MAX9583AZT+T [MAXIM]
Dual, Triple, and Quad Standard-Definition Video Filter Amplifiers with DC-Coupled Input Buffers; 双,三和四通道标清视频滤波放大器,提供直流耦合输入缓冲器型号: | MAX9583AZT+T |
厂家: | MAXIM INTEGRATED PRODUCTS |
描述: | Dual, Triple, and Quad Standard-Definition Video Filter Amplifiers with DC-Coupled Input Buffers |
文件: | 总15页 (文件大小:340K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
±9-ꢃ8±ꢁ; Rev 3; ꢁ/ꢃꢁ
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
General Description
Features
The MAX9583/MAX9584/MAX9585 are small, low-power,
multichannel video amplifiers with integrated reconstruc-
tion filters. Specially suited for standard-definition video
signals, these devices are ideal for a wide range of
television, set-top box, and portable applications.
o Dual- (MAX9583), Triple- (MAX9584),
and Quad- (MAX9585) Channel Devices
o 7MHz, ±±dꢀ ꢁassꢂand
o 40dꢀ Attenuation at 27MHz
o Fixed Gain of 2V/V
The MAX9583/MAX9584/MAX9585 inputs can be
directly connected to the outputs of a video digital-to-
analog converter (DAC). The reconstruction filter typical-
ly has ±±dꢀ passband flatness at ꢁMꢂH and 4ꢃdꢀ
attenuation at 2ꢁMꢂH. The amplifiers have a 2V/V gain
and the outputs can be DC-coupled to a ꢁ5Ω load which
is the equivalent of two video loads, or AC-coupled to a
±5ꢃΩ load.
o Low ꢁower: 3.5mA per Channel
o 2.7V to 3.6V Single-Supply Operation
o Small SOT23 and µMAX ꢁackages
The MAX9583/MAX9584/MAX9585 operate from a 2.ꢁV to
3.6V single supply and are specified over the -4ꢃ°C to
+±25°C automotive temperature range. The MAX9583 is
offered in a small, 6-pin thin SOT23 package. The
Ordering Information
ꢁKG
CODE
ꢁART
ꢁIN-ꢁACKAGE CHANNELS
®
MAX9584 is offered in a small, 8-pin µMAX package,
2
3
4
MAX9583AZT+T
6 Thin SOT23-6
Z6+±
U8+±
and the MAX9585 is offered in a small, ±ꢃ-pin µMAX
package.
MAX9584AUA+T 8 µMAX-8
MAX9585AUꢀ+T ±ꢃ µMAX-±ꢃ
U±ꢃ+2
Applications
Note: All devices are specified over the -4ꢃ°C to +±25°C operat-
ing temperature range.
+Denotes a lead-free package.
T = Tape and reel.
Set-Top ꢀoxes
Televisions
Portable
ꢁin Configurations and Selector Guide located at end of
data sheet.
µMAX is a registered trademark of Maxim Integrated Products, Inc.
Block Diagrams
0
TO
50mV
300mV
TO 400mV
MAX9584
BUFFER
BUFFER
BUFFER
INA
INB
INC
OUTA
A
A
A
= 2V/V
= 2V/V
= 2V/V
V
V
V
LPF
LPF
LPF
OUTB
OUTC
ꢀlock Diagrams continued at end of data sheet.
________________________________________________________________ Maxim Integrated ꢁroducts
±
For pricing, delivery, and ordering information, please contact Maxim Direct at ±-888-629-4642,
or visit Maxim’s weꢂsite at www.maxim-ic.com.
