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GEM Manual for DEK Printers Event M essages Issue 1.6 January 22, 2018 Page 152 of 171 8.12 Limits Monitoring Events EVENT - CEID DESCRIPTION 31000-31200 Status Variables see section 5.5. 32000-33000 Discrete Variables s…

GEM Manual for DEK Printers Event Messages

Issue 1.6 January 22, 2018 Page 151 of 171

31422 Comms - Rebuild process program list.

31423 Paste dispense rate adjusted.

31424 Print speed adjusted.

31425 Front squeegee pressure adjusted.

31426 Rear squeegee pressure adjusted.

31427 Print gap adjusted.

31428 Separation speed adjusted.

31429 Cleaning rate adjusted.

31430 X forward offset adjusted.

31431 Y forward offset adjusted.

31432 Theta forward offset adjusted.

31433 X reverse offset adjusted.

31434 Y reverse offset adjusted.

31435 Theta reverse offset adjusted.

31436 Paste dispensed after host command.

31437 Screen cleaned after host command.

31438 Comms enabled.

31439 Comms disabled.

31442 Paste kneaded after host command.

31443 Paste conditioned after host command.

31458 Proflow pressure adjusted.

40010 Comms - Adjust front print speed.

40011 Comms - Adjust rear print speed.

40041 Request to start.

40325 Host Command Start Failed.

40326 Host Command Stop Failed.

40327 Host Command Pause Failed.

40328 Host Command Erase Log Failed.

40329 Host Command Erase Batch Failed.

40330 Host Command Erase Session Failed.

40331 Host Command Rename Product Failed.

40332 Host Command Adjust Product Failed.

40333 Host Command Clean 1 Failed.

40334 Host Command Clean 2 Failed.

40335 Host Command Paste Failed.

40336 Host Command PP-Select Failed.

40337 Host Command Change Screen Failed.

40338 Host Command Knead Paste Failed.

40376 Host Command Save Product Failed.

GEM Manual for DEK Printers Event Messages

Issue 1.6 January 22, 2018 Page 152 of 171

8.12 Limits Monitoring Events

EVENT - CEID

DESCRIPTION

31000-31200 Status Variables see section 5.5.

32000-33000 Discrete Variables see section 5.5.

8.13 TRS Specific Events

EVENT - CEID

DESCRIPTION

40377 Top referencing plate is at home.

40378 Top referencing plate is at over rails.

40379 Top referencing plate error.

40380 TRS active surround plate engaged.

40381 TRS active surround plate released.

40382 TRS snuggers engaged.

40383 TRS snuggers released.

40384 TRS vacuum tooling threshold changed.

40385 TRS Z lock tooling engaged.

40386 TRS Z lock tooling released.

40389 TRS vacuum tooling error.

40395 TRS Vacuum Tooling Pressure.

40396 TRS rail at tooling error.

40457 TRP Home Sensor Bounce

40458 TRP Vac Adjust OK

40459 TRP Vac Adjust Failed

40460 Enhanced Vacuum Valve

40461 TRP Vac Adjust Started

40462 TRP Vac Adjust Not Required

GEM Manual for DEK Printers Event Messages

Issue 1.6 January 22, 2018 Page 153 of 171

8.14 Suggested Event Reports

EVENT - CEID

DESCRIPTION DVID DATA

31277 Board printed. 2008 Front print pressure

2009 Rear print pressure

2010 Print speed

2016 Squeegee

2011 Separation speed

31316 Inspection cycle

complete.

2012 Stretch error

2013 X alignment accuracy

2014 Y alignment accuracy

2015 Theta alignment

32010

(example of a

report for Limits

monitoring)

print_speed crosses

a limit.

2010 print_speed

2027 LimitVariable

2028 EventLimit

2029 TransitionType

40177

(example of a

report for

Traceability

reporting)

Data is available 2033 Traceability Data

8.15 SIMULTANEOUS EVENTS (TIME)

Reference SEMI E30-95 section 4.10.4 Paragraph 4, assignment of centisecond values.

Simultaneous Events may occur on the equipment. The nature of the control software is such that

these events are collected serially as the programme executes. Each collection event that occurs and

is enabled is added to a queue for transmission. This queue is serviced once every program cycle.

Another event will not be transmitted until the previous event has been acknowledged by the Host.

This will always take longer than 10 ms. The program cycle in any case is always greater than 10

ms.

Take the case that the Host creates some reports containing the “clock” variable. The Host then

attaches two of these reports to "Event A" and "Event B". If Event A is detected first then the value

of “clock(A)” would be read as the report is compiled and transmitted. Subsequently the value of

“clock(B)” would be read as the report is compiled and transmitted. Thus, they will always be seen

by the host to occur at different times. The centisecond clock precision is provided by the operating

system.