TeleQuill SBC of Alpha Bridge
PRODUCT DESCRIPTION
The rapid adoption of IP for many voice and multimedia communications needs of enterprises, consumers, and service providers has resulted in a never-broadening array of IP networks, Customers increasingly expect secure, transparent access and utilization of these advanced networks bringing issues like security, interoperability, protocols, vendor implementations, system complexity, and service assurance are arising for network operators, and in turn they are demanding carrier grade intelligent session border controllers (SBCs) to ensure a seamless communications experience.
For over a decade, Telequill SBC has been an acknowledged industry innovator in session border control, and for developing products to solve the growing challenges of the market.
The Telequill SBC is a Intelligent Session Border Controller for fixed, mobile, cable, and Over-the-Top operators and enterprises. Deployed worldwide and operating in some of the world’s largest IP networks, the SBC provides industry-leading security, session management, policy control, and deployment flexibility to enable seamless SIP Trunking, Peering, Intra-Network Interconnect, Multimedia Communication and RCS solutions in IMS VoLTE/VoNRand Fix-Line networks.
Alpha Bridge Technologies Telequill SBC is convergence SBC with the following function support:
- A-SBC
- I-SBC
- P/E-CSCF
- ATCF/ATGW
FEATURES
- simplified operations and management, utilizing the same omc as that of other m switch network elements
- Intelligent policy management and session visibility
- Traffic & user screening, authentication, authorization
- Multi-stage rate limiting and traffic shaping
- Dynamic blacklist malicious sources
- Detection & alarms for fraud & spam
Telequill SBC – The Intelligent SBC
The Telequill SBC has smart management technology that reduces operational complexity and simplifies the network edge by securely managing, routing, and controlling real-time voice and multimedia sessions, while providing intelligent insight into network performance. With the SBC, operators gain predictability and assurance to the delivery of secure rich multimedia services. Through its adaptive security, insightful policy enforcement, flexible interworking and normalization, and advanced session routing capabilities, the SBC adds an unparalleled layer of intelligence in managing SIP and other IP-based voice and multimedia sessions.
PRODUCT SPECIFICATIONS
HARDWARE & PLATFORM
- ATCA
- x86 Server
- OpenStack Cloud Native Platform
- Docker container
- AWS
SUPPORTED PROTOCOLS
- SIP, TLS, DIAMETER, etc.
- IPv4 / IPv6
- Rx, Mw, Gm
- SNMP, FTP
INTERWORKING FUNCTIONALITY
- SIP over UDP/TCP/TLS/ SCTP Interworking
- SIP Flexible message manipulation
- SIP over H.323 using external IWF Gateway
INTERWORKING FUNCTIONALITY
- Denial of Service (DoS/DDoS) Protection
- Traffic Control
- Detect and Drop Malformed Packets
- TLS for signaling encryption
- Secure RTP/RTCP for media encryption
NETWORK FUNCTIONS
- A-SBC, I-SBC
- P/E-CSCF
- ATCF
- ATGW
PERFORMANCE PER UNIT
- Concurrent Call: 32000
- BHCA: 1,080,000
- Business Trunking (SIP Trunking): 1500
- Media Latency: < 15 microsecond
- Switch Throughput: 10G
- Signaling Latency: < 1 milli second
- VLAN Capacity: Up to 2200
POLICY MANAGEMENT AND SESSION VISIBILITY
- Intelligent traffic & user screening, authentication, authorization
- Multi-stage rate limiting and traffic shaping
- Dynamic blacklisting of malicious sources
- Fraud and Spam detection and alarm
LOAD BALANCING
- Signaling and media assignment to the same/separate devices
- Configurable to use multiple devices to share media streams
SUPPORTED CODECS
- PCMU, PCMA, G.729a, G.726-32, G.723.1, G.722, AMR-WB-BWE
- Supports Transcoding functionality
Telequill SBC Element Management System
Provide unified network management functions
Telequill SBC Typical Application Scenario
VoIP Service Router/Firewall between Different Networks
IP networks of different areas may not have direct interconnectivity, such as a corporate intranet and the Internet, or the Internet and an NGN operating platform network. SBC can work as a bridge and perform VoIP service routing between these independent networks.
SBC VoIP Service Router/Firewall between Different Networks
High Availability
SBC supports HA function:
- Two SBCs provide services to the outside world through the two planes that constitute the active and standby links.
- Under normal circumstances, The host is responsible for the business and backs up the business to the standby machine, the backup machine does not provide business but accept business backup.
- When the host fails, the backup machine takes over the external service, thereby automatically ensuring that the system can continuously provide the service without manual intervention.
SBC High Availability Network
Core Pool and Dual Attribution
- Dual attribution is a special case of pool.
- After the main CORE fails, SBC automatically switch to other CORE
The SBC can be rewound if the original CORE is restored
SBC Core Pool and Dual Attribution
SBC as P/E-CSCF in IMS Network
• SBC with P/E CSCF function in IMS Network
Interface Support for SBC P/E-CSCF Function
SBC(P-CSCF) Geographic Redundancy Interface support for SBC P/E-CSCF function
| Reference Point | Connection | Protocol | Reference Point | Connection |
| Gm | UE P-CSCF | SIP | Gm | UE P-CSCF |
| Mw | P-CSCF E/I/S-CSCF/IBCF | SIP | Mw | P-CSCF E/I/S-CSCF/IBCF |
| Mi | E-CSCF MGFC | SIP | Mi | E-CSCF MGFC |
| Rx | P-CSCF PCRF | Diameter | Rx | P-CSCF PCRF |
ATCF/ATGW in eSRVCC solution
1.After receiving the message, the eMSC will perform route addressing analysis through the STN-SR (ATCF), and find the route to the ATCF node that allocates the STN-SR.
2.The eMSC send the INVITE message to the corresponding ATCF. It carries the STN-SR (ATCF) and C-MSISDN obtained from the MME. (The PSI route may be addressed to the ATCF through the I-CSCF, or the ATCF IP may be obtained directly by the DNS resolution. The specific implementation is determined by the routing strategy of different operators.)
3.After receiving the INVITE message from the eMSC, the ATCF determines whether the STN-SR is equal to the STN-SR predefined by the node. If they are equal, the SRVCC process is continued, and the ATGW is notified to perform corresponding bearer switching according to the user session in which the C-MSISDN is carried that needs to perform handover.
The main handover process steps are described as below:
1.When the MME detects that the LTE signal weakening needs to be handed over to the CS domain to ensure call continuity, the MME initiates an SRVCC handover procedure to the associated eMSC through the SRVCC PS to CS request message. It carries the updated STN-SR (ATCF) and the C-MSISDN used to associate users.
