Difference between revisions of "MM002-LS 21Wxx AT Commands"

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(AT+RF=SPER,)
(AT+RFTX=SET)
 
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[[Category:MM002]]
 
[[Category:MM002]]
 
[[Category:Modules]]
 
[[Category:Modules]]
<span style="color:red">!!! UNDER CONSTRUCTION !!!</span>.
+
<span style="color:red">!!! UNDER CONSTRUCTION !!!</span>
  
 
AT commands are used as an interface with Nemeus Communication modules. Modules can be driven at 3 different levels:
 
AT commands are used as an interface with Nemeus Communication modules. Modules can be driven at 3 different levels:
Line 174: Line 174:
  
 
|  
 
|  
Spreading Factor in LoRa mode
+
Spreading Factor in LoRa™ mode
  
 
Data rate in FSK mode
 
Data rate in FSK mode
Line 188: Line 188:
  
 
|  
 
|  
Coding Rate (LoRa mode only)
+
Coding Rate (LoRa™ mode only)
  
 
|  
 
|  
Line 238: Line 238:
  
 
|  
 
|  
When true, PHY payload is constant (no header)
+
In RFTX commands: false means PHY header indicates the payload size, true means PHY payload is constant (no header) and equal to the sent payload length
 +
 
 +
In RFRX commands: 0 means Rx payload length is decoded in PHY header, >0 means the Rx payload size is constant and equal to &lt;fixed_len&gt; value
  
 
|  
 
|  
True or false
+
True or false (RFTX)
 +
 
 +
Decimal value (RFRX)
  
 
|-
 
|-
Line 248: Line 252:
  
 
|  
 
|  
Flag for IQ inversion in TX or RX (LoRa mode only)
+
Flag for IQ inversion in TX or RX (LoRa™ mode only)
  
 
|  
 
|  
Line 418: Line 422:
 
'''&lt;mode&gt;'''
 
'''&lt;mode&gt;'''
 
|  
 
|  
LoRa MAC transmission mode
+
LoRa™WAN transmission mode
 
|  
 
|  
 
0 for confirmed data
 
0 for confirmed data
Line 707: Line 711:
 
=== AT+RF=RPER ===
 
=== AT+RF=RPER ===
  
This command is used to read the Packet Error Rate state.
+
This command is used to read the Packet Error Rate state, the power offset, the RSSI offset for LoRa™/LoRa™WAN carrier sensing, the RSSI offset for FSK/SIGFOX™ carrier sensing and the frequency offset for SIGFOX™ Tx.
  
 
==== Response ====
 
==== Response ====
  
 
Always OK.
 
Always OK.
 +
 +
+RF: <per_state>,<pwroffset>,<loracsoffset>,<fskcsoffset>,<freqoffset>
  
 
==== Example ====
 
==== Example ====
 
  AT+RF=RPER
 
  AT+RF=RPER
  +RF: false
+
  +RF: false,0,12,-5,0
 
  OK
 
  OK
 
<br>
 
<br>
 
----
 
----
=== AT+RF=SPER, ===  
+
 
This command is used to set the Packet Error Rate state, the power offset, the RSSI offset for LoRa/LoRaWAN carrier sensing, the RSSI offset for FSK/Sigfox carrier sensing and the frequency offset for Sigfox Tx.
+
=== AT+RF=SPER ===  
 +
This command is used to set the Packet Error Rate state, the power offset, the RSSI offset for LoRa™/LoRa™WAN carrier sensing, the RSSI offset for FSK/SIGFOX™ carrier sensing and the frequency offset for SIGFOX™ Tx.
  
 
The following formalism is used. It can be checked by the AT+RF=SPER?command:
 
The following formalism is used. It can be checked by the AT+RF=SPER?command:
Line 726: Line 733:
 
+RF=SPER,&lt;per_state&gt;,&lt;pwroffset&gt;,&lt;loracsoffset&gt;,&lt;fskcsoffset&gt;,&lt;freqoffset&gt;
 
+RF=SPER,&lt;per_state&gt;,&lt;pwroffset&gt;,&lt;loracsoffset&gt;,&lt;fskcsoffset&gt;,&lt;freqoffset&gt;
  
&lt;per_state&gt; PER state, unchanged when absent.
+
&lt;per_state&gt; PER state, unchanged when absent (string true or false).
  
 
&lt;pwroffset&gt; is the Power offset (signed decimal in dBm)
 
&lt;pwroffset&gt; is the Power offset (signed decimal in dBm)
  
&lt;loracsoffset&gt; is the RSSI offset in LoRa (signed decimal in dB)
+
&lt;loracsoffset&gt; is the RSSI offset in LoRa™ (signed decimal in dB)
  
&lt;fskcsoffset&gt; is the RSSI offset in Fsk and Sigfox (signed decimal in dB)
+
&lt;fskcsoffset&gt; is the RSSI offset in Fsk and SIGFOX™ (signed decimal in dB)
  
&lt;freqoffset&gt; is the frequency offset in Sigfox (signed decimal in Hz)
+
&lt;freqoffset&gt; is the frequency offset in SIGFOX™ (signed decimal in Hz)
  
  
Line 753: Line 760:
 
=== AT+RF=RSW ===
 
=== AT+RF=RSW ===
  
This command is used to read the current LoRa and FSK synchro words. Synchro words are in hexadecimal format (see formalism on SSW command)
+
This command is used to read the current LoRa™ and FSK synchro words. Synchro words are in hexadecimal format (see formalism on SSW command)
  
 
==== Response ====
 
==== Response ====
Line 765: Line 772:
 
<br>
 
<br>
 
----
 
----
=== AT+RF=SSW, ===  
+
 
 +
=== AT+RF=SSW ===  
 
This command is used to set the synchro words.
 
This command is used to set the synchro words.
  
 
AT+RF=SSW,&lt;LoRa_SyncWord&gt;,&lt;Fsk_SyncWord&gt;
 
AT+RF=SSW,&lt;LoRa_SyncWord&gt;,&lt;Fsk_SyncWord&gt;
  
&lt;LoRa_SyncWord&gt; LoRa Synchro Word (one byte)
+
&lt;LoRa_SyncWord&gt; LoRa™ Synchro Word (one byte encoded as hexas digits)
  
&lt;Fsk_SyncWord&gt; FSK Synchro Word (up to six bytes)
+
&lt;Fsk_SyncWord&gt; FSK Synchro Word (up to six bytes encoded as hexa digits)
  
  
Line 788: Line 796:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+RFTX=HELP ===
 
=== AT+RFTX=HELP ===
  
Line 812: Line 821:
 
Always OK.
 
Always OK.
  
+RFTX: &lt;mod&gt;,&lt;freq&gt;,&lt;pwr&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;txcrcon&gt;,&lt;preamble&gt;,&lt;fdev&gt;,&lt;fixedlen&gt;,&lt;txiqinv&gt;,&lt;rxw1&gt;,&lt;rxw2&gt;,&lt;tstamp&gt;,&lt;symbtimeout&gt;,&lt;rxiqinv&gt;,&lt;rxcrcon&gt;
+
+RFTX: &lt;mod&gt;,&lt;freq&gt;,&lt;pwr&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;txcrcon&gt;,&lt;preamble&gt;,&lt;fdev&gt;,&lt;fixed_len&gt;,&lt;txiqinv&gt;,&lt;rxw1&gt;,&lt;rxw2&gt;,&lt;tstamp&gt;,&lt;symbtimeout&gt;,&lt;rxiqinv&gt;,&lt;rxcrcon&gt;
  
 
==== Example ====
 
==== Example ====
 
  AT+RFTX=?
 
  AT+RFTX=?
  +RFTX :  LORA,868100000,14,125000,7,1,true,8,0,false,false,0,0,0,5,false,true
+
  +RFTX :  LORA,868100000,14,125000,7,1,true,8,0,false,false,0,0,0,5,false,true,false
 
  OK
 
  OK
 
<br>
 
<br>
 
----
 
----
=== AT+RFTX=SET, ===  
+
 
 +
=== AT+RFTX=SET ===  
 
Write Tx parameters. This command does not need the RF layer to be ON. Only modified parameters can be specified.
 
Write Tx parameters. This command does not need the RF layer to be ON. Only modified parameters can be specified.
  
 
The following formalism is used. It can be checked by the '''''AT+RFTX=SET?''''' command:
 
The following formalism is used. It can be checked by the '''''AT+RFTX=SET?''''' command:
  
+RFTX= SET,&lt;mod&gt;,&lt;freq&gt;,&lt;pwr&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;txcrcon&gt;,&lt;preamble&gt;,&lt;fdev&gt;,&lt;fixedlen&gt;,&lt;txiqinv&gt;,&lt;rxw1&gt;,&lt;rxw2&gt;,&lt;tstamp&gt;,&lt;symbtimeout&gt;,&lt;rxiqinv&gt;,&lt;rxcrcon&gt;,&lt;rxaftertx&gt;
+
+RFTX= SET,&lt;mod&gt;,&lt;freq&gt;,&lt;pwr&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;txcrcon&gt;,&lt;preamble&gt;,&lt;fdev&gt;,&lt;fixed_len&gt;,&lt;txiqinv&gt;,&lt;rxw1&gt;,&lt;rxw2&gt;,&lt;tstamp&gt;,&lt;symbtimeout&gt;,&lt;rxiqinv&gt;,&lt;rxcrcon&gt;
  
 
The parameters &lt;symbtimeout&gt;, &lt;rxiqinv&gt; and &lt;rxcrcon&gt; are used only when an Rx window is specified.
 
The parameters &lt;symbtimeout&gt;, &lt;rxiqinv&gt; and &lt;rxcrcon&gt; are used only when an Rx window is specified.
  
 
&lt;tstamp&gt; is the absolute clock time of the module. If the time is over, the frame is immediately transmitted. Usually this timestamp is a delay added to an Rx timestamp (feature not fully implemented)
 
&lt;tstamp&gt; is the absolute clock time of the module. If the time is over, the frame is immediately transmitted. Usually this timestamp is a delay added to an Rx timestamp (feature not fully implemented)
 +
 +
When &lt;fixed_len&gt; is true then the fixed length value is the size of the sent payload and the Rx side must know this size.
  
 
==== Response ====
 
==== Response ====
Line 967: Line 979:
 
Always OK.
 
Always OK.
  
+RFRX: &lt;mod&gt;,&lt;freq&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;rxcrcon&gt;,&lt;fixedlen&gt;,&lt;rxiqinv&gt;,&lt;''timeout''&gt;,&lt;''symbtimeout''&gt;,&lt;lnaboost&gt;
+
+RFRX: &lt;mod&gt;,&lt;freq&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;rxcrcon&gt;,&lt;fixed_len&gt;,&lt;rxiqinv&gt;,&lt;''timeout''&gt;,&lt;''symbtimeout''&gt;,&lt;lnaboost&gt;
  
 
&lt;''timeout''&gt; and &lt;''symbtimeout''&gt; parameters are no more used by radio stack (they are still present for compatibility with previous module versions).
 
&lt;''timeout''&gt; and &lt;''symbtimeout''&gt; parameters are no more used by radio stack (they are still present for compatibility with previous module versions).
Line 977: Line 989:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+RFRX=SET, ===  
 
=== AT+RFRX=SET, ===  
 
Set Rx parameters. Only modified parameter can be specified.
 
Set Rx parameters. Only modified parameter can be specified.
  
The following formalism is used. It can be check by the '''''AT+RFRX=SET?'''''command:&lt;mod&gt;,&lt;freq&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;rxcrcon&gt;,&lt;fixedlen&gt;,&lt;rxiqinv&gt;,&lt;''timeout''&gt;,&lt;''symbtimeout''&gt;,&lt;lnaboost&gt;
+
The following formalism is used. It can be check by the '''''AT+RFRX=SET?'''''
 +
 
 +
command:&lt;mod&gt;,&lt;freq&gt;,&lt;bw&gt;,&lt;dr&gt;,&lt;cr&gt;,&lt;rxcrcon&gt;,&lt;fixed_len&gt;,&lt;rxiqinv&gt;,&lt;''timeout''&gt;,&lt;''symbtimeout''&gt;,&lt;lnaboost&gt;
  
 
&lt;''timeout''&gt; and &lt;''symbtimeout''&gt; parameters are no more used by radio stack (they are still present for compatibility with previous module versions).
 
&lt;''timeout''&gt; and &lt;''symbtimeout''&gt; parameters are no more used by radio stack (they are still present for compatibility with previous module versions).
Line 996: Line 1,011:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+RFRX=RECV (for test purpose) ===
 
=== AT+RFRX=RECV (for test purpose) ===
  
Line 1,108: Line 1,124:
 
=== Informative examples ===
 
=== Informative examples ===
  
==== LoRa Communication ====
+
==== LoRa™ Communication ====
  
 
Below is an example where two Modules are configured to communicate on a specific frequency.
 
Below is an example where two Modules are configured to communicate on a specific frequency.
Line 1,167: Line 1,183:
 
  OK
 
  OK
 
|  
 
|  
:set Tx modulation LoRa, freq 868100000, Tx power 14dbm, bandwidth 125KHz, SF7
+
:set Tx modulation LoRa™, freq 868100000, Tx power 14dbm, bandwidth 125KHz, SF7
 
|-
 
|-
 
|  
 
|  
Line 1,267: Line 1,283:
 
When an AT client application just need to send and receive frames, the following commands are used:
 
When an AT client application just need to send and receive frames, the following commands are used:
  
* AT+MAC=? to know the current MAC mode (ABP or OTAA, Class A or C).
+
* AT+MAC=? to know the current MAC mode (OFF/ON, ABP/OTAA, Class A/C).
 
* AT+MAC=OFF and AT+MAC=ON,… to change the MAC mode.
 
* AT+MAC=OFF and AT+MAC=ON,… to change the MAC mode.
 
* AT+MAC=DEVADRR and unsolicited +MAC: DEVADDR,… to know the current state of an OTAA device.
 
* AT+MAC=DEVADRR and unsolicited +MAC: DEVADDR,… to know the current state of an OTAA device.
 
* AT+MAC=SNDBIN,… to send uplink frame.
 
* AT+MAC=SNDBIN,… to send uplink frame.
 
* +MAC: RCVBIN,… when receiving downlink frames and to know Rx windows termination.
 
* +MAC: RCVBIN,… when receiving downlink frames and to know Rx windows termination.
 +
* <span style="color:red">+MAC: END to know when the LoRa™WAN layer is back to idle.</span>
 
   
 
   
 
All other commands are not really required, they are mainly used by NemeusATK Java application to manage the LoRa™WAN layer (for IOT purpose, device provisioning …).
 
All other commands are not really required, they are mainly used by NemeusATK Java application to manage the LoRa™WAN layer (for IOT purpose, device provisioning …).
Line 1,288: Line 1,305:
 
  AT+MAC= HELP
 
  AT+MAC= HELP
 
  +MAC: &lt;cmd&gt;,&lt;param_1&gt;,…,&lt;param_N&gt;
 
  +MAC: &lt;cmd&gt;,&lt;param_1&gt;,…,&lt;param_N&gt;
  +MAC: &lt;cmd&gt; are ON,OFF,?,SCH,RCH,SDR,RDR,STI,RTI,SRX2,RRX2,SNDTXT,SNDBIN,RCVTXT,RCVBIN,STOPRCV,SNDLCR,DEVUID,DEVADDR,APPUID,APPKEY,NSKEY,APPSKEY
+
  +MAC: &lt;cmd&gt; are ON,OFF,?,SCH,RCH,SDR,RDR,STI,RTI,SRX,RRX,SNDTXT,SNDBIN,RCVTXT,RCVBIN,STOPRCV,SNDLCR,DEVUID,DEVADDR,APPUID
 
  +MAC: &lt;cmd&gt;? Lists parameters of &lt;cmd&gt; if any
 
  +MAC: &lt;cmd&gt;? Lists parameters of &lt;cmd&gt; if any
 
  OK
 
  OK
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=ON, ===  
+
 
 +
=== AT+MAC=ON ===  
 
This command is used to start LoRa™WAN layer and is mandatory in order to use most of MAC commands listed in this section (unless otherwise stated).
 
This command is used to start LoRa™WAN layer and is mandatory in order to use most of MAC commands listed in this section (unless otherwise stated).
  
Line 1,300: Line 1,318:
 
  ''AT+MAC=ON,&lt;minor_ver&gt;,&lt;class&gt;,&lt;otaa&gt;''
 
  ''AT+MAC=ON,&lt;minor_ver&gt;,&lt;class&gt;,&lt;otaa&gt;''
  
*&lt;minor_ver&gt; can be 1 or 3 (default is 3 for LoRa™WAN V1.0). V1 is no more maintained.
+
*&lt;minor_ver&gt; <span style="color:red">is deprecated, only the default value (3) is accepted</span>
 
*&lt;class&gt; is A or C.
 
*&lt;class&gt; is A or C.
 
*&lt;otaa&gt; is 0 for ABP and 1 for OTAA.
 
*&lt;otaa&gt; is 0 for ABP and 1 for OTAA.
Line 1,315: Line 1,333:
 
Start LoRa™WAN layer in class A with OTAA:
 
Start LoRa™WAN layer in class A with OTAA:
  
  AT+MAC=ON,3,A,1
+
  AT+MAC=ON,,A,1
 
  OK
 
  OK
 
<br>
 
<br>
Line 1,340: Line 1,358:
 
Always OK.
 
Always OK.
  
+MAC: &lt;state&gt;,&lt;minor_ver&gt;,&lt;class&gt;,&lt;ch_pages&gt;,&lt;ism_band&gt;,&lt;otaa&gt;
+
+MAC: &lt;state&gt;,&lt;minor_ver&gt;,&lt;class&gt;,&lt;ch_pages&gt;,&lt;ism_band&gt;,&lt;otaa&gt;<span style="color:red">,&lt;lwan_fw_ver&gt;,&lt;lwan_prot_ver&gt;,&lt;lwan_rp_ver&gt;</span>
  
 
&lt;state&gt; is ON, OFF or DUAL. DUAL means that LoRa™WAN and SIGFOX™ stacks are both ON.
 
&lt;state&gt; is ON, OFF or DUAL. DUAL means that LoRa™WAN and SIGFOX™ stacks are both ON.
  
&lt;minor_ver&gt; can be '''V'''1 or '''V'''3 (default is 3 for LoRa™WAN V1.0).
+
&lt;minor_ver&gt; <span style="color:red">always '''V'''3.</span>
  
 
&lt;class&gt; is A or C.
 
&lt;class&gt; is A or C.
  
&lt;page&gt; is the number of pages of 16 channels available at LoRa™WAN layer (in terms of memory space).
+
&lt;page&gt; is the number of pages of 16 channels available at LoRa™WAN layer (in terms of memory space), <span style="color:red">1 page for EU863-870, AS923 and RU864-870, 5 pages for US902-928.</span>.
  
&lt;ism_band&gt; is 4 for EU433MHz, 7 for China779-787MHz, 8 is EU863-870MHz, 9 for US902-928MHz and 10 for AS923MHz. ISM band can’t be modified dynamically, it is set at compilation time.
+
&lt;ism_band&gt; is 8 for EU863-870MHz, 9 for US902-928MHz, 10 for AS923MHz and 13 for RU864-870MHz. ISM band can’t be modified dynamically, it is set at compilation time.
  
&lt;otaa&gt; is 0 or 2 for ABP and 1 for OTAA (2 means ABP, and OTAA is not supported by the module).
+
&lt;otaa&gt; is 0 for ABP and 1 for OTAA.
 +
 
 +
<span style="color:red">&lt;lwan_fw_ver&gt; is the firmware version of the LoRa™WAN stack</span>
 +
 
 +
<span style="color:red">&lt;lwan_prot_ver&gt; is the version of the LoRa™WAN protocol specification</span>
 +
 
 +
<span style="color:red">&lt;lwan_rp_ver&gt; is the version of the regional parameters specification</span>
  
 
<br>
 
<br>
Line 1,358: Line 1,382:
 
==== Example ====
 
==== Example ====
  
A class A US902-928MHz device with 80 channels (5*16) which doesn’t support OTAA:
+
A class A US902-928MHz device with 80 channels (5*16) in OTAA:
  
 
  AT+MAC=?
 
  AT+MAC=?
  +MAC: ON,V3,A,5,9,2
+
  +MAC: ON,V3,A,5,9,1<span style="color:red">,1.0.0.0,1.0.4.0,1.0.1.0</span>
 
  OK
 
  OK
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SNDBIN, ===  
+
 
 +
=== AT+MAC=SNDBIN ===  
 
Binary frame transmission.
 
Binary frame transmission.
  
AT+MAC= SNDBIN,&lt;binpyload&gt;,&lt;nbrepeat&gt;,&lt;port&gt;,&lt;mode&gt;
+
AT+MAC= SNDBIN,&lt;binpayload&gt;,&lt;nbrepeat&gt;,&lt;port&gt;,&lt;mode&gt;<span style="color:red">,&lt;add_tx_rx_info&gt;,&lt;dev_time_req&gt;</span>
  
 
If &lt;mode&gt; value is 0 then the frame is sent in unacknowledged mode (default value when mode is omitted).
 
If &lt;mode&gt; value is 0 then the frame is sent in unacknowledged mode (default value when mode is omitted).
Line 1,374: Line 1,399:
 
If &lt;mode&gt; value is &gt; 0, then the frame is sent in acknowledged mode.
 
If &lt;mode&gt; value is &gt; 0, then the frame is sent in acknowledged mode.
  
&lt;nbrepeat&gt; specifies the number of repetitions in acknowledged mode (0 when omitted). In unacknowledged mode nbrep is used instead (see AT+MAC=RDR command).
+
&lt;nbrepeat&gt; specifies the number of repetitions in acknowledged mode (0 when omitted). <span style="color:red">Since LoRaWANV1.0.4 the &lt;nbtrans&gt; parameter is also used in acknowledged mode (see RDR/SDR commands), thus if (&lt;nbrepeat&gt;+1) <= &lt;nbtrans&gt; then the frame will be sent &lt;nbtrans&gt; times, if (&lt;nbrepeat&gt;+1) > &lt;nbtrans&gt; then the frame will be sent 2*&lt;nbtrans&gt; times, ...</span>
  
 
If &lt;port&gt; is omitted then port 2 is used by default (port 1 is reserved to embedded generic application).
 
If &lt;port&gt; is omitted then port 2 is used by default (port 1 is reserved to embedded generic application).
 +
 +
<span style="color:red">if &lt;add_tx_rx_info&gt; > 0 then for each transmission performed and each Rx performed the following responses are sent after the +RCVBIN:</span>
 +
 +
<span style="color:red">+MAC: TXINFO,&lt;tx_index&gt;,&lt;tx_freq&gt;,&lt;toa&gt;</span>
 +
 +
<span style="color:red">+MAC: RXINFO,&lt;rx_index&gt;,&lt;rx_freq&gt;,&lt;toa&gt;</span>
 +
 +
<span style="color:red">if &lt;dev_time_req&gt; > 0 then a device time request is added in the MAC header of the uplink frame</span>
 +
  
 
==== Response ====
 
==== Response ====
Line 1,408: Line 1,442:
  
 
Sent for each enabled channel.
 
Sent for each enabled channel.
 +
 +
<br>
 +
 +
<span style="color:red">+MAC: END</span>
 +
 +
<span style="color:red">To indicate when LoRa™WAN layer is back to idle.</span>
  
 
<br>
 
<br>
  
 
==== Example ====
 
==== Example ====
  AT+MAC=SNDBIN,1A2B3C,3,1,0
+
  AT+MAC=SNDBIN,1A2B3C,3,2,0
 
  +MAC: SND,4355
 
  +MAC: SND,4355
 
  +MAC: SND,0
 
  +MAC: SND,0
Line 1,419: Line 1,459:
 
  +MAC: RCH,2,,,,,4480,0
 
  +MAC: RCH,2,,,,,4480,0
 
  OK
 
  OK
 +
+MAC: RCVBIN,2,false,,0.00,0.00
 +
<span style="color:red">+MAC: END</span>
 
  On duty cycle expiry (4480 ms after the Tx), channels become available:
 
  On duty cycle expiry (4480 ms after the Tx), channels become available:
 
  +MAC: RCH,0,,,,,0,0
 
  +MAC: RCH,0,,,,,0,0
Line 1,425: Line 1,467:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=RCVBIN, ===  
+
 
 +
=== AT+MAC=RCVBIN ===  
 
Register for receiving downlink frames on specified port, payload is output as binary hexa string.
 
Register for receiving downlink frames on specified port, payload is output as binary hexa string.
  
Line 1,463: Line 1,506:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SNDTXT, ===  
+
 
 +
=== AT+MAC=SNDTXT ===  
 
It is the same command as AT+MAC=SNDBIN except that the payload is interpreted as text and is transmitted as received on serial link (no translation from hexa ASCII to hexa binary is performed).
 
It is the same command as AT+MAC=SNDBIN except that the payload is interpreted as text and is transmitted as received on serial link (no translation from hexa ASCII to hexa binary is performed).
  
AT+MAC= SNDTXT,&lt;textpayload&gt;,&lt;nbrepeat&gt;,&lt;port&gt;,&lt;mode&gt;
+
AT+MAC= SNDTXT,&lt;textpayload&gt;,&lt;nbrepeat&gt;,&lt;port&gt;,&lt;mode&gt;,<span style="color:red">&lt;add_tx_rx_info&gt;,&lt;dev_time_req&gt;</span>
  
 
Text frame transmission.
 
