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ETL Systems
ETL Systems NGM-103 Enigma Super Wideband Matrix (Downlink) 32 X 32 With –5db To +5db Variable Gain
Product Code:
NGM-103
Availability:
YES
Weight:
35.00 KGS
Request a quote at Contact@orbitalconnect.com or +1.888.315.9545
NGM-103 Enigma is a distributive (full fan-out) Super Wideband Matrix (500-3150MHz), with a module capacity of 32 inputs x 32 outputs in a 6U 19" rack enclosure. It provides ultra resilience with single input and output cards, and can be part populated and expanded in single increments.
–5dB to +5dB variable gain is provided and settable per output. Minimal impact from failure with hot-swap single input and output RF cards, dual redundant power supplies, CPU’s and fans.
The new super wideband (500-3150 MHz) matrix is used to provide flexibility in the routing of antennas to receivers or modems; to allow remote routing of satellite signals to receivers or modems; and to help optimise the use of receiving capacity. The extended bandwidth of the Enigma Matrix is also suitable for HTS applications.
Now in its 4th generation, the Enigma L-band Matrix has proved to have genuinely high performance with excellent flatness or frequency response, excellent isolation, and linearity - a truly leading edge L-band Router. The Enigma L-band Switch matrix can also be incorporated into an overall automatic redundancy Network Management System to enhance the resilience of the overall earth station equipment.
A variety of impedances and connector types are available.
Key benefits
- Simple 'plug & go' installation
- Expansion of RF Matrix to 512 x 512
- Continuous on-board monitoring and reporting of RF card amplifier status, CPU and PSU status and HMI communications
- Reliability in service with hot-swappable active components
- All settings are retained after a communications/power failure
- Capacitive touchscreen with remote connection via RS232/485 serial and RJ45 Ethernet ports
- Web Browser interface is provided as standard with the Enigma L-band Switch Matrix
- Extended bandwidth suitable for HTS applications
For full technical specifications, please see the product datasheet.
Typical Applications
- Live news & sport traffic
- Satellite communications applications in teleport's and ground stations
- Signal monitoring of satellite traffic
- RF content acquisition for TVRO & IPTV head ends
- Remote controlled unmanned satcoms sites
- Test environment applications such as lab resource testing, net mobility testing & large scale wireless testing
Non-blocking: this means any input can be routed to any output.
Full Fan-out Matrix (or fully distributive or splitting matrix): any input can be routed to any output. One input can be routed to many outputs. Each output can only have one input. Tends to be more RX.
In general, our solid state (L-band) matrices are non-blocking.
The Enigma Matrix has a full capacity of 32 inputs x 32 outputs, but can be supplied part-populated in single input / output increments - such as 15x25 or 32x16. It can then be hot expanded to 32x32. Larger systems can be made using multiple (Enigma) modules with system splitters and / or combiners – such as 32x64 or 32x128 up to a maximum of 512x512.
