NPC SM5301AS

SM5301AS
3-channel Video Buffer with Built-in Wideband Filters
OVERVIEW
The SM5301AS is a video buffer with built-in video signal bandwidth lowpass filter. The filter employs a 5order Butterworth lowpass filter configuration. The filter characteristics have been optimized for minimal overshoot and flat group delay, it has a variable cutoff frequency and guaranteed driver-stage channel gain difference and phase difference values.
■
■
■
■
■
■
APPLICATIONS
■
■
■
■
Set-top boxes
Digital television
DVD players
Projector
ORDERING INFORMATION
Device
Package
SM5301AS
28-pin HSOP
1
28
NC
GSG1
2
27
RINB/YINB
GINB/UINB
3
26
GSR1
NC
4
25
RINA/YINA
BINA/VINA
5
24
VCC4
GSB1
6
23
SYNCIN
BINB/VINB
7
22
MUXSEL
GND
GND
NC
8
21
VFC
DISABLE
9
20
RFC
GND3
10
19
GND4
BOUT/VOUT
11
18
VCC1
VCC3
12
17
ROUT/YOUT
GND2
13
16
GND1
GOUT/UOUT
14
15
VCC2
PACKAGE DIMENSIONS
(Unit: mm)
+ 0.1
0.15 – 0.0
5
0.5 ± 0.2
■
GINA/UINA
1.3TYP
2.2 ± 0.1
■
(Top view)
9.9 ± 0.3
■
Supply voltage: 5V ± 10%
VESA-standard ATSC digital TV RGB/YUV
video filters
2-system input/1-system output switching analog
multiplexer function
DC voltage level restore sync clamp function
Output buffer gain switching function: 0, 6dB
(input-to-output AC signal gain)
Channel-to-channel gain difference: 0.5dB (± 5%
supply voltage variation)
Channel-to-channel phase difference: 3.5 degree
Output signal harmonic distortion (all channels):
1.5%
Cutoff frequency: 5.8 to 37MHz variable
Package: 28-pin HSOP (Pb free)
18.6 ± 0.3
0.8
5.15
0.10
0.35 ± 0.05
0.12 M
0 to 10
0.1 ± 0.05
■
PINOUT
7.5 ± 0.2
FEATURES
NIPPON PRECISION CIRCUITS INC.—1
SM5301AS
BLOCK DIAGRAM
VCC1
VCC2
VCC3
VCC4
DISABLE
Buffer
RINA/YINA
MUX
LPF
ROUT/YOUT
RINB/YINB
GSR1
DC
Restore
Buffer
GINA/UINA
MUX
LPF
GOUT/UOUT
GINB/UINB
GSG1
DC
Restore
Buffer
BINA/VINA
MUX
LPF
BOUT/VOUT
BINB/VINB
GSB1
DC
Restore
MUXSEL
SYNCIN
IFC
Control
GND1
GND2
GND3
GND4
RFC
VFC
NIPPON PRECISION CIRCUITS INC.—2
SM5301AS
PIN DESCRIPTION
Number
Name
I/O
Description
1
GINA/UINA
I
Analog GINA or UINA signal input. Sync signal is input on SYNCIN pin.
2
GSG1
I
GOUT/UOUT output buffer gain set input
3
GINB/UINB
I
Analog GINB or UINB signal input. Sync signal is input on SYNCIN pin.
4
NC
–
No connection (leave open or connect to ground)
5
BINA/VINA
I
Analog BINA or VINA signal input. Sync signal is input on SYNCIN pin.
6
GSB1
I
BOUT/VOUT output buffer gain set input
7
BINB/VINB
I
Analog BINB or VINB signal input. Sync signal is input on SYNCIN pin.
8
NC
–
No connection (leave open or connect to ground)
9
DISABLE
I
Power save function. Built-in pull-down resistor.
L: Enable
H: Disable (Output pins: ROUT/YOUT, GOUT/UOUT, and BOUT/VOUT are high impedance.)
10
GND3
−
Analog ground
11
BOUT/VOUT
O
B/V signal output
12
VCC3
−
Analog 5V supply
13
GND2
−
Analog ground
14
GOUT/UOUT
O
G/U signal output
15
VCC2
−
Analog 5V supply
16
GND1
−
Analog ground
17
ROUT/YOUT
O
R/Y signal output
18
VCC1
−
Analog 5V supply
19
GND4
−
Analog ground
20
RFC
−
LPF (lowpass filter) cutoff frequency setting resistor connection
21
VFC
I
LPF (lowpass filter) cutoff frequency setting voltage input
22
MUXSEL
I
Input select signal. Built-in pull-down resistor.
L: ×INA pin select
H: ×INB pin select
23
SYNCIN
I
Filter channel external H-Sync signal input. Active “H”. Built-in pull-down resistor.
