- Info
LANTIME M600/GPS/PTP
PTPv2 / IEEE 1588-2008 Grandmaster Clock and NTP Time Server with integrated GPS radio clock.
End of Life Announcement
This product is not available anymore and may have been substituted by another product.
General description
The Meinberg LANTIME time server is used around the world to provide accurate time to networks of any size. It synchronizes all PTPv2 / IEEE 1588-2008 compatible clients and systems either NTP- or SNTP-compatible and uses a built-in Meinberg GPS radio clock as its reference time source. A highly stable and precise oscillator is capable of bridging interferences or a temporary loss of reception.
Key features
- Synchronization of IEEE1588-2008 (PTPv2) compatible clients
- Synchronization of NTP and SNTP compatible clients
- Web based status and configuration interface (Demo) and console based graphical configuration utility
- Supported net protocols: IPv4, IPv6, PTP/IEEE 1588-2008, NTP, SNTP, DAYTIME, DHCP, HTTP, HTTPS, FTP, SAMBA, SFTP, SSH, SCP, SYSLOG, SNMP, TIME, TELNET, W32TIME
- Alert-Notification system of status change by Email, WinMail, SNMP or an external connected display
- Full SNMP v1,v2,v3 support with own SNMP-daemon for status and configuration and SNMP Trap messages
- USB Port for installing firmware updates, locking frontpanel menu access and backup/restore of configuration and log files
- Antenna connected with up to 300m of standard coaxial cable RG58
- Six independent RJ-45 ethernet interfaces 10/100 MBit (incl. 1 x IEEE 1588-2008)
- Optional expansions and/or configurations available: Product Options
Detailed description
Being a very stable IEEE 1588-2008 Grandmaster clock, the LANTIME M600/PTP not only provides a highly accurate source of synchronization for PTP clients ("slaves" like the PTP270PEX), it additionally introduces the absolute time ("current time of day") to your PTP networks.
The GNU/Linux operating system of the LANTIMEs SBC (Single Board Computer) has been optimized to ensure a high level of security and reliability.
A large display shows the state of the internal GPS receiver and the NTP subsystem.
The configuration of the system can be done by using a standard web browser to access the extensive but straightforward html interface. Alternatively a text based and menu driven setup utility can be started from the shell prompt after logging into the unit via Telnet or SSH.
The security-related features of LANTIME time servers satisfy highest demands. The time synchronization data can be reliably signed and secured by symmetric keys (MD5) and the NTP autokey procedures. This protects the clients against manipulated time and man-in-the-middle attacks and allows them to verify that the NTP packets they received were send by the LANTIME. Additionally the whole LANTIME configuration can be done by using encrypted channels (e.g. SSH, HTTPS or SNMPv3). Every unused/unneeded protocol can be disabled in order to reduce possible points of attack.
In order to support network management systems the LANTIME time servers offer an extensive SNMP interface, which can be accessed by SNMP V1, V2.c and V3. It allows the monitoring of all relevant system parameters (including operating system parameters, network interface statistics, detailed GPS and NTP status information as well as the complete system configuration) and can be used to alter the LANTIME configuration via SNMP set commands, too.
The PTP V2 multicast implementation of the LANTIME is fully compliant to the IEEE 1588-2008 standard (two step clocks) and provides PTP management messages as well.
LANTIME time servers are designed to be deployed in IPv6 networks, the NTP time synchronization as well as the configuration interfaces (Web-based, SSH and SNMP) comes with IPv6 support. You can assign several IPv6 addresses and the system supports automatic configuration by IPv6 autoconf.
Because of its modular system architecture it is possible to equip a LANTIME time server with a number of different reference time sources. Optionally several additional frequency-, serial string- and pulse outputs are available and by combining two (even different) time sources and redundant power supplies, high-availability systems are no problem.
The LANTIME M600 PTP is equipped with high precision oscillator "OCXO HQ" (look at oscillator options for details) as standard. The oscillator determines the holdover characteristics (e.g. when the GPS signal is disturbed or jammed). The oscillator option "OCXO DHQ" is available to fulfill higher requirements.
The GNU/Linux operating system of the LANTIMEs SBC (Single Board Computer) has been optimized to ensure a high level of security and reliability.
A large display shows the state of the internal GPS receiver and the NTP subsystem.
The configuration of the system can be done by using a standard web browser to access the extensive but straightforward html interface. Alternatively a text based and menu driven setup utility can be started from the shell prompt after logging into the unit via Telnet or SSH.
The security-related features of LANTIME time servers satisfy highest demands. The time synchronization data can be reliably signed and secured by symmetric keys (MD5) and the NTP autokey procedures. This protects the clients against manipulated time and man-in-the-middle attacks and allows them to verify that the NTP packets they received were send by the LANTIME. Additionally the whole LANTIME configuration can be done by using encrypted channels (e.g. SSH, HTTPS or SNMPv3). Every unused/unneeded protocol can be disabled in order to reduce possible points of attack.