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
AꢀSOLUTE MAXIMUM RATINGS
DD
IN_ to GND ...............................................................-ꢃ.3V to +4V
V
to GND..............................................................-ꢃ.3V to +4V
8-Pin µMAX (derate 4.5mW/°C above +ꢁꢃ°C).............362mW
±ꢃ-Pin µMAX (derate 5.6mW/°C above +ꢁꢃ°C)...........444mW
Operating Temperature Range .........................-4ꢃ°C to +±25°C
Junction Temperature......................................................+±5ꢃ°C
Storage Temperature Range.............................-65°C to +±5ꢃ°C
Lead Temperature (soldering, ±ꢃs) .................................+3ꢃꢃ°C
OUT_ Short-Circuit Duration to V , GND.................Continuous
DD
Continuous Input Current
IN_ ................................................................................±2ꢃmA
Continuous Power Dissipation (T = +ꢁꢃ°C)
A
6-Pin Thin SOT23 (derate 9.±mW/°C above +ꢁꢃ°C)....ꢁ2ꢁmW
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
ELECTRICAL CHARACTERISTICS
(V = 3.3V, GND = ꢃV, R = no load, T = T
to T
, unless otherwise noted. Typical values are at T = +25°C) (Note ±)
MAX A
DD
L
A
MIN
ꢁARAMETER
SYMꢀOL
CONDITIONS
MIN
TYꢁ
MAX
3.6
ꢁ
UNITS
V
Supply Voltage Range
Supply Current
V
Guaranteed by PSRR
Per channel
2.ꢁ
DD
DD
I
3.5
mA
V
V
= 2.ꢁV
= 3V
ꢃ
ꢃ
±.ꢃ5
±.2
±ꢃ
DD
DD
Guaranteed by DC
voltage gain
Input Voltage Range
V
V
P-P
IN
Input Current
I
V
= ꢃV
ꢃ.6
25
µA
IN
IN
Input Resistance
R
MΩ
IN
V
= 2.ꢁV,
IN
DD
±.96
±.96
2
2
2.ꢃ4
2.ꢃ4
ꢃV ≤ V ≤ ±.ꢃ5V
V
ꢃV ≤ V ≤ ±.2V
DC Voltage Gain (Note 2)
Av
R = ±5ꢃΩ to GND
L
V/V
= 3V,
IN
DD
34/MAX985
DC Gain Matching
Output Level
Guaranteed by DC voltage gain
-2
ꢃ
+2
%
V
Measured at V
, V = ꢃV, R = ±5ꢃΩ to GND
ꢃ.2±ꢃ
ꢃ.3ꢃꢃ
ꢃ.4±ꢃ
OUT IN
L
Measured at output, V
R = ±5ꢃΩ to -ꢃ.2V
L
= 2.ꢁV, ꢃV ≤ V ≤ ±.ꢃ5V,
IN
DD
2.±
2.±
2.4
2.4
2.±
Measured at output, V = 2.ꢁV, ꢃV ≤ V ≤ ±.ꢃ5V,
DD
IN
R = ±5ꢃΩ to V /2
L
DD
Measured at output, V = 3V, ꢃV ≤ V ≤ ±. 2V,
R = ±5ꢃΩ to -ꢃ.2V
L
DD
IN
Output-Voltage Swing
V
P-P
Measured at output, V = 3V, ꢃV ≤ V ≤ ±. 2V,
DD
IN
R = ±5ꢃΩ to V /2
L
DD
Measured at output, V = 3.±35V, ꢃV ≤ V ≤ ±.ꢃ5V,
DD
IN
R = ꢁ5Ω to -ꢃ.2V
L
Short to GND (sourcing)
Short to V (sinking)
±4ꢃ
ꢁꢃ
Output Short-Circuit
Current
mA
Ω
DD
Output Resistance
R
V
= ±.5V, -±ꢃmA ≤ I ≤ ±ꢃmA
LOAD
ꢃ.2
OUT
OUT
2.ꢁV ≤ V ≤ 3.6V
48
DD
Power-Supply Rejection
Ratio
PSRR
dꢀ
f = ±MꢂH, ±ꢃꢃmV
