MAX2651EUB Maxim, MAX2651EUB Datasheet - Page 15

MAX2651EUB

Manufacturer Part Number

MAX2651EUB

Description

GSM900 and DCS1800/PCS1900 Dual-Band / Low-Noise Amplifiers

Manufacturer

Maxim

Datasheets

1.MAX2651EUB-T.pdf (16 pages)

2.MAX2651EUB.pdf (16 pages)

3.MAX2651EUB.pdf (16 pages)

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The MAX2651/MAX2652/MAX2653 offer a step gain in

the LNA to optimize the receiver’s dynamic range. A

logic-level low at GAIN reduces the active LNA’s gain

by about 20dB and reduces supply current by 3.5mA.

The MAX2652/MAX2653 offer a low-current shutdown

feature. Drive SHDN low to power down the LNA and

reduce supply current to less than 0.25µA.

The MAX2651/MAX2652/MAX2653 require matching

circuits at their inputs and outputs for operation in a

and 3 describe the matching circuits for each device’s

LNA; suggested component values, suppliers, and part

numbers are listed in the MAX2651/MAX2652/

MAX2653 EV kits manual. These values are optimized

for best simultaneous noise figure, gain, and return loss

performance.

Input and output impedance matching networks are

very sensitive to layout-related parasitics. It is important

to keep all matching components as close to the

device as possible to minimize the effects of stray

inductance and stray capacitance of PC board traces,

particularly for the 1800MHz and 1900MHz bands.

The MAX2651/MAX2652/MAX2653 provide open-col-

lector output stages to allow an external resistor to set

the gain. The collector pull-up resistors set the gain for

each LNA to about 18dB. Lower gains are achieved by

reducing this resistance, and higher gains are

achieved by increasing it. The maximum achievable

gain is defined by the maximum collector current

swing. Note that the value of the collector gain-setting

resistor principally defines the LNA’s output imped-

ance, and that the matching networks are tuned to

match this impedance to 50 . Redefining the LNA gain

by changing the collector gain-setting resistor requires

retuning the output matching networks.

system. The application circuits in Figures 1, 2,

Using the Collector Load Resistor

Applications Information

______________________________________________________________________________________

Detailed Description

Shutdown Functionality

External Components

Dual-Band, Low-Noise Amplifiers

GSM900 and DCS1800/PCS1900

Gain Select

to Set Gain

A properly designed PC board is essential to any

RF/microwave circuit. Be sure to use controlled imped-

ance lines on all high-frequency inputs and outputs.

Proper grounding of the GND pins is fundamental; if

the PC board uses a topside RF ground, connect all

GND pins directly to it. For boards where the ground

plane is not on the component side, it’s best to connect

all GND pins to the ground plane with plated through-

holes close to the package.

To minimize coupling between different sections of the

system, the ideal power-supply layout is a star configu-

ration with a large decoupling capacitor at a central

node, each leading to a separate V

board. A second bypass capacitor that has low ESR at

the RF frequency of operation is placed at the end of

each trace. This arrangement provides local decou-

pling at the V

leaking out of one supply pin sees a relatively high

impedance (formed by the V

the central V

any other supply pin, as well as a low impedance to

ground through its bypass capacitor.

MAX2651 TRANSISTOR COUNT: 272

MAX2652 TRANSISTOR COUNT: 272

MAX2653 TRANSISTOR COUNT: 253

node. The V

Layout and Power-Supply Bypassing

node and an even higher impedance to

pin. At high frequencies, any signal

traces branch out from this central

Chip Information

trace inductance) to

node on the PC

MAX2651EUB Maxim, MAX2651EUB Datasheet - Page 15

MAX2651EUB

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