Text frame transmission.
Line 1,474: Line 1,518:
 
If &lt;mode&gt; value is &gt; 0, then the frame is sent in acknowledged mode.
 
If &lt;mode&gt; value is &gt; 0, then the frame is sent in acknowledged mode.
  
&lt;nbrepeat&gt; specifies the number of repetitions in acknowledged mode (0 when omitted). In unacknowledged mode nbrep is used instead (see AT+MAC=RDR command).
+
&lt;nbrepeat&gt; specifies the number of repetitions in acknowledged mode (0 when omitted). <span style="color:red">Since LoRaWANV1.0.4 the &lt;nbtrans&gt; parameter is also used in acknowledged mode (see RDR/SDR commands), thus if (&lt;nbrepeat&gt;+1) <= &lt;nbtrans&gt; then the frame will be sent &lt;nbtrans&gt; times, if (&lt;nbrepeat&gt;+1) > &lt;nbtrans&gt; then the frame will be sent 2*&lt;nbtrans&gt; times, ...</span>
 +
 
 +
If &lt;port&gt; is omitted then port 2 is used by default (port 1 is reserved to embedded generic application).
 +
 
 +
<span style="color:red">if &lt;add_tx_rx_info&gt; > 0 then for each transmission performed and each Rx performed the following responses are sent after the +RCVBIN:</span>
 +
 
 +
<span style="color:red">+MAC: TXINFO,&lt;tx_index&gt;,&lt;tx_freq&gt;,&lt;toa&gt;</span>
 +
 
 +
<span style="color:red">+MAC: RXINFO,&lt;rx_index&gt;,&lt;rx_freq&gt;,&lt;toa&gt;</span>
 +
 
 +
<span style="color:red">if &lt;dev_time_req&gt; > 0 then a device time request is added in the MAC header of the uplink frame</span>
  
If &lt;port&gt; is omitted then port 2 is used by default (port 1 is reserved to embedded generic application)
 
  
 
==== Response ====
 
==== Response ====
Line 1,512: Line 1,565:
  
 
==== Example ====
 
==== Example ====
  AT+MAC= SNDTXT,HELLO WORLD,3,1,0
+
  AT+MAC=SNDBIN,HELLO WORLD,3,2,0
 
  +MAC: SND,4355
 
  +MAC: SND,4355
 
  +MAC: SND,0
 
  +MAC: SND,0
Line 1,519: Line 1,572:
 
  +MAC: RCH,2,,,,,4480,0
 
  +MAC: RCH,2,,,,,4480,0
 
  OK
 
  OK
 +
+MAC: RCVBIN,2,false,,0.00,0.00
 +
<span style="color:red">+MAC: END</span>
 
  On duty cycle expiry (4480 ms after the Tx), channels become available:
 
  On duty cycle expiry (4480 ms after the Tx), channels become available:
 
  +MAC: RCH,0,,,,,0,0
 
  +MAC: RCH,0,,,,,0,0
Line 1,525: Line 1,580:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=RCVTXT, ===  
+
 
 +
=== AT+MAC=RCVTXT ===  
 
Register for receiving downlink frames on specified port, payload is output as text string (translation to binary hexa string is not performed).
 
Register for receiving downlink frames on specified port, payload is output as text string (translation to binary hexa string is not performed).
  
Line 1,555: Line 1,611:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC= STOPRCV, ===  
+
 
 +
=== AT+MAC= STOPRCV ===  
 
Unregister for receiving downlink frames on specified port.
 
Unregister for receiving downlink frames on specified port.
  
Line 1,570: Line 1,627:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SNDLCR, ===  
+
 
 +
=== AT+MAC=SNDLCR ===  
 
Send a Link Check Request.
 
Send a Link Check Request.
  
AT+MAC=SNDLCR,&lt;nbrepeat&gt;
+
AT+MAC=SNDLCR,&lt;nb_tx&gt;<span style="color:red">,&lt;add_tx_rx_info&gt;</span>
  
&lt;nbrepeat&gt; = 0 means the LCR message is sent in unack mode on port 0.
+
&lt;nb_tx&gt; = 0 means the LCR message is sent in unack mode on port 0.
 +
 
 +
&lt;nb_tx&gt; != 0 means the LCR message is sent in ack mode on port 0. <span style="color:red">Since LoRaWANV1.0.4 the &lt;nbtrans&gt; parameter is also used in acknowledged mode (see RDR/SDR commands), thus if &lt;nb_tx&gt; <= &lt;nbtrans&gt; then the frame will be sent &lt;nbtrans&gt; times, if &lt;nb_tx&gt; > &lt;nbtrans&gt; then the frame will be sent 2*&lt;nbtrans&gt; times, ...</span>
 +
 
 +
<span style="color:red">if &lt;add_tx_rx_info&gt; > 0 then for each transmission performed and each Rx performed the following responses are sent after the +MAC: &lt;margin&gt;,...</span>
 +
 
 +
<span style="color:red">+MAC: TXINFO,&lt;tx_index&gt;,&lt;tx_freq&gt;,&lt;toa&gt;</span>
 +
 
 +
<span style="color:red">+MAC: RXINFO,&lt;rx_index&gt;,&lt;rx_freq&gt;,&lt;toa&gt;</span>
  
&lt;nbrepeat&gt; != 0 means the LCR message is sent in ack mode on port 0 with &lt;nbrepeat&gt; transmissions.
 
  
 
==== Response ====
 
==== Response ====
Line 1,599: Line 1,664:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=RCH, ===  
+
 
 +
=== AT+MAC=RCH ===  
 
Read MAC channels command.
 
Read MAC channels command.
  
Line 1,608: Line 1,674:
 
&lt;page&gt; specifies the channel page (all pages if omitted or if number of available pages returned by AT+MAC=? response).
 
&lt;page&gt; specifies the channel page (all pages if omitted or if number of available pages returned by AT+MAC=? response).
  
&lt;unsol_evt&gt; specifies if unsolicited events are required (0 when not required). The unsolicited events inform the AT client application when a MAC parameter has been changed by the LoRa™WAN layer.
+
&lt;unsol_evt&gt; specifies <span style="color:red">which</span> unsolicited events are required (0 when <span style="color:red">no event</span> required). The unsolicited events inform the AT client application when a MAC parameter has been changed by the LoRa™WAN layer.
 +
 
 +
<span style="color:red">When &lt;unsol_evt&gt; length is less than 4 digits then the old meaning is decoded (0: no event, >0: all events except the transaction end event)</span>
 +
 
 +
<span style="color:red">When &lt;unsol_evt&gt; length is coded on 4 hexa digits then it is decoded as the following bit field:</span>
 +
 
 +
*<span style="color:red">bit0: registration to +SND: &lt;busytime&gt; event</span>
 +
 
 +
*<span style="color:red">bit1: registration to +MAC: RCH,&lt;chan_idx&gt;,,,,,&lt;busytime&gt;,&lt;page&gt; event</span>
 +
 
 +
*<span style="color:red">bit2: registration to +MAC: SCH,&lt;chan&gt;,&lt;frequency&gt;,&lt;mindr&gt;,&lt;maxdr&gt;,&lt;dutycycle&gt;,&lt;busytime&gt;,&lt;page&gt;,&lt;rxw1freq&gt; event</span>
 +
 
 +
*<span style="color:red">bit3: registration to +MAC: RDR,&lt;dr&gt;,&lt;txpwr&gt;,&lt;chanmask&gt;,&lt;chanmaskctrl&gt;,&lt;nbtrans&gt;,&lt;eirp&gt;,&lt;updwell&gt;,&lt;dwdwell&gt;,&lt;antennagain&gt; event (&lt;eirp&gt;, &lt;updwell&gt;, &lt;dwdwell&gt; and &lt;antennagain&gt; parameters are present only in case of Asian band firmware)</span>
 +
 
 +
*<span style="color:red">bit4: registration to +MAC: RTI,&lt;rxw1&gt;,&lt;''rxw2''&gt;,&lt;symbtimeout&gt; event</span>
 +
 
 +
*<span style="color:red">bit5: registration to +MAC: RRX,&lt;rx2frequency&gt;,&lt;rx2dr&gt;,&lt;rx1droffset&gt; event</span>
 +
 
 +
*<span style="color:red">bit6: registration to +MAC: RVAR,,,&lt;aggregateddc&gt; event</span>
 +
 
 +
*<span style="color:red">bit7: registration to +MAC: END event</span>
  
 
<br>
 
<br>
Line 1,634: Line 1,720:
 
&lt;page&gt;: channel page (0 to number of available pages returned by AT+MAC=? response).
 
&lt;page&gt;: channel page (0 to number of available pages returned by AT+MAC=? response).
  
&lt;rxw1freq&gt;: frequency used to open Rx window 1. 0 means same frequency as &lt;frequency&gt; parameter (available only from LoRaWAN V1.0.2, if the parameter is absent in the response, it means the firmware version is older).
+
&lt;rxw1freq&gt;: frequency used to open Rx window 1. 0 means same frequency as &lt;frequency&gt; parameter (available only from LoRa™WAN V1.0.2, if the parameter is absent in the response, it means the firmware version is older).
  
 
==== Unsolicited response ====
 
==== Unsolicited response ====
Line 1,653: Line 1,739:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SCH, ===  
+
 
 +
=== AT+MAC=SCH ===  
 
Set MAC channel command.
 
Set MAC channel command.
  
AT+MAC=SCH,&lt;chan&gt;,&lt;frequency&gt;,&lt;min_dr&gt;,&lt;max_dr&gt;,&lt;dutycycle&gt;,&lt;page&gt;
+
AT+MAC=SCH,&lt;chan&gt;,&lt;frequency&gt;,&lt;min_dr&gt;,&lt;max_dr&gt;,&lt;dutycycle&gt;,&lt;page&gt;<span style="color:red">,&lt;rxw1freq&gt;</span>
  
 
Only modified parameters can be specified.
 
Only modified parameters can be specified.
Line 1,662: Line 1,749:
 
Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.
 
Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.
  
The parameter list can be found by '''''AT+MAC=SCH?'''''Command.
+
The parameter list can be found by '''''AT+MAC=SCH?''''' command.
  
 
&lt;dutycycle&gt; is applied only if it is more restricted than the ISM regulation specification. 1 means 100%, 10 means 10%, 100 means 1%, ...
 
&lt;dutycycle&gt; is applied only if it is more restricted than the ISM regulation specification. 1 means 100%, 10 means 10%, 100 means 1%, ...
  
&lt;rxw1freq&gt; is available only from LoRaWAN V1.0.2
+
&lt;rxw1freq&gt; is available only from LoRa™WAN V1.0.2
  
 
==== Response ====
 
==== Response ====
Line 1,695: Line 1,782:
 
Always OK.
 
Always OK.
  
+MAC: &lt;dr&gt;,&lt;txpwr&gt;,&lt;chanmask&gt;,&lt;chanmaskctrl&gt;,&lt;nbrep&gt;,&lt;eirp&gt;,&lt;updwell&gt;,&lt;dwdwell&gt;,&lt;antennagain&gt;
+
+MAC: &lt;dr&gt;,&lt;txpwr&gt;,&lt;chanmask&gt;,&lt;chanmaskctrl&gt;,<span style="color:red">&lt;nbtrans&gt;</span>,&lt;eirp&gt;,&lt;updwell&gt;,&lt;dwdwell&gt;,&lt;antennagain&gt;
 +
 
 +
<span style="color:red">&lt;chanmask&gt; is coded on 4 hexa digits for each channel page (when region has 1 channel page (EU, AS, RU) it is coded on 4 hexa digits, when region has 5 channel pages (US) it is coded on 20 hexa digits)</span>
  
 
&lt;eirp&gt;, &lt;updwell&gt;, &lt;dwdwell&gt; and &lt;antennagain&gt; parameters are present only in case of Asian band firmware
 
&lt;eirp&gt;, &lt;updwell&gt;, &lt;dwdwell&gt; and &lt;antennagain&gt; parameters are present only in case of Asian band firmware
Line 1,703: Line 1,792:
 
The unsolicited response below is sent when current datarate changes and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).
 
The unsolicited response below is sent when current datarate changes and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).
  
+MAC: RDR,&lt;dr&gt;,&lt;txpwr&gt;,&lt;chanmask&gt;,&lt;chanmaskctrl&gt;,&lt;nbrep&gt;,&lt;eirp&gt;,&lt;updwell&gt;,&lt;dwdwell&gt;,&lt;antennagain&gt;
+
+MAC: RDR,&lt;dr&gt;,&lt;txpwr&gt;,&lt;chanmask&gt;,&lt;chanmaskctrl&gt;,<span style="color:red">&lt;nbtrans&gt;</span>,&lt;eirp&gt;,&lt;updwell&gt;,&lt;dwdwell&gt;,&lt;antennagain&gt;
  
 
==== Example ====
 
==== Example ====
Line 1,712: Line 1,801:
 
----
 
----
  
=== AT+MAC=SDR, ===  
+
=== AT+MAC=SDR ===  
 
Set MAC data rate command.
 
Set MAC data rate command.
  
AT+MAC=SDR,&lt;dr&gt;,&lt;txpwr&gt;,&lt;chanmask&gt;,&lt;chanmaskctrl&gt;,&lt;nbrep&gt;,&lt;eirp&gt;,&lt;updwell&gt;,&lt;dwdwell&gt;,&lt;antennagain&gt;
+
AT+MAC=SDR,&lt;dr&gt;,&lt;txpwr&gt;,&lt;chanmask&gt;,&lt;chanmaskctrl&gt;,<span style="color:red">&lt;nbtrans&gt;</span>,&lt;eirp&gt;,&lt;updwell&gt;,&lt;dwdwell&gt;,&lt;antennagain&gt;
  
 
Only modified parameters can be specified.
 
Only modified parameters can be specified.
Line 1,721: Line 1,810:
 
Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.
 
Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.
  
Set the data rate, Tx power and number of repetitions for uplink transmission (applied to all channels compatible with the datarate). &lt;nbrep&gt; applies only to unconfirmed transmissions.
+
Set the data rate, Tx power and number of <span style="color:red">transmissions</span> for uplink transmission (applied to all channels compatible with the datarate). <span style="color:red">&lt;nbtrans&gt; applies to unconfirmed and confirmed transmissions.</span>
  
 
&lt;chanmask&gt; and &lt;chanmaskctrl&gt; specify the channels usable for uplink access.
 
&lt;chanmask&gt; and &lt;chanmaskctrl&gt; specify the channels usable for uplink access.
  
The parameter list can be found by '''''AT+MAC=SDR?'''''Command.
+
<span style="color:red">&lt;chanmask&gt; is coded on 4 hexa digits for each channel page (when region has 1 channel page (EU, AS, RU) it is coded on 4 hexa digits, when region has 5 channel pages (US) it is coded on 20 hexa digits)</span>
 +
 
 +
The parameter list can be found by '''''AT+MAC=SDR?''''' command.
  
 
&lt;eirp&gt;, &lt;updwell&gt;, &lt;dwdwell&gt; and &lt;antennagain&gt; parameters are present only in case of Asian band.
 
&lt;eirp&gt;, &lt;updwell&gt;, &lt;dwdwell&gt; and &lt;antennagain&gt; parameters are present only in case of Asian band.
Line 1,747: Line 1,838:
  
 
  AT+MAC=SDR,SF12BW125,10,001F,0,0
 
  AT+MAC=SDR,SF12BW125,10,001F,0,0
 
<br>
 
 
 
  OK
 
  OK
 
<br>
 
<br>
Line 1,778: Line 1,866:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC= STI, ===  
+
 
 +
=== AT+MAC= STI ===  
 
Set MAC time information command.
 
Set MAC time information command.
  
Line 1,787: Line 1,876:
 
Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.
 
Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.
  
The parameter list can be found by '''''AT+MAC=STI?'''''Command.
+
The parameter list can be found by '''''AT+MAC=STI?''''' command.
  
 
The parameters &lt;rxw1&gt; and &lt;symbtimeout&gt; are common to all channels.
 
The parameters &lt;rxw1&gt; and &lt;symbtimeout&gt; are common to all channels.
Line 1,805: Line 1,894:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+MAC=RRX ===
 
=== AT+MAC=RRX ===
  
Line 1,827: Line 1,917:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SRX, ===  
+
 
 +
=== AT+MAC=SRX ===  
 
Set MAC Rx information command.
 
Set MAC Rx information command.
 +
 +
<span style="color:red">AT+MAC=SRX,&lt;rx2frequency&gt;,&lt;rx2dr&gt;,&lt;rx1droffset&gt;</span>
  
 
Only modified parameters can be specified.
 
Only modified parameters can be specified.
  
The parameter list can be found by '''''AT+MAC=SRX?'''''Command.
+
The parameter list can be found by '''''AT+MAC=SRX?''''' command.
  
 
The parameters are common to all channels.
 
The parameters are common to all channels.
Line 1,848: Line 1,941:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+MAC=RSW ===
 
=== AT+MAC=RSW ===
  
Line 1,864: Line 1,958:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SSW, ===  
+
=== AT+MAC=SSW ===  
 
This command is used to set the synchro words used by LoRa™WAN layer.
 
This command is used to set the synchro words used by LoRa™WAN layer.
  
Line 1,875: Line 1,969:
 
Synchro words are in hexadecimal.
 
Synchro words are in hexadecimal.
  
The parameter list can be found by '''''AT+MAC=SSW?'''''Command.
+
The parameter list can be found by '''''AT+MAC=SSW?''''' command.
  
 
==== Response ====
 
==== Response ====
Line 1,888: Line 1,982:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+MAC=RVAR ===
 
=== AT+MAC=RVAR ===
  
 
This command is used to read the miscellaneous LoRa™WAN variables.
 
This command is used to read the miscellaneous LoRa™WAN variables.
  
This variables are Tx/Rx counters, aggregated DC and data encryption.
+
These variables are Tx/Rx counters, aggregated, data encryption<span style="color:red">, battery level, initial join datarate, join channel mask, next dev nonce, last join nonce and join accept replay checking</span>.
  
 
==== Response ====
 
==== Response ====
Line 1,898: Line 1,993:
 
Always OK.
 
Always OK.
  
+MAC: &lt;txcounter&gt;,&lt;rxcounter&gt;,&lt;aggregateddc&gt;,&lt;encryption&gt;
+
+MAC: &lt;txcounter&gt;,&lt;rxcounter&gt;,&lt;aggregateddc&gt;,&lt;encryption&gt;<span style="color:red">,&lt;battlevel&gt;,&lt;joindr&gt;,&lt;joinchanmask&gt;,&lt;nextdevnonce&gt;,&lt;lastjoinnonce&gt;,&lt;jareplaycheck&gt;</span>
  
 
&lt;aggregateddc&gt; values: 1 means 100%, 10 means 10%, 100 means 1%, …
 
&lt;aggregateddc&gt; values: 1 means 100%, 10 means 10%, 100 means 1%, …
  
 
&lt;encryption&gt; values: 0 means no encryption, != 0 means encryption enabled.
 
&lt;encryption&gt; values: 0 means no encryption, != 0 means encryption enabled.
 +
 +
<span style="color:red">&lt;battlevel&gt; is the value sent in the answer to DevStatusReq MAC command [0..255], default value is 0 which means "external power source"</span>
 +
 +
<span style="color:red">&lt;joindr&gt; is the initial datarate of the join procedure (Europe region only), default value is the maximum datarate supported by the join channels. </span>
 +
 +
<span style="color:red">&lt;joinchanmask&gt; values: 0 means only 868.1 channel, 1 means only 868.3 channel, 2 means only 868.5 channel, 255 means 868.1, 868.3 and 868.5 channels</span>
 +
 +
<span style="color:red">&lt;nextdevnonce&gt; is the devnonce which will be encoded in the next join request (last sent devnonce = &lt;nextdevnonce&gt; - 1)</span>
 +
 +
<span style="color:red">&lt;lastjoinnonce&gt; is the joinnonce of the last valid join accept received</span>
 +
 +
<span style="color:red">&lt;jareplaycheck&gt; values: 0 means join accept with join nonce == &lt;lastjoinnonce&gt; is ignored, 1 means join accept with join nonce <= &lt;lastjoinnonce&gt; is ignored</span>
  
 
==== Unsolicited response ====
 
==== Unsolicited response ====
Line 1,912: Line 2,019:
 
==== Example ====
 
==== Example ====
 
  AT+MAC=RVAR
 
  AT+MAC=RVAR
  +MAC: 0,0,1,1
+
  +MAC: 0,0,1,1<span style="color:red">,0,5,255,10,13441364,0</span>
 
  OK
 
  OK
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SVAR, ===  
+
 
 +
=== AT+MAC=SVAR ===  
 
This command is used to set some LoRa™WAN variables.
 
This command is used to set some LoRa™WAN variables.
  
AT+MAC=SVAR,&lt;txcounter&gt;,&lt;aggregateddc&gt;,&lt;encryption&gt;
+
<span style="color:red">These variables are Tx counters, aggregated DC, data encryption, battery level, initial join datarate, join channel mask, next dev nonce, last join nonce and join accept replay checking</span>.
 +
 
 +
AT+MAC=SVAR,&lt;txcounter&gt;,&lt;aggregateddc&gt;,&lt;encryption&gt;<span style="color:red">,&lt;battlevel&gt;,&lt;joindr&gt;,&lt;joinchanmask&gt;,&lt;nextdevnonce&gt;,&lt;lastjoinnonce&gt;,&lt;jareplaycheck&gt;</span>
  
 
Only modified parameters can be specified.
 
Only modified parameters can be specified.
  
The parameter list can be found by '''''AT+MAC=SVAR?'''''Command.
+
The parameter list can be found by '''''AT+MAC=SVAR?''''' command.
  
 
==== Response ====
 
==== Response ====
Line 1,937: Line 2,047:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+MAC=RADR ===
 
=== AT+MAC=RADR ===
  
Line 1,957: Line 2,068:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=SADR, ===  
+
=== AT+MAC=SADR ===  
 
This command is used to set some LoRa™WAN ADR and piggyback states.
 
This command is used to set some LoRa™WAN ADR and piggyback states.
  
Line 1,964: Line 2,075:
 
Only modified parameters can be specified.
 
Only modified parameters can be specified.
  
The parameter list can be found by '''''AT+MAC=SADR?'''''Command.
+
The parameter list can be found by '''''AT+MAC=SADR?''''' command.
  
 
When ADR state value is changed, ADR ack counter is reset.
 
When ADR state value is changed, ADR ack counter is reset.
Line 1,999: Line 2,110:
 
+MAC: &lt;devuid&gt;,&lt;rand_seed&gt;,&lt;read_only&gt;
 
+MAC: &lt;devuid&gt;,&lt;rand_seed&gt;,&lt;read_only&gt;
  
When read_only value is 1, it means that the device unique identifier is built from Nemeus 36 bits OUI (70B3D5326xxxxxxx). In this case the device UID can’t be modified and the security keys are not readable.
+
When read_only value is 1, it means that the device unique identifier is built from Nemeus 36 bits OUI (70B3D5326xxxxxxx). In this case the device UID can’t be modified and the security keys are not readable. <span style="color:red">&lt;read_only&gt; is always 1 in this version</span>
  
 
==== Example ====
 
==== Example ====
 
  AT+MAC=RDEVUID
 
  AT+MAC=RDEVUID
  0010203,306A0327,1
+
  +MAC: 70B3D53260008982,50008982,1
 
  OK
 
  OK
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+MAC=RDEVADDR ===
 
=== AT+MAC=RDEVADDR ===
  
Line 2,048: Line 2,160:
 
After receipt of valid join accept, unsolicited response is sent:
 
After receipt of valid join accept, unsolicited response is sent:
  
  DEVADDR,0870C367,010203  
+
  +MAC: RDEVADDR,0870C367,010203  
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+MAC=SDEVADDR, ===  
 
=== AT+MAC=SDEVADDR, ===  
 
This command is used to modify device address when ABP mode is used.
 
This command is used to modify device address when ABP mode is used.
Line 2,069: Line 2,182:
 
=== AT+MAC=RAPPUID ===
 
=== AT+MAC=RAPPUID ===
  
Read application Unique ID.
+
Read <span style="color:red">join server</span> Unique ID.
  
Application UID is coded on 8 bytes.
+
<span style="color:red">Join server</span> UID is coded on 8 bytes.
  
By default it is set to 0000000000000000.
+
By default it is set to <span style="color:red">70B3D53260000100</span>.
  
 
It can be modified by sending the following AT command:
 
It can be modified by sending the following AT command:
Line 2,083: Line 2,196:
 
MAC layer must be restarted to take into account new application UID (AT+MAC=OFF and AT+MAC=ON).
 
MAC layer must be restarted to take into account new application UID (AT+MAC=OFF and AT+MAC=ON).
  
Application UID can also be modified using AT+MAC=SAPPUID,&lt;app_uid&gt;.
+
<span style="color:red">Join server</span> UID can also be modified using AT+MAC=SAPPUID,<span style="color:red">&lt;join_server_uid&gt;</span>.
  
 
''This command obsoletes AT+MAC=APPUID command.''
 
