SIPLACE TX V2 micron 设备性能参数_DMS - 第12页

12 Board conveyor Flexible dual conveyor Flexible dual conveyor The flexible dual conveyor has two conveyor lanes th at are electrically and mechani- cally independen t of one another. The fixed co nveyor sides are both …

Placement heads

Nozzle changer

Technical data

Nozzle changer for the SIPLACE SpeedStar (C&P20 M3)

Number of magazines per location

SIPLACE TX2 m

SIPLACE TX2i m

SIPLACE TX2i m 4 mm

Number of nozzle garages per location

SIPLACE TX2 m

SIPLACE TX2i m

SIPLACE TX2i m 4 mm

Standard configuration

SIPLACE TX2 m

SIPLACE TX2i m

SIPLACE TX2i m 4 mm

4 magazines with 80 nozzle garages

3 magazines with 60 nozzle garages

Nozzle types 60xx

a) All magazines in the nozzle changer must be configured.

Nozzle changer for the SIPLACE MultiStar (CPP M)

Number of magazines per location

SIPLACE TX2 m 4

Number of nozzle garages per location

SIPLACE TX2 m 80

Standard configuration

SIPLACE TX2 m 3 magazines with 60 x 20xx nozzle garages

1 magazine with 9 x 28xx nozzle garages

Nozzle types 20xx/28xx

a) All magazines in the nozzle changer must be configured.

Board conveyor

Flexible dual conveyor

The flexible dual conveyor

has two conveyor lanes that

are electrically and mechani-

cally independent of one

another. The fixed conveyor

sides are both "outside" as a

default. As an option, the

fixed conveyor sides can be

selected as right/right or left/

left. The PCB dual conveyor

can also be operated as a

single conveyor, as an

option. In dual conveyor

mode, two PCBs are moved

into the placement machine

and placed either at the

same time (synchronous

mode) or alternatively (asyn-

chronous mode). This makes

it possible to process the top

and bottom sides of a PCB in

one line.

Synchronous mode

In synchronous mode, two

boards of the same size are

transported into the place-

ment position at the same

time. They are processed as

a common panel. When

using products with greatly

differing placement content,

common optimization

increases the performance of

the whole content on both

boards.

Asynchronous mode

In asynchronous mode, only

one board is processed on

one of the conveyor lanes. At

the same time, another

board on the second con-

veyor lane is moved into the

placement position. This

saves the full conveying time

of one board, thus consider-

ably increasing performance,

particularly for boards with a

short cycle time.

I-Placement

The SIPLACE line achieves

top placement performance

with the use of I-Placement.

In this mode, the two heads

work simultaneously and

populate the PCB on the cor-

responding conveyor side,

totally independently of one

another. Short distances fur-

ther increase the output.

Borrow Performance

By facilitating simultaneous

production of two PCBs with

different contents in one line,

Borrow Performance is the

ideal addition to I-Placement.

In placement machines with

Borrow Performance, both

heads place the same PCB

in alternation The PCB in the

other conveyor lane is simply

transported through the sys-

tem. This makes it possible

to achieve the same cycle

time for both PCBs, despite

the different placement con-

tents.

Convoy Mode

When processing PCBs with

lengths shorter than 175 mm,

Convey Mode moves more

PCBs into the placement

area and input conveyor sec-

tion. While one PCB is being

processed, the second one

waits directly behind it. The

transportation time is there-

fore reduced significantly,

especially in I-Placement

mode.

Flexible dual conveyor

Board conveyor

Technical data

Dual conveyor (standard) Dual conveyor in

"single conveyor"

(optional) mode

Board dimensions (width

x length)

a) When using PCB widths > 375 mm, make sure that the peripheral modules can also process these PCB widths.

Standard 45 mm x 50 mm to

260mm x 375mm

45 mm x 50 mm to

460mm x 375mm

Placement accuracy 20 µm (3) 45 mm x 50 mm to

260mm x 375mm

Placement accuracy 15 µm (3) 50 mm x 50 mm to

250mm x 100mm

Stationary conveyor side Outer /outer

Right / right

Left / left

Outside

Automatic electrical width adjustment Standard

Board thickness

Standard 0.3 mm to 4.5 mm

Board warpage See page 15

Board weight

Standard

b) The PCB weight value refers to the weight of the PCB plus the weight of the components.

Max. 2.0 kg Max. 2.0 kg

Clearance on PCB underside 33 mm

Board conveyor height

Option

Standard

Option SMEMA

900 mm

930 mm

950 mm

Type of interface SMEMA or IPC-HERMES-9852

Component-free PCB handling edge 3 mm

Board changeover time

Dual conveyor 1.3 seconds

0 seconds

c) With the "Convoy Mode" option. Without this option 1.8 seconds.

d) 0 seconds in asynchronous mode

Key information for machines in combination with SIPLACE TX m:

When setting up a machine (S; F, HS, HF, X or D-Series) next to a SIPLACE TX m, be aware that there is limited room between

the two machines. In these cases, use a suitable conveyor extension to create room of 0.5m for the operator between the two

machines.

IPC-Hermes-9852

A protocol for advanced development of Industry 4.0 in electronics production

The Hermes Standard, also published as IPC-HERMES-9852, is a non-proprietary open protocol,

based on TCP / IP and XML. This boosts the exchange of PCB-relevant data between the various

machines in the electronics production lines. The Hermes Standard was initiated, developed and

established and is still managed by a group of leading equipment manufacturers, who share their

know-how to achieve a significant step towards advanced process integration. It has been recognized

by IPC as the next generation solution for IPC-SMEMA-9851, normally known as "SMEMA standard".

The founding and defining body The Hermes Standard Initiative is available to all equipment providers

wanting to actively participate in using the benefits of Industry 4.0 for their customers.