Generator
| Name | Manufacturer | EN Capacity | EN Recharge | Supply Recovery | Post-Recovery EN Supply | Energy Firearm Spec. | Weight | EN Output | Description | Image |
|---|---|---|---|---|---|---|---|---|---|---|
| VP-20D | Arquebus | 3720 | 714 | 384 | 1400 | 108 | 11030 | 4430 | Circulating-current generator developed by Arquebus. Designed with a focus on EN capacity and output to support Arquebus energy weapons, it supplies more raw power than any other corporate product on the market. |
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| VP-20C | Arquebus | 2870 | 980 | 454 | 1230 | 100 | 5320 | 3670 | Circulating-current generator developed by Arquebus. The design goal for this model was to create a generator with no drawbacks, resulting in a product that provides stable performance in any AC assembly. |
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| VP-20S | Arquebus | 2620 | 892 | 434 | 1200 | 94 | 3800 | 3200 | Circulating-current generator developed by Arquebus. Tailored to lightweight ACs, such as those built by Schneider, efforts were made to keep its weight modest while providing capable output for its size. |
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| VE-20A | Arquebus ADD | 2570 | 787 | 416 | 600 | 120 | 3590 | 3120 | Circulating-current generator designed by Arquebus ADD. Engineered to support high-spec energy weapon prototypes, it maximises EN output at the expense of sacrificing performance in other regards. |
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| VE-20C | Arquebus ADD | 3690 | 555 | 377 | 720 | 128 | 10130 | 4090 | Circulating-current generator developed by Arquebus ADD. Features improved EN capacity and output while retaining a focus on energy weapon stabilization. However, it suffers from a heavy weight burden and recharging difficulties. |
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| VE-20B | Arquebus ADD | 3300 | 763 | 392 | 800 | 150 | 5860 | 2890 | Circulating-current generator designed by Arquebus ADD. Engineered to maximize energy weapon specialization, this model even sacrifices EN output to a degree, positioning its performance somewhere close to a concept model. |
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| AG-E-013 YABA | BAWS | 3060 | 1086 | 555 | 1000 | 95 | 5080 | 3000 | Internal combustion generator developed by BAWS for modern ACs. A balanced model capable of withstanding the demands of modern combat, its development was aimed at narrowing Rubicon's post-closure technological gap. |
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| AG-J-098 JOSO | BAWS | 2300 | 769 | 500 | 400 | 72 | 3420 | 2600 | Internal combustion generator developed by BAWS for an old-generation AC. Performance is not dissimilar to generic labor MT models, making it an unreliable choice for combat use in a modern AC build. |
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| AG-T-005 HOKUSHI | BAWS | 3420 | 1052 | 370 | 850 | 90 | 7080 | 3810 | BAWS internal combustion generator developed in tandem with Elcano. Improved output allows for use of high-burden parts, but supply recovery performance leaves much to be desired, calling for a degree of EN management finesse. |
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| DF-GN-08 SAN-TAI | Dafeng Core Industries | 4420 | 1020 | 526 | 620 | 88 | 10060 | 3210 | Internal combustion generator developed by Dafeng Core Industries. This model was designed for use with the corporation's independently-manufactured heavyweight ACs, and features outstanding EN capacity. |
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| DF-GN-06 MING-TANG | Dafeng Core Industries | 3140 | 1449 | 666 | 440 | 76 | 6320 | 3160 | Internal combustion generator developed by Dafeng Core Industries. A joint development with Balam, this model focuses on ensuring good EN capacity and recharging. |
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| DF-GN-02 LING-TAI | Dafeng Core Industries | 2240 | 2000 | 833 | 280 | 61 | 3860 | 2340 | Internal combustion generator developed by Dafeng Core Industries. Commissioned by Balam, the specifications for this model demanded lightweight construction matched with excellent EN recharge capabilities. |
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| IB-C03G: NGI 000 | Rubicon Research Institute | 4400 | 250 | 312 | 3100 | 102 | 8950 | 4340 | Prototype Coral-based internal combustion generator developed long ago by the Rubicon Research Institute. Optimized for power-hungry Coral weapons, with rapid EN recovery enabled by maximized combustion. |
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| IA-C01G: AORTA | Rubicon Research Institute | 3000 | 238 | 333 | 2000 | 105 | 4330 | 3500 | Coral-based internal combustion generator developed long ago by the Rubicon Research Institute. This model takes advantage of the Coral's biological traits, enabling rapid recovery by pushing combustion to its limit. |
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page revision: 3, last edited: 22 Nov 2025 23:08