RF3140PCBA-41X RFMD [RF Micro Devices], RF3140PCBA-41X Datasheet - Page 9

RF3140PCBA-41X

Manufacturer Part Number

RF3140PCBA-41X

Description

QUAD-BAND GSM850/GSM900/DCS/PCS POWER AMP MODULE

Manufacturer

RFMD [RF Micro Devices]

Datasheet

1.RF3140PCBA-41X.pdf (16 pages)

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Overview

The RF3140 is a quad-band GSM850, EGSM900, DCS1800, and PCS1900 power amplifier module that incorporates an

indirect closed loop method of power control. This simplifies the phone design by eliminating the need for the compli-

cated control loop design. The indirect closed loop appears as an open loop to the user and can be driven directly from

the DAC output in the baseband circuit.

Theory of Operation

The indirect closed loop is essentially a closed loop method of power control that is invisible to the user. Most power con-

trol systems in GSM sense either forward power or collector/drain current. The RF3140 does not use a power detector. A

high-speed control loop is incorporated to regulate the collector voltage of the amplifier while the stage are held at a con-

stant bias. The V

regulated to the multiplied V

By regulating the power, the stages are held in saturation across all power levels. As the required output power is

decreased from full power down to 0dBm, the collector voltage is also decreased. This regulation of output power is

demonstrated in Equation 1 where the relationship between collector voltage and output power is shown. Although load

impedance affects output power, supply fluctuations are the dominate mode of power variations. With the RF3140 regu-

lating collector voltage, the dominant mode of power fluctuations is eliminated.

There are several key factors to consider in the implementation of a transmitter solution for a mobile phone. Some of

them are:

• Effective efficiency (η

• Current draw and system efficiency

• Power variation due to Supply Voltage

• Power variation due to frequency

• Power variation due to temperature

• Input impedance variation

• Noise power

• Loop stability

• Loop bandwidth variations across power levels

• Burst timing and transient spectrum trade offs

• Harmonics

Rev A9 060217

dBm

⋅

log

RAMP

(

-------------------------------------------

8 R

2 V

⋅

signal is multiplied by a factor of 2.65 and the collector voltage for the second and third stages are

eff

LOAD

)

RAMP

–

⋅

SAT

voltage. The basic circuit is shown in the following diagram.

3 –

)

Theory of Operation

TX ENABLE

VRAMP

RF IN

H(s)

VBATT

RF OUT

RF3140

(Eq. 1)

2-499

RF3140PCBA-41X RFMD [RF Micro Devices], RF3140PCBA-41X Datasheet - Page 9

RF3140PCBA-41X

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