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A braking module includes a braking load, an input terminal, an output terminal, and control logic. The input terminal is adapted to receive a motor drive signal. The control logic is adapted to receive a motor enable signal, couple the output terminal to the input terminal responsive to the motor e

A braking module includes a braking load, an input terminal, an output terminal, and control logic. The input terminal is adapted to receive a motor drive signal. The control logic is adapted to receive a motor enable signal, couple the output terminal to the input terminal responsive to the motor enable signal being asserted, couple the output terminal to the braking load responsive to the motor enable signal being deasserted, and prevent the coupling of the output terminal to the input terminal responsive to a temperature of the braking module exceeding a predetermined disable set point. A method for controlling a motor includes coupling a drive lead carrying a motor drive signal to a motor lead of the motor responsive to a motor enable signal being asserted. The motor lead is coupled to a braking load responsive to the motor enable signal being deasserted. The coupling of the drive lead to the motor lead is prevented responsive to a temperature of the braking load exceeding a predetermined disable set point.

대표청구항 ▼

We claim: 1. A braking module, comprising: a braking load; an input terminal for receiving a motor drive signal; an output terminal; and control logic adapted to receive a motor enable signal, couple the output terminal to the input terminal responsive to the motor enable signal being asserted, cou

We claim: 1. A braking module, comprising: a braking load; an input terminal for receiving a motor drive signal; an output terminal; and control logic adapted to receive a motor enable signal, couple the output terminal to the input terminal responsive to the motor enable signal being asserted, couple the output terminal to the braking load responsive to the motor enable signal being deasserted, and prevent the coupling of the output terminal to the input terminal responsive to a temperature of the braking module exceeding a predetermined disable set point. 2. The braking module of claim 1, wherein the control logic is further adapted to isolate the input terminal from the output terminal and couple the output terminal responsive to the temperature of the braking module exceeding the predetermined disable set point. 3. The braking module of claim 1, wherein the control logic is further adapted to generate a temperature warning signal responsive to a temperature of the braking module exceeding a predetermined warning set point. 4. The braking module of claim 1, wherein the control logic comprises a contactor adapted to receive the motor enable signal, the contactor having a first contact coupled between the input terminal and the output terminal and a second contact coupled between the output terminal and the braking load, the first contact being closed responsive to the motor enable signal being asserted and the second contact being closed responsive to the motor enable signal being deasserted. 5. The braking module of claim 4, wherein the control logic further comprises a first thermal limit switch coupled to the contactor and adapted to receive the motor enable signal and isolate the motor enable signal from the contactor responsive to the temperature of the braking module exceeding the predetermined disable set point. 6. The braking module of claim 5, wherein the control logic further comprises a second thermal limit switch adapted to generate a temperature warning signal responsive to the temperature of the braking module exceeding a predetermined warning set point. 7. The braking module of claim 1, wherein the braking load comprises a ceramic bar resistor. 8. A braking module, comprising: a plurality of input terminals adapted to receive a motor drive signal including a plurality of phase components; a plurality of output terminals; a braking load coupled across the output terminals; and control logic adapted to receive a motor enable signal, couple the output terminals to the input terminals responsive to the motor enable signal being asserted, couple the output terminals to the braking load responsive to the motor enable signal being deasserted, and prevent the coupling of the output terminals to the input terminals responsive to a temperature of the braking module exceeding a predetermined disable set point. 9. The braking module of claim 8, wherein the control logic is further adapted to isolate the input terminals from the output terminals, and couple the output terminals to the braking load responsive to the temperature of the braking module exceeding the predetermined disable set point. 10. The braking module of claim 8, wherein the control logic is further adapted to generate a temperature warning signal responsive to a temperature of the braking module exceeding a predetermined warning set point. 11. The braking module of claim 8, wherein the control logic comprises a contactor adapted to receive the motor enable signal, the contactor having a first plurality of contacts coupled between the input terminals and the output terminals and a second plurality of contacts coupled between the output terminals and the braking load, the first plurality of contacts being closed responsive to the motor enable signal being asserted and the second plurality of contacts being closed responsive to the motor enable signal being deasserted. 