ADL5375-05-EVALZ Analog Devices, ADL5375-05-EVALZ Datasheet - Page 24

ADL5375-05-EVALZ

Manufacturer Part Number

ADL5375-05-EVALZ

Description

RF Development Tools ADL5375-05 EVAL

Manufacturer

Analog Devices

Type

Modulators / Demodulatorsr

Series

ADL5375r

Datasheet

1.ADL5375-05-EVALZ.pdf (36 pages)

Specifications of ADL5375-05-EVALZ

Rohs

yes

Product

Evaluation Boards

Factory Pack Quantity

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ADL5375

The two pull-up inductors of the Zbias provide two 50 Ω source

impedances in combination with R1 resistor in parallel for the

filter. While the

ended LO, the LOIP and LOIN input pins are naturally

differential. Therefore, the differential LO drive from the

ADF4350

The output power from the ADF4350 can be set to −4 dBm,

−1 dBm,+2 dBm, and +5 dBm using Register 4 Bits[D2:D1] and

−6 dBm to +7 dBm LO drive level for ADL5375 is recommended.

If the physical distance between the PLL and the IQ modulator

is significant, the filter should be placed adjacent to the IQ

modulator, and two 50 Ω traces should be run between the

devices (since there is a 50 Ω impedance looking from each of

the filter inputs back to each of the PLL outputs).

The

differential drive and also includes component pads in its LO

path to accommodate a harmonic filter. The ADF4350 evaluation

board can also be configured to provide a differential output and

can be connected directly to the

Optimizing the interface between a PLL LO and I/Q modulator

is discussed further in CN-0134 Broadband Low EVM Direct

Conversion Transmitter: How to Optimize the Interface

Between a PLL LO and I/Q Modulator.

DAC MODULATOR INTERFACING

Driving the ADL5375-05 with a TXDAC®

The

components to members of the Analog Devices, Inc. TxDAC

families. These dual-channel differential current output DACs

feature an output current swing from 0 mA to 20 mA. The

interface described in this section can be used with any DAC

that has a similar output.

An example of an interface using the

in Figure 58. The baseband inputs of the

dc bias of 500 mV. The nominal midscale current on each of the

outputs of the AD9122 is 10 mA. Therefore, a single 50 Ω resis-

tor to ground from each of the DAC outputs results in an average

current of 10 mA flowing through each of the resistors, thus

producing the desired 500 mV dc bias for the inputs to the

ADL5375-05.

ADL5375-05

ADL5375

is more desirable.

evaluation board can be reconfigured for

ADL5375

is designed to interface with minimal

is specified to be driven by a single-

ADL5375

AD9122

evaluation board.

ADL5375-05

TxDAC is shown

require a

Rev. B | Page 24 of 36

The AD9122 output currents have a swing that ranges from 0 mA

to 20 mA. With the 50 Ω resistors in place, the ac voltage swing

going into the

1 V. A full-scale sine wave out of the AD9122 can be described

as a 1 V p-p single-ended (or 2 V p-p differential) sine wave

with a 500 mV dc bias.

Limiting the AC Swing

There are situations in which it is desirable to reduce the ac

voltage swing for a given DAC output current. This can be

achieved through the addition of another resistor to the interface.

This resistor is placed in the shunt between each side of the

differential pair, as shown in Figure 59. It has the effect of

reducing the ac swing without changing the dc bias already

established by the 50 Ω resistors.

Resistors to Ground to Establish the 500 mV DC Bias for the

AD9122

Figure 58. Interface Between the AD9122 and

Figure 59. AC Voltage Swing Reduction Through the Introduction

IOUT1P

IOUT1N

IOUT2N

IOUT1P

IOUT1N

IOUT2N

IOUT2

of a Shunt Resistor Between Differential Pair

ADL5375-05

RBQN

RBQP

RBIN

RBIP

50Ω

Baseband Inputs

baseband inputs ranges from 0 V to

100Ω

RLQ

RLI

ADL5375-05

IBBP

IBBN

QBBN

QBBP

IBBP

IBBN

QBBN

QBBP

Data Sheet

ADL5375-05

with 50 Ω

ADL5375-05-EVALZ Analog Devices, ADL5375-05-EVALZ Datasheet - Page 24

ADL5375-05-EVALZ

Specifications of ADL5375-05-EVALZ

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