Abstract: The disclosure provides systems and methods for data analysis of experimental data. The analysis can include reference data that are not directly generated from the present experiment, which reference data may be values of the experimental parameters that were either provided by a user, computed by the system with input from a user, or computed by the system without using any input from a user. Another example of such reference data may be information about the instrument, such as the calibration method of the instrument.

Abstract: There are disclosed methods of making RFID transponder webs and intermediate webs such as RFID strap webs and antenna webs, as well as such webs per se.

Abstract: There are disclosed methods of making RFID transponder webs and intermediate webs such as RFID strap webs and antenna webs, as well as such webs per se.

Abstract: There are disclosed methods of making RFID transponder webs and intermediate webs such as RFID strap webs and antenna webs, as well as such webs per se.

Abstract: There are disclosed methods of making RFID transponder webs and intermediate webs such as RFID strap webs and antenna webs, as well as such webs per se.

Abstract: There are disclosed methods of making RFID transponder webs and intermediate webs such as RFID strap webs and antenna webs, as well as such webs per se.

Abstract: There are disclosed methods of making RFID transponder webs and intermediate webs such as RFID strap webs and antenna webs, as well as such webs per se.

Abstract: A rigid casing provides support and protection for two separate fiber optic jumper cables of a fiber optic test set and which may be wound on two separate spools for extension and retraction relative to the casing. A selected length of one of the cables may be extended from the casing and connected to a part of a fiber optic circuit to be tested, following which a selected length of the other cable may be extended from the casing and connected to another part of the circuit. The spools are capable of rotation about a common axis with and relative to one another. The cables have confronting ends at the axis of rotation of the spools and in axial alignment so that light energy emitted from either cable may be received by the other without interruption.

Abstract: Storage and dispensing apparatus for use with a unitary length of coilable fiber optic cable having a minimum bending radius, such apparatus having a casing within which is journaled a rotatable spool having two grooves in which relatively long and relatively short lengths of the cable may be coiled. One end of the cable is coupled to a connector that is releasably retained on the spool for rotation therewith. The opposite end of the cable is joined to a connector which is extendible from and retractable into the casing in which the spool is journaled. The casing is formed of rigid plastic material which protects the cable against damage from externally applied forces. No part of the cable within the casing is subject to being bent about a radius less than the minimum bending radius.

Abstract: A protective carrier for a fiber optic cable comprises a casing within which is a rotor rotatable in a selected one of two opposite directions. The rotor supports the cable at the axis of rotation of the rotor and the cable extends in opposite directions from such axis and is guided to axially spaced peripheral grooves in which a major portion of the retracted cable is accommodated. From each of the grooves opposite ends of the cable extend through openings in the casing and are coupled to terminations by means of which the cable may be connected to terminals. The openings into the casing accommodate and shield the connectors. The casing is sufficiently rigid to protect the cable and terminations from damage. The path of movement of the cable into and out of the casing is such that the cable is not subjected to kinking or bending in such manner as to damage the cable or attenuate the signal carried by the cable.

Abstract: An adaptive control device (77) and method (102-108) for control of the operation of an actuator (72), and particularly thermally-powered actuator (72) of the type used in a variable-air-volume diffuser (71). The preferred adaptive control device is an expert system circuit which controls a heater (74) provided on a thermally-powered actuator (72) to implement an adaptive process (102-108) in which a sensed variable, such as room air temperature, is driven toward a target temperature control range (±0.25° F.). Most preferably, the process steps (106) include driving the room air temperature toward a gross (broader) temperature control range (±1.0° F.) by moving a diffuser damper assembly (80) to a substantially fully open or substantially fully closed position.

Abstract: An apparatus and process for individual adjustment of the temperature set points of a plurality of VAV devices (27, 29) in an HVAC system. The process includes the step of directly, or indirectly through a network server (61), coupling each of a plurality of computers (34) located in a plurality of offices or spaces (22) for input of a temperature set point based signal. The computers (34) are coupled to the VAV devices (27, 29) such that a selected computer can be used to adjust the temperature set point of only VAV devices (27, 29) located in the same space (22) as the selected computer (34). Such coupling can be wired or wireless, based upon the use of computer networks (36, 42) which are connected to the VAV devices (27, 29) directly or through the building HVAC control network (32) or through a network server (61), which also is accessed by the building control computer (24).

