In this Video it is shown, how to use the optocoupler output (Output 3) of the PTP time converter TICRO 100. The optocoupler output is needed, when a non PTP Equipment requires a signal level higher than 5V. In this example the generation of a Pulse Per Minute (PPM) Signal with a voltage level of...
The video shows how the Precision Time Protocol (PTP) according IEEE 1588-2008 can be converted into conventional time codes like IRIG-B, DCF77 and PPX Pulses using the PTP time converter TICRO 100. The TICRO 100 offers an easy way to integrate non-PTP capable devices into IEEE 1588 infrastructures.
In this video it is shown how non-PTP capable protection relays can be integrated into IEEE 1588 time synchronization infrastructures using the PTP time converter TICRO 100.
Precise time synchronization of protection relays, synchrophasors and other IEDs in the electric power industry is essential for assured power availability.
In this guide Dr. Tomasz Zawada from TOOsonix explains the most important parameters of piezoceramic components and how to measure them using the Bode 100
With the release of the IEC 61850-9-3 “Power Utility Profile” in the middle of 2015, the precision time protocol (PTP) defined in IEEE 1588-2008 became officially an integral part of the 61850 world. But what does this mean for the planning of future substation environments? Will 9-3 replace the...
In this document, we show how to measure the dielectric response of different liquid insulation materials using SPECTANO 100 and the Liquid Test Fixture 16451A from Keysight.
A huge number of electrical protection relays is installed worldwide. But the time synchronization of these devices can be improved a lot. By synchronizing them to a trustable time source, the analysing of event recordings becomes a lot easier for the protection engineer.
This paper shows, how to...
Machine vision-, high speed camera- and industrial automation applications require an accurate time synchronization.
The Budapest University of Technology and Economics (BME) uses the antenna-integrated PTP Grandmaster Clock OTMC 100i for several scientific research applications. In the provided report a provides a detailed evaluation of the OTMC 100i Grandmaster Clock and its applications at the BME's department...
At the latest, when the reasons for power failures or black outs in which more than one power utility is involved must be analysed, the importance of accurate and precise time stamps of events becomes visible. Experiences from the past show, that aligning data from different utilities can often take...
In this document we show how to measure the dielectric response of different solid insulation materials using SPECTANO 100 with the Dielectric Test Fixture 16451B from Keysight.
A lot of IEDs (Intelligent Electronic Devices) installed around the world are not supporting modern time synchronization with IEEE 1588. TICRO 100 is used to integrate such devices into IEEE1588/PTPv2 time synchronization infrastructures.
This video starts with a comparison between the Network Time Protocol (NTP) and the Precision Time Protocol (PTP) according to IEEE 1588-2008. Further on it describes, how the antenna-integrated PTP Grandmaster Clock OTMC 100 can be used as an NTP server and PTP server at the same time.
In this short video, Dr. Ali Shirsavar from Biricha describes the contents of TI's Digital Power Workshop. The video details the workshop content, the equipment used in the lab and what the attendees can expect to learn.
This collection of articles shows how the high-frequency behavior of electrical machines can be used to assess and monitor the insulation condition of the machine.
This Appnote explains how the Bode 100 can be used to measure cable parameters such as the cable's dielectric constant. Further on it is demonstrated how the Bode 100 can be used to determine the position of a cable break.
Very often it is useful to know the equivalent circuit of a certain component. This application note demonstrates a simple way to get the equivalent circuit of a quartz crystal using the Bode 100.
RFI (radio frequency interference) respectively EMI (electromagnetic interference) behavior is very important in nowadays electronic devices. We show how the characteristic of a standard RFI or EMI filter can be measured using the Bode 100.