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La gestione degli SMS prevede la modalità di gestione a PDU che consente un completo controllo di tutti i parametri di configurazione di un SMS. Questa é la modalità alla base del trasferimento di loghi e suonerie utilizzati dalle più famose case di telefonia, Nokia per prima.
Per aiutarvi a comprendere e conoscere gli SMS in PDU mode abbiamo raccolto una serie di pagine, molto precise e dettagliate che descrivono fino nei minimi particolari tutti i campi di un SMS. Il testo di questa pagina e di quelle a questa collegate é in lingua Inglese poiché tratto dal sito di http://www.dreamfabric.com/sms/ che cura e mantiene la versione originale del presente lavoro.

The PDU mode offers to send binary information in 7 bit or 8 bit format. That is helpful if you have to send compressed data, binary data or you you like to build your own encoding of the characters in the binary bit stream. If you go back on the old encoding of a Fernschreiber, then there are only 5 bit needed to send an alphanumeric text. By 5 bit coding you can contain 224 characters instatt of 160 characters in 7 bit Text mode. An others reason could be the sending of integer data.

If you would like to have the full control of your transmited data in Text mode you have to understand the PDU mode, because there are a few commands where you can set numeric parameters that change the kind od send and receive of a SMS in text mode also.

The test software of the GSM modem A2D-1 is able to generate PDU string automatily and will help by the development of your own PDU software driver. Sorry, but the manufacturer has not descripted the control panel very well. You will found a grafic control panel, where you can switch on and of different parameters. The result of the use of such an switcher changes the parameters on the screen. It is showes in hex format and if you convert it decimal format then you will have the parameters for the AT command AT+CXXX.

Please note that there are a few differences of in the kind of implemetation of the PDU mode and by the other AT commands, so that the test software is useful by the development of applications based on an GSM modem A2D-1 only . The other problem is that the software checks the manufacturer code in the connected modem and will not work with foreign GSM modems.

The text as below is written and maintained by Lars Pettersson http://www.dreamfabric.com/sms/

 It descripes the PDU mode perfect and is very helpful. More details about the PDU mode you can find in the ETSI GSM 03.40 “Digital cellular telecommunications  system (Phase 2+); Technical realization of the Short Message Service (SMS);  Point-to-Point (PP)” and ETSI GSM 03.38 “Digital cellular telecommunications system (Phase 2+); Alphabets and language-specific information”.

Please note that there could by small differences to the GSM modem A2D-1 in the test as follow.

SMS and the PDU format


The SMS message, as specified by the Etsi organization (documents GSM 03.40 and GSM 03.38), can be up to 160 characters long, where each character is 7 bits according to the 7-bit default  alphabet. Eight-bit messages (max 140 characters) are usually not  viewable by the phones as text messages; instead they are used for data in e.g. smart messaging (images and ringing tones) and OTA provisioning of  WAP settings. 16-bit messages (max 70 characters) are used for Unicode  (UCS2) text messages, viewable by most phones. A 16-bit text message of class 0  will on some phones appear as a Flash SMS (aka blinking SMS or alert SMS).

The PDU format

There are two ways of sending and receiving SMS messages:  by text mode and by PDU (protocol description unit) mode. The text mode  (unavailable on some phones) is just an encoding of the bit stream represented by the PDU mode. Alphabets may differ and there are several encoding alternatives when displaying an SMS message. The most common options are "PCCP437", "PCDN", "8859-1", "IRA" and "GSM". These are all set by the at-command AT+CSCS, when you read the message in a computer application. If you read the message on your phone, the phone will choose a proper encoding. An application capable of reading incoming SMS messages, can thus use text mode or PDU mode. If text mode is used, the application is bound to (or limited by) the set of preset encoding options. In some cases, that's just not good enough. If PDU mode is used, any  encoding can be implemented.

Receiving a message in the PDU mode

The PDU string contains not only the message, but also a lot of meta-information about the sender, his SMS service  center, the time stamp etc. It is all in the form of hexa-decimal octets or decimal semi-octets. The following string is what I received on a Nokia 6110 when  sending the message containing "hellohello" from http://www.mtn.co.za/.