''This command obsoletes AT+MAC=APPUID command.''
Line 2,093: Line 2,206:
 
Always OK
 
Always OK
  
Application UID is returned as
+
<span style="color:red">Join server</span> UID is returned as
  
+MAC: &lt;appuid&gt;
+
+MAC: <span style="color:red">&lt;join_server_uid&gt;</span>
  
 
==== Example ====
 
==== Example ====
  
Read default application UID:
+
Read default <span style="color:red">join server</span> UID:
  
 
  AT+MAC=RAPPUID
 
  AT+MAC=RAPPUID
  +MAC: 0000000000000000
+
  +MAC: <span style="color:red">70B3D53260000100</span>
 
  OK
 
  OK
  
Set application UID to FEDCBA9876543210:
+
Set <span style="color:red">join server</span> UID to FEDCBA9876543210:
  
  0000
+
  AT+GA=DIND,1,83010000081032547698BADCFE0000
 
  OK
 
  OK
  
Line 2,117: Line 2,230:
 
  OK
 
  OK
  
Read new application UID:
+
Read new <span style="color:red">join server</span> UID:
  
 
  AT+MAC=RAPPUID
 
  AT+MAC=RAPPUID
Line 2,124: Line 2,237:
 
<br>
 
<br>
 
----
 
----
 +
 
=== AT+MAC=SAPPUID, ===  
 
=== AT+MAC=SAPPUID, ===  
This command is used to modify application UID.
+
This command is used to modify <span style="color:red">join server</span> UID.
  
AT+MAC=SAPPUID,&lt;appuid&gt;
+
AT+MAC=SAPPUID,<span style="color:red">&lt;join_server_uid&gt;</span>
  
 
If MAC layer is on in OTAA mode, a MAC off/on is automatically performed.
 
If MAC layer is on in OTAA mode, a MAC off/on is automatically performed.
Line 2,133: Line 2,247:
 
==== Response ====
 
==== Response ====
  
OK if &lt;appuid&gt; length is 16 characters.
+
OK if <span style="color:red">&lt;join_server_uid&gt;</span> length is 16 characters.
  
 
==== Example ====
 
==== Example ====
Line 2,140: Line 2,254:
 
<br>
 
<br>
 
----
 
----
=== AT+MAC=RAPPKEY ===
 
 
Read application key.
 
 
Application Key is coded on 16 bytes.
 
 
The byte order is the one you can use when you to register the key at network side.
 
 
It has been reversed compared to old AT+MAC=APPKEY response.
 
 
This command is available only when device unique identifier is not read only.
 
  
''This command obsoletes AT+MAC=APPKEY command.''
+
=== AT+MAC=RAPPKEY (no more supported) ===
  
''Old command still works and returns the &lt;appkey&gt; in reverse order.''
+
<span style="color:red">This command is no more supported !!!</span>
  
 
==== Response ====
 
==== Response ====
  
OK when device UID is writable.
+
<span style="color:red">Always ERROR because device UID is read only.</span>
 
 
ERROR when device UID is read only.
 
 
 
Application key is returned as
 
 
 
+MAC: &lt;appkey&gt;
 
  
 
==== Example ====
 
==== Example ====
 
  AT+MAC=RAPPKEY
 
  AT+MAC=RAPPKEY
  +MAC: A8FA642E2E3245BB9B8CAC7E2456EF3C
+
  <span style="color:red">ERROR</span>
OK
 
  
Old command still returns:
+
----
  
AT+MAC=APPKEY
+
=== AT+MAC=RNSKEY (no more supported) ===
+MAC: 3CEF56247EAC8C9BBB45322E2E64FAA8
 
OK
 
<br>
 
----
 
=== AT+MAC=RNSKEY ===
 
  
Read Network Session Key.
+
<span style="color:red">This command is no more supported !!!</span>
  
Network Session Key is coded on 16 bytes.
+
==== Response ====
  
The byte order is the one you can use when you to register the key at network side.
+
<span style="color:red">Always ERROR because device UID is read only.</span>
  
It has been reversed compared to old AT+MAC=NSKEY response.
+
==== Example ====
 +
AT+MAC=RNSKEY
 +
<span style="color:red">ERROR</span>
  
This command is available only when device unique identifier is not read only.
+
----
  
''This command obsoletes AT+MAC=NSKEY command.''
+
=== AT+MAC=RAPPSKEY (no more supported) ===
  
''Old command still works and returns the &lt;nskey&gt; in reverse order.''
+
<span style="color:red">This command is no more supported !!!</span>
  
 
==== Response ====
 
==== Response ====
  
OK when device UID is writable.
+
<span style="color:red">Always ERROR because device UID is read only.</span>
 
 
ERROR when device UID is read only.
 
 
 
Network session key is returned as
 
 
 
+MAC: &lt;nskey&gt;
 
  
 
==== Example ====
 
==== Example ====
  AT+MAC=RNSKEY
+
  AT+MAC=RAPPSKEY
  +MAC: A8F1642E2E32453B9B8CAC7C2456EF72
+
  <span style="color:red">ERROR</span>
OK
 
  
Old command still returns:
 
 
AT+MAC=NSKEY
 
+MAC: 72EF56247CAC8C9B3B45322E2E64F1A8
 
OK
 
<br>
 
 
----
 
----
=== AT+MAC=RAPPSKEY ===
 
  
Read application session key.
+
=== AT+MAC=RMC ===
  
Application session key is coded on 16 bytes.
+
Read MultiCast parameters.
  
The byte order is the one you can use when you to register the key at network side.
+
==== Response ====
  
It has been reversed compared to old AT+MAC=APPSKEY response.
+
OK when the command is supported by the firmware.
  
This command is available only when device unique identifier is not read only.
+
ERROR when it is not supported.
  
''This command obsoletes AT+MAC=APPSKEY command.''
+
Multicast parameters are returned as
 
 
''Old command still works and returns the &lt;appskey&gt; in reverse order.''
 
 
 
==== Response ====
 
 
 
OK when device UID is writable.
 
 
 
ERROR when device UID is read only.
 
 
 
Application session key is returned as
 
 
 
+MAC: &lt;appskey&gt;
 
 
 
==== Example ====
 
AT+MAC=RAPPSKEY
 
+MAC: A8FA672E2E4245BB9ECCCA7E64F54C38
 
OK
 
 
 
Old command still returns:
 
 
 
AT+MAC=APPSKEY
 
+MAC: 384CF5647ECACC9EBB45422E2E67FAA8
 
OK
 
<br>
 
----
 
=== AT+MAC=RMC ===
 
 
 
Read MultiCast parameters. <span style="color:red">Multicast is only available from master18Wxx</span>.
 
 
 
==== Response ====
 
 
 
OK when the command is supported by the firmware.
 
 
 
ERROR when it is not supported.
 
 
 
Multicast parameters are returned as
 
  
 
+MAC: &lt;addr&gt;,&lt;addr_mask&gt;,&lt;group_mask&gt;,&lt;fcnt_dw&gt;,&lt;net_skey&gt;,&lt;app_skey&gt;
 
+MAC: &lt;addr&gt;,&lt;addr_mask&gt;,&lt;group_mask&gt;,&lt;fcnt_dw&gt;,&lt;net_skey&gt;,&lt;app_skey&gt;
Line 2,295: Line 2,338:
 
   - 0x789ABCDF: valid multicast address, group 3 is rejected because bit3 of group mask is not set
 
   - 0x789ABCDF: valid multicast address, group 3 is rejected because bit3 of group mask is not set
 
When the address is accepted (valid multicast address and accepted group) then the MIC is computed thanks to network security key.
 
When the address is accepted (valid multicast address and accepted group) then the MIC is computed thanks to network security key.
If the computed MIC matches with the received MIC then the payload is deciphered thanks to application security key and the resulting payload is pushed to the application addressed by the LoRaWAN port.
+
If the computed MIC matches with the received MIC then the payload is deciphered thanks to application security key and the resulting payload is pushed to the application addressed by the LoRa™WAN port.
  
 
<br>
 
<br>
Line 2,302: Line 2,345:
 
=== AT+MAC=SMC ===
 
=== AT+MAC=SMC ===
  
Set MultiCast parameters. <span style="color:red">Multicast is only available from master18Wxx</span>.
+
Set MultiCast parameters.
 
   AT+MAC=SMC,&lt;addr&gt;,&lt;addr_mask&gt;,&lt;group_mask&gt;,&lt;fcnt_dw&gt;,&lt;net_skey&gt;,&lt;app_skey&gt;
 
   AT+MAC=SMC,&lt;addr&gt;,&lt;addr_mask&gt;,&lt;group_mask&gt;,&lt;fcnt_dw&gt;,&lt;net_skey&gt;,&lt;app_skey&gt;
 
See AT+MAC=RMC for parameter description.
 
See AT+MAC=RMC for parameter description.
Line 2,322: Line 2,365:
 
----
 
----
  
=== Informative examples ===
+
=== <span style="color:red">AT+MAC=SNDDTR</span> ===  
==== Device start ====
+
<span style="color:red">Send a Device Time Request.</span>
 +
 
 +
<span style="color:red">AT+MAC=SNDDTR,&lt;nb_tx&gt;</span>
 +
 
 +
<span style="color:red">&lt;nb_tx&gt; = 0 means the DTR message is sent in unack mode on port 0.</span>
  
AT client application can detect a device start or restart when the unsolicited response +DEBUG: START,&lt;version&gt; is received. Depending on initialization timing, AT client application is not sure to receive this unsolicited response, that’s the reason why it is recommended that AT client application use AT+MAC=? command to synchronize with the device.
+
<span style="color:red">&lt;nb_tx&gt; != 0 means the DTR message is sent in ack mode on port 0. Since LoRaWANV1.0.4 the &lt;nbtrans&gt; parameter is also used in acknowledged mode (see RDR/SDR commands), thus if &lt;nb_tx&gt; <= &lt;nbtrans&gt; then the frame will be sent &lt;nbtrans&gt; times, if &lt;nb_tx&gt; > &lt;nbtrans&gt; then the frame will be sent 2*&lt;nbtrans&gt; times, ...</span>
  
<br>
+
==== <span style="color:red">Response</span> ====
  
<u>'''OTAA case:'''</u>
+
<span style="color:red">OK if MAC is ON and Device Time Answer has been received.</span>
  
<br>
+
<span style="color:red">ERROR if MAC is OFF or Device Time Answer has not been received and Tx was in unack mode.</span>
  
+DEBUG: START,Nemeus-mm002-MASTER_NEMEUS_15W39-data-manager
+
<span style="color:red">ERROR NOACK if Device Time Answer has not been received and Tx was in ack mode.</span>
AT+MAC=?
 
+MAC: ON,V3,A,1,8,1
 
OK
 
AT+MAC=RDEVADDR
 
+MAC: 00000000,000000
 
OK
 
+MAC: RDEVADDR,0870C367,010203
 
  
The device is ready to send uplink frames.
+
<span style="color:red">ERROR also if SIGFOX™ stack is using the radio.</span>
  
<br>
+
<span style="color:red">Received data is sent back as</span>
  
<u>'''ABP case:'''</u>
+
<span style="color:red">+MAC: &lt;epoch_sec&gt;,&lt;epoch_frac_sec&gt;</span>
  
 +
==== <span style="color:red">Example</span> ====
 +
<span style="color:red">AT+MAC=SNDDTR</span>
 +
<span style="color:red">+MAC: 1299856311,60</span>
 +
<span style="color:red">OK</span>
 
<br>
 
<br>
 +
----
 +
 +
=== <span style="color:red">AT+MAC=RCTX</span> ===
  
+DEBUG: START,Nemeus-mm002-MASTER_NEMEUS_15W39-data-manager
+
<span style="color:red">Read selected LoRa™WAN context</span>
AT+MAC=?
 
+MAC: ON,V3,A,1,8,0
 
OK
 
  
The device is ready to send uplink frames.
+
<span style="color:red">Default MM002 firmware embeds only one LoRa™WAN context</span>
  
<br>
+
==== <span style="color:red">Response</span> ====
  
<br>
+
<span style="color:red">Always OK.</span>
  
==== Send unconfirmed binary frame ====
+
<span style="color:red">+MAC: &lt;ctx_idx&gt;,&lt;nb_ctx&gt;</span>
  
 +
==== <span style="color:red">Example</span> ====
 +
<span style="color:red">AT+MAC=RCTX</span>
 +
<span style="color:red">+MAC: 0,1</span>
 +
<span style="color:red">OK</span>
 
<br>
 
<br>
 +
----
  
<u>'''No downlink frame:'''</u>
+
=== <span style="color:red">AT+MAC=SCTX</span> ===
 +
<span style="color:red">Select LoRa™WAN context.</span>
 +
<span style="color:red">This command can be used when the MM002 firmware embeds several LoRa™WAN contexts.</span>
  
AT+MAC=SNDBIN,CAFE,0,2,0
+
<span style="color:red">AT+MAC=SCTX,&lt;ctx_idx&gt;</span>
OK
 
+MAC: RCVBIN,2,false,,0.00,0.00
 
  
<u>'''One downlink frame:'''</u>
+
<span style="color:red">The parameter list can be found by '''''AT+MAC=SCTX?''''' command.</span>
  
AT+MAC=SNDBIN,CAFE,0,2,0
+
==== <span style="color:red">Response</span> ====
OK
 
+MAC: RCVBIN,2,false,DECA,-85.00,7.00
 
  
<u>'''Two downlink frames and piggyback is not set:'''</u>
+
<span style="color:red">OK if &lt;ctx_idx&gt; < &lt;nb_ctx&gt;</span>
  
AT+MAC=SNDBIN,CAFE,0,2,0
+
==== <span style="color:red">Example</span> ====
OK
 
+MAC: RCVBIN,2,true,DECA,-55.00,10.00
 
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
 
  
<u>'''Two downlink frames and piggyback is set:'''</u>
+
<span style="color:red">To select first LoRa™WAN context:</span>
  
  AT+MAC=SNDBIN,CAFE,0,2,0  
+
  <span style="color:red">AT+MAC=SCTX,0</span>
  OK  
+
  <span style="color:red">OK</span>
+MAC: RCVBIN,2,true,DECA,-55.00,10.00
+
<br>
AT+MAC=SNDBIN,,0,2,0
+
----
OK
+
 
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
+
=== Informative examples ===
==== Send confirmed binary frame ====
+
==== Device start ====
 +
 
 +
AT client application can detect a device start or restart when the unsolicited response +DEBUG: START,&lt;version&gt; is received. Depending on initialization timing, AT client application is not sure to receive this unsolicited response, that’s the reason why it is recommended that AT client application use AT+MAC=? command to synchronize with the device.
  
 
<br>
 
<br>
  
<u>'''Ack received, no downlink frame:'''</u>
+
<u>'''OTAA case:'''</u>
  
AT+MAC=SNDBIN,CAFE,0,2,1
+
<br>
+MAC: RCVBIN,0,false,,-60.00,7.00
 
OK
 
  
<u>'''Ack not received:'''</u>
+
+DEBUG: START,nemeus-mm002-21W21_00-modem
 +
AT+MAC=?
 +
+MAC: ON,V3,A,1,8,0,0.1.0.0,1.0.4.0,1.0.1.0
 +
OK
 +
AT+MAC=RDEVADDR
 +
+MAC: 00000000,000000
 +
OK
 +
+MAC: RDEVADDR,0870C367,010203
  
AT+MAC=SNDBIN,CAFE,0,2,1
+
The device is ready to send uplink frames.
+MAC: RCVBIN,2,false,,0.00,0.00
 
ERROR NOACK
 
  
<u>'''One downlink frame:'''</u>
+
<br>
  
AT+MAC=SNDBIN,CAFE,0,2,1
+
<u>'''ABP case:'''</u>
+MAC: RCVBIN,2,false,DECA,-85.00,7.00
 
OK
 
  
<u>'''Two downlink frames and piggyback is not set:'''</u>
+
<br>
  
  AT+MAC=SNDBIN,CAFE,0,2,1
+
+DEBUG: START,nemeus-mm002-21W21_00-modem
  +MAC: RCVBIN,2,true,DECA,-55.00,10.00
+
  AT+MAC=?
  OK  
+
  +MAC: ON,V3,A,1,8,0
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
+
  OK
  
<u>'''Two downlink frames and piggyback is set:'''</u>
+
The device is ready to send uplink frames.
 
 
AT+MAC=SNDBIN,CAFE,0,2,1
 
+MAC: RCVBIN,2,true,DECA,-55.00,10.00
 
OK
 
AT+MAC=SNDBIN,,0,2,1
 
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
 
OK
 
  
 
<br>
 
<br>
Line 2,434: Line 2,474:
 
<br>
 
<br>
  
<br>
+
==== Send unconfirmed binary frame ====
  
 
<br>
 
<br>
  
<br>
+
<u>'''No downlink frame:'''</u>
  
== AT SIGFOX™ commands ==
+
AT+MAC=SNDBIN,CAFE,0,2,0
 +
OK
 +
+MAC: RCVBIN,2,false,,0.00,0.00
  
----
+
<u>'''One downlink frame:'''</u>
These commands are available only on Nemeus modules embedding SIGFOX™ library. If the library is not embedded then ERROR is returned.
 
  
3 type of AT strings are specified:
+
AT+MAC=SNDBIN,CAFE,0,2,0
 +
OK
 +
+MAC: RCVBIN,2,false,DECA,-85.00,7.00
  
* SF commands: AT+SF=&lt;cmd&gt;,&lt;param1&gt;,…,&lt;paramN&gt;.
+
<u>'''Two downlink frames and piggyback is not set:'''</u>
* SF solicited responses: +SF: &lt;param1&gt;,…,&lt;paramN&gt;. These responses are sent in response to SF commands, just before the OK response, that’s the reason why the &lt;cmd&gt; is not present in the solicited responses. Several solicited responses may be sent between the SF command and the OK response.
 
* SF unsolicited responses: +SF: &lt;cmd&gt;,&lt;param1&gt;,…,&lt;paramN&gt;. These responses are not necessarily sent between the SF command and the OK response, that’s the reason why the &lt;cmd&gt; is present in the unsolicited responses.
 
 
When an AT client application just need to send and receive frames, the following commands are used:
 
  
* AT+SF=? to know the current SIGFOX™ layer state.
+
AT+MAC=SNDBIN,CAFE,0,2,0
* AT+SF=OFF and AT+SF=ON to stop and start SIGFOX™ layer.
+
OK
* AT+SF=SNDBIN,… to send uplink frame.
+
+MAC: RCVBIN,2,true,DECA,-55.00,10.00
* AT+SF=SNDBIT,… to send uplink bit.
+
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
* AT+SF=SNDOOB to send uplink out of band message (keep alive messages).
+
 
* +SF: RCVBIN,… when receiving downlink frames.
+
<u>'''Two downlink frames and piggyback is set:'''</u>
 
All other commands are not really required, they are mainly used to configure SIGFOX™ layer and to perform SIGFOX™ qualification tests.
 
  
SIGFOX™ proprietary AT command set is also supported but not described in this document.
+
AT+MAC=SNDBIN,CAFE,0,2,0
 +
OK
 +
+MAC: RCVBIN,2,true,DECA,-55.00,10.00
 +
AT+MAC=SNDBIN,,0,2,0
 +
OK
 +
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
 +
==== Send confirmed binary frame ====
  
 
<br>
 
<br>
----
 
=== AT+SF=HELP ===
 
  
This commandis used to know the list of sub-commands.
+
<u>'''Ack received, no downlink frame:'''</u>
  
==== Response ====
+
AT+MAC=SNDBIN,CAFE,0,2,1
 +
+MAC: RCVBIN,0,false,,-60.00,7.00
 +
OK
  
OK.
+
<u>'''Ack not received:'''</u>
  
==== Example ====
+
  AT+MAC=SNDBIN,CAFE,0,2,1
  AT+SF=HELP
+
  +MAC: RCVBIN,2,false,,0.00,0.00
+SF: &lt;cmd&gt;,&lt;param_1&gt;,,&lt;param_N&gt;
+
  ERROR NOACK
  +SF: &lt;cmd&gt; are ON,OFF,?,SNDBIN,SNDBIT,SNDOOB,SREP,RREP,STXF,RTXF,SRXF,RRXF,STXP,RTXP
 
+SF: &lt;cmd&gt;? Lists parameters of &lt;cmd&gt; if any
 
  OK
 
<br>
 
----
 
=== AT+SF=ON ===
 
  
This command is used to start SIGFOX™ layer and is mandatory in order to use most of SF commands listed in this section (unless otherwise stated).
+
<u>'''One downlink frame:'''</u>
  
If Radio stack was ON, it is automatically set to OFF.
+
AT+MAC=SNDBIN,CAFE,0,2,1
 +
+MAC: RCVBIN,2,false,DECA,-85.00,7.00
 +
OK
  
==== Response ====
+
<u>'''Two downlink frames and piggyback is not set:'''</u>
  
If LoRa™WAN stack is using the radio ERROR is returned.
+
AT+MAC=SNDBIN,CAFE,0,2,1
 +
+MAC: RCVBIN,2,true,DECA,-55.00,10.00
 +
OK
 +
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
  
Else OK is returned.
+
<u>'''Two downlink frames and piggyback is set:'''</u>
  
==== Example ====
+
AT+MAC=SNDBIN,CAFE,0,2,1
 +
+MAC: RCVBIN,2,true,DECA,-55.00,10.00
 +
OK
 +
AT+MAC=SNDBIN,,0,2,1
 +
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00
 +
OK
  
 
<br>
 
<br>
  
AT+SF=ON
 
OK
 
 
<br>
 
<br>
----
 
=== AT+SF=OFF ===
 
  
Stop SIGFOX™ layer.
+
<br>
  
==== Response ====
+
<br>
 +
 
 +
<br>
 +
 
 +
== AT SIGFOX™ commands ==
 +
 
 +
----
 +
These commands are available only on Nemeus modules embedding SIGFOX™ library. If the library is not embedded then ERROR is returned.
  
If SIGFOX™ stack is using the radio ERROR is returned.
+
3 type of AT strings are specified:
  
Else OK is returned.
+
* SF commands: AT+SF=&lt;cmd&gt;,&lt;param1&gt;,…,&lt;paramN&gt;.
 +
* SF solicited responses: +SF: &lt;param1&gt;,…,&lt;paramN&gt;. These responses are sent in response to SF commands, just before the OK response, that’s the reason why the &lt;cmd&gt; is not present in the solicited responses. Several solicited responses may be sent between the SF command and the OK response.
 +
* SF unsolicited responses: +SF: &lt;cmd&gt;,&lt;param1&gt;,…,&lt;paramN&gt;. These responses are not necessarily sent between the SF command and the OK response, that’s the reason why the &lt;cmd&gt; is present in the unsolicited responses.
 +
 +
When an AT client application just need to send and receive frames, the following commands are used:
  
==== Example ====
+
* AT+SF=? to know the current SIGFOX™ layer state.
 +
* AT+SF=OFF and AT+SF=ON to stop and start SIGFOX™ layer.
 +
* AT+SF=SNDBIN,… to send uplink frame.
 +
* AT+SF=SNDBIT,… to send uplink bit.
 +
* AT+SF=SNDOOB to send uplink out of band message (keep alive messages).
 +
* +SF: RCVBIN,… when receiving downlink frames.
 +
 +
All other commands are not really required, they are mainly used to configure SIGFOX™ layer and to perform SIGFOX™ qualification tests.
  
<br>
+
SIGFOX™ proprietary AT command set is also supported but not described in this document.
  
AT+SF=OFF
 
OK
 
 
<br>
 
<br>
 
----
 
----
=== AT+SF=? ===
+
=== AT+SF=HELP ===
 +
 
 +
This command is used to know the list of sub-commands.
  
