JN5139-Z01-V NXP Semiconductors, JN5139-Z01-V Datasheet - Page 42

JN5139-Z01-V

Manufacturer Part Number

JN5139-Z01-V

Description

IC MCU ZIGBEE 32BIT 2.4G 56QFN

Manufacturer

NXP Semiconductors

Series

JN5139-Z01Rxr

Datasheets

1.JN5139-Z01-V.pdf (2 pages)

2.JN5139-Z01-V.pdf (82 pages)

Specifications of JN5139-Z01-V

Frequency

2.4GHz

Modulation Or Protocol

802.15.4 Zigbee

Applications

General Purpose

Power - Output

3dBm

Sensitivity

-97dBm

Voltage - Supply

2.2 V ~ 3.6 V

Current - Receiving

34mA

Current - Transmitting

34mA

Data Interface

PCB, Surface Mount

Memory Size

96kB RAM, 192kB ROM

Antenna Connector

PCB, Surface Mount

Operating Temperature

-40°C ~ 85°C

Package / Case

56-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Data Rate - Maximum

Other names

616-1034-2
935293943515
JN5139-Z01-AI
JN5139-Z01-V
JN5139-Z01R1-ARV
JN5139-Z01R1V

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13 Serial Communications

The JN5139 has two independent Universal Asynchronous Receiver / Transmitter (UART) serial communication

interfaces. These provide similar operating features to the industry standard 16550A device operating in FIFO mode.

Each interface performs serial-to-parallel conversion on incoming serial data and parallel-to-serial conversion on

outgoing data from the CPU to external devices. In both directions, a 16-byte deep FIFO buffer allows the CPU to

read and write multiple characters on each transaction. This means that the CPU is freed from handling data on a

character-by-character basis, with the associated high processor overhead. The UARTs have the following features:

The serial interface contains programmable fields that can be used to set number of data bits (5, 6,7 or 8), even, odd,

set-at-1, set-at-0 or no-parity detection and generation of single or multiple stop bit, (for 5 bit data, multiple is 1.5 stop

bits; for 6, 7 or 8 data bits, multiple is 2 bits).

The baud rate is programmable up to 1Mbps, standard baud rates such as 4800, 9600, 19.2k, 38.4k etc. can be

configured.

Two hardware flow control signals are provided: Clear-To-Send (CTS) and Request-To-Send (RTS). CTS is an

indication sent by an external device to the UART that it is ready to receive data. RTS is an indication sent by the

UART to the external device that it is ready to receive data. RTS is controlled from software, while the value of CTS

can be read. Monitoring and control of CTS and RTS is a software activity, normally performed as part of interrupt

processing. The signals do not control parts of the UART hardware, but simply indicate to software the state of the

UART external interface. Alternatively, the Automatic Flow Control mode can be set where the hardware controls the

•

Interrupt

Internal

RTS

CTS

Emulates behaviour of industry standard NS16450 and NS16550A UARTs

16 byte transmit and receive FIFO buffers reduce interrupts to CPU, with direct access to fill levels of each

Adds / deletes standard start, stop and parity communication bits to or from the serial data

Independently controlled transmit, receive, status and data sent interrupts

Optional modem flow control signals CTS and RTS

Fully programmable data formats: baud rate, start, stop and parity settings

False start bit detection, parity, framing and FIFO overrun error detect and break indication

Internal diagnostic capabilities: loop-back controls for communications link fault isolation

Flow control by software or automatically by hardware

Interrupt

Modem

Signals

Logic

Interrupt

Modem

Control

Enable

Status

Figure 33 UART Block Diagram

JN-DS-JN5139 1v9

Control

Divisor

Status

Latch

FIFO

Line

Transmitter FIFO

Receiver FIFO

Baud Generator

Logic

Transmitter Shift

Receiver Shift

Transmitter

Receiver

Logic

RXD

TXD

JN5139-Z01-V NXP Semiconductors, JN5139-Z01-V Datasheet - Page 42

JN5139-Z01-V

Specifications of JN5139-Z01-V

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