Abstract: In a smart or intelligent electrical connector assembly, a printed circuit board (PCB) mounted in a first connector has circuit traces that extend from various locations on the PCB to a single, particular area between edges of the PCB. Components such as switches and microcontrollers for controlling the connector assembly circuits are electrically connected to the traces at the various locations. A terminal block is mounted at the single, particular area. The terminal block has terminals with ends electrically connected with the traces. The other ends of the terminals extend outward from surfaces of the block towards the edges of the PCB. Wire harness terminals within the first connector and within a second, mating connector of the assembly electrically connect with the terminal block terminals.

Abstract: Crystal growth can be initiated and controlled by dynamically controlled vapor diffusion or temperature change. In one aspect, the present invention uses a precisely controlled vapor diffusion approach to monitor and control protein crystal growth. The system utilizes a humidity sensor and various interfaces under computer control to effect virtually any evaporation rate from a number of different growth solutions simultaneously by means of an evaporative gas flow. A static laser light scattering sensor can be used to detect aggregation events and trigger a change in the evaporation rate for a growth solution. A control/follower configuration can be used to actively monitor one chamber and accurately control replicate chambers relative to the control chamber. In a second aspect, the invention exploits the varying solubility of proteins versus temperature to control the growth of protein crystals.

Abstract: In an FOT connector housing which couples and retains an FOT and an optical fiber with the object of maintaining a desired distance between an FOT interface and the optical fiber, an EMI shield for the FOT comprising an FOT metal casing which maintains the interface side of the FOT in contact with a wall of the casing, the wall of the casing having a thickness designed to achieve and maintain the desired distance between the FOT interface and the optical fiber, the metal casing further including a spring member acting against the FOT cavity to maintain the FOT interface at the desired distance from the optical fiber under spring tension.

Abstract: Crystal growth can be initiated and controlled by dynamically controlled vapor diffusion or temperature change. In one aspect, the present invention uses a precisely controlled vapor diffusion approach to monitor and control protein crystal growth. The system utilizes a humidity sensor and various interfaces under computer control to effect virtually any evaporation rate from a number of different growth solutions simultaneously by means of an evaporative gas flow. A static laser light scattering sensor can be used to detect aggregation events and trigger a change in the evaporation rate for a growth solution. A control/follower configuration can be used to actively monitor one chamber and accurately control replicate chambers relative to the control chamber. In a second aspect, the invention exploits the varying solubility of proteins versus temperature to control the growth of protein crystals.

Abstract: Crystal growth can be initiated and controlled by dynamically controlled vapor diffusion or temperature change. In one aspect, the present invention uses a precisely controlled vapor diffusion approach to monitor and control protein crystal growth. The system utilizes a humidity sensor and various interfaces under computer control to effect virtually any evaporation rate from a number of different growth solutions simultaneously by means of an evaporative gas flow. A static laser light scattering sensor can be used to detect aggregation events and trigger a change in the evaporation rate for a growth solution. A control/follower configuration can be used to actively monitor one chamber and accurately control replicate chambers relative to the control chamber. In a second aspect, the invention exploits the varying solubility of proteins versus temperature to control the growth of protein crystals.