Router cu conversie bidirectionala de protocol IEC 101 la IEC 104

Router cu conversie bidirectionala de protocol IEC 101 la IEC 104

  • Protocoale uplink: IEC 870-5-101 balanced, slave ; IEC 870-5-101 unbalanced, slave ; IEC 870-5-104 server;
  • Protocoale downlink: IEC 870-5-101 balanced, master ; IEC 870-5-101 unbalanced, slave ; IEC 870-5-101, dialup, master ; IEC 870-5-104, client;
  • Transmite ASDU in mod transparent, fara a le interpreta;
  • Configurare integrala folosind browser web;
  • Functii de back-up si restore a configuratiilor;
  • Functie de diagnostic a starii conexiunilor configurate;
  • Functie de logging: toate datele la / de la ipRoute care au fost trimise si primite ; mesaje de sistem ; mesaje de eroare de comunicare sau eroare software;
  • 1 port Gigabit Ethernet 10/100/1000 Mbps cu Auto MDI/MDI-X;
  • 2 variante de echipament hardware (SEC3 si MEC2): vezi tab-ul specificatii hardware.
  • These requirements ensure successful integration of IEC 870-5-101/104 systems:

    • ASDU addresses used must be unambiguous and unique for all connections, multiple assignations are not allowed.
    • ASDU types used for the control station or substations must be compatible. This can be ensured by matching interoperability lists. ipRoute supports the conversion of following ASDU types (the behaviour is configurable):
      • monitoring direction ASDU types with long time stamp (M_SP_TB_1, M_DP_TB_1, etc.) into ASDU types with short time stamp  (M_SP_TA_1, M_DP_TA_1, etc.) and vice versa.
      • control direction ASDU types with long time stamp (C_SC_TA_1, C_DC_TA_1, etc.) into ASDU types without timestamp (C_SC_NA_1, C_DC_NA_1, etc.) and vice versa. The corresponding confirmations are also converted.
      • the test command with long time stamp C_TS_TA_1 can be converted into a test command without timestamp C_TS_NA_1.

    If these requirements cannot be met, ipConvLite or ipConv are alternative options.



  • ipRoute is a very powerful tool offering a complete range of functionalities that support its integration in specialized environments.

    Transparent ASDU
    ipRoute transmits ASDUs transparently without interpreting them. This enables ASDUs from the private part of the standard to be exchanged, without the necessity of prior configuration.

    Configuration of different
    address lengths
    The lengths of the common ASDU (CA = Common Address of ASDU), the cause of transmission and the information object address (IOA) can be configured differently and may not be the same.

    Conversion between
    IEC 104 and IEC 101
    ASDU types
    ipRoute supports conversion between monitoring direction ASDU types with long time stamp (M_SP_TB_1, M_DP_TB_1, etc.) and ASDU types with short time stamp  (M_SP_TA_1, M_DP_TA_1, etc.) and vice versa. It also supports conversion between control direction ASDU types with long time stamp (C_SC_TA_1, C_DC_TA_1, etc.) and ASDU types without timestamp (C_SC_NA_1, C_DC_NA_1, etc.) and vice versa. Additionally an individual size of originator address can be specified for each communication module. By means of this functionality the most of the differences between IEC 60870-5-104 and IEC 60870-5-101 devices can be eliminated.

    Intelligent data flow control
    and bandwidth adjustment
    ipRoute offers intelligent data flow control to prevent unnecessary data buffering. Should the connection to the control station fail or the data flow be interrupted by the master, ipRoute automatically stops the data transmission to all downlink connections. This shifts buffering to the substation as much as possible.
    If master connections are slower than slave connections, ipRoute data flow control automatically slows down the slave connections to prevent buffer overflow.
    The ASDU TTL (time to live) monitoring which can be configured flexibly ensures that no data is needlessly transmitted to the master and – this is of particular importance with respect to commands – to the slave or substation.
    Accurate monitoring of acknowledged ASDUs prevents loss of data units in case of temporary connection failures or communication interferences. Unacknowledged ASDUs are repeated after the next connection set-up, even if they had already been transmitted.

    ASDU filteringipRoute allows ASDU filtering in control and monitoring directions based on the ASDU address (Common ASDU address). In control direction (downlink), ASDUs may either be sent to all or only to specified ASDU addresses. Broadcast ASDUs are dispatched to all connected devices. In monitoring direction, the ASDUs are generally sent to all superordinate systems. A filter may also be configured for each uplink connection, so that only certain ASDUs are passed on.

    General pollsAs the master does not directly register a substation connection failure, ipRoute allows the automatic triggering of a general poll to the substations after the next connection setup.

    Virtual RTUIn addition, the slave connection status can be signaled to the master using a virtual RTU. In this case ipRoute behaves like a full IEC-101/104 slave.

    Clock syncipRoute allows clock synchronization of substations. The ipRoute internal clock can be synchronized via NTP or IEC. Following its own synchronization, any connected substations are synchronized.

    RedundancyIn order to meet higher data reliability requirements, ipRoute can be used with a second device and provide the necessary redundancy
Sistem SEC3 MEC2
Parti in miscareNUNU
ProcesorARM Cortex-A8 1 GHzIntel Atom 1.46 GHz processor
Memorie256 MB DDR3LDDRIII RAM, max. 4,096 MB
Storage512 MB SLC NAND FlashSLC NAND Flash Max. 64 GB supported

Ethernet2x RJ45 10/100BASE-T2 x RJ-45 10/100/1000 Base-T
Serial2x RS232 / RS422 / RS4854 x RS-232/422/485
Conector RJ-45Conector 9-pin D-SUB male 
USB2 x USB 2.02 x USB 2.0
VGA1 x 15-pin D-SUB female
Indicatoare LEDPower, CPU, LAN Link/Act , Serial Send/Receive

Modem celular (optional)
  cellular modem module incl. antenna and mini SIM socket
  HSPA+ (850/800, 900, 1900,  2100 MHz)
  HSDPA Cat. 10 / HSUPA Cat.6:
DL: max. 14.4 Mbps, UL: max. 5.76 Mbps
  EDGE class 12:
DL: max. 237 kbps, UL: max. 237 kbps
  GPRS class 12:
DL: max. 85.6 kbps, UL: max. 85.6 kbps

Tensiune de alimentare12 / 24 / 48 Vcc (9 – 60 Vcc)12 – 24 V DC (± 20 % )
Consum10 W15 W

Caracteristici mecanice
MontareSina DINSina DIN
Dimensiuni (W / H / D)50 / 124 / 122 mm48 / 155 / 110 mm
Greutate (g)400 g1000 g

Conditii de mediu
Temperatura de stocare-20 to 60°C-20 to 70°C
Temperatura de functionare-40 to 85°C-40 to 85°C
Umiditatea de functionare5% to 95% Non-condensing5% to 95% Non-condensing
CE, RoHSFCC Part 15, CISPR (EN55022) class A
EMCEN 55016-2, EN 61000-4
Model SEC3-SAIEC 61850-3; EN 61850-3

ipRoute este un router, astfel incat schimbul de pachete de date ASDU (Application Service Data Unit) este transparent. Functiile nivelului de legatura (Link Layer) IEC 60870-5-101 si functiile stratului de transport (Transport Layer) IEC 60870-5-104 sunt executate direct de ipRoute.

Pachetele de date trimise de o stație de control sunt comutate fie la toate, fie numai la o substație specificata, in functie de configuratie. De asemenea, pachetele de date primite de o substatie sunt transmise la toate posturile de control sau doar la cele specificate.

Decizia de a transmite un pachet se face prin utilizarea adresei comune corespunzatoare ASDU.


Aceasta functionare transparenta si bidirectionala a ipRoute face ca integrarea echipamentului sa fie rapida si simpla. Configuratia sistemului este redusa la cativa parametri, cum ar fi rata de transfer sau lungimea adresei obiectului informational. Configurarea obiectelor informationale individuale nu este necesara.


Aplicatia 1: Operare redundanta:

ipRoute Router cu conversie bidirectionala de protocol IEC 101 la IEC 104



Aplicatia 2: Conectarea statiilor de control IEC 101 cu statiile IEC 104:



Aplicatia 3: Conectarea statiilor de control IEC 104 cu statiile IEC 101:





ipRoute cu hardware SEC3.

ipRoute cu hardware MEC2.