MAX2369 MAXIM [Maxim Integrated Products], MAX2369 Datasheet - Page 9

MAX2369

Manufacturer Part Number

MAX2369

Description

Complete Dual-Band Quadrature Transmitter

Manufacturer

MAXIM [Maxim Integrated Products]

Datasheet

1.MAX2369.pdf (16 pages)

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The MAX2369 complete quadrature transmitter accepts

differential I/Q baseband inputs with external common-

mode bias. A modulator upconverts this to IF frequency

in the 120MHz to 235MHz range. A gain control voltage

pin (VGC) controls the gain of both the IF and RF VGAs

simultaneously to achieve best noise and linearity per-

formance. The IF signal is brought off-chip for filtering,

then fed to a single sideband upconverter followed by

the RF VGA and PA driver. The RF upconverter requires

an external VCO for operation. The IF PLL and operat-

ing mode can be programmed by an SPI/QSPI/

MICROWIRE-compatible 3-wire interface.

The following sections describe each block in the

MAX2369 Functional Diagram.

Differential in-phase (I) and quadrature-phase (Q) input

pins are designed to be DC-coupled and biased with the

baseband output from a digital-to-analog converter

(DAC). I and Q inputs need a DC bias of V

current-drive capability of 6µA. Common-mode voltage

will work within a 1.35V to (V

I and Q will be driven differentially with a 200mV

baseband signal. Optionally, I and Q may be pro-

grammed for 100mV

in the configuration register. The IF VCO output is fed

into a divide-by-two/quadrature generator block to derive

quadrature components to drive the IQ modulator. The

output of the modulator is fed into the VGA.

The VCO oscillates at twice the desired IF frequency.

Oscillation frequency is determined by external tank

components (see Applications Information). Typical

phase-noise performance for the tank is shown in

Typical Operating Characteristics.

IFLO provides a buffered LO output when BUF_EN is 1.

The IFLO output frequency is equal to the VCO fre-

quency when BUF_DIV is 0, and half the VCO frequen-

cy when BUF_DIV is 1. The output power is -6dBm. This

output is used in test mode.

The IF PLL uses a charge-pump output to drive a loop

filter. The loop filter will typically be a passive second-

order lead lag filter. Outside the filter’s bandwidth,

phase noise will be determined by the tank compo-

nents. The two components that contribute most signifi-

cantly to phase noise are the inductor and varactor.

_______________________________________________________________________________________

RMS

Detailed Description

operation with the IQ_LEVEL bit

- 1.25V) range. Typically,

IFLO Output Buffer

I/Q Modulator

IF VCO

/2 and a

IF PLL

RMS

Quadrature Transmitter

Use high-Q inductors and varactors to maximize equiv-

alent parallel resistance. The ICP_MAX bit in the OPC-

TRL register can be set to 1 to increase the charge

pump current.

The IF VGA allows varying an IF output level that is con-

trolled by the VGC voltage. The voltage range on VGC

of +0.5V to +2.6V provides a gain-control range of

85dB. The IF output ports from the VGA are optimized

for IF frequency from 120MHz to 235MHz. IFOUT ports

support direct VCO FM modulation. The differential IF

output port has an output impedance of 600Ω when

pulled up to V

The RF transmit mixer uses a single sideband architec-

ture to eliminate an off-chip RF filter. The mixer is fol-

lowed by the RF VGA. The RF VGA is controlled by the

same VGC pin as the IF VGA to provide optimum lineari-

ty and noise performance. The total power control range

is >100dB.

The MAX2369 includes two power-amplifier (PA) drivers.

Each is optimized for the desired operating frequency.

RFL is optimized for cellular-band operation. RFH is opti-

mized for PCS operation. The PA drivers have open-col-

lector outputs and require pullup inductors. The pullup

inductors can act as the shunt element in a shunt series

match.

The MAX2369 includes five programmable registers

consisting of two divide registers, a configuration regis-

ter, an operational control register, and a test register.

Each register consists of 24 bits. The 4 least significant

bits (LSBs) are the register’s address. The 20 most sig-

nificant bits (MSBs) are used for register data. All regis-

ters contain some “don't care” bits. These can be either

a zero or a 1 and do not affect operation

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

address. When CS is low, the clock 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 five registers are shown in

Table

grammed from the SPI/QSPI/MICROWIRE-compatible

serial port.

Complete Dual-Band

1. The registers should be initialized according to

2. The dividers and control registers are pro-

through a choke.

Programmable Registers

Single Sideband Mixer

PA Driver

(Figure

IF VGA

1).

MAX2369 MAXIM [Maxim Integrated Products], MAX2369 Datasheet - Page 9

MAX2369

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