Metal vapor electric discharge lamp system

US 4,160,193 A
Filed: 11/17/1977
Issued: 07/03/1979
Est. Priority Date: 11/17/1977
Status: Expired due to Term

First Claim

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1. A metal vapor electric discharge lamp system, comprising, a low-medium-high pressure metal vapor electric discharge lamp having a rated full radiation power in the range of about 200 to 400 watts per inch of said lamp, and transformer and control means including, a transformer comprising, a primary winding energized on alternating current electrical supply, a secondary winding loosely magnetically coupled with said primary winding by a main magnetic core portion of said transformer and connected in series electrical circuit with said metal vapor electric discharge lamp, having the latter consist essentially the load in said circuit, and magnetic shunt core means, and means for said magnetic shunt core means to be controlled to move to and from any one of at least two positions relative to said main magnetic core portion, said magnetic shunt core means in a first of said positions being substantially fully magnetically isolated from said main magnetic core portion to have said main magnetic core portion link magnetic flux from said primary winding with said secondary winding, and said magnetic shunt core means in the other of said positions, including a second position, being within the magnetic field of said main magnetic core portion and forming a magnetic shunt path with said main magnetic core portion physically between said primary and secondary windings to have said main magnetic core portion link a reduced amount of magnetic flux from said primary winding with said secondary winding, and said transformer and said low-medium-high pressure metal vapor electric discharge lamp being interrelated with one another according to properties so that with said magnetic shunt core means being in said first position said secondary winding is energized on operation of said transformer to have a relatively high power output level for striking an arc at a relatively high voltage across said metal vapor electric discharge lamp, whereupon voltage across said lamp sharply drops and current through said lamp sharply increases and is limited by impedance of said transformer, and with continued operation of said metal vapor electric discharge lamp, current through said lamp is decreased as voltage across said lamp increases for current and voltage across said metal vapor electric discharge lamp to stabilize at a relatively high radiation power level of operation of said metal vapor electric discharge lamp, and so that upon movement of said magnetic shunt core means from said first position to said second position relative to said main magnetic core portion in response to operation of said control means, operation of said transformer and said metal vapor electric discharge lamp is continued and said secondary winding is energized to have a relatively low power output level and said metal vapor electric discharge lamp accordingly thereafter stably operates at a radiation power level being less than about 70% full radiation power of said lamp.

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Abstract

A lamp system is provided wherein a high radiation intensity metal vapor electric discharge lamp is matched with a controllable regulating transformer which is characterized by having a sufficiently high open circuit voltage for striking an arc across the lamp and by having loose coupling between primary and secondary windings along with high impedance of the secondary winding sufficient for limiting an initially high starting current through the lamp to a value whereby, as the lamp warms up on power from the transformer, the lamp current decreases and the voltage across the lamp increases, allowing the lamp to reach a high radiation intensity level of operation, the system further being one in which the transformer is controlled by having controllable core structure to select a different intensity level of operation of the lamp.