We also have modules with other capacities - please see;
Victor Matrix - Up to 16 input x 16 output (populated in increments of 4)
Hurricane Matrix - up to 64 inputs x 64 outputs (populated by increments of 8)
Vortex Matrix - Up to 64 inputs x 64 outputs (populated in increments of 16)
Vulcan Matrix - Up to 128 inputs x 128 outputs (populated in increments of 8)
| System Control | |||||||||
| Local Control | Via front panel HMI capacitive touchscreen | ||||||||
| Remote Control | Serial (RS232 or RS422/485) and Ethernet port via RJ45 10Base T/100 BaseTx. TCP/IP, SNMPv3, HTTPS & Web browser interface. | ||||||||
| Alarms | Dry contact (D-type) & Ethernet (RJ45) for PSU & Amp. status | ||||||||
| RF Parameters | |||||||||||
| Capacity | 32 inputs x 32 outputs, fully populated | ||||||||||
| Routing | Distributive, non-blocking | Any input can be connected to any number of outputs | |||||||||
| Frequency Range | 500-3150 MHz | ||||||||||
| Gain | 0±1 dB Typical, mean across band | ||||||||||
| Gain Control | -5 to +5 in 0.5 dB steps | Settable at each output | |||||||||
| RF Connectors | 50Ω SMA | 50Ω BNC | 75Ω BNC | 75Ω F-type |
|||||||
| All ports DC blocked | |||||||||||
| Gain Flatness | 850-2450 MHz | ±1.25 dB | ±1.25 dB | ±1.5 dB | ±1.5 dB | ||||||
| 500-3150 MHz | ±2.25 dB | ±2.25 dB | ±2.5 dB | ±2.5 dB | |||||||
| Any 36MHz | < 2150 MHz | ±0.25 dB | ±0.25 dB | ±0.5 dB | ±0.5 dB | ||||||
| > 2150 MHz | ±0.5 dB | ±0.5 dB | ±0.75 dB | ±0.75 dB | |||||||
| Input Return Loss | Typical | 20 dB | 20 dB | 16 dB | 16 dB | ||||||
| Minimum | 16 dB | 16 dB | 10 dB | 10 dB | |||||||
| Output Return Loss | Typical | 18 dB | 18 dB | 16 dB | 16 dB | ||||||
| Minimum | 14 dB | 14 dB | 10 dB | 10 dB | |||||||
| Isolation Minimum between any 2 ports | I/P - O/P | 60 dB <2450 MHz | |||||||||
| 55 dB >2450 MHz | |||||||||||
| I/P - I/P | 75 dB | ||||||||||
| O/P - O/P | 75 dB | ||||||||||
| 1dB Gain Compression Point | <2450 MHz | +8 dBm output power | |||||||||
| >2450 MHz | +5 dBm output power | ||||||||||
| Noise Figure | Typical | 16 dB | Typical, 1 input routed to 1 output | ||||||||
| Maximum | 18 dB | ||||||||||
| OIP3 3rd order intercept point |
<2450 MHz | Typical 22 dBm Minimum 20 dBm | |||||||||
| >2450 MHz | Typical 18dBm Minimum 15 dBm | ||||||||||
| OIP2 2nd order intercept point |
Typical | 32 dBm | |||||||||
| Minimum | 30 dBm | ||||||||||
| Group Delay | ≤ 1.2 ns across operational bandwidth | ||||||||||
| Switching Time | < 50ms from receipt of a command to implementation of path change | ||||||||||
| Input RF Power | + 20 dBm | Absolute maximum | |||||||||
| Power | |||||||||
| PSU Power | 85-264Vac 50-60Hz | Fused 2A | |||||||
| AC Consumption | 150W | Max. consumption at steady state | |||||||
| PSU | Dual redundant & alarmed | Diode OR. Hot swappable | |||||||
| Hot-swap PSU | Yes | ||||||||
| CPU Redundancy | Dual redundant | Hot swappable | |||||||
| Input Cards | Hot swap | Failure effects only one input port. | |||||||
| Output Cards | Hot swap | Failure effects only one output port. | |||||||
| MTTR | 20 minutes. 15 minutes to retrieve spare part and 5 minutes to replace. | Applies to LRUs only and assumed in house stock. | |||||||
| MTBF | Chassis | 271 444 | Chassis excludes HMI & RF cards | ||||||
| Switch card | 270 297 | ||||||||
| Divider card | 317 227 | ||||||||
| Environmental | |||||||||
| Operating temperature | 0 to 45˚C | ||||||||
| Storage temperature | -20˚C to +75˚C | ||||||||
| Location | Indoor use only | ||||||||
| Humidity | 20 to 90% non-condensing | ||||||||
| Altitude (operational) | 10,000 feet AMSL (Above Mean Sea Level) | ||||||||
| Altitude (storage) | 30,000 feet AMSL (Above Mean Sea Level) | ||||||||
| Physical | ||||||||||
| Dimensions | 6U high x 450mm deep x 19” wide | |||||||||
| Weight | 35 kg, fully populated | |||||||||
| Colour | RAL9003—White (Semi-Matte) | |||||||||
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Details
NGM-103 Enigma is a distributive (full fan-out) Super Wideband Matrix (500-3150MHz), with a module capacity of 32 inputs x 32 outputs in a 6U 19" rack enclosure. It provides ultra resilience with single input and output cards, and can be part populated and expanded in single increments.
