MAX1473 Datasheet, PDF(12/17 Page) Maxim Integrated Products – 315MHz/433MHz ASK Superheterodyne Receiver with Extended Dynamic Range

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MAX1473 Datasheet, PDF (12/17 Pages) Maxim Integrated Products – 315MHz/433MHz ASK Superheterodyne Receiver with Extended Dynamic Range

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315MHz/433MHz ASK Superheterodyne

Receiver with Extended Dynamic Range

MAX1473

DATA

SLICER

DATAOUT

DSN

DSP

DFO

DATA

SLICER

MAX1473

DATAOUT

DSP

DSN

DFO

R2 *OPTIONAL

Figure 2. Generating Data Slicer Threshold

ing scheme, such as Manchester coding, which has an

equal number of zeros and 1âs, is used.

To prevent continuous toggling of DATAOUT in the

absence of an RF signal due to noise, hysteresis can

be added to the data slicer as shown in Figure 3.

Peak Detector

The peak detector output (PDOUT), in conjunction with

an external RC filter, creates a DC output voltage equal

to the peak value of the data signal. The resistor pro-

vides a path for the capacitor to discharge, allowing the

peak detector to dynamically follow peak changes of

the data filter output voltage. For faster receiver startup,

the circuit shown in Figure 4 can be used.

Layout Considerations

A properly designed PC board is an essential part of

any RF/microwave circuit. On high-frequency inputs

and outputs, use controlled-impedance lines and keep

them as short as possible to minimize losses and radia-

tion. At high frequencies, trace lengths that are on the

order of Î»/10 or longer act as antennas.

Keeping the traces short also reduces parasitic induc-

tance. Generally, 1in of a PC board trace adds about

20nH of parasitic inductance. The parasitic inductance

can have a dramatic effect on the effective inductance

of a passive component. For example, a 0.5in trace

connecting a 100nH inductor adds an extra 10nH of

inductance or 10%.

To reduce the parasitic inductance, use wider traces

and a solid ground or power plane below the signal

traces. Also, use low-inductance connections to ground

on all GND pins, and place decoupling capacitors

close to all VDD connections.

Figure 3. Generating Data Slicer Hysteresis

MAX1473

DATA

SLICER

DATAOUT

23 19

DSN

DSP DFO

25kâ¦

47nF

PDOUT

Figure 4. Using PDOUT for Faster Startup

Chip Information

TRANSISTOR COUNT: 3035

PROCESS: CMOS

12 ______________________________________________________________________________________

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