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Gigabit and 10 Gigabit Switch with various fiber and copper options |
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Various Software Router Options, including NIAP Certification for Commercial Solutions for Classified (CSfC) |
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State of the Art Firewall |
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Optional GPS Time Synchronization Server (IEEE 1588 PTP v1/v2, NTP, IRIG-B, PPS) |
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Multiple Central Processing Units (CPU) |
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Multiple Graphics Processing Units (GPU) |
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I/O Interfaces |
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Video Processing |
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Optional External Mass Storage Interface |
The CPUs can be configured with most standard operating systems, including Linux or Windows. Further, the CM-6200COMe AMMS supports both GbE and 10GbE internal speed to each of the internal CPU boards, and the GPU boards can be omitted in case the built-in GPU of the CPUs are used instead.
The CloudberryMIL CM-6200COMe ADVANCED MISSION MANAGEMENT SYSTEM (AMMS) platform offers a wide range of features and functionalities for Defense applications.
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The CM-6200COMe AMMS comes standard with a fully managed Layer 2/3 Gigabit/10 Gigabit switch that provides a powerful set of networking features, including support for IPv4 multicast traffic filtering according to static filters or IGMP snooping, Virtual Local Area Networks (VLANs), port control (speed/mode/statistics, flow control), Quality of Service (QoS) traffic prioritization, Link Aggregation (802.3ad), SNMP v1/v2/v3 management, secure authentication (802.1X, ACLs, Web/CLI), port mirroring and redundancy based on RSTP/MSTP or High-availability Seamless Redundancy (HSR). |
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The CM-6200COMe AMMS can optionally be equipped with full dynamic Layer 3 routing capability. Currently, OnTime Networks offers the following three (3) Layer 3 router options:
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The CM-6200COMe AMMS can optionally be equipped with a firewall network security system that monitors and controls incoming and outgoing network traffic based on predetermined security rules. A firewall typically establishes a barrier between a trusted internal network and untrusted external network, such as the Internet. |
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The CM-6200COMe AMMS can optionally be equipped with the GNSS Time Server Capability (IEEE 1588 PTP, NTP, IRIG-B and PPS) which delivers high-integrity precision timing in demanding applications worldwide. Support for BeiDou and GLONASS constellations in addition to GPS enables compliance with national requirements. The concurrent GNSS receiver can receive and track up to three (3) GNSS systems simultaneously. By default, the receiver is configured for concurrent GPS and GLONASS, including QZSS reception.
The integrated GNSS Time Server is designed for today’s modern, network-centric applications and further accommodates an OCXO with 0.1ppm. In addition to utilizing the integrated GNSS receiver, the unit can be synchronized by an external reference, such as an external GPS receiver, via NMEA telegram and PPS input or an IRIG-B DC input source.
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The CM-6200COMe AMMS can optionally be equipped with multiple COM Express® Type 6 Single Board Computer (SBC) modules for customer software. The CPU operating system can be based either on Windows 10 or Linux.
For example, possible CPU solutions include:
AMD Ryzen™
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The CM-6200COMe AMMS can optionally be equipped with two (2) dedicated Mobile PCI Express Module (MXM) GPUs. For example, possible GPU solutions include:
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The CM-6200COMe AMMS can optionally be equipped with two (2) additional expansion boards based on the standard COM Express® Modules. COM Express® Type 6 is a versatile standard offering a broad range of I/O interfaces including intense graphics support, Digital Display Interfaces (DisplayPort) and super-fast USB 3.0 to serve many different application requirements of the various market segments. |
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The CM-6200COMe AMMS can optionally be equipped with up to two (2) dedicated video processing boards, by using the expansion COM Express® Type 6 slots, featuring:
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The CM-6200COMe AMMS integrates a well-designed fiber optic interconnect solution for mission-critical military systems that demand higher data transmission rates over longer distances to drive radar, avionics, and surveillance systems. |
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The CM-6200COMe AMMS can offer various Real-Time Operating Systems, such as Windows 10®, or Linux® |
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The CM-6200COMe AMMS offers Built-in Test (BIT), a test solution to improve the reliability, safety, and security of mission-critical applications. The built-in BIT provides a level of confidence in the correct operation of the CM-6200COMe AMMS platform at both power-up and during normal operation.
