AD9884AKS-140 Analog Devices Inc, AD9884AKS-140 Datasheet - Page 22
AD9884AKS-140
Manufacturer Part Number
AD9884AKS-140
Description
IC ANALOG INTRFC 140MSPS 128MQFP
Manufacturer
Analog Devices Inc
Datasheet
1.AD9884AKSZ-100.pdf
(24 pages)
Specifications of AD9884AKS-140
Rohs Status
RoHS non-compliant
Display Type
LCD
Interface
Analog
Current - Supply
135mA
Voltage - Supply
3 V ~ 3.6 V
Operating Temperature
-20°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
128-MQFP, 128-PQFP
Configuration
-
Digits Or Characters
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD9884AKS-140
Manufacturer:
ADI/亚德诺
Quantity:
20 000
AD9884A
PCB LAYOUT RECOMMENDATIONS
The AD9884A is a high precision, high speed analog device. As
such, to get the maximum performance out of the part it is
important to have a well laid-out board.
Inputs
Using the following layout techniques on the graphics inputs is
extremely important:
Minimize the trace length running into the graphics inputs. This
is accomplished by placing the AD9884A as close as possible to
the input connector. Long input trace lengths are undesirable
because they will pick up more noise from the board and other
external sources.
Place the 75 Ω termination resistors as close to the AD9884A as
possible. Any additional trace length between the termination
resistors and the input of the AD9884A increases the magnitude
of reflections, which will corrupt the graphics signal.
Use 75 Ω matched impedance traces. Trace impedances other
than 75 Ω will also increase the magnitude of reflections.
The AD9884A has very high input bandwidth (500 MHz). While
this is desirable for acquiring a high resolution PC graphics
signal with fast edges, it means that it will also capture any high
frequency noise present. Therefore, it is important to reduce the
amount of noise that gets coupled to the inputs. Avoid running
any digital traces near the analog inputs.
Due to the high bandwidth of the AD9884A, sometimes low-
pass filtering the analog inputs can help to reduce noise. (For
many applications, filtering is unnecessary.) Our experiments
have shown that placing a series ferrite bead prior to the 75 Ω
termination resistor is helpful in filtering out excess noise. Spe-
cifically, we used the Part #2508051217Z0 from Fair-Rite, but
each application may work best with a different bead value.
DATACK
Figure 26. Dual Channel Mode, Parallel Outputs, Alternate Pixel Sampling (Odd Pixels)
ADCCK
DOUTA
DOUTB
HSYNC
HSOUT
RGBIN P0 P1 P2 P3 P4 P5
PXCK
HS
6.5 PIPE DELAY
P6
P7
–22–
Power Supply Bypassing
We recommend you bypass each power supply pin with a 0.1 µF
capacitor. The exception is in the case where two or more sup-
ply pins are adjacent. For these groupings of powers/grounds, it
is only necessary to have one bypass capacitor. The fundamental
idea is to have a bypass capacitor within about 0.5 cm of each
power pin. Also, avoid placing the capacitor on the opposite side
of the PC board from the AD9884A, as that interposes resistive
vias in the path.
The bypass capacitors should be connected between the power
plane and the power pin. Current should flow from the power
plane ¡ capacitor ¡ power pin. Do not make the power connec-
tion between the capacitor and the power pin. Placing a via
underneath the capacitor pads, down to the power plane, is
generally the best approach.
It is particularly important to maintain low noise and good
stability of PV
PV
phase and frequency. This can be avoided by careful attention
to regulation, filtering, and bypassing. It is highly desirable to
provide a separately regulated supply for the analog circuitry
(V
Some graphic controllers use substantially different levels of
power when active (during active picture time) and when idle
(during Horizontal and Vertical sync periods). This can result in
a measurable change in the voltage supplied to the analog supply
regulator, which can in turn produce changes in the regulated
analog voltage. This can be mitigated by regulating the analog
supply, or at least P
(for example, from a 12 V supply).
We also recommend that you use a single ground plane for the
entire board. Experience has repeatedly shown that the noise
performance is better, or at least the same, with a single ground
plane. Using multiple ground planes can be detrimental because
each separate ground plane is smaller, and long ground loops
can result.
D
D
and P
D1
D3
can result in similarly abrupt changes in sampling clock
VD
).
D
D5
D7
(the clock generator supply). Abrupt changes in
VD
, from a different, cleaner, power source
REV. C
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