JN5139-Z01-V NXP Semiconductors, JN5139-Z01-V Datasheet - Page 41

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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if the device is asleep then the interrupt may be used as an event to end the sleep period. See Section 16 for further

details on how they are used during sleep periods. Features include:

A wakeup timer consists of a 32-bit down counter clocked from the 32 kHz system clock. An interrupt or wakeup

event can be generated when the counter reaches zero. On reaching zero the counter will continue to count down

until stopped, which allows the latency in responding to the interrupt to be measured. If an interrupt or wakeup event

is required, the timer interrupt should be enabled before loading the count value for the period. Once the count value

is loaded and counter started, the counter begins to count down; the counter can be stopped at any time through

software control. The counter will remain at the value it contained when the timer was stopped and no interrupt will

be generated. The status of the timers can be read to indicate if the timers are running and/or have expired; this is

useful when the timer interrupts are masked. This operation will reset any expired status flags.

12.3.1 RC Oscillator Calibration

The RC oscillator that can be used to time sleep periods is designed to require very little power to operate and be

self-contained, requiring no external timing components and hence is lower cost. As a consequence of using on-chip

resistors and capacitors, the inherent absolute accuracy and temperature coefficient is lower than that of a crystal

oscillator, but once calibrated the accuracy approaches that of a crystal oscillator. Sleep time periods should be as

close to the desired time as possible in order to allow the device to wake up in time for important events, for example

beacon transmissions in the IEEE802.15.4 protocol. If the sleep time is accurate, the device can be programmed to

wake up very close to the calculated time of the event and so keep current consumption to a minimum. If the sleep

time is less accurate, it will be necessary to wake up earlier in order to be certain the event will be captured. If the

device wakes earlier, it will be awake for longer and so reduce battery life.

In order to allow sleep time periods to be as close to the desired length as possible, the true frequency of the RC

oscillator needs to be determined to better than the initial 30% accuracy. The calibration factor can then be used to

calculate the true number of nominal 32kHz periods needed to make up a particular sleep time. A calibration

reference timer, clocked from the crystal oscillator, is provided to allow comparisons to be made between the RC

clock and the 16MHz crystal oscillator when the JN5139 is awake. Operation is as follows:

For a RC oscillator running at exactly 32kHz the value returned by the calibration procedure should be 10000, for a

calibration period of twenty 32kHz clock periods. If the oscillator is running faster than 32kHz the count will be less

than 10000, if running slower the value will be higher. For a calibration count of 9000, indicating that the RC oscillator

period is running at approximately 35kHz, to time for a period of 2 seconds the timer should be loaded with 71,111

((10000/9000) x (32000 x 2)) rather than 64000.

•

32-bit down-counter

Optionally runs during sleep periods

Clocked from either:

Wakeup timer0 is disabled and programmed with a number of 32kHz ticks

Timer0 event status must be cleared

Calibration mode is enabled which causes the Calibration Reference counter to be zeroed. Both counters

start counting, the wakeup timer decrementing and the calibration counter incrementing

When the wakeup timer reaches zero the Reference Counter is stopped, allowing software to read the

number of 16MHz clock ticks generated during the time represented by the number of 32kHz ticks

programmed in the wakeup timer. The true period of the 32kHz clock can thus be determined and used

when programming a wakeup timer to achieve a better accuracy and hence more accurate sleep periods

•

32kHz RC Oscillator

32kHz External Clock

JN-DS-JN5139 1v9

JN5139-Z01-V NXP Semiconductors, JN5139-Z01-V Datasheet - Page 41

JN5139-Z01-V

Specifications of JN5139-Z01-V

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