MAX2395EGI-T Maxim Integrated Products, MAX2395EGI-T Datasheet - Page 8

MAX2395EGI-T

Manufacturer Part Number

MAX2395EGI-T

Description

RF Wireless Misc WCDMA Quasi-Direct M odulator with VGA an

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX2395ETI.pdf (13 pages)

Specifications of MAX2395EGI-T

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WCDMA Quasi-Direct Modulator

with VGA and PA Driver

The MAX2395 includes three programmable, 20-bit

registers consisting of two divide registers and an oper-

ational control register. These registers are pro-

grammed from the SPI/ MICROWIRE-compatible serial

port. The 4 least significant bits (LSBs) are reserved for

the register’s address. The register bits have been

assigned to allow sharing of the 3-wire bus with the

MAX2390/MAX2391/MAX2392/MAX2401 receiver ICs.

The 16 most significant bits (MSBs) are used for regis-

ter data. Data is shifted in MSB first, followed by the 4-bit

address. When CS is low, the clock input is active and

data is shifted with the rising edge of the clock. When CS

transitions to high, the shift register is latched into the

Power-up defaults for the three registers are shown in

Table 2. Initialize the registers according to the charac-

terization table (Table 1).

The RFM register sets the main frequency divide ratio

for the RF PLL. The RFR register sets the reference fre-

quency divide ratio. The RF VCO frequency is deter-

mined by the following:

where f

for the MAX2395.

The operational control register (OPCTRL) controls the

state of the IC. See Table 3 for the function of each bit.

The RFR divide register includes test bits B9–B15.

These bits are used to troubleshoot the VCO and syn-

thesizer section (see Table 4). These bits are not need-

ed for normal use and should be left as the values at

power-up.

The device offers several different operation modes for

conserving power. Table 5 explains how to implement

each mode.

The part offers a shutdown mode and idle mode for opti-

mal power management. In shutdown mode, all functions

are turned off except the serial interface. When the part

is shut down using the OPCTRL register, the IC draws a

residual current of 60µA (typ). In idle mode, the VCO,

PLL, and serial interface remain on to minimize startup

time. The GmC filter can be software programmed to

power on or off during idle mode (see Table 5).

Idle Mode is a trademark of Maxim Integrated Products, Inc.

_______________________________________________________________________________________

RF VCO frequency = f

REFin

is the external input reference frequency

Shutdown and Idle Mode™

REFin

(RFM/RFR)

The Tx outputs are internally matched to 50Ω. The

open-collector output requires a pullup inductor to V

The selection of matching in the MAX2395 Evaluation

Kit allows optimization of ACPR.

Two major concepts should be employed to produce a

low-spur and EMC-compliant transmitter: Minimize cir-

cular current-loop area to reduce H-field radiation, and

minimize losses. To minimize circular current-loop area,

bypass as close to the device as possible and use the

distributed capacitance of a ground plane. To minimize

losses, make RF traces short.

Program only the necessary bits in any register to mini-

mize clock cycles. RC filtering can also be used to slow

the clock edges on the 3-wire interface, reducing high-

frequency spectral content. RC filtering also provides for

transient protection against IEC 802 testing by shunting

high frequencies to ground, while the series resistance

attenuates the transients for error-free operation. The

same applies to the logic-input pins (SHDN, IDLE).

High-frequency bypass capacitors are required close

to the pins with a dedicated via to ground. The pack-

age provides minimal inductance ground by using an

exposed pad under the part. Provide at least five low-

inductance vias under the pad to ground to minimize

ground inductance. Use a solid ground plane wherever

possible. Any cutout in the ground plane may act as a

slot radiator and reduce its shield effectiveness.

The MAX2395 Evaluation Kit can be used as a refer-

ence for board layout. Gerber files are available upon

request at www.maxim-ic.com.

To minimize coupling between different sections of the

IC, the ideal power-supply layout is a star configuration,

which has a large decoupling capacitor at a central V

node. The V

going to a separate V

of each trace is a bypass capacitor with impedance to

ground less than 1Ω at the frequency of interest. This

arrangement provides local decoupling at each V

pin. Use at least one via per bypass capacitor.

Applications Information

traces branch out from this node, each

Electromagnetic Compliance

External Matching to PA

node in the circuit. At the end

Considerations

Layout Issues

MAX2395EGI-T Maxim Integrated Products, MAX2395EGI-T Datasheet - Page 8

MAX2395EGI-T

Specifications of MAX2395EGI-T

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