參數(shù)資料
型號: AD9984AKCPZ-170
廠商: Analog Devices Inc
文件頁數(shù): 35/44頁
文件大小: 0K
描述: IC DISPLAY 10BIT 170MSPS 64LFCSP
標(biāo)準(zhǔn)包裝: 1
類型: 接口
應(yīng)用: 顯示器,處理,電視
安裝類型: 表面貼裝
封裝/外殼: 64-VFQFN 裸露焊盤,CSP
供應(yīng)商設(shè)備封裝: 64-LFCSP-VQ(9x9)
包裝: 托盤
AD9984A
Rev. 0 | Page 40 of 44
PCB LAYOUT RECOMMENDATIONS
The AD9984A is a high precision, high speed, analog device. To
achieve the maximum performance from the part, it is important
to have a well laid-out board. The section provides a guide for
designing a board using the AD9984A.
ANALOG INTERFACE INPUTS
Use the following layout techniques on the graphics inputs:
Minimize the trace length running into the graphics
inputs. This is accomplished by placing the AD9984A as
close as possible to the graphics VGA connector. Long
input trace lengths are undesirable because they pick up
noise from the board and other external sources.
Place the 75 Ω termination resistors (see Figure 4) as close
as possible to the AD9984A chip. Any additional trace
length between the termination resistors and the input of
the AD9984A increases the magnitude of reflections,
which corrupts the graphics signal.
Use 75 Ω matched impedance traces. Trace impedances
other than 75 Ω also increase the chance of reflections.
The AD9984A has a very high input bandwidth (300 MHz).
While desirable for acquiring a high resolution PC graphics
signal with fast edges, it also means that it captures any
high frequency noise. Therefore, it is important to reduce
the amount of noise that is coupled to the inputs. Avoid
running any digital traces near the analog inputs.
Due to the high bandwidth of the AD9984A, using a low-
pass filter with the analog inputs can help to reduce noise.
(for many applications, filtering is unnecessary.) Experiments
have shown that placing a ferrite bead (specifically, the
Fair-Rite 2508051217Z0) in series prior to the 75 Ω
termination resistor is helpful in filtering excess noise.
However, an application could work best with a different
bead value. Alternatively, placing a 100 Ω to 120 Ω resistor
between the 75 Ω termination resistor and the input
coupling capacitor is beneficial.
Power Supply Bypassing
It is recommended to bypass each power supply pin with a
0.1 μF capacitor. An exception is when two or more supply pins
are adjacent to each other. For these groupings of powers/grounds,
idea is to have a bypass capacitor within ~0.5 cm of each power
pin. Also, avoid placing the capacitor on the opposite side of the
PC board from the AD9984A, because doing so interposes
resistive vias in the path.
The bypass capacitors should be physically located between the
power plane and the power pin. Current should flow from the
power plane to the capacitor to the power pin. Do not make the
power connection 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 the PVD (the clock generator supply). Abrupt changes in PVD can
result in similar changes in sampling clock phase and frequency.
This can be avoided by paying careful attention to regulation,
filtering, and bypassing. It is desirable to provide separate regulated
supplies for each of the analog circuitry groups (VD and PVD).
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 supply voltage. This can be mitigated by
regulating the analog supply, or at least PVD, from a different,
cleaner, power source (for example, from a 12 V supply).
It is also recommended to use a single ground plane for the
entire board. Experience has repeatedly shown that noise
performance is the same or better 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.
In some cases, using separate ground planes is unavoidable. For
these cases, place at least a single ground plane under the part.
The location of the split should be at the receiver of the digital
outputs. In this case, it is even more important to place components
wisely because the current loops become much longer (current
takes the path of least resistance). An example of a current loop
is power plane to AD9984A to digital output trace, to digital
data receiver, to digital ground plane, to analog ground plane.
PLL
Place the PLL loop filter components as close to the FILT pin as
possible. Do not place any digital or other high frequency traces
near these components. Use the values suggested in the data
sheet with 10% tolerances or less.
OUTPUTS (BOTH DATA AND CLOCKS)
Try to minimize the trace length that the digital outputs have to
drive. Longer traces have higher capacitance and require more
instantaneous current to drive, which creates more internal
digital noise. Shorter traces reduce the possibility of reflections.
Adding a series resistor of 50 Ω to 200 Ω can suppress reflections,
reduce EMI, and reduce the current spikes inside of the AD9984A.
If series resistors are used, place them as close to the AD9984A
pins as possible (although try not to add vias or extra length to
the output trace to get the resistors closer).
If possible, limit the capacitance driven by each digital output to
less than 10 pF. This is easily accomplished by keeping traces
short and connecting the outputs to only one device. Loading
the outputs with excessive capacitance increases the current
transients inside of the AD9984A and creates more digital noise
on its power supplies.
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