SiplaceX4_en - 第123页
1 - 53 S tudent Guide SIPLACE X Edition 09/2005 3 Communication and Control 53 – Doubleclick on the IO SUB (P A1) directory to open the 1 wire subdire ctory . The following dialog will appear: Fig. 3.5 - 14 1 wire sub qu…
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Student Guide SIPLACE X
3 Communication and Control Edition 09/2005
52
3.5.2 Function Control and Troubleshooting for Service Work
This section provides an overview of how to assign the one wire bus subsystems to the relevant
hardware assemblies, enabling a structured approach to service work.
3.5.2.1 Subsystem Query in PA1
– Connect the service laptop to the machine CAN bus at PA1.
Make sure that the cable is connected to channel 1 for PA1 and that, at least the transmitter is
connected to channel 2 of the Kvaser card.
– Start the "CACCIA" software and check the machine configuration with Caccia.
– Doubleclick to open the subsystem control center.
Fig. 3.5 - 12 Icons: properties, machine configuration, subsystem control center
Fig. 3.5 - 13 Subsystem control
–Click on the "Get Versions" button.
The system will display all available subsystems with their firmware versions and CAN IDs.
Subsystem control center
Machine configuration window
Properties (settings, restart Kvaser card)
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Student Guide SIPLACE X
Edition 09/2005 3 Communication and Control
53
– Doubleclick on the IO SUB (PA1) directory to open the 1 wire subdirectory. The following dialog
will appear:
Fig. 3.5 - 14 1 wire sub query structure
Click on the "Query objects" button to display all PA1 subsystems.
The function "Init 1wire" is not required, as the one wire bus system is initialized when the machine
is switched on. (If initialization is necessary, you may need to click on the button 2 or 3 times.)
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Student Guide SIPLACE X
3 Communication and Control Edition 09/2005
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Allocation of subsystems to the hardware components
Example of PA1 on HF/HF3
PPW --> Nozzle Changer (NC)
Subsystem Hardware components Comments
Temperature, 1, coupler, 00 PCB:1 wire trailing interface Trailing interface gantry 1
Temperature, 4, coupler, 00
CB:1 wire trailing interface
Trailing interface gantry 4
PPW, 4, coupler, 00 1 wire hub for NC Hub for NC at location 4 for NC row 1/2
PPW, 1, coupler, 00 1 wire hub for NC Hub for NC at location 1 for NC row 1/2
Mainpath, 0, IO_2C, 01
Mainpath, 0, E2_512B, 01
1 wire RS232 bridge I/O module board (to be later integrated
into I/O module)
Temperature, 1, E2_512B, 81
Temperature, 1, E2_32B, 01
Temperature, 1, E2_512B, 61
Temperature, 1, temperature, 10
Temperature, 1, temperature, 11
Temperature, 1, IO_2C,01
Temperature sensors
gantry 1
The two temperature sensors form a unit
and can only be replaced as a set. The
part for the gantry recognition can not
change.
Temperature, 4, E2_512B, 81
Temperature, 4, E2_32B, 01
Temperature, 4, E2_512B, 61
Temperature, 4, temperature, 10
Temperature, 4, temperature, 11
Temperature, 4, IO_2C,01
Temperature sensors
gantry 4
The two temperature sensors form a unit
and can only be replaced as a set. The
part for the gantry recognition can not
change.
PPW, 4, E2 32B, 81
PPW, 4, AD, 03
PPW, 4, AD, 15
PPW, 4, AD, 16
1 wire hub for NC at location
4
Shows that the 1 wire hub is connected.
PPW, 4, E2_32, 01
PPW, 4, AD, 01
PPW, 4, IO_8C, 01
Control board in NC
gantry 4, in C&P20 NC only
Control board of NC row 1.
PPW, 4, E2_32, 02
PPW, 4, AD, 02
PPW, 4, IO_8C, 02
Control board in NC
gantry 4, in C&P20 NC only
Control board of NC row 2.
PPW, 1, E2_32B, 81
PPW, 1, AD, 03
PPW, 1, AD, 15
PPW, 1, AD, 16
1 wire hub for NC at location1 Shows that the 1 wire hub is connected.
PPW, 1, E2_32B, 01
PPW, 1, AD, 01
PPW, 1, IO_8C, 01
Control board in NC
gantry 1, in C&P20 NC only
Control board of NC row 1.
PPW, 1, E2_32B, 02
PPW, 1, AD, 02
PPW, 1, IO_8C, 02
Control board in NC
gantry 1, in C&P20 NC only
Control board of NC row 2.