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User Manual S-23 HM 1 Introduction Software Vers ion SR.405.xx 05/99 Issue 1.5 Description of the machine 23 1.5.3 T echnical da t a - machi ne overv iew Range of c ompone nts From 0402 to P LCC44, SO32, DRAM , µ BGA Max…

1 Introduction User Manual S-23 HM

1.5 Description of the machine Software Version SR.405.xx 05/99 Issue

The concept behind the automatic placement system 1

– with its stationary feeder modules,

– PCBs that do not move during placement

– and positionable placement heads

has a number of significant benefits: 1

– For example, the flexible 12-segment revolver heads combined with automatic nozzle chang-

ers enable the nozzle configuration to be changed temporarily and automatically adapted to

receive different component sizes. You can also optimize the traversing paths and the place-

ment sequence.

– With stationary feeder modules, even the tiniest components are picked up reliably.

– The components cannot slip on the PCB during placement (as is often the case with moving

PCBs) since the PCB does not move.

– Sophisticated optical centering systems (vision systems) for components and PCBs also en-

sure high component positioning accuracy.

– Components can be topped up and tapes can be spliced without stopping the machine.

– Prepared component tables enable the placement system to be retooled without long stop-

pages.

1.5.2 Head Modularity concept (HM)

The abbreviation HM in the designation of the SIPLACE S-23 HM placement system stands for

Head Modularity. 1

The aim of this concept is to allow any combination of 6-nozzle and 12-nozzle revolver heads to

be used on the placement system. A simple head change procedure will enable the system to

be quickly adapted to the requirements of individual placement jobs. 1

The head modularity concept will be implemented in the next development stage. Placement sys-

tems supplied with the designation HM are designed to be compatible with the new concept. 1

User Manual S-23 HM 1 Introduction

Software Version SR.405.xx 05/99 Issue 1.5 Description of the machine

1.5.3 Technical data - machine overview

Range of components From 0402 to PLCC44, SO32, DRAM, µBGA

Maximum placement speed of the12-nozzle

revolver head (DLM1) 23,000 components/hour

Cycle time at the revolver head 125 ms, regardless of the type of component

Accuracy ± 90 µm at 4 sigma

± 67,5 µm at 3 sigma

PCB format 50 mm x 50 mm to 460 mm x 460 mm

2" x 2" to 18" x 18"

Option: up to 508 mm x 460 mm

up to 20" x 18 "

Feeding capacity Up to 80 tracks, each with 8 mm tapes

Feeder modules Tapes, bulk-cases

Operating system Microsoft Windows NT / RMOS

Combination options Inline or stand-alone

Space required 4 m² / module

1 Introduction User Manual S-23 HM

1.6 The line concept Software Version SR.405.xx 05/99 Issue

1.6 The line concept

1.6.1 Overview

The placement system can be linked to input and output stations, screen printing systems, sol-

dering ovens and other automatic placement systems from the SIPLACE range (HS-50, S-20,

F4, F5, and the SIPLACE G glue application station). All SIPLACE modules are supplied with the

necessary data by the UNIX line computer. The placement system can also be linked to a higher

level data processing system through the use of suitable interfaces.

1.6.2 Technical data - line concept

System SIPLACE placement lines

Module SIPLACE HS-50 / SIPLACE 80 S-20/ SIPLACE S-23 HM

SIPLACE 80 F4 / SIPLACE F5

Peripherals Input/output stations

Screen printers

Soldering ovens

Inspection stations, etc.

Range of components From 0402 * to 55 mm x 55 mm **

PCB conveyor Automatic width adjustment

PCB format 50 mm x 50 mm to 460 mm x 460 mm

Placement speed

Depends on how the modules are connected to one

another

Space required 4 m² / SIPLACE 80 modules

7.5 m² / SIPLACE HS-50 modules

SIPLACE HS-50, SIPLACE 80 S-20, SIPLACE S-23 HM, or SIPLACE 80 F4 with 12-nozzle

revolver head

** SIPLACE 80 F4 / F5