SX1239IMLTRT Semtech, SX1239IMLTRT Datasheet - Page 28
SX1239IMLTRT
Manufacturer Part Number
SX1239IMLTRT
Description
IC, RF RECEIVER, 1.02GHz, QFN-24
Manufacturer
Semtech
Datasheet
1.SX1239IMLTRT.pdf
(73 pages)
Specifications of SX1239IMLTRT
Applications
Wireless Sensor Networks, Automated Meter Reading, Home And Building Automation
Receiving Current
16mA
Data Rate
300Kbps
Modulation Type
FSK, OOK
Sensitivity Dbm
-120dBm
Rohs Compliant
Yes
Rf Ic Case Style
QFN
No. Of Pins
24
Sensitivity (dbm)
-120dBm
Supply Voltage Range
1.8V To 3.6V
Operating Temperature Range
-40°C To +85°C
Lead Free Status / Rohs Status
Supplier Unconfirmed
When the AFC is automatically triggered (AfcAutoOn = 1), the user has the option to:
The SX1239 offers an alternate receiver bandwidth setting during the AFC phase, to accommodate large LO drifts. If the
user considers that the received signal may be out of the receiver bandwidth, a higher channel filter bandwidth can be
programmed in RegAfcBw, at the expense of the receiver noise floor, which will impact upon sensitivity.
3.4.17. Optimized Setup for Low Modulation Index Systems
The user should ensure that the programmed offset exceeds the DC canceller’s cutoff frequency, set through DccFreqAfc
in RegAfcBw.
As shown on Figure 12, a standard AFC sequence uses the result of the FEI to correct the LO frequency and align both
local oscillators. When the optimized AFC is enabled (AfcLowBetaOn=1), the receiver’s LO is corrected by “FeiValue +
LowBetaAfcOffset”.
When the optimized AFC routine is enabled, the receiver startup time can be computed as follows (refer to section 4.2.1):
Rev 3 - Jan 2011
ADVANCED COMMUNICATIONS & SENSING
Clear the former AFC correction value, if AfcAutoClearOn = 1
Start the AFC evaluation from the previously corrected frequency. This may be useful in systems in which the LO keeps
on drifting in the “same direction”. Ageing compensation is a good example.
For wide band systems, where AFC is usually not required (XTAL inaccuracies do not typically impact the sensitivity), it
is recommended to offset the LO frequency of the receiver to avoid desensitization. This can be simply done by
modifying Frf in RegFrfLsb. A good rule of thumb is to offset the receiver’s LO by 10% of the expected transmitter
frequency deviation.
For narrow band systems, it is recommended to perform AFC. The SX1239 has a dedicated AFC, enabled when
AfcLowBetaOn in RegAfcCtrl is set to 1. A frequency offset, programmable through LowBetaAfcOffset in RegTestAfc, is
added and is calculated as follows:
TS_RE_AGC&AFC (optimized AFC) = Tana + 4.Tcf + 4.Tdcc + 3.Trssi + 2.Tafc + 2.Tpllafc
RX
RX
Before AFC
FeiValue
FeiValue
Figure 12. Optimized Afc (AfcLowBetaOn=1)
TX
TX
Offset = LowBetaAfcOffset x 488 Hz
f
f
Standard AFC
AfcLowBetaOn = 0
Optimized AFC
AfcLowBetaOn = 1
Page 28
After AFC
AfcValue
AfcValue
RX
TX
&
TX
RX
LowBetaAfcOffset
f
f
DATASHEET
www.semtech.com
SX1239
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