29
P-P
2
_______________________________________________________________________________________
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
ELECTRICAL CHARACTERISTICS (continued)
(V = 3.3V, GND = ꢃV, R = no load, T = T
to T
, unless otherwise noted. Typical values are at T = +25°C) (Note ±)
MAX A
DD
L
A
MIN
ꢁARAMETER
SYMꢀOL
CONDITIONS
±±dꢀ passband flatness
MIN
TYꢁ
ꢁ
MAX
UNITS
MꢂH
f = 5.5MꢂH
f = 8.5MꢂH
f = 2ꢁMꢂH
-ꢃ.5
-3
Standard-Definition
Reconstruction Filter
V
= ±V , reference
P-P
IN
dꢀ
frequency is ±ꢃꢃkꢂH
-4ꢃ
5-step modulated staircase of ±29mV step siHe and
286mV peak-to-peak subcarrier amplitude,
f = 4.43MꢂH
Differential Gain
Differential Phase
DG
DP
ꢃ.±
ꢃ.4
%
5-step modulated staircase of ±29mV step siHe and
286mV peak-to-peak subcarrier amplitude,
f = 4.43MꢂH
Degrees
2T = 2ꢃꢃns, bar time is ±8µs. The beginning 2.5%
and the ending 2.5% of the bar time are ignored
2T Pulse-to-ꢀar K Rating
2T Pulse Response
ꢃ.6
ꢃ.2
K%
K%
2T = 2ꢃꢃns
2T = 2ꢃꢃns, bar time is ±8µs. The beginning 2.5%
and the ending 2.5% of the bar time are ignored
2T ꢀar Response
ꢃ.2
K%
Nonlinearity
5-step staircase
ꢃ
9
%
ns
dꢀ
Ω
Group Delay Distortion
Peak Signal to RMS Noise
Output Impedance
All ꢂostile Crosstalk
±ꢃꢃkꢂH ≤ f ≤ 5.5MꢂH, outputs are 2V
±ꢃꢃkꢂH ≤ f ≤ 5.5MꢂH
f = 5.5MꢂH
P-P
ꢁ±
4.8
-64
f = 4.43MꢂH
dꢀ
Note ±: All devices are ±ꢃꢃ% production tested at T = +25°C. Specifications over temperature limits are guaranteed by design.
A
Note 2: Voltage gain (A ) is a two-point measurement in which the output voltage swing is divided by the input voltage swing.
V
Typical Operating Characteristics
(V
= SHDN = 3.3V, video outputs have R = ±5ꢃΩ connected to GND, T = +25°C, unless otherwise noted.)
DD
L
A
SMALL-SIGNAL GAIN
vs. FREQUENCY
SMALL-SIGNAL GAIN FLATNESS
vs. FREQUENCY
LARGE-SIGNAL GAIN
vs. FREQUENCY
10
10
0
0.4
0.2
V
= 100mV
V
= 2V
OUT P-P
V
= 100mV
OUT
P-P
OUT
P-P
0
-10
-20
-30
-40
-50
-60
-70
-80
0
-10
-20
-30
-40
-50
-60
-70
-80
-0.2
-0.4
-0.6
-0.8
-1.0
-1.2
-1.4
-1.6
100k
1M
10M
100M
100k
1M
10M
100M
100k
1M
FREQUENCY (Hz)
10M
FREQUENCY (Hz)
FREQUENCY (Hz)
_______________________________________________________________________________________
3
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
Typical Operating Characteristics (continued)
(V
= SHDN = 3.3V, video outputs have R = ±5ꢃΩ connected to GND, T = +25°C, unless otherwise noted.)
