el5175 Intersil Corporation, el5175 Datasheet - Page 12
el5175
Manufacturer Part Number
el5175
Description
550mhz Differential Line Receivers
Manufacturer
Intersil Corporation
Datasheet
1.EL5175.pdf
(16 pages)
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120µA for I
power consumption. The amplifier's power down can be
controlled by standard CMOS signal levels at the ENABLE
pin. The applied logic signal is relative to V
EN pin float or applying a signal that is less than 1.5V below
V
when the signal at EN pin is above V
signal is used to control the enabled/disabled function,
Figure 22 could be used to convert the TTL signal to CMOS
signal.
Output Drive Capability
The EL5175 and EL5375 have internal short circuit
protection. Its typical short circuit current is ±67mA. If the
output is shorted indefinitely, the power dissipation could
easily increase such that the part will be destroyed.
Maximum reliability is maintained if the output current never
exceeds ±60mA. This limit is set by the design of the internal
metal interconnections.
Power Dissipation
With the high output drive capability of the EL5175 and
EL5375. It is possible to exceed the 135°C absolute
maximum junction temperature under certain load current
conditions. Therefore, it is important to calculate the
maximum junction temperature for the application to
determine if the load conditions or package types need to be
modified for the amplifier to remain in the safe operating
area.
The maximum power dissipation allowed in a package is
determined according to:
• T
• T
• θ
Assume the REF pin is tired to GND for V
application, the maximum power dissipation actually
produced by an IC is the total quiescent supply current times
the total power supply voltage, plus the power in the IC due
to the load, or:
PD
S
+ will enable the amplifier. The amplifier will be disabled
MAX
AMAX
JA
JMAX
= Thermal resistance of the package
=
= Maximum junction temperature
= Maximum ambient temperature
T
-------------------------------------------- -
S
JMAX
- typically, thereby effectively eliminating the
CMOS/TTL
Θ
–
JA
T
AMAX
FIGURE 24.
1K
12
10K
5V
S
+ - 0.5V. If a TTL
EN
S
S
+ pin. Letting the
= ±5V
EL5175, EL5375
For sourcing:
PD
For sinking:
PD
Where:
• V
• I
• V
• R
• I
• i = Number of channels
By setting the two PD
can solve the output current and R
overheat.
Power Supply Bypassing and Printed Circuit
Board Layout
As with any high frequency device, a good printed circuit
board layout is necessary for optimum performance. Lead
lengths should be as sort as possible. The power supply pin
must be well bypassed to reduce the risk of oscillation. For
normal single supply operation, where the V
connected to the ground plane, a single 4.7µF tantalum
capacitor in parallel with a 0.1µF ceramic capacitor from V
to GND will suffice. This same capacitor combination should
be placed at each supply pin to ground if split supplies are to
be used. In this case, the V
supply rail.
For good AC performance, parasitic capacitance should be
kept to minimum. Use of wire wound resistors should be
avoided because of their additional series inductance. Use
of sockets should also be avoided if possible. Sockets add
parasitic inductance and capacitance that can result in
compromised performance. Minimizing parasitic capacitance
at the amplifier's inverting input pin is very important. The
feedback resistor should be placed very close to the
inverting input pin. Strip line design techniques are
recommended for the signal traces.
MAX
MAX
SMAX
LOAD
S
OUT
LOAD
= Total supply voltage
=
=
= Maximum output voltage of the application
= Load current
= Maximum quiescent supply current per channel
= Load resistance
[
V
V
S
S
×
×
I
I
SMAX
SMAX
MAX
+
+
(
(
V
V
S
OUT
equations equal to each other, we
S
+
- pin becomes the negative
–
–
V
OUT
V
S
LOAD
- )
)
×
×
I
------------------- -
R
LOAD
V
to avoid the device
LOAD
OUT
S
]
- pin is
i ×
i ×
FN7306.6
S
+
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