CoilBuilder_99 Crack With Product Key Free X64 In order to calculate the number of coils required for a given inductor application, the coil design of the particular inductor coil must be known. Such information can be obtained by using the coil builder application "CoilBuilder". Coil Builder can be run in conjunction with the coil design utility "COILCALC". This software will produce a computer-readable format data file (COIL) of the coil design that contains all the data required to construct the coil. The COIL format is similar to the design data used to fabricate an inductor coil on a winding machine. The core size and core mix used in the coil design is also important in order to obtain a given inductance. The core size and core mix may be obtained from catalogs or from design software. For maximum inductance coil designs of iron core type inductors the core size is usually 12.5mm or 13mm. For lower inductance values the core size can be increased to 18mm. The core mix will affect the permeability of the core. In general, higher permeability cores tend to have lower losses than lower permeability cores. By changing the core mix a permeability of between 0.4 to 1.2 can be achieved for a given core size. The iron core type inductor can be fabricated using two different winding materials. One is ferrite and the other is polyester. Ferrite wound inductors are more expensive and have less current carrying capability than polyester wound inductors. Polyester has a higher permeability than ferrite. However, ferrite wound inductors have a higher permeability and are therefore less costly and have greater current carrying capacity. CoilBuilder contains the design data for a wide range of ferrite wound inductor sizes from 5.0mm up to 5.4mm. The coil design data and the related calculations are presented as a single unit. All of the basic design parameters are included on one sheet of paper. Both ferrite and polyester designs are included. The maximum number of turns on a given iron core type inductor coil is important. Generally the maximum number of turns is between 15 and 24. The number of turns on the wire may be reduced if a short or stepped winding configuration is used. In some applications a coil will be wound over a special wound core. In such cases the winding data for the special wound core can be added to the data file and the required winding data can be entered manually. Enter the data as the desired inductance and then the CoilBuilder_99 Free Download PC/Windows CoilsBuilder_99 is a handy application designed for iron inductor calculations. Enter desired inductance, select core size and mix and press the Calculate button to determine the correct number of windings for your inductor. Data is also given showing, core color, permeability, frequency range, AL value and maximum number of turns versus wire guage for the chosen core size. Encompasses 12 different core sizes and 8 different mixes of powdered iron. Calculated results can be stored on a disk file or printed out. There are two methods for installing: 1. Use the drop down menu to select the paper tape file. 2. You can select the file from the command line. This will cause the file to be loaded as the first command line argument. For example: 8e68912320 CoilBuilder_99 Crack + With Serial Key Download Windings Calculations: - Calculates magnetic wire numbers for an inductor in the following core sizes and mixes: 1-4 10-15 20-25 4-6 10-15 20-25 8-10 10-15 20-25 2-4 10-15 20-25 6-8 10-15 20-25 12-20 10-15 20-25 4-6 10-15 20-25 8-10 10-15 20-25 - Calculates inductance values for core sizes 1-4, 10-15 and 20-25. FeCoC parameters are required. These are given on the website. - Calculates magnetic wire numbers for an inductor with the given core size and mixes. Note: The function always finds the maximum core size that can be accommodated, so windings will be larger than for the size and mixes that are given as parameters. - Calculates inductance values for core sizes 1-4, 10-15 and 20-25. - Calculates the voltage drop across an inductor. - Calculates maximum current for the given inductor. - List all available core sizes. - List all available mixes. - List all available core sizes with the given mixes. Core size selected (1-4 10-15 20-25) Mix selected (FeCo) Wire size selected (10-15) Calculate Current in Amps Max. Inductance in henries Max. Current in Amps Available core sizes Available mixes Selected mix (FeCo) Selected core size (1-4 10-15 20-25) Available core sizes with mix (1-4 10-15 20-25) Available mixes with core size (1-4 10-15 20-25) You have reached the end of the list. - Calculates voltage drop across an inductor. Voltage (V) Winding numbers Winding number (w) Frequency (Hz) Maximum number of turns Inductance (H) You have reached the end of the list. - Calculates maximum current for the given inductor. Calculated Max current in Amps Min. Voltage drop in volts Calculated inductance in henries Calculated voltage drop in volts F What's New in the CoilBuilder_99? System Requirements: Minimum specifications: OS: Win7 64-bit Processor: 1.3GHz or faster Memory: 4GB RAM Graphics: DirectX9-compatible with hardware acceleration enabled DirectX: Version 9.0c Network: Broadband internet connection Hard Disk Space: 30GB free space Recommended specifications: Processor: 2.5 GHz or faster Memory: 8GB RAM Graphics: DirectX10-compatible with hardware acceleration enabled
Related links: