Heating unit incorporating a temperature sensor

US 6,100,510 A
Filed: 10/21/1998
Issued: 08/08/2000
Est. Priority Date: 10/21/1998
Status: Expired due to Term

First Claim

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1. In a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,the improvement wherein the control device comprises means for repeatedly interrupting a flow of the sensing current to the heating element, and wherein the interrupting means comprises means for causing sensing current to flow to the heating element starting at about a beginning of each positive half-cycle, and continuing until not more than about 60°

into said positive half-cycle.

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Abstract

A control device includes both a heating element and a temperature sensor. The control device has the form of a Wheatstone bridge which applies sensing current to the heating element. When the bridge is unbalanced, the control device may apply heating current to the heating element. In one embodiment, the sensing current is switched, so that it flows only for a relatively small part of the electrical cycle. The circuit also includes a provision for reduction or elimination of electrical spikes. The circuit further includes a calibration arrangement, which enables the user to adjust the bridge without passing heating current through the heating element. Another feature of the invention enables the set point of the bridge to be remotely controlled, by adjusting a level of analog current applied to the bridge. The circuit also includes an arrangement for compensating for temperature-induced changes in its components. It also enables the heating element to be located relatively far from its control circuitry, without suffering from undue losses or inaccuracy.

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25 Claims

1. In a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,the improvement wherein the control device comprises means for repeatedly interrupting a flow of the sensing current to the heating element, and wherein the interrupting means comprises means for causing sensing current to flow to the heating element starting at about a beginning of each positive half-cycle, and continuing until not more than about 60°
- into said positive half-cycle.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The improvement of claim 1, further comprising diode means for reducing power dissipation in an arm of the bridge circuit.
  - 3. The improvement of claim 1, wherein the interrupting means is an entirely analog electronic circuit.
  - 4. The improvement of claim 1, wherein the interrupting means comprises an electronic switch, the switch being connected to allow and block flow of sensing current, according to a condition of the switch.
  - 5. The improvement of claim 4, wherein the electronic switch is connected to an opticoupler, wherein activation of the opticoupler causes activation of the electronic switch, and wherein the opticoupler is connected to an RC circuit which comprises means for determining a time at which the opticoupler turns on and off.
  - 6. The improvement of claim 5, wherein the RC circuit includes a capacitor, and further comprising means for discharging the capacitor before a beginning of an electrical cycle.

7. In a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,the improvement wherein the means for directing a heating current includes a switch connected to the bridge circuit such that an unbalanced condition of the bridge circuit activates the switch, wherein the switch is connected for activation by a capacitor, and further comprising means for varying a time constant of an R-C network including the capacitor according to polarity of an applied voltage, wherein the time constant of said R-C network during a positive half-cycle is different from the time constant during a negative half-cycle, wherein the varying means comprises means for preventing unintended activation of the switch by the capacitor.
- View Dependent Claims (8, 9)
- - 8. The improvement of claim 7, wherein the time constant varying means comprises a network of resistors connected in parallel, the network being connected in series with the capacitor, wherein the network includes a branch having a diode.
  - 9. The improvement of claim 8, wherein the branch having the diode also includes a variable resistor.

10. In a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,the improvement comprising means for remotely controlling a set point of the bridge circuit by application of a control current, the remote controlling means comprising means for electronically varying an effective resistance of one arm of the bridge circuit in response to said control current.
- View Dependent Claims (11, 12)
- - 11. The improvement of claim 10, wherein one arm of the bridge includes a variable resistor, wherein the means for electronically varying an effective resistance comprises a transistor having an output connected to said variable resistor, wherein the control current comprises an input to the transistor, wherein the output of the transistor varies an effective resistance of said variable resistor.
  - 12. The improvement of claim 11, wherein the control current is coupled to the transistor through an opticoupler.

13. In a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,the improvement wherein the means for directing a heating current includes a switch connected to the bridge circuit such that an unbalanced condition of the bridge circuit activates the switch, and further comprising a thermistor connected to an arm of the bridge circuit, the thermistor also being in sufficient physical contact with the switch such that heat from the switch affects a resistance value of the thermistor, wherein the thermistor and the switch together comprise means for compensating for temperature-induced variations in gate sensitivity of the switch.
- View Dependent Claims (14, 15)
- - 14. The improvement of claim 13, further comprising diode means for reducing power dissipation in said arm of the bridge circuit.
  - 15. The improvement of claim 13, wherein the thermistor is connected in series with a fixed resistor, and wherein a combination of the thermistor and the fixed resistor is connected in parallel with an arm of the bridge circuit.

16. A method of operating a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,the method comprising the step of repeatedly interrupting a flow of the sensing current to the heating element, such that the sensing current flows through the heating element starting at about a beginning of each positive half-cycle, and continuing until not more than about 60°
- into said positive half-cycle.