L A
DD
POWER-SUPPLY REJECTION RATIO
vs. FREQUENCY
LARGE-SIGNAL GAIN FLATNESS
vs. FREQUENCY
GROUP DELAY
vs. FREQUENCY
0
-10
-20
-30
-40
-50
-60
-70
-80
140
120
100
80
0.4
0.2
V
= 2V
P-P
OUT
0
-0.2
-0.4
-0.6
-0.8
-1.0
-1.2
-1.4
-1.6
60
40
20
0
10k
100k
1M
10M
100M
100k
1M
10M
100M
100k
1M
10M
FREQUENCY (Hz)
FREQUENCY (Hz)
FREQUENCY (Hz)
OUTPUT VOLTAGE
vs. INPUT VOLTAGE
QUIESCENT SUPPLY CURRENT
vs. TEMPERATURE
VOLTAGE GAIN
vs. TEMPERATURE
15.0
14.5
14.0
13.5
13.0
12.5
12.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
2.04
2.03
2.02
2.01
2.00
1.99
1.98
1.97
1.96
1.95
34/MAX985
-0.5
-50 -25
0
25
50
75 100 125
-0.3
0
0.3 0.6 0.9 1.2 1.5 1.8
INPUT VOLTAGE (V)
-50 -25
0
25
50
75 100 125
TEMPERATURE (°C)
TEMPERATURE (°C)
DIFFERENTIAL GAIN AND PHASE
2T RESPONSE
12.5T RESPONSE
MAX9583 toc11
MAX9583 toc12
0.1
0
f = 4.43MHz
-0.1
-0.2
-0.3
-0.4
IN_
200mV/div
IN_
200mV/div
1
1
2
3
4
5
6
7
7
0.8
0.6
0.4
0.2
0
f = 4.43MHz
OUT_
400mV/div
OUT_
400mV/div
-0.2
-0.4
2
3
4
5
6
100ns/div
400ns/div
4
_______________________________________________________________________________________
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
Typical Operating Characteristics (continued)
(V
= SHDN = 3.3V, video outputs have R = ±5ꢃΩ connected to GND, T = +25°C, unless otherwise noted.)
DD
L
A
NTC-7 VIDEO TEST
SIGNAL ON CVBS OUTPUTS
PAL COLOR BARS
PAL MULTIBURST RESPONSE
MAX9583 toc15
MAX9583 toc14
MAX9583 toc13
IN_
500mV/div
IN_
500mV/div
IN_
500mV/div
OUT_
1V/div
OUT_
1V/div
OUT_
1V/div
10µs/div
10µs/div
10µs/div
INPUT-TO-INPUT CROSSTALK
vs. FREQUENCY
FIELD SQUARE-WAVE RESPONSE
MAX9583 toc16
0
-20
IN_
500mV/div
-40
-60
-80
OUT_
1V/div
-100
-120
100k
1M
10M
100M
2ms/div
FREQUENCY (Hz)
OUTPUT-TO-OUTPUT CROSSTALK
vs. FREQUENCY
OUTPUT IMPEDANCE
vs. FREQUENCY
0
-20
100
10
-40
-60
1
-80
0.1
0.01
-100
-120
100k
1M
10M
100M
100k
1M
10M
FREQUENCY (Hz)
FREQUENCY (Hz)
_______________________________________________________________________________________
5
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
Pin Description
MAX9583
MAX9584
MAX9585
NAME
FUNCTION
6 SOT23
8 µMAX
±0 µMAX
2
3
4
±
5
±
GND
INA
Ground
Video Input A
Video Input ꢀ
Video Input C
Video Input D
Video Output A
Video Output ꢀ
Video Output C
Video Output D
±
2
2
INꢀ
—
—
4
3
3
INC
—
ꢁ
4
IND
9
OUTA
OUTꢀ
OUTC
OUTD
6
6
8
—
—
5
5
ꢁ
—
8
6
±ꢃ
V
Positive Power Supply. ꢀypass to GND with a ꢃ.±µF capacitor.
