How Many Amps Does a 0.167 HP single-phase Motor Draw at 220V?
0.167 HP single-phase motor at 220V draws 0.7838 amps. Single-phase motors are the standard for residential applications and small equipment. The amp draw depends on voltage, motor efficiency, and power factor.
Typical 0.167 HP motor applications: small pool pumps, light-commercial fans, booster pumps.
Use this citation when referencing this page.
Use the running amps for metering and energy calculations. For branch-circuit sizing, AC motors use the NEC Table 430.248 / 430.250 full-load current under NEC 430.6(A)(1); DC motors use the motor nameplate full-load current under NEC 430.6(A)(3), with Table 430.247 as the reference. Three-phase current is shown per line on a balanced circuit.
Formula (single-phase)
I(A) = (HP × 746) ÷ (V × Eff × PF)
- Convert HP to watts: 0.167 × 746 = 124.58W
- Denominator: 220 × 0.85 × 0.85 = 158.95
- Result: 124.58 ÷ 158.95 = 0.7838 amps
NEC Reference Values
This section lists the Code reference numbers a motor branch circuit is sized from. Final conductor, breaker, disconnect, and overload selection is an install decision a licensed electrician makes against the motor nameplate, the actual install conditions, and the applicable NEC articles, not a decision a conversion page can make for you.
NEC Sizing Base: NEC Table 430.248 FLC
Per NEC 430.6(A)(1), motor branch-circuit conductors, switches, and overcurrent protection are sized from the values in Table 430.248 (single-phase) or Table 430.250 (three-phase), not from the motor nameplate and not from a calculated full-load amps. For a 0.167 HP single-phase motor at 220V, the table value is 2.2 A (the 115V column covers 110-120V systems under 430.6(A)(1)).
The 0.7838 A shown in the hero is the calculated running current at 85% efficiency and PF 0.85. This is a conversion from the nameplate horsepower under those assumptions, not a measured value; a real meter reading depends on the motor's actual efficiency, loading, temperature, and design. Use this figure for energy and metering estimates, and use 2.2 A as the reference FLC when an electrician walks through NEC 430 against the nameplate.
NEC 430.22 Conductor Rule (reference formula)
NEC 430.22 requires motor branch-circuit conductor ampacity of at least 125% of the Code sizing FLC. As a reference calculation against the NEC Table 430.248 value: 2.2 × 1.25 = 2.75 A. The selected conductor is taken from NEC Table 310.16 at the applicable termination temperature column, with ambient, bundling, and cable-type adjustments applied by the installer. Motor branch-circuit conductors are exempt from the 240.4(D) small-conductor rule via 240.4(G).
NEC 430.52 Overcurrent Protection (code caps)
NEC Table 430.52(C)(1) gives the maximum rating for motor short-circuit and ground-fault protection as a percentage of the Code sizing FLC. The percentage depends on the device type:
| Device Type | Maximum % of Table FLC (430.52(C)(1)) |
|---|---|
| Non-time-delay fuse | 300% |
| Dual-element (time-delay) fuse | 175% |
| Inverse-time circuit breaker | 250% |
| Instantaneous-trip circuit breaker | 800% |
These percentages are maximum caps, not install picks. A real circuit applies the percentage against the Code sizing FLC for the specific device type, rounds up to a standard size per 430.52(C)(1)(a), and is verified against the motor nameplate and the install conditions by the installer. The elevated percentages exist so short-circuit protection does not nuisance-trip on locked-rotor startup inrush.
Locked Rotor (Startup) Current
During the first 2-5 seconds of startup, a squirrel-cage induction motor typically draws 5 to 7 times the NEC Table 430.248 FLC of 2.2 A (roughly 11 to 15.4 A). This is why the 430.52(C)(1) percentages above are so much higher than running current: the short-circuit/ground-fault protective device has to ride through locked-rotor inrush without tripping. Actual LRA is set by the motor's NEMA code letter on the nameplate and should be checked there for a real install.
| Current | Amps | Duration |
|---|---|---|
| Calculated running current (meter) | 0.7838 A | Continuous at full load |
| NEC Table 430.248 FLC (Code reference) | 2.2 A | Sizing base, not metered |
| Locked rotor (typical, 5-7×) | 11-15.4 A | 2-5 seconds |
Operating Cost
Motor mechanical output is 124.58 W (0.167 HP × 746). Electrical input at the terminals is higher because no motor is 100% efficient: 124.58 ÷ 0.85 = 146.57 W. At $0.17/kWh, running cost is $0.02/hour or $5.98/month at 8 hours/day. Full breakdown at 146.57 W.
Amps by Motor Efficiency (single-phase)
Motor efficiency directly affects amp draw. A more efficient motor draws less current for the same HP output. Values below are the calculated single-phase running current at 220V and PF 0.85:
| Efficiency | Amps at 220V | Watts Consumed | Waste Heat |
|---|---|---|---|
| 75% | 0.8883 A | 166.11 W | 41.53 W |
| 80% | 0.8328 A | 155.73 W | 31.15 W |
| 85% | 0.7838 A | 146.57 W | 21.99 W |
| 90% | 0.7402 A | 138.42 W | 13.84 W |
| 95% | 0.7013 A | 131.14 W | 6.56 W |
Other HP Values at 220V (single-phase)
Running current is the calculated single-phase draw at 85% efficiency and 0.85 PF (a conversion from HP under those assumptions, not a measured value). NEC Table FLC is the value from NEC Table 430.248 used for branch-circuit conductor and OCP sizing under NEC 430.6(A)(1). LRA is estimated at 5-7× the NEC table FLC; rows outside the table show n/a because there is no code-authoritative LRA basis for that HP/voltage/phase combination. Row links open each result page in single-phase mode.
| HP | Running Amps (calculated) | NEC Table 430.248 FLC | LRA Estimate (5-7× FLC) |
|---|---|---|---|
| 1/8 HP | 0.5867 A | off-table | n/a |
| 1/6 HP | 0.7824 A | 2.2 A | 11-15.4 A |
| 1/4 HP | 1.17 A | 2.9 A | 14.5-20.3 A |
| 1/3 HP | 1.56 A | 3.6 A | 18-25.2 A |
| 1/2 HP | 2.35 A | 4.9 A | 24.5-34.3 A |
| 3/4 HP | 3.52 A | 6.9 A | 34.5-48.3 A |
| 1 HP | 4.69 A | 8 A | 40-56 A |
| 1.5 HP | 7.04 A | 10 A | 50-70 A |
| 2 HP | 9.39 A | 12 A | 60-84 A |
| 3 HP | 14.08 A | 17 A | 85-119 A |
| 5 HP | 23.47 A | 28 A | 140-196 A |
| 7.5 HP | 35.2 A | 40 A | 200-280 A |
| 10 HP | 46.93 A | 50 A | 250-350 A |
| 15 HP | 70.4 A | off-table | n/a |
| 20 HP | 93.87 A | off-table | n/a |
| 25 HP | 117.33 A | off-table | n/a |
| 30 HP | 140.8 A | off-table | n/a |
| 40 HP | 187.73 A | off-table | n/a |
| 50 HP | 234.66 A | off-table | n/a |
| 75 HP | 352 A | off-table | n/a |