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The CM-6200COMe AMMS offers a dual power supply implementation for redundancy. Each power supply can power the entire platform, and only one supply runs at a time. Only the primary voltage supply is used in a normal situation, but if this supply fails, the secondary power supply starts running to keep the platform powered up. The switch between the power supplies is seamless. The standby power supply consumes minimal power (no active internal loads). |
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The CM-6200COMe AMMS offers the option to connect two (2) external mass storage devices. Each drive can provide up to 4 TB of storage. The removable drives are mounted in a rugged docking bay, allowing quick removal and replacement with an alternate SSD. This feature is also useful when handling classified information, as the SSD can be removed and stored in a secure location. |
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The CM-6200COMe AMMS offers multiple built-in I/O and flexible add-in card options via the COM Express® Type 6 standard. Choose from a wide range of standard digital and analog interfaces to fit your exact requirements. |
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OnTime Networks specializes in customizing its solutions to specific customer needs. The open architecture and flexibility of the CM-6200COMe AMMS allow for a wide variety of customization options. |
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The 6200COMe AMMS offers fixed mounting or tray mounting solutions for space efficiency, with a small footprint and compact size designs. |
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A key consideration during the design phase of the CM-6200COMe AMMS was to make it sustainable and highly reliable in order to match the long lifecycle requirements of most military vehicles and aircraft applications and to allow to update system capabilities. |
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OnTime Networks can provide an extensive documentation and data package in support of early deployment, including environmental/EMI qualification test reports, mean time between failure (MTBF) reliability analysis, failure modes and effects analysis (FMEA), design verification test (DVT) reports, and more |
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The CM-6200COMe AMMS is designed for harsh aircraft and military environments. The platform offers a wide operating temperature range {-32°C .. 63°C] with ruggedized military-approved connectors. The unit is designed to comply to MIL- AECTP 300 (Ed3) Method 304 - Procedure I, DEF(AUST)5168, 461F/G and 1275E. |
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The CM-6200COMe AMMS supports all relevant IEEE Ethernet standards. Interoperability with other PTP devices is ensured based on extensive testing. |
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The CM-6200COMe AMMS offers full management based on HTTP, telnet, CLI, or SNMP v1/v2/v3. |
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The CM-6200COMe AMMS, with its unique embedded PTP version translator feature, allows Slave Clocks of both PTPv1 and PTPv2 to co-exist in the same network. The need for PTP version translation is driven by the fact that PTPV1 (IEEE 1588 2002) is not backward compatible with PTPv2 (IEEE 1588 2008). Both PTP versions cannot co-exist in the same network unless a PTP version translator is used. OnTime Networks offers a cost-efficient solution by introducing a PTP version translation feature into its products which helps to protect your PTPv1 investments. With the embedded PTP version translation you can use your legacy PTPv1 equipment alongside your new PTPv2 equipment without the need to upgrade or change the configuration of old PTPv1 equipment. |
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The CM-6200COMe AMMS offers advanced traffic shaping and quality-of-service techniques |
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The CM-6200COMe AMMS offers port based VLAN (static) or dynamic VLAN according to IEEE802.1Q are supported. |
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The CM-6200COMe AMMS supports to Enable/Disable ports, MAC based port security, Port-based network access control (802.1x), VLAN (802.1Q ) to segregate and secure network traffic, Radius centralized password management and SNMPv3 encrypted authentication and access security |
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The CM-6200COMe AMMS front panel flexibility allows for custom connector layouts with client logo, connectors & silk-screening |
Dimensions
