2227CS View Datasheet(PDF) - Intersil
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2227CS Datasheet PDF : 14 Pages
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EL2227
Applications Information
Product Description
The EL2227 is a dual voltage feedback operational amplifier
designed especially for DMT ADSL and other applications
requiring very low voltage and current noise. It also features
low distortion while drawing moderately low supply current
and is built on Elantec's proprietary high-speed
complementary bipolar process. The EL2227 use a classical
voltage-feedback topology which allows them to be used in a
variety of applications where current-feedback amplifiers are
not appropriate because of restrictions placed upon the
feedback element used with the amplifier. The conventional
topology of the EL2227 allows, for example, a capacitor to
be placed in the feedback path, making it an excellent choice
for applications such as active filters, sample-and-holds, or
integrators.
ADSL CPE Applications
The low noise EL2227 amplifier is specifically designed for
the dual differential receiver amplifier function with ADSL
transceiver hybrids as well as other low-noise amplifier
applications. A typical ADSL CPE line interface circuit is
shown in Figure 38. The EL2227 is used in receiving DMT
down stream signal. With careful transceiver hybrid design
and the EL2227 1.9nV/√Hz voltage noise and 1.2pA/√Hz
current noise performance, -140dBm/Hz system background
noise performance can be easily achieved.
DRIVER
INPUT
+
-
RF
ROUT
LINE +
RG
RF
-
+
ROUT
ZLINE
LINE -
RF
R
RECEIVE
OUT +
-
RIN
+
RECEIVE
AMPLIFIERS +
R
-
RECEIVE
RF RIN
OUT -
FIGURE 38. TYPICAL LINE INTERFACE CONNECTION
Disable Function
The EL2227 is in the standard dual amplifier package
without the enable/disable function. A simple way to
implement the enable/disable function is depicted below.
When disabled, both the positive and negative supply
voltages are disconnected (see Figure 39)
+12V
1k
10k
10k
1k
+
-
1k
75k
1µF
1µF
4.7µF
FIGURE 39.
Power Dissipation
With the wide power supply range and large output drive
capability of the EL2227, it is possible to exceed the +150°C
maximum junction temperatures under certain load and
power-supply conditions. It is therefore important to calculate
the maximum junction temperature (TJMAX) for all
applications to determine if power supply voltages, load
conditions, or package type need to be modified for the
EL2227 to remain in the safe operating area. These
parameters are related as follows:
TJMAX = TMAX + (θJA × PDMAXTOTAL)
(EQ. 1)
where:
PDMAXTOTAL is the sum of the maximum power
dissipation of each amplifier in the package (PDMAX)
PDMAX for each amplifier can be calculated as follows:
PDMAX
=
2 × VS × ISMAX + (VS
–
VOUTMAX
)
×
-V----O----U----T----M-----A----X--
RL (EQ.
2)
where:
TMAX = Maximum Ambient Temperature
θJA = Thermal Resistance of the Package
PDMAX = Maximum Power Dissipation of 1 Amplifier
VS = Supply Voltage
IMAX = Maximum Supply Current of 1 Amplifier
VOUTMAX = Maximum Output Voltage Swing of the
Application
RL = Load Resistance
To serve as a guide for the user, we can calculate maximum
allowable supply voltages for the example of the video
cable-driver below since we know that TJMAX = +150°C,
TMAX = +75°C, ISMAX = 9.5mA, and the package θJAs are
shown in Table 1. If we assume (for this example) that we
are driving a back-terminated video cable, then the
11
FN7058.3
May 1, 2007
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