データセンターラック配線サイズサービスガイド
// サーバーラック分岐回路、PDU、UPSフィーダ、遠隔IT室配線を施工前に確認する実務フローです。 //
データセンターラックは盤表では単純に見えますが、IT負荷は連続運転で、A/B二重給電を使い、電源から80-200 ft離れることがあります。AWGまたはIECサイズを選ぶ前に、ラックkW、電圧、相数、PDUプラグ定格、冗長方式、端子温度、電圧降下目標を確認します。
Continuous load
Most server loads run longer than 3 hours, so NEC 210.19(A)(1) and 215.2(A)(1) commonly push conductor ampacity to 125% of the expected load.
Voltage drop target
Use 3% branch-circuit and 5% feeder-plus-branch as common NEC design targets, then tighten them if the UPS or owner spec requires it.
IEC cross-check
IEC 60364-5-52 checks current-carrying capacity, installation method, grouping, ambient temperature, and Clause 525 voltage drop.
選定フロー
1. Define rack load
Record rack kW, volts, phase, power factor if known, PDU plug rating, A/B feed split, and expected growth such as 6 kW today with 8 kW reserved.
2. Apply continuous-load math
For loads that run 3 hours or more, check 125% conductor sizing under NEC 210.19(A)(1) for branch circuits or 215.2(A)(1) for feeders.
3. Choose conductor basis
Use NEC Table 310.16 with terminal temperature limits and adjustment factors, or IEC 60364-5-52 tables for the cable installation method.
4. Check voltage drop
Enter one-way distance, material, current, voltage, and phase in the calculator. Long IT-room runs often upsize for voltage drop before ampacity fails.
5. Coordinate the system
Verify breaker, PDU, receptacle, UPS output, neutral loading, equipment grounding conductor, raceway fill, and any NEC 645 room requirements with the AHJ.
計算例
208V 30A rack PDU
24A continuous IT load on a 30A 208V single-phase PDU, 110 ft one-way copper run, 75°C terminals.
24A x 125% = 30A conductor load. #10 AWG copper may pass ampacity, but the voltage-drop calculator may point to #8 AWG when the run must stay near 3%.
208Y/120V row feeder
96A calculated continuous load feeding several racks, 150 ft one-way, 3-phase copper feeder from UPS distribution.
96A x 125% = 120A design load. A 1 AWG copper feeder is commonly reviewed at 75°C, then voltage drop, neutral loading, and equipment grounding conductor size are checked.
400/230V IEC rack branch
16A continuous rack branch circuit, 35 m one-way, copper multicore cable in tray with grouped IT circuits.
2.5 mm2 may pass in some IEC methods, but 4 mm2 is often selected when grouping and IEC 60364-5-52 Clause 525 voltage drop are both considered.
ラック電源比較
| Load | Sizing basis | Likely conductor check | Voltage-drop risk | Code note |
|---|---|---|---|---|
| 30A rack PDU branch | 24A continuous at 208V | #10 AWG Cu minimum check, #8 AWG on long runs | High beyond 100 ft | NEC 210.19(A)(1), 310.16 |
| 60A high-density rack | 48A continuous A-feed or B-feed | #6 AWG Cu at 75°C commonly reviewed | Medium to high | Continuous load plus PDU listing |
| 100A UPS panel feeder | 80A continuous diversified IT load | #3 or #2 AWG Cu depending temperature and derating | High on remote rooms | NEC 215.2(A)(1), 220 |
| 208Y/120V shared neutral | Nonlinear IT loads with line-neutral circuits | Neutral may need full-size or harmonic review | Medium | NEC 215.2, 310.15(E) context |
| 400/230V IEC branch | 16A or 32A rack circuit | 2.5-6 mm2 depending method and drop | Medium on 30-50 m runs | IEC 60364-5-52 and IEC 60228 |
コード確認点
これらを設計チェックポイントとして使い、採用版、オーナー仕様、地域修正をAHJに確認してください。
NEC 210.19(A)(1)
Branch-circuit conductors must have ampacity not less than the load, with continuous loads commonly checked at 125%.
NEC 215.2(A)(1)
Feeders for UPS panels or remote IT rooms are checked for load, continuous-duty rules, and practical voltage drop.
NEC 645
Information technology equipment room rules may apply only when the room and installation meet the article conditions and the AHJ accepts that classification.
NEC 310 and 250
Check ampacity, adjustment/correction factors, terminal temperature, equipment grounding conductors, and raceway fill together.
IEC 60364-5-52
Use installation method, ambient temperature, grouping, current-carrying capacity, and Clause 525 voltage-drop guidance.
IEC 60228
Use conductor class and nominal cross-sectional area when converting between AWG and metric cable sizes.
現場チェックリスト
- Confirm whether rack kW is actual load, nameplate, or reserved capacity.
- Document A/B redundancy: each feed may need to carry the full rack during maintenance.
- Treat IT loads as continuous unless the design basis proves otherwise.
- Enter one-way distance in the calculator and keep branch plus feeder drop within the project target.
- Check receptacle, PDU plug, breaker, UPS output, and conductor temperature ratings together.
- Review shared neutrals and harmonic loading for line-neutral IT circuits.
- Keep the calculation with the panel schedule, rack elevation, and commissioning record.
データセンターラック配線サイズFAQ
What wire size is used for a 30A server rack PDU?
For a 24A continuous load, NEC math checks 24A x 125% = 30A. #10 AWG copper is commonly reviewed for ampacity, but #8 AWG may be needed on a 100-120 ft run to control voltage drop.
Do server rack loads count as continuous loads?
Usually yes. If the IT load can run for 3 hours or more, check NEC 210.19(A)(1) or 215.2(A)(1) at 125% unless local interpretation says otherwise.
How do I size A/B redundant rack feeds?
Do not split the critical load blindly. If either A or B feed can carry the full rack during maintenance, size each feed for the required continuous load, such as 6 kW at 208V instead of half that number.
What voltage drop should a data center branch circuit allow?
A common NEC design target is 3% for branch circuits and 5% total feeder plus branch, but UPS and owner specifications may require tighter values such as 2%.
Does NEC Article 645 always apply to server rooms?
No. NEC 645 applies only when the installation meets its conditions for information technology equipment rooms and the AHJ accepts the design approach.
How does IEC rack cable sizing differ from AWG?
IEC projects use mm2 conductor areas, installation methods, grouping factors, ambient correction, and IEC 60364-5-52 voltage-drop checks instead of AWG table selection alone.