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RF5602 Datasheet, PDF (6/27 Pages) RF Micro Devices – 3.0V TO 5.0V, 2.3GHz TO 2.7GHz LINEAR POWER AMPLIFIER
RF5602
Parameter
Power Supply
Operating Voltage
Current Consumption
Power Down Current
Leakage Current
Specification
Min. Typ. Max.
3 to 5
410
600
175
225
400
475
160
210
350
400
150
180
10
0.2
1
VREG Voltage (at Eval Board VREG
2.8
2.9
3
pin)
Thermal Data
Maximum Junction Temperature for
long term reliability, Tj Max
5
10
150
Thermal Resistance, jc
22
Thermal Resistance, j-Ref
ESD
Human Body Model
Charge Device Model
28
500
750
Unit
Condition
V
mA RF POUT = +26dBm and VCC = 5.0V (Over VREG and fre-
quency)
mA Idle Current, No RF and VCC = 5.0V (Over VREG and fre-
quency)
mA RF POUT = +25dBm and VCC = 4.2V (Over VREG and fre-
quency)
mA Idle Current, No RF and VCC = 4.2V (Over VREG and fre-
quency)
mA RF POUT = +23.5dBm and VCC = 3.3V (Over VREG and fre-
quency)
mA Idle Current, No RF and VCC = 3.3V (Over VREG and fre-
quency)
mA PDOWN = Low, VREG = High (ICC + IBIAS + IREG)
mA VREG = PDOWN = 0V, VCC = 3.3V, RF = OFF (ICC + IBIAS +
IREG)
VDC Higher VREG voltage is possible but with adjusting the
series resistors to keep the voltage constant at VREG pin
of the Eval board at R1, R2 and R3
mA I_REG Current
°C
°C/W
°C/W
POUT = 26dBm, Using a standard IEEE802.11g wave-
form, 54Mbps, 64QAM Duty Cycle = 100%, VCC = 5VDc,
VREG = 2.85VDc. TREF = 85°C
POUT = 26dBm, Using a standard IEEE802.11g wave-
form, 54Mbps, 64QAM Duty Cycle = 100%, VCC = 5VDc,
VREG = 2.85VDc, Junction to bottom of QFN package.
TREF = 85°C
POUT = 26dBm, Using a standard IEEE802.11g wave-
form, 54Mbps, 64QAM Duty Cycle = 100%, VCC = 5VDc,
VREG = 2.85VDc, Junction to bottom of PCB. TREF = 85°C
V
V
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DS120213