26 Results for the search "Example":
Digitial Twin Toolbox
Description:
The Digital Twin toolbox provides an example demonstrating how to synchronize EMTP device parameters with data received from a sender (Sender) through TCP/IP using the WebSocket protocol. A receiver (... see moreReceiver) accepting data in string format is also provided and may be started from the “Digital Twin Receiver” button device of the Digital Twin library.
To install:
- Download and unzip the file
- start the installer. Select the folder of the EMTPWorks version you which to add the Digital Twin Toolbox.
- Restart EMTP. A new Digital Twin library and a new Digital Twin example should be available.
More information is available from the help file of the Digital Twin device of the library.
Tag(s): digital twin, TCP, IP, scada, control room
Electrical Transients in Power Systems Example in EMTP
Description:
RL and RLC circuit, and the simple TRV example from Chapter 3 of the textbook 'Electrical Transients in Power Systems' by Allan Greenwood - modeled in EMTP.
Tag(s): trv, simple, rlc, greenwood, allan greenwood, electrical transients
AC line pipeline magnetic coupling
Description:
Example of overvoltage induced by magnetic coupling between a line and a pipeline
Tag(s): pipeline, coupling, induced, overvoltage
Vary parameters, start simulation and export scope waveforms by script
Description:
This script is a simple example to learn how to script.
The script is started from the EMTP design by double clicking on the 'Script1' grey button.
The script example:
... see more
- varies a fault resistance
- runs a simulation for each value
- exports results of a selected list of scope in MAT and ASCII formats
- returns Min and Max
Tag(s): script, script, ASCII, MAT, parametric, minimum, maximum
AC and DC components meter
Description:
This example contains a device which calculates the DC and AC components.
- The DC component is available in the DC control scope with half
a cycle delay versus the simulation time
- ... see moreThe AC component is available in the DC control scope with one
cycle delay versus the simulation time
Once the maximum DC magnitude is reached, the time constant is
determined assuming the DC decay is exponential and uninterrupted
Tag(s): DC, AC, exponential, meters, zero-crossing, asymmetry, fault