6 Message Reference

num_boards

The maximum number of boards that ssd is required to manage. This must not exceed 16.

Status Response

The confirmation message (if requested) indicates success by status of zero.

On error, the following value can be found in the status message confirmation.

Value

Mnemonic

Description

2

SSD_BAD_PARAM

The SSD Reset Request message was incorrectly formatted.

 

 

 

6.2.2Board Reset Request

Synopsis:

Message sent to SSD to cause a single board to be reset and a code file downloaded.

Note: When using s7_mgt, this message is generated by s7_mgt and must not be generated by the user.

Message Format:

 

 

MESSAGE HEADER

Field Name

 

Meaning

 

 

 

type

 

SSD_MSG_RST_BOARD (0x7681)

 

 

 

id

 

board_id

 

 

 

src

 

Sending module's module_id

 

 

 

dst

 

SSD_TASK_ID (0x20)

 

 

 

rsp_req

 

used to request a confirmation

 

 

 

hclass

 

0

 

 

 

status

 

Status Response (if confirmation requested)

 

 

 

err_info

 

0

 

 

 

len

 

26

 

 

 

 

 

PARAMETER AREA

Offset

Size

Name

 

 

 

0

2

board_type

 

 

 

2

4

phy_id

 

 

 

6

18

code_file

 

 

 

24

2

run_mode

 

 

 

40

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Dialogic DSI SPCI Network Interface Boards manual Board Reset Request, Numboards, Status Response

DSI SPCI Network Interface Boards specifications

Dialogic DSI SPCI Network Interface Boards are highly advanced and versatile communication solutions tailored for the demands of modern telephony and multimedia applications. These boards are designed to efficiently process voice, data, and signaling, making them an essential component for businesses looking to enhance their communication capabilities.

One of the standout features of the Dialogic DSI SPCI boards is their ability to handle multiple telephony protocols. This flexibility allows users to connect to various network types, whether PSTN, VoIP, or legacy systems, ensuring seamless interoperability. The boards support industry-standard protocols such as ISDN, SS7, and SIP, enabling integrated communication across diverse platforms.

The technology behind the Dialogic DSI SPCI boards incorporates state-of-the-art digital signal processing (DSP). This powerful DSP architecture provides efficient encoding and decoding of voice and video signals, leading to enhanced call quality and reduced latency. Moreover, the DSP technology supports advanced codecs, ensuring that voice communication is clear and intelligible, even over bandwidth-limited connections.

Another significant characteristic of these boards is their scalability. Organizations can start with a single board and expand their telecommunication capabilities as their needs grow. This scalability makes them suitable for a wide range of applications, from small businesses to large enterprises, allowing for easy integration into existing infrastructures.

In addition to their powerful processing capabilities, Dialogic DSI SPCI boards also prioritize reliability and robustness. They are designed with a focus on fault tolerance, ensuring that telephony services remain uninterrupted even in the event of hardware failure. This resilience is critical for mission-critical applications where downtime can lead to significant revenue loss.

Furthermore, the boards feature extensive application development support. Developers can leverage the Dialogic API and various development kits to create custom telephony applications that meet specific business requirements. This programmability opens the door to innovative solutions, such as interactive voice response (IVR) systems, automated call distribution (ACD), and customer relationship management (CRM) integration.

In summary, Dialogic DSI SPCI Network Interface Boards are a cornerstone for organizations looking to innovate their telecommunication systems. With their support for multiple protocols, advanced DSP technology, scalability, reliability, and development support, these boards empower businesses to optimize their communication strategies and adapt to the evolving landscape of digital interaction.