Read current SIGFOX™ layer status.
+
==== Response ====
  
==== Response ====
+
OK.
 +
 
 +
==== Example ====
 +
AT+SF=HELP
 +
+SF: &lt;cmd&gt;,&lt;param_1&gt;,…,&lt;param_N&gt;
 +
+SF: &lt;cmd&gt; are ON,OFF,?,SNDBIN,SNDBIT,SNDOOB,SREP,RREP,STXF,RTXF,SRXF,RRXF,STXP,RTXP
 +
+SF: &lt;cmd&gt;? Lists parameters of &lt;cmd&gt; if any
 +
OK
 +
<br>
 +
----
 +
 
 +
=== AT+SF=ON ===
 +
 
 +
This command is used to start SIGFOX™ layer and is mandatory in order to use most of SF commands listed in this section (unless otherwise stated).
 +
 
 +
If Radio stack was ON, it is automatically set to OFF.
 +
 
 +
<span style="color:red">AT+SF=ON,&lt;dc&gt;,&lt;encrypt&gt;,&lt;rc_sync_period&gt;,&lt;rc&gt;</span>
 +
 
 +
<span style="color:red">&lt;dc&gt; values: 0 means MM002 doesn't manage duty-cycle, 1 means MM002 manages duty-cycle</span>
 +
 
 +
<span style="color:red">&lt;encrypt&gt; values: 0 means SIGFOX™ library doesn't encrypt the payload, 1 means SIGFOX™ library encrypts the payload</span>
 +
 
 +
<span style="color:red">&lt;rc_sync_period&gt; by default, when payload is encrypted, a RC Sync frame is transmitted by the device every 4096 messages transmissions (ie. when the sequence number loops to 0) to 're-synchronize' the device with the backend. This period can be modified for test purpose, SIGFOX™ recommands to use the default value 0 which corresponds to 4096.</span>
 +
 
 +
<span style="color:red">&lt;rc&gt; string values: RC1, RC2, RC3C, RC4, RC5, RC6 and RC7. Be careful, selected RC must be compatible with the module hardware version</span>
 +
 
 +
==== Response ====
 +
 
 +
If LoRa™WAN stack is using the radio <span style="color:red">or the command is syntactically incorrect,</span> ERROR is returned.
 +
 
 +
Else OK is returned.
 +
 
 +
==== Example ====
 +
 
 +
<br>
 +
 
 +
AT+SF=ON
 +
OK
 +
<br>
 +
----
 +
 
 +
=== AT+SF=OFF ===
 +
 
 +
Stop SIGFOX™ layer.
 +
 
 +
==== Response ====
 +
 
 +
If SIGFOX™ stack is using the radio ERROR is returned.
 +
 
 +
Else OK is returned.
 +
 
 +
==== Example ====
 +
 
 +
<br>
 +
 
 +
AT+SF=OFF
 +
OK
 +
<br>
 +
----
 +
=== AT+SF=? ===
 +
 
 +
Read current SIGFOX™ layer status.
 +
 
 +
==== Response ====
 +
 
 +
If SIGFOX™ library is embedded OK is returned.
 +
 
 +
Else ERROR is returned.
 +
 
 +
+SF: &lt;state&gt;,&lt;NMS_lib_ver&gt;,&lt;SFX_lib_ver&gt;<span style="color:red">,&lt;SFX_test_lib_ver&gt;</span>,&lt;dev_id&gt;,&lt;initial_pac&gt;<span style="color:red">,&lt;dc&gt;,&lt;encrypt&gt;,&lt;rc&gt;</span>
 +
 
 +
&lt;state&gt; is ON, OFF or DUAL. DUAL means that LoRa™WAN and SIGFOX™ stacks are both ON.
 +
 
 +
&lt;NMS_lib_ver&gt; is the version of Nemeus library used to communicate with SIGFOX™ network.
 +
 
 +
&lt;SFX_lib_ver&gt; is the version of SIGFOX™ library.
 +
 
 +
<span style="color:red">&lt;SFX_test_lib_ver&gt; is the version of the addon for test mode</span>
 +
 
 +
&lt;dev_id&gt; is the device unique identifier on SIGFOX™ network.
 +
 
 +
&lt;initial_pac&gt; is the first Portability Access Code used to register the device on SIGFOX™ network. It is used one time for first registration.
 +
 
 +
<span style="color:red">&lt;dc&gt; is the management of the duty-cycle</span>
 +
 
 +
<span style="color:red">&lt;encrypt&gt; is the payload encryption setting</span>
 +
 
 +
<span style="color:red">&lt;rc&gt; is the selected RC</span>
 +
 
 +
==== Example ====
 +
 
 +
<br>
 +
 
 +
AT+SF=?
 +
<span style="color:red">+SF: ON,NMS-SFX-LIB-2.1,V2.8.1_FDL,V0.6.0,FEDCBA98,5441535420304143,1,0,RC1</span>
 +
OK
 +
<br>
 +
----
 +
 
 +
=== AT+SF=SNDBIN ===
 +
Binary frame transmission.
 +
 
 +
AT+SF=SNDBIN,&lt;binpayload&gt;,&lt;ack&gt;<span style="color:red">,&lt;add_tx_rx_info&gt;</span>
 +
 
 +
If &lt;ack&gt; value is 0 then the frame is sent in unacknowledged mode (default value when &lt;ack&gt; is omitted).
 +
 
 +
If &lt;ack&gt; value is 1, then the frame is sent in acknowledged mode.
 +
 
 +
The frame is sent when channel becomes free regarding duty cycle limitations.
 +
 
 +
<span style="color:red">if &lt;add_tx_rx_info&gt; > 0 then for each transmission performed and each Rx performed the following responses are sent after the OK/ERROR result:</span>
 +
 
 +
<span style="color:red">+SF: TXINFO,&lt;tx_index&gt;,&lt;tx_freq&gt;,&lt;toa&gt;</span>
 +
 
 +
<span style="color:red">+SF: RXINFO,&lt;rx_index&gt;,&lt;rx_freq&gt;,&lt;rx_duration&gt;</span>
 +
 
 +
<br>
 +
 
 +
==== Response ====
 +
 
 +
+SF: &lt;time_on_air&gt; is sent just before the solicited response OK. The time on air is in ms, it is used by client application to manage duty cycle.
 +
 
 +
OK if SIGFOX™ layer is ON and frame has been successfully sent (and acked if ack mode was requested).
 +
 
 +
ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent (or not acked after repetitions if ack mode was requested).
 +
 
 +
==== Unsolicited responses ====
 +
 
 +
An indication about Tx date:
 +
 
 +
+SF: SND,&lt;busytime&gt;
 +
 
 +
&lt;busytime&gt; is in ms.
 +
 
 +
It can be sent 2 times:
 +
 
 +
* One time with busytime &gt; 0 if Tx subband was not free due to duty cycle restriction
 +
* One time with busytime = 0 at Tx time.
 +
 +
The unsolicited response below is sent when ack mode was requested <span style="color:red">and a downlink payload has been received</span>
 +
 
 +
+SF: RCVBIN,&lt;binpayload&gt;,&lt;rssi&gt;
 +
 
 +
<br>
 +
 
 +
==== Example ====
 +
AT+SF=SNDBIN,CAFE,1
 +
+SF: SND,4576
 +
+SF: SND,0
 +
+SF: 6282
 +
OK
 +
+SF: RCVBIN,0123456789ABCDEF,-85.00
 +
<br>
 +
----
 +
 
 +
=== AT+SF=SNDBIT ===
 +
Bit transmission.
 +
 
 +
AT+SF=SNDBIT,&lt;bitvalue&gt;,&lt;ack&gt;<span style="color:red">,&lt;add_tx_rx_info&gt;</span>
 +
 
 +
If &lt;ack&gt; value is 0 then the bit is sent in unacknowledged mode (default value when &lt;ack&gt; is omitted).
 +
 
 +
If &lt;ack&gt; value is 1, then the bit is sent in acknowledged mode.
 +
 
 +
<span style="color:red">if &lt;add_tx_rx_info&gt; > 0 then for each transmission performed and each Rx performed the following responses are sent after the OK/ERROR result:</span>
 +
 
 +
<span style="color:red">+SF: TXINFO,&lt;tx_index&gt;,&lt;tx_freq&gt;,&lt;toa&gt;</span>
 +
 
 +
<span style="color:red">+SF: RXINFO,&lt;rx_index&gt;,&lt;rx_freq&gt;,&lt;rx_duration&gt;</span>
 +
 
 +
==== Response ====
 +
 
 +
+SF: &lt;time_on_air&gt; is sent just before the solicited response OK. The time on air is in ms, it is used by client application to manage duty cycle.
 +
 
 +
OK if SIGFOX™ layer is ON and frame has been successfully sent (and acked if ack mode was requested).
 +
 
 +
ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent (or not acked after repetitions if ack mode was requested).
 +
 
 +
==== Unsolicited responses ====
 +
 
 +
An indication about Tx date:
 +
 
 +
+SF: SND,&lt;busytime&gt;
 +
 
 +
&lt;busytime&gt; is in ms.
 +
 
 +
It can be sent 2 times:
 +
 
 +
* One time with busytime &gt; 0 if Tx subband was not free due to duty cycle restriction
 +
* One time with busytime = 0 at Tx time.
 +
 +
The unsolicited response below is sent when ack mode was requested <span style="color:red">and a downlink payload has been received</span>
 +
 
 +
+SF: RCVBIN,&lt;binpayload&gt;,&lt;rssi&gt;
 +
 
 +
<br>
 +
 
 +
==== Example ====
 +
AT+SF=SNDBIT,0,1
 +
+SF: SND,6422
 +
+SF: SND,0
 +
+SF: 4589
 +
OK
 +
+SF: RCVBIN,0123456789ABCDEF,-85.00
 +
<br>
 +
----
 +
 
 +
=== AT+SF=SNDOOB ===
 +
 
 +
Out Of Band message transmission.
 +
 
 +
<span style="color:red">AT+SF=SNDOOB,&lt;add_tx_rx_info&gt;</span>
 +
 
 +
<span style="color:red">if &lt;add_tx_rx_info&gt; > 0 then for each transmission performed the following response is sent after the OK result:</span>
 +
 
 +
<span style="color:red">+SF: TXINFO,&lt;tx_index&gt;,&lt;tx_freq&gt;,&lt;toa&gt;</span>
 +
 
 +
==== Response ====
 +
 
 +
+SF: &lt;time_on_air&gt; is sent just before the solicited response OK. The time on air is in ms, it can be used by client application to manage duty cycle.
 +
 
 +
OK if SIGFOX™ layer is ON and frame has been successfully sent.
 +
 
 +
ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent.
 +
 
 +
==== Unsolicited responses ====
 +
 
 +
An indication about Tx date:
 +
 
 +
+SF: SND,&lt;busytime&gt;
 +
 
 +
&lt;busytime&gt; is in ms.
 +
 
 +
It can be sent 2 times:
 +
 
 +
* One time with busytime &gt; 0 if Tx subband was not free due to duty cycle restriction
 +
* One time with busytime = 0 at Tx time.
 +
 
 +
==== Example ====
 +
AT+SF=SNDOOB
 +
+SF: SND,3987
 +
+SF: SND,0
 +
+SF: 4589
 +
OK
 +
<br>
 +
----
 +
 
 +
=== AT+SF=RREP (no more supported) ===
 +
 
 +
Read Tx repetitions used in acked mode.
 +
 
 +
<span style="color:red">This command is no more supported because SIGFOX™ library always uses 2 repetitions</span>
 +
 
 +
==== Response ====
 +
 
 +
Always <span style="color:red">ERROR</span>.
 +
 
 +
==== Example ====
 +
AT+SF=RREP
 +
<span style="color:red">ERROR</span>
 +
<br>
 +
----
 +
 
 +
=== AT+SF=SREP (no more supported) ===
 +
 
 +
Set Tx repetitions used in acked mode.
 +
 
 +
AT+SF=SREP,&lt;repeatnb&gt;
 +
 
 +
<span style="color:red">This command is no more supported because SIGFOX™ library always uses 2 repetitions</span>
 +
 
 +
==== Response ====
 +
 
 +
<span style="color:red">Always ERROR</span>
 +
 
 +
==== Example ====
 +
AT+SF=SREP,1
 +
<span style="color:red">ERROR</span>
 +
<br>
 +
----
 +
 
 +
=== AT+SF=RTXF (no more supported) ===
 +
 
 +
Read output carrier macro channel.
 +
 
 +
<span style="color:red">This command is no more supported because SIGFOX™ library uses constant uplink macro channel depending on the selected RC</span>
 +
 
 +
*<span style="color:red">RC1 uses 868.130 MHz as uplink center frequency, spectrum access is DC.</span>
 +
*<span style="color:red">RC2 uses 902.200 MHz as uplink start frequency and the channels activated by the config words (see AT+SF=RCFG command), spectrum access is FH.</span>
 +
*<span style="color:red">RC3C uses 923.200 MHz as uplink center frequency, spectrum access is LBT.</span>
 +
*<span style="color:red">RC4 uses 902.200 MHz as uplink start frequency and the channels activated by the config words (see AT+SF=RCFG command), spectrum access is FH.</span>
 +
*<span style="color:red">RC5 uses 923.300 MHz as uplink center frequency, spectrum access is LBT.</span>
 +
*<span style="color:red">RC6 uses 865.200 MHz as uplink center frequency, spectrum access is DC.</span>
 +
*<span style="color:red">RC7 uses 868.800 MHz as uplink center frequency, spectrum access is DC.</span>
 +
 
 +
==== Response ====
 +
 
 +
<span style="color:red">Always ERROR</span>
 +
 
 +
==== Example ====
 +
AT+SF=RTXF
 +
<span style="color:red">ERROR</span>
 +
<br>
 +
----
 +
 
 +
=== AT+SF=STXF (no more supported) ===
 +
Set output carrier macro channel.
 +
 
 +
<span style="color:red">This command is no more supported because SIGFOX™ library uses constant uplink macro channel depending on the selected RC</span>
 +
 
 +
==== Response ====
 +
 
 +
<span style="color:red">Always ERROR</span>
 +
 
 +
==== Example ====
 +
AT+SF=STXF,868200000
 +
<span style="color:red">ERROR</span>
 +
<br>
 +
----
 +
 
 +
=== AT+SF=RRXF (no more supported) ===
 +
 
 +
Read reception carrier macro channel.
 +
 
 +
<span style="color:red">This command is no more supported because SIGFOX™ library uses constant downlink macro channel depending on the selected RC</span>
 +
 
 +
*<span style="color:red">RC1 uses 869.525 MHz as downlink center frequency.</span>
 +
*<span style="color:red">RC2 uses 905.200 MHz as downlink center frequency.</span>
 +
*<span style="color:red">RC3C uses 922.200 MHz as downlink center frequency.</span>
 +
*<span style="color:red">RC4 uses 902.300 MHz as downlink center frequency.</span>
 +
*<span style="color:red">RC5 uses 902.300 MHz as downlink center frequency.</span>
 +
*<span style="color:red">RC6 uses 866.300 MHz as downlink center frequency.</span>
 +
*<span style="color:red">RC7 uses 869.100 MHz as downlink center frequency.</span>
 +
 
 +
==== Response ====
 +
 
 +
<span style="color:red">Always ERROR.</span>
 +
 
 +
==== Example ====
 +
AT+SF=RRXF
 +
<span style="color:red">ERROR.</span>
 +
<br>
 +
----
 +
 
 +
=== AT+SF=SRXF (no more supported) ===
 +
Set reception carrier macro channel.
 +
 
 +
<span style="color:red">This command is no more supported because SIGFOX™ library uses constant downlink macro channel depending on the selected RC</span>
 +
 
 +
==== Response ====
 +
 
 +
<span style="color:red">Always ERROR</span>
 +
 
 +
==== Example ====
 +
AT+SF=SRXF,869525000
 +
<span style="color:red">ERROR</span>
 +
<br>
 +
----
 +
 
 +
=== AT+SF=RTXP (no more supported) ===
 +
 
 +
Read Tx power applied to FSK continuous wave
 +
 
 +
<span style="color:red">This command is no more supported because not needed</span>
 +
 
 +
==== Response ====
 +
 
 +
<span style="color:red">Always ERROR</span>
 +
 
 +
==== Example ====
 +
AT+SF=RTXP
 +
<span style="color:red">ERROR</span>
 +
<br>
 +
----
 +
 
 +
=== AT+SF=STXP (no more supported) ===
 +
Set Tx power applied to FSK continuous wave
 +
 
 +
<span style="color:red">This command is no more supported because not needed</span>
 +
 
 +
==== Response ====
 +
 
 +
<span style="color:red">Always ERROR</span>
 +
 
 +
==== Example ====
 +
AT+SF=STXP,10
 +
<span style="color:red">ERROR</span>
 +
 
 +
<br>
  
If SIGFOX™ library is embedded OK is returned.
+
=== <span style="color:red">AT+SF=RKEY (for certification tests)</span> ===
 +
<span style="color:red">Read selected key (private or public).</span>
  
Else ERROR is returned.
+
<span style="color:red">AT+SF=RKEY</span>
  
+SF: &lt;state&gt;,&lt;NMS_lib_ver&gt;,&lt;SFX_lib_ver&gt;,&lt;dev_id&gt;,&lt;initial_pac&gt;
+
==== <span style="color:red">Response</span> ====
 
 
&lt;state&gt; is ON, OFF or DUAL. DUAL means that LoRa™WAN and SIGFOX™ stacks are both ON.
 
 
 
&lt;NMS_lib_ver&gt; is the version of Nemeus library used to communicate with SIGFOX™ network.
 
 
 
&lt;SFX_lib_ver&gt; is the version of SIGFOX™ library.
 
  
&lt;dev_id&gt; is the device unique identifier on SIGFOX™ network.
+
<span style="color:red">OK if SIGFOX™ layer is ON, ERROR if it is OFF</span>
  
&lt;initial_pac&gt; is the first Portability Access Code used to register the device on SIGFOX™ network. It is used one time for first registration.
+
<span style="color:red">+SF: &lt;use_public&gt;</span>
  
==== Example ====
+
<span style="color:red">&lt;use_public&gt; values: 0 means private key, 1 means public key</span>
  
<br>
+
==== <span style="color:red">Example</span> ====
  
  AT+SF=?
+
  <span style="color:red">AT+SF=RKEY</span>
  +SF: ON,NMS-SFX-LIB-1.2,UDL1-1.6.0,000ABCDE,0123456789ABCDEF
+
  <span style="color:red">+SF: 0</span>
  OK
+
  <span style="color:red">OK</span>
 
<br>
 
<br>
 
----
 
----
=== AT+SF=SNDBIN, ===
 
Binary frame transmission.
 
 
AT+SF=SNDBIN,&lt;binpayload&gt;,&lt;ack&gt;
 
 
If &lt;ack&gt; value is 0 then the frame is sent in unacknowledged mode (default value when &lt;ack&gt; is omitted).
 
 
If &lt;ack&gt; value is 1, then the frame is sent in acknowledged mode.
 
 
The frame is sent when channel becomes free regarding duty cycle limitations.
 
 
<br>
 
 
==== Response ====
 
 
+SF: &lt;time_on_air&gt; is sent just before the solicited response OK. The time on air is in ms, it is used by client application to manage duty cycle.
 
 
OK if SIGFOX™ layer is ON and frame has been successfully sent (and acked if ack mode was requested).
 
 
ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent (or not acked after repetitions if ack mode was requested).
 
 
==== Unsolicited responses ====
 
 
An indication about Tx date:
 
  
+SF: SND,&lt;busytime&gt;
+
=== <span style="color:red">AT+SF=SKEY (for certification tests)</span> ===
 +
<span style="color:red">Select private or public key.</span>
  
&lt;busytime&gt; is in ms.
+
<span style="color:red">AT+SF=SKEY,&lt;use_public&gt;</span>
  
It can be sent 2 times:
+
==== <span style="color:red">Response</span> ====
  
* One time with busytime &gt; 0 if Tx subband was not free due to duty cycle restriction
+
<span style="color:red">OK if SIGFOX™ layer is ON, ERROR if it is OFF</span>
* One time with busytime = 0 at Tx time.
 
 
The unsolicited response below is sent when ack mode was requested.
 
 
 
+SF: RCVBIN,&lt;binpayload&gt;,&lt;rssi&gt;
 
  
<br>
+
==== <span style="color:red">Example</span> ====
  
==== Example ====
+
<span style="color:red">Select public key:</span>
  AT+SF=SNDBIN,CAFE,1
+
  <span style="color:red">AT+SF=SKEY,1</span>
  +SF: SND,4576
+
  <span style="color:red">OK</span>
+SF: SND,0
 
+SF: 6282
 
OK
 
+SF: RCVBIN,0123456789ABCDEF,-85.00
 
 
<br>
 
<br>
 
----
 
----
=== AT+SF=SNDBIT, ===
 
Bit transmission.
 
 
AT+SF=SNDBIT,&lt;bitvalue&gt;,&lt;ack&gt;
 
 
If &lt;ack&gt; value is 0 then the bit is sent in unacknowledged mode (default value when &lt;ack&gt; is omitted).
 
 
If &lt;ack&gt; value is 1, then the bit is sent in acknowledged mode.
 
 
==== Response ====
 
 
+SF: &lt;time_on_air&gt; is sent just before the solicited response OK. The time on air is in ms, it is used by client application to manage duty cycle.
 
  
OK if SIGFOX™ layer is ON and frame has been successfully sent (and acked if ack mode was requested).
+
=== <span style="color:red">AT+SF=TM (for certification tests)</span> ===
 +
<span style="color:red">Start test mode.</span>
  
ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent (or not acked after repetitions if ack mode was requested).
+
<span style="color:red">AT+SF=TM,&lt;mode&gt;</span>
  
==== Unsolicited responses ====
+
<span style="color:red">&lt;mode&gt; values:</span>
 +
*<span style="color:red">0: SFX_TEST_MODE_TX_BPSK</span>
 +
*<span style="color:red">1: SFX_TEST_MODE_TX_PROTOCOL</span>
 +
*<span style="color:red">2: SFX_TEST_MODE_RX_PROTOCOL</span>
 +
*<span style="color:red">3: SFX_TEST_MODE_RX_GFSK</span>
 +
*<span style="color:red">4: SFX_TEST_MODE_RX_SENSI</span>
 +
*<span style="color:red">5: SFX_TEST_MODE_TX_SYNTH</span>
 +
*<span style="color:red">6: SFX_TEST_MODE_TX_FREQ_DISTRIBUTION</span>
 +
*<span style="color:red">11: SFX_TEST_MODE_TX_BIT</span>
 +
*<span style="color:red">12: SFX_TEST_MODE_PUBLIC_KEY</span>
 +
*<span style="color:red">13: SFX_TEST_MODE_NVM</span>
  
An indication about Tx date:
+
==== <span style="color:red">Response</span> ====
  
+SF: SND,&lt;busytime&gt;
+
<span style="color:red">When the test expects the receipt of downlink the following responses are sent for each downlink:</span>
  
&lt;busytime&gt; is in ms.
+
<span style="color:red">PASS &lt;rssi&gt; when downlink frame has been received</span>
 
 
It can be sent 2 times:
 
  
* One time with busytime &gt; 0 if Tx subband was not free due to duty cycle restriction
+
<span style="color:red">FAIL when downlink frame hasn't been received</span>
* One time with busytime = 0 at Tx time.
 
 
The unsolicited response below is sent when ack mode was requested.
 
  
+SF: RCVBIN,&lt;binpayload&gt;,&lt;rssi&gt;
+
<span style="color:red">OK or ERROR according to final result</span>
  
<br>
+
==== <span style="color:red">Example</span> ====
  
==== Example ====
+
<span style="color:red">AT+SF=TM,2</span>
AT+SF=SNDBIT,0,1
+
  <span style="color:red">PASS -45</span>
  +SF: SND,6422
+
  <span style="color:red">...</span>
  +SF: SND,0
+
  <span style="color:red">PASS -57</span>
  +SF: 4589
+
  <span style="color:red">OK</span>
  OK
 
+SF: RCVBIN,0123456789ABCDEF,-85.00
 
 
<br>
 
<br>
 
----
 
----
=== AT+SF=SNDOOB ===
 
 
Out Of Band message transmission.
 
 
==== Response ====
 
 
+SF: &lt;time_on_air&gt; is sent just before the solicited response OK. The time on air is in ms, it can be used by client application to manage duty cycle.
 
 
OK if SIGFOX™ layer is ON and frame has been successfully sent.
 
 
ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent.
 
 
==== Unsolicited responses ====
 
 
An indication about Tx date:
 
 
+SF: SND,&lt;busytime&gt;
 
  
&lt;busytime&gt; is in ms.
+
=== <span style="color:red">AT+SF=RI</span> ===
 +
<span style="color:red">Read Info about LBT transmission.</span>
  
It can be sent 2 times:
+
<span style="color:red">AT+SF=RI</span>
  
* One time with busytime &gt; 0 if Tx subband was not free due to duty cycle restriction
+
==== <span style="color:red">Response</span> ====
* One time with busytime = 0 at Tx time.
 
  
==== Example ====
+
<span style="color:red">Always OK</span>
AT+SF=SNDOOB
 
+SF: SND,3987
 
+SF: SND,0
 
+SF: 4589
 
OK
 
<br>
 
----
 
=== AT+SF=RREP ===
 
  
Read Tx repetitions used in acked mode.
+
<span style="color:red">If selected RC is LBT:</span>
  
==== Response ====
+
<span style="color:red">+SF: &lt;cs_attempt&gt;,&lt;nb_sent_frame&gt;</span>
  
+SF: &lt;repeat&gt; is sent just before the solicited response OK.
+
<span style="color:red">If selected RC is DC or FH:</span>
  
Default value is 2 repetitions.
+
<span style="color:red">+SF: 0</span>
  
Always OK.
+
==== <span style="color:red">Example</span> ====
 +
<span style="color:red">Selected RC is RC3C:</span>
 +
<span style="color:red">AT+SF=RI</span>
 +
<span style="color:red">+SF: 1,3</span>
 +
<span style="color:red">OK</span>
  
==== Example ====
+
<span style="color:red">Selected RC is RC1:</span>
  AT+SF=RREP
+
  <span style="color:red">AT+SF=RI</span>
  +SF: 2
+
  <span style="color:red">+SF: 0</span>
  OK
+
  <span style="color:red">OK</span>
 
<br>
 
<br>
 
----
 
----
=== AT+SF=SREP, ===
 
  
Set Tx repetitions used in acked mode.
+
=== <span style="color:red">AT+SF=RCFG</span> ===
 +
<span style="color:red">Read FH or LBT config words.</span>
  
AT+SF=SREP,&lt;repeatnb&gt;
+
<span style="color:red">AT+SF=RCFG</span>
  
==== Response ====
+
==== <span style="color:red">Response</span> ====
 
 
Default value is 2 repetitions.
 
 
 
OK if number of repetitions &lt;= 2.
 
 
 
ERROR if number of repetitions &gt; 2.
 
