SLOU330 Datasheet, PDF(9/18 Page) Texas Instruments

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SLOU330 Datasheet, PDF (9/18 Pages) Texas Instruments – EVM Description

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Power Supply Options

5 Power Supply Options

The AFE722x EVM is designed to operate from an external 6 V wall wart supply. A LDO generates a 5V

rail for the TRF3703 IQ modulator as well as for the low noise LDOs which are generating a 3.3 V and 1.8

V rail for the AFE722x and the CDCE72010. Alternatively the 3.3 V and 1.8 V rails can be generated using

DC/DC converters which operate directly from the 6 V input for maximum power efficiency.

The EVM provides options to disable unused circuits by means of pin headers. These headers can also

be used for accurate power measurements where external power supplies can be directly connected to

them.

Three pin headers allow a convenient change between powering the AFE722x and CDCE72010 either

from DC/DC converter or low noise LDO.

6V Input

LDO

TPS7A4501

JP10

TRF3703

I/Q Mod

JP19

LDO

TPS79633

JP12

3.3V JP18

CDCE72010

JP11

DC/DC

TPS62291

JP4

VCXO

JP14

JP20

LDO

TPS79518

DC/DC

TPS62231

6 Clocking Configuration

The AFE722x EVM offers 3 different options for

providing the clock to the AFE722x as well as the

supporting circuitry. The biggest challenge arises

when using the DAC with the TSW3100 because

the TSW3100 expects an input clock at 1/8 of the

DAC input data rate. However since the AFE722x

is designed for the serial LVDS interface, the DAC

data rate is 6x the actual AFE722x clock frequency.

Hence the clock to the TSW3100 needs to 6/8 =

3/4x the AFE722x clock frequency.

JP13

1.8V

AFE722x

AFE7225

Serialized LVDS

6x DAC Rate

Synchronous Clock

@ 1/8 DAC Rate

TSW3100

Pattern Generator

SLOU330 â December 2011

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EVM Description

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