Model description. FCB-FF3W1 EO/OE Box with SMPTE HFO Connector (Female) FCB-FM3W2 EO/OE Box with SMPTE HFO Connector (Male) FCB-OF3W1 EO/OE Box with Japanese HFO Connector (Female) FCB-OM3W2 EO/OE Box with Japanese HFO Connector (Male) ★ ★ ★ ★ Key Features and Benefits • All-in-one solution EO/OE modules and power unit • Ideal for outside broadcasting • Maximizing existing HFO camera assemblies • Flexible configuration for EO/OE modules • AC and DC input redundancy Specifications ★ Production by order FCB-FF3W1 Model FCB-FF3W1 FCB-FM3W2 FCB-OF3W1 FCB-OM3W2 EO/OE Config. SDI1 Slot EO-100 OE-101 EO-100 OE-101 SDI2 Slot OE-101 EO-100 OE-101 EO-100 HFO Connector Canare FCFR (SMPTE, Female) Canare FCMR (SMPTE, Male) Canare OCFR(Jananese, Female) Canare OCMR (Japanese, Male) SDI I/O Connector 2x 75 ohm BNC EXT Connector 2x XLR3 Female 2x XLR3 Male 2x XLR3 Female 2x XLR3 Male Power Requirement AC100 to 240V, DC 12V Power Consumption Max. 10W Power Connector AC3P Jack XLR4 Male (DC) Operating Temperature 0 to 40°C Dimensions 210x 44x 240mm Weight 1300g Rear view Hybrid Camera Cable Checkers Hybrid Camera Cable Checker Fiber-Optic Systems Canare Cable Checker allows fast, easy confirmation of HFO cables in the field. No heavy equipment to drag around. The compact design features a backlight digital display to measure optic loss/power and electrical continu- ity. Small and light, Canare cable checker helps make mobile installations smooth, secure and constant. Kit Model Individual Model Measuring Unit Loop-back Unit FCT-FCKIT FCT-FC FCT-FCLB FCT-OCKIT FCT-OC FCT-OCLB Connectors Key Features and Benefits • Compact, hand-held design • Measured optical loss and power in addition to electrical signals • 2x AA, 20 hours battery life • The kit includes TB-3 storage case, soft cases, AA Batteries, and cleaning sticks Cables Specifications Kit Model FCT-FCKIT FCT-OCKIT Connector SMPTE/ARIB (Canare FC Series) JAPANESE (Canare OC Series) LD XX-XX Wavelength 1310nm Sensitivity -24 to -2dBm Maximum Length 3.5km (Xxxxxx XX-2SM9R) Optic Lines Two Lines: Power and Loss Copper Lines Power, Control, and Shield: Connectibility Battery/Life 2pcs of AA/ Approx. 20hours Operating Temperature -10 to 60°C Dimensions FCT-FC/OC: 46x 46x 150mm FCT-FCLB/OCLB: 46x 46x 65mm Weight FCT-FC/OC: 380g FCT-FCLB/OCLB: 170g Accessories Included TB-3 storage case, soft cases, AA Batteries, and cleaning sticks Panels & Patchbays CE, FCC, FDA registered FCT-FCLB Hybrid Camera Cable FCT-FC Multichannel Systems United States...
Model description. The interface agreement in the Min-max case consists of the repair shop having to maintain the inventory level of the Ready-For-Use parts equal to or above a minimum level. The control mechanism of the repair shop is a priority rule, based on the inventory level of SKUs, to adhere to this agreement. The priority rule used is taken into account in the model. The exact priority rule will be explained later on in this section. Inventory control specifies the turn-around stock and minimum levels for every SKU. The values for the turn-around stock and minimum levels are input parameters of the model. . The model developed has five input variables which are unique characteristics for a SKU: • Identity number • Demand intensity • Minimum level • Parameters of the Gamma distribution of the repair time of that particular SKU • Turn-around Stock These values are needed as input parameters for the different elements in the model. In the following subsections, different sub processes are explained in more detail.
Model description. The model which uses the Lead-time interface agreement is similar to the model which makes use of the Min-max interface agreement. In the Lead-time interface agreement it is agreed that the repair shop must repair parts within a given lead-time. There are two kinds of lead-times, a regular lead-time and an emergency lead-time. The agreement specifies also the length of the regular lead-time and the emergency lead-time and what percentage of parts can get an emergency lead-time.
Model description. The purpose of the Professional Growth Option (PGO) is professional growth and improvement for the employee and student achievement. The PGO is a voluntary evaluation model that provides employees instructional improvement opportunities based on a plan developed from specific goals.
Model description. 𝚲𝑚 = 𝚲0 − 𝐾√𝐶
Model description μ̅ = μ + ϕ ϕ = ϕ0⁄- this dependence of the potential is for simplicity and should be used only for calculation, should not be shown to the user
Model description. RT 𝑎Ox Red E=𝐸eq − nF ln 𝑎
Model description. RT xx = 𝑗0 ∗ 𝑒 (1−𝝰)𝑛𝐹 η 𝑅𝑇 xx = −𝑗0 ∗ 𝑒−αnF𝜂 j=xx+xx η=E − 𝐸eq
Model description. For anodic reactions: η = + ∗ (||) For cathodic reactions: = − (1 − α) 0 = (1 − α) 2.3 = = −α α 0 2.3
Model description. The binary classifier aims to detect which patients belong to the low decreasing QoL trajectory (positive class) during the 18 month period from baseline. The negative class emerges from the grouping of the high increasing and moderate QoL trajectory clusters identified during trajectory analysis (D4.3b), as depicted in Fig. I3.
