MAX2361EGM-D Maxim Integrated Products, MAX2361EGM-D Datasheet - Page 13
MAX2361EGM-D
Manufacturer Part Number
MAX2361EGM-D
Description
RF Transmitter Complete Dual-Band Q uadrature Transmitte
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX2363EVKIT.pdf
(29 pages)
Specifications of MAX2361EGM-D
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX2361/MAX2363/MAX2365 include eight pro-
grammable registers consisting of four divide registers,
a configuration register, an operational control register,
a current control register, and a test register. Each reg-
ister consists of 24 bits. The 4 least significant bits
(LSBs) are the register’s address. The 20 most signifi-
cant bits (MSBs) are used for register data. All registers
contain some “don't care” bits. These can be either a
“0” or a “1” and will not affect operation (Figure 1). 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 register select-
ed by the contents of the address bits. Power-up
defaults for the eight registers are shown in Table 1.
The dividers and control registers are programmed
from the SPI/QSPI/MICROWIRE-compatible serial port.
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 can be
determined by the following:
IFM and IFR registers are similar:
where f
The operational control register (OPCTRL) controls the
state of the MAX2361/MAX2363/MAX2365. See Table 2
for the function of each bit.
The configuration register (CONFIG) sets the configura-
tion for the RF/IF PLL and the baseband I/Q input lev-
els. See Table 3 for a description of each bit.
The current control register modifies the bias current to
accommodate different operation modes. In the high-
power mode, MPL = 1 sets the bias current and con-
version gain to deliver a minimum of +8dBm output
Table 1. Register Power-Up Default States
REGISTER
I
OPCTRL
CONFIG
CC
TEST
REF
RFM
RFR
IFM
IFR
CTRL
RF VCO frequency = f
IF VCO frequency = f
is the external reference frequency.
______________________________________________________________________________________
32214 dec
DEFAULT
Programmable Registers
6519 dec
0492 dec
D03F hex
090F hex
0038 hex
656 dec
100 hex
REF
REF
✕
✕
(IFM / IFR)
(RFM / RFR)
ADDRESS
0000
0001
0010
0011
0100
0101
0110
0111
b
b
b
b
b
b
b
b
Quadrature Transmitters
RF M divider count
RF R divider count
IF M divider count
IF R divider count
Operational control settings
Configuration and setup control
Current multiplication factor, PLL band
Test-mode control
power from the PA drivers. In the low-power mode,
MPL = 0 sets the bias current and conversion gain to
deliver a minimum of +5dBm output power from the PA
drivers. I_MULT sets the current multiplication factor for
the PA driver stages according to Table 5. THROT-
TLE_BACK sets the rate of bias current changes when
the output power changes according to Table 6. For
example, when THROTTLE_BACK = 011 (default), the
PA driver bias current reduces by 1dBmA for every
1dB reduction in output power. THROTTLE_BACK =
000 setting gives a more aggressive current reduction
(1.3dBmA/dB power) at the expense of linearity.
THROTTLE_BACK setting does not affect the bias cur-
rent at maximum power level.
The test register has to be 100hex for normal operation.
The best way to ensure this is to program the test regis-
er to 100hex.
Bias control is distributed among several functional
sections and can be controlled to accommodate many
different power-down modes as shown in Table 8.
The serial interface remains active during shutdown.
Setting SHDN_BIT = 0 or SHDN = GND powers down
the device. In either case, PLL programming and regis-
ter information is retained.
Table 9 shows an example of key registers for triple-
mode operation, assuming half-band PCS and IF fre-
quencies of 228.6MHz/263.6MHz.
The MAX2361 is designed for use in dual-band, triple-
mode systems. It is recommended for triple-mode hand-
sets (Figure 2). The MAX2363 is designed for use in
CDMA PCS handset or W-CDMA systems (Figure 3).
The MAX2365 is designed for use in dual-mode cellular
systems (Figure 4).
Complete Dual-Band
Applications Information
FUNCTION
Power Management
Signal Flow Control
13
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