EZLC-4421 HB Silicon Laboratories Inc, EZLC-4421 HB Datasheet - Page 25

EZLC-4421 HB

Manufacturer Part Number

EZLC-4421 HB

Description

Wireless Accessories EZLink Fast Prototype Kit Hiband

Manufacturer

Silicon Laboratories Inc

Datasheet

1.EZLC-4421_HB.pdf (45 pages)

Specifications of EZLC-4421 HB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 25 of 45
Download datasheet (2Mb)

14. Wake-Up Timer Command

The wake-up time period can be calculated by (m7 to m0) and (r4 to r0):

Note:

15. Low Duty-Cycle Command

With this command, autonomous low duty-cycle operation can be set in order to decrease the average power consumption in receive

mode.

Bits 7-1 (d6-d0):

Bit 0 (en): Enables the low duty-cycle Mode. Wake-up timer interrupt is not generated in this mode.

Note: In this operation mode, bit er must be cleared and bit ew must be set in the Power Management Command (page 15).

In low duty-cycle mode the receiver periodically wakes up for a short period of time and checks if there is a valid FSK transmission in

progress. FSK transmission is detected in the frequency range determined by Frequency Setting Command (page 17) plus and

minus the baseband filter bandwidth determined by the Receiver Control Command (page 17). This on-time is automatically

extended while DQD indicates good received signal condition.

When calculating the on-time take into account:

Choosing too short on-time can prevent the crystal oscillator from starting or the DQD signal will not go high even when the received

signal has good quality.

There is an application proposal on page 26. The Si4421 is configured to work in FIFO mode. The chip periodically wakes up and

switches to receiving mode. If valid FSK data received, the chip sends an interrupt to the microcontroller and continues filling the RX

FIFO. After the transmission is over and the FIFO is read out completely and all other interrupts are cleared, the chip goes back to low

power consumption mode.

wake-up

Bit

 For continual operation, the ew bit should be cleared and set at the end of every cycle.

 For future compatibility, use R in a range of 0 and 29.

= 1.03 · M · 2

the crystal oscillator, the synthesizer and the PLL needs time to start, see the AC Characteristics (Turn-on/Turnaround

timings) on page 11

depending on the DQD parameter, the chip needs to receive a few valid data bits before the DQD signal indicates good

signal condition (Data Filter Command, page 19)

The duty-cycle can be calculated by using (d6 to d0) and M. (M is parameter in a Wake-Up Timer Command, see

above). The time cycle is determined by the Wake-Up Timer Command.

duty-cycle= (D · 2 +1) / M · 100%

+ 0.5 [ms]

C80Eh

E196h

POR

Si4421

EZLC-4421 HB Silicon Laboratories Inc, EZLC-4421 HB Datasheet - Page 25

EZLC-4421 HB

Specifications of EZLC-4421 HB

Related parts for EZLC-4421 HB