24
VCC4
−
Analog 5V supply
25
RINA/YINA
I
Analog RINA or YINA signal input. Sync signal is input on SYNCIN pin.
26
GSR1
I
ROUT/YOUT output buffer gain set input
27
RINB/YINB
I
Analog RINB or YINB signal input. Sync signal is input on SYNCIN pin.
28
NC
–
No connection (leave open or connect to ground)
NIPPON PRECISION CIRCUITS INC.—3
SM5301AS
SPECIFICATIONS
Absolute Maximum Ratings
Parameter
Symbol
Rating
Unit
Supply voltage range
VCC
− 0.3 to 7.0
V
Storage temperature range
Tstg
− 55 to + 125
°C
Power dissipation 11
PD1
1.0
W
Power dissipation 22
PD2
0.9
W
1. When mounted on a substrate: mounted on a 111 × 80 × 1.6mm glass-epoxy substrate with 90%
copper (Cu) wiring factor, 0m/s air flow, and Ta = – 25 to 70 °C.
2. When mounted on a substrate: mounted on a 111 × 80 × 1.6mm glass-epoxy substrate with 90%
copper (Cu) wiring factor, 0m/s air flow, and Ta = 70 to 80 °C.
Recommended Operating Conditions
Parameter
Supply voltage ranges
Operating temperature range
Symbol
Rating
Unit
VCC
4.5 to 5.5
V
Ta
– 25 to 85
°C
Electrical Characteristics
VCC = 4.5 to 5.5V, Ta = – 25 to 85°C unless otherwise noted.
Rating
Parameter
Symbol
Condition
min
typ
max
Unit
Test
level
Supply current 1
ICC1
VCC = 5.5V, RFC = 820Ω to GND,
VFC = 0.2V (fc = 5MHz),
DISABLE = "L"
70
100
130
mA
I
Supply current 2
ICC2
VCC = 5.5V, RFC = 820Ω to GND,
VFC = 1.6V (fc = 40MHz),
DISABLE = "L"
90
120
160
mA
I
Supply current 3
ICC3
VCC = 5.5V, RFC = 820Ω to GND,
VFC = 0.2V (fc = 40MHz),
DISABLE = "H"
1
2.5
5
mA
I
Output gain error 1
∆AV1
Error entered around table 1 values,
Ta = 0 to 70°C, VCC = 4.75 to 5.25V
– 0.5
–
+ 0.5
dB
I
Output gain error 2
∆AV2
Error entered around table 1 values,
Ta = – 25 to 85°C
–1
–
+1
dB
I
Output voltage
Vout2
RL = 75Ω to GND, 6dB gain setting
2.4
–
–
Vp-p
I
DISABLE-mode input impedance
(pull-down)
RIN1
RINA/YINA, RINB/YINB, GINA/UINA,
GINB/UINB, BINA/VINA, BINB/VINB
–
50
–
kΩ
I
Time for 90% output signal change
for 10mV input signal, CIN = 0.1µF
–
8
–
ms
II
AC coupling, 6dB gain setting
–
–
1.4
Vp-p
I
Clamp response time
Maximum input amplitude
Tclamp
VI
Maximum overshoot
VOS
2Vp-p output pulse
–
10
–
%
II
Maximum load capacitance
CL
BOUT/VOUT, GOUT/UOUT, ROUT/YOUT
–
–
15
pF
II
Output drive load
RL
one load unit = 150Ω
–
–
2
load
I
Channel-to-channel gain
difference
dG
Between R/G/B, fc/2 [Hz]
–
–
0.5
dB
I
NIPPON PRECISION CIRCUITS INC.—4
SM5301AS
Rating
Parameter
Symbol
Condition
min
typ
max
Unit
Test
level
Channel-to-channel phase
difference
dφ
Between R/G/B, fc/2 [Hz]
–
3.5
–
degree
II
Output harmonic distortion
THD
Vout = 2Vp-p, f = 1MHz
–
1.5
–
%
II
Power supply rejection ratio
PSRR
VCC = 0.5Vp-p, f = 100kHz
–
35
–
dB
II
Output short-circuit current
ISC
–
–
100
mA
II
Logic HIGH-level input voltage 1
VIH1
DISABLE, MUXSEL, SYNCIN
2.5
–
–
V
I
Logic LOW-level input voltage 1
VIL1
DISABLE, MUXSEL, SYNCIN
–
–
1.0
V
I
Logic HIGH-level input voltage 2
VIH2
GSB1, GSG1, GSR1
VCC − 0.5
–
–
V
I
Logic LOW-level input voltage 2
VIL2
GSB1, GSG1, GSR1
–
–
0.5
V
I
Logic pull-up resistance
RIN2
GSB1, GSG1, GSR1
–
40
–
kΩ
I
Logic pull-down resistance
RIN3
DISABLE, MUXSEL, SYNCIN
–
50
–
kΩ
I
Unit
Test
level
Filter Characteristics
VCC = 4.5 to 5.5V, Ta = – 25 to 85°C unless otherwise noted.