 
 
==== Example ====
 
AT+SF=SREP,1
 
OK
 
AT+SF=SREP,3
 
ERROR
 
<br>
 
----
 
=== AT+SF=RTXF ===
 
  
Read output carrier macro channel.
+
<span style="color:red">Always OK</span>
  
==== Response ====
+
<span style="color:red">+SF: &lt;cfg_word[0]&gt;,&lt;cfg_word[1]&gt;,&lt;cfg_word[2]&gt;,&lt;timer_enable&gt;</span>
  
+SF: &lt;tx_frequency&gt; is sent just before the solicited response OK.
+
<span style="color:red">Each &lt;cfg_word[]&gt; is encoded as 8 hexa digits</span>
  
Default value is 868130000 Hz.
+
<span style="color:red">If selected RC is FH:</span>
  
Always OK.
+
<span style="color:red">Macro Channel Value MHz : | 902.2MHz | 902.5MHz | 902.8MHz | 903.1MHz | 903.4MHz | 903.7MHz | 904.0MHz | 904.3MHz | 904.6MHz | ...    ...      | 911.5MHz |</span>
 +
<span style="color:red">Macro Channel Value    : | Chn 1    | Chn 2    | Chn 3    | Chn 4    | Chn 5    | Chn 6    | Chn 7    | Chn 8    | Chn 9    | ...    ...      | Chn 32  |</span>
 +
<span style="color:red">cfg_word[0] bit        : | bit 0    | bit 1    | bit 2    | bit 3    | bit 4    | bit 5    | bit 6    | bit 7    | bit 8    | ...    ...      | bit 31  |</span>
  
==== Example ====
+
<span style="color:red">Macro Channel Value MHz : | 911.8MHz | 912.1MHz | 912.4MHz | 912.7MHz | 913.0MHz | 913.3MHz | 913.6MHz | 913.9MHz | 914.2MHz | ...    ...      | 921.1MHz |</span>
  AT+SF=RTXF
+
  <span style="color:red">Macro Channel Value    : | Chn 33  | Chn 34  | Chn 35  | Chn 36  | Chn 37  | Chn 38  | Chn 39  | Chn 40  | Chn 41  | ...    ...      | Chn 64  |</span>
+SF: 868130000
+
  <span style="color:red">cfg_word[1] bit        : | bit 0    | bit 1    | bit 2    | bit 3    | bit 4    | bit 5    | bit 6    | bit 7    | bit 8    | ...    ...     | bit 31  |</span>
  OK
 
<br>
 
----
 
=== AT+SF=STXF, ===
 
Set output carrier macro channel.
 
  
==== Response ====
+
<span style="color:red">Macro Channel Value MHz : | 921.4MHz | 921.7MHz | 922.0MHz | 922.3MHz | 922.6MHz | 922.9MHz | 923.2MHz | 923.5MHz | 923.8MHz | ... | 927.7MHz |</span>
 +
<span style="color:red">Macro Channel Value    : | Chn 65  | Chn 66  | Chn 67  | Chn 68  | Chn 69  | Chn 70  | Chn 71  | Chn 72  | Chn 73  | ... | Chn 86  |</span>
 +
<span style="color:red">cfg_word[2] bit        : | bit 0    | bit 1    | bit 2    | bit 3    | bit 4    | bit 5    | bit 6    | bit 7    | bit 8    | ... | bit 21  |</span>
  
OK if 863000000 &lt;= tx_frequency &lt;= 870000000.
+
<span style="color:red">&lt;timer_enable&gt; enable(1)/disable(0) the timer feature</span>
  
ERROR if tx_frequency is not in valid range.
+
<span style="color:red">If selected RC is LBT:</span>
  
==== Example ====
+
<span style="color:red">cfg_word[0] : number of attempts to send the first frame [ has to be greater or equal to 1]</span>
  AT+SF=STXF,868200000
+
<span style="color:red">cfg_word[1] : maximum carrier sense sliding window (in ms) [ has to be greater than 6 ms ( CS_MIN_DURATION_IN_MS + 1 ) ]</span>
  OK
+
  <span style="color:red">cfg_word[2] :</span>
  AT+SF=STXF,862200000
+
  <span style="color:red">                  . bit 8  : set the value to 1 to indicate that the device will use the full operationnal radio band.( 192kHz )</span>
  ERROR
+
  <span style="color:red">                  . bit 7-3 : number of Carrier Sense attempts.</span>
<br>
+
  <span style="color:red">                 . bit 2-0 : number of frames sent.</span>
----
+
<span style="color:red">&lt;timer_enable&gt; is not used</span>
=== AT+SF=RRXF ===
 
  
Read reception carrier macro channel.
+
<span style="color:red">If selected RC is DC:</span>
  
==== Response ====
+
<span style="color:red">cfg_word[0] is not used</span>
 +
<span style="color:red">cfg_word[1] is not used</span>
 +
<span style="color:red">cfg_word[2] is not used</span>
 +
<span style="color:red">&lt;timer_enable&gt; is not used</span>
  
+SF: &lt;rx_frequency&gt; is sent just before the solicited response OK.
+
==== <span style="color:red">Example</span> ====
  
Default value is 869525000 Hz.
+
<span style="color:red">Selected RC is RC1 (DC):</span>
 +
<span style="color:red">AT+SF=RCFG</span>
 +
<span style="color:red">+SF: 00000000,00000000,00000000,0</span>
 +
<span style="color:red">OK</span>
  
Always OK.
+
<span style="color:red">Selected RC is RC2 (FH):</span>
 +
<span style="color:red">AT+SF=RCFG</span>
 +
<span style="color:red">+SF: 00000001,00000000,00000000,1</span>
 +
<span style="color:red">OK</span>
  
==== Example ====
+
<span style="color:red">Selected RC is RC3C (LBT):</span>
  AT+SF=RRXF
+
  <span style="color:red">AT+SF=RCFG</span>
  +SF: 869525000
+
  <span style="color:red">+SF: 00000003,00001388,00000000,0</span>
  OK
+
  <span style="color:red">OK</span>
 
<br>
 
<br>
 
----
 
----
=== AT+SF=SRXF, ===
 
Set reception carrier macro channel.
 
 
AT+SF=SRXF,&lt;rx_frequency&gt;
 
 
==== Response ====
 
  
OK if 863000000 &lt;= rx_frequency &lt;= 870000000.
+
=== <span style="color:red">AT+SF=SCFG</span> ===
 +
<span style="color:red">Set FH or LBT config words.</span>
  
ERROR if rx_frequency is not in valid range.
+
<span style="color:red">AT+SF=SCFG,&lt;cfg_word[0]&gt;,&lt;cfg_word[1]&gt;,&lt;cfg_word[2]&gt;,&lt;timer_enable&gt;</span>
 
 
==== Example ====
 
AT+SF=SRXF,869525000
 
OK
 
AT+SF=SRXF,869525000
 
ERROR
 
<br>
 
----
 
=== AT+SF=RTXP (for test purpose) ===
 
  
Read Tx power applied to FSK continuous wave
+
==== <span style="color:red">Response</span> ====
  
==== Response ====
+
<span style="color:red">OK if parameters are valid and SIGFOX™ layer is OFF</span>
  
+SF: &lt;tx_power&gt; is sent just before the solicited response OK.
+
<span style="color:red">ERROR if parameters are invalid or SIGFOX™ layer is ON</span>
  
Default value is 14 dBm.
+
==== <span style="color:red">Example</span> ====
  
Always OK.
+
<span style="color:red">Selected RC is RC2 (FH):</span>
 +
<span style="color:red">AT+SF=SCFG,00000001,00000000,00000000,1</span>
 +
<span style="color:red">OK</span>
  
==== Example ====
+
<span style="color:red">Selected RC is RC3C (LBT):</span>
  AT+SF=RTXP
+
  <span style="color:red">AT+SF=SCFG,00000003,00001388,00000000,0</span>
  +SF: 14
+
  <span style="color:red">OK</span>
OK
 
 
<br>
 
<br>
 
----
 
----
 
=== AT+SF=STXP (for test purpose) ===
 
Set Tx power applied to FSK continuous wave
 
 
==== Response ====
 
 
OK if tx_power &lt;= 14 dBm.
 
 
ERROR if tx_power &gt; 14 dBm.
 
 
==== Example ====
 
AT+SF=STXP,10
 
OK
 
AT+SF=STXP,20
 
ERROR
 
 
<br>
 
  
 
== AT Generic command ==
 
== AT Generic command ==
Line 3,111: Line 3,457:
 
Always OK.
 
Always OK.
 
<br>
 
<br>
For each LoRaWAN L2:
+
For each LoRa™WAN L2:
 
<br>
 
<br>
 
+SCHC: &lt;l2_id&gt;,&lt;l2_type&gt;,&lt;join_chan_mask&gt;,&lt;join_dr&gt;,&lt;first_dr&gt;,&lt;adr&gt;,&lt;nb_trans&gt;,&lt;piggyback&gt;,&lt;backoff&gt;,&lt;force_dr&gt;,&lt;ack&gt;,&lt;class_c&gt;
 
+SCHC: &lt;l2_id&gt;,&lt;l2_type&gt;,&lt;join_chan_mask&gt;,&lt;join_dr&gt;,&lt;first_dr&gt;,&lt;adr&gt;,&lt;nb_trans&gt;,&lt;piggyback&gt;,&lt;backoff&gt;,&lt;force_dr&gt;,&lt;ack&gt;,&lt;class_c&gt;
 
  &lt;l2_id&gt;: the identifier which addresses the L2
 
  &lt;l2_id&gt;: the identifier which addresses the L2
  &lt;l2_type&gt;: 0 for LoRaWAN
+
  &lt;l2_type&gt;: 0 for LoRa™WAN
 
  &lt;join_chan_mask&gt;: channels used by join procedure 0 for ABP mode, 1 for 868.1 channel, 2 for 868.3 channel, 4 for 868.5 channel, 7 for all default channels
 
  &lt;join_chan_mask&gt;: channels used by join procedure 0 for ABP mode, 1 for 868.1 channel, 2 for 868.3 channel, 4 for 868.5 channel, 7 for all default channels
 
  &lt;join_dr&gt;: data rate to start the join procedure (0 to 5)
 
  &lt;join_dr&gt;: data rate to start the join procedure (0 to 5)
Line 3,127: Line 3,473:
 
  &lt;class_c&gt;: device class C enable(1)/disable(0)
 
  &lt;class_c&gt;: device class C enable(1)/disable(0)
 
<br>
 
<br>
For Sigfox L2:
+
For SIGFOX™ L2:
 
<br>
 
<br>
 
Not yet available
 
Not yet available
Line 3,142: Line 3,488:
 
Set L2 parameters.
 
Set L2 parameters.
 
<br>
 
<br>
For a LoRaWAN L2:
+
For a LoRa™WAN L2:
 
<br>
 
<br>
 
AT+SCHC=SL2,&lt;l2_id&gt;,&lt;join_chan_mask&gt;,&lt;join_dr&gt;,&lt;first_dr&gt;,&lt;adr&gt;,&lt;nb_trans&gt;,&lt;piggyback&gt;,&lt;backoff&gt;,&lt;force_dr&gt;,&lt;ack&gt;,&lt;class_c&gt;
 
AT+SCHC=SL2,&lt;l2_id&gt;,&lt;join_chan_mask&gt;,&lt;join_dr&gt;,&lt;first_dr&gt;,&lt;adr&gt;,&lt;nb_trans&gt;,&lt;piggyback&gt;,&lt;backoff&gt;,&lt;force_dr&gt;,&lt;ack&gt;,&lt;class_c&gt;
 
<br>
 
<br>
For Sigfox L2:
+
For SIGFOX™ L2:
 
<br>
 
<br>
 
Not yet available
 
Not yet available
Line 3,171: Line 3,517:
 
<br>
 
<br>
 
+SCHC: &lt;r_state&gt;,&lt;l2_id&gt;
 
+SCHC: &lt;r_state&gt;,&lt;l2_id&gt;
  &lt;r_state&gt;: the current SCHC stack state: 0 when stack is off, 1 when stack is initializing (joining when LoRaWAN L2), 2 when stack is idle, 3 when stack is transmitting
+
  &lt;r_state&gt;: the current SCHC stack state: 0 when stack is off, 1 when stack is initializing (joining when LoRa™WAN L2), 2 when stack is idle, 3 when stack is transmitting
 
  &lt;l2_id&gt;: the L2 used by SCHC stack
 
  &lt;l2_id&gt;: the L2 used by SCHC stack
 
Unsolicited response (when stack state changes):
 
Unsolicited response (when stack state changes):

Latest revision as of 16:36, 7 November 2022

!!! UNDER CONSTRUCTION !!!

AT commands are used as an interface with Nemeus Communication modules. Modules can be driven at 3 different levels:

  • Radio level: embedded AT server uses RF SX127x driver API (LoRa™and FSK modulations can be used).
  • LoRa™WAN level: embedded AT server uses LoRa™WAN library API (available only when the library is present in embedded software).
  • SIGFOX™ level: embedded AT server uses SIGFOX™ library API (available only when the library is present in embedded software).

When radio level is used, no device personalization is required, it is up to AT client application to implement network layer according to the network the device is attached (the module doesn’t know the network).

When LoRa™WAN level is used, the device is personalized with the following parameters:

  • Whatever the activation type, a 64 bits device unique identifier.
  • When Activation By Personalization (ABP) is used:
    • An AES128 network session key for MIC computation and encryption of MAC control commands on port 0.
    • An AES128 application session key for encryption of application payloads (not required when data encryption is disabled on the module).
    • A device address
  • When Over The Air Activation (OTAA) is used:
    • A 64 bits join server unique identifier.
    • An AES128 Key used to derive the network and application session keys.

The modules are personalized with Nemeus OUI during production phase and they can’t be modified. The device unique identifier is read-only and the AES128 keys are hidden.

The application unique identifier is modifiable by AT command.

When SIGFOX™ level is used, the device is personalized with the following parameters:

  • The read-only device unique identifier.
  • The hidden AES128 security key.
  • The initial read-only Portability Access Code (PAC).

Before driving the module, the AT client application must activate the level it wants to use.

LoRa™WAN and SIGFOX™ levels can be activated in parallel, it is called the dual mode.

Radio level can't be activated in parallel with LoRa™WAN and/or SIGFOX™ levels.


Mm002 serial diagram.png



For evaluation/test purpose, Nemeus recommends to use NemeusATK java application to drive the module.

Contents

1 UART configuration

The UART configuration for Modem connection is as follows:

  • Baud Rate : 38400
  • Data : 8 bits
  • Parity : None
  • Stop : 1 bit
  • Flow control : None
  • End line character : <LF>



E.g. Typical configuration given by ‘stty’ command on linux:

speed 38400 baud; rows 0; columns 0; line = 0;

intr = ^C; quit = ^\; erase = ^?; kill = ^U; eof = ^D; eol = <undef>; eol2 = <undef>;swtch = <undef>; start = ^Q; stop = ^S; susp = ^Z; rprnt = ^R; werase = ^W; lnext = ^V;flush = ^O; min = 1; time = 0;

-parenb -parodd cs8 hupcl -cstopb cread clocal –crtsct signbrk -brkint -ignpar -parmrk -inpck -istrip -inlcr -igncr -icrnl -ixon -ixoff –iuclc -ixany -imaxbel -iutf8

-opost -olcuc -ocrnl -onlcr -onocr -onlret -ofill -ofdel nl0 cr0 tab0 bs0 vt0 ff0 -isig -icanon -iexten -echo -echoe -echok -echonl -noflsh -xcase -tostop –echoprt -echoctl -echoke


2 AT commands


At command are split according to communication layers. This is a list of main AT commands for SW given in ‘compatibility’ paragraph. The full list and limitation can be found in SW delivery note.

Formalism is the following:



AT-command-line.png



For each group among RF, RFRX, RFTX, MAC and SFX, the command AT+<group>= HELP describes available sub-commands. Example:

AT+MAC= HELP
+MAC: <cmd>,<param_1>,…,<param_N>
+MAC: <cmd> are ON,OFF,?,SET,SCH,RCH,STI,RTI,SRX,RRX,SNDTXT,SNDBIN,RCVTXT,RCVBIN,STOPRCV,SNDLCR,DEVUID,DEVADDR,APPUID,APPKEY,NSKEY,APPSKEY
+MAC: <cmd>? Lists parameters of <cmd> if any
OK

When a sub-command has parameter, AT+<group>= <cmd>? Describes the parameter list. Example:

AT+MAC=SNDTXT?
+MAC: SNDTXT,<textpayload>,<nbrepeat>,<port>,<mode>
OK

When command is unknown “command not found (‘try help’)” is returned.

AT commands are not cancelable, thus AT client application must wait for AT response before sending a new command.

Due to UART Rx buffer size, an AT command can't exceeds 511 characters.


3 Generic Parameter description


Following table describes mains parameters used with AT commands.



Values

Description

Type

<mod>

Modulation to be use

LORA/FSK

<freq>

Carrier frequency

Expressed in Hertz *

<pwr>

Tx power (range depends on Module definition; e.g. MM001 -1dBm to 14dBm)

In dBm *


<bw>

Bandwidth from 125kHz to 500 kHz

In Hertz *


<dr>

Spreading Factor in LoRa™ mode

Data rate in FSK mode

6/7 to 12 *

In kb/s

<cr>

Coding Rate (LoRa™ mode only)

1 to 4

<min/maxdr>

Data rate range

SF7BW125 to SF12BW125, SF7BW250 or FSK50KBPS

<tx/rxcrcon>

Flag for CRC check activation in TX or RX

True or false

<preamble>

Length of the preamble

6 to 65535

<f_dev>

Frequency deviation (FSK mode only)


<fixed_len>

In RFTX commands: false means PHY header indicates the payload size, true means PHY payload is constant (no header) and equal to the sent payload length

In RFRX commands: 0 means Rx payload length is decoded in PHY header, >0 means the Rx payload size is constant and equal to <fixed_len> value

True or false (RFTX)

Decimal value (RFRX)

<tx/rxiqinv

Flag for IQ inversion in TX or RX (LoRa™ mode only)

True or false

<rxw1>

Delay before RX windows 1

In ms

<rxw2>

Delay before RX windows 2 ; NOTE: rx_w2 must be longer than rx_w1.

In ms

<tstamp>

Rx ot Tx timestamp

In ticks

<symbtimeout>

Number of symbols before RX timeout

5 to 1023

<port>

MAC port

0 to 10

<textpayload>

Payload to send or received payload in ASCII

ASCII string

< binarypayload>

Payload to send or received payload in hexadecimal coded in ASCII

ASCII string containing 0 to F characters

<chan>

Identifies one of the 8 MAC channels

0 to 7

<enable>

Indicates the status of a channel

True or false

<nbrepeat>

Number of repetitions when sending a payload.

At MAC level this parameter indicates if data confirmed must be used or not (0 means unacked mode>).

0 to N

<interval>

Time interval between repetitions

In ms

<hexaddress>

Address of a registry in hexadecimal


<nbbytes>


0 to 4

<byteN>

Byte to write

0x00 to 0xFF

<margin>

Link demodulation margin above the demodulation floor computed by the nearest gateway

0 to 254 in dB

<gwcnt>

Number of gateways which received the MAC message

1 to N

<devuid>

Device unique identifier

8 bytes

<devaddr>

Device address (4 LSB of <devuid>)

4 bytes

<more>

Indicates if more downlink data is pending

true or false

<mode>

LoRa™WAN transmission mode

0 for confirmed data not 0 for unconfirmed data

<rxw1freq>

Channel frequency used for Rx window 1

In Hz, 0 means same as Tx frequency

<eirp>

Effective Isotropic Radiated Power received in TxParamSetupReq (Asian band only)

In dBm

<updwell>

Uplink dwell time received in TxParamSetupReq (Asian band only)

0 means no limit

1 means 400 ms

<dwdwell>

Downlink dwell time received in TxParamSetupReq (Asian band only)

0 means no limit

1 means 400 ms

<backoff>

Ack mode retransmission back-off procedure

false means disabled

true means enabled


  • Depends on Module in use


4 Generic Response description



Every AT command send a response of one of the following types:



Values

Description

Visible output


Generic


<CR><LF>OK<CR><LF>

OK response


OK

<CR><LF>ERROR<CR><LF>

ERROR response


ERROR

<CR><LF>ERROR NOACK<CR><LF>

ERROR response due to a missing ACK

ERROR_NOACK


<CR><LF>+MAC:

Response from MAC layer


+MAC:

<CR><LF>+RFTX:

Response from RF layer (TX)


+RFTX:

<CR><LF>+RFRX:

Response from RF layer (RX)


+RFRX:

<CR><LF>+DEBUG:

Response from debug layer

+DEBUG:









5 AT Generic commands


Intentionally left blank







6 AT RF commands


RF commands are dealing with the RF Layer. This layer should be started before using most of RF commands listed in this section (unless stated otherwise).

3 groups of commands exist:

  • +RF group: commands common to TX and RX functions.
  • +RFTX group: commands dedicated to TX functions.
  • +RFRX group: commands dedicated to RX functions.



6.1 AT+RF=HELP

This command is used to know the list of sub-commands.

6.1.1 Response

OK.

6.1.2 Example

AT+RF=HELP
+RF: <cmd>
+RF: <cmd> are ON,OFF,?,RPER,SPER,RSW,SSW
+RF: <cmd>? Lists parameters of <cmd> if any
OK



6.2 AT+RF=ON

This command is used to start RF layer (Radio driver) and is mandatory in order to use most of RF commands listed in this section (unless otherwise stated).

6.2.1 Response

ERROR is returned if either LoRa™WAN stack or SIGFOX™ stack is using the radio (Tx or Rx is ongoing).

Else OK is returned.

If LoRa™WAN stack was ON (but not using the radio), it is automatically set to OFF.

If SIGFOX™ stack was ON (but not using the radio), it is automatically set to OFF.



6.3 AT+RF=OFF

This command is used to stop RF layer (Radio driver). After calling this command, most of RF commands listed in this section will return ERROR (unless stated otherwise).

RF layer stop (Radio driver).

6.3.1 Response

Always OK.



6.4 AT+RF=?

This command is used to read the current RF layer state.

6.4.1 Response

Always OK.

6.4.2 Example

AT+RF=?
+RF: OFF
OK



6.5 AT+RF=RPER

This command is used to read the Packet Error Rate state, the power offset, the RSSI offset for LoRa™/LoRa™WAN carrier sensing, the RSSI offset for FSK/SIGFOX™ carrier sensing and the frequency offset for SIGFOX™ Tx.

6.5.1 Response

Always OK.

+RF: <per_state>,<pwroffset>,<loracsoffset>,<fskcsoffset>,<freqoffset>

6.5.2 Example

AT+RF=RPER
+RF: false,0,12,-5,0
OK



6.6 AT+RF=SPER

This command is used to set the Packet Error Rate state, the power offset, the RSSI offset for LoRa™/LoRa™WAN carrier sensing, the RSSI offset for FSK/SIGFOX™ carrier sensing and the frequency offset for SIGFOX™ Tx.

The following formalism is used. It can be checked by the AT+RF=SPER?command:

+RF=SPER,<per_state>,<pwroffset>,<loracsoffset>,<fskcsoffset>,<freqoffset>

<per_state> PER state, unchanged when absent (string true or false).

<pwroffset> is the Power offset (signed decimal in dBm)

<loracsoffset> is the RSSI offset in LoRa™ (signed decimal in dB)

<fskcsoffset> is the RSSI offset in Fsk and SIGFOX™ (signed decimal in dB)

<freqoffset> is the frequency offset in SIGFOX™ (signed decimal in Hz)


When PER state is true, a counter is added at the beginning of Tx frames. This counter is used on Rx side to compute the Packet Error Rate.

6.6.1 Response

OK if <per_state> is “true”, “false” or omitted.

ERROR if <per_state> is syntactically incorrect.

6.6.2 Example

AT+RF=SPER,true
OK



6.7 AT+RF=RSW

This command is used to read the current LoRa™ and FSK synchro words. Synchro words are in hexadecimal format (see formalism on SSW command)

6.7.1 Response

Always OK.

6.7.2 Example

AT+RF=RSW
+RF: 12,69817E96
OK



6.8 AT+RF=SSW

This command is used to set the synchro words.

AT+RF=SSW,<LoRa_SyncWord>,<Fsk_SyncWord>

<LoRa_SyncWord> LoRa™ Synchro Word (one byte encoded as hexas digits)

<Fsk_SyncWord> FSK Synchro Word (up to six bytes encoded as hexa digits)


A synchro word is unchanged when related parameter is absent.

6.8.1 Response

OK if parameters are correct or omitted.

ERROR if FSK synchro word is too long (6 bytes/12 hexa digits max) or number of digits is not even.

6.8.2 Example

AT+RF=SSW, 12,69817E96
OK



6.9 AT+RFTX=HELP

This command is used to know the list of sub-commands.

6.9.1 Response

OK.

6.9.2 Example

AT+RFTX=HELP
+RFTX: <cmd>,<param_1>,…,<param_N>
+RFTX: <cmd> are ?,SET,SEND,SNDTXT,SNDBIN,START,STOP
+RFTX: <cmd>? Lists parameters of <cmd> if any
OK



6.10 AT+RFTX=?

Read TX parameters. This command does not need the RF layer to be ON.

6.10.1 Response

Always OK.

+RFTX: <mod>,<freq>,<pwr>,<bw>,<dr>,<cr>,<txcrcon>,<preamble>,<fdev>,<fixed_len>,<txiqinv>,<rxw1>,<rxw2>,<tstamp>,<symbtimeout>,<rxiqinv>,<rxcrcon>

6.10.2 Example

AT+RFTX=?
+RFTX :  LORA,868100000,14,125000,7,1,true,8,0,false,false,0,0,0,5,false,true,false
OK



6.11 AT+RFTX=SET

Write Tx parameters. This command does not need the RF layer to be ON. Only modified parameters can be specified.

The following formalism is used. It can be checked by the AT+RFTX=SET? command:

+RFTX= SET,<mod>,<freq>,<pwr>,<bw>,<dr>,<cr>,<txcrcon>,<preamble>,<fdev>,<fixed_len>,<txiqinv>,<rxw1>,<rxw2>,<tstamp>,<symbtimeout>,<rxiqinv>,<rxcrcon>

The parameters <symbtimeout>, <rxiqinv> and <rxcrcon> are used only when an Rx window is specified.

