MLX71121_15 Datasheet, PDF(8/29 Page) Melexis Microelectronic Systems

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MLX71121_15 Datasheet, PDF (8/29 Pages) Melexis Microelectronic Systems – FSK/OOK Receiver

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MLX71121

300 to 930MHz

FSK/OOK Receiver

1.10 Reference Oscillator

A Colpitts crystal oscillator with integrated functional capacitors is used as the reference oscillator (RO) of

the PLL synthesizer. The equivalent input capacitance CRO offered to the crystal at pin ROI is about 18pF.

The crystal oscillator features an amplitude control loop. This is to assure a very stable frequency over the

specified supply voltage and temperature range together with a short start-up time. A buffer amplifier with

hysteresis is between RO and PFD. Also a clock divider follows the buffer.

1.11 Clock Output

The clock output pin CKOUT is an open-drain output. For power saving reasons, the circuit is only active if

an external pull-up resistor RCL is applied to the pin. Furthermore, RCL can be used to adjust the clock

waveform. It forms an RC low-pass together with the capacitive load at the pin, the parasitics of the PCB and

the input capacitance of the external circuitry (e.g. a microcontroller).

The clock output feature is disabled if pin CKOUT is connected to ground or left open.

VCC

CLKO

RCL

Control

output

logic

DIV8

Fig. 4: Clock output implementation

1.12 FSK Demodulator

The integrated FSK demodulator is based on a phase-coincidence demodulator principle. An injection-locked

oscillator (ILO) is used as a frequency-dependent phase shifter. This topology features a good linearity of the

frequency-phase relationship over the entire locking range. The type of demodulator has no built-in con-

straints regarding the modulation index. It also offers a wide carrier acceptance range.

In addition, the demodulator provides an AFC loop for correcting the remaining free-running frequency error

and drift effects, and also to remove possible frequency offsets between transmitter and receiver frequen-

cies. The AFC loop features a dead band which means that the AFC loop is only closed if the demodulator

output voltage leaves the linear region of the demodulator. Most of the time, the control loop is open. This

leads to several advantages. The AFC loop bandwidth can be high and therefore the reaction time is short.

Furthermore the demodulator itself has no low-end cut-off frequency.

The FSK demodulator has a negative control slope, this means the output voltage decreases by increasing

the IF2 frequency. This guarantees an overall positive slope because the mixer section converts the receive

frequency to IF2 either with high-low or low-high side injection.

The FSK demodulator is turned off during OOK demodulation.

39010 71121

Rev. 012

Page 8 of 29

Data Sheet

Mar/15

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