DD
Typical Application Circuits
V
DD
9
+3.3V
0.1µF
GRAPHICS PROCESSING
UNIT OR
MPEG DECODER
GND
MAX9583
BUFFER
BUFFER
75Ω
75Ω
LUMA
INA
INB
OUTA
Y
DAC
A = 2V/V
V
LPF
OUTB
CHROMA
C
A = 2V/V
V
DAC
LPF
6
_______________________________________________________________________________________
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
Typical Application Circuits (continued)
V
DD
+3.3V
0.1µF
GRAPHICS PROCESSING
UNIT OR
GND
MAX9584
MPEG DECODER
BUFFER
BUFFER
BUFFER
75Ω
75Ω
75Ω
LUMA
INA
INB
INC
OUTA
Y
DAC
DAC
DAC
A = 2V/V
V
LPF
OUTB
OUTC
CHROMA
CVBS
C
A = 2V/V
V
LPF
LPF
CVBS
A = 2V/V
V
V
DD
+3.3V
GRAPHICS PROCESSING
UNIT OR
0.1µF
GND
MAX9585
MPEG DECODER
BUFFER
BUFFER
BUFFER
75Ω
75Ω
75Ω
R
G
B
INA
INB
INC
OUTA
R
G
B
DAC
DAC
DAC
A = 2V/V
V
LPF
OUTB
OUTC
A = 2V/V
V
LPF
LPF
A = 2V/V
V
BUFFER
75Ω
IND
OUTD
CVBS
CVBS
DAC
A = 2V/V
V
LPF
_______________________________________________________________________________________
7
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
If the supply voltage is greater than 3.±35V (5% below
Detailed Description
a 3.3V supply), each amplifier can drive two DC-cou-
The MAX9583/MAX9584/MAX9585 filter and amplify the
pled video loads to ground. If the supply is less than
video DAC output in applications such as set-top boxes
3.±35V, each amplifier can drive only one DC-coupled
and televisions. These devices consist of input buffers,
or AC-coupled video load.
lowpass filters, and gain of 2V/V output amplifiers capa-
ble of driving a standard ±5ꢃΩ video load to ground.
Applications Information
Inputs
The video inputs should be directly connected to the
output of the video current DAC. DC coupling ensures
that the input signals are ground referenced so that the
sync tip of composite or luma signals is within 5ꢃmV of
ground and the blank level of the chroma signal is
between ꢃ.5V and ꢃ.65V. Since the input buffers are
identical, any standard-definition video signal can be
applied to those inputs provided the signal is between
Reducing Power Consumption
in the Video DACs
The MAX9583/MAX9584/MAX9585 have high-imped-
ance input buffers that work with source resistances as
high as 3ꢃꢃΩ. To reduce power dissipation in the video
DACs, the DAC output resistor can be scaled up in
value. The reference resistor that sets the reference cur-
rent inside the video DACs must also be similarly scaled
up. For instance, if the output resistor is 3ꢁ.5Ω, the DAC
must source 26.ꢁmA when the output is ±V. If the output
resistor is increased to 3ꢃꢃΩ, then the DAC only needs
to source 3.33mA when the output is ±V.
ground and ±.ꢃ5V when V
= 2.ꢁV. For example,
DD
three composite video signals could be applied to INA,
INꢀ, and INC of the MAX9584. The RGꢀ set or the
YPbPr set can also be inputs to INA, INꢀ, and INC of
the MAX9584.
There is parasitic capacitance from the DAC output to
ground. That capacitance, in parallel with the DAC out-
put resistor, forms a pole that can potentially roll off the
frequency response of the video signal. For example,
3ꢃꢃΩ in parallel with 5ꢃpF create a pole at ±ꢃ.6MꢂH. To
minimiHe this capacitance, reduce the area of the sig-
nal trace attached to the DAC output as much as possi-
ble, and place the MAX9583/MAX9584/MAX9585 as
close as possible to the video DAC outputs.
Video Filter
The filter passband (±±dꢀ) is typically ꢁMꢂH, which
makes the device suitable for standard-definition video
signals from all sources (e.g., broadcast and DVD).
