초록 ▼

An apparatus for communication of electric or electromagnetic signals over air includes a transmitter or receiver and a coupler. The coupler has a capacitive circuit connected with an air-core or dielectric-core transformer. The capacitive circuit resonates with the transformer at a preselected freq

An apparatus for communication of electric or electromagnetic signals over air includes a transmitter or receiver and a coupler. The coupler has a capacitive circuit connected with an air-core or dielectric-core transformer. The capacitive circuit resonates with the transformer at a preselected frequency. The coupler eliminates noise and is matched to the characteristic impedance of the air at the preselected frequency, which linearizes communication and allows high-speed data and voice communication over long distances.

대표청구항 ▼

An apparatus for communication of electric or electromagnetic signals over air includes a transmitter or receiver and a coupler. The coupler has a capacitive circuit connected with an air-core or dielectric-core transformer. The capacitive circuit resonates with the transformer at a preselected freq

An apparatus for communication of electric or electromagnetic signals over air includes a transmitter or receiver and a coupler. The coupler has a capacitive circuit connected with an air-core or dielectric-core transformer. The capacitive circuit resonates with the transformer at a preselected frequency. The coupler eliminates noise and is matched to the characteristic impedance of the air at the preselected frequency, which linearizes communication and allows high-speed data and voice communication over long distances. n to the developing roller. 6. The developing apparatus according to claim 5, wherein said layer-thickness regulating roller has a central portion along the axial direction thereof and end portions that are electrically insulated from the central portion, and the developing apparatus further comprises means for applying a bias voltage to the end portions for preventing adhesion of toner to the end portions of the resilient developing roller. 7. The developing apparatus according to claim 6, further comprising a scraping blade located in pressured contact with a central portion of said layer-thickness regulating roller with respect to the axial direction thereof and with end portions of said roller, said scraping blade adapted for scraping off toner that has adhered to the layer-thickness regulating roller. 8. The developing apparatus according to claim 1, wherein said developing roller is configured for contacting and separating from the surface of said image carrier, both ends of said developing roller comprise contact rollers, and said contact rollers are in abutting contact with both ends of said image carrier to regulate the width of said development nip zone. 9. The developing apparatus according to claim 1, further comprising means for moving said image carrier and said developing roller to mesh a gear located on a flange of the image carrier with a gear located on an end of the developing roller, whereby drive force from said image carrier is transmitted to the developing apparatus. 10. The developing apparatus according to claim 9, further comprising separation means for causing said developing apparatus to separate from said image carrier, wherein the gear located on said image carrier and the gear located on said developing roller are slightly meshed when said image carrier and said developing roller are in a separated state. 11. The developing apparatus according to claim 10, further comprising a cam in abutting contact with a portion of the developing apparatus for being turned at introduction of power to thereby move the developing apparatus in such a manner that said developing roller is pressed against said image carrier, and by provision of a capacitor charged when power is being introduced, wherein said capacitor is switched over to act as a power source at cut-off of power, thereby rotating said cam and moving the developing apparatus in such a manner that said developing roller moves in a direction in which it separates from said image carrier. 12. The developing apparatus according to claim 1, wherein the thin layer of toner formed on said resilient developing roller is a uniform layer of one to three layers of toner. 13. The developing apparatus according to claim 1, wherein said means for forming said thin toner layer comprises a layer-thickness regulating roller placed in opposition to the developing roller. 14. The developing apparatus according to claim 13, wherein said layer-thickness regulating roller has a central portion along the axial direction thereof and end portions that are electrically insulated from the central portion, and further comprises means for applying a bias voltage to the end portions for preventing adhesion of toner to the end portions of the resilient developing roller. 15. The developing apparatus according to claim 14, further comprising a scraping blade in pressured contact with a central portion of said layer-thickness regulating roller with respect to the axial direction thereof and with end portions of said roller, said scraping blade adapted for scraping off toner that has adhered to the layer-thickness regulating roller. 16. A developing apparatus for forming a thin layer of toner, comprising: a resilient developing roller for receiving a non-magnetic single-component toner; and means for bringing said roller into abutting contact with a surface of a drum-shaped image carrier, whereby toner on the resilient developing roller is supplied to an electrostatic latent ima ge that previously formed on the surface of the image carrier, thereby developing the electrostatic latent image, wherein: moving the image carrier and the resilient developing roller in a forward direction so that a travelling speed of the image carrier and a peripheral speed of the resilient developing roller become substantially identical, and setting an amount of bite by which the surface of the image carrier bites into the resilient developing roller and width of a development nip zone that extends from a point at which the resilient developing roller starts to contact the image carrier to a point at which the resilient developing roller breaks contact with the image carrier, so that the resilient developing roller breaks contact with the image carrier while a travelling speed of a local portion of the resilient developing roller in contact with the surface of the image carrier gradually decreases from the point at which contact starts and thenceforth gradually returns to the original speed owing to resilience of the resilient developing roller, a layer-thickness regulating roller located in opposition to the developing roller and serving as means for forming said thin toner layer has a central portion along the axial direction thereof and end portions that are electrically insulated from the central portion, and a bias voltage for preventing adhesion of toner to the end portions of the resilient developing roller is applied to the end portions. 17. The developing apparatus according to claim 16, further comprising a scraping blade located in pressured contact with a central portion of said layer-thickness regulating roller with respect to the axial direction thereof and with end portions of said roller, said scraping blade adapted for scraping off toner that has adhered to the layer-thickness regulating roller. 18. A developing apparatus for forming a thin layer of toner, comprising: a resilient developing roller for receiving a non-magnetic single-component toner; and means for bringing said roller into abutting contact with the surface of an image carrier, whereby toner on the resilient developing roller is supplied to an electrostatic latent image previously formed on the surface of the image carrier, thereby developing the electrostatic latent image, wherein: moving the image carrier and the resilient developing roller in a forward direction in such a manner that a travelling speed of the image carrier and a peripheral speed of the resilient developing roller become substantially identical, setting an amount of bite by which the surface of the image carrier bites into the resilient developing roller and width of a development nip zone that extends from a point at which the resilient developing roller starts to contact the image carrier to a point at which the resilient developing roller breaks contact with the image carrier so that the resilient developing roller breaks contact with the image carrier while travelling speed of a local portion of the resilient developing roller in contact with the surface of the image carrier gradually decreases from the point at which contact starts and thenceforth gradually returns to the original speed owing to resilience of the resilient developing roller, moving said image carrier and said developing roller to mesh a gear located on a flange of the image carrier with a gear located on an end of the developing roller, whereby drive force from said image carrier is transmitted to the developing apparatus; and by having separation means for causing said developing apparatus to separate from said image carrier, wherein the gear located on said image carrier and the gear located on said developing roller are slightly meshed when said image carrier and said developing roller are in a separated state. 19. The developing apparatus according to claim 18, further comprising a cam in abutting contact with a portion of the developing apparatus for being turned at introduction