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18 Claims

1. A metal vapor electric discharge lamp system, comprising, a low-medium-high pressure metal vapor electric discharge lamp having a rated full radiation power in the range of about 200 to 400 watts per inch of said lamp, and transformer and control means including, a transformer comprising, a primary winding energized on alternating current electrical supply, a secondary winding loosely magnetically coupled with said primary winding by a main magnetic core portion of said transformer and connected in series electrical circuit with said metal vapor electric discharge lamp, having the latter consist essentially the load in said circuit, and magnetic shunt core means, and means for said magnetic shunt core means to be controlled to move to and from any one of at least two positions relative to said main magnetic core portion, said magnetic shunt core means in a first of said positions being substantially fully magnetically isolated from said main magnetic core portion to have said main magnetic core portion link magnetic flux from said primary winding with said secondary winding, and said magnetic shunt core means in the other of said positions, including a second position, being within the magnetic field of said main magnetic core portion and forming a magnetic shunt path with said main magnetic core portion physically between said primary and secondary windings to have said main magnetic core portion link a reduced amount of magnetic flux from said primary winding with said secondary winding, and said transformer and said low-medium-high pressure metal vapor electric discharge lamp being interrelated with one another according to properties so that with said magnetic shunt core means being in said first position said secondary winding is energized on operation of said transformer to have a relatively high power output level for striking an arc at a relatively high voltage across said metal vapor electric discharge lamp, whereupon voltage across said lamp sharply drops and current through said lamp sharply increases and is limited by impedance of said transformer, and with continued operation of said metal vapor electric discharge lamp, current through said lamp is decreased as voltage across said lamp increases for current and voltage across said metal vapor electric discharge lamp to stabilize at a relatively high radiation power level of operation of said metal vapor electric discharge lamp, and so that upon movement of said magnetic shunt core means from said first position to said second position relative to said main magnetic core portion in response to operation of said control means, operation of said transformer and said metal vapor electric discharge lamp is continued and said secondary winding is energized to have a relatively low power output level and said metal vapor electric discharge lamp accordingly thereafter stably operates at a radiation power level being less than about 70% full radiation power of said lamp.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. In a metal vapor electric discharge lamp system according to claim 1 wherein said metal vapor electric discharge lamp with said magnetic core means in said second position operates on power of said transformer at a radiation power level which is in the general environs of 20% maximum radiation power of said lamp.
  - 3. In a metal vapor electric discharge lamp system according to claim 1 wherein said magnetic shunt core means is movable to and from said first and second positions and to at least one position intermediate said first and second positions and is driven by power drive means in response to operation of said control means for selecting said position, and for said transformer, with said magnetic shunt core means being in said intermediate position, to operate said metal vapor electric discharge lamp at an intermediate radiation power level of said lamp depending upon the particular intermediate position of said magnetic shunt core means.
  - 4. In a metal vapor electric discharge lamp system according to claim 1 wherein said magnetic shunt core means is manually driven to and from said first and second positions and to at least one position intermediate said first and second positions by operation of said control means to select said position, and for said transformer, with said magnetic shunt core means being in said intermediate position, to operate said metal vapor electric discharge lamp at a radiation power level depending upon the particular intermediate position of said magnetic shunt core means.
  - 5. In a metal vapor electric discharge lamp system according to claim 1 wherein said shunt core means is adapted to be manually moved from said first position suddenly to said second position to have said radiation power level of operation of said lamp diminish.
  - 6. In a metal vapor electric discharge lamp system according to claim 1 wherein said shunt core means is movable from said first position suddenly to said second position, and said shunt core means is driven by quick-acting power drive means controlled for suddenly moving said shunt core means from said first position to said second position to have the radiation power level of operation of said lamp diminish.
  - 7. In a metal vapor electric discharge lamp system according to claim 1 wherein said system includes a motor to be controlled for driving said shunt core means, and said control means includes means for controlling said motor to drive said shunt core means to said first position should said shunt core means be in any of said positions other than said first position, and then be stopped for said shunt core means to be in said first position while said metal vapor electric discharge lamp is starting in a first stage of operation of said system.
  - 8. In a metal vapor electric discharge lamp system according to claim 1 wherein said system includes a motor to be controlled and drive said shunt core means in either of opposite directions, and said control means includes means for controlling said motor to drive said shunt core means in the first of said directions to said first position, should said shunt core means be in any one of said positions other than said first position, and then be stopped for said shunt core means to be in said first position while said metal vapor electric discharge lamp is starting in a first stage of operation of said system and is to reach a relatively high radiation power level of operation in a second operating stage of said system, and for said motor to be controlled during said second operating stage of said system for driving said shunt core means in the second of said directions from said first position to another of said positions and be stopped in the latter said position for said metal vapor electric discharge lamp to operate at a lower radiation power level than with said shunt core means being in said first position.