Height: 186.5 mm (7.34”) fan less solution 143 mm (5.63”) fan solution
Depth: 390mm (15.35”) excluding connectors 413mm (16.26”) including connectors
Width: 250mm (9.84”)
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CPU features:
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CPU | |
AMD CPU/GPU | 2 x AMD V1807B, 4x 3.35 GHz (3.75 GHz) with 8GB RAM with integrated SoC (Vega 11 Graphics) (internal GPU) |
GPU | |
NVIDIA GPU | 2 x NVIDIA 1050Ti with 768 CUDA cores (dedicated GPU) |
Ethernet LAN interfaces | |
10/100/1000BASE-TX with Auto MDI/MDIX | 11 ports in 1x D38999 128pin connector |
1000BASE-SX | 8 x 1000BASE-SX optical termini in the gigabit MIL-DTL-38999 (16 channels) fibre connector |
10GBASE-SR | 2 x 10GBASE-SR optical termini in the 10g MIL-DTL-38999 connector (4 channels) fibre connector |
Video output interfaces | |
DVI | 4 ports in 4 x Fischer Minimax 19pin connectors, two for each CPU |
USB interfaces | |
USB 2 | 2 ports for CPU1 and CPU2 in the D38999 128pin connector |
USB 3 | 2 ports for CPU1 and CPU2 in 2 x Fischer Minimax 9pin connectors |
Consoles interfaces | |
RS422 | 1 port Ethernet switch console in the 1x D38999 128pin connector (2 ports are optional if platform has external GNSS and PPS input support) |
RS485 | 4 ports (two for COU1 and two for CPU2) in the 4 x Fischer Minimax 19pin connectors |
Ethernet Switch Technology | |
Standards | IEEE 802.3 for 10Base-T IEEE 802.3u for 100Base-TX and 100Base-FX IEEE 802.3z for 1000Base-X IEEE 802.3x for Flow control IEEE 802.3ad for LACP (Link Aggregation Control Protocol) IEEE 802.1D for STP (Spanning Tree Protocol) IEEE 802.1p for COS (Class of Service) IEEE 802.1Q for VLAN Tagging IEEE 802.1w for RSTP (Rapid Spanning Tree Protocol) IEEE 802.1s for MSTP (Multiple Spanning Tree Protocol) IEEE 802.1X for Authentication IEEE 802.1AB for LLDP (Link Layer Discovery Protocol) |
MAC table | 32768 MAC addresses |
Priority queues | 8 |
Switch properties | Store-and-forward and full wire speed on all ports |
Security Features | Enable/disable ports, MAC based port security Port based network access control (802.1x) VLAN (802.1Q ) to segregate and secure network traffic Radius centralized password management SNMPv3 encrypted authentication and access security |
Network redundancy | STP RSTP MSTP |
Management | HTTP/HTTPS, telnet/SSH, CLI and SNMP v1/v2/v3 |
Built in test | Built in test procedure performed at boot time. Continuous BIT procedure when device is powered. Initiated BIT under control by the user via SNMP or CLI. |
Other protocols | IGMP snooping (up to 1024 multicast filters) Static multicast filter setting Port rate limiting TOS/Diffserv supported Quality of Service (802.1p) for real-time traffic VLAN (802.1Q) with VLAN tagging and MVR Port configuration, status, statistics, monitoring, security |
Data Zeroization Support | |
Data Zeroization | To Erase Non-Volatile Flash Memory and Restore Board to Factor Default Configuration. Available via HTTP and CLI. |
Power | |
Power Consumption | Typical: 150W, Maximum: 200W(TBD) |
Overload Current Protection | Yes |
Reverse Polarity Protection | Yes |
Power input | 28VDC, input range: 18-32VDC, dual power in 1x D38999 connector |
Physical Characteristics | |
Enclosure | Aluminum case |
Dimension (W x D x H) | 250 (W) x 390 (D) x 143(H)mm excluding connectors 9.84" (W) x 15.35" (D) x 5.63" (H) 250 (W) x 413 (D) x 143(H)mm including connectors 9.84" (W) x 16.26" (D) x 5.63" (H) Start at -46°C possible (non-operational) |
Weight (g) | 16kg |
Color | Pearl white, RAL 1013 |
Surface finish | SurTec 650 |
Environmental | |
Temperature | Storage: -46°C .. 71°C Operation: -32°C .. 63°C AECTP 300 (Ed3) Method 302 & 303 - Procedure I & II 3 shocks (-30°C to/from +30°C within one minute) AECTP 300 (Ed3) Method 304 - Procedure I, DEF(AUST)5168 |
Humidity | 95-100% relative humidity at 24⁰C for 21 days AECTP 300 (Ed3) Method 306 - Procedure I, DEF(AUST)5168 |
Salt | Two cycles of 48h with 5% salt concentration AECTP 300 (Ed3) Method 309 |
Dust | Two 6h cycles of dust blow of particles < 150 µm; 1,5m/s to 9m/s AECTP 300 (Ed3) Method 313 - Procedure I |
Altitude | 4570m with 56.8kPa AECTP 300 (Ed3) Method 312 - Procedure I & II |
Shock | 40g 11ms, 3 shocks each axis and direction AECTP 400 (Ed3) 403; ANNEX A403; Table A-1 |
Vibration | Wheeled and Tracked Vehicles AECTP 400 (Ed3) Method 401 - ANNEX A; Procedure III: A1, A2; ANNEX B 401 |
Ingress protection | IP65 |
Conducted RF emission | MIL-STD-461F-CE102 |
Radiated RF emission | MIL-STD-461F-RE102 |
Conducted Susceptibility | MIL-STD-461F-CS101 MIL-STD-461F-CS114 MIL-STD-461F-CS115 MIL-STD-461F-CS116 MIL-STD-461G-CS118 |
Radiated Susceptibility | MIL-STD-461F-RS103 |
Power input | MIL-STD-1275E |