<tstamp> is the absolute clock time of the module. If the time is over, the frame is immediately transmitted. Usually this timestamp is a delay added to an Rx timestamp (feature not fully implemented)

When <fixed_len> is true then the fixed length value is the size of the sent payload and the Rx side must know this size.

6.11.1 Response

Always OK.

6.11.2 Example

To set the <pwr> to 12 and the <txcrcon> to false:

AT+RFTX=SET,,,12,,,,false
OK



6.12 AT+RFTX=SEND, (for test purpose)

Transmit <nb_frames> numbered frames every <interval> ms.

AT+RFTX= SEND,<nb_frames>,<interval>

Default values : <nb_frames> = 1, <interval> = 500 (ms).

If <per_state> is true (see AT+RF=SPER command), transmitted frames contain a counter on 4 bytes followed by a 32 bytes fixed pattern.

This command is used as a generator for Packet Error Rate (PER) computing.

6.12.1 Response

OK if <nb_frames> have been successfully sent.

ERROR if RF layer is OFF or if one frame has not been successfully sent.

6.12.2 Example

AT+RFTX=SEND,3,500
OK



6.13 AT+RFTX=START (for test purpose)

FSK continuous transmission.

6.13.1 Response

OK if RF layer is ON.

ERROR if RF layer is OFF.

6.13.2 Example

AT+RFTX=START
OK



6.14 AT+RFTX=STOP (for test purpose)

Stop FSK continuous transmission.

6.14.1 Response

OK if RF layer is ON.

ERROR if RF layer is OFF.

6.14.2 Example

AT+RFTX=STOP
OK



6.15 AT+RFTX=SNDTXT,

Repeat <nbrepeat> text frames every 500 ms.

AT+RFTX= SNDTXT,<txt>,<nbrepeat>

Default values : <nbrepeat> = 1.

<txt> parameter is transmitted as received on serial link, the module doesn’t manage any character set.

If <per_state> is true (see AT+RF=SPER command), a 4 bytes counter is added at the beginning of the frame.

6.15.1 Response

OK if <nbrepeat> have been successfully sent.

ERROR if RF layer is OFF or if one frame has not been successfully sent.

6.15.2 Example

AT+RFTX=SNDTXT,HELLO WORLD,3
OK



6.16 AT+RFTX=SNDBIN,

Repeat <nbrepeat> binary frames every 500 ms.

AT+RFTX= SNDBIN,<bin>,<nbrepeat>

Default values : <nbrepeat > = 1

<bin> parameter is hexadecimal coded in ASCII (2 ASCII characters for 1 binary byte).

If <per_state> is true (see AT+RF=SPER command), a 4 bytes counter is added at the beginning of the frame.

6.16.1 Response

OK if <nbrepeat> have been successfully sent.

ERROR if RF layer is OFF or if one frame has not been successfully sent.

6.16.2 Example

To send 2 times the 3 bytes 1A 2B 3C:

AT+RFTX=SNDBIN,1A2B3C,2
OK



6.17 AT+RFRX=HELP

This commandis used to know the list of sub-commands.

6.17.1 Response

OK.

6.17.2 Example

AT+RFRX=HELP
+RFRX: <cmd>,<param_1>,…,<param_N>
+RFRX: <cmd> are ?,SET,RECV,START,STOP,CONTRX,LVL
+RFRX: <cmd>? Lists parameters of <cmd> if any
OK



6.18 AT+RFRX=?

Read RX parameters.

6.18.1 Response

Always OK.

+RFRX: <mod>,<freq>,<bw>,<dr>,<cr>,<rxcrcon>,<fixed_len>,<rxiqinv>,<timeout>,<symbtimeout>,<lnaboost>

<timeout> and <symbtimeout> parameters are no more used by radio stack (they are still present for compatibility with previous module versions).

6.18.2 Example

AT+RFRX=?
,true
OK



6.19 AT+RFRX=SET,

Set Rx parameters. Only modified parameter can be specified.

The following formalism is used. It can be check by the AT+RFRX=SET?

command:<mod>,<freq>,<bw>,<dr>,<cr>,<rxcrcon>,<fixed_len>,<rxiqinv>,<timeout>,<symbtimeout>,<lnaboost>

<timeout> and <symbtimeout> parameters are no more used by radio stack (they are still present for compatibility with previous module versions).

6.19.1 Response

Always OK

6.19.2 Example

To set <dr> parameter to 7:

AT+RFRX=SET,,,,7
OK



6.20 AT+RFRX=RECV (for test purpose)

Single frame reception with PER computation if <per_state> is true (see +RF=SPER command).

RF layer comes back to IDLE state after reception or after AT+RFRX=STOP command.

6.20.1 Response

OK if RF layer is ON and not already receiving.

ERROR if RF layer is OFF or is already receiving.

+RFRX: <per>,<rssi>,<snr>,<crcerr>,<tstamp>,<binary payload>

Then, when a frame is received the unsolicited response below is sent:

If <per_state> is true (see +RF=SPER command):

+RFRX: 100%,-35.00,7.00,0,1521551302,12000000CAFEDECA…

Where 100% is the PER, -35.00 is the RSSI level, 7.00 is the SNR, 0 is “no CRC error”, 1521551302 is the Rx clock time in ms and 12000000CAFEDECA is the received payload, starting with the 4 bytes counter.

If <per_state> is false:

+RFRX: ,-35.00,7.00,0,1521551302,CAFEDECA…

PER is not displayed and the 4 bytes counter is not present in the payload (it means that Tx device also has <per_state> set to false.

After frame reception the Rx is automatically stopped.

6.20.2 Example

AT+RFRX=RECV
OK
+RFRX: 100%,-35.00,7.00,0,1521551302,12000000CAFEDECA



6.21 AT+RFRX=START (for test purpose)

Continuous reception with PER computation if <per_state> is true (see +RF=SPER command).

RF layer stays in RX until Rx stop command is sent (see AT+RFRX=STOP)

6.21.1 Response

OK if RF layer is ON and not already receiving. ERROR if RF layer is OFF or is already receiving.

When a TX has been performed during Reception, An AT+RFRX=STOP command may be needed to avoid ERROR from this command

After frame reception RF layer stays in RX (RX stop command must be used to leave RX mode).

6.21.2 Example

AT+RFRX=START
OK
+RFRX: 100%,-35.00,7.00,0,1521551302,12000000CAFEDECA
+RFRX: 100%,-32.00,7.00,0,1521554506,13000000CAFEDECA
…



6.22 AT+RFRX=STOP

Stop single or continuous reception.

6.22.1 Response

OK if RF layer is in RX.

ERROR if RF layer is not in RX.

6.22.2 Example

AT+RFRX=STOP
OK



6.23 AT+RFRX=CONTRX

Continuous reception without PER computation.

6.23.1 Response

OK if RF layer is ON and not already receiving.

ERROR if RF layer is OFF or is already receiving.

Then, for each received frame, the unsolicited response below is sent:

+RFRX: <rssi>,<snr>,<crcerr>,<tstamp>,<binary payload>



6.24 AT+RFRX=LVL (for test purpose)

Last reception parameters read (RSSI, SNR)

6.24.1 Response

OK if RF layer is ON.

ERROR if RF layer is OFF.

Response information is as below:

+RFRX: LVL,<rssi>,<snr>

6.24.2 Example

AT+RFRX=LVL
+RFRX: LVL,-77.00,8.00
OK



6.25 Informative examples

6.25.1 LoRa™ Communication

Below is an example where two Modules are configured to communicate on a specific frequency.

First we setup the Module A and start a continuous RX, then we can setup the Module B.


Module A

AT+RF=ON
OK
Set the RF ON
AT+RFRX=SET,LORA,,125000,7  
OK
Set some RX parameters. Let the channel to default frequency
AT+RFRX=CONTRX
OK
Start a Continuous RX
…..
Wait RX (set module B)
+RFRX: -78.00,3.00,0,152987007,CAFE   
receive 0xCAFE hexa frame, rssi -78, snr 3, at timestamp 152987007 ms
AT+RFRX=STOP
Stop continuous Rx

Module B

AT+RF=ON
OK
Set the RF ON
AT+RFTX=SET,LORA,868100000,14,125000,7
OK
set Tx modulation LoRa™, freq 868100000, Tx power 14dbm, bandwidth 125KHz, SF7
AT+RFTX=SNDBIN,CAFE,1
OK
send 0xCAFE hexa frame 1 time
…..


6.25.2 FSK Communication

Below is an example where two Modules are configured to communicate on a specific frequency. For FSK some rules apply on selected "bandwith/datarate" in RX and "frequency deviation/datarate" in TX. This is described in (sx1272 datasheet)

First we setup the Module A and start a continuous RX, then we can setup the Module B.


Module A

AT+RF=ON
OK
Set the RF ON
AT+RFRX=SET,FSK,868100000,125000,1200 
OK
Set some RX parameters.freq 868100000,Bandwith 125 000, Datarate 1200
AT+RFRX=CONTRX
OK
Start a Continuous RX
…..
Wait RX (set module B)
+RFRX: -78.00,3.00,0,152987007,CAFE   
receive 0xCAFE hexa frame, rssi -78, snr 3, at timestamp 152987007 ms
AT+RFRX=STOP
Stop continuous Rx

Module B

AT+RF=ON
OK
Set the RF ON
AT+RFTX=SET,FSK,868100000,14,,1200,,,,50000
OK
set Tx modulation FSK, freq 868100000, Tx power 14dbm, Datarate 1200, Deviation Frequency 50 000
AT+RFTX=SNDBIN,CAFE,1
OK
send 0xCAFE hexa frame 1 time
…..


7 AT LoRa™WAN (MAC) commands


3 types of AT strings are specified:

  • MAC commands: AT+MAC=<cmd>,<param1>,…,<paramN>.
  • MAC solicited responses: +MAC: <param1>,…,<paramN>. These responses are sent in response to MAC commands, just before the OK response, that’s the reason why the <cmd> is not present in the solicited responses. Several solicited responses may be sent between the MAC command and the OK response.
  • MAC unsolicited responses: +MAC: <cmd>,<param1>,…,<paramN>. These responses are not necessarily sent between the MAC command and the OK response, that’s the reason why the <cmd> is present in the unsolicited responses.

When an AT client application just need to send and receive frames, the following commands are used:

  • AT+MAC=? to know the current MAC mode (OFF/ON, ABP/OTAA, Class A/C).
  • AT+MAC=OFF and AT+MAC=ON,… to change the MAC mode.
  • AT+MAC=DEVADRR and unsolicited +MAC: DEVADDR,… to know the current state of an OTAA device.
  • AT+MAC=SNDBIN,… to send uplink frame.
  • +MAC: RCVBIN,… when receiving downlink frames and to know Rx windows termination.
  • +MAC: END to know when the LoRa™WAN layer is back to idle.

All other commands are not really required, they are mainly used by NemeusATK Java application to manage the LoRa™WAN layer (for IOT purpose, device provisioning …).



7.1 AT+MAC=HELP

This commandis used to know the list of sub-commands.

7.1.1 Response

OK.

7.1.2 Example

AT+MAC= HELP
+MAC: <cmd>,<param_1>,…,<param_N>
+MAC: <cmd> are ON,OFF,?,SCH,RCH,SDR,RDR,STI,RTI,SRX,RRX,SNDTXT,SNDBIN,RCVTXT,RCVBIN,STOPRCV,SNDLCR,DEVUID,DEVADDR,APPUID
+MAC: <cmd>? Lists parameters of <cmd> if any
OK



7.2 AT+MAC=ON

This command is used to start LoRa™WAN layer and is mandatory in order to use most of MAC commands listed in this section (unless otherwise stated).

If Radio stack was ON, it is automatically set to OFF.

AT+MAC=ON,<minor_ver>,<class>,<otaa>
  • <minor_ver> is deprecated, only the default value (3) is accepted
  • <class> is A or C.
  • <otaa> is 0 for ABP and 1 for OTAA.


7.2.1 Response

If SIGFOX™ stack is using the radio ERROR is returned.

Else OK is returned.

7.2.2 Example

Start LoRa™WAN layer in class A with OTAA:

AT+MAC=ON,,A,1
OK



7.3 AT+MAC=OFF

Stop LoRa™WAN layer.

7.3.1 Response

Always OK.



7.4 AT+MAC=?

Read current LoRa™WAN layer status.

To change LoRa™WAN layer status, AT+MAC=OFF and AT+MAC=ON,… must be performed.

7.4.1 Response

Always OK.

+MAC: <state>,<minor_ver>,<class>,<ch_pages>,<ism_band>,<otaa>,<lwan_fw_ver>,<lwan_prot_ver>,<lwan_rp_ver>

<state> is ON, OFF or DUAL. DUAL means that LoRa™WAN and SIGFOX™ stacks are both ON.

<minor_ver> always V3.

<class> is A or C.

<page> is the number of pages of 16 channels available at LoRa™WAN layer (in terms of memory space), 1 page for EU863-870, AS923 and RU864-870, 5 pages for US902-928..

<ism_band> is 8 for EU863-870MHz, 9 for US902-928MHz, 10 for AS923MHz and 13 for RU864-870MHz. ISM band can’t be modified dynamically, it is set at compilation time.

<otaa> is 0 for ABP and 1 for OTAA.

<lwan_fw_ver> is the firmware version of the LoRa™WAN stack

<lwan_prot_ver> is the version of the LoRa™WAN protocol specification

<lwan_rp_ver> is the version of the regional parameters specification


7.4.2 Example

A class A US902-928MHz device with 80 channels (5*16) in OTAA:

AT+MAC=?
+MAC: ON,V3,A,5,9,1,1.0.0.0,1.0.4.0,1.0.1.0
OK



7.5 AT+MAC=SNDBIN

Binary frame transmission.

AT+MAC= SNDBIN,<binpayload>,<nbrepeat>,<port>,<mode>,<add_tx_rx_info>,<dev_time_req>

If <mode> value is 0 then the frame is sent in unacknowledged mode (default value when mode is omitted).

If <mode> value is > 0, then the frame is sent in acknowledged mode.

<nbrepeat> specifies the number of repetitions in acknowledged mode (0 when omitted). Since LoRaWANV1.0.4 the <nbtrans> parameter is also used in acknowledged mode (see RDR/SDR commands), thus if (<nbrepeat>+1) <= <nbtrans> then the frame will be sent <nbtrans> times, if (<nbrepeat>+1) > <nbtrans> then the frame will be sent 2*<nbtrans> times, ...

If <port> is omitted then port 2 is used by default (port 1 is reserved to embedded generic application).

if <add_tx_rx_info> > 0 then for each transmission performed and each Rx performed the following responses are sent after the +RCVBIN:

+MAC: TXINFO,<tx_index>,<tx_freq>,<toa>

+MAC: RXINFO,<rx_index>,<rx_freq>,<toa>

if <dev_time_req> > 0 then a device time request is added in the MAC header of the uplink frame


7.5.1 Response

OK if MAC is ON and frame has been successfully sent (and acked if acked mode was requested).

ERROR if MAC is OFF or frame has not been successfully sent (or not acked after repetitions if acked mode was requested).

ERROR also if SIGFOX™ stack is using the radio.

ERROR also when port is reserved regarding LoRa™WAN standard.

7.5.2 Unsolicited responses

The unsolicited responses below are sent when AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: SND,<busytime>

<busytime> is in ms.

This unsolicited response can be sent 2 times:

  • One time with busytime > 0 if no channel was free due to duty cycle restriction
  • One time with busytime = 0 at Tx time.


+MAC: RCH,<chan>,,,,,<busytime>,<page>

<busytime> is in ms.

Sent for each enabled channel.


+MAC: END

To indicate when LoRa™WAN layer is back to idle.


7.5.3 Example

AT+MAC=SNDBIN,1A2B3C,3,2,0
+MAC: SND,4355
+MAC: SND,0
+MAC: RCH,0,,,,,4480,0
+MAC: RCH,1,,,,,4480,0
+MAC: RCH,2,,,,,4480,0
OK
+MAC: RCVBIN,2,false,,0.00,0.00
+MAC: END
On duty cycle expiry (4480 ms after the Tx), channels become available:
+MAC: RCH,0,,,,,0,0
+MAC: RCH,1,,,,,0,0
+MAC: RCH,2,,,,,0,0



7.6 AT+MAC=RCVBIN

Register for receiving downlink frames on specified port, payload is output as binary hexa string.

AT+MAC= RCVBIN,<port>

This command is no more required because all downlink frames are routed on serial link except when the port is used by an embedded application.

7.6.1 Response

OK if MAC is ON and port is valid and free.

ERROR if MAC is OFF or port is invalid or port is already used by an embedded application.

7.6.2 Unsolicited Response

+MAC: RCVBIN,<port>,<more>,<binarypayload>,<rssi>,<snr>

When <more> is true, it means that more downlink frames are pending in MAC server. If piggyback setting is disabled and device class is A, LoRa™WAN layer will automatically poll the server to receive more downlink frames.

The RCVBIN unsolicited response is always sent after a Tx, even if no frame has been received. It indicates the end of Rx windows.

For a class A device, it is sent when a downlink frame has been received or at the end of the Rx window 2 (if no downlink frame has been received).

For a class C device, it is sent when a downlink frame has been received or at the end of the Rx window 1 (if no downlink frame has been received).

If the Tx was in ack mode, the RCVBIN is sent before the OK (or ERROR NOACK) response of the Tx (SNDBIN or SNDTXT command).

If the Tx was in unack mode, the RCVBIN is sent after the OK response of the Tx (SNDBIN or SNDTXT command).

7.6.3 Example

AT+MAC= RCVBIN,2
OK

Then when a frame is received on port 2 and more downlink frames are pending:

+MAC: RCVBIN,2,true,1A2B3C4D,-43.00,7.00



7.7 AT+MAC=SNDTXT

It is the same command as AT+MAC=SNDBIN except that the payload is interpreted as text and is transmitted as received on serial link (no translation from hexa ASCII to hexa binary is performed).

AT+MAC= SNDTXT,<textpayload>,<nbrepeat>,<port>,<mode>,<add_tx_rx_info>,<dev_time_req>

Text frame transmission.

If <mode> value is 0 then the frame is sent in unacknowledged mode (default value when mode is omitted).

If <mode> value is > 0, then the frame is sent in acknowledged mode.

<nbrepeat> specifies the number of repetitions in acknowledged mode (0 when omitted). Since LoRaWANV1.0.4 the <nbtrans> parameter is also used in acknowledged mode (see RDR/SDR commands), thus if (<nbrepeat>+1) <= <nbtrans> then the frame will be sent <nbtrans> times, if (<nbrepeat>+1) > <nbtrans> then the frame will be sent 2*<nbtrans> times, ...

If <port> is omitted then port 2 is used by default (port 1 is reserved to embedded generic application).

if <add_tx_rx_info> > 0 then for each transmission performed and each Rx performed the following responses are sent after the +RCVBIN:

+MAC: TXINFO,<tx_index>,<tx_freq>,<toa>

+MAC: RXINFO,<rx_index>,<rx_freq>,<toa>

if <dev_time_req> > 0 then a device time request is added in the MAC header of the uplink frame


7.7.1 Response

OK if MAC is ON and frame has been successfully sent (and acked if acked mode was requested).

ERROR if MAC is OFF or frame has not been successfully sent (or not acked after repetitions if acked mode was requested).

ERROR also if SIGFOX™ stack is using the radio.

ERROR also when port is reserved regarding LoRa™WAN standard.

7.7.2 Unsolicited responses

The unsolicited responses below are sent when AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: SND,<busytime>

<busytime> is in ms.

This unsolicited response can be sent 2 times:

  • One time with busytime > 0 if no channel was free due to duty cycle restriction
  • One time with busytime = 0 at Tx time.


+MAC: RCH,<chan>,,,,,<busytime>,<page>

<busytime> is in ms.

Sent for each enabled channel.


7.7.3 Example

AT+MAC=SNDBIN,HELLO WORLD,3,2,0
+MAC: SND,4355
+MAC: SND,0
+MAC: RCH,0,,,,,4480,0
+MAC: RCH,1,,,,,4480,0
+MAC: RCH,2,,,,,4480,0
OK
+MAC: RCVBIN,2,false,,0.00,0.00
+MAC: END
On duty cycle expiry (4480 ms after the Tx), channels become available:
+MAC: RCH,0,,,,,0,0
+MAC: RCH,1,,,,,0,0
+MAC: RCH,2,,,,,0,0



7.8 AT+MAC=RCVTXT

Register for receiving downlink frames on specified port, payload is output as text string (translation to binary hexa string is not performed).

AT+MAC=RCVTXT,<port>

This command is no more required because all downlink frames are routed on serial link except when the port is used by an embedded application.

By default, downlink payload are processed as binary payload, thus if the AT client application needs to receive the payload as text (without any binary hexa string translation), it must uses this command.

7.8.1 Response

OK if MAC is ON and port is valid and free.

ERROR if MAC is OFF or port is invalid or port is already used by an embedded application.

7.8.2 Unsolicited Response

+MAC: RCVTXT,<port>,<more>,<textpayload>,<rssi>,<snr>

When <more> is true, it means that more downlink frames are pending in MAC server. If piggyback setting is disabled and device class is A, LoRa™WAN layer will automatically poll the server to receive more downlink frames.

7.8.3 Example

AT+MAC=RCVTXT,2
OK

Then when a frame is received on port 2 and more downlink frames are pending:

+MAC: RCVTXT,2,true,HELLO WORLD,-43.00,7.00



7.9 AT+MAC= STOPRCV

Unregister for receiving downlink frames on specified port.

AT+MAC=STOPRCV,<port>

7.9.1 Response

OK if MAC is ON and port is valid.

ERROR if MAC is OFF or port is invalid.




7.10 AT+MAC=SNDLCR

Send a Link Check Request.

AT+MAC=SNDLCR,<nb_tx>,<add_tx_rx_info>

<nb_tx> = 0 means the LCR message is sent in unack mode on port 0.

<nb_tx> != 0 means the LCR message is sent in ack mode on port 0. Since LoRaWANV1.0.4 the <nbtrans> parameter is also used in acknowledged mode (see RDR/SDR commands), thus if <nb_tx> <= <nbtrans> then the frame will be sent <nbtrans> times, if <nb_tx> > <nbtrans> then the frame will be sent 2*<nbtrans> times, ...

if <add_tx_rx_info> > 0 then for each transmission performed and each Rx performed the following responses are sent after the +MAC: <margin>,...

+MAC: TXINFO,<tx_index>,<tx_freq>,<toa>

+MAC: RXINFO,<rx_index>,<rx_freq>,<toa>


7.10.1 Response

OK if MAC is ON and Link Check Answer has been received.

ERROR if MAC is OFF or Link Check Answer has not been received and Tx was in unack mode.

ERROR NOACK if Link Check Answer has not been received and Tx was in ack mode.

ERROR also if SIGFOX™ stack is using the radio.

Received data is sent back as

+MAC: <margin>,<gwcnt>,<rssi>,<snr>

7.10.2 Example

AT+MAC=SNDLCR
+MAC: 20,3,-45.00,8.00
OK



7.11 AT+MAC=RCH

Read MAC channels command.

AT+MAC=RCH,<chan>,<page>,<unsol_evt>

<chan> specifies the channel to read (all channels of the page if omitted or if 16)

<page> specifies the channel page (all pages if omitted or if number of available pages returned by AT+MAC=? response).

<unsol_evt> specifies which unsolicited events are required (0 when no event required). The unsolicited events inform the AT client application when a MAC parameter has been changed by the LoRa™WAN layer.

When <unsol_evt> length is less than 4 digits then the old meaning is decoded (0: no event, >0: all events except the transaction end event)

When <unsol_evt> length is coded on 4 hexa digits then it is decoded as the following bit field:

  • bit0: registration to +SND: <busytime> event
  • bit1: registration to +MAC: RCH,<chan_idx>,,,,,<busytime>,<page> event
  • bit2: registration to +MAC: SCH,<chan>,<frequency>,<mindr>,<maxdr>,<dutycycle>,<busytime>,<page>,<rxw1freq> event
  • bit3: registration to +MAC: RDR,<dr>,<txpwr>,<chanmask>,<chanmaskctrl>,<nbtrans>,<eirp>,<updwell>,<dwdwell>,<antennagain> event (<eirp>, <updwell>, <dwdwell> and <antennagain> parameters are present only in case of Asian band firmware)
  • bit4: registration to +MAC: RTI,<rxw1>,<rxw2>,<symbtimeout> event
  • bit5: registration to +MAC: RRX,<rx2frequency>,<rx2dr>,<rx1droffset> event
  • bit6: registration to +MAC: RVAR,,,<aggregateddc> event
  • bit7: registration to +MAC: END event


7.11.1 Response

OK if parameters are syntactically correct.

For each channel, the following information is output:

+MAC: <chan>,<frequency>,<mindr>,<maxdr>,<dutycycle>,<busytime>,<page>,<rxw1freq>

<chan>: the channel index in the page (0 to 15).

<frequency>: the frequency in Hz (0 means channel is disabled).

<mindr>: minimum datarate allowed on the channel.

<maxdr>: maximum datarate allowed on the channel.

<dutycycle>: restricted duty cycle assigned to the channel (applies only when more restricted than ISM regulation specification).

<busytime>: time in ms before the channel can be used again for Tx (due to duty cycle restrictions).

