參數(shù)資料
型號: AD8108
廠商: Analog Devices, Inc.
英文描述: ECONOLINE: REC2.2-S_DR/H1 - 2.2W DIP Package- 1kVDC Isolation- Regulated Output- UL94V-0 Package Material- Continuous Short Circiut Protection- Internal SMD design- 100% Burned In- Efficiency to 75%
中文描述: 325兆赫,8 × 8的緩沖視頻交叉點開關(guān)
文件頁數(shù): 19/28頁
文件大?。?/td> 434K
代理商: AD8108
AD8108/AD8109
–19–
REV. 0
where
s
= j
ω
is the Laplace transform variable,
Asel
(
s
) is the
amplitude of the crosstalk-induced signal in the selected channel
and
Atest
(
s
) is the amplitude of the test signal. It can be seen
that crosstalk is a function of frequency, but not a function of
the magnitude of the test signal (to first order). In addition, the
crosstalk signal will have a phase relative to the test signal asso-
ciated with it.
A network analyzer is most commonly used to measure crosstalk
over a frequency range of interest. It can provide both magni-
tude and phase information about the crosstalk signal.
As a crosspoint system or device grows larger, the number of
theoretical crosstalk combinations and permutations can be-
come extremely large. For example, in the case of the 8
×
8
matrix of the AD8108/AD8109, we can examine the number of
crosstalk terms that can be considered for a single channel,
say IN00 input. IN00 is programmed to connect to one of the
AD8108/AD8109 outputs where the measurement can be made.
We can first measure the crosstalk terms associated with driving
a test signal into each of the other seven inputs one at a time.
We can then measure the crosstalk terms associated with driving
a parallel test signal into all seven other inputs taken two at a
time in all possible combinations; and then three at a time, etc.,
until, finally, there is only one way to drive a test signal into all
seven other inputs.
Each of these cases is legitimately different from the others and
might yield a unique value depending on the resolution of the
measurement system, but it is hardly practical to measure all
these terms and then to specify them. In addition, this describes
the crosstalk matrix for just one input channel. A similar
crosstalk matrix can be proposed for every other input. In addi-
tion, if the possible combinations and permutations for connect-
ing inputs to the other (not used for measurement) outputs are
taken into consideration, the numbers rather quickly grow to
astronomical proportions. If a larger crosspoint array of multiple
AD8108/AD8109s is constructed, the numbers grow larger still.
Obviously, some subset of all these cases must be selected to be
used as a guide for a practical measure of crosstalk. One com-
mon method is to measure “all hostile” crosstalk. T his term
means that the crosstalk to the selected channel is measured,
while all other system channels are driven in parallel. In general,
this will yield the worst crosstalk number, but this is not always
the case due to the vector nature of the crosstalk signal.
Other useful crosstalk measurements are those created by one
nearest neighbor or by the two nearest neighbors on either side.
T hese crosstalk measurements will generally be higher than
those of more distant channels, so they can serve as a worst case
measure for any other one-channel or two-channel crosstalk
measurements.
Input and Output Crosstalk
T he flexible programming capability of the AD8108/AD8109
can be used to diagnose whether crosstalk is occurring more on
the input side or the output side. Some examples are illustra-
tive. A given input channel (IN03 in the middle for this ex-
ample) can be programmed to drive OUT 03. T he input to IN03
is just terminated to ground (via 50
or 75
) and no signal is
applied.
All the other inputs are driven in parallel with the same test
signal (practically provided by a distribution amplifier), with all
other outputs except OUT 03 disabled. Since grounded IN03
is programmed to drive OUT 03, there should be no signal
present. Any signal that is present can be attributed to the other
seven hostile input signals, because no other outputs are driven
(they are all disabled). T hus, this method measures the all-
hostile input contribution to crosstalk into IN03. Of course, the
method can be used for other input channels and combinations
of hostile inputs.
For output crosstalk measurement, a single input channel is
driven (IN00 for example) and all outputs other than a given
output (IN03 in the middle) are programmed to connect to
IN00. OUT 03 is programmed to connect to IN07 (far away
from IN00), which is terminated to ground. T hus OUT 03
should not have a signal present since it is listening to a quiet
input. Any signal measured at the OUT 03 can be attributed to
the output crosstalk of the other seven hostile outputs. Again,
this method can be modified to measure other channels and
other crosspoint matrix combinations.
