RFM31B-868-S1 QUASAR, RFM31B-868-S1 Datasheet - Page 42

RFM31B-868-S1

Manufacturer Part Number

RFM31B-868-S1

Description

MODULE, RECEIVER, -118DB, SMD,868MHZ

Manufacturer

QUASAR

Datasheet

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

Specifications of RFM31B-868-S1

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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RFM31B

8.6. Wake-Up Timer and 32 kHz Clock Source

The chip contains an integrated wake-up timer which can be used to periodically wake the chip from SLEEP mode.

The wake-up timer runs from the internal 32.768 kHz RC Oscillator. The wake-up timer can be configured to run

when in SLEEP mode. If enwt = 1 in "Register 07h. Operating Mode and Function Control 1" when entering SLEEP

mode, the wake-up timer will count for a time specified defined in Registers 14–16h, "Wake Up Timer Period". At

the expiration of this period an interrupt will be generated on the nIRQ pin if this interrupt is enabled. The

microcontroller will then need to verify the interrupt by reading the Registers 03h–04h, "Interrupt Status 1 & 2". The

wake-up timer value may be read at any time by the wtv[15:0] read only registers 13h–14h.

The formula for calculating the Wake-Up Period is the following:

Use of the D variable in the formula is only necessary if finer resolution is required than can be achieved by using

the R value.

There are two different methods for utilizing the wake-up timer (WUT) depending on if the WUT interrupt is enabled

in “Register 06h. InterruptEnable 2,”. If the WUT interrupt is enabled then nIRQ pin will go low when

the timer expires. The chip will also change state so that the 30 MHz XTAL is enabled so that the microcontroller

clock output is available for the microcontroller to use to process the interrupt. The other method of use is to not

enable the WUT interrupt and use the WUT GPIO setting. In this mode of operation the chip will not change state

until commanded by the microcontroller. The different modes of operating the WUT and the current consumption

impacts are demonstrated in Figure 21.

A 32 kHz XTAL may also be used for better timing accuracy. By setting the x32 ksel bit in “Register 07h. Operating

& Function Control 1," GPIO0 is automatically reconfigured so that an external 32 kHz XTAL may be connected to

this pin. In this mode, the GPIO0 is extremely sensitive to parasitic capacitance, so only the XTAL should be

connected to this pin with the XTAL physically located as close to the pin as possible. Once the x32 ksel bit is set,

all internal functions such as WUT, micro-controller clock, and LDC mode will use the 32 kHz XTAL and not the

32 kHz RC oscillator.

Add R/W Function/Description

Tel: +86-755-82973805

R/W

Wake-Up Timer Period 1

Wake-Up Timer Period 2 wtm[15] wtm[14] wtm[13] wtm[12] wtm[11] wtm[10] wtm[9] wtm[8]

Wake-Up Timer Period 3

Wake-Up Timer Value 1

Wake-Up Timer Value 2

Fax: +86-755-82973550

wtv[15] wtv[14] wtv[13] wtv[12] wtv[11]

wtm[7]

WUT Register

wtv[7]

wtm[15:0]

wtd[1:0]

wtr[3:0]

WUT

wtm[6]

wtv[6]





wtm[5]

wtv[5]

wtr[3]

M Value in Formula

R Value in Formula

D Value in Formula

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

768

Description



wtm[4]

wtv[4]

wtr[2]

wtm[3]

wtv[3]

wtr[1]

wtv[10]

wtm[2]

wtv[2]

wtr[0]

wtm[1] wtm[0]

wtd[1]

wtv[9]

wtv[1]

wtd[0]

wtv[8]

wtv[0]

POR Def.

00h

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RFM31B-868-S1 QUASAR, RFM31B-868-S1 Datasheet - Page 42

RFM31B-868-S1

Specifications of RFM31B-868-S1

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