Abstract: An adaptive control device (77) and method (102-108) for control of the operation of an actuator (72), and particularly thermally-powered actuator (72) of the type used in a variable-air-volume diffuser (71). The preferred adaptive control device is an expert system circuit which controls a heater (74) provided on a thermally-powered actuator (72) to implement an adaptive process (102-108) in which a sensed variable, such as room air temperature, is driven toward a target temperature control range (±0.25° F.). Most preferably, the process steps (106) include driving the room air temperature toward a gross (broader) temperature control range (±1.0° F.) by moving a diffuser damper assembly (80) to a substantially fully open or substantially fully closed position.

Abstract: An adaptive control device (77) and method (102-108) for control of the operation of an actuator (72), and particularly thermally-powered actuator (72) of the type used in a variable-air-volume diffuser (71). The preferred adaptive control device is an expert system circuit which controls a heater (74) provided on a thermally-powered actuator (72) to implement an adaptive process (102-108) in which a sensed variable, such as room air temperature, is driven toward a target temperature control range (±0.25° F.). Most preferably, the process steps (106) include driving the room air temperature toward a gross (broader) temperature control range (±1.0° F.) by moving a diffuser damper assembly (80) to a substantially fully open or substantially fully closed position.

Abstract: An apparatus and process for individual adjustment of an operating parameter of a plurality of environmental control devices, such as VAV devices (27, 29) in an HVAC system. The process includes the step of connecting at least one of computers (34) for input of a parameter control set point based signal and a unique VA device identifying signal through an Internet website (71) to the plurality of HVAC devices (27, 29). The computer (34) is, for example, connected to the VAV devices (27, 29) such that the computer (34) can be used to adjust the temperature set point of only one of the plurality of VAV devices (27, 29), most typically the device located in the same space (22) as the communicating computer (34). Such computer (34) can be wired or wireless, and use the global computer network website (71) to connect to the VAV devices (27, 29) through a building computer (24) and local area network (32).

Abstract: A release coating composition containing about 50 to about 75 wt. % of an epoxy functional silicone; about 8 to about 25 wt. % of a reactive solvent; about 5 to about 25 wt. % of a reactive diluent; about 6 to about 12 wt. % of a wax-treated silica powder; and, about 2 to about 4 wt. % of a photoinitiator is disclosed. The composition is useful in preparing a low-gloss release coating for use on linerless labels.

Abstract: An apparatus and process for individual adjustment of the temperature set points of a plurality of VAV devices (27, 29) in an HVAC system. The process includes the step of coupling each of a plurality of computers (34) located in a plurality of offices or spaces (22) for input of a temperature set point signal. The computers (34) are coupled to the VAV devices (27, 29) such that a selected computer will input or adjust the temperature set point of only VAV devices (27, 29) located in the same space (22) as the computer (34). Such coupling can be accomplished through direct electrical connections (33), transmitted signals (37, 38), or the use of computer networks (36, 42) which are connected to the VAV devices (27, 29) directly or through the building HVAC control network (32).

Abstract: There is disclosed a roll of a pressure sensitive adhesive-backed linerless label web with lines of perforation cuts comprised of alternating cuts and ties. The tie at each side margin of the web is weaker than the next adjacent tie to prevent winging up of tabs at the side margins of the web during unwinding of the roll and/or during feeding of the web through a printer, and yet the cuts in the side margins facilitate the initiation of tearing of labels from the web when desired but the weak ties are easy to tear manually and do not substantially impede such initiation of manually tearing.

Abstract: There is disclosed a spliced web of linerless labels in roll form and a method of making same. The Webs have lines of partial severing along their lengths and the splice is made between two adjacent webs by a frangible tape which enables the labels at the splice to be separated by tearing, and wherein the remainder of the labels are separable by tearing along the transverse lines of partial severing.

Abstract: A release coating composition containing about 50 to about 75 wt. % of an epoxy functional silicone; about 8 to about 25 wt. % of a reactive solvent; about 5 to about 25 wt. % of a reactive diluent; about 6 to about 12 wt. % of a wax-treated silica powder; and, about 2 to about 4 wt. % of a photoinitiator is disclosed. The composition is useful in preparing a low-gloss release coating for use on linerless labels.