SI4460-C2A-GM Datasheet, PDF(31/53 Page) Silicon Laboratories – HIGH-PERFORMANCE, LOW-CURRENT TRANSCEIVER

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SI4460-C2A-GM Datasheet, PDF (31/53 Pages) Silicon Laboratories – HIGH-PERFORMANCE, LOW-CURRENT TRANSCEIVER

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Si4463/61/60-C

5.2.5. RSSI Jump Indicator (Collision Detection)

The chip is capable of detecting a jump in RSSI in either direction (i.e., either a signal increase or a signal

decrease). Both polarities of jump detection may be enabled simultaneously, resulting in detection of a Jump-Up or

Jump-Down event. This may be used to detect whether a secondary interfering signal (desired or undesired) has

âcollidedâ with reception of the current packet. An interrupt flag or GPIO pin may be configured to notify the host

MCU of the Jump event. The change in RSSI level required to trigger the Jump event is programmable through the

MODEM_RSSI_JUMP_THRESH API property.

The chip may be configured to reset the RX state machine upon detection of an RSSI Jump, and thus to

automatically begin reacquisition of the packet. The chip may also be configured to generate an interrupt.

This functionality is intended to detect an abrupt change in RSSI level and to not respond to a slow, gradual change

in RSSI level. This is accomplished by comparing the difference in RSSI level over a programmable time period. In

this fashion, the chip effectively evaluates the slope of the change in RSSI level.

The arrival of a desired packet (i.e., the transition from receiving noise to receiving a valid signal) will likely be

detected as an RSSI Jump event. For this reason, it is recommended to enable this feature in mid-packet (i.e., after

signal qualification, such as PREAMBLE_VALID.) Refer to the API documentation for configuration options.

5.3. Synthesizer

An integrated Sigma Delta (ïï) Fractional-N PLL synthesizer capable of operating over the bands from 142â175,

283â350, 350â525, and 850â1050 MHz. Using a ïï synthesizer has many advantages; it provides flexibility in

choosing data rate, deviation, channel frequency, and channel spacing. The transmit modulation is applied directly

to the loop in the digital domain through the fractional divider, which results in very precise accuracy and control

over the transmit deviation. The frequency resolution in the 850â1050 MHz band is 28.6 Hz with finer resolution in

the other bands. The nominal reference frequency to the PLL is 30 MHz, but any XTAL frequency from 25 to

32 MHz may be used. The modem configuration calculator in WDS will automatically account for the XTAL

frequency being used. The PLL utilizes a differential LC VCO with integrated on-chip inductors. The output of the

VCO is followed by a configurable divider, which will divide the signal down to the desired output frequency band.

5.3.1. Synthesizer Frequency Control

The frequency is set by changing the integer and fractional settings to the synthesizer. The WDS calculator will

automatically provide these settings, but the synthesizer equation is shown below for convenience. The APIs for

setting the frequency are FREQ_CONTROL_INTE, FREQ_CONTROL_FRAC2, FREQ_CONTROL_FRAC1, and

FREQ_CONTROL_FRAC0.

RF_channel

ï¦

ï¨

fc_inte

-f-c---2_----f1-r-9-a---c--ï¸ï¶

Note: The fc_frac/219 value in the above formula has to be a number between 1 and 2.

Table 14. Output Divider (Outdiv) Values for the Si4463/61/60

Outdiv

Lower (MHz)

142

284

350

420

850

Upper (MHz)

175

350

420

525

1050

Rev 1.0

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