12. The braking module of claim 11, wherein the control logic further comprises a first thermal limit switch coupled to the contactor and adapted to receive the motor enable signal and isolate the motor enable signal from the contactor responsive to a temperature of the braking module exceeding a predetermined disable set point. 13. The braking module of claim 12, wherein the control logic further comprises a second thermal limit switch adapted to generate a temperature warning signal responsive to the temperature of the braking module exceeding a predetermined warning set point. 14. The braking module of claim 8, wherein the braking load comprises a plurality of ceramic bar resistors coupled across the output terminals. 15. A motor control system, comprising: a motor; a motor drive unit adapted to generate a motor enable signal and a motor drive signal; and a braking module coupled between the motor drive unit and the motor, comprising, a braking load; an input terminal coupled to the motor drive unit for receiving the motor drive signal; an output terminal coupled to the motor; and control logic adapted to receive the motor enable signal, couple the output terminal to the input terminal responsive to the motor enable signal being asserted, couple the output terminal to the braking load responsive to the motor enable signal being deasserted, and prevent the coupling of the output terminal to the input terminal responsive to a temperature of the braking module exceeding a predetermined disable set point. 16. The system of claim 15, wherein the control logic is further adapted to isolate the input terminal from the output terminal, and couple the output terminal to the braking load responsive to a temperature of the braking module exceeding the predetermined disable set point. 17. The system of claim 15, wherein the control logic is further adapted to generate a temperature warning signal responsive to a temperature of the braking module exceeding a predetermined warning set point. 18. The system of claim 15, wherein the control logic comprises a contactor adapted to receive the motor enable signal, the contactor having a first contact coupled between the input terminal and the output terminal and a second contact coupled between the output terminal and the braking load, the first contact being enabled responsive to the motor enable signal being asserted and the second contact being enabled responsive to the motor enable signal being deasserted. 19. The system of claim 18, wherein the control logic further comprises a first thermal limit switch coupled to the contactor and adapted to receive the motor enable signal and isolate the motor enable signal from the contactor responsive to a temperature of the braking module exceeding a predetermined disable set point. 20. The system of claim 19, wherein the control logic further comprises a second thermal limit switch adapted to generate a temperature warning signal responsive to the temperature of the braking module exceeding a predetermined warning set point. 21. The system of claim 15, wherein the braking load comprises a ceramic bar resistor. 22. A method for controlling a motor, comprising: coupling a drive lead carrying a motor drive signal to a motor lead of the motor responsive to a motor enable signal being asserted; coupling the motor lead to a braking load responsive to the motor enable signal being deasserted; and preventing the coupling of the drive lead to the motor lead responsive to a temperature of the braking load exceeding a predetermined disable set point. 23. The method of claim 22, further comprising determining a temperature of the braking load. 24. The method of claim 23, wherein determining the temperature of the braking load further comprises determining the temperature of a module housing the braking load. 25. The method of claim 22, further comprising isolating the input terminal from the output terminal and coupling the output terminal responsive to the temperature of the braking module exceeding the predetermined disable set point. 26. The method of claim 22, further comprising generating a temperature warning signal responsive to a temperature of the braking module exceeding a predetermined warning set point. 27. The method of claim 22, further comprising: closing a first contact coupled between the drive lead and the motor lead responsive to the motor enable signal being asserted; and closing a second contact coupled between the motor lead and the braking load responsive to the motor enable signal being deasserted. 28. The method of claim 27, further comprising isolating the motor enable signal from a contactor including the first and second contacts responsive to the temperature of the braking module exceeding the predetermined disable set point. 29. The method of claim 22, wherein coupling the motor lead to the braking load further comprises coupling the motor lead to a ceramic bar resistor. 30. A system for controlling a motor, comprising: means for coupling a drive lead carrying a motor drive signal to a motor lead of the motor responsive to a motor enable signal being asserted; means for coupling the motor lead to a braking load responsive to the motor enable signal being deasserted; and means for preventing the coupling of the drive lead to the motor lead responsive to a temperature of the braking load exceeding a predetermined disable set point.