  - 9. In a metal vapor electric discharge lamp system according to claim 1 wherein said control means includes feedback means for sensing quantitative and zero error between a reference voltage and voltage proportional to the current through said metal vapor electric discharge lamp during said first stage of operation of said system and controlling said motor, on said voltage error being quantitative and with said shunt core means being in any of said positions other than said first position, to drive said shunt core means to said first position wherein said quantitative error is erased to zero in said feedback means and said motor is stopped.
  - 10. In a metal vapor electric discharge lamp system according to claim 8 wherein said control means includes feedback means for sensing plus, minus and zero error between a selective reference voltage and voltage proportional to current through said metal vapor electric discharge lamp during said second stage of operation of said system and controlling said motor to drive said shunt core means from any of said positions to another of said positions in a direction of drive according to sign of said voltage error to a destined one of said positions wherein said error is erased to zero in said feedback means.
  - 11. In a metal vapor electric discharge lamp system according to claim 9 wherein said control means includes feedback means determining plus, minus and zero error between a selective reference voltage and voltage proportional to current through said lamp during said second stage of operation of said system and controlling said motor to drive said shunt core means, with said direction of drive being according to sign of said voltage error, from any of said first, second and intermediate positions to a destined other of said positions wherein said voltage error becomes zero.
  - 12. In a metal vapor electric discharge lamp system according to claim 8 wherein said system is characterized by including timed switch means for switching from said first stage of operation to said second stage of operation.
  - 13. In a metal vapor electric discharge lamp system according to claim 8 wherein said system is characterized by including automatic switch means for automatically selecting said first stage of operation of said system for said lamp to be started and said second stage of operation of said system for said lamp to be controlled after being started.
  - 14. In a metal vapor electric discharge lamp system according to claim 13 wherein said automatic switch means is electro-thermally controlled.
  - 15. In a metal vapor electric discharge lamp system according to claim 1 wherein said system includes a reversible motor to be controlled for driving said shunt core means to and from said positions relative to said main magnetic core portion, and said control means includes feedback means sensitive to current in the energizing circuit of said lamp and controlled for controlling said motor to operate in forward and reverse directions and drive said shunt core means to and from any of said positions selectively and then be stopped, said feedback means comprising comparator means connected for comparing a first voltage signal representative of the current in the energizing circuit of said lamp with a reference second voltage, thus producing a zero, plus or minus error voltage signal, and a switching circuit connected with said comparator means and said reversible motor for controlling said motor to operate in forward or reverse directions depending upon polarity of said voltage signal and be stopped in a destined one of said positions in response to said error signal being zero.
  - 16. In a metal vapor electric discharge lamp system according to claim 15 wherein said motor is a reversible d.c. motor connected in a power supply circuit including a source of alternating current power supply, and said switching circuit includes switching and diode means connected in said power supply circuit for operating said motor in forward and reverse directions on current derived either from positive going half cycles of said alternating current power supply for one of said directions or from negative going half cycles of said alternating current power supply for the other of said directions.
  - 17. In a metal vapor electric discharge lamp system according to claim 16 wherein said switching circuit includes a pair of darlington transistors controlled in response to said error voltage signal in said switching circuit and having collector-emitter paths connected in the energizing circuit of said reversible d.c. motor with a pair of diodes and a source of alternating current power supply, for controlling said reversible d.c. motor to operate in one direction on positive going half cycles of said alternating current power supply and in a reverse direction on negative going half cycles of said alternating current power supply, depending upon whether said error voltage signal is positive or negative, and said motor to be de-energized when said error voltage signal is zero.
  - 18. In a metal vapor electric discharge lamp system according to claim 1 wherein said system includes a motor to be controlled and drive said shunt core means to and from said positions relative to said main core portion, and said control means include feedback means sensitive to current in the energizing circuit by said lamp and controlled for controlling said motor to drive said shunt core means to and from any of said positions selectively and there be stopped.

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Current Assignee
Ripley Company Incorporated
Original Assignee
Abraham W. Richmond
Inventors
Richmond, Abraham W.
Primary Examiner(s)
Smith, Alfred E.
Assistant Examiner(s)
Wise, Robert E.

Application Number

US05/852,552
Time in Patent Office

593 Days
Field of Search

315/276, 315/281, 315/282, 315/DIG. 4, 323/51
US Class Current

315/281
CPC Class Codes

H01F 29/10   having movable part of magn...

H05B 41/391   using saturable magnetic de...

Y10S 174/14   having a particular cable a...

Y10S 174/17   in an electric power conver...

Y10S 315/04   Dimming circuit for fluores...

Metal vapor electric discharge lamp system

First Claim

1 Assignment

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Abstract

117 Citations

18 Claims

Specification

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Metal vapor electric discharge lamp system

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

117 Citations

18 Claims

Specification

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Solutions

Use Cases

Quick Links