MAX2066ETL+ Maxim Integrated Products, MAX2066ETL+ Datasheet - Page 19

RF Amplifier 50-1000MHZ HI-LIN PARALLEL-CONTRD DIG

MAX2066ETL+

Manufacturer Part Number

MAX2066ETL+

Description

RF Amplifier 50-1000MHZ HI-LIN PARALLEL-CONTRD DIG

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX2066EVKIT.pdf (23 pages)

Specifications of MAX2066ETL+

Bandwidth

1000 MHz

Mounting Style

SMD/SMT

Operating Supply Voltage

5 V

Supply Current

70 mA

Maximum Power Dissipation

6.5 W

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Package / Case

TQFN-40

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 19 of 23
Download datasheet (354Kb)

As an example, assume that the AGC application

requires a static attenuation adjustment to trim out gain

inconsistencies within a receiver lineup. The same AGC

circuit can also be called upon to dynamically attenuate

an unwanted blocker signal that could de-sense the

receiver and lead to an ADC overdrive condition. In this

example, the MAX2066 would be preprogrammed

(through the SPI bus) with two customized attenuation

states—one to address the static gain trim adjustment,

the second to counter the unwanted blocker condition.

Toggling just the STATE_A control bit enables the user

to switch quickly between the static and dynamic atten-

uation settings with only one I/O pin.

If desired, the user can also program two additional

attenuation states by using the STATE_B control bit as

a second I/O pin. These two additional attenuation set-

tings are useful for software-defined radio applications

where multiple static gain settings may be needed to

account for different frequencies of operation, or where

multiple dynamic attenuation settings are needed to

account for different blocker levels (as defined by multi-

ple wireless standards).

Bias currents for the driver amplifier are set and opti-

mized through external resistors. Resistors R1 and R1A

connected to RSET (pin 18) set the bias current for the

amplifier. The external biasing resistor values can be

increased for reduced current operation at the expense

of performance. See Tables 6 and 7 for details.

The MAX2066 features an optional +3.3V supply voltage

operation with slightly reduced linearity performance.

The MAX2066 is a simplified version of the MAX2065

analog/digital VGA. The MAX2066 does not contain an

analog attenuator, on-chip DAC, or internal reference.

The associated input/output pins are internally connected

to ground (Table 5). Ground the unused input/output pins

to optimize isolation. (See the Typical Application Circuit .)

Pin-Compatibility Considerations

+5V and +3.3V Supply Voltage

______________________________________________________________________________________

Serial/Parallel-Controlled Digital VGA

50MHz to 1000MHz High-Linearity,

External Bias

The pin configuration of the MAX2066 has been opti-

mized to facilitate a very compact physical layout of the

device and its associated discrete components.

The exposed paddle (EP) of the MAX2066’s 40-pin thin

QFN-EP package provides a low thermal-resistance

path to the die. It is important that the PCB on which the

MAX2066 is mounted be designed to conduct heat

from the EP. In addition, provide the EP with a low-

inductance path to electrical ground. The EP must be

soldered to a ground plane on the PCB, either directly

or through an array of plated via holes.

Table 4. Preprogrammed Attenuation

State Settings

Table 5. MAX2065/MAX2066 Pin

Comparison

STATE_A

STATE_B

ANALOG_VCTRL

VCC_ANALOG

VREF_SELECT

ATTEN1_OUT

ATTEN1_IN

MAX2065

VDAC_EN

VREF_IN

Preprogrammed attenuation state 1

Preprogrammed attenuation state 2

Preprogrammed attenuation state 3

Preprogrammed attenuation state 4

Layout Considerations

DIGITAL ATTENUATOR

MAX2066

GND

MAX2066ETL+ Maxim Integrated Products, MAX2066ETL+ Datasheet - Page 19

MAX2066ETL+

Specifications of MAX2066ETL+

Related parts for MAX2066ETL+