RF2114 查看數據表(PDF) - RF Micro Devices
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RF2114 Datasheet PDF : 6 Pages
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RF2114
Pin Function Description
Interface Schematic
1
RF1 IN
RF input pin. This pin is internally connected to the bias circuits. An
external DC blocking capacitor is required. The value of this capacitor
depends on the actual operating frequency.
2
GND
Ground connection. Keep the connection to the backside ground plane
as short as possible, by placing the vias close to the pin.
3
GND
Same as pin 2.
4
PD
Power down control voltage. When this pin is at 0V, the device will be in
2
power down mode, dissipating minimum DC power. When this pin is at
VCC (but not higher than 5.0V max), the device will be in full power
mode delivering maximum gain and output power capability. This pin
may also be used to perform some degree of gain control or power con-
trol when set to voltages between 0V and VCC or 5.0V, whichever is the
lowest. It is not optimized for this function so the transfer function is not
linear over a wide range as with other devices specifically designed for
analog gain control. However, it may be usable for coarse adjustment or
in some closed loop AGC systems. This pin should not, in any circum-
stance, be higher in voltage than VCC. This pin should also have an
external bypassing capacitor.
5
RF2 IN
RF input of the power stage. This pin is internally connected to the bias
circuits. An external DC blocking capacitor is required. This same
capacitor can also be used for interstage matching. Typically this
capacitor is between RF2 IN (pin 5) and RF1 OUT (pin 6); see the
application schematics for details.
6
RF1 OUT RF output of the pre-amplifier. Power supply needs to be supplied to
this pin through an inductor to VCC. Together with the series capacitor
between pin 5 and 6 the interstage matching circuit is formed. See the
application schematics for values for different frequencies.
7
VCC1
Positive supply for the active bias circuits. This needs to be bypassed
with a single capacitor, placed as close as possible to the package.
Additional bypassing of 1µF is also recommended, but proximity to the
package is not as critical.
8
RF2 OUT Amplifier RF output. This is an unmatched collector output of the final
amplifier transistor. Pins 8, 9, 13, and 14 are connected internally. Bias
for the final power amplifier output transistor must also be provided
through one of these two pins. Typically, pins 8 and 9 are connected to
a network that provides the DC bias and also creates a second har-
monic trap. A capacitor series resonates with internal bond wires and
some additional series inductance, and acts as a trap at two times the
operating frequency, effectively shorting out the second harmonic.
Shorting out this harmonic serves to increase the amplifier’s maximum
output power and efficiency, as well as to lower the level of the second
harmonic output. Typically, pins 13 and 14 are externally connected
very close to the package and used as the RF output with a matching
network that presents the optimum load impedance to the PA for maxi-
mum power and efficiency, as well as providing DC blocking at the out-
put.
9
RF2 OUT Same as pin 8.
10
GND
Same as pin 2.
11
GND
Same as pin 2.
12
GND
Same as pin 2.
13
RF2 OUT Same as pin 8.
14
RF2 OUT Same as pin 8.
Rev A5 001222
2-35
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