Specification SIPLACE X-Series规格说明书2.pdf - 第10页
10 Machine Performance CPP_H = MultiStar CPP in high mounting position CPP_L = MultiStar CPP in low mounting positio n T ypes of placement he ad SIPLACE S peedSt ar (C & P20) SIPLACE MultiS tar (CPP) SIPLACE T winS t…
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Modular Machine Concept
Example of the SIPLACE X4
NCH2
NCH1
NCH2
NCH1
C&P20/CPP/TH
X
MTC/X
C&P20/CPP/TH
NCH2
NCH1
NCH2
NCH1
PA1
PA2
C&P20/CPP/TH
MTC/X
X
C&P20/CPP/TH
33 Stationary IC camera, type 33
(with MultiStar and TwinStar only)
BZ Buffer zone
C&P20 SpeedStar
CPP MultiStar
MTC Matrix Tray Changer
NCH1 Nozzle changer, row 1
NCH2 Nozzle changer, row 2
OP Operator panel
PA1 Placement area 1
PA2 Placement area 2
TH TwinStar
X SIPLACE X component changeover table
OP
OP
BZ
BZ
BZ
PLEASE NOTE: The head configurations can be found in the
“Machine Performance” section from page 10.
33
33
33
33
10
Machine Performance
CPP_H = MultiStar CPP in high mounting position
CPP_L = MultiStar CPP in low mounting position
Types of placement head SIPLACE SpeedStar (C&P20)
SIPLACE MultiStar (CPP)
SIPLACE TwinStar (TH)
PLEASE NOTE The placement rate is affected by the different head combinations and
positions and by the conveyor configurations. Individual options and cus-
tomer-specific applications also affect the placement rate. On request,
SIPLACE can calculate the true output for your product on your machine
configuration.
IPC value [comp./h]
According to the vendor-neutral conditions of the IPC 9850 standard pub-
lished by the Association of Connecting Electronics Industries.
SIPLACE benchmark value [comp./h]
The SIPLACE benchmark value is measured during the machine accep-
tance tests. It corresponds to the conditions set out in the SIPLACE scope
of service and supply.
Theoretical maximum output value [comp./h]
The theoretical maximum output value is calculated from the most favor-
able conditions for each machine type and setting, and corresponds to
the theoretical conditions normally used in the industry.
SIPLACE X4I placement machine (I-placement mode)
For the definition of the placement performance values see the note above.
Number of gantries 4
Machine Placement area 1 Placement area 2 IPC value Benchmark value Theoretical value
X4I-A C&P20 / C&P20 C&P20 / C&P20 102,000 120,000 135,500
C&P20 / C&P20 CPP_L / CPP_L 91,500 107,000 123,750
CPP_L / CPP_L CPP_L / CPP_L 81,000 94,000 112,000
SIPLACE X4 placement system
For the definition of the placement performance values see the note above.
Number of gantries 4
Machine Placement area 1 Placement area 2 IPC value Benchmark value Theoretical value
X4-A C&P20 / C&P20 C&P20 / C&P20 82,000 90,000 124,000
C&P20 / C&P20 CPP_L / CPP_L 75,000 85,000 118,000
CPP_L / CPP_L CPP_L / CPP_L 68,000 80,000 112,000
X4-B C&P20 / C&P20 CPP_H / TH 61,900 68,600 93,000
CPP_L / CPP_L CPP_H / TH 54,900 63,600 87,000
X4-C C&P20 / C&P20 TH / TH 48,000 52,500 75,000
CPP_L / CPP_L TH / TH 41,000 47,500 69,000
X4-D CPP_H / TH TH / TH 27,900 31,100 44,000
X4-E TH / TH TH / TH 14,000 15,000 26,000
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Machine Performance
CPP_H = MultiStar CPP in high mounting position
CPP_L = MultiStar CPP in low mounting position
SIPLACE X3 placement system
For the definition of the placement performance values see the note on page 10.
Number of gantries 3
Machine Placement area 1 Placement area 2 IPC value Benchmark value Theoretical value
X3-A C&P20 / C&P20 C&P20 62,700 69,500 93,000
C&P20 / C&P20 CPP_L 59,200 66,500 90,000
CPP_L / CPP_L CPP_L 52,200 61,500 84,000
X3-B C&P20 / C&P20 TH 45,300 50,000 68,500
CPP_L / CPP_L TH 38,300 45,000 62,500
X3-C CPP_H / TH TH 25,200 28,600 37,500
X3-D TH / TH TH 11,300 12,500 19,500
SIPLACE X2 placement system
For the definition of the placement performance values see the note on page 10.
Number of gantries 2
Machine Placement area 1 Placement area 2 IPC value Benchmark value Theoretical value
X2-A C&P20 C&P20 43,400 49,000 62,000
C&P20 CPP_L 39,900 46,000 59,000
CPP_L CPP_L 36,400 43,000 56,000
X2-B C&P20 TH 26,000 29,500 37,500
CPP_L TH 22,500 26,500 34,500
X2-C TH TH 8,600 10,000 13,000