MAX1471EVKIT-433 Maxim Integrated Products, MAX1471EVKIT-433 Datasheet - Page 16

MAX1471EVKIT-433

Manufacturer Part Number

MAX1471EVKIT-433

Description

EVAL KIT FOR MAX1471 433MHZ

Manufacturer

Maxim Integrated Products

Type

Receiver, ASK/FSKr

Datasheet

1.MAX1471EVKIT-433.pdf (26 pages)

Specifications of MAX1471EVKIT-433

Frequency

433MHz

For Use With/related Products

MAX1471 ~ 433 MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The MAX1471 can use a 4-wire interface or a 3-wire

interface (default). In both cases, the data input must

follow the timing diagrams shown in Figures 8 and 9.

Note that the DIO line must be held LOW while CS is

high. This is to prevent the MAX1471 from entering dis-

continuous receive mode if the DRX bit is high. The

data is latched on the rising edge of SCLK, and there-

fore must be stable before that edge. The data

sequencing is MSB first, the command (C[3:0]; see

Table 3), the register address (A[3:0]; see Table 4) and

the data (D[7:0]; see Table 5).

The mode of operation (3-wire or 4-wire interface) is

selected by DOUT_FSK and/or DOUT_ASK bits in the

configuration register. Either of those bits selects the

ASKOUT and/or FSKOUT line as a SERIAL data output.

Upon receiving a read register command (0x2), the

serial interface outputs the data on either pin, accord-

ing to Figure 10.

If neither of these bits are 1, the 3-wire interface is

selected (default on power-up) and the DIO line is

effectively a bidirectional input/output line. DIO is

selected as an output of the MAX1471 for the following

CS cycle whenever a READ command is received. The

CPU must tri-state the DIO line on the cycle of CS that

follows a read command, so the MAX1471 can drive

the data output line. Figure 11 shows the diagram of

the 3-wire interface. Note that the user can choose to

send either 16 cycles of SCLK, as in the case of the 4-

wire interface, or just eight cycles, as all the registers

are 8-bits wide. The user must drive DIO low at the end

of the read sequence.

The MASTER RESET command (0x3) (see Table 3)

sends a reset signal to all the internal registers of the

MAX1471 just like a power-off and power-on sequence

315MHz/434MHz Low-Power, 3V/5V

ASK/FSK Superheterodyne Receiver

Figure 8. Digital Communications Timing Diagram

______________________________________________________________________________________

SCLK

DIO

HIGH-IMPEDANCE

Serial Control Interface

CSS

Communication Protocol

DATA IN

CSI

would do. The reset signal remains active for as long as

CS is high after the command is sent.

In continuous receive mode, individual analog modules

can be powered on directly through the power configu-

ration register (register 0x0). The SLEEP bit (bit 0)

overrides the power settings of the remaining bits and

puts the part into deep-sleep mode when set. It is also

necessary to write the frequency divisor of the external

crystal in the oscillator frequency register (register 0x3)

to optimize image rejection and to enable accurate cali-

bration sequences for the polling timer and the FSK

demodulator. This number is the integer result of

If the FSK receive function is selected, it is necessary to

perform an FSK calibration to improve receive sensitivi-

ty. Polling timer calibration is not necessary. See the

Calibration section for more information.

Figure 7. Fast Receiver Recovery in FSK Mode Utilizing Peak

Detectors

XTAL

HIGH-IMPEDANCE

/100kHz.

DATA OUTPUT

200mV/div

2V/div

Continuous Receive Mode (DRX = 0)

RECEIVER ENABLED, TRK_EN SET

DATA OUT

FILTER OUTPUT

100µs/div

MAX PEAK DETECTOR

MIN PEAK DETECTOR

DATA OUTPUT

TRK_EN CLEARED

HI-Z

CSH

MAX1471EVKIT-433 Maxim Integrated Products, MAX1471EVKIT-433 Datasheet - Page 16

MAX1471EVKIT-433

Specifications of MAX1471EVKIT-433

Related parts for MAX1471EVKIT-433