E ffect of Impedances on Crosstalk
T he input side crosstalk can be influenced by the output imped-
ance of the sources that drive the inputs. T he lower the im-
pedance of the drive source, the lower the magnitude of the
crosstalk. T he dominant crosstalk mechanism on the input side
is capacitive coupling. T he high impedance inputs do not have
significant current flow to create magnetically induced crosstalk.
However, significant current can flow through the input termi-
nation resistors and the loops that drive them. T hus, the PC
board on the input side can contribute to magnetically coupled
crosstalk.
From a circuit standpoint, the input crosstalk mechanism looks
like a capacitor coupling to a resistive load. For low frequencies
the magnitude of the crosstalk will be given by:
|
X T
| = 20 log
10
[(
R
S
C
M
)
×
s
]
where
R
S
is the source resistance,
C
M
is the mutual capacitance
between the test signal circuit and the selected circuit, and
s
is
the Laplace transform variable.
From the equation it can be observed that this crosstalk mecha-
nism has a high pass nature; it can also be minimized by reduc-
ing the coupling capacitance of the input circuits and lowering
the output impedance of the drivers. If the input is driven from
a 75
terminated cable, the input crosstalk can be reduced by
buffering this signal with a low output impedance buffer.
On the output side, the crosstalk can be reduced by driving a
lighter load. Although the AD8108/AD8109 is specified with
excellent differential gain and phase when driving a standard
150
video load, the crosstalk will be higher than the minimum
obtainable due to the high output currents. T hese currents will
induce crosstalk via the mutual inductance of the output pins
and bond wires of the AD8108/AD8109.
相關(guān)PDF資料
PDF描述
AD8108-EB ECONOLINE: REC2.2-S_DRW(Z)/H* - 2.2W DIP Package- 1kVDC Isolation- Regulated Output- 4.5-9V, 9-18V, 18-36V, 36-72V Wide Input Range 2 : 1- UL94V-0 Package Material- Continuous Short Circiut Protection- Cost Effective- 100% Burned In- Efficiency to 84%
AD8108AST 325 MHz, 8 x 8 Buffered Video Crosspoint Switches
AD8109 325 MHz, 8 x 8 Buffered Video Crosspoint Switches
AD8109AST ECONOLINE: REC2.2-S_DRW(Z)/H* - 2.2W DIP Package- 1kVDC Isolation- Regulated Output- 4.5-9V, 9-18V, 18-36V, 36-72V Wide Input Range 2 : 1- UL94V-0 Package Material- Continuous Short Circiut Protection- Cost Effective- 100% Burned In- Efficiency to 84%
AD8109* 325 MHz. 8 3 8 Buffered Video Crosspoint Switches
相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
AD8108_05 制造商:AD 制造商全稱:Analog Devices 功能描述:325 MHz, 8 ?? 8 Buffered Video Crosspoint Switches
AD8108AST 制造商:Analog Devices 功能描述:Analog Video Crosspoint 325MHz 8 x 8 80-Pin LQFP 制造商:Rochester Electronics LLC 功能描述:TQFP 250MHZ 8X8 G=+1 BUF VID XPOINT SW. - Tape and Reel 制造商:Analog Devices 功能描述:SWITCH CROSSPOINT 8X8 SMD 8108
AD8108ASTZ 功能描述:IC VIDEO CROSSPOINT SWIT 80LQFP RoHS:是 類別:集成電路 (IC) >> 接口 - 模擬開關(guān),多路復(fù)用器,多路分解器 系列:- 其它有關(guān)文件:STG4159 View All Specifications 標(biāo)準(zhǔn)包裝:5,000 系列:- 功能:開關(guān) 電路:1 x SPDT 導(dǎo)通狀態(tài)電阻:300 毫歐 電壓電源:雙電源 電壓 - 電源,單路/雙路(±):±1.65 V ~ 4.8 V 電流 - 電源:50nA 工作溫度:-40°C ~ 85°C 安裝類型:表面貼裝 封裝/外殼:7-WFBGA,F(xiàn)CBGA 供應(yīng)商設(shè)備封裝:7-覆晶 包裝:帶卷 (TR)
AD8108ASTZ 制造商:Analog Devices 功能描述:IC SWITCH VIDEO
AD8108ASTZ2 制造商:AD 制造商全稱:Analog Devices 功能描述:325 MHz, 8 ?? 8 Buffered Video Crosspoint Switches
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