00193786-01 - 第59页
SIPLACE GEM SW Version GEM 505.01 HOST Interface Manual ©Siemens AG, all rights reserved page 59 of 236 3.11.2 Related Variables The following table lists the variables (SV's, EC's, or DVVALS) which are relevan…
SIPLACE GEM SW Version GEM 505.01 HOST Interface Manual
Page 58 of 236 ©Siemens AG, all rights reserved
A Remote Start could conflict with a Safe_Spool_Stop until spooldata ist purged or
transmitted, , see "chapter 3.10 Spooling".
S2F41 [W]
<L [2]
<A 'START'>
<L>
> .
3.11.1.2 STOP
This command will stop the processing of material at the Equipment. PCB´s currently in
process will be completed, but no new PCB will be loaded.
S2F41 [W]
<L [2]
<A 'STOP'>
<L>
> .
SIPLACE GEM SW Version GEM 505.01
HOST Interface Manual
©Siemens AG, all rights reserved page 59 of 236
3.11.2 Related Variables
The following table lists the variables (SV's, EC's, or DVVALS) which are relevant to
remote control. For a more complete description of these variables, see "Appendix A --
Variables".
Variable Name VID
PREVIOUSCOMMAND 1002029
3.11.3 Related Events
The following lists the collection events (CEIDs) which are relevant to remote control. For
a more complete description of these events, see "Appendix B -- Collection Events" or
the description in this chapter.
Collection Event CEID
OPERATORCMDINREMOTESTATE 1002056
FM_REMOTE_START 2211040
FM_REMOTE_STOP 2211041
SIPLACE GEM SW Version GEM 505.01 HOST Interface Manual
Page 60 of 236 ©Siemens AG, all rights reserved
4 SECS Message Detail
This section describes each message sent or understood by the Equipment.
4.1 SML Notation
Message descriptions are shown using "SECS Message Language" (SML) notation.
SML is a general notation developed by GW Associates for describing SECS messages.
SML is similar to the notation used in the SECS Standards documents, but SML is a
more precise and regular notation. In SML, the format for a data item is as follows:
< type [ count ] value >
The components are:
<> Angle Brackets. Each Data Item is enclosed within angle brackets ("less
than", "greater than"). This notation implies that each Data Item has a
Data Item Format and Data Item Length as required by SECS-II.
type This specifies the SECS-II Data Item format. It will have one of the
following values:
A ASCII
B Binary
J JIS-8
I1, I2, I4, I8 Signed Integers
U1, U2, U4, U8 Unsigned Integers
F4, F8 Floating Point
BOOLEAN True/False
count Count of the element values that make up the item. If present, the count
is enclosed within square brackets "[ ]". The count may be omitted, in
which case the square brackets are also omitted.
The "count" specifies the number of value elements in the Data Item
Value. For String formats (ASCII, Binary, JIS-8), "count" specifies the
number of characters in the string. For Numeric formats (I1, I2, I4, I8,
U1, U2, U4, U8, F4, F8, BOOLEAN), "count" specifies the number of
values in the array. For simple scalar numeric values, "count" is usually
"1". For LIST items, "count" specifies the number of items in the list.
If "count" is omitted, then the length of the Data Item is implied by the
value which follows. The "count" can range between known limits. It may
be specified as minimum and maximum "counts", separated by two dots.
(For example, [0..40]).
value Value of a single item element. Values are shown in a notation that
depends on the item type. For example, ASCII values are shown as
characters enclosed in quotes, Unspecified Binary values are shown in
hexadecimal.
... Ellipsis (...) is used to indicate additional elements may occur, as for
example where substructures may repeat in a List structure.
As an example, a two-byte unsigned integer Data Item with an array of three values 21,
22, and 23 is represented as:
<U2 [3] 21 22 23>