Integral half cycle (IHC) control

What is claimed is: 1. A method comprising: controlling power to an electrical device using a phase control that changes a cutoff phase of an alternating current (AC) electrical signal delivered to the electrical device; increasing the power delivered to the electrical device to an operational level using the phase control; and maintaining a level of the power delivered to the electrical device at the operational level using just an integral half cycle control that selectively removes a plurality of half cycles from the AC electrical signal delivered to the electrical device such that a plurality of remaining half cycles in the AC electrical signal delivered to the electrical device have a frequency outside a range of sub-harmonic frequencies, wherein selectively removing the half cycles from the AC signal delivered to the electrical device using just the integral half cycle control such that the frequency of the remaining half cycles in the AC electrical signal is outside the range of sub-harmonic frequencies reduces perceptible flicker caused by the AC electrical signal. 2. The method of claim 1 , wherein the half cycles are removed from the AC electrical signal using just the integral half cycle control such that the remaining half cycles have a frequency less than a lower bound of the range of sub-harmonic frequencies. 3. The method of claim 2 , wherein the half cycles have a time period greater than 72 milliseconds, and wherein for a time cycle of seven of the half cycles, the half cycles are selectively removed from the AC electrical signal such that three half cycles remain in the AC electrical signal. 4. The method of claim 2 , wherein the AC electrical signal has a frequency of 50 Hertz, and a time period of the half cycles is half of a time period of the AC electrical signal, and wherein the half cycles are selectively removed from the AC electrical signal such that three half cycles remain in the AC electrical signal for a time cycle of more than fifty of the half cycles. 5. The method of claim 2 , wherein the lower bound of the range of sub-harmonic frequencies is 6 Hertz. 6. The method of claim 1 , wherein the half cycles are removed from the AC electrical signal such that the remaining half cycles have a frequency greater than an upper bound of the range of sub-harmonic frequencies. 7. The method of claim 6 , wherein the upper bound of the range of sub-harmonic frequencies is 12 Hertz. 8. A non-transitory computer-readable data storage medium storing program code executable by a processor to perform processing comprising: controlling power delivered to an electrical device using a phase control that changes a cutoff phase of an alternating current (AC) electrical signal; increasing the power delivered to the electrical device to an operational level using the phase control; and maintaining a level of the power delivered to the electrical device at the operational level using just an integral half cycle control that selectively removes a plurality of half cycles from the AC electrical signal delivered to the electrical device such that a plurality of remaining half cycles in the AC electrical signal delivered to the electrical device have a frequency outside a range of sub-harmonic frequencies, wherein selectively removing the half cycles from the AC signal delivered to the electrical device using just the integral half cycle control such that the frequency of the remaining half cycles in the AC electrical signal is outside the range of sub-harmonic frequencies reduces perceptible flicker caused by the AC electrical signal. 9. The non-transitory computer-readable data storage medium of claim 8 , wherein the half cycles are removed from the AC electrical signal using just the integral half cycle control such that the remaining half cycles have a frequency less than a lower bound of the range of sub-harmonic frequencies. 10. The non-transitory computer-readable data storage medium of claim 9 , wherein the half cycles have a time period greater than 72 milliseconds, and wherein for a time cycle of seven of the half cycles, the half cycles are selectively removed from the AC electrical signal such that three half cycles remain in the AC electrical signal. 11. The non-transitory computer-readable data storage medium of claim 9 , wherein the AC electrical signal has a frequency of 50 Hertz, and a time period of the half cycles is half of a time period of the AC electrical signal, and wherein the half cycles are selectively removed from the AC electrical signal such that three half cycles remain in the AC electrical signal for a time cycle of more than fifty of the half cycles. 12. The non-transitory computer-readable data storage medium of claim 8 , wherein the half cycles are removed from the AC electrical signal such that the remaining half cycles have a frequency greater than an upper bound of the range of sub-harmonic frequencies. 13. The non-transitory computer-readable data storage medium of claim 8 , wherein a lower bound of the range of the range of sub-harmonic frequencies is 6 Hertz and an upper bound of the range of sub-harmonic frequencies is 12 Hertz. 14. A system comprising: a triac device to control delivered to an electrical device using a phase control that changes cutoff phase of an alternating current (AC) electrical signal, and to increase a power delivered to the electrical device to an operational level using the phase control; and a controller to maintain a level of the power delivered to the electrical device at the operational level using just an integral half cycle control that selectively removes a plurality of half cycles from the AC electrical signal delivered to the electrical device such that a plurality of remaining half cycles in the AC electrical signal delivered to the electrical device have a frequency outside a range of sub-harmonic frequencies, wherein selectively removing the half cycles from the AC electrical signal delivered to the electrical device using just the integral half cycle control such that the frequency of the remaining half cycles in the AC electrical signal is outside the range of sub-harmonic frequencies reduces perceptible flicker caused by the AC electrical signal. 15. The system of claim 14 , wherein the half cycles are removed from the AC electrical signal using just the integral half cycle control such that the remaining half cycles have a frequency less than a lower bound of the range of sub-harmonic frequencies. 16. The system of claim 14 , wherein the half cycles are removed from the AC electrical signal such that the remaining half cycles have a frequency greater than an upper bound of the range of sub-harmonic frequencies. 17. The system of claim 14 , wherein the range of sub-harmonic frequencies has a lower bound of 6 Hertz and an upper bound of 12 Hertz.