EXP / EXPL
Inputs
Input |
Data Type |
Range |
Unit |
Default |
Description |
---|---|---|---|---|---|
IN |
REAL / LREAL |
|
|
|
Real value. |
Outputs
Output |
Data Type |
Range |
Unit |
Description |
---|---|---|---|---|
Q |
REAL / LREAL |
|
|
Result: Natural exponential of IN. |
Remarks
None
FBD Language Example
FFLD Language Example
- In the FFLD Language, the conversion is executed only if the input rung (EN) is TRUE.
- The output rung (ENO) keeps the same value as the input rung.
- The function is executed only if EN is TRUE.
- ENO has the same value as EN.
IL Language Example
- In the IL Instruction list - This is a low-level language and resembles assembly. Language, the first input must be loaded before the function call.
Op1: LD Ladder diagram - This is a method of drawing electrical logic schematics. It is a very popular graphical language for programming Programmable Logic Controllers (PLCs). It was originally invented to describe logic made from relays. The name is based on the observation that programs in this language resemble ladders, with two vertical rails and a series of horizontal rungs between them. IN
EXP
ST Structured text - A high-level language that is block structured and syntactically resembles Pascal. Q (* Q is: EXP (IN) *)
ST Language Example
Q := EXP (IN);