JX-100_SPE_EN06.pdf - 第33页

7. CONTROL SYSTEM SPECIFICATIONS 7.1 Control 7.1.1 Program Selection The production program is stored in SSD or a floppy disk (option). When you use a USB port, you can store it on an external storage device also. 7.1.2 …

6.6 Stick Feeder

A stick feeder is driven by the belt without requiring any power supply nor air supply.

It feeds an ordinary SOP, SOJ and PLCC which are packed in a stick.

Call the JUKI head office or local distributor for special components packed in a stick.

SOP SOJ PLCC（QFJ）

Feeder

section type

(Manufacturer

code)

Lane width

(mm)

(Number of

lanes per

feeder)

Nominal

size

Compo

nent

width

(mm)

Compo

nent

height

(mm)

Nominal

size

Compo

nent

width

(mm)

Compo

nent

height

(mm)

Nominal

size

Compo

nent

width

(mm)

Compo

nent

height

(mm)

Number of

occupied

positions

225

mil

5.72 to

6.99

to 1.5 - - - - - -

（SFN0AS）

Factory

setting: 6.9

Adjustable

range: 6.6

to 9.1

300

mil

7.62 to

8.89

2.0 - - - - - -

（SFN1AS）

7.2mm

225

mil

5.72 to

6.99

1.5

- - - - - -

285×

425

mil

8.05 to

8.31

（SFN2AS）

9.2mm

300

mil

7.62 to

8.89

2.0

300

mil

8.38 to

8.76

290×

490

mil

8.13 to

8.51

350

mil

（SFN3AS）

11.2mm

375

mil

9.53 to

10.8

2.5

350

mil

9.65 to

10.03

350×

550

mil

9.78 to

10.03

400

mil

10.92 to

11.30

450

mil

（SFN4AS）

13mm

450

mil

11.43 to

12.7

3.0

450

mil

12.19 to

12.57

3.25～

3.76

450×

550

mil

12.32 to

12.57

4.20 to

4.57

（SFW1AS）

15mm

525

mil

13.34 to

14.61

3.5 - - - - - -

（SFW2AS）

18.2mm

600

mil

15.24 to

16.51

4.0 - - -

650

mil

17.40 to

17.65

4.20 to

4.57

（SFW3AS）

20.8mm - - - - - -

750

mil

19.94 to

20.19

（SFW4AS）

26mm - - - - - -

950

mil

25.02 to

25.27

（SFW5AS）

31.2mm - - - - - -

1150

mil

30.10 to

30.55

4.20 to

5.08

- The optional spacer kit, which allows a stick feeder to be changed to another type, is

provided for the Types N1 to N4 and W1 to W5.

- You can make the gap of the Type N0 narrower to secure the lane width most

appropriate to SOP 8-pin or 10-pin components.

7. CONTROL SYSTEM SPECIFICATIONS

7.1 Control

7.1.1 Program Selection

The production program is stored in SSD or a floppy disk (option).

When you use a USB port, you can store it on an external storage device also.

7.1.2 Limit of a production program

● Number of component placement steps: maximum 3,000 steps

● Maximum number of circuits per PWB: 1,200 for a matrix board

200 for a non-matrix board

● Maximum number of steps per PWB: 10,000 steps

● Maximum number of component data records: maximum number of component

types that can be attached on the machine

● Maximum number of component pick-up records: same as the above.

● Maximum number of registerable marks: 50sets for an IC mark, 1 set for a BOC

mark (2 to 3 marks)

7.2 Production mode

PWB production

- Specifies the number of PWBs you plan to produce and produces PWBs actually.

Trial

- Performs a trial PWB production.

You can select the PWB pick-up position tracking function or PWB placement position

tracking function that is to be performed after placement..

Dry run

- Checks the PWB pick-up/placement process without using any component.

8. INTERFACE

8.1 Mechanical Interface

Conveyor height

● 900 ±20 mm (Standard for Japan, China and Southeast Asia)

950 ±20 mm (Option for Europe and the U.S.A.)

、(Standard for EN machine only)

8.2 Electrical interfaces

8.2.1 Kinds and meanings of electrical signals

The conceptual diagram of the electrical signals both on the mounters and the other side

machines is shown in the following “Figure 11 Electrical signals connection conceptual

diagram “, as follows: The electrical signals between the mounters and upstream-side

devices ①, ② and between the mounters and downstream-side devices ③, ④ is

shown in the following diagram.

a) The electrical signal ① is called the “carryout request input signal (or PWBs

available-in),” receiving the PWBs carryout requests from the upstream-side devices.

b) The electrical signal ② is called the “carryout permit output signal (or ready-out),”

having the PWBs carried out to the upstream-side devices.

c) The electrical signal ③ is call the “carryout request output signal (or PWBs

available-out),” requesting the PWBs carryout to the downstream-side devices.

d) The electrical signal ④ is called the “carryout permit input signal (or

ready-in),“ receiving the PWBs carryout permits from the downstream-side devices.

Downstream-

side devices

Mounters

Upstream-

side devices

②

①

③

④

Figure 13 Electrical signals connection conceptual diagram