This octet sequence consists of three parts: An initial octet indicating the length of the SMSC information ("07"), the SMSC information itself ("917238010010F5"),  and the SMS_DELIVER part (specified by ETSI in GSM 03.40).

Note: on some phones (e.g. Ericssson 888?) the first three (colored) parts are omitted  when showing the message in PDU mode!




Length of the SMSC information (in this case 7 octets)


Type-of-address of the SMSC. (91 means  international format of the phone number)

72 38 01 00 10 F5

Service center number(in decimal semi-octets). The length of the phone  number is odd (11), so a trailing F has been added to form proper octets. The phone number of this service center is "+27381000015". See below.


First octet of this SMS-DELIVER message.


Address-Length. Length of the sender number (0B hex = 11 dec)


Type-of-address of the sender number

72 38 88 09 00 F1

Sender number (decimal semi-octets), with a trailing F


TP-PID. Protocol identifier.


TP-DCS Data coding scheme

99 30 92 51 61 95 80

TP-SCTS. Time stamp (semi-octets)


TP-UDL. User data length, length of message. The TP-DCS field indicated  7-bit data, so the length here is the number of septets (10). If the TP-DCS  field were set to indicate 8-bit data or Unicode, the length would be the number of octets (9).


TP-UD. Message "hellohello", 8-bit octets  representing 7-bit data.

All the octets above are hexa-decimal 8-bit octets,  except the Service center number, the sender number and the timestamp; they are decimal semi-octets. The message part in the end of the
 PDU string consists of  hexa-decimal 8-bit octets, but these octets represent 7-bit data
(see below).
The semi-octets are decimal, and e.g. the sender number is obtained by performing internal swapping within the semi-octets from "72 38 88 09 00 F1" to  "27 83 88 90 00 1F".
The length of the phone number is odd, so a proper octet sequence cannot be formed by this number. This is the reason why the trailing F  has been added. The time stamp, when parsed, equals
"99 03 29 15 16 59 08",  where the 6 first characters represent date, the following 6 represents time,  and the last two represents time-zone related to GMT.

Interpreting 8-bit octets as 7-bit messages

This transformation is described in detail in GSM 03.38. The transformation is based on the 7 bit default alphabet , but an application built on the PDU mode can use any character encoding.

Sending a message in the PDU mode

The following example shows how to send the message "hellohello" in the PDU mode from a Nokia 6110.

AT+CMGF=0 //Set PDU mode AT+CSMS=0 //Check if modem supports SMS commands AT+CMGS=23 //Send message, 23 octets (excluding the two initial zeros) >0011000B916407281553F80000AA0AE8329BFD4697D9EC37There are 23 octets in this message (46 'characters'). The first octet ("00") doesn't count, it is only an indicator of the length of the SMSC  information supplied (0). The PDU string consists of the following:





Length of SMSC information. Here the length is 0, which means that the SMSC stored in the phone should be used. Note: This octet is optional. On some  phones this octet should be omitted! (Using the SMSC stored in phone is thus implicit)


First octet of the SMS-SUBMIT message.


TP-Message-Reference. The "00" value here lets the phone set the message  reference number itself.


Address-Length. Length of phone number (11)


Type-of-Address. (91 indicates international format of the phone number).


The phone number in semi octets (46708251358). The length of the phone  number is odd (11), therefore a trailing F has been added, as if the phone  number were "46708251358F". Using the unknown format (i.e. the Type-of-Address  81 instead of 91) would yield the phone number octet sequence 7080523185 (0708251358). Note that this has the length 10 (A), which is even.


TP-PID. Protocol identifier


TP-DCS. Data coding scheme.This message is coded according to the 7bit default alphabet. Having "02" instead of "00" here, would indicate that the TP-User-Data field of this message should be interpreted as 8bit rather than 7bit (used in e.g. smart messaging, OTA provisioning etc).


TP-Validity-Period. "AA" means 4 days. Note: This octet is optional, see bits 4 and 3 of the first  octet


TP-User-Data-Length. Length of message. The TP-DCS field indicated 7-bit  data, so the length here is the number of septets (10). If the TP-DCS field were  set to 8-bit data or Unicode, the length would be the number of octets.

E8329BFD4697D9EC 37

TP-User-Data. These octets represent the Message "hellohello".