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SIPLACE GEM SW Version GEM 505.01 HOST Interface Manual ©Siemens AG, all rights reserved page 13 of 236 1.7 GEM Compliance Statement GEM COMPLIANCE STATEMENT FUNDAMENTAL GEM REQUIREMENTS IMPLEMENTED COMPLIANT State Model…
SIPLACE GEM SW Version GEM 505.01 HOST Interface Manual
Page 12 of 236 ©Siemens AG, all rights reserved
For messages received from the Host, the number of length bytes in Data Items can be
1, 2, or 3, provided that the length parameter can accurately be specified.
1.4.3 ASCII Data
Unless otherwise specified, all ASCII data items must contain printable ASCII data—that
is, characters in the range 0x20 to 0x7E.
1.4.4 Multi-Block Messages
Wherever the Host is supposed to send a single-block message, this Equipment will also
accept multi-block format.
The maximum size for a single SECS message is approximately 1000 blocks (256,000
bytes).
1.4.5 Function Zero
The Equipment sends a Reply Message using Function zero (F0) according to the
requirements of the GEM Control State.
Wherever this Equipment expects a Reply message from the Host, the Host can send F0.
The Equipment will instantly abort the outstanding transaction. The Equipment will not
take any additional action.
1.5 GEM Standard
The SEMI Generic Equipment Model for Effective Factory Automation (GEM) is another
document published by SEMI. The GEM standard defines some useful conventions for
designing the communications interface on a unit of factory Equipment to improve
operations with a Host Computer. The SIPLACE complies to the following GEM
document:
1. E30-1994
1.6 GEM Compliance
This section clarifies which GEM functions are implemented in this Equipment. See
„GEM Compliance Statement“ on page 13.
The SIPLACE never sends S2F25 (Loopback Diagnostic) to the Host. It will send the
appropriate S2F26 in response to an S2F25 from the Host.
The SIPLACE never sends S9F13 (Conversation Timeout) to the Host. The Equipment
can be defined as having an „infinite timeout“ for conversations.
The SIPLACE never sends S10F7 (Multi-Block Not Allowed) to the Host. It will accept
incoming messages consisting of printable characters and a maximum size of 320
characters.
The SIPLACE will accept, but does not require the Inquire/Grant transaction
(S2F39/S2F40, S6F5/S6F6, S7F1/S7F2) for incoming primary multi-block messages.
SIPLACE GEM SW Version GEM 505.01
HOST Interface Manual
©Siemens AG, all rights reserved page 13 of 236
1.7 GEM Compliance Statement
GEM COMPLIANCE STATEMENT
FUNDAMENTAL GEM REQUIREMENTS IMPLEMENTED
COMPLIANT
State Models
✓Yes ✓ Yes
Equipment Processing States
✓ Yes ✓ Yes
S1,F13/F14 Scenario
✓ Yes ✓ Yes
Event Notification
✓ Yes ✓ Yes
On-line Identification
✓ Yes ✓ Yes
Error Messages
✓ Yes ✓ Yes
Control (Operator Initiated)
✓ Yes ✓ Yes
Documentation
✓ Yes ✓ Yes
ADDITIONAL CAPABILITIES IMPLEMENTED COMPLIANT
Establish Communications
✓ Yes ✓ Yes
Dynamic Event Report Configuration
✓ Yes ✓ Yes
Variable Data Collection
✓ Yes ✓ Yes
Trace Data Collection
✓ Yes ✓ Yes
Status Data Collection
✓ Yes ✓ Yes
Alarm Management
✓ Yes ✓ Yes
Remote Control (1)
✓ Yes
¨ No
Equipment Constants
✓ Yes ✓ Yes
Process Program Management (2) ¨ No ¨ No
Material Movement
✓ Yes ✓ Yes
Equipment Terminal Services
✓ Yes ✓ Yes
Clock
✓ Yes ✓ Yes
Limits Monitoring
✓ Yes ✓ Yes
Spooling
✓ Yes ✓ Yes
Control (Host Initiated)
✓ Yes ✓ Yes
(1) : Remote commands, only Start and Stop are available in this stage.
(2) : Process Program Management is not implemented until a later stage.
1.8 Terminology
The following terms are used throughout the document to refer to the various entities
interfacing with the SIPLACE:
SIPLACE GEM SW Version GEM 505.01 HOST Interface Manual
Page 14 of 236 ©Siemens AG, all rights reserved
Equipment The SIPLACE with GEM/SECS II-Interface
Operator The person who physically has access to the equipment’s material port(s)
and control panel. This is the person who is operating the SIPLACE.
Host The computer which is connected to the equipment via the SECSII-interface
1.9 Machine Areas
1.9.1 Machine Areas of a SIPLACE HF Machine
The figure below provides a diagrammatic overview of the individual areas of a
SIPLACE HF placement station.
TWIN-Input
conveyor
TWIN-First
Processing
conveyor
TWIN-Output
conveyor
Input
conveyor
First Processing
conveyor
Output
conveyor
Direction of transport
Conveyor 2
(left)
Conveyor 1
(right)
Gantry 3
Head 3
Location
3
Location
2
TWIN-Inter-
mediate conveyor
TWIN-Second
Processing
conveyor
Intermediate
conveyor
Second Processing
conveyor
Location
4
Gantry 1
Head 1
Location
1
Processing 1
Area
Processing 2
Area