MAX7034AUI+ Maxim Integrated Products, MAX7034AUI+ Datasheet - Page 9
MAX7034AUI+
Manufacturer Part Number
MAX7034AUI+
Description
RF Receiver IC RX 315MHZ/433MHZ ASK
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX7034AUI.pdf
(14 pages)
Specifications of MAX7034AUI+
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
on the tank filter center frequency. The total parasitic
capacitance is generally between 4pF and 6pF.
A unique feature of the MAX7034 is the integrated
image rejection of the mixer. This device eliminates the
need for a costly front-end SAW filter for most applica-
tions. Advantages of not using a SAW filter are
increased sensitivity, simplified antenna matching, less
board space, and lower cost.
The mixer cell is a pair of double balanced mixers that
perform an IQ downconversion of the RF input to the
10.7MHz IF from a low-side injected LO (i.e., f
f
signals to achieve 44dB of image rejection. Low-side
injection is required due to the on-chip image-rejection
architecture. The IF output is driven by a source follow-
er biased to create a driving-point impedance of 330Ω;
this provides a good match to the off-chip 330Ω ceram-
ic IF filter.
The IRSEL pin is a logic input that selects one of the
three possible image-rejection frequencies. When V
= 0V, the image rejection is tuned to 315MHz. V
DV
V
The IRSEL pin is internally set to DV
at 375MHz) when it is left unconnected, thereby eliminat-
ing the need for an external DV
The PLL block contains a phase detector, charge
pump, integrated loop filter, VCO, asynchronous 64x
clock divider, and crystal oscillator driver. Besides the
crystal, this PLL does not require any external compo-
nents. The VCO generates a low-side LO. The relation-
ship between the RF, IF, and reference frequencies is
given by:
where:
To allow the smallest possible IF bandwidth (for best sen-
sitivity), minimize the tolerance of the reference crystal.
The IF section presents a differential 330Ω load to pro-
vide matching for the off-chip ceramic filter. The six
internal AC-coupled limiting amplifiers produce an
overall gain of approximately 65dB, with a bandpass-
filter-type response centered near the 10.7MHz IF fre-
quency with a 3dB bandwidth of approximately 10MHz.
IF
IRSEL
). The image-rejection circuit then combines these
DD
M = 1 (V
/2 tunes the image rejection to 375MHz, and
= DV
Intermediate Frequency and RSSI
XTALSEL
DD
tunes the image rejection to 434MHz.
_______________________________________________________________________________________
f
REF
= DV
315MHz/434MHz ASK Superheterodyne
=
DD
32
f
RF
) or 2 (V
DD
Phase-Locked Loop
-
×
/2 voltage.
f
IF
M
DD
XTALSEL
/2 (image rejection
LO
= 0V)
IRSEL
Mixer
= f
IRSEL
RF
=
-
The RSSI circuit demodulates the IF by producing a DC
output proportional to the log of the IF signal level, with
a slope of approximately 14.2mV/dB.
The crystal oscillator in the MAX7034 is designed to
present a capacitance of approximately 3pF between
the XTAL1 and XTAL2. If a crystal designed to oscillate
with a different load capacitance is used, the crystal is
pulled away from its intended operating frequency,
introducing an error in the reference frequency.
Crystals designed to operate with higher differential
load capacitance always pull the reference frequency
higher. For example, a 4.7547MHz crystal designed to
operate with a 10pF load capacitance oscillates at
4.7563MHz with the MAX7034, causing the receiver to
be tuned to 315.1MHz rather than 315.0MHz, an error
of about 100kHz, or 320ppm. It is very important to
use a crystal with a load capacitance that is equal to
the capacitance of the MAX7034 crystal oscillator
plus PCB parasitics.
In actuality, the oscillator pulls every crystal. The crys-
tal’s natural frequency is really below its specified fre-
quency, but when loaded with the specified load
capacitance, the crystal is pulled and oscillates at its
specified frequency. This pulling is already accounted
for in the specification of the load capacitance.
Additional pulling can be calculated if the electrical
parameters of the crystal are known. The frequency
pulling is given by:
where:
f
C
C
C
C
When the crystal is loaded as specified (i.e., C
C
It is possible to use an external reference oscillator in
place of a crystal to drive the VCO. AC-couple the exter-
nal oscillator to XTAL2 with a 1000pF capacitor. Drive
XTAL2 with a signal level of approximately 500mV
AC-couple XTAL1 to ground with a 1000pF capacitor.
P
M
CASE
SPEC
LOAD
SPEC
f
is the amount the crystal frequency pulled in ppm.
P
is the motional capacitance of the crystal.
=
), the frequency pulling equals zero.
C
is the specified load capacitance.
is the case capacitance.
is the actual load capacitance.
2
M
⎛
⎜
⎝
C
CASE
Applications Information
+
1
C
LOAD
-
C
CASE
Crystal Oscillator
Receiver
1
+
C
SPEC
⎞
⎟ ×
⎠
LOAD
10
P-P
6
9
=
.
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