Abstract: A method for creating a security mark includes applying a first color fluorescence ink to a substrate and applying a second color fluorescent ink to the substrate is provided. The second color fluorescent ink overlies at least a portion of the substrate where said first color fluorescent ink is applied. A third color is applied to the substrate adjacent the substrate area where said second color fluorescent ink is applied. The first color fluorescent ink, the second color fluorescent ink and the third color border are such that a security mark is formed on the substrate. The blue color fluorescence, the red color fluorescence and the third color on the substrate are such that when viewed through a lens the security mark optical characteristics change. The change is from the optical characteristics of the security mark when the security mark is not illuminated with fluorescence-exciting radiation to a different optical characteristics when the security mark is illuminated with fluorescence exciting radiation.

Abstract: A method, system and article for producing an envelope having improved seal integrity. A method includes the steps of: disposing at least one material at the interface of the adhesive seal between the flap and the body portion of the envelope, which material radiates thermal energy when combined with an activating agent. The envelope is then sealed by closing the flap onto the body portion of the envelope and combining the material with the activating agent at the sealing interface so as to change the thermal energy radiated therefrom. The seal is then inspected to determine whether the thermal energy radiated from the activated material has changed thereby confirming that a seal has been produced between the flap and body portion of the envelope. The system and article are directed to the various modules of a mailpiece fabrication system employed to produce the mailpiece including an inspection module for confirming that a seal has been formed.

Abstract: A method, system and article for producing an envelope having improved seal integrity. The method comprises the steps of disposing at least one material at the interface of the adhesive seal between the flap and the body portion of the envelope, which material exhibits a characteristic property when combined with an activating agent. The envelope is then sealed by closing the flap onto the body portion of the envelope such that the activating agent combines with the material along the sealing interface. The sealing interface is inspected to determine whether the material exhibits the characteristic property thereby confirming that a seal has been produced between the flap and body portion of the envelope. The system and article are directed to the various modules of a mailpiece fabrication system employed to produce the mailpiece including an inspection module for confirming that a seal has been formed.

Abstract: Systems and methods for providing a machine readable colored envelope and systems and methods for processing such envelopes are described. In certain examples, the machine readable colored envelopes are colored using a reversible negative photochromic colorant that bleaches when exposed to an activation energy such as ultraviolet radiation and returns to its original color after the activation energy is removed. In another example, the colorant has more than one stable color state.

Abstract: A printed indicium comprising a first section comprising a first ink having a first color under normal daylight; and a second section comprising a second different ink, wherein the second different ink comprises a photochromic or thermochromic ink which is not visible under normal daylight, the second section further comprising a third different ink which comprises a photochromic or thermochromic ink which is visible under normal daylight.

Abstract: A method and system for optimally drying ink printed on the face of a substrate material. According to the method and system, a variable output dryer is provided having at least one variable output element for producing a plurality of dryer configurations. The method further includes the steps of depositing ink on the substrate material, reflecting light energy from the face surface of the printed ink while in a liquid state and measuring the intensity of the reflected light energy to yield a penetration time indicative of the time elapsed to dry the printed ink. The dryer is then adapted to assume one of the dryer configurations based upon the penetration time; and the ink printed on the face of the substrate material is dried by the variable output dryer.

Abstract: A postage payment label is provided which includes a substrate having an image provided thereon and a postage mark. The substrate and the image are able to transmit light of one or more first wavelengths (e.g., infrared or ultraviolet light) while the postage mark is able to absorb or reflect light of the one or more first wavelengths. Moreover, the image that is provided on the substrate is able to absorb and/or reflect light of one or more second wavelengths (e.g., visible light). Accordingly, when the image is illuminated with light of the one or more second wavelengths (e.g., visible light), the image conceals a portion or all of the postage mark. The postage mark (or relevant portion thereof), however, may be viewed when the image is illuminated with light of the one or more first wavelengths and not illuminated with light of the one or more second wavelengths.

Abstract: Methods and systems that provide privacy of signatures on envelopes containing ballots are provided. The envelope for returning ballots includes a flap with a window that aligns with a signature area on the envelope. The window appears opaque under normal lighting conditions, but appears transparent when illuminated with light within a predetermined band of wavelengths. To read the signature, light having wavelength within the predetermined band can be directed onto the window, thereby rendering the window transparent and the signature visible.

Abstract: A method and system for drying printed ink on the face of a substrate material such as a mailpiece. The method comprising the steps of (i) providing a dryer having at least one variable output element for producing a plurality of dryer configurations, (ii) developing data correlating each of the dryer configurations with at least one print characteristic, (iii) storing the developed data in a memory storage device, (iv) obtaining the print characteristic associated with a particular print job and comparing the print characteristic with the developed data to define a desired dryer configuration, (v) adapting the dryer to assume the desired dryer configuration based upon the print characteristic, and (vi) drying the ink printed on the face of the substrate material. The system may include a taggant introduced into the ink and a means for identifying the taggant to determine the type of ink and the desired dryer configuration.

