VOUTPUT I
參數(shù)資料
型號: ADV3201ASWZ
廠商: Analog Devices Inc
文件頁數(shù): 26/36頁
文件大小: 0K
描述: IC CROSSPOINT SWIT 32X32 176LQFP
標準包裝: 1
功能: 交叉點開關
電路: 1 x 32:32
電壓電源: 單/雙電源
電壓 - 電源,單路/雙路(±): 5V,±2.5V,±3.3V
電流 - 電源: 260mA
工作溫度: -40°C ~ 85°C
安裝類型: 表面貼裝
封裝/外殼: 176-LQFP 裸露焊盤
供應商設備封裝: 176-LQFP-EP(24x24)
包裝: 托盤
ADV3200/ADV3201
Rev. 0 | Page 32 of 3
6
QNPN
QPNP
VNEG
VPOS
VOUTPUT
IOUTPUT
IOUTPUT, QUIESCENT
07
17
6-
1
11
Figure 105. Simplified Output Stage
Example
For the ADV3200, in an ambient temperature of 85°C, with all
32 outputs driving 1 V rms into 150 Ω loads and power supplies
at ±2.5 V, follow these steps:
1.
Calculate the power dissipation of the ADV3200 using data
sheet quiescent currents. Disregard VDD current, which is
insignificant.
PD,QUIESCENT = (VPOS × IVPOS) + (VNEG × IVNEG)
PD,QUIESCENT = (2.5 V × 250 mA) + (2.5 V × 250 mA) = 1.25 W
2.
Calculate the power dissipation from the loads.
PD,OUTPUT = (VPOS – VOUTPUT,RMS) × IOUTPUT,RMS
PD,OUTPUT = (2.5 V – 1 V) × (1 V/150 Ω) = 10 mW
There are 32 outputs, therefore, 32 output currents.
nPD,OUTPUT = 32 × 10 mW = 0.32 W
3.
Subtract the quiescent output stage current for the number
of loads (32 in this example). The output stage is either
standing or driving a load, but the current needs to be
counted only once (valid for output voltages > 0.5 V).
PDQ,OUTPUT = (VPOS – VNEG) × IOUTPUT,QUIESCENT
PDQ,OUTPUT = (2.5 V – (–2.5 V)) × (0.95 mA) = 4.75 mW
There are 32 outputs, therefore, 32 output currents.
nPDQ,OUTPUT = 32 × 4.75 mW = 0.15 W
4.
Verify that the power dissipation does not exceed the
maximum allowed value.
PD,ON-CHIP = PD,QUIESCENT + nPD,OUTPUT nPDQ,OUTPUT
PD,ON-CHIP = 1.25 W + 0.32 W 0.15 W= 1.42 W
As shown in Figure 104 or Equation 1, this power dissipation is
below the maximum allowed dissipation for all ambient temper-
atures up to and including 85°C.
CROSSTALK
Many systems, such as broadcast video and KVM switches, that
handle numerous analog signal channels have strict require-
ments for keeping the various signals from influencing any of
the others in the system. Crosstalk is the term used to describe
the coupling of the signals of other nearby channels to a given
channel.
When there are many signals in close proximity in a system, as
is undoubtedly the case in a system that uses the ADV3200/
ADV3201, the crosstalk issues can be quite complex. A good
understanding of the nature of crosstalk and some definition of
terms is required in order to specify a system that uses one or
more crosspoint devices.
Types of Crosstalk
Crosstalk can be propagated by any of three means: electric
field, magnetic field, and sharing of common impedances. This
section explains these effects.
Every conductor can be both a radiator of electric fields and a
receiver of electric fields. The electric field crosstalk mechanism
occurs when the electric field created by the transmitter
propagates across a stray capacitance (for example, free space),
couples with the receiver, and induces a voltage. This voltage is
an unwanted crosstalk signal in any channel that receives it.
Currents flowing in conductors create magnetic fields that
circulate around the currents. These magnetic fields then
generate voltages in any other conductors whose paths they
link. The undesired induced voltages in these other channels are
crosstalk signals. The channels with crosstalk can be said to
have a mutual inductance that couples signals from one channel
to another.
The power supplies, grounds, and other signal return paths
of a multichannel system are generally shared by the various
channels. When a current from one channel flows in one of
these paths, a voltage that is developed across the impedance
becomes an input crosstalk signal for other channels that share
the common impedance.
All these sources of crosstalk are vector quantities, so the mag-
nitudes cannot simply be added together to obtain the total
crosstalk. In fact, there are conditions where driving additional
circuits in parallel in a given configuration can actually reduce
the crosstalk.
Areas of Crosstalk
A practical ADV3200/ADV3201 circuit must be mounted to
some sort of circuit board in order to connect it to power
supplies and measurement equipment. Great care has been
taken to create an evaluation board that adds minimum cross-
talk to the intrinsic device. This, however, raises the issue that
the crosstalk of a system is the combination of the intrinsic
crosstalk of the devices and the crosstalk of the circuit board to
which the devices are mounted. It is important to separate these
two areas when attempting to minimize the effect of crosstalk.
In addition, crosstalk can occur among the inputs to a cross-
point switch and among the outputs. It can also occur from
input to output. Techniques are discussed in the following
sections for diagnosing which part of a system is contributing
to crosstalk.
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