<page>: channel page (0 to number of available pages returned by AT+MAC=? response).

<rxw1freq>: frequency used to open Rx window 1. 0 means same frequency as <frequency> parameter (available only from LoRa™WAN V1.0.2, if the parameter is absent in the response, it means the firmware version is older).

7.11.2 Unsolicited response

The unsolicited response below is sent when <busytime> changes and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: RCH,<chan>,,,,,<busytime>,<page>

7.11.3 Example

AT+MAC=RCH
+MAC: 0,868100000,SF12BW125,SF7BW125,100,0,0,0
+MAC: 1,868300000,SF12BW125,SF7BW125,100,0,0,869525000
+MAC: 2,868500000,SF12BW125,SF7BW125,100,0,0,0
+MAC: 3,868850000,SF12BW125,SF7BW125,1000,0,0,0
…
+MAC: 15,000000000,SF12BW125,FSK50KBPS,1,0,0,0
OK



7.12 AT+MAC=SCH

Set MAC channel command.

AT+MAC=SCH,<chan>,<frequency>,<min_dr>,<max_dr>,<dutycycle>,<page>,<rxw1freq>

Only modified parameters can be specified.

Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.

The parameter list can be found by AT+MAC=SCH? command.

<dutycycle> is applied only if it is more restricted than the ISM regulation specification. 1 means 100%, 10 means 10%, 100 means 1%, ...

<rxw1freq> is available only from LoRa™WAN V1.0.2

7.12.1 Response

OK if parameters are syntactically correct.

7.12.2 Unsolicited response

The unsolicited response below is sent when LoRa™WAN layer modifies a channel and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: SCH,<chan>,<frequency>,<mindr>,<maxdr>,<dutycycle>,<page>,<rxw1freq>

7.12.3 Example

To modify channel 0:

AT+MAC=SCH,0,868100000,SF12BW125,SF7BW125,100,0,0
OK



7.13 AT+MAC= RDR

Read current MAC datarate command.

7.13.1 Response

Always OK.

+MAC: <dr>,<txpwr>,<chanmask>,<chanmaskctrl>,<nbtrans>,<eirp>,<updwell>,<dwdwell>,<antennagain>

<chanmask> is coded on 4 hexa digits for each channel page (when region has 1 channel page (EU, AS, RU) it is coded on 4 hexa digits, when region has 5 channel pages (US) it is coded on 20 hexa digits)

<eirp>, <updwell>, <dwdwell> and <antennagain> parameters are present only in case of Asian band firmware

7.13.2 Unsolicited response

The unsolicited response below is sent when current datarate changes and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: RDR,<dr>,<txpwr>,<chanmask>,<chanmaskctrl>,<nbtrans>,<eirp>,<updwell>,<dwdwell>,<antennagain>

7.13.3 Example

AT+MAC=RDR
+MAC: SF12BW125,11,001F,0,0
OK



7.14 AT+MAC=SDR

Set MAC data rate command.

AT+MAC=SDR,<dr>,<txpwr>,<chanmask>,<chanmaskctrl>,<nbtrans>,<eirp>,<updwell>,<dwdwell>,<antennagain>

Only modified parameters can be specified.

Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.

Set the data rate, Tx power and number of transmissions for uplink transmission (applied to all channels compatible with the datarate). <nbtrans> applies to unconfirmed and confirmed transmissions.

<chanmask> and <chanmaskctrl> specify the channels usable for uplink access.

<chanmask> is coded on 4 hexa digits for each channel page (when region has 1 channel page (EU, AS, RU) it is coded on 4 hexa digits, when region has 5 channel pages (US) it is coded on 20 hexa digits)

The parameter list can be found by AT+MAC=SDR? command.

<eirp>, <updwell>, <dwdwell> and <antennagain> parameters are present only in case of Asian band.

Programmed Tx power = <eirp> - 2*TxPower - <antennagain> (TxPower is described in LoRaWANRegionalParameters specification: 0=>MaxEIRP, 1=>MaxEIRP-2dB, ...)

Because of SX1272 hardware, Tx power = 13 dBm is never programmed, 14 dBm is set instead.

Thus when <eirp> = 16 and <antennagain> = 3 then computed Tx power = 13 dBm but programmed Tx power = 14 dBm

The maximum Tx power supported by the standard version of MM002 is 14 dBm, so when (<eirp> - <antennagain>) > 14 dBm then 14 dBm is programmed


7.14.1 Response

OK if parameters are syntactically correct.

7.14.2 Example

To modify current datarate:

AT+MAC=SDR,SF12BW125,10,001F,0,0
OK



7.15 AT+MAC=RTI

Read MAC Time Information command.

Read common channel time information.

7.15.1 Response

Always OK.

+MAC: <rxw1>,<rxw2>,<symbtimeout>

7.15.2 Unsolicited response

The unsolicited response below is sent when current time info changes and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: RTI,<rxw1>,<rxw2>,<symbtimeout>

7.15.3 Example

AT+MAC= RTI
+MAC: 1000,2000,6
OK



7.16 AT+MAC= STI

Set MAC time information command.

AT+MAC=STI,<rxw1>,<rxw2>,<symbtimeout>

Only modified parameter can be specified.

Written parameters are not saved in file system, thus they are lost after a new MAC OFF/ON or a device reset.

The parameter list can be found by AT+MAC=STI? command.

The parameters <rxw1> and <symbtimeout> are common to all channels.

The <rxw2> parameter is no more used because <rxw2> value is set to <rxw1> value + 1000 ms. It is still present for compatibility with old devices.

7.16.1 Response

Always OK.

7.16.2 Example

To modify time info:

AT+MAC=STI,1000,,6
OK



7.17 AT+MAC=RRX

Read MAC Rx information command.

7.17.1 Response

Always OK.

+MAC: <rx2frequency>,<rx2dr>,<rx1droffset>

7.17.2 Unsolicited response

The unsolicited response below is sent when current Rx info changes and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: RRX,<rx2frequency>,<rx2dr>,<rx1droffset>

7.17.3 Example

AT+MAC=RRX
+MAC: 869525000,SF9BW125,0
OK



7.18 AT+MAC=SRX

Set MAC Rx information command.

AT+MAC=SRX,<rx2frequency>,<rx2dr>,<rx1droffset>

Only modified parameters can be specified.

The parameter list can be found by AT+MAC=SRX? command.

The parameters are common to all channels.

7.18.1 Response

OK if parameters are syntactically correct.

7.18.2 Example

To modify Rx parameters:

AT+MAC=SRX,869525000,SF9BW125,0
OK



7.19 AT+MAC=RSW

This command is used to read the current LoRa™ and FSK synchro words used by LoRa™WAN layer. Synchro words are in hexadecimal format.

7.19.1 Response

Always OK.

+MAC: <LoRa™ sync_word>,<FSK sync_word>

7.19.2 Example

AT+MAC=RSW
+MAC: 34,C194C1
OK



7.20 AT+MAC=SSW

This command is used to set the synchro words used by LoRa™WAN layer.

AT+MAC=SSW,<LoRaSyncWord>,<FskSyncWord>

Only modified parameters can be specified.

A synchro word is unchanged when related parameter is absent.

Synchro words are in hexadecimal.

The parameter list can be found by AT+MAC=SSW? command.

7.20.1 Response

OK if parameters are correct or omitted.

ERROR if FSK synchro word is too long (6 bytes/12 hexa digits max) or number of digits is not even.

7.20.2 Example

AT+MAC=SSW,34,C194C1
OK



7.21 AT+MAC=RVAR

This command is used to read the miscellaneous LoRa™WAN variables.

These variables are Tx/Rx counters, aggregated, data encryption, battery level, initial join datarate, join channel mask, next dev nonce, last join nonce and join accept replay checking.

7.21.1 Response

Always OK.

+MAC: <txcounter>,<rxcounter>,<aggregateddc>,<encryption>,<battlevel>,<joindr>,<joinchanmask>,<nextdevnonce>,<lastjoinnonce>,<jareplaycheck>

<aggregateddc> values: 1 means 100%, 10 means 10%, 100 means 1%, …

<encryption> values: 0 means no encryption, != 0 means encryption enabled.

<battlevel> is the value sent in the answer to DevStatusReq MAC command [0..255], default value is 0 which means "external power source"

<joindr> is the initial datarate of the join procedure (Europe region only), default value is the maximum datarate supported by the join channels.

<joinchanmask> values: 0 means only 868.1 channel, 1 means only 868.3 channel, 2 means only 868.5 channel, 255 means 868.1, 868.3 and 868.5 channels

<nextdevnonce> is the devnonce which will be encoded in the next join request (last sent devnonce = <nextdevnonce> - 1)

<lastjoinnonce> is the joinnonce of the last valid join accept received

<jareplaycheck> values: 0 means join accept with join nonce == <lastjoinnonce> is ignored, 1 means join accept with join nonce <= <lastjoinnonce> is ignored

7.21.2 Unsolicited response

The unsolicited response below is sent only when current aggregated DC changes and AT client application has registered to receive unsolicited events (see AT+MAC=RCH command).

+MAC: RVAR,,,<aggregateddc>

7.21.3 Example

AT+MAC=RVAR
+MAC: 0,0,1,1,0,5,255,10,13441364,0
OK



7.22 AT+MAC=SVAR

This command is used to set some LoRa™WAN variables.

These variables are Tx counters, aggregated DC, data encryption, battery level, initial join datarate, join channel mask, next dev nonce, last join nonce and join accept replay checking.

AT+MAC=SVAR,<txcounter>,<aggregateddc>,<encryption>,<battlevel>,<joindr>,<joinchanmask>,<nextdevnonce>,<lastjoinnonce>,<jareplaycheck>

Only modified parameters can be specified.

The parameter list can be found by AT+MAC=SVAR? command.

7.22.1 Response

Always OK.

7.22.2 Example

To disable encryption:

AT+MAC=SVAR,,,0
OK



7.23 AT+MAC=RADR

This command is used to read the current LoRa™WAN ADR, piggyback and back-off states.

The ack mode retransmission back-off procedure was initially linked to ADR bit. When ADR bit was on/off, the back-off procedure was on/off. From now, the back-off procedure is linked to the back-off state, it allows to enable ADR bit without enabling the back-off procedure. If <backoff> parameter is absent in RADR response, it means that back-off procedure is still linked to ADR bit (older firmware version).

7.23.1 Response

Always OK.

+MAC: <adr>,<piggyback>,<backoff>

<adr>, <piggyback> and <backoff> values: true or false.

7.23.2 Example

AT+MAC=RADR
+MAC: true,false,false
OK



7.24 AT+MAC=SADR

This command is used to set some LoRa™WAN ADR and piggyback states.

AT+MAC=SADR,<adr>,<piggyback>,<backoff>

Only modified parameters can be specified.

The parameter list can be found by AT+MAC=SADR? command.

When ADR state value is changed, ADR ack counter is reset.

7.24.1 Response

OK if parameters are correct.

7.24.2 Example

To enable piggyback:

AT+MAC=SADR,,true
OK



7.25 AT+MAC=RDEVUID

Read device unique identifier.

Device UID is coded on 8 bytes.

This command obsoletes AT+MAC=DEVUID command.

Old command still works and returns the same response.

7.25.1 Response

Always OK

UID is returned as

+MAC: <devuid>,<rand_seed>,<read_only>

When read_only value is 1, it means that the device unique identifier is built from Nemeus 36 bits OUI (70B3D5326xxxxxxx). In this case the device UID can’t be modified and the security keys are not readable. <read_only> is always 1 in this version

7.25.2 Example

AT+MAC=RDEVUID
+MAC: 70B3D53260008982,50008982,1
OK



7.26 AT+MAC=RDEVADDR

Read device address.

This command obsoletes AT+MAC=DEVADDR command.

Old command still works and returns the same solicited response.

Warning: unsolicited response changed, old one is no more sent!!!

7.26.1 Response

Always OK

Address is returned as

+MAC: <devaddr>,<networkid>

In ABP mode, the device address is the 4 LSB of the device unique identifier.

In OTAA mode, the device address is assigned by the network.

7.26.2 Unsolicited response

The unsolicited response below is sent when device is in OTAA mode and at least one AT+MAC=? command has been sent.

+MAC: RDEVADDR,<devaddr>,<networkid>

7.26.3 Example

Read device address of an OTAA device when not yet joint to network:

AT+MAC=?
+MAC: ON,V3,A,1,8,1 
OK
AT+MAC=RDEVADDR
+MAC: 00000000,000000 
OK

After receipt of valid join accept, unsolicited response is sent:

+MAC: RDEVADDR,0870C367,010203 



7.27 AT+MAC=SDEVADDR,

This command is used to modify device address when ABP mode is used.

AT+MAC=SDEVADDR,<devaddr>

If MAC layer is on in ABP mode, a MAC off/on is automatically performed.

7.27.1 Response

OK if <devaddr> length is 8 characters.

7.27.2 Example

AT+MAC=SDEVADDR,01020304
OK



7.28 AT+MAC=RAPPUID

Read join server Unique ID.

Join server UID is coded on 8 bytes.

By default it is set to 70B3D53260000100.

It can be modified by sending the following AT command:

AT+GA=DIND,1,8301000008xxxxxxxxxxxxxxxx0000

Where xxxxxxxxxxxxxxxx is the new application UID LSB first.

MAC layer must be restarted to take into account new application UID (AT+MAC=OFF and AT+MAC=ON).

Join server UID can also be modified using AT+MAC=SAPPUID,<join_server_uid>.

This command obsoletes AT+MAC=APPUID command.

Old command still works and returns the same response.

7.28.1 Response

Always OK

Join server UID is returned as

+MAC: <join_server_uid>

7.28.2 Example

Read default join server UID:

AT+MAC=RAPPUID
+MAC: 70B3D53260000100
OK

Set join server UID to FEDCBA9876543210:

AT+GA=DIND,1,83010000081032547698BADCFE0000
OK

Restart MAC layer:

AT+MAC=OFF
OK
AT+MAC=ON
OK

Read new join server UID:

AT+MAC=RAPPUID
+MAC: FEDCBA9876543210
OK



7.29 AT+MAC=SAPPUID,

This command is used to modify join server UID.

AT+MAC=SAPPUID,<join_server_uid>

If MAC layer is on in OTAA mode, a MAC off/on is automatically performed.

7.29.1 Response

OK if <join_server_uid> length is 16 characters.

7.29.2 Example

AT+MAC=SAPPUID,0102030405060708
OK



7.30 AT+MAC=RAPPKEY (no more supported)

This command is no more supported !!!

7.30.1 Response

Always ERROR because device UID is read only.

7.30.2 Example

AT+MAC=RAPPKEY
ERROR

7.31 AT+MAC=RNSKEY (no more supported)

This command is no more supported !!!

7.31.1 Response

Always ERROR because device UID is read only.

7.31.2 Example

AT+MAC=RNSKEY
ERROR

7.32 AT+MAC=RAPPSKEY (no more supported)

This command is no more supported !!!

7.32.1 Response

Always ERROR because device UID is read only.

7.32.2 Example

AT+MAC=RAPPSKEY
ERROR

7.33 AT+MAC=RMC

Read MultiCast parameters.

7.33.1 Response

OK when the command is supported by the firmware.

ERROR when it is not supported.

Multicast parameters are returned as

+MAC: <addr>,<addr_mask>,<group_mask>,<fcnt_dw>,<net_skey>,<app_skey>

 - <addr>: the multicast address (32 bits)
 - <addr_mask>: the significant part of the multicast address (More Significant bits) coded on 32 bits.
 - <group_mask>: the groups the device can receive (32 bits => groups 0 to 31).
 - <fcnt_dw>: the current value of the downlink frame counter (32 bits).
 - <net_skey>: the network security key for integrity checking (128 bits).
 - <app_skey>: the application security key for payload ciphering (128 bits).

The address mask specifies which part of the received address is processed as an address and which part is processed as a group. The address mask can take the following values:

 - 0x00000000: the multicast function is disabled
 - 0xFFFFFFFF: only 1 group is possible
 - 0xFFFFFFFE: 2 groups are possible
 - 0xFFFFFFFC: 4 groups are possible
 - 0xFFFFFFF8: 8 groups are possible
 - 0xFFFFFFF0: 16 groups are possible
 - 0xFFFFFFE0: 32 groups are possible

7.33.2 Example

AT+MAC=RMC
+MAC: 789ABCDE,FFFFFFFC,00000007,0,0102030405060708090A0B0C0D0E0F00,0102030405060708090A0B0C0D0E0F00
OK

With such parameters, the following received addresses are processed:

 - 0x789ABCDC: valid multicast address, group 0 is accepted because bit0 of group mask is set
 - 0x789ABCDD: valid multicast address, group 1 is accepted because bit1 of group mask is set
 - 0x789ABCDE: valid multicast address, group 2 is accepted because bit2 of group mask is set
 - 0x789ABCDF: valid multicast address, group 3 is rejected because bit3 of group mask is not set

When the address is accepted (valid multicast address and accepted group) then the MIC is computed thanks to network security key. If the computed MIC matches with the received MIC then the payload is deciphered thanks to application security key and the resulting payload is pushed to the application addressed by the LoRa™WAN port.



7.34 AT+MAC=SMC

Set MultiCast parameters.

 AT+MAC=SMC,<addr>,<addr_mask>,<group_mask>,<fcnt_dw>,<net_skey>,<app_skey>

See AT+MAC=RMC for parameter description.

The multicast parameters are not saved in non volatile memory, thus they are lost after a cold reset (reset pin or power-cycle).

7.34.1 Response

OK when the command is supported by the firmware and the parameters are valid.

ERROR when it is not supported or parameters are invalid (especially <group_mask> parameter which can take 7 different values).


7.34.2 Example

AT+MAC=SMC,789ABCDE,FFFFFFFC,00000007,0,0102030405060708090A0B0C0D0E0F00,0102030405060708090A0B0C0D0E0F00
OK



7.35 AT+MAC=SNDDTR

Send a Device Time Request.

AT+MAC=SNDDTR,<nb_tx>

<nb_tx> = 0 means the DTR message is sent in unack mode on port 0.

<nb_tx> != 0 means the DTR message is sent in ack mode on port 0. Since LoRaWANV1.0.4 the <nbtrans> parameter is also used in acknowledged mode (see RDR/SDR commands), thus if <nb_tx> <= <nbtrans> then the frame will be sent <nbtrans> times, if <nb_tx> > <nbtrans> then the frame will be sent 2*<nbtrans> times, ...

7.35.1 Response

OK if MAC is ON and Device Time Answer has been received.

ERROR if MAC is OFF or Device Time Answer has not been received and Tx was in unack mode.

ERROR NOACK if Device Time Answer has not been received and Tx was in ack mode.

ERROR also if SIGFOX™ stack is using the radio.

Received data is sent back as

+MAC: <epoch_sec>,<epoch_frac_sec>

7.35.2 Example

AT+MAC=SNDDTR
+MAC: 1299856311,60
OK



7.36 AT+MAC=RCTX

Read selected LoRa™WAN context

Default MM002 firmware embeds only one LoRa™WAN context

7.36.1 Response

Always OK.

+MAC: <ctx_idx>,<nb_ctx>

7.36.2 Example

AT+MAC=RCTX
+MAC: 0,1
OK



7.37 AT+MAC=SCTX

Select LoRa™WAN context. This command can be used when the MM002 firmware embeds several LoRa™WAN contexts.

AT+MAC=SCTX,<ctx_idx>

The parameter list can be found by AT+MAC=SCTX? command.

7.37.1 Response

OK if <ctx_idx> < <nb_ctx>

7.37.2 Example

To select first LoRa™WAN context:

AT+MAC=SCTX,0
OK



7.38 Informative examples

7.38.1 Device start

AT client application can detect a device start or restart when the unsolicited response +DEBUG: START,<version> is received. Depending on initialization timing, AT client application is not sure to receive this unsolicited response, that’s the reason why it is recommended that AT client application use AT+MAC=? command to synchronize with the device.


OTAA case:


+DEBUG: START,nemeus-mm002-21W21_00-modem
AT+MAC=?
+MAC: ON,V3,A,1,8,0,0.1.0.0,1.0.4.0,1.0.1.0 
OK
AT+MAC=RDEVADDR
+MAC: 00000000,000000 
OK
+MAC: RDEVADDR,0870C367,010203 

The device is ready to send uplink frames.


ABP case:


+DEBUG: START,nemeus-mm002-21W21_00-modem
AT+MAC=?
+MAC: ON,V3,A,1,8,0 
OK

The device is ready to send uplink frames.



7.38.2 Send unconfirmed binary frame


No downlink frame:

AT+MAC=SNDBIN,CAFE,0,2,0 
OK 
+MAC: RCVBIN,2,false,,0.00,0.00 

One downlink frame:

AT+MAC=SNDBIN,CAFE,0,2,0 
OK 
+MAC: RCVBIN,2,false,DECA,-85.00,7.00 

Two downlink frames and piggyback is not set:

AT+MAC=SNDBIN,CAFE,0,2,0 
OK 
+MAC: RCVBIN,2,true,DECA,-55.00,10.00 
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00 

Two downlink frames and piggyback is set:

AT+MAC=SNDBIN,CAFE,0,2,0 
OK 
+MAC: RCVBIN,2,true,DECA,-55.00,10.00 
AT+MAC=SNDBIN,,0,2,0 
OK 
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00 

7.38.3 Send confirmed binary frame


Ack received, no downlink frame:

AT+MAC=SNDBIN,CAFE,0,2,1 
+MAC: RCVBIN,0,false,,-60.00,7.00 
OK 

Ack not received:

AT+MAC=SNDBIN,CAFE,0,2,1 
+MAC: RCVBIN,2,false,,0.00,0.00 
ERROR NOACK 

One downlink frame:

AT+MAC=SNDBIN,CAFE,0,2,1 
+MAC: RCVBIN,2,false,DECA,-85.00,7.00 
OK 

Two downlink frames and piggyback is not set:

AT+MAC=SNDBIN,CAFE,0,2,1 
+MAC: RCVBIN,2,true,DECA,-55.00,10.00 
OK 
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00 

Two downlink frames and piggyback is set:

AT+MAC=SNDBIN,CAFE,0,2,1 
+MAC: RCVBIN,2,true,DECA,-55.00,10.00 
OK 
AT+MAC=SNDBIN,,0,2,1 
+MAC: RCVBIN,2,false,DEFC,-73.00,9.00 
OK 






8 AT SIGFOX™ commands


These commands are available only on Nemeus modules embedding SIGFOX™ library. If the library is not embedded then ERROR is returned.

3 type of AT strings are specified:

  • SF commands: AT+SF=<cmd>,<param1>,…,<paramN>.
  • SF solicited responses: +SF: <param1>,…,<paramN>. These responses are sent in response to SF commands, just before the OK response, that’s the reason why the <cmd> is not present in the solicited responses. Several solicited responses may be sent between the SF command and the OK response.
  • SF unsolicited responses: +SF: <cmd>,<param1>,…,<paramN>. These responses are not necessarily sent between the SF command and the OK response, that’s the reason why the <cmd> is present in the unsolicited responses.

When an AT client application just need to send and receive frames, the following commands are used:

  • AT+SF=? to know the current SIGFOX™ layer state.
  • AT+SF=OFF and AT+SF=ON to stop and start SIGFOX™ layer.
  • AT+SF=SNDBIN,… to send uplink frame.
  • AT+SF=SNDBIT,… to send uplink bit.
  • AT+SF=SNDOOB to send uplink out of band message (keep alive messages).
  • +SF: RCVBIN,… when receiving downlink frames.

All other commands are not really required, they are mainly used to configure SIGFOX™ layer and to perform SIGFOX™ qualification tests.

SIGFOX™ proprietary AT command set is also supported but not described in this document.



8.1 AT+SF=HELP

This command is used to know the list of sub-commands.

8.1.1 Response

OK.

8.1.2 Example

AT+SF=HELP
+SF: <cmd>,<param_1>,…,<param_N>
+SF: <cmd> are ON,OFF,?,SNDBIN,SNDBIT,SNDOOB,SREP,RREP,STXF,RTXF,SRXF,RRXF,STXP,RTXP
+SF: <cmd>? Lists parameters of <cmd> if any
OK



8.2 AT+SF=ON

This command is used to start SIGFOX™ layer and is mandatory in order to use most of SF commands listed in this section (unless otherwise stated).

If Radio stack was ON, it is automatically set to OFF.

AT+SF=ON,<dc>,<encrypt>,<rc_sync_period>,<rc>

<dc> values: 0 means MM002 doesn't manage duty-cycle, 1 means MM002 manages duty-cycle

<encrypt> values: 0 means SIGFOX™ library doesn't encrypt the payload, 1 means SIGFOX™ library encrypts the payload

<rc_sync_period> by default, when payload is encrypted, a RC Sync frame is transmitted by the device every 4096 messages transmissions (ie. when the sequence number loops to 0) to 're-synchronize' the device with the backend. This period can be modified for test purpose, SIGFOX™ recommands to use the default value 0 which corresponds to 4096.

<rc> string values: RC1, RC2, RC3C, RC4, RC5, RC6 and RC7. Be careful, selected RC must be compatible with the module hardware version

8.2.1 Response

If LoRa™WAN stack is using the radio or the command is syntactically incorrect, ERROR is returned.

Else OK is returned.

8.2.2 Example


AT+SF=ON
OK



8.3 AT+SF=OFF

Stop SIGFOX™ layer.

8.3.1 Response

If SIGFOX™ stack is using the radio ERROR is returned.

Else OK is returned.