Abstract: Methods and systems that provide privacy of signatures on envelopes containing ballots are provided. The envelope for returning ballots includes a removable signature stub positioned on top of a signature area. The voter signs the back of the envelope on the signature stub, thereby imprinting a signature on the signature area by transferring a material from the signature stub to the signature area, and removes the signature stub. The signature is then covered by a label that conceals the signature under normal lighting conditions. To read the signature, light having a predetermined wavelength is directed onto the label, thereby rendering the label transparent and the signature visible.

Abstract: Printing systems and methods are described for multicolored thermal printing simultaneously using a plurality of thermal printing technologies to achieve multicolored output. In one configuration, a dual thermal technology thermal printer includes a single thermal media ribbon printing subsystem using a multi-temperature thermal print head capable of producing grayscale or varying intensity marking on a multi-intensity direct contact thermal media such as a grayscale media.

Abstract: Described are new custom postage printing stocks, coating compositions, processes for preparing and utilizing these and resulting postage products. Disclosed ink formulations comprise: invisible fluorescent dye and/or pigment (preferably red-fluorescent dye), which is fluorescent in the range of 580 to 640 nm when illuminated with light at 254 nm; water-soluble binder; substrate penetrant, fluorescence stabilizer; substrate anticurl agent and water. The inks, when coated on substrates and dried, can improve the quality and color of images printed as compared to images printed without the aid of the invention.

Abstract: A water-based ink for use in an ink jet printer for printing machine-readable indicia on a substrate is disclosed. The ink jet ink comprises fluorescent nanoparticles having a diameter between about 30 nm and about 100 nm; and an aqueous liquid vehicle. The aqueous liquid vehicle comprises water and a water soluble vehicle in sufficient amounts to achieve an ink viscosity and surface tension effective for application of the ink jet ink to the substrate in a predetermined pattern by ink jet printing.

Abstract: Methods and systems that provide privacy of signatures on envelopes containing ballots are provided. The envelope for returning ballots includes a flap with a window that aligns with a signature area on the envelope. The window appears opaque under normal lighting conditions, but appears transparent when illuminated with light having a predetermined wavelength. A movable signature stub is positioned on top of the signature area. The voter signs the back of the envelope on the signature stub, thereby imprinting a signature on the signature area by transferring a material from the signature stub to the signature area, and moves the signature stub. The flap of the envelope is then sealed, thereby covering the voter's signature in the signature area with the window of the envelope flap. To read the signature, light having the predetermined wavelength can be directed onto the window, thereby rendering the window transparent and the signature visible.

Abstract: A printer luminescent ink sensor for a printing device including a radiant energy source; and a photodetector located downstream from a print head of the printing device. The photodetector is adapted to detect luminescent energy from an indicium printed by the print head, upon exposure to radiant energy from the radiant energy source, substantially immediately after the indicium is printed.

Abstract: Systems and methods for providing a machine readable colored envelope and systems and methods for processing such envelopes are described. In certain examples, the machine readable colored envelopes are colored using a reversible negative photochromic colorant that bleaches when exposed to an activation energy such as ultraviolet radiation and returns to its original color after the activation energy is removed. In another example, the colorant has more than one stable color state.

Abstract: A postage payment label is provided which includes a substrate having an image provided thereon and a postage mark. The substrate and the image are able to transmit light of one or more first wavelengths (e.g., infrared or ultraviolet light) while the postage mark is able to absorb or reflect light of the one or more first wavelengths. Moreover, the image that is provided on the substrate is able to absorb and/or reflect light of one or more second wavelengths (e.g., visible light). Accordingly, when the image is illuminated with light of the one or more second wavelengths (e.g., visible light), the image conceals a portion or all of the postage mark. The postage mark (or relevant portion thereof), however, may be viewed when the image is illuminated with light of the one or more first wavelengths and not illuminated with light of the one or more second wavelengths.

Abstract: Methods and systems that provide privacy of signatures on envelopes containing ballots are provided. The envelope for returning ballots includes a flap with a window that aligns with a signature area on the envelope. The window appears opaque under normal lighting conditions, but appears transparent when illuminated with light having a predetermined wavelength. A movable signature stub is positioned on top of the signature area. The voter signs the back of the envelope on the signature stub, thereby imprinting a signature on the signature area by transferring a material from the signature stub to the signature area, and moves the signature stub. The flap of the envelope is then sealed, thereby covering the voter's signature in the signature area with the window of the envelope flap. To read the signature, light having the predetermined wavelength can be directed onto the window, thereby rendering the window transparent and the signature visible.

Abstract: Methods and systems that provide privacy of signatures on envelopes containing ballots are provided. The envelope for returning ballots includes a flap with a window that aligns with a signature area on the envelope. The window appears opaque under normal lighting conditions, but appears transparent when illuminated with light within a predetermined band of wavelengths. To read the signature, light having wavelength within the predetermined band can be directed onto the window, thereby rendering the window transparent and the signature visible.

Abstract: Printing systems and methods are described for multicolored thermal printing simultaneously using a plurality of thermal printing technologies to achieve multicolored output. In one configuration, a dual thermal technology thermal printer includes a single thermal media ribbon printing subsystem using a multi-temperature thermal print head capable of producing grayscale or varying intensity marking on a multi-intensity direct contact thermal media such as a grayscale media.