RF5189_1 Datasheet, PDF(5/12 Page) RF Micro Devices – 3V, 2.45GHz LINEAR POWER AMPLIFIER

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RF5189_1 Datasheet, PDF (5/12 Pages) RF Micro Devices – 3V, 2.45GHz LINEAR POWER AMPLIFIER

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RF5189

Theory of Operation

The RF5189 is a two-stage device with a nominal gain of 25dB in the 2.4GHz to 2.5GHz ISM band. The RF5189 is designed

primarily for IEEE802.11B WLAN applications where the available supply voltage and current are limited. This amplifier will

operate to (and below) the lowest expected voltage made available by a typical PCMCIA slot in a laptop PC, and will maintain

required linearity at decreased supply voltages.

The RF5189 requires only a single positive supply of 3.0V nominal (or greater) to operate to full specifications. Power control is

provided through two bias control input pins (VREG1 and VREG2), but in most applications these are tied together and used as

a single control input.

There is no external matching required on the input and output of the part, thus allowing minimal bill of material (BOM) parts

count in end applications. Both the input and the output of the device are DC-blocked.

For best results, the PA circuit layout from the evaluation board should be copied as closely as possible, particularly the ground

layout and ground vias. Other configurations may also work, but the design process is much easier and quicker if the layout is

copied from the RF5189 evaluation board. Gerber files of our designs are available on request.

The RF5189 is not a difficult part to implement, but care in circuit layout and component selection is always advisable when

designing circuits to operate at 2.5GHz. The choke inductors on VCC2 and BIAS2GND should be chosen so that they are paral-

lel self-resonant at the frequency of operation. In addition, the supply side of the choke inductor on VCC2 should be bypassed

with a capacitor that is series self-resonant at the frequency of operation.

In practice, VCC1 and the supply side of the choke on VCC2 will be tied to the same supply. It is important to isolate VCC1 from

other RF and low-frequency bypass capacitors on this supply line. This can be accomplished using a suitably-long transmission

line which is RF shorted on the other end as described above. Ideally the length of this line will be a quarter wavelength, but it

only needs to be long enough so that the effects of other supply bypass capacitors on the VCC1 line are minimized. If board

space is a concern, this isolation can also be accomplished with an RF choke inductor or ferrite bead.

The RF5189 has primarily been characterized with a voltage on VREG1 and VREG2 of 2.7VDC. However, the RF5189 will oper-

ate from a wide range of control voltages. If you prefer to use a control voltage that is significantly different than 2.7VDC, con-

tact RFMD Sales or Applications Engineering for additional data and guidance.

Rev A8 DS071212

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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