Differences
This shows you the differences between two versions of the page.
Both sides previous revisionPrevious revisionNext revision | Previous revisionNext revisionBoth sides next revision |
glossary:glossary_e [2018/11/09 11:49] – Bob Vetterlein | glossary:glossary_e [2019/04/07 19:24] – [ESR] Bob Vetterlein |
---|
A coil of wire in air or on a former that if current is passed through the wire a magnetic field will be produced \\ {{:glossary:el-mag.gif}} \\ [[http://www.le.ac.uk/se/centres/sci/selfstudy/mam11.htm|http://www.le.ac.uk/se/centres/sci/selfstudy/mam11.htm]] | A coil of wire in air or on a former that if current is passed through the wire a magnetic field will be produced \\ {{:glossary:el-mag.gif}} \\ [[http://www.le.ac.uk/se/centres/sci/selfstudy/mam11.htm|http://www.le.ac.uk/se/centres/sci/selfstudy/mam11.htm]] |
| |
| ===== Engine Driver ===== |
| |
| DCC throttle for Android phone app |
| [[https://enginedriver.mstevetodd.com|]] |
=====ESD===== | =====ESD===== |
A Discharge of high voltage Static Electricity that can destroy some types of semi-conductor components. Often caused by friction with a good insulator, such as synthetic clothing in a dry atmosphere. | A Discharge of high voltage Static Electricity that can destroy some types of semi-conductor components. Often caused by friction with a good insulator, such as synthetic clothing in a dry atmosphere. |
[[https://en.wikipedia.org/wiki/Equivalent_series_resistance|Equivalent Series Resistance]] | [[https://en.wikipedia.org/wiki/Equivalent_series_resistance|Equivalent Series Resistance]] |
| |
| =====EV===== |
| __E__vent __V__ariable a [[glossary:glossary_c#cbus|CBUS]] term referring to a value which controls the action to be taken by a 'consumer' module when a specific event is received. One or more EVs are associated with each event that a module should respond to. As an example in the CANACC8 there are two EVs per event, in the first a set (1) bit indicates that the associated output is affected and normally follows the 'state' of the event. The second EV is a modifier and any set (1) bit that matches EV1 will invert the action for that output. So if the two EVs for a given event were 00000011 & 00000010 then on receipt of that event output 1 would assume the 'state' defined by the event while output 2 would assume the inverse. |