In one embodiment of the present invention, a system for ride-through of an adjustable speed drive for voltage sags is provided. The system comprises an adjustable speed drive including a three phase electric utility, a diode rectifier, a dc-link, an inverter, and a motor. Coupled to the adjustable speed drive is a ride-through circuit which includes a controller having a first input and a second input, the first input operable to receive the voltage from each phase of the three phase electric utility and determine the magnitude and phase of the voltage sag, and the second input operable to receive the dc-link voltage to ensure that the rated dc-link voltage is not exceeded. Also included is an IGBT coupled to an output of the controller and operable to switch on and off rapidly based on the amount of voltage sag. An inductor associated with the IGBT and operable to store energy when the IGBT is switched on and to transfer energy to the dc-link when the IGBT is off is also included.... |
Citations|
| US4811190 | Mar 3, 1988 | Mar 7, 1989 | Digital Equipment Corporation | Capacitive boost circuit for extending hold up time | | US4814966 | Sep 30, 1987 | Mar 21, 1989 | Spectra-Physics, Inc. | Shunt switched resistor regulator with diode snubber | | US5513088 | Sep 26, 1994 | Apr 30, 1996 | | Uninterruptable off-line, isolated flyback topology switch-mode power supply | | US5754419 | May 9, 1996 | May 19, 1998 | Astec International Limited | Surge and overcurrent limiting circuit for power converters |
Referenced by|
| US6118676 | Nov 4, 1999 | Sep 12, 2000 | Soft Switching Technologies Corp. | Dynamic voltage sag correction | | US6160722 | Sep 22, 1999 | Dec 12, 2000 | Powerware Corporation | Uninterruptible power supplies with dual-sourcing capability and methods of operation thereof | | US6163201 | Mar 26, 1999 | Dec 19, 2000 | Siemens Aktiengesellschaft | Circuit for supplying a load with a direct voltage | | US6181581 | May 19, 2000 | Jan 30, 2001 | Samsung Electronics Co., Ltd. | Multi-mode power converters incorporating balancer circuits and methods of operation thereof | | US6219259 | Dec 8, 1999 | Apr 17, 2001 | Dr. Johannes Heidenhain GmbH | Method and circuit arrangement for adapting the intermediate circuit voltage to the supply voltage | | US6314007 | Jan 8, 2001 | Nov 6, 2001 | Powerware Corporation | Multi-mode power converters incorporating balancer circuits and methods of operation thereof | | US6472842 | Aug 28, 2000 | Oct 29, 2002 | The Texas A&M University System | Self-tuning control of switched-reluctance motor drive system | | US6483730 | Dec 10, 2001 | Nov 19, 2002 | Powerware Corporation | Power converters with AC and DC operating modes and methods of operation thereof | | US6675071 | Jan 8, 1999 | Jan 6, 2004 | Siemens Transmission & Distribution. LLC | Power quality utility metering system having waveform capture | | US6686718 | Nov 27, 2001 | Feb 3, 2004 | York International Corp. | Control loop and method for variable speed drive ride-through capability improvement | | US6819576 | Mar 25, 2002 | Nov 16, 2004 | Powerware Corporation | Power conversion apparatus and methods using balancer circuits | | US6850426 | Apr 1, 2003 | Feb 1, 2005 | Honeywell International Inc. | Synchronous and bi-directional variable frequency power conversion systems | | US6954366 | Nov 25, 2003 | Oct 11, 2005 | Electric Power Research Institute | Multifunction hybrid intelligent universal transformer | | US7050311 | Nov 25, 2003 | May 23, 2006 | Electric Power Research Institute, Inc. | Multilevel converter based intelligent universal transformer | | US7081734 | Sep 2, 2005 | Jul 25, 2006 | York International Corporation | Ride-through method and system for HVACandR chillers | | US7116067 | Nov 2, 2004 | Oct 3, 2006 | Honeywell International Inc. | Power converter controlling apparatus and method providing ride through capability during power interruption in a motor drive system | | US7190143 | May 27, 2005 | Mar 13, 2007 | Rockwell Automation Technologies, Inc. | Pulse width modulation (PWM) rectifier with variable switching frequency | | US7208891 | May 6, 2005 | Apr 24, 2007 | York International Corp. | Variable speed drive for a chiller system | | US7308614 | Apr 14, 2003 | Dec 11, 2007 | Honeywell International Inc. | Control sequencing and prognostics health monitoring for digital power conversion and load management | | US7308614 | Apr 14, 2003 | Dec 11, 2007 | Honeywell International Inc. | Control sequencing and prognostics health monitoring for digital power conversion and load management | | US7332885 | Jun 7, 2006 | Feb 19, 2008 | Johnson Controls Technology Company | Ride-through method and system for HVAC&R chillers | | US7607896 | Aug 10, 2006 | Oct 27, 2009 | Baker Hughes Incorporated | Systems and methods for power ride-through in variable speed drives | | US7649756 | May 17, 2006 | Jan 19, 2010 | Rockwell Automation Technologies, Inc. | Common mode noise reduction in converter systems through modification of single phase switching signal | | US7746020 | Oct 31, 2007 | Jun 29, 2010 | Johnson Controls Technology Company | Common mode & differential mode filter for variable speed drive | | US7764041 | Oct 31, 2007 | Jul 27, 2010 | Johnson Controls Technology Company | System and method to extend synchronous operation of an active converter in a variable speed drive | | US7876561 | Oct 31, 2007 | Jan 25, 2011 | Johnson Controls Technology Company | Cooling systems for variable speed drives and inductors | | US7957166 | Oct 30, 2007 | Jun 7, 2011 | Johnson Controls Technology Company | Variable speed drive | | US8004803 | Apr 17, 2008 | Aug 23, 2011 | Johnson Controls Technology Company | Variable speed drive | | US8014110 | Oct 31, 2007 | Sep 6, 2011 | Johnson Controls Technology Company | Variable speed drive with integral bypass contactor | | US8149579 | Mar 28, 2008 | Apr 3, 2012 | Johnson Controls Technology Company | Cooling member | | US8174853 | Feb 24, 2011 | May 8, 2012 | Johnson Controls Technology Company | Variable speed drive | | US8193660 | Jul 27, 2009 | Jun 5, 2012 | Rocky Research | HVAC/R system having power back-up system with a DC-DC converter | | US8193756 | Oct 2, 2009 | Jun 5, 2012 | Johnson Controls Technology Company | Variable speed drive for permanent magnet motor |
