RFM31B-868-D QUASAR, RFM31B-868-D Datasheet - Page 27

RFM31B-868-D

Manufacturer Part Number

RFM31B-868-D

Description

MODULE, RECEIVER, -118DB, 868MHZ

Manufacturer

QUASAR

Datasheet

1.RFM31B-868-D.pdf (57 pages)

Specifications of RFM31B-868-D

Modulation Type

FSK, GFSK, OOK

Sensitivity

-121dBm

Power Supply

1.8V To 3.6V

Supply Current

18.5mA

Data Rate Max

256Kbps

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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There are a total of six regulators integrated onto the RFM31B . With the exception of the digital regulator, all

regulators are designed to operate with only internal decoupling.

input supply voltage from +1.8 to +3.6V. A supply voltage should only be connected to the VDD pins.

5.7. Crystal Oscillator

The crystal load capacitance can be digitally programmed to accommodate crystals with various load capacitance

requirements and to adjust the frequency of the crystal oscillator. The tuning of the crystal load capacitance is

programmed through the xlc[6:0] field of "Register 09h. 30 MHz Crystal Oscillator Load Capacitance." The total

internal capacitance is 12.5 pF and is adjustable in approximately 127 steps (97fF/step). The xtalshift bit provides a

coarse shift in frequency but is not binary with xlc[6:0].

The crystal frequency adjustment can be used to compensate for crystal production tolerances. Utilizing the on-

chip temperature sensor and suitable control software, the temperature dependency of the crystal can be

canceled.

The typical value of the total on-chip capacitance Cint can be calculated as follows:

Note that the coarse shift bit xtalshift is not binary with xlc[6:0]. The total load capacitance Cload seen by the crystal

can be calculated by adding the sum of all external parasitic PCB capacitances Cext to Cint. If the maximum value

of Cint (16.3 pF) is not sufficient, an external capacitor can be added for exact tuning. Additional information on

calculating Cext and crystal selecti

If AFC is disabled then the synthesizer frequency may be further adjusted by programming the Frequency Offset

field fo[9:0]in "Register 73h. Frequency Offset 1" and "Register 74h. Frequency Offset 2", as discussed in "3.5.

Frequency Control"

The crystal oscillator frequency is divided down internally and may be output to the microcontroller through one of

the GPIO pins for use as the System Clock. In this fashion, only one crystal oscillator is required for the entire

system and the BOM cost is reduced. The available clock frequencies and GPIO configuration are discussed

further in "8.2. Microcontroller Clock"

5.8. Regulators

crystal load

The RFM31B includes an integrated 30MHz crystal oscillator with a fast start-up time of less than 600s.

A parallel resonant 30MHz crystal is used on the module. The design is differential with the required

Add R/W Function/Description

Tel: +86-755-82973805

R/W

Crystal Oscillator Load

capacitance integrated on-chip to minimize the number of external components.

Capacitance

Fax: +86-755-82973550

Cint = 1.8 pF + 0.085 pF x xlc[6:0] + 3.7 pF x xtalshift

on guidelines is provided.

xtalshift

xlc[6]

E-mail: sales@hoperf.com http://www.hoperf.com

xlc[5]

xlc[4]

All regulators are designed to operate with an

xlc[3]

xlc[2]

xlc[1]

RFM31B

xlc[0]

POR Def.

7Fh

RFM31B-868-D QUASAR, RFM31B-868-D Datasheet - Page 27

RFM31B-868-D

Specifications of RFM31B-868-D

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