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A dynamically balanced pneumatic relay amplifier and a current-to-pneumatic converter are disclosed. The relay has a balance plug, a supply plug positioned on top of the balance plug, a bead chain connecting the balance plug and the supply plug, and a vent plug positioned on top of the supply plug.

A dynamically balanced pneumatic relay amplifier and a current-to-pneumatic converter are disclosed. The relay has a balance plug, a supply plug positioned on top of the balance plug, a bead chain connecting the balance plug and the supply plug, and a vent plug positioned on top of the supply plug. The relay also includes a baffle positioned on top of the vent plug. The converter, used in an electro-pneumatic positioner, comprises a flat strip made of magnetic material located in proximity to a nozzle, and a flow regulator having a flat spring securing a plug in a seat within the regulator. The converter also includes a cantilevered flexure integrally secured to a molded spring support, a first bias spring positioned on a first side of the flexure, and a second bias spring positioned on a second side of the flexure. The thickness of the flexure is locally reduced in an area not integrated into the molded spring support.

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1. An amplifier of a dynamically balanced pneumatic relay type, the amplifier comprising:a balance plug adapted to generate a balancing force proportional to an input signal pressure, the balancing force operable to oppose an end load force acting on the amplifier; a supply plug positioned proximate

1. An amplifier of a dynamically balanced pneumatic relay type, the amplifier comprising:a balance plug adapted to generate a balancing force proportional to an input signal pressure, the balancing force operable to oppose an end load force acting on the amplifier; a supply plug positioned proximate to and on top of the balance plug; a bead chain adapted to couple the balance plug to the supply plug; and a vent plug coupled to the top of the supply plug, wherein the balance plug, the supply plug, and the vent plug are integrated and adapted to avoid a flow deadband in which a signal pressure generated by the amplifier changes without corresponding output flow, and wherein the integrated balance plug, supply plug, and vent plug provide a steady state output flow proportional to the input signal pressure. 2. The amplifier of claim 1 further comprising a baffle positioned on top of the vent plug for counteracting a back pressure created during a venting process.3. A current-to-pneumatic converter used in an electro pneumatic positioner, the converter having a flexure-nozzle arrangement to produce a signal pressure proportional to a given electrical current, the converter comprising:a coil adapted to supply a variable electromagnetic effect within the converter proportional to current supplied to the coil; a flat strip made of magnetic material located in proximity to a nozzle, a portion of the flat strip integrated into a molded spring support, the flat strip having a thickness, wherein the thickness of the flat strip is locally reduced in an area not integrated into the molded spring support; and a flow regulator having a flat spring securing a plug in a seat within the regulator, the flow regulator proximate to the flat strip of magnetic material, wherein the regulator maintains a near constant fluid flow feeding the nozzle, and wherein the electro-magnetic effect from the coil is operable to act on the flat strip of magnetic material to move the plug to allow a pneumatic pressure proportional to the supply current. 4. A current-to-pneumatic converter of an electropneumatic positioner, the converter comprising:a cantilevered flexure integrally secured to a molded spring support; a first bias spring positioned on a first side of the flexure; and a second bias spring positioned on a second side of the flexure, wherein the flexure, the molded spring support, and the bias springs are centered around a nozzle of the converter, wherein a thickness of the flexure is locally reduced in an area not integrated into the molded spring support. 5. A method for generating an output flow proportional to a signal pressure, the method comprising:receiving an input signal pressure into a rely-type amplifier, the amplifier comprising: a balance plug adapted to generate a balancing force proportional to the input signal pressure; a supply plug coupled to the balance plug by a bead chain, the supply plug adapted to allow a portion of the input signal pressure to enter the amplifier; and a vent plug proximate to the supply plug, the vent plug adapted to vent high output pressures; generating an output pressure proportional to the input signal pressure. 6. The method of claim 5, further comprising the step of coupling a baffle to the vent plug, the baffle adapted to counteract back pressure generated by the output flow.