Claims1. An adjustable speed drive for ride-through of voltage sags comprising: - an adjustable speed drive comprising:
- a three phase electric utility;
- a diode rectifier coupled to the three-phase utility;
- a dc-link coupled to the diode rectifier and having a dc-link capacitor;
- an inverter coupled to the dc-link;
- a motor coupled to the inverter; and
- a ride-through circuit coupled to the adjustable speed drive comprising:
- a control unit having a first input, the first input operable to receive the voltage from each phase of the three phase electric utility and determine if there is a voltage sag;
- an IGBT coupled to an output of the control unit and operable to switch on and off at variable duty cycle which is dependent on voltage sag and remain off if there is no voltage sag;
- ride-through diodes operable to be forward biased when the IGBT is on, one ride-through diode associated with each phase of the three phase electric utility;
- a ride-through inductor coupled to the ride-through diodes and associated with the IGBT, the ride-through inductor operable to store energy when the IGBT is switched on and to transfer energy to the dc-link capacitor when the IGBT is off in order to maintain the dc-link voltage to continuously operate the adjustable speed drive.
2. The adjustable speed drive of claim 1, further comprising an IGBT diode operable to be reversed biased when the IGBT is on to protect the dc-link capacitor from short circuit. 3. The adjustable speed drive of claim 2, wherein the IGBT and the IGBT diode are provided as part of a dynamic braking control. 4. The adjustable speed drive of claim 1, wherein the control unit has a second input coupled to the dc-link, the control unit operable to turn off the IGBT if the dc-link voltage exceeds a certain predetermined value. 5. The adjustable speed drive of claim 1, further comprising an energy source and an energy source diode operable to maintain the dc-link voltage under a short-term power interruption. 6. The adjustable speed drive of claim 5, wherein the energy source is one or more super capacitors. 7. The adjustable speed drive of claim 1, further including a dynamic braking control. 8. The adjustable speed drive of claim 1, further comprising a relay located between the ride-through circuit and the dynamic braking control to allow for use of either systems when necessary. 9. An apparatus to provide ride-through of a voltage sag in an adjustable speed drive comprising: - a controller operable to determine the voltage sag in a phase of a three phase electric utility;
- an IGBT coupled to the controller and operable to shut down and turn on rapidly based on output of the controller;
- ride-through diodes operable to be forward biased when the IGBT is on, one ride-through diode associated with each phase of the three phase electric utility;
- a ride-through inductor coupled to the ride-through diodes and operable to store energy when IGBT is on; and
- a dc-link capacitor operable to receive and store energy from the inductor, the dc-link capacitor operable to keep a dc-link voltage near its rated value.
10. The apparatus of claim 9, further comprising an IGBT diode operable to be reversed biased when the IGBT is on to protect the dc-link capacitor from short circuit. 11. The apparatus of claim 10, wherein the IGBT and IGBT diode are provided as part of a dynamic braking control. 12. The apparatus of claim 9, wherein the controller is operable to turn off the IGBT if the dc-link voltage exceeds a certain predetermined value. 13. The apparatus of claim 9, further comprising an energy source and an energy source diode operable to maintain the dc-link voltage under a short-term interruption. 14. The apparatus of claim 13, wherein the energy source is one or more super capacitors. 15. The apparatus of claim 9, wherein the apparatus is connected to an adjustable speed drive. 16. The apparatus of claim 15, wherein the adjustable speed drive includes a dynamic braking control. 17. The apparatus of claim 16, further comprising a relay between the ride-through circuit and the dynamic braking control to allow for use of either systems when necessary. 18. A method for ride-through of an adjustable speed drive in a voltage sag comprising: - detecting a voltage sag at a control unit;
- turning an IGBT on when a sag is detected and off if there is no sag using the control unit;
- filling an inductor with energy when the IGBT is on;
- transferring the energy to a capacitor in a dc-link when the IGBT is off; and
- maintaining the voltage in the dc-link.
19. The method of claim 18, wherein the IGBT is provided as part of a dynamic braking control. 20. The method of claim 18, wherein the step of maintaining the voltage in the dc-link further comprises the step of turning off the IGBT if the dc-link voltage exceeds a certain predetermined value. 21. The method of claim 18, further comprising an energy source and an energy source diode operable to maintain the dc-link voltage under a short-term power interruption. 22. The method of claim 21, wherein the energy source is one or more super capacitors. 23. The method of claim 18, wherein the adjustable speed drive includes a dynamic braking control. 24. The method of claim 23, further comprising a relay between the ride-through circuit and the dynamic braking control to allow for use of either systems when necessary. |
