.53dB
20
2
0
-2
-4
-6
-8
-10
3
fSBHD = Gain(ref) – Gain(3) = 39.53dB
-40
400kHz
1
6
1
40
60
80
90
Frequency (MHz)
1 = 32MHz (4.98ns)
-12
400kHz
10
20
30
40
50
60
Frequency (MHz)
Noise vs. Frequency RGB Channels
-45
-55
Noise (dB)
-65
-75
-85
-95
-105
-115
-125
-135
0
1.0
2.0
3.0
4.0
5.0
Frequency (MHz)
General Description
The FMS6419 offers comprehensive filtering for set top box
or DVD applications. This part consists of triple 6th order
filters with selectable 30MHz or 8MHz frequencies and a
dual filter for filtering Y, C with a composite summer. 2 to 1
multiplexers are provided on the triple filters as well as
provisions for auxiliary input to the composite channel. The
triple filters are intended for either YUV or RGB signals.
All channels accept DC coupled ground-referenced 1V
signals. The filters outputs 2Vpp signals into AC coupled
terminated loads. The low-pass filters are powered by 3.3V
and output buffers are powered by 5.0V.
The FMS6419 is a next generation filter solution from
Fairchild Semiconductor addressing the expanding filtering
needs for set top boxes, and DVD players. The product
provides selectable filtering from 30MHz to 8MHz on the
RGB channels. Thus, the FMS6419 addresses the requirement for a single set top box to be compatible with a variety
of resolution standards. Additionally, the product provides
6
additional filters for Y, C, and Composite Video (CV) outputs. Multiplexers on the RGB and CV channels provide
further flexibility.
For DVD applications, the product provides filtering and
output drive amplification for 6 channels of outputs. These
include R, G, B, Y, C, and CV outputs.
For Set top boxes, this product provides for 2 channels of
video to be filtered, as well as the flexibility of selectable
high order filtering for multiple resolution standards.
Additional flexibility is provided by the Y (Luma) and C
(Chroma) filters with a composite summer.
All channels provide 6dB gain, accept 1V ground referenced
inputs, and drive AC coupled loads. The filters for the R, G,
B, Y, C, and CV channels are powered from a 3.3V supply
and the outputs from 5V.
REV. 5C April 2005
FMS6419
DATA SHEET
Applications
DC Levels
At any given time, the input signal’s DC levels must be
between 0.0V and 1.3V to utilize the optimal headroom and
to avoid clipping on the outputs. The Y channel should
nominally have the Sync Tip at ground and be a 1V signal.
The C channel should ride around the 0.5V level. This will
ensure that the filter will utilize the optimal headroom and
avoid clipping.
DC Coupled Output Applications
The 220µF capacitor coupled with the 150Ω termination
forms a high pass filter that blocks the DC while passing the
video frequencies and avoiding tilt. Lower values such as
10µF would create a problem. By AC coupling, the average
DC level is zero. Thus, the output voltages of all channels
will be centered around zero. Alternately, DC coupling the
output of the FMS6419 is allowable, but not recommended.
There are several tradeoffs: The average DC level on the outputs will be 2V. Each output will dissipate an additional
40mW nominally. The application will need to accommodate
a 1V DC offset sync tip. Also, it is recommended to limit one
150Ω load per output.
Driving the Digital Pins with 3.3V
or 5V Logic
Either is allowed as long as the Vih and Vil are
adhered to.
Pin Configuration
INMUX
1
28 FSEL
RINA
2
27 VSSRGB
RINB
3
26 VCCA
FMS6419MS28
28-pin SSOP
GINA
4
GINB
5
24 ROUT
BINA
6
23 GOUT
BINB
7
22 BOUT
CVMUX
8
21 YOUT
NC
9
20 VCCO
NC 10
19 COUT
VSSA 11
AUXIN 12
25 VSS
18 CVOUT
17 NC
CIN 13
16 VSSYC
YIN 14
15 NC
Note:
Pin Assignments table follows on page 8.
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7
FMS6419
DATA SHEET
Pin Assignments
Pin #
1
Pin Name
INMUX
8
CVMUX
28
FSEL
Pin Voltage
Description
Logic input selects between channel
<A> or <B> of the RGB inputs.
(1): RGB A input, (0): RGB B input
Logic input pin selects between the YIN
or AUXIN inputs as well as enabling or
disabling CIN. (1): YIN/CIN, (0): AUXIN
Equivalent Circuit
VCC
1
28
8
Logic Input selects between (0) SD
(8.0MHz) and (1) HD (30.0MHz) filters
VSS
2
RINA
Analog RED video input - Channel A
3
4
5
6
7
12
13
RINB
GINA
GINB
BINA
B IN
INA
AUXIN
CIN
Analog RED video input - Channel B
Analog GREEN video input - Channel A
Analog GREEN video input - Channel B
Analog BLUE video input - Channel A
Analog BLUE video input - Channel B
Analog Composite Video Input
Analog Chroma Video Input
14
YIN
Analog Luma Video Input
9, 10,
15, 17
N/C
No Connect (float pin)
26
20
18
19
VCCA
VCCO
CVOUT
C OUT
21
YOUT
Filtered Analog-Luma Video output
22
BOUT
Filtered Analog BLUE video output
from either BINA or BINB
+3.3V power supply for filters
+5V power supply for output buffers
Filtered Analog-Composite Video output
Filtered Analog-Chroma Video output
23
GOUT
Filtered Analog GREEN video output
from either GINA or GINB
24
ROUT
Filtered Analog RED video output from
either RINA or RINB
25
11
16
27
VSS
VSSA
VSSYC
VSSRGB
REV. 5C April 2005
VCC
12
13 14
6
7
5
2
4
3
VSSA
VCC
22 18
23 19
24 21
VSS
Ground
Analog ground
Ground for YC output buffers
Ground for RGB output buffers
8
DATA SHEET
FMS6419
Package Dimensions
SSOP-28
9
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FMS6419
DATA SHEET
Ordering Information
Model
Part Number
Package
Container
Pack Qty
FMS6419
FMS6419MSA28
28-pin SSOP
Tube
47
FMS6419
FMS6419MSA28X
28-pin SSOP
Tape & Reel
2,000
Temperature range for all parts: 0°C to +70°C.
DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICES TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION
OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES
IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN
APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR CORPORATION. As used herein:
1. Life support devices or systems are devices or systems which, (a) are intended for
surgical implant into the body, or (b) support or sustain life, and (c) whose failure to per
form when properly used in accordance with instructions for use provided in the labeling,
can be reasonably expected to result in a significant injury of the user.
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2. A critical component in any component of a life support device or system whose failure
to perform can be reasonably expected to cause the failure of the life support device or
system, or to affect its safety or effectiveness.
© 2005 Fairchild Semiconductor Corporation
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