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RF5602 Datasheet, PDF (5/27 Pages) RF Micro Devices – 3.0V TO 5.0V, 2.3GHz TO 2.7GHz LINEAR POWER AMPLIFIER
RF5602
Parameter
Power Supply, cont.
Power Down Current
Leakage Current
VREG1, 2, 3 Voltage
WiBro IEEE 802.16e
Frequency Range
Compliance
Output Power
EVM
Output Power
EVM
Output Power
EVM
Gain
Gain variation over temperature
Power Detector
Low Gain Mode (Gain Reduction)
Input Impedance
Output P1dB
Power Down
PA is OFF
PA is ON
Specification
Unit
Min. Typ. Max.
Condition
2.8
2300
26
25
23.5
32
32
32
-2
+10
1.75
0.2
2.9
5
26.5
2
25.5
2
24
3
34
34
34
33
50
33
32
30.5
2.9
10
1
3.0
10
2400
3
3
4
2
+29
0.6
5.0
mA
mA
VDC
mA
MHz
dBm
%
dBm
%
dBm
%
dB
dB
dB
±dB
dB

dBm
dBm
dBm
PDOWN = Low, VREG = High (ICC + IBIAS + IREG)
VREG = PDOWN = 0V, VCC = 3.3V, RF = OFF (ICC + IBIAS +
IREG)
Higher VREG voltage is possible but with adjusting the
series resistors to keep the voltage constant at the pins.
I_REG Current
Nominal Condition T = 25°C, VCC = 3.3V, 4.2V, 5.0V,
VREG = 2.9V, Freq = 2350MHz, Duty Cycle 1 to 100%
unless otherwise noted
IEEE 802.16e
Measured standard IEEE 802.16e waveform (16QAM,
10MHz BW), VCC = 5.0V
RMS, Mean (Over VREG and frequency)
Measured standard IEEE 802.16e waveform (16QAM,
10MHz BW), VCC = 4.2V
RMS, Mean (Over VREG and frequency)
Measured standard IEEE 802.16e waveform (16QAM,
10MHz BW), VCC = 3.3V
RMS, Mean (Over VREG and frequency)
At nominal condition and VCC = 5.0V
At nominal condition and VCC = 4.2V
At nominal condition and VCC = 3.3V
-40°C to +85°C
Power detector usable range
At VCC = 5.0V, VREG 1 and 3 = 2.9V,
VREG 2 = Low, and Temp = 25°C (In this mode, the gain
of the power amplifier drops by 33dB typical from its orig-
inal gain)
Input matched to 50
At nominal conditions with CW Signal and VCC = 5.0V
At nominal conditions with CW Signal and VCC = 4.2V
At nominal conditions with CW Signal and VCC = 3.3V
VCC
VDC
DS120213
7628 Thorndike Road, Greensboro, NC 27409-9421 · For sales or technical
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