Elevator car speed control in a battery powered elevator system

What is claimed is: 1. An elevator system comprising: a battery; a machine having a motor for imparting motion to an elevator car; an inverter for converting DC power from the battery to AC power for the machine in motoring mode and converting AC power from the machine to DC power for the battery in regenerative mode; and a controller to control the inverter, the controller implementing at least one of: detecting an overload at the battery in motoring mode and reducing car speed in response to the overload; detecting an overcharge at the battery in regenerative mode and reducing car speed in response to the overcharge; detecting motor direct current in a motor field weakening mode and reducing car speed in response to the motor direct current; and detecting car load and adjusting car speed in response to car load and car direction of travel. 2. An elevator system comprising: a battery; a machine having a motor for imparting motion to an elevator car; an inverter for converting DC power from the battery to AC power for the machine in motoring mode and converting AC power from the machine to DC power for the battery in regenerative mode; and a controller to control the inverter, the controller implementing at least one of: detecting an overload at the battery in motoring mode and reducing car speed in response to the overload; detecting an overcharge at the battery in regenerative mode and reducing car speed in response to the overcharge; detecting motor direct current in a motor field weakening mode and reducing car speed in response to the motor direct current; and detecting car load and adjusting car speed in response to car load; wherein: detecting the overload at the battery in motoring mode and reducing car speed in response to the overload includes: detecting a voltage at the battery and reducing car speed if the voltage at the battery is below a threshold. 3. An elevator system comprising: a battery; a machine having a motor for imparting motion to an elevator car; an inverter for converting DC power from the battery to AC power for the machine in motoring mode and converting AC power from the machine to DC power for the battery in regenerative mode; and a controller to control the inverter, the controller implementing at least one of: detecting an overload at the battery in motoring mode and reducing car speed in response to the overload; detecting an overcharge at the battery in regenerative mode and reducing car speed in response to the overcharge; detecting motor direct current in a motor field weakening mode and reducing car speed in response to the motor direct current; and detecting car load and adjusting car speed in response to car load; wherein: detecting the overload at the battery in motoring mode and reducing car speed in response to the overload includes: detecting a voltage at the battery and controlling car speed in response to a function relating battery voltage and car speed. 4. An elevator system comprising: a battery; a machine having a motor for imparting motion to an elevator car; an inverter for converting DC power from the battery to AC power for the machine in motoring mode and converting AC power from the machine to DC power for the battery in regenerative mode; and a controller to control the inverter, the controller implementing at least one of: detecting an overload at the battery in motoring mode and reducing car speed in response to the overload; detecting an overcharge at the battery in regenerative mode and reducing car speed in response to the overcharge; detecting motor direct current in a motor field weakening mode and reducing car speed in response to the motor direct current; and detecting car load and adjusting car speed in response to car load; wherein: detecting the overcharge at the battery in regenerative mode and reducing car speed in response to the overcharge includes: detecting a voltage at the battery and reducing car speed if the voltage at the battery exceeds a threshold. 5. An elevator system comprising: a battery; a machine having a motor for imparting motion to an elevator car; an inverter for converting DC power from the battery to AC power for the machine in motoring mode and converting AC power from the machine to DC power for the battery in regenerative mode; and a controller to control the inverter, the controller implementing at least one of: detecting an overload at the battery in motoring mode and reducing car speed in response to the overload; detecting an overcharge at the battery in regenerative mode and reducing car speed in response to the overcharge; detecting motor direct current in a motor field weakening mode and reducing car speed in response to the motor direct current; and detecting car load and adjusting car speed in response to car load; wherein: detecting the overcharge at the battery in regenerative mode and reducing car speed in response to the overcharge includes: detecting a voltage at the battery and controlling car speed in response to a function relating battery voltage and car speed. 6. The elevator system of claim 1 , further comprising: a dynamic braking resistor coupled to the converter; wherein detecting the overcharge at the battery in regenerative mode includes: the controller directing current from the converter to the dynamic braking resistor to reduce battery voltage prior to reducing car speed. 7. The elevator system of claim 1 , wherein: detecting motor direct current in motor field weakening mode and reducing car speed in response to the motor direct current includes: detecting motor direct current and reducing car speed if motor direct current exceeds a threshold. 8. The elevator system of claim 1 , wherein: detecting motor direct current in motor field weakening mode and reducing car speed in response to the motor direct current includes: detecting motor direct current and controlling car speed in response to a function relating motor direct current and car speed. 9. The elevator system of claim 1 , wherein: detecting car load and adjusting car speed in response to car load includes: determining that the car is traveling up; setting the car speed at an upper speed value; reducing the car speed with increasing car load. 10. The elevator system of claim 9 , wherein: reducing the car speed with increasing car load includes comparing the car load to a load threshold and reducing the car speed upon the car load exceeding the load threshold. 11. The elevator system of claim 9 , wherein: reducing the car speed with increasing car load includes controlling car speed in response to a function relating car speed and car load. 12. The elevator system of claim 1 , wherein: detecting car load and adjusting car speed in response to car load includes: determining that the car is traveling down; setting the car speed at a lower speed value; increasing the car speed with increasing car load. 13. The elevator system of claim 12 , wherein: increasing the car speed with increasing car load includes comparing the car load to a load threshold and increasing the car speed upon the car load exceeding the load threshold. 14. The elevator system of claim 12 , wherein: increasing the car speed with increasing car load includes controlling car speed in response to a function relating car speed and car load. 15. An elevator system comprising: a battery; a machine having a motor for imparting motion to an elevator car; an inverter for converting DC power from the battery to AC p