RFM73P Datasheet, PDF(7/25 Page) List of Unclassifed Manufacturers – Low Power High Performance 2.4 GHz GFSK Transceiver Module

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RFM73P Datasheet, PDF (7/25 Pages) List of Unclassifed Manufacturers – Low Power High Performance 2.4 GHz GFSK Transceiver Module

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RFM73P-S2 V2.0

VDD>=3.3 V

Power Down

PWR_UP=1

PWR_UP=0

Standby-I

CE=1

CE=0

ACK packet transmitted

Packet received

EN_AA=1

NO_ACK=0

Figure 4 PRX (PRIM_RX=1) state control diagram

4.2 Power Down Mode

In power down mode RFM73P-S2 is in

sleep mode with minimal current consumption.

SPI interface is still active in this mode, and all

down mode is entered by setting the PWR_UP

bit in the CONFIG register to low.

4.3 Standby-I Mode

By setting the PWR_UP bit in the CONFIG

device enters standby-I mode. Standby-I mode

is used to minimize average current

consumption while maintaining short start-up

time. In this mode, part of the crystal oscillator

is active. This is also the mode which the

RFM73P-S2 returns to from TX or RX mode

when CE is set low.

4.4 Standby-II Mode

In standby-II mode more clock buffers are

active than in standby-I mode and much more

current is used. Standby-II occurs when CE is

held high on a PTX device with empty TX

FIFO. If a new packet is uploaded to the TX

FIFO in this mode, the device will

automatically enter TX mode and the packet is

transmitted.

4.5 TX Mode

â¢ PTX device (PRIM_RX=0)

The TX mode is an active mode where the

PTX device transmits a packet. To enter this

mode from power down mode, the PTX device

must have the PWR_UP bit set high,

PRIM_RX bit set low, a payload in the TX

FIFO, and a high pulse on the CE for more

than 10Âµs.

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