Three enclosures are commonly used for the NGC installations: the 6200, 6700
and the 6800 optional equipment enclosure.
The 6200 installation will be for AC to DC or DC sites requiring communication
equipment. There is no battery-backed option in this installation.
The 6700 enclosure supports AC to DC or DC sites requiring communication
equipment. There is no battery-backed option in this installation.
The 6800 enclosure supports battery-backed operation for the NGC via solar
power or a UPS system, AC to DC power or DC to DC power and communication
equipment.
Following local codes for installation, these units would normally be located in a
division 2 or general purpose area. The units may be mounted on a 2” pipe or
mounted on a flat surface, such as a wall.
2.18.1 6200 Optional Equipment Enclosure
The 6200 can accommodate the following equipment:
• 110/240 Volt to 12 VDC
• 110/240 Volt to 24 VDC
2.18.2 6700 Optional Equipment Enclosure
The 6700 enclosure can accommodate the following:
• Communication kit
• 120/240 VAC to 12 VDC power supply
• 24/12 VDC to DC converter
2.18.3 6800 Optional Equipment Enclosure
The 6800 enclosure can accommodate the following:
• Communication kit
• Solar Panel Power Option
2 ea. 110 Ah Batteries
• 115/230 VAC UPS Power Option (24 VDC Systems Only)
2 ea. 40–110 Ah Batteries
2.19 Power Supply Options (Optional Equipment)
Power supply options available for the NGC8206 are as follows:
• 110/240 VAC to 12/24 VDC
• 115/230 VAC to 12 VDC (explosion-proof)
• 24 VDC to 12 VDC converter (not applicable for systems with auxiliary
heater)
• 12/24 VDC solar panel power pack
• 115/230 VAC with UPS to 24 VDC
2.19.1 12/24 VDC Solar Panel Power Pack
The solar panel power option employs a solar controller to maintain voltage on two
110 Ah batteries:
• 14-day autonomy with standard 110 Ah batteries without optional heater
• 5-day autonomy with standard 110 Ah batteries with optional heater
Space is provided for communication equipment and fusing for auxiliary
equipment. Auxiliary fusing supports a maximum of two 1 amp loads. The system
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