Transducer circuit having negative integral feedback
First Claim
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1. A transducer circuit comprising:
- a. means responsive to a variable condition, said condition varying from a first value to a second value;
b. a bridge circuit having at least one arm including said responsive means and first and second output terminals, said bridge circuit having a first output voltage between said output terminals when said responsive means is subjected to said first condition value and having a second output voltage between said output terminals different from said first output voltage when said responsive means is subjected to said second condition value;
c. means for establishing a transducer output signal at an output terminal which is a function of an integral of said bridge circuit output voltage, said establishing means including;
(1) a difference amplifier having a first input terminal coupled to said first bridge circuit output terminal, a second input terminal coupled to said second bridge circuit output terminal, and an output terminal coupled to said establishing means output terminal;
(2) a first integrating capacitor connected between said difference amplifier first input terminal and said difference amplifier output terminal;
(3) a second integrating capacitor connected between said difference amplifier second input terminal and a circuit ground;
(4) a first resistor connected between said difference amplifier first input terminal and said first bridge circuit output terminal; and
(5) a second resistor connected between said difference amplifier second input terminal and said second bridge circuit output terminal;
said difference amplifier and said integrating capacitors cooperating to establish said transducer output signal; and
further wherein the product of the values of said first integrating capacitor and said first resistor defines a first time constant and the product of the values of said second integrating capacitor and said second resistor defines a second time constant that is less than said first time constant; and
d. negative feedback means coupling said transducer output signal to said bridge circuit to return said bridge output voltage from said second output voltage to said first output voltage.
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Abstract
A transducer circuit which includes a Wheatstone bridge balanced by negative integral feedback. The bridge includes responsive elements formed on a thin resilent diaphragm. When subjected to a force, the diaphragm deflects and unbalances the bridge. The unbalanced bridge produces an output voltage which drives an integrator having an output voltage that is an integral of the bridge output voltage. The integrator output voltage is applied to the bridge as negative feedback to rebalance the bridge. The integrator includes a capacitor which introduces a time delay to assure that the feedback is always negative. The negative feedback provides stability for the circuit. The integrator output voltage drives indicating and/or auxiliary devices. The complete transducer circuit may be disposed within a sealed module having the diaphragm as a surface.
68 Citations
21 Claims
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1. A transducer circuit comprising:
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a. means responsive to a variable condition, said condition varying from a first value to a second value; b. a bridge circuit having at least one arm including said responsive means and first and second output terminals, said bridge circuit having a first output voltage between said output terminals when said responsive means is subjected to said first condition value and having a second output voltage between said output terminals different from said first output voltage when said responsive means is subjected to said second condition value; c. means for establishing a transducer output signal at an output terminal which is a function of an integral of said bridge circuit output voltage, said establishing means including; (1) a difference amplifier having a first input terminal coupled to said first bridge circuit output terminal, a second input terminal coupled to said second bridge circuit output terminal, and an output terminal coupled to said establishing means output terminal; (2) a first integrating capacitor connected between said difference amplifier first input terminal and said difference amplifier output terminal; (3) a second integrating capacitor connected between said difference amplifier second input terminal and a circuit ground; (4) a first resistor connected between said difference amplifier first input terminal and said first bridge circuit output terminal; and (5) a second resistor connected between said difference amplifier second input terminal and said second bridge circuit output terminal; said difference amplifier and said integrating capacitors cooperating to establish said transducer output signal; and
further wherein the product of the values of said first integrating capacitor and said first resistor defines a first time constant and the product of the values of said second integrating capacitor and said second resistor defines a second time constant that is less than said first time constant; andd. negative feedback means coupling said transducer output signal to said bridge circuit to return said bridge output voltage from said second output voltage to said first output voltage. - View Dependent Claims (2)
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3. A transducer circuit comprising:
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a. a resilient diaphragm exposed to a variable force, said force varying from a first value to a second value and said diaphragm having a predetermined deflection change in response to a predetermined force change; b. a bridge circuit mounted on said diaphragm and having at least one arm electrically connected to said diaphragm and having first and second output terminals, said bridge circuit having a first output voltage between said output terminals when said diaphragm is subjected to said first force value and having a second output voltage between said output terminals different from said first output voltage when said diaphragm is subjected to said second force value; c. means for establishing a transducer output signal at an output terminal which is a function of an integral of said bridge circuit output voltage, wherein said establishing means includes a difference amplifier having a first input terminal coupled to said first bridge circuit output terminal, a second input terminal coupled to said second bridge circuit output terminal and an output terminal coupled to said establishing means output terminal, a first integrating capacitor connected between said difference amplifier first input terminal and said difference amplifier output terminal, and a second integrating capacitor connected between said difference amplifier second input terminal and a circuit ground, said difference amplifier and said integrating capacitors cooperating to establish said transducer output signal; and d. negative feedback means coupling said transducer output signal to said bridge circuit to return said bridge output voltage from said second output voltage to said first output voltage. - View Dependent Claims (4)
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5. A transducer comprising:
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means responsive to a variable condition; a bridge circuit associated with said responsive means, said bridge circuit including first and second output terminals, said bridge circuit having an output voltage between said output terminals when said responsive means is subjected to said variable condition, said bridge circuit having an arm which includes a sensing element connected in series with a bridge feedback element, said sensing element and said bridge feedback element defining a junction therebetween, said bridge circuit also including a means for adjusting said bridge output voltage to a predetermined value when said responsive means is subjected to a specified variable condition; means connected to said bridge circuit output terminals for generating an electrical signal at a transducer output terminal which is a function of said bridge output voltage; and feedback means coupling said transducer output to said junction of said bridge sensing element and said bridge feedback element, said feedback means including a transducer feedback resistor, said transducer output signal being a function of said transducer feedback resistor, said transducer feedback resistor being trimmed independently of said means for adjusting bridge output to adjust said transducer output signal.
