MAX7042ATJ+T Maxim Integrated Products, MAX7042ATJ+T Datasheet - Page 13

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MAX7042ATJ+T

Manufacturer Part Number
MAX7042ATJ+T
Description
RF Receiver IC RECEIVER FSK -433.92MHz Low-Power
Manufacturer
Maxim Integrated Products
Type
Receiverr
Datasheet
1.MAX7042ATJ.pdf (19 pages)

Specifications of MAX7042ATJ+T

Package / Case
TQFN-32 EP
Operating Frequency
433.92 MHz
Operating Supply Voltage
2.5 V, 3.3 V, 5 V
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The data filter is implemented as a 2nd-order lowpass
Sallen-Key filter. The pole locations are set by the com-
bination of two on-chip resistors and two external
capacitors. Adjusting the value of the external capaci-
tors changes the corner frequency to optimize for dif-
ferent data rates. The corner frequency in kHz should
be to approximately the fastest expected data rate in
kbps for NRZ and twice the fastest expected data rate
in kbps for Manchester coding from the transmitter.
Keeping the corner frequency near the data rate
rejects any noise at higher frequencies, resulting in an
increase in receiver sensitivity.
The configuration shown in Figure 2 creates a Butterworth
or Bessel response. The Butterworth filter offers a very
flat amplitude response in the passband and a rolloff rate
of 40dB/decade for the two-pole filter. The Bessel filter
has a linear phase response, which works well for filter-
ing digital data. To calculate the value of the capacitors,
use the following equations along with the coefficients in
Table 2:
where f
For example, choose a Butterworth filter response with
a 5kHz corner frequency:
Choosing standard capacitor values changes C
470pF and C
Circuit, C
C
C
F
C
1
F1
is the desired 3dB corner frequency.
F
2
=
Low-Power, FSK Superheterodyne Receiver
and C
=
( .
F2
1 414 100
C
C
( )(
4 100
F
F
to 220pF. In the Typical Application
F2
1
2
______________________________________________________________________________________
)(
are named C4 and C3, respectively.
=
=
k
a
4 100
1 414
1 000
(
k
(
100
.
.
)( .
3 14 5
)( .
308MHz/315MHz/418MHz/433.92MHz
k
k
3 14 5
b
a
)(
)( )( )
)( )( )
π
π
)(
kHz
f
kHz
f
C
C
)
)
Data Filters
225
450
pF
pF
F1
to
The purpose of a data slicer is to take the analog output
of a data filter and convert it to a digital signal. This is
achieved by using a comparator and comparing the ana-
log input to a threshold voltage. The threshold voltage is
set by the voltage on the DS- pin, which is connected to
the negative input of the data-slicer comparator. The pos-
itive input of the data-slicer comparator is connected to
the output of the data filter internally.
Table 2. Coefficients to Calculate C
C
Figure 2. Sallen-Key Lowpass Data Filter
F2
FILTER TYPE
Butterworth
(Q = 0.707)
(Q = 0.577)
Bessel
DS+
MAX7042
C
F2
1.3617
1.414
a
OP+
100kΩ
C
F1
FSK DEMOD
DF
100kΩ
Data Slicer
1.000
0.618
F1
b
and
13

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