ꢀroadcast video signals are channel limited: NTSC sig-
nals have 4.2MꢂH bandwidth and PAL signals have
5MꢂH bandwidth. Video signals from a DVD player,
however, are not channel limited, so the bandwidth of
DVD video signals can approach the Nyquist limit of
6.ꢁ5MꢂH. (Recommendation ITU-R ꢀT.6ꢃ±-5 specifies
±3.5MꢂH as the sampling rate for standard-definition
video). Therefore, the maximum bandwidth of the signal
is 6.ꢁ5MꢂH. To ease the filtering requirements, most
modern video systems oversample by two times, clock-
ing the video current DAC at 2ꢁMꢂH.
34/MAX985
AC-Coupling the Outputs
The outputs can be AC-coupled since the output stage
can source and sink current as shown in Figure ±.
Coupling capacitors should be 22ꢃµF or greater to
keep the highpass filter, formed by the ±5ꢃΩ equivalent
resistance of the video transmission line, to a corner
frequency of 4.8ꢂH or below. The frame rate of PAL
systems is 25ꢂH, and the frame rate of NTSC systems
is 3ꢃꢂH. The corner frequency should be well below the
frame rate.
Outputs
The video output amplifiers can both source and sink
load current, allowing output loads to be DC- or AC-
coupled. The amplifier output stage needs approxi-
mately 3ꢃꢃmV of headroom from either supply rail. The
devices have an internal level-shift circuit that positions
the sync tip at approximately 3ꢃꢃmV at the output. The
blank level of the chroma output is positioned at
approximately ±.3V if the blank level of the chroma
input signal is ꢃ.5V. The blank level of the chroma out-
put is positioned at approximately ±.5V if the blank level
of the chroma input signal is ꢃ.6V.
Power-Supply Bypassing and Ground
The MAX9583/MAX9584/MAX9585 operate from a single-
supply voltage down to 2.ꢁV, allowing for low-power opera-
to GND with a ꢃ.±µF capacitor. Place all
external components as close as possible to the device.
tion. ꢀypass V
DD
8
_______________________________________________________________________________________
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
V
DD
+3.3V
0.1µF
GRAPHICS PROCESSING
UNIT OR
GND
MPEG DECODER
MAX9585
BUFFER
BUFFER
BUFFER
220µF
75Ω
75Ω
75Ω
R
G
B
INA
INB
INC
OUTA
R
G
B
DAC
DAC
DAC
A = 2V/V
V
LPF
220µF
220µF
220µF
OUTB
OUTC
A = 2V/V
V
LPF
LPF
A = 2V/V
V
BUFFER
75Ω
IND
OUTD
CVBS
CVBS
DAC
A = 2V/V
V
LPF
Figure ±. AC-Coupled Outputs
_______________________________________________________________________________________
9
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
Block Diagrams (continued)
0mV
TO
50mV
300mV
TO 400mV
MAX9583
BUFFER
BUFFER
OUTA
INA
INB
A = 2V/V
V
LPF
OUTB
A = 2V/V
V
LPF
0mV
TO
50mV
300mV
TO 400mV
MAX9585
BUFFER
BUFFER
BUFFER
BUFFER
OUTA
INA
INB
INC
IND
A = 2V/V
V
LPF
34/MAX985
OUTB
A = 2V/V
V
LPF
LPF
LPF
OUTC
OUTD
A = 2V/V
V
A = 2V/V
V
±0 ______________________________________________________________________________________
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
Pin Configurations
TOP VIEW
INA
INB
1
2
3
4
5
+
10
9
V
DD
+
INB
GND
INA
1
2
3
6
5
4
OUTB
+
INA
INB
1
2
3
4
8
7
6
5
V
DD
OUTA
OUTB
OUTC
OUTD
MAX9583
OUTA
OUTB
OUTC
INC
IND
GND
8
V
DD
MAX9585
MAX9584
INC
7
GND
OUTA
6
8 µMAX
±0 µMAX
SOT23
Selector Guide
ꢁART
ꢁIN-ꢁACKAGE
6 Thin SOT23-6
8 µMAX-8
ꢁACKAGE SIZE
2.9mm x ±.6mm
3mm x 3mm
CHANNELS
TOꢁ MARK
ꢁKG CODE
Z6+±
MAX9583AZT+
MAX9584AUA+
MAX9585AUꢀ+
2
3
4
AADJ
—
U8+±
±ꢃ µMAX-±ꢃ
3mm x 3mm
—
U±ꢃ+2
Note: All devices are specified over the -4ꢃ°C to +±25°C operating temperature range.
