Siplace TX-设备参数-EN.pdf - 第7页

7 Machine performance Placement head types SIPLACE S peedS tar (C&P20 P) SIPLACE MultiS tar (CPP) SIPLACE T winS tar (TH) Placement performa nce The placement pe rformance is infl uenced by the differ ent head combin…

SIPLACE TX

Machine description

The latest generation of

SIPLACE placement mod-

ules set placement perfor-

mance, floorspace

performance and placement

accuracy records.

The innovative high-end

placement platform

SIPLACE TX achieves new

benchmarks in placement

performance and productivity

per area. The compact

design of the SIPLACE TX

supports precise scaling of

line performance in small

steps.

Furthermore, the new borrow

performance mode is a cut-

ting edge solution for boost-

ing line utilization efficiency.

The placement area with the

higher placement volume

can simply "borrow" spare

placement capacity from the

placement area opposite.

Borrow performance keeps

the balance between differ-

ent placement cycles in the

placement areas.

These placement machines

are available in three differ-

ent variants:

• SIPLACE TX1

• SIPLACE TX2

• SIPLACE TX2i

The numbers in the type

name indicate the number of

gantries used. Each gantry

has one placement head.

The SIPLACE TX covers the

entire range of common

components with only three

placement heads. The ideal

addition to the proven

SIPLACE TwinStar and the

high speed SIPLACE

SpeedStar is the new

SIPLACE Multistar place-

ment head.

The user enjoys a board

conveyor with flexible

SIPLACE dual conveyor.

Machine performance

Placement head types SIPLACE SpeedStar (C&P20 P)

SIPLACE MultiStar (CPP)

SIPLACE TwinStar (TH)

Placement performance

The placement performance is influenced by the different head combinations and head positions, plus the con-

veyor configurations. Individual options and customized applications also influence the placement performance.

On request, ASM can calculate the actual performance of your product on your machine configuration.

IPC value [components/h]

Conducted with 0201 components, in accordance with the layout of the IPC 9850 standard of Association Con-

necting Electronics Industries.

SIPLACE benchmark value [components/h]

The SIPLACE benchmark value is measured during the machine acceptance tests. It corresponds to the condi-

tions set out in the ASM scope of service and supply.

Theoretical maximum output value [components/h]

The theoretical maximum output value is calculated from the most favorable conditions for each machine type

and setting, and corresponds to the theoretical conditions normally used in the industry.

SIPLACE TX2i placement

machine

Placement area IPC value Benchmark value Theoretical value

C&P20 P / C&P20 P 67,000 78,000 103,800

CPP_L / C&P20 P 55,000 63,000 83,455

CPP_L/CPP_L 43,600 48,000 63,900

CPP_H / CPP_H 41,000 45,000 59,850

SIPLACE TX2 placement

machine

Placement area IPC value Benchmark value Theoretical value

C&P20 P / C&P20 P 65,000 75,500 100,500

CPP_L/CPP_L 42,600 46,500 61,900

CPP_H / CPP_H 40,000 44,000 52,500

TH / CPP_H 25,000 28,500 38,000

SIPLACE TX1 placement

machine

Placement area IPC value Benchmark value Theoretical value

C&P20 P 32,500 37,500 50,200

CPP_H 20,000 22,000 26,250

TH 5,050 5,500 7,300

CPP_H = Multistar CPP in high assembly position

CPP_L = Multistar CPP in low assembly position

SIPLACE placement heads

General

Head modularity

The SIPLACE placement

machines are distinguished

by maximum flexibility in the

production process. This

flexibility is in part due to the

head modularity of the place-

ment machines, which allows

different placement head

variants to be configured to

suit the production require-

ments.

The SIPLACE SpeedStar

and the SIPLACE MultiStar

operate according to the

Collect&Place principle i.e.

one cycle includes pickup or

"collection" of 20 or 12 com-

ponents, their optical center-

ing on the board and their

rotation into the required

placement angle and posi-

tion. They are then placed

gently and accurately onto

the PCB. This principle is

particularly suitable for high-

speed placement of standard

components.

The SIPLACE MultiStar also

functions according to the

Pick&Place principle. Two

components are picked up

by the SIPLACE MultiStar,

optically centered on the way

to the placement position

and rotated into the required

placement angle. This princi-

ple is particularly suitable for

fast and precise placement

of large components.

The SIPLACE MultiStar uses

both the Collect&Place and

the Pick&Place principle.

Mixed Mode allows com-

bined use of these two

modes, which were previ-

ously separated from one

another, in one placement

cycle.

Pick&Place mode (Twin

Head)

The high-precision SIPLACE

TwinStar functions according

to the Pick&Place principle.

Two components are picked

up by the SIPLACE Twin-

Star, optically centered on

the way to the placement

position and rotated into the

required placement angle.

This principle is particularly

suitable for fast and precise

placement of special compo-

nents, such as those

required for grippers etc..

Control and self-learning

functions

The reliability of the

SIPLACE placement heads

can be enhanced even fur-

ther with various checking

and self-learning functions.

• Component sensor

Checks the presence of

the components on the

nozzle before the pickup

and placement process

• Digital camera

Checks the position of

each component on the

nozzle. This check is per-

formed in a single step,

with no extra time involved

but with optimum scan-

ning of each individual

component.

• Force sensor

Monitors the prescribed

component set-down

force.

The sensor stop proce-

dure enables compensa-

tion of height differences

during pickup and PCB

warpage during place-

ment.

• Vacuum sensor

Checks whether the com-

ponent was correctly

picked up or placed.

Collect&Place mode

Pick&Place mode

(SIPLACE MultiStar)

Mixed mode