Alarm Display: A. 300 Alarm Name: Regeneration Error Detected 1. Situation at Alarm Occurrence: Occurred when the control power supply was turned ON. Cause: A SERVOPACK board fault occurred. Corrective Actions: Replace the SERVOPACK. 2. Situation at Alarm Occurrence: Occurred when the main circuit power supply turned ON. Cause: Pn600 is set to a value […]
Category Archives: SMT Machines MRO
25
Nov
Nov
Alarm Display: A. 100 Alarm Name: Over current (Heat Sink Overheated) 1. Situation at Alarm Occurrence: Occurred when the control power supply was turned ON. Cause: The overload alarm has been reset by turning OFF the power too many times. Corrective Actions: Change the method to reset the alarm. Cause: The connection is faulty between […]
23
Nov
Nov
Alarm Display: A.050 Alarm Name: Combination Error Situation at Alarm Occurrence: Occurred when the control power supply was turned ON. Cause: The SERVOPACK and servomotor capacities do not correspond to each other. Servomotor capacity / SERVOPACK capacity ≤ 1/4 or servomotor capacity / SERVOPACK capacity ≥ 4 Corrective Actions: Select the proper combination of SERVOPACK […]
21
Nov
Nov
1. Selecting a p_pattern flowcharts for frontlight leaded parts 2. Selecting a p_pattern flowcharts for frontlight bumped (ball leaded) or columned parts 3. Selecting a p_pattern flowcharts for backlight leaded parts (not supported by the NXT)
21
Nov
Nov
These cannot be used on the NXT. Basically, these types are the same as the types 23 and 24. The major difference is that with these p_patterns, the lead tip is not used for determining the part positioning. The lead width detection results only are used to determine the part positioning. The lead tip detection […]
20
Nov
Nov
These cannot be used on the NXT. The lead tip and width are detected and the results are used to determine the part position similar to p_pattern types 3 and 4. The major difference is that with these p_patterns, the color of the points on the lead at which the lead tip and lead width […]
19
Nov
Nov
Basically, these are the same as p_pattern types 5 and 6. The major difference is that with these p_patterns, the inward pointing lead tip is not used for determining the part positioning. The lead width detection results only are used to determine the part positioning. The lead tip detection results are used only as reference […]
16
Nov
Nov
Basically, these are the same as p_pattern types 3 and 4. The major difference is that with these p_patterns, the outward pointing lead tip is not used for determining the part positioning. The lead width detection results only are used to determine the part positioning. The lead tip detection results are used only as reference […]
15
Nov
Nov
These are used for parts with leads that are attached to the body at both ends of the leads and whose lead detection is not stable. The lead widths are checked and the results are used to determine the part positioning. Type 11: The lead appears black and the outside circumference is white. Type 12: […]
13
Nov
Nov
The leads point towards the inside of the body of the part (opposite from types 3 and 4) and are attached to the body at the base of the lead. Due to this, the base cannot be checked with a caliper. The lead tips and widths are checked and the results are used to determine […]