–5dB to +5dB variable gain is provided and settable per output. Minimal impact from failure with hot-swap single input and output RF cards, dual redundant power supplies, CPU’s and fans.
The new super wideband (500-3150 MHz) matrix is used to provide flexibility in the routing of antennas to receivers or modems; to allow remote routing of satellite signals to receivers or modems; and to help optimise the use of receiving capacity. The extended bandwidth of the Enigma Matrix is also suitable for HTS applications.
Now in its 4th generation, the Enigma L-band Matrix has proved to have genuinely high performance with excellent flatness or frequency response, excellent isolation, and linearity - a truly leading edge L-band Router. The Enigma L-band Switch matrix can also be incorporated into an overall automatic redundancy Network Management System to enhance the resilience of the overall earth station equipment.
A variety of impedances and connector types are available.
Key benefits
- Simple 'plug & go' installation
- Expansion of RF Matrix to 512 x 512
- Continuous on-board monitoring and reporting of RF card amplifier status, CPU and PSU status and HMI communications
- Reliability in service with hot-swappable active components
- All settings are retained after a communications/power failure
- Capacitive touchscreen with remote connection via RS232/485 serial and RJ45 Ethernet ports
- Web Browser interface is provided as standard with the Enigma L-band Switch Matrix
- Extended bandwidth suitable for HTS applications
For full technical specifications, please see the product datasheet.
Typical Applications
- Live news & sport traffic
- Satellite communications applications in teleport's and ground stations
- Signal monitoring of satellite traffic
- RF content acquisition for TVRO & IPTV head ends
- Remote controlled unmanned satcoms sites
- Test environment applications such as lab resource testing, net mobility testing & large scale wireless testing
Non-blocking: this means any input can be routed to any output.
Full Fan-out Matrix (or fully distributive or splitting matrix): any input can be routed to any output. One input can be routed to many outputs. Each output can only have one input. Tends to be more RX.
In general, our solid state (L-band) matrices are non-blocking.
The Enigma Matrix has a full capacity of 32 inputs x 32 outputs, but can be supplied part-populated in single input / output increments - such as 15x25 or 32x16. It can then be hot expanded to 32x32. Larger systems can be made using multiple (Enigma) modules with system splitters and / or combiners – such as 32x64 or 32x128 up to a maximum of 512x512.
We also have modules with other capacities - please see;
Victor Matrix - Up to 16 input x 16 output (populated in increments of 4)
Hurricane Matrix - up to 64 inputs x 64 outputs (populated by increments of 8)
Vortex Matrix - Up to 64 inputs x 64 outputs (populated in increments of 16)
Vulcan Matrix - Up to 128 inputs x 128 outputs (populated in increments of 8)
| System Control | |||||||||
| Local Control | Via front panel HMI capacitive touchscreen | ||||||||
| Remote Control | Serial (RS232 or RS422/485) and Ethernet port via RJ45 10Base T/100 BaseTx. TCP/IP, SNMPv3, HTTPS & Web browser interface. | ||||||||