8.3.2 Example


AT+SF=OFF
OK



8.4 AT+SF=?

Read current SIGFOX™ layer status.

8.4.1 Response

If SIGFOX™ library is embedded OK is returned.

Else ERROR is returned.

+SF: <state>,<NMS_lib_ver>,<SFX_lib_ver>,<SFX_test_lib_ver>,<dev_id>,<initial_pac>,<dc>,<encrypt>,<rc>

<state> is ON, OFF or DUAL. DUAL means that LoRa™WAN and SIGFOX™ stacks are both ON.

<NMS_lib_ver> is the version of Nemeus library used to communicate with SIGFOX™ network.

<SFX_lib_ver> is the version of SIGFOX™ library.

<SFX_test_lib_ver> is the version of the addon for test mode

<dev_id> is the device unique identifier on SIGFOX™ network.

<initial_pac> is the first Portability Access Code used to register the device on SIGFOX™ network. It is used one time for first registration.

<dc> is the management of the duty-cycle

<encrypt> is the payload encryption setting

<rc> is the selected RC

8.4.2 Example


AT+SF=?
+SF: ON,NMS-SFX-LIB-2.1,V2.8.1_FDL,V0.6.0,FEDCBA98,5441535420304143,1,0,RC1
OK



8.5 AT+SF=SNDBIN

Binary frame transmission.

AT+SF=SNDBIN,<binpayload>,<ack>,<add_tx_rx_info>

If <ack> value is 0 then the frame is sent in unacknowledged mode (default value when <ack> is omitted).

If <ack> value is 1, then the frame is sent in acknowledged mode.

The frame is sent when channel becomes free regarding duty cycle limitations.

if <add_tx_rx_info> > 0 then for each transmission performed and each Rx performed the following responses are sent after the OK/ERROR result:

+SF: TXINFO,<tx_index>,<tx_freq>,<toa>

+SF: RXINFO,<rx_index>,<rx_freq>,<rx_duration>


8.5.1 Response

+SF: <time_on_air> is sent just before the solicited response OK. The time on air is in ms, it is used by client application to manage duty cycle.

OK if SIGFOX™ layer is ON and frame has been successfully sent (and acked if ack mode was requested).

ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent (or not acked after repetitions if ack mode was requested).

8.5.2 Unsolicited responses

An indication about Tx date:

+SF: SND,<busytime>

<busytime> is in ms.

It can be sent 2 times:

  • One time with busytime > 0 if Tx subband was not free due to duty cycle restriction
  • One time with busytime = 0 at Tx time.

The unsolicited response below is sent when ack mode was requested and a downlink payload has been received

+SF: RCVBIN,<binpayload>,<rssi>


8.5.3 Example

AT+SF=SNDBIN,CAFE,1
+SF: SND,4576
+SF: SND,0
+SF: 6282
OK
+SF: RCVBIN,0123456789ABCDEF,-85.00



8.6 AT+SF=SNDBIT

Bit transmission.

AT+SF=SNDBIT,<bitvalue>,<ack>,<add_tx_rx_info>

If <ack> value is 0 then the bit is sent in unacknowledged mode (default value when <ack> is omitted).

If <ack> value is 1, then the bit is sent in acknowledged mode.

if <add_tx_rx_info> > 0 then for each transmission performed and each Rx performed the following responses are sent after the OK/ERROR result:

+SF: TXINFO,<tx_index>,<tx_freq>,<toa>

+SF: RXINFO,<rx_index>,<rx_freq>,<rx_duration>

8.6.1 Response

+SF: <time_on_air> is sent just before the solicited response OK. The time on air is in ms, it is used by client application to manage duty cycle.

OK if SIGFOX™ layer is ON and frame has been successfully sent (and acked if ack mode was requested).

ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent (or not acked after repetitions if ack mode was requested).

8.6.2 Unsolicited responses

An indication about Tx date:

+SF: SND,<busytime>

<busytime> is in ms.

It can be sent 2 times:

  • One time with busytime > 0 if Tx subband was not free due to duty cycle restriction
  • One time with busytime = 0 at Tx time.

The unsolicited response below is sent when ack mode was requested and a downlink payload has been received

+SF: RCVBIN,<binpayload>,<rssi>


8.6.3 Example

AT+SF=SNDBIT,0,1
+SF: SND,6422
+SF: SND,0
+SF: 4589
OK
+SF: RCVBIN,0123456789ABCDEF,-85.00



8.7 AT+SF=SNDOOB

Out Of Band message transmission.

AT+SF=SNDOOB,<add_tx_rx_info>

if <add_tx_rx_info> > 0 then for each transmission performed the following response is sent after the OK result:

+SF: TXINFO,<tx_index>,<tx_freq>,<toa>

8.7.1 Response

+SF: <time_on_air> is sent just before the solicited response OK. The time on air is in ms, it can be used by client application to manage duty cycle.

OK if SIGFOX™ layer is ON and frame has been successfully sent.

ERROR if SIGFOX™ layer is OFF or frame has not been successfully sent.

8.7.2 Unsolicited responses

An indication about Tx date:

+SF: SND,<busytime>

<busytime> is in ms.

It can be sent 2 times:

  • One time with busytime > 0 if Tx subband was not free due to duty cycle restriction
  • One time with busytime = 0 at Tx time.

8.7.3 Example

AT+SF=SNDOOB
+SF: SND,3987
+SF: SND,0
+SF: 4589
OK



8.8 AT+SF=RREP (no more supported)

Read Tx repetitions used in acked mode.

This command is no more supported because SIGFOX™ library always uses 2 repetitions

8.8.1 Response

Always ERROR.

8.8.2 Example

AT+SF=RREP
ERROR



8.9 AT+SF=SREP (no more supported)

Set Tx repetitions used in acked mode.

AT+SF=SREP,<repeatnb>

This command is no more supported because SIGFOX™ library always uses 2 repetitions

8.9.1 Response

Always ERROR

8.9.2 Example

AT+SF=SREP,1
ERROR



8.10 AT+SF=RTXF (no more supported)

Read output carrier macro channel.

This command is no more supported because SIGFOX™ library uses constant uplink macro channel depending on the selected RC

  • RC1 uses 868.130 MHz as uplink center frequency, spectrum access is DC.
  • RC2 uses 902.200 MHz as uplink start frequency and the channels activated by the config words (see AT+SF=RCFG command), spectrum access is FH.
  • RC3C uses 923.200 MHz as uplink center frequency, spectrum access is LBT.
  • RC4 uses 902.200 MHz as uplink start frequency and the channels activated by the config words (see AT+SF=RCFG command), spectrum access is FH.
  • RC5 uses 923.300 MHz as uplink center frequency, spectrum access is LBT.
  • RC6 uses 865.200 MHz as uplink center frequency, spectrum access is DC.
  • RC7 uses 868.800 MHz as uplink center frequency, spectrum access is DC.

8.10.1 Response

Always ERROR

8.10.2 Example

AT+SF=RTXF
ERROR



8.11 AT+SF=STXF (no more supported)

Set output carrier macro channel.

This command is no more supported because SIGFOX™ library uses constant uplink macro channel depending on the selected RC

8.11.1 Response

Always ERROR

8.11.2 Example

AT+SF=STXF,868200000
ERROR



8.12 AT+SF=RRXF (no more supported)

Read reception carrier macro channel.

This command is no more supported because SIGFOX™ library uses constant downlink macro channel depending on the selected RC

  • RC1 uses 869.525 MHz as downlink center frequency.
  • RC2 uses 905.200 MHz as downlink center frequency.
  • RC3C uses 922.200 MHz as downlink center frequency.
  • RC4 uses 902.300 MHz as downlink center frequency.
  • RC5 uses 902.300 MHz as downlink center frequency.
  • RC6 uses 866.300 MHz as downlink center frequency.
  • RC7 uses 869.100 MHz as downlink center frequency.

8.12.1 Response

Always ERROR.

8.12.2 Example

AT+SF=RRXF
ERROR.



8.13 AT+SF=SRXF (no more supported)

Set reception carrier macro channel.

This command is no more supported because SIGFOX™ library uses constant downlink macro channel depending on the selected RC

8.13.1 Response

Always ERROR

8.13.2 Example

AT+SF=SRXF,869525000
ERROR



8.14 AT+SF=RTXP (no more supported)

Read Tx power applied to FSK continuous wave

This command is no more supported because not needed

8.14.1 Response

Always ERROR

8.14.2 Example

AT+SF=RTXP
ERROR



8.15 AT+SF=STXP (no more supported)

Set Tx power applied to FSK continuous wave

This command is no more supported because not needed

8.15.1 Response

Always ERROR

8.15.2 Example

AT+SF=STXP,10
ERROR


8.16 AT+SF=RKEY (for certification tests)

Read selected key (private or public).

AT+SF=RKEY

8.16.1 Response

OK if SIGFOX™ layer is ON, ERROR if it is OFF

+SF: <use_public>

<use_public> values: 0 means private key, 1 means public key

8.16.2 Example

AT+SF=RKEY
+SF: 0
OK



8.17 AT+SF=SKEY (for certification tests)

Select private or public key.

AT+SF=SKEY,<use_public>

8.17.1 Response

OK if SIGFOX™ layer is ON, ERROR if it is OFF

8.17.2 Example

Select public key:

AT+SF=SKEY,1
OK



8.18 AT+SF=TM (for certification tests)

Start test mode.

AT+SF=TM,<mode>

<mode> values:

  • 0: SFX_TEST_MODE_TX_BPSK
  • 1: SFX_TEST_MODE_TX_PROTOCOL
  • 2: SFX_TEST_MODE_RX_PROTOCOL
  • 3: SFX_TEST_MODE_RX_GFSK
  • 4: SFX_TEST_MODE_RX_SENSI
  • 5: SFX_TEST_MODE_TX_SYNTH
  • 6: SFX_TEST_MODE_TX_FREQ_DISTRIBUTION
  • 11: SFX_TEST_MODE_TX_BIT
  • 12: SFX_TEST_MODE_PUBLIC_KEY
  • 13: SFX_TEST_MODE_NVM

8.18.1 Response

When the test expects the receipt of downlink the following responses are sent for each downlink:

PASS <rssi> when downlink frame has been received

FAIL when downlink frame hasn't been received

OK or ERROR according to final result

8.18.2 Example

AT+SF=TM,2
PASS -45
...
PASS -57
OK



8.19 AT+SF=RI

Read Info about LBT transmission.

AT+SF=RI

8.19.1 Response

Always OK

If selected RC is LBT:

+SF: <cs_attempt>,<nb_sent_frame>

If selected RC is DC or FH:

+SF: 0

8.19.2 Example

Selected RC is RC3C:

AT+SF=RI
+SF: 1,3
OK

Selected RC is RC1:

AT+SF=RI
+SF: 0
OK



8.20 AT+SF=RCFG

Read FH or LBT config words.

AT+SF=RCFG

8.20.1 Response

Always OK

+SF: <cfg_word[0]>,<cfg_word[1]>,<cfg_word[2]>,<timer_enable>

Each <cfg_word[]> is encoded as 8 hexa digits

If selected RC is FH:

Macro Channel Value MHz : | 902.2MHz | 902.5MHz | 902.8MHz | 903.1MHz | 903.4MHz | 903.7MHz | 904.0MHz | 904.3MHz | 904.6MHz | ...     ...      | 911.5MHz |
Macro Channel Value     : | Chn 1    | Chn 2    | Chn 3    | Chn 4    | Chn 5    | Chn 6    | Chn 7    | Chn 8    | Chn 9    | ...     ...      | Chn 32   |
cfg_word[0] bit         : | bit 0    | bit 1    | bit 2    | bit 3    | bit 4    | bit 5    | bit 6    | bit 7    | bit 8    | ...     ...      | bit 31   |
Macro Channel Value MHz : | 911.8MHz | 912.1MHz | 912.4MHz | 912.7MHz | 913.0MHz | 913.3MHz | 913.6MHz | 913.9MHz | 914.2MHz | ...     ...      | 921.1MHz |
Macro Channel Value     : | Chn 33   | Chn 34   | Chn 35   | Chn 36   | Chn 37   | Chn 38   | Chn 39   | Chn 40   | Chn 41   | ...     ...      | Chn 64   |
cfg_word[1] bit         : | bit 0    | bit 1    | bit 2    | bit 3    | bit 4    | bit 5    | bit 6    | bit 7    | bit 8    | ...     ...      | bit 31   |
Macro Channel Value MHz : | 921.4MHz | 921.7MHz | 922.0MHz | 922.3MHz | 922.6MHz | 922.9MHz | 923.2MHz | 923.5MHz | 923.8MHz | ... | 927.7MHz |
Macro Channel Value     : | Chn 65   | Chn 66   | Chn 67   | Chn 68   | Chn 69   | Chn 70   | Chn 71   | Chn 72   | Chn 73   | ... | Chn 86   |
cfg_word[2] bit         : | bit 0    | bit 1    | bit 2    | bit 3    | bit 4    | bit 5    | bit 6    | bit 7    | bit 8    | ... | bit 21   |
<timer_enable> enable(1)/disable(0) the timer feature

If selected RC is LBT:

cfg_word[0] : number of attempts to send the first frame [ has to be greater or equal to 1]
cfg_word[1] : maximum carrier sense sliding window (in ms) [ has to be greater than 6 ms ( CS_MIN_DURATION_IN_MS + 1 ) ]
cfg_word[2] :
                  . bit 8   : set the value to 1 to indicate that the device will use the full operationnal radio band.( 192kHz )
                  . bit 7-3 : number of Carrier Sense attempts.
                  . bit 2-0 : number of frames sent.
<timer_enable> is not used

If selected RC is DC:

cfg_word[0] is not used
cfg_word[1] is not used
cfg_word[2] is not used
<timer_enable> is not used

8.20.2 Example

Selected RC is RC1 (DC):

AT+SF=RCFG
+SF: 00000000,00000000,00000000,0
OK

Selected RC is RC2 (FH):

AT+SF=RCFG
+SF: 00000001,00000000,00000000,1
OK

Selected RC is RC3C (LBT):

AT+SF=RCFG
+SF: 00000003,00001388,00000000,0
OK



8.21 AT+SF=SCFG

Set FH or LBT config words.

AT+SF=SCFG,<cfg_word[0]>,<cfg_word[1]>,<cfg_word[2]>,<timer_enable>

8.21.1 Response

OK if parameters are valid and SIGFOX™ layer is OFF

ERROR if parameters are invalid or SIGFOX™ layer is ON

8.21.2 Example

Selected RC is RC2 (FH):

AT+SF=SCFG,00000001,00000000,00000000,1
OK

Selected RC is RC3C (LBT):

AT+SF=SCFG,00000003,00001388,00000000,0
OK



9 AT Generic command


AT Generic command can be used to activate/deactivate some generic functionalities.



9.1 AT+GA= DIND,1,8801

This command is use to know the status of PowerSaving.

9.1.1 Response

+GA : DIND,1,0801<pwr_state>

Always OK.

pwr_state 00 powersaving OFF pwr_state 01 powersaving ON

9.1.2 Example

AT+GA= DIND,1,8801

+GA : DIND,1,080100

OK.



9.2 AT+GA= DIND,1,8802<pwr_state>


WARNING: CONNECT CORRECTLY THE WAKEUP PIN BEFORE ACTIVATION OF POWERSAVING
This command is use to set the PowerSaving. pwr_state 00 powersaving OFF pwr_state 01 powersaving ON

PowerSaving can be activated once after boot-up, and from this point will go in stop mode as soon as possible and is wake-up by RTC or Wakeup pin. Please note that once power-saving is activated, user should toggle wake-up pin before sending an AT command.

If the module is reset, the powersaving is set back to OFF. So User should ensure setting it to ON after any reset

9.2.1 Response

Always OK.

9.2.2 Example

AT+GA= DIND,1,880201

OK



10 AT debug command


AT debug command can be used to activate/deactivate some debug functionalities.



10.1 AT+DEBUG= HELP

This commandis use to know the list of sub-commands.

10.1.1 Response

OK.

10.1.2 Example

AT+DEBUG= HELP
+DEBUG: <cmd>,<param_1>,…,<param_N>
+DEBUG: <cmd> are MVER,MVOFF,MVON,MV?,MEOFF,MEON,ME?,MPOFF,MPON,MP?,RREAD,RWRITE
+DEBUG: <cmd>? Lists parameters of <cmd> if any
OK



10.2 AT+DEBUG=MVER

Read Mcu software version.

Furthermore, when the device boots the software version is sent as an unsolicited response:

+DEBUG: START,<version>

This unsolicited response can be used to detect a reset of the device.

10.2.1 Response

Always OK.

+DEBUG: MVER,<version>

10.2.2 Example

AT boot:

+DEBUG: START,Nemeus 1.x

When requested:

AT+DEBUG= MVER
+DEBUG: MVER,Nemeus 1.x
OK




10.3 AT+DEBUG= MVOFF

Disable Mcu Verbose print on the UART

10.3.1 Response

Always OK.

10.3.2 Example

AT+DEBUG= MVOFF
OK



10.4 AT+DEBUG= MVON

Enable Mcu Verbose print on the UART

10.4.1 Response

OK if software is compiled with debug traces.

ERROR if software is compiled without debug traces.

10.4.2 Example

AT+DEBUG= MVON
OK



10.5 AT+DEBUG= MV?

Read current verbose mode.

10.5.1 Response

Always OK.

+DEBUG: <verbose>

10.5.2 Example

AT+DEBUG= MV?
+DEBUG: MVON
OK



10.6 AT+DEBUG= MEOFF

Disable UART echo mode.

10.6.1 Response

Always OK.

10.6.2 Example

AT+DEBUG= MEOFF
OK



10.7 AT+DEBUG= MEON

Enable UART echo mode.

10.7.1 Response

Always OK.

10.7.2 Example

AT+DEBUG= MEON
OK



10.8 AT+DEBUG= ME?

Read current echo mode.

10.8.1 Response

Always OK.

+DEBUG: <echo>

10.8.2 Example

AT+DEBUG= ME?
+DEBUG: MEON
OK



10.9 AT+DEBUG= MPOFF

Disable the sending of shell prompt on UART.

10.9.1 Response

Always OK.

10.9.2 Example

AT+DEBUG= MPOFF
OK



10.10 AT+DEBUG= MPON

Enable the sending of shell prompt on UART.

10.10.1 Response

Always OK.

10.10.2 Example

AT+DEBUG= MPON
OK



10.11 AT+DEBUG= MP?

Read current prompt mode.

10.11.1 Response

Always OK.

+DEBUG: <prompt>

10.11.2 Example

AT+DEBUG= MP?
+DEBUG: MPON
OK

11 AT Static Context Header Compression (SCHC) command


AT SCHC command can be used to communicate through Acklio IPCore network.

Currently, the default firmware doesn't support SCHC command.



11.1 AT+SCHC=HELP

This command is used to know the list of sub-commands.

11.1.1 Response

OK.

11.1.2 Example

AT+SCHC=HELP
+SCHC: <cmd>,<param_1>,…,<param_N>
+SCHC: <cmd> are VER,RL2,SL2,RSTATE,SSTATE,SOCKET,RSOCKET,CLOSE,BIND,SENDTO
+SCHC: <cmd>? Lists parameters of <cmd> if any
OK



11.2 AT+SCHC=VER

Read version of SCHC stack.

11.2.1 Response

Always OK.
+SCHC: <version>

<version>: the library version


11.2.2 Example

AT+SCHC=VER
+SCHC: 2.0.0
OK



11.3 AT+SCHC=RL2

Read available L2 which can be used by SCHC stack.

11.3.1 Response

Always OK.
For each LoRa™WAN L2:
+SCHC: <l2_id>,<l2_type>,<join_chan_mask>,<join_dr>,<first_dr>,<adr>,<nb_trans>,<piggyback>,<backoff>,<force_dr>,<ack>,<class_c>

<l2_id>: the identifier which addresses the L2
<l2_type>: 0 for LoRa™WAN
<join_chan_mask>: channels used by join procedure 0 for ABP mode, 1 for 868.1 channel, 2 for 868.3 channel, 4 for 868.5 channel, 7 for all default channels
<join_dr>: data rate to start the join procedure (0 to 5)
<first_dr>: data rate of the first uplink frame sent after the join procedure
<adr>: ADR bit (0 or 1)
<nb_trans>: number of transmissions of unconfirmed frames (0 to 15)
<piggyback>: piggyback enable(1)/disable(0)
<backoff>: backoff when confirmed frames are unacked enable(1)/disable(0)
<force_dr>: forced data rate (15 means do not force, use current one)
<ack>: ack mode enable(1)/disable(0)
<class_c>: device class C enable(1)/disable(0)


For SIGFOX™ L2:
Not yet available

11.3.2 Example

AT+SCHC=RL2
+SCHC: 0,0,7,0,15,1,0,0,0,15,0,1
OK



11.4 AT+SCHC=SL2

Set L2 parameters.
For a LoRa™WAN L2:
AT+SCHC=SL2,<l2_id>,<join_chan_mask>,<join_dr>,<first_dr>,<adr>,<nb_trans>,<piggyback>,<backoff>,<force_dr>,<ack>,<class_c>
For SIGFOX™ L2:
Not yet available


11.4.1 Response

OK when all specified parameters are valid.

11.4.2 Example

AT+SCHC=SL2,0,7,0,15,1,0,0,0,15,0,1
OK

11.5 AT+SCHC=RSTATE

Read current state of SCHC stack.

11.5.1 Response

Always OK.
Response to command:
+SCHC: <r_state>,<l2_id>

<r_state>: the current SCHC stack state: 0 when stack is off, 1 when stack is initializing (joining when LoRa™WAN L2), 2 when stack is idle, 3 when stack is transmitting
<l2_id>: the L2 used by SCHC stack

Unsolicited response (when stack state changes):
+SCHC: RSTATE,<r_state>,<l2_id>

11.5.2 Example

AT+SCHC=RSTATE
+SCHC: 0,0
OK



11.6 AT+SCHC=SSTATE

Set state of SCHC stack. AT+SCHC=SSTATE,<s_state>,<l2_id>

<s_state>: the requested SCHC stack state: 0 to switch-off the stack, 1 to initialize the stack
<l2_id>: the L2 the SCHC stack must use

11.6.1 Response

OK when all specified parameters are valid.
Unsolicited response (when stack state changes):
+SCHC: RSTATE,<r_state>,<l2_id>

11.6.2 Example

Switch-on the stack with l2_id 0

AT+SCHC=SSTATE,1,0
OK
+SCHC: RSTATE,1,0
+SCHC: RSTATE,2,0

Switch-off the stack

AT+SCHC=SSTATE,0
OK
+SCHC: RSTATE,0,0



11.7 AT+SCHC=SOCKET

Create a socket.
AT+SCHC=SOCKET,<ip_version>,<compression>

<ip_version>: 4 for IPv4, 6 for IPv6
<compression>: NONE for no compression, LIGHT for light compression, FULL for full compression

11.7.1 Response

OK when all specified parameters are valid, maximum number of sockets (1) is not reached and SCHC stack is on.
Response to command:
+SCHC: <sock_id>

<sock_id>: the socket identifier

11.7.2 Example

AT+SCHC=SOCKET,6,FULL
+SCHC: 0
OK



11.8 AT+SCHC=RSOCKET

List all created sockets.
AT+SCHC=RSOCKET

11.8.1 Response

Always OK.
Response to command:
For each socket:
+SCHC: <sock_id>,<ip_addr>,<port>,<compression>

<sock_id>: the socket identifier
<ip_addr>: the bound IP address (32 characters for IPv6 and 8 characters for IPv4)
<compression>: NONE, LIGHT or FULL

11.8.2 Example

AT+SCHC=RSOCKET
+SCHC: 0,01020304,CDDC,LIGHT
OK



11.9 AT+SCHC=BIND

Bind a socket on local IP address and port. AT+SCHC=BIND,<sock_id>,<ip_addr>,<port>

<sock_id>: the socket identifier
<ip_addr>: the IP address to bind (32 characters for IPv6 and 8 characters for IPv4)
<port>: the port to bind

11.9.1 Response

OK when all specified parameters are valid and the addressed socket exists

11.9.2 Example

AT+SCHC=BIND,0,01020304,CDDC
OK



11.10 AT+SCHC=CLOSE

Close a socket. AT+SCHC=CLOSE,<sock_id>

<sock_id>: the socket identifier

11.10.1 Response

OK when the addressed socket exists

11.10.2 Example

AT+SCHC=CLOSE,0
OK



11.11 AT+SCHC=SENDTO

Send a frame on a socket. AT+SCHC=SENDTO,<sock_id>,<dest_ip_addr>,<dest_port>,<payload>

<sock_id>: the socket identifier
<dest_ip_addr>: destination IP address (32 or 8 characters)
<dest_port>: destination port (4 characters)
<payload>: the payload to send (hexa string)

11.11.1 Response

OK when the addressed socket exists, there is no ongoing transmission and the transmission succeeded
Unsolicited response (when downlink payload is received):
+SCHC: RCVFROM,<sock_id>,<src_ip_addr>,<src_port>,<payload>

<sock_id>: the socket identifier
<src_ip_addr>: source IP address (32 or 8 characters)
<src_port>: source port (4 characters)
<payload>: the received payload (hexa string)

11.11.2 Example

AT+SCHC=SENDTO,0,01020304,FDDF,CAFEDECA
+SCHC: RSTATE,3,0
+SCHC: RSTATE,2,0
OK
+SCHC: RCVFROM,0,01020304,FDDF,CAFECAFE