Lamp using solid state source

What is claimed is: 1. A light engine, comprising: a solid state source comprising a plurality of light emitting diodes (LEDs); a lighting industry standard lamp base, including connectors arranged in a standard three-way lamp configuration, for providing electricity from a three-way lamp socket; a housing mechanically connected to the lamp base; and circuitry in the housing connected to receive electricity from the connectors of the lamp base as standard three-way control setting inputs and to drive the LEDs, wherein the circuitry is configured to detect the standard three-way control setting inputs and to adjust the drive to the LEDs to selectively produce a plurality of different outputs responsive to the three-way control setting inputs. 2. The light engine of claim 1 , wherein the circuitry is configured to convert alternating current electricity provided through the lamp base to direct current electricity and is connected to the LEDs to drive the LEDs with the direct current electricity. 3. The light engine of claim 1 , further comprising: a heat sink; and a thermal interface for transfer of heat from the LEDs to the heat sink. 4. The light engine of claim 3 , wherein at least the thermal interface is within the housing. 5. The light engine of claim 1 , wherein the circuitry comprises: logic to recognize the switch states of the three-way control setting inputs; and a driver responsive to recognition of switch state of the three-way control setting inputs by the logic to control the current applied to drive the LEDs to adjust output of the LEDs depending on the recognized switch state. 6. The light engine of claim 5 , wherein the logic and/or the driver are configured to adjust the drive to the LEDs to selectively produce different output levels corresponding to the three-way control setting inputs. 7. The light engine of claim 5 , wherein the LEDs are configured to form: a first string comprising a first number of one or more LEDs driven in common by the circuitry; and a second string comprising a second number of LEDs larger than the first number driven in common by the circuitry. 8. The light engine of claim 7 , wherein the logic and/or driver are configured to adjust the drive to the first and second strings of LEDs to selectively produce different output levels corresponding to the three-way control setting inputs. 9. The light engine of claim 1 , wherein: the LEDs are configured to form: a first string comprising a first number of one or more LEDs driven in common by the circuitry; and a second string comprising a second number of LEDs larger than the first number driven in common by the circuitry; the circuitry comprises: logic to recognize the switch states of the three-way control setting inputs; and a first driver and a second driver responsive to recognition of switch state of the three-way control setting inputs by the logic to control the current applied to drive the first and second strings of LEDs to adjust output of the first and second strings of LEDs depending on the recognized switch state; and the logic and/or drivers are configured to adjust the drive to the first and second strings of LEDs to selectively produce different output levels corresponding to the three-way control setting inputs. 10. The light engine of claim 1 , wherein: the LEDs are connected together with each other to form a single commonly driven solid state light source; the circuitry comprises: logic to recognize the switch states of the three-way control setting inputs; and a driver responsive to recognition of switch state of the three-way control setting inputs by the logic to control the current applied to drive the LEDs to adjust output of the LEDs depending on the recognized switch state; and the logic and/or drivers are configured to commonly drive the LEDs of the solid state light source together as a group to selectively produce different output levels corresponding to the three-way control setting inputs. 11. The light engine of claim 1 , wherein: the solid state source is configured to cause a visible light output via a bulb; and the housing is configured to support the bulb in a position to receive electromagnetic energy from the solid state source. 12. A light engine, comprising: light emitting diodes (LEDs) configured to form a solid state light source; a heat sink; a thermal interface for transfer of heat from the LEDs to the heat sink; a lighting industry standard lamp base for providing electricity from a lamp socket, the lamp base including connectors arranged in a standard three-way lamp configuration, for providing electricity from a three-way lamp socket; and circuitry, housed as part of the light engine and connected to receive electricity from the lamp base, configured to detect the standard three-way control setting inputs and to adjust the drive to the LEDs to selectively produce a plurality of different output levels responsive to the three-way control setting inputs. 13. The light engine of claim 12 , wherein the circuitry is configured to convert alternating current electricity provided through the lamp base to direct current electricity and is connected to drive the LEDs with the direct current electricity. 14. The light engine of claim 12 , wherein the circuitry comprises: logic to recognize the switch states of the three-way control setting inputs; and a driver responsive to recognition of switch state of the three-way control setting inputs by the logic to control current applied to drive the LEDs to adjust output level of the LEDs depending on the recognized switch state. 15. The light engine of claim 14 , wherein the logic and/or the driver are configured to adjust the drive to the LEDs to selectively produce three different output levels corresponding to the three-way control setting inputs. 16. The light engine of claim 14 , wherein the LEDs are configured to form: a first string comprising a first number of one or more LEDs driven in common by the circuitry; and a second string comprising a second number of LEDs larger than the first number driven in common by the circuitry. 17. The light engine of claim 16 , wherein the logic and/or driver are configured to adjust the drive to the first and second strings of LEDs to selectively produce different output levels corresponding to the three-way control setting inputs. 18. The light engine of claim 12 , wherein: the LEDs are configured to form: a first string comprising a first number of one or more LEDs driven in common by the circuitry; and a second string comprising a second number of LEDs larger than the first number driven in common by the circuitry; the circuitry comprises: logic to recognize the switch states of the three-way control setting inputs; and a first driver and a second driver responsive to recognition of switch state of the three-way control setting inputs by the logic to control the current applied to drive the first and second strings of LEDs to adjust output of the first and second strings of LEDs depending on the recognized switch state; and the logic and/or drivers are configured to adjust the drive to the first and second strings of LEDs to selectively produce different output levels corresponding to the three-way control setting inputs. 19. The light engine of claim 12 , wherein: the LEDs are connected together with each other to form a single commonly driven solid state light source; the circuitry comprises: logic to recognize the switch states of the three-way