Rating
Parameter
Cutoff frequency adjustment
range
Symbol
Condition
min
typ
max
FC
Ta=25°C (see figure 1)
5.8
–
37
MHz
I
Cutoff frequency error
∆FC
Ta = 25°C, VCC = 5.0V
–
–
± 20
%
I
4fc attenuation
fSB
fIN ≥ 4fc
–
50
–
dB
II
Output noise characteristic
VNOISE
10kHz to 40MHz, 6dB output gain
setting
–
1.0
–
mVRMS
II
Crosstalk
XTALK
Between 2 channels with input
0.5Vp-p 1MHz
–
− 47
–
dB
II
Multiplexer crosstalk
XTALK
Between MUX A−B
–
− 49
–
dB
II
TPD
Each input = 500kHz
–
10
–
ns
II
to 3.58MHz
–
9
–
ns
II
to 4.43MHz
–
15
–
ns
II
to 3.58MHz
–
1
–
ns
II
to 4.43MHz
–
1
–
ns
II
to 10MHz
–
2
–
ns
II
to 10MHz
–
0.5
–
ns
II
to 30MHz
–
5
–
ns
II
0.2
–
1.6
V
I
Channel-to-channel group delay
Group delay variation
∆TPD1
Fc = 6.7MHz
(500kHz)
∆TPD2
Fc = 24MHz
(500kHz)
∆TPD3
VFC input voltage range
Fc = 36MHz
(1MHz)
VFC
Test level
I : 100% of products tested at Ta = + 25°C.
II : Guaranteed as result of design and characteristics evaluation.
NIPPON PRECISION CIRCUITS INC.—5
SM5301AS
Table 1. Output buffer gain control
GS×1
Gain [dB]
GND
0
VCC or Open
6
45
40
35
fc [MHz]
30
25
20
15
10
5
0
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
VFC [V]
RFC: 820Ω to GND
Figure 1. VFC vs. cutoff frequency
NIPPON PRECISION CIRCUITS INC.—6
SM5301AS
2.00E+01
6dB
0.00E+00
Gain [dB]
0dB
–2.00E+01
–4.00E+01
–6.00E+01
–8.00E+01
1.00E+03
1.00E+04
1.00E+05
1.00E+06
1.00E+07
1.00E+08
Frequency [Hz]
Figure 2. Frequency response (VFC = 0.2V)
2.00E+01
6dB
Gain [dB]
0.00E+00
0dB
–2.00E+01
–4.00E+01
–6.00E+01
1.00E+03
1.00E+04
1.00E+05
1.00E+06
1.00E+07
1.00E+08
Frequency [Hz]
Figure 3. Frequency response (VFC = 1.0V)
2.00E+01
6dB
Gain [dB]
0.00E+00
0dB
-2.00E+01
-4.00E+01
1.00E+03
1.00E+04
1.00E+05
1.00E+06
1.00E+07
1.00E+08
Frequency [Hz]
Figure 4. Frequency response (VFC = 1.6V)
NIPPON PRECISION CIRCUITS INC.—7
SM5301AS
Adjusting the Cutoff Frequency
Constant-voltage control 1
Cutoff frequency control using a reference voltage VR generated by voltage divider formed by R1 and R2.
VR
R1
VFC
R2
RFC
Constant-voltage control 2
Cutoff frequency control by adjusting the resistance connected to RFC.
VFC
VR
RFC
PWM control
Cutoff frequency control by smoothing the PWM signal, using R1 and C1, input to VFC.
PWM
R1
VFC
C1
RFC
When VFC = 0.2V VDD = 3.3V, 6% duty drive
VDD = 5.0V, 4% duty drive
When VFC = 1.6V VDD = 3.3V, 48% duty drive
VDD = 5.0V, 32% duty drive
Note: The resistor connected to RFC can affect the cutoff frequency response, so a high-precision component
should be used. It is recommended to set the RC filter cutoff frequency to < fc/100 of the PWM waveform frequency.
NIPPON PRECISION CIRCUITS INC.—8
SM5301AS
Resistor switch control
The VFC voltage can be controlled using multi-logic voltage levels switching inputs to a voltage divider resistor network.
V1
V2
V3
R1
VFC
R2
R3
RFC
R0
The VFC voltage is determined by the logic voltage (V1, V2, V3) and the corresponding voltage divider resistor network.