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6. A transducer comprising:
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a resilent diaphragm having first and second surfaces, said diaphragm exposed to a variable condition and having a predetermined deflection change in response to a predetermined change in said variable condition, said deflection causing radial stress within said diaphragm; a bridge circuit disposed upon said diaphragm, said bridge circuit including first and second sets of resistors formed from a stress responsive material upon said first diaphragm surface, said first set of resistors including a plurality of individual resistors connected in series, said second set of resistors including a plurality of individual resistors connected in series, said bridge circuit further including third and fourth sets of resistors formed from a stress responsive material upon said second diaphragm surface, said third set of resistors including a plurality of individual resistors connected in series, said fourth set of resistors including a plurality of individual resistors connected in series, said individual resistors of said third set of resistors formed directly opposite said individual resistors of said first set of resistors and said individual resistors of said fourth set of resistors formed directly opposite said individual resistors of said second set of resistors, said individual resistors responsive to said diaphragm radial stress, said bridge circuit further including first and second output terminals, said bridge circuit having an output voltage between said output terminals when said resistors respond to said diaphragm radial stress; and means connected to said bridge circuit output terminals for generating an electrical signal at a transducer output terminal which is a function of said bridge circuit output voltage. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A transducer circuit comprising:
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means responsive to a variable condition, said condition varying from a first value to a second value; a bridge circuit having at least one arm including said responsive means and first and second output terminals, said bridge circuit having a first output voltage between said output terminals when said responsive means is subjected to said first condition value and having a second output voltage between said output terminals different from said first output voltage when said responsive means is subjected to said second condition value; means for establishing a transducer output signal at an output terminal which is a function of an integral of said bridge output voltage, said establishing means including a difference amplifier having a first input terminal coupled to said first bridge circuit output terminal, a second input terminal coupled to said second bridge circuit output terminal and an output terminal coupled to said establishing means output terminal, a first integrating capacitor connected between said difference amplifier first input terminal and said difference amplifier output terminal, and a second integrating capacitor connected between said difference amplifier second input terminal and a circuit ground, said difference amplifier and said integrating capacitors cooperating to establish said transducer output signal; a first resistive element coupling said first integrating capacitor to a first arm of said bridge circuit, the product of the values of said first resistive element and said first integrating capacitor defining a first time constant; a second resistive element coupling said second integrating capacitor to a second arm of said bridge circuit, the product of the values of said second resistive element and said second integrating capacitor defining a second time constant which is less than said first time constant; and negative feedback means coupling said transducer output signal to said bridge circuit to return said bridge output voltage from said second output voltage to said first output voltage. - View Dependent Claims (14, 15, 16, 17, 18)
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19. A transducer circuit comprising:
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a resilient diaphragm which is exposed to a variable force, said diaphragm having a predetermined deflection change in response to a predetermined force change, said force varying from a first value to a second value; a bridge circuit mounted upon said diaphragm and having at least one arm responsive to deflection thereof, said bridge circuit including first and second output terminals, said bridge circuit having a first output voltage between said output terminals when said diaphragm is subjected to said first force value and having a second output voltage between said output terminals different from said first output voltage when said diaphragm is subjected to said second force value; means for establishing a transducer output signal at an output terminal which is a function of an integral of said bridge output voltage, said establishing means including a difference amplifier having a first input terminal coupled to said first bridge circuit output terminal, a second input terminal coupled said second bridge circuit output terminal and an output terminal coupled to said establishing means output terminal, a first integrating capacitor connected between said difference amplifier first input terminal and said difference amplifier output terminal, and a second integrating capacitor connected between said difference amplifier second input terminal and a circuit ground, said difference amplifier and said integrating capacitors cooperating to establish said transducer output signal; and negative feedback means coupling said transducer output signal to said bridge circuit to return said bridge output voltage from said second output voltage to said first output voltage. - View Dependent Claims (20)
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21. A transducer comprising:
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a resilient diaphragm having a circular disk shape and a thickness mounted upon a rigid ring shaped supporting structure, said diaphragm exposed to a variable condition and having a predetermined deflection change in response to a predetermined change in said variable condition, said deflection causing radial stress within said diaphragm; a bridge circuit disposed upon said diaphragm, said bridge circuit including an arcuate shaped resistor concentrically positioned upon said diaphragm within said supporting structure and separated from the inner surface of said supporting structure by a predetermined radial distance which is equal to said diaphragm thickness, said arcuate resistor responsive to said diaphragm radial stress, said bridge circuit further including first and second output terminals, said bridge circuit having an output voltage between said output terminals when said resistor responds to said diaphragm stress; and means connected to said bridge circuit output terminals for generating an electrical signal at a transducer output terminal which is a function of said bridge circuit output voltage.
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Specification
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Current AssigneePhilips Electronics North America Corporation (Koninklijke Philips N.V.)
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Original AssigneePhilips Electronics North America Corporation (Koninklijke Philips N.V.)
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InventorsPratt, Bud E.
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Primary Examiner(s)Chilcot, Richard
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Assistant Examiner(s)DOMBROSKE, GEORGE M
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Application NumberUS07/970,746Time in Patent Office1,162 DaysField of Search73/115, 73/35 P, 73/715, 73/717, 73/719, 73/720, 73/723, 73/725, 73/726, 73/727, 73/900, 73/204.11, 73/204.15, 73/204.18US Class Current73/114.57CPC Class CodesG01L 19/0084 to the outside of the housi...G01L 19/0645 using isolation membranes, ...G01L 19/148 Details about the circuit b...G01L 9/0042 Constructional details asso...G01L 9/045 with electric temperature c...G01P 15/12 by alteration of electrical...Y10S 73/90 Automatic gain control
