00195941-03-UM SiplaceCA-EN.pdf - 第192页
3 Technical Data User Manual SIPLACE CA 3.8 Placement Heads Edition 08/2011 EN 192 Component Camera (item. 1 in fig. 3.8 - 4 ) 3 The component camera is fitted to the placement head at star p osition 1 1 (item 1 1 in fig…
User Manual SIPLACE CA 3 Technical Data
Edition 08/2011 EN 3.8 Placement Heads
191
DP axis (item 1 in fig. 3.8 - 3) 3
The DP axis rotates the component into the required placement position, before it is centered
(item 11 in fig. 3.8 - 5
). While the component camera is recording the image, the component must
be absolutely stationary, i.e. there must be no control movements of the DP drive. Once the cor-
rection values have been determined, the DP drive turns the component into the definitive place-
ment position.
Every DP drive has its own DP motor, i.e. the nozzles can be rotated independently of one another.
The DP motor is position-controlled. Position encoders determine the actual values for the axis
motions at the axis card. The actual values are analyzed on the axis card. The position control on
the axis card provides the nominal current and voltage values for the servo amplifier used to op-
erate the DP motors.
Vacuum system 3
The vacuum system consists of two vacuum circuits - the pickup/placement circuit and the holding
circuit. These two circuits are linked to one another at the star position "pick, place, reject" (item
1 in fig. 3.8 - 5
).
The vacuum for the pickup/placement circuit is generated by a vacuum nozzle. An integrated
pressure/vacuum sensor sends the pressure and vacuum values to the control system. This con-
trol circuit allows the circuit to switch quickly and smoothly between vacuum and air kiss. Rapid
evacuation of the circuit, in turn, leads to reliable component suction, and thus increases pickup
reliability. The quick formation of an air kiss pulse for placing the component on the board in-
creases the placement speed even further.
In the holding circuit, each segment is supplied with a vacuum by a separate vacuum nozzle. The
segments are disconnected from one another, and so cannot affect one another. Even if the leak
air is taken in at one or more segments, the other segments will not be affected and can continue
placement.
The current vacuum values for a segment in the holding circuit can be measured with or without
component at the star position "vacuum check" (item 10 in fig. 3.8 - 5
).
Component Sensor (item 5 in fig. 3.8 - 4) 3
The component sensor is positioned so that the components can be measured in the pick/place
position (item 1 in fig. 3.8 - 5
). Measurements at the tip of the nozzle can thus be carried out during
every Z axis movement. Differential measurements can be used to identify components missing
from the nozzles. The component height can also be detected.
3 Technical Data User Manual SIPLACE CA
3.8 Placement Heads Edition 08/2011 EN
192
Component Camera (item. 1 in fig. 3.8 - 4) 3
The component camera is fitted to the placement head at star position 11 (item 11 in fig. 3.8 - 5).
It uses a digital interface (hotlink) to exchange data with the vision processor in the axis unit. The
camera is designed to capture the component from underneath. If a component drops onto the
camera, it is removed from the camera field via a removal ramp.
Intermediate Distributor (item 2 in fig. 3.8 - 4) 3
The adapter board is the interface between placement head and placement machine. The vacuum
sensor for the holding circuit is mounted on the star housing.
The following functions are implemented on the adapter board:
– Display the operating voltages at the head
– Display the sensor statuses
– Test access to the CAN bus for the placement head
– Test connector for the signals from the incremental encoder
– Test pins for the analog signals
– Control of the power supply for the incremental encoders for the star and Z drives
– SPI bus interface for the component sensor, the vacuum unit, the "Holding circuit" vac-
uum sensor and the EEPROM
– Signal processing for the output signal from the "Holding circuit" vacuum sensor
– Signal processing for the component sensor signal
– Signal processing for the "Z axis down" sensor
– Signal processing for the CAN bus for the placement head and the machine
– Activation of the return cylinder for the Z axis
User Manual SIPLACE CA 3 Technical Data
Edition 08/2011 EN 3.8 Placement Heads
193
3.8.3.4 Technical Data
3
3.8.3.5 Component Reject Bin Sensor
NOTE 3
We recommend to install the optional component sensor for the component reject bin at a loca-
tion without SWS when a 20 segment Collect&Place head is used. (See section 7.2, page 461)
Range of components
a
a) Please note that the component range that can be placed is also affected by the pad geometry, the customer-spe-
cific standards and the packaging tolerances.
01005 to 2220, Melf, SOT, SOD
Component specifications
Maximum height
Min. lead pitch
Min. lead width
Min. ball pitch
Min. ball diameter
Min. dimensions
Maximum dimensions
Max. weight
4 mm
80 µm
30 µm
100 µm
50 µm
0.12 mm x 0.12 mm
6 mm x 6 mm
1 g
Nozzle types 10xx, 11xx, 12xx
X/Y accuracy (SMD) ± 41 µm/3 , ± 55 µm/4
X/Y accuracy (CA) ± 25 µm/3, ± 33 µm/4
Angular accuracy ± 0.5°/3± 0.7°/4