EM2420-STR Ember, EM2420-STR Datasheet - Page 27

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EM2420-STR

Manufacturer Part Number

EM2420-STR

Description

IC RF TXRX ZIGBEE 2.4GHZ 48-QLP

Manufacturer

Ember

Datasheet

1.EM2420-RTR.pdf (84 pages)

Specifications of EM2420-STR

Mfg Application Notes

EM2420

Frequency

2.4GHz

Data Rate - Maximum

250kbps

Modulation Or Protocol

802.15.4

Applications

ZigBee™

Power - Output

-3dBm

Sensitivity

-94dBm

Voltage - Supply

2.1 V ~ 3.6 V

Current - Receiving

19.7mA

Current - Transmitting

17.4mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Operating Temperature

-40°C ~ 85°C

Package / Case

48-QLP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Memory Size

-

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Address

0x16F –

0x16C

0x16B –

0x16A

0x169 –

0x168

0x167 –

0x160

0x15F –

0x150

0x14F –

0x140

0x13F –

0x130

0x12F –

0x120

0x11F –

0x110

0x10F –

0x100

0x0FF –

0x080

0x07F –

0x000

FIFO access

The

accessed through the TXFIFO (0x3E) and

RXFIFO (0x3F) registers.

The TXFIFO is write only, but may be read

back using RAM access as described in

the previous section. Data is read and

written one byte at a time, as with RAM

access. The RXFIFO is both writeable and

readable. Writing to the RXFIFO should

only be done for debugging or for using

the

(decryption / authentication).

The crystal oscillator must be running

when accessing the FIFOs.

When writing to the TXFIFO, the status

byte (see Table 5) is output for each new

data byte on SO, as shown in Figure 7.

This could be used to detect TXFIFO

underflow (see section RF Data Buffering

section on page 35) while writing data to

the TXFIFO.

Multiple FIFO bytes may be accessed in

one operation, as with the RAM access.

Ember Part Number: 120-0049-000D

RXFIFO

TXFIFO

Byte Ordering

-

MSB

LSB

MSB

LSB

MSB

LSB

MSB

LSB

MSB (Flags)

LSB

MSB

LSB

MSB

LSB

MSB (Flags)

LSB

MSB

LSB

MSB

LSB

MSB

LSB

for

and

security

RXFIFO

Table 6. The

Name

-

SHORTADR

PANID

IEEEADR

CBCSTATE

TXNONCE / TXCTR

KEY1

SABUF

RXNONCE / RXCTR

KEY0

RXFIFO

TXFIFO

operations

may

EM2420

EM2420 Datasheet

be

RAM Memory Space

Description

Not used

16-bit Short address, used for address recognition.

16-bit PAN identifier, used for address recognition.

64-bit IEEE address of current node, used for address

recognition.

Temporary storage for CBC-MAC calculations

Transmitter nonce for in-line authentication and

transmitter counter for in-line encryption.

Encryption key 1

Stand-alone encryption buffer, for plaintext input and

ciphertext output

Receiver nonce for in-line authentication or

receiver counter for in-line decryption.

Encryption key 0

128 bytes receive FIFO

128 bytes transmit FIFO

FIFO access can only be terminated by

setting the CSn pin high once it has been

started.

The FIFO and FIFOP pins also provide

additional information on the data in the

receive FIFO, as will be described in the

Microcontroller

Description section on page 28. Note that

the FIFO and FIFOP pins only apply to

the

underflow flag in the status byte.

The TXFIFO may be flushed by issuing a

SFLUSHTX command strobe. Similarly, a

SFLUSHRX command strobe will flush the

receive FIFO.

Multiple SPI access

Register access, command strobes, FIFO

access and RAM access may be issued

continuously without setting CSn high. For

example, the user may issue a command

strobe, a register write and writing 3 bytes

to the TXFIFO in one operation, as

illustrated in Figure 9. The only exception

is that FIFO and RAM access must be

terminated by setting CSn high.

RXFIFO.

The

Interface

TXFIFO

EM2420

Page 27 of 84

and

has

Pin

its

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