17. A method of operating a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,wherein the means for directing a heating current includes a switch connected to the bridge circuit such that an unbalanced condition of the bridge circuit activates the switch, wherein the switch is connected for activation by a capacitor,wherein the method comprises the step of varying a time constant of an R-C network including the capacitor according to polarity of an applied voltage, such that the time constant of said R-C network during a positive half-cycle is different from the time constant during a negative half-cycle, wherein the circuit prevents unintended activation of the switch by the capacitor.

18. A method of operating a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current and means for directing a heating current through the heating element,the method comprising the step of calibrating the control device by disabling the heating current directing means while leaving unaffected the sensing current directing means, and varying a resistance in at least one arm of the bridge circuit while observing a display means connected across an arm of the bridge, until current begins to flow through the display means.

19. A method of operating a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,the method comprising the step of remotely controlling a set point of the bridge circuit by electronically varying an effective resistance of one arm of the bridge circuit in response to a control current.

20. A method of operating a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition,wherein the means for directing a heating current includes a switch connected to the bridge circuit such that an unbalanced condition of the bridge circuit activates the switch,the method comprising the step of automatically adjusting resistance of an arm of the bridge circuit so as to compensate for changes in gate sensitivity in the switch caused by heat generated by the switch.

21. A calibration circuit for a control device which includes a combined temperature sensor and heating unit,the control device comprising:
- (a) a bridge circuit having a plurality of arms, one arm of the bridge circuit comprising a heating element,(b) means for directing a sensing current through the heating element,(c) means for directing a heating current through the heating element, the heating current directing means including first and second control switches and a power switch, the first and second control switches being connected across an arm of the bridge circuit, and being connected to the power switch so as to activate the power switch and to supply heating current to the heating element,wherein the calibration circuit comprises;
  
  (d) a resistor and a current indicator connected in series with the first control switch,(e) means for configuring the calibration circuit in a calibration mode or a normal mode, the configuring means comprising means for disabling the second control switch only in the calibration mode, and means for disabling the series combination only in the normal mode, wherein, in the calibration mode, a series combination comprising the resistor, the current indicator, and the first control switch is connected across an arm of the bridge, and(f) a variable resistor connected to one of the arms of the bridge so as to vary a resistance of said one of the arms,wherein the calibration circuit comprises means for calibrating the bridge while sensing current is flowing through the bridge.
- View Dependent Claims (22, 23)
- - 22. The calibration circuit of claim 21, wherein the current indicator comprises a light-emitting diode.
  - 23. The calibration circuit of claim 22, wherein the configuring means includes a mechanical switch which both connects the series combination and short-circuits a capacitor, connected to the second control switch, in the calibration mode, and short-circuits the series combination and enables the capacitor in the normal mode.

24. In a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms and a plurality of nodes, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition, wherein the heating element has two ends, and wherein the heating element is connected to the bridge through a first pair of wires connected to said two ends, and wherein said first pair of wires have electrical resistance,the improvement wherein the circuit includes a second pair of wires connected directly across the heating element, and means for configuring the circuit such that the ends of the heating element comprise nodes of the bridge, wherein the configuring means comprises means for grouping the resistance of said first pair of wires with arms of the bridge other than the heating element, wherein said second pair of wires comprise means for sensing a voltage across the heating element without carrying appreciable current.

25. A method of operating a control device including a combined temperature sensor and heating unit, the control device comprising a bridge circuit having a plurality of arms and a plurality of nodes, one arm of the bridge circuit comprising a heating element, means for directing a sensing current through the heating element, means for detecting a condition wherein the bridge circuit is in an electrically balanced state, and means for directing a heating current through the heating element in response to an electrically unbalanced condition, wherein the heating element has two ends, and wherein the heating element is connected to the bridge through a first pair of wires connected to said two ends, and wherein said first pair of wires have electrical resistance,the method comprising the step of connecting a second pair of wires directly across the heating element, and configuring the circuit such that the ends of the heating element comprise nodes of the bridge, such that the resistance of said first pair of wires comprises part of arms of the bridge other than the heating element, and using the second pair of wires to sense a voltage across the heating element without carrying appreciable current in said second pair of wires.

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Current Assignee
Bruce E. Metz
Original Assignee
Bruce E. Metz
Inventors
Metz, Bruce E., Chen, Stephen T.
Primary Examiner(s)
PASCHALL, MARK H

Application Number

US09/176,919
Time in Patent Office

657 Days
Field of Search

219/494, 219/481, 219/497, 219/499, 219/501, 219/505, 219/507, 323/236, 323/235, 323/319, 307/117, 374/1
US Class Current

219/497
CPC Class Codes

G05D 23/1906 using an analogue comparing...

H05B 1/0247 For chemical processes

Heating unit incorporating a temperature sensor

First Claim

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Abstract

25 Citations

25 Claims

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Heating unit incorporating a temperature sensor

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

25 Citations

25 Claims

Specification

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Solutions

Use Cases

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