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RFM95 Datasheet, PDF (25/121 Pages) List of Unclassifed Manufacturers – Low Power Long Range Transceiver Module
WIRELESS & SENSING
RFM95/96/97/98(W)
PRELIMINARY
DATASHEET
Forward error correction is particularly efficient in improving the reliability of the link in the presence of interference. So that
the coding rate (and so robustness to interference) can be changed in response to channel conditions - the coding rate can
optionally be included in the packet header for use by the receiver. Please consult Section 4.1.1.6 for more information on
the LoRaTM packet and header.
4.1.1.4. Signal Bandwidth
An increase in signal bandwidth permits the use of a higher effective data rate, thus reducing transmission time at the
expense of reduced sensitivity improvement. There are of course regulatory constraints in most countries on the
permissible occupied bandwidth. Contrary to the FSK modem which is described in terms of the single sideband
bandwidth, the LoRaTM modem bandwidth refers to the double sideband bandwidth (or total channel bandwidth). The range
of bandwidths relevant to most regulatory situations is given in the LoRaTM modem specifications table (see Section 2.4.5).
Bandwidth
(kHz)
7.8
10.4
15.6
20.8
31.2
41.7
62.5
125
250
500
Spreading Factor
12
12
12
12
12
12
12
12
12
12
Coding rate
4/5
4/5
4/5
4/5
4/5
4/5
4/5
4/5
4/5
4/5
Nominal Rb
(bps)
18
24
37
49
73
98
146
293
586
1172
Note In the lower band (169 MHz), the 250 kHz and 500 kHz bandwidths are not supported.
4.1.1.5. LoRaTM Transmission Parameter Relationship
With a knowledge of the key parameters that can be controlled by the user we define the LoRaTM symbol rate as:
Rs
=
----W----
2SF
where BW is the programmed bandwidth and SF is the spreading factor. The transmitted signal is a constant envelope
signal. Equivalently, one chip is sent per second per Hz of bandwidth.
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