| Alarms | Dry contact (D-type) & Ethernet (RJ45) for PSU & Amp. status | ||||||||
| RF Parameters | |||||||||||
| Capacity | 32 inputs x 32 outputs, fully populated | ||||||||||
| Routing | Distributive, non-blocking | Any input can be connected to any number of outputs | |||||||||
| Frequency Range | 500-3150 MHz | ||||||||||
| Gain | 0±1 dB Typical, mean across band | ||||||||||
| Gain Control | -5 to +5 in 0.5 dB steps | Settable at each output | |||||||||
| RF Connectors | 50Ω SMA | 50Ω BNC | 75Ω BNC | 75Ω F-type |
|||||||
| All ports DC blocked | |||||||||||
| Gain Flatness | 850-2450 MHz | ±1.25 dB | ±1.25 dB | ±1.5 dB | ±1.5 dB | ||||||
| 500-3150 MHz | ±2.25 dB | ±2.25 dB | ±2.5 dB | ±2.5 dB | |||||||
| Any 36MHz | < 2150 MHz | ±0.25 dB | ±0.25 dB | ±0.5 dB | ±0.5 dB | ||||||
| > 2150 MHz | ±0.5 dB | ±0.5 dB | ±0.75 dB | ±0.75 dB | |||||||
| Input Return Loss | Typical | 20 dB | 20 dB | 16 dB | 16 dB | ||||||
| Minimum | 16 dB | 16 dB | 10 dB | 10 dB | |||||||
| Output Return Loss | Typical | 18 dB | 18 dB | 16 dB | 16 dB | ||||||
| Minimum | 14 dB | 14 dB | 10 dB | 10 dB | |||||||
| Isolation Minimum between any 2 ports | I/P - O/P | 60 dB <2450 MHz | |||||||||
| 55 dB >2450 MHz | |||||||||||
| I/P - I/P | 75 dB | ||||||||||
| O/P - O/P | 75 dB | ||||||||||
| 1dB Gain Compression Point | <2450 MHz | +8 dBm output power | |||||||||
| >2450 MHz | +5 dBm output power | ||||||||||
| Noise Figure | Typical | 16 dB | Typical, 1 input routed to 1 output | ||||||||
| Maximum | 18 dB | ||||||||||
| OIP3 3rd order intercept point |
<2450 MHz | Typical 22 dBm Minimum 20 dBm | |||||||||
| >2450 MHz | Typical 18dBm Minimum 15 dBm | ||||||||||
| OIP2 2nd order intercept point |
Typical | 32 dBm | |||||||||
| Minimum | 30 dBm | ||||||||||
| Group Delay | ≤ 1.2 ns across operational bandwidth | ||||||||||
| Switching Time | < 50ms from receipt of a command to implementation of path change | ||||||||||
| Input RF Power | + 20 dBm | Absolute maximum | |||||||||
| Power | |||||||||
| PSU Power | 85-264Vac 50-60Hz | Fused 2A | |||||||
| AC Consumption | 150W | Max. consumption at steady state | |||||||
| PSU | Dual redundant & alarmed | Diode OR. Hot swappable | |||||||
| Hot-swap PSU | Yes | ||||||||
| CPU Redundancy | Dual redundant | Hot swappable | |||||||
| Input Cards | Hot swap | Failure effects only one input port. | |||||||
| Output Cards | Hot swap | Failure effects only one output port. | |||||||
| MTTR | 20 minutes. 15 minutes to retrieve spare part and 5 minutes to replace. | Applies to LRUs only and assumed in house stock. | |||||||
| MTBF | Chassis | 271 444 | Chassis excludes HMI & RF cards | ||||||
| Switch card | 270 297 | ||||||||
| Divider card | 317 227 | ||||||||
| Environmental | |||||||||
| Operating temperature | 0 to 45˚C | ||||||||
| Storage temperature | -20˚C to +75˚C | ||||||||
| Location | Indoor use only | ||||||||
| Humidity | 20 to 90% non-condensing | ||||||||
| Altitude (operational) | 10,000 feet AMSL (Above Mean Sea Level) | ||||||||
| Altitude (storage) | 30,000 feet AMSL (Above Mean Sea Level) | ||||||||
| Physical | ||||||||||
| Dimensions | 6U high x 450mm deep x 19” wide | |||||||||
| Weight | 35 kg, fully populated | |||||||||
| Colour | RAL9003—White (Semi-Matte) | |||||||||
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