AD9125-M5372-EBZ Analog Devices Inc, AD9125-M5372-EBZ Datasheet - Page 11

AD9125-M5372-EBZ

Manufacturer Part Number

AD9125-M5372-EBZ

Description

16-BIT DAC Evaluation Board

Manufacturer

Analog Devices Inc

Datasheets

1.ADL5372ACPZ-R7.pdf (24 pages)

2.AD9125-M5372-EBZ.pdf (56 pages)

Specifications of AD9125-M5372-EBZ

Silicon Manufacturer

Analog Devices

Application Sub Type

DAC

Kit Application Type

Data Converter

Silicon Core Number

AD9125

Features

Come With Clocking And Analog Quadrature Modulator Circuits

Kit Contents

Quick Start Guide, Board, Software Updates

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 11 of 24
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THEORY OF OPERATION

CIRCUIT DESCRIPTION

Overview

The ADL5372 can be divided into five circuit blocks: the LO

interface, the baseband voltage-to-current (V-to-I) converter,

the mixers, the differential-to-single-ended (D-to-S) stage, and

the bias circuit. A detailed block diagram of the device is shown

in Figure 24.

The LO interface generates two LO signals in quadrature. These

signals are used to drive the mixers. The I and Q baseband input

signals are converted to currents by the V-to-I stages, which

then drive the two mixers. The outputs of these mixers combine

to feed the output balun, which provides a single-ended output.

The bias cell generates reference currents for the V-to-I stage.

LO Interface

The LO interface consists of a polyphase quadrature splitter

followed by a limiting amplifier. The LO input impedance is set

by the polyphase. The LO can be driven either single-ended or

differentially. When driven single-ended, the LOIN pin should

be ac grounded via a capacitor. Each quadrature LO signal then

passes through a limiting amplifier that provides the mixer with

a limited drive signal.

QBBP

QBBN

LOIN

IBBP

IBBN

LOIP

Figure 24. Block Diagram

SPLITTER

PHASE

OUT

Rev. 0 | Page 11 of 24

V-to-I Converter

The differential baseband inputs (QBBP, QBBN, IBBN, and

IBBP) consist of the bases of PNP transistors, which present a

high impedance. The voltages applied to these pins drive the

V-to-I stage that converts baseband voltages into currents. The

differential output currents of the V-to-I stages feed each of their

respective Gilbert-cell mixers. The dc common-mode voltage at

the baseband inputs sets the currents in the two mixer cores.

Varying the baseband common-mode voltage influences the

current in the mixer and affects overall modulator performance.

The recommended dc voltage for the baseband common-mode

voltage is 500 mV dc.

Mixers

The ADL5372 has two double-balanced mixers: one for the

in-phase channel (I-channel) and one for the quadrature

channel (Q-channel). Both mixers are based on the Gilbert-cell

design of four cross-connected transistors. The output currents

from the two mixers sum together into a load. The signal

developed across this load is used to drive the D-to-S stage.

D-to-S Stage

The output D-to-S stage consists of an on-chip balun that

converts the differential signal to a single-ended signal. The

balun presents high impedance to the output (VOUT). Hence, a

matching network may be needed at the output for optimal

power transfer.

Bias Circuit

An on-chip band gap reference circuit is used to generate a

proportional-to-absolute temperature (PTAT) reference current

for the V-to-I stage.

ADL5372

AD9125-M5372-EBZ Analog Devices Inc, AD9125-M5372-EBZ Datasheet - Page 11

AD9125-M5372-EBZ

Specifications of AD9125-M5372-EBZ

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