In order to support network management systems the LANTIME time servers offer an extensive SNMP interface, which can be accessed by SNMP V1, V2.c and V3. It allows the monitoring of all relevant system parameters (including operating system parameters, network interface statistics, detailed GPS and NTP status information as well as the complete system configuration) and can be used to alter the LANTIME configuration via SNMP set commands, too.
The PTP V2 multicast implementation of the LANTIME is fully compliant to the IEEE 1588-2008 standard (two step clocks) and provides PTP management messages as well.
LANTIME time servers are designed to be deployed in IPv6 networks, the NTP time synchronization as well as the configuration interfaces (Web-based, SSH and SNMP) comes with IPv6 support. You can assign several IPv6 addresses and the system supports automatic configuration by IPv6 autoconf.
Because of its modular system architecture it is possible to equip a LANTIME time server with a number of different reference time sources. Optionally several additional frequency-, serial string- and pulse outputs are available and by combining two (even different) time sources and redundant power supplies, high-availability systems are no problem.
The LANTIME M600 PTP is equipped with high precision oscillator "OCXO HQ" (look at oscillator options for details) as standard. The oscillator determines the holdover characteristics (e.g. when the GPS signal is disturbed or jammed). The oscillator option "OCXO DHQ" is available to fulfill higher requirements.
Technical data
Type of receiver: | 12 channel GPS C/A-code receiver |
---|---|
Form Factor: | Three different variants are available, standard version is:
|
Type of antenna: | Remote powered GPS antenna/converter unit, up to 300m distance to antenna with RG58 and up to 700m distance with RG213 cable |
Display: | Vacuum fluorescent graphic display (VFD), 256 x 64 dots |
Control elements: | Eight push buttons to set up basic network parameters and to change receiver settings |
Status info: | Four bicolor LEDs showing status of:
|
Frequency outputs: | 10 MHz via female BNC connector, TTL into 50 Ohm Accuracy depends on oscillator (standard: OCXO HQ) |
Pulse outputs: |
Pulse per second (PPS) and pulse per minute (PPM) via female BNC connectors, TTL into 50 Ohm, pulse width: 200msec, acitve high |
Data format of interfaces: |
Baudrate: 300, 600, 1200, 2400, 4800, 9600, 19200 Baud data format: 7N2, 7E1, 7E2, 8E1, 8N1, 8O1 Time strings: Meinberg Standard-Telegram, SAT, Uni Erlangen (NTP), SPA, RACAL, Sysplex, NMEA0183 (RMC, GGA, ZDA), Meinberg GPS, COMPUTIME, ION or capture-telegramm |
Alarm output: |
Synchronous state of the module, relay output (changeover contact) |
Network Interface: |
1 x 10/100 MBit with RJ45, IEEE 1588 5 x 10/100 MBit with RJ45 |
Universal Serial Bus (USB) Ports: |
1x USB Port in front panel:
|
Network protocols OSI Layer 4 (transport layer): | TCP, UDP |
Network protocols OSI Layer 7 (application layer): | TELNET, FTP, SSH (incl. SFTP, SCP), HTTP, HTTPS, SYSLOG, SNMP |
Internet Protocol (IP): | IP v4, IP v6 |
Network Autoconfiguration Support: | IPv4: Dynamic Host Configuration Protocol - DHCP (RFC 2131) IPv6: Autoconfiguration Networking - AUTOCONF |
Network Time Protocol (NTP): |
NTP v2 (RFC 1119), NTP v3 (RFC 1305), NTP v4 (no RFC) SNTP v3 (RFC 1769), SNTP v4 (RFC 2030) MD5 Authentication and Autokey Key Management |
Time Protocol (TIME): | Time Protocol (RFC 868) |
Daytime Protocol (DAYTIME): | daytime Protocol (RFC 867) |
IEC 61850: |
Synchronization of IEC 61850 compliant devices by using SNTP |
Hypertext Transfer Protocol (HTTP): | HTTP/HTTPS (RC 2616) |
Secure Shell (SSH): |
SSH v1.3, SSH v1.5, SSH v2 (OpenSSH) |
Telnet: |
Telnet (RFC 854-RFC 861) |
Simple Network Management Protocol (SNMP): | SNMPv1 (RFC 1157), SNMPv2c (RFC 1901-1908), SNMP v3 (RFC 3411-3418) |
Power supply: | Standard: 100-240 VAC / 100-240 VDC, available DC variants: 12VDC, 24VDC and 48VDC |
Power consumption: | 30 W |
Ambient temperature: | 0 ... 50°C / 32 ... 122°F |
Humidity: | Max. 85% |
Scope of supply: | Included in delivery is our GPS antenna incl. converter unit, 20m GPS antenna cable (RG58) and a printed manual. |
Additional Information: | More information about the Meinberg LANTIME family of NTP time servers and other LANTIME models can be found on the LANTIME NTP Time Server Family Page. |