+Denotes a lead-free package.
Chip Information
PROCESS: ꢀiCMOS
______________________________________________________________________________________ ±±
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
Package Information
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)
34/MAX985
±2 ______________________________________________________________________________________
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
Package Information (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)
______________________________________________________________________________________ ±3
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
Package Information (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)
4X S
8
8
MILLIMETERS
INCHES
DIM MIN
MAX
MAX
MIN
-
-
0.043
0.006
0.037
0.014
0.007
0.120
1.10
0.15
0.95
0.36
0.18
3.05
A
0.002
0.030
0.010
0.005
0.116
0.05
0.75
0.25
0.13
2.95
A1
A2
b
c
D
e
E
H
Ø0.50 0.1
0.0256 BSC
0.65 BSC
0.6 0.1
E
H
L
0.116
0.188
0.016
0°
0.120
2.95
4.78
0.41
0°
3.05
5.03
0.66
6°
0.198
0.026
6°
1
1
α
0.6 0.1
S
0.0207 BSC
0.5250 BSC
BOTTOM VIEW
D
TOP VIEW
A1
A2
A
c
α
34/MAX985
e
L
b
SIDE VIEW
FRONT VIEW
PROPRIETARY INFORMATION
TITLE:
PACKAGE OUTLINE, 8L uMAX/uSOP
APPROVAL
DOCUMENT CONTROL NO.
REV.
1
21-0036
J
1
±4 ______________________________________________________________________________________
Dual, Triple, and Quad Standard-Definition Video
Filter Amplifiers with DC-Coupled Input Buffers
34/MAX985
Package Information (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)
e
4X S
10
10
INCHES
MAX
MILLIMETERS
MAX
1.10
0.15
0.95
3.05
3.00
3.05
3.00
5.05
0.70
DIM MIN
MIN
-
A
-
0.043
0.006
0.037
0.120
0.118
0.120
0.118
0.199
A1
A2
D1
D2
E1
E2
H
L
L1
b
0.002
0.030
0.116
0.114
0.116
0.114
0.187
0.05
0.75
2.95
2.89
2.95
2.89
4.75
0.40
H
Ø0.50 0.1
0.6 0.1
0.0157 0.0275
0.037 REF
0.940 REF
0.007
0.0106
0.177
0.500 BSC
0.090
0.270
0.200
1
1
e
c
S
α
0.0197 BSC
0.0035 0.0078
0.0196 REF
0.6 0.1
BOTTOM VIEW
0.498 REF
TOP VIEW
0°
6°
0°
6°
D2
E2
GAGE PLANE
A2
c
A
E1
b
L
α
A1
D1
L1
FRONT VIEW
SIDE VIEW
PROPRIETARY INFORMATION
TITLE:
PACKAGE OUTLINE, 10L uMAX/uSOP
APPROVAL
DOCUMENT CONTROL NO.
REV.
1
21-0061
1
Revision History
Pages changed at Rev ±: ±, 2, 2ꢃ
Pages changed at Rev 2: ±, 2, 6, ±±–±5 (deleted some
package outlines)
Pages changed at Rev 3: ±, ±5
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ ±5
© 2ꢃꢃꢁ Maxim Integrated Products
is a registered trademark of Maxim Integrated Products, Inc.
ꢂeaney
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