NIPPON PRECISION CIRCUITS INC.—9
SM5301AS
TYPICAL APPLICATION CIRCUITS
820Ω
ATSC Digital TV Application
+5V
+
Cut-off
control voltage
SYNC
(*3)
+
RIN/YIN
220µF
1.0µF
GSR1
(*2)
R/Y
75Ω
(*2)
(*4)
GIN/UIN
ROUT/YOUT
GND1
VCC2
VCC3
GND2
GOUT/UOUT
VCC1
BOUT/VOUT
RFC
GND4
DISABLE
GND3
VFC
NC
MUXSEL
BINB/VINB
SYNCIN
VCC4
(*1)
1.0µF
GSB1
BINA/VINA
RINA/YINA
NC
RINB/YINB
GSR1
GINB/UINB
GSG1
GINA/UINA
NC
(*1)
+
(*1)
220µF
GSG1
(*4)
G/U
75Ω
(*2)
(*2)
+
BIN/VIN
220µF
B/V
75Ω
1.0µF
GSB1
(*4)
DISABLE
(*1) Pins without an input signal, set by NUXSEL, should be left open or tied to GND.
(*2) Connect 4 × 0.1µF capacitor between the supply pins close to the IC.
(*3) Connect a 47µF capacitor between the supply pins close to the IC.
(*4) GS×1 are 3-level pins. Connect a capacitor if an error occurs due to external noise. Also, if open-circuit,
the internal impedance and external capacitance (C) form an RC network. When power is applied, the
open-circuit potential rises with time constant τ = C × 10k (sec).
(*5) Printed circuit board supply wiring
■
■
■
If the supply is used for other digital circuits, there is a possibility that noise will be introduced. Accordingly, these circuits should be connected to the application’s analog supply.
Ground-plane wiring should be performed, as much as possible, to provide low GND line impedance.
If ground-plane wiring up to the GND pins is difficult, the ground plane should be as close to the IC as
possible with a separate wire to each GND pin.
Input Capacitor and Cutoff Frequency
The capacitor connected to pins RINA/YINA, RINB/YINB, GINA/UINB, GINB/UINB, BINA/VINA, and BINB/VINB
forms a highpass filter (HPF) with the internal impedance.
The HPF cutoff frequency is given by the following equation.
fc =
1
2πCR
(C: input capacitance, R: signal input impedance = 9.3kΩ)
NIPPON PRECISION CIRCUITS INC.—10
SM5301AS
2-load Output Connection
ROUT/YOUT output 2-load connection (similarly for GOUT/UOUT , BOUT/VOUT outputs)
220µF
ROUT/YOUT
75Ω
+
R/Y1
75Ω
R/Y2
Digital TV Receiver and HDTV Decoder Box
Graphic
Processor
MPEG2
Transport/Decoder
CAMERA
HDTV
Decoder/Display
Processor
D to A
Convertor
SM5301
DIGITAL TV
Video Decoder
and
Display Processor
D to A
Convertor
SM5301
RGB
MONITOR
DVD-ROM MEMORY
Graphic
Processor
NIPPON PRECISION CIRCUITS INC.—11
SM5301AS
Please pay your attention to the following points at time of using the products shown in this document.
The products shown in this document (hereinafter “Products”) are not intended to be used for the apparatus that exerts harmful influence on
human lives due to the defects, failure or malfunction of the Products. Customers are requested to obtain prior written agreement for such
use from NIPPON PRECISION CIRCUITS INC. (hereinafter “NPC”). Customers shall be solely responsible for, and indemnify and hold NPC
free and harmless from, any and all claims, damages, losses, expenses or lawsuits, due to such use without such agreement. NPC reserves
the right to change the specifications of the Products in order to improve the characteristic or reliability thereof. NPC makes no claim or
warranty that the contents described in this document dose not infringe any intellectual property right or other similar right owned by third
parties. Therefore, NPC shall not be responsible for such problems, even if the use is in accordance with the descriptions provided in this
document. Any descriptions including applications, circuits, and the parameters of the Products in this document are for reference to use the
Products, and shall not be guaranteed free from defect, inapplicability to the design for the mass-production products without further testing
or modification. Customers are requested not to export or re-export, directly or indirectly, the Products to any country or any entity not in
compliance with or in violation of the national export administration laws, treaties, orders and regulations. Customers are requested
appropriately take steps to obtain required permissions or approvals from appropriate government agencies.
NIPPON PRECISION CIRCUITS INC.
4-3, Fukuzumi 2-chome, Koto-ku,
Tokyo 135-8430, Japan
Telephone: +81-3-3642-6661
Facsimile: +81-3-3642-6698
http://www.npc.co.jp/
Email: [email protected]
NC0202BE
2003.05
NIPPON PRECISION CIRCUITS INC.—12