RF5603 Datasheet, PDF(3/24 Page) RF Micro Devices – 3.0V TO 5.0V, 3.3GHz TO 3.8GHz LINEAR POWER AMPLIFIER

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RF5603 Datasheet, PDF (3/24 Pages) RF Micro Devices – 3.0V TO 5.0V, 3.3GHz TO 3.8GHz LINEAR POWER AMPLIFIER

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RF5603

Parameter

Compliance WiMAX

IEEE802.6e, cont.

Current

Operating

Quiescent

IREG

Leakage

Gain

Gain Variation Over Temperature

Low Gain Mode (Gain Reduction)

Specification

Min. Typ. Max.

580

700

370

420

0.5

Â±2.5

Power Detector

Input Return Loss

Output P1dB

Turn-On Time from Setting of VREG

Thermal Data

Maximum Junction Temperature

for long term reliability, TJ Max

Thermal Resistance, QJC

Thermal Resistance, QJ-Ref

Human Body Model

Charge Device Model

-15

0.5

150

23.7

29.7

-10

500

1000

Unit

Condition

Nominal Condition T=25 Â°C, VCC=5.0V, VREG=2.85V,

Freq=Full frequency range and duty cycle=37.09%

unless otherwise specified.

Â±dB

dBm

ïs

At POUT=26dBm, VCC=5.0V, across VREG 2.75V to

2.95 V

VCC=5.0V, VREG=2.85V, RF=Off

Across all conditions

VCC=5.0V, VREG=0V, RF=Off

At Rated Output Power, across VREG 2.75V to 2.95V

-40Â°C to +85Â°C

At VCC=5.0V, VREG 1 and 3=2.85V, VREG2=Low and

Temp=25Â°C (In this mode the gain of the power ampli-

fier drops by TBD typical from its original gain)

Useable power detection range

With CW signal at VCC=5.0V

Output stable to within 90% of final gain

Â°C

POUT=26dBm, VCC=5VDC, VREG=2.85VDC, TREF = 85Â°C

Â°C/W

POUT=26dBm, VCC=5VDC, VREG=2.85VDC, Junction to

bottom of QFN package. TREF = 85Â°C

POUT=26dBm, VCC=5VDC, VREG=2.85VDC, Junction to

bottom of PCB. TREF = 85Â°C

POUT=26dBm, VCC=5VDC, VREG=2.85VDC, Junction to

bottom of PCB. TREF = 85Â°C

POUT=26dBm, VCC=5VDC, VREG=2.85VDC, Junction to

bottom of PCB. TREF = 85Â°C

DS120213

7628 Thorndike Road, Greensboro, NC 27409-9421 Â· For sales or technical

support, contact RFMD at (+1) 336-678-5570 or sales-support@rfmd.com.

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