SI2110-D-FMR Silicon Laboratories Inc, SI2110-D-FMR Datasheet - Page 28

SI2110-D-FMR

Manufacturer Part Number

SI2110-D-FMR

Description

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI2110-D-FMR.pdf (98 pages)

Specifications of SI2110-D-FMR

Operating Temperature (min)

Operating Temperature (max)

70C

Operating Temperature Classification

Commercial

Lead Free Status / Rohs Status

Supplier Unconfirmed

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Si2107/08/09/10

In legacy mode, seven different carrier offset estimation

search range scans can be programmed from 0.10 to

~6.0 MHz with register CESR. This mode locates

frequency offsets when the carrier falls within the offset

search range. Smaller search ranges result in faster

search times.

In QuickLock mode, an eighth carrier offset estimation

search range is added. Ranges from 0.10 to ~12.0 MHz

can be programmed with register CESR. QuickLock

mode locates frequency offsets when the 3dB

bandwidth of the channel falls within the offset search

range. When the search range is less than the channel

bandwidth, QuickLock search times further decrease.

When using QuickLock, set the Inband Power

Threshold, 2 dB Bandwidth Threshold, and 3 dB

Bandwidth Threshold registers to the QuickLock

recommended default values before initiating an

acquisition. Refer to Silicon Laboratories Application

Note

Programming Interface Example Software" for the

recommended default values. The recommended

values are documented in the Signal Acquisition section

of the application note.

When carrier offset estimation is complete, the CEL bit

is asserted. If an error is detected during carrier offset

estimation, the CEF bit is set. Carrier offset estimation

commences under the control of the acquisition

sequencer.

After the completion of a search, the estimated carrier

offset is stored in the carrier frequency error register,

CFER. If no signal is found, the CEF bit is asserted. The

value contained in CFER may be optionally transferred

to the CFO register to adjust the search center

frequency and permit the utilization of a smaller search

range for subsequent acquisitions. This relationship can

be expressed by the following equation:

Search center frequency

“AN298:

Si2107/08/09/10

desired

CFO

Application

------- -

Rev. 1.0

6.4.3. Carrier Recovery Loop

The carrier recovery loop is responsible for acquiring

frequency and phase lock to the incoming signal. When

lock is achieved, the carrier recovery lock indicator,

CRL, is asserted. If carrier recovery lock is not achieved

within a predefined timeout period, the device declares

carrier recovery failure by asserting the CRF bit. The

carrier recovery loop commences under the control of

the acquisition sequencer.

6.4.4. Symbol Timing Loop

The symbol timing recovery loop is responsible for

acquiring and tracking the symbol timing of the

incoming data signal. When lock is achieved, the

symbol timing loop lock indicator, STL, is asserted. If

symbol timing lock is not achieved within a predefined

timeout period, the device declares symbol timing loop

failure by asserting the STF bit. The symbol timing

recovery loop commences under the control of the

acquisition sequencer.

6.4.5. Automatic Fade Recovery

The device is designed to automatically recover lock in

the event of a fade condition. Fade recovery is

performed when any stage loses synchronization after

receiver lock has been achieved. It is assumed that

symbol rate, code rate, and puncturing pattern have not

changed; so, these parameters remain fixed during the

attempted reacquisition. The fade recovery sequence is

shown in Figure 15.

The fade recovery sequence continues until either

receiver lock is achieved or a new acquisition is

initiated.

SI2110-D-FMR Silicon Laboratories Inc, SI2110-D-FMR Datasheet - Page 28

SI2110-D-FMR

Specifications of SI2110-D-FMR

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