應用案例Case
|
|
|
RD-500III/500SIII
|
|
HIGH PERFORMANCE 3 POINT HEATING SYSTEM FOR LEAD FREE REWORK
|
|
|
|
|
Both the RD-500III and the RD-500SIII feature 700 watt upper and lower hot air heaters. By delivering hot air simultaneously from above and below, these units are able to evenly heat the component and solder connections. This results in much safer removal and placement heating profiles. In addition, the RD-500III comes standard with an IR area heater. The RD-500III area heater uses a series of 6 rod type heating elements. Each provides 400 watts of heating power for a combined 2400 watts. This is enough to heat the largest of PCBs evenly in order to prevent the PCB from warping while removing or replacing the component. The RD-500SIII has an optional area heater with 3 rod type heaters for a total of 1200 watts. This is sufficient for the board that is more common to this unit.
|
|
|
Upper Hot Air Heater ( 700W )
Lower Hot Air Heater ( 700W ) and Area
Heater ( 2400W ) of RD-500III
|
Upper Hot Air Heater ( 700W )
Lower Hot Air Heater ( 700W ) and Area
Heater ( 1200W ) of RD-500SIII
|
|
The RD-500III and RD-500SIII machines cool the component by two means. The primary method is by turning the heaters off after the heating profile and blowing air through the heating element.
The second method is with a cooling fan. After the heating cycle is complete, the heater head raises
|
|
about 50 millimeters from the board and a fan that is pointed at the reflow point is turned on.
Additional cooling such as this has shown to improve lead free solder connections.
This second cooling can be turned on by choosing an odd number in the Reflow Time. It is turned off by choosing an even number in the Reflow Time.
|
|
|
|
|
|
|
|
Operation
The Operation Tab is where the standard operator will access the profiles that have been developed by the engineer or technician.
Development
The Development Tab is where profiles are developed or modified.
Auto-Profile ( 2 Point )
The Auto-Profile Tab is a function that allows the technician or engineer to take a thermocoupled PCB, enter the desired soak and reflow times and temperatures, and then with the push of a button, easily develop a profile for the PCB and component. The 2 point function is also used to adjust the upper and lower hot air heaters to provide the best reflow conditions without overheating the target component.
Inspection
The Inspection Tab allows the user to set up the conditions for their ideal or target profile. Then once the profile is developed, they can pull it up in this screen and compare it against these ideal conditions. It provides a quick check to see if any condition is not met anytime during the profile.
|
|
Optics
The Optics Tab is where the operator or technician will deploy the Optics Arm. In this mode, the component is picked up from the Optics Arm and then aligned to the PCB.
Setup
The Setup Tab is where the basic functions of the machine are set. These include Security
Password set up, Upper and Lower Indicator Lines, Standby Temperature for the Area Heater, and the Gross Placement Force.
Print/Review
The Print/Review Tab allows the user to pull up existing profiles and print them on a printer that is set up either directly or on a LAN network. A second profile can also be overlaid on the slide.
|
|
|
|
|
|
|
2 POINT AUTO-PROFILE FUNCTION
|
|
|
|
|
The 2 Point Auto-Profile function allows the user to create a profile by monitoring the solder ball temperature for the solder melt conditions and by monitoring the top of the component in order to ensure the component does not overheat during the profile. The solder ball thermocouple is plugged into either Sensor Input 1,2 or 3. The thermocouple on the top of the component is plugged into Sensor 5.
|
|
|
|
CONVENIENT INSPECTION FUNCTION
|
|
|
|
Saved data can be easily pulled up from the Inspection Screen. In the Inspection Screen the user can create a standard by which to measure the saved data. The user will enter the desired Max Ramp Rate, the Soak Time and Temperature, the Reflow Peak Time and Temperature, and the absolute Peak Temperature. When the data of a profile is pulled up against this standard, then any variable that is not within the limits of the standard will be marked in Red.
|
|
|
|
|
OPERATION SCREEN CONFIRMATION CAPABILITY
|
|
|
|
From the Operations Screen, the user is able to pull up the completed profile. The profile will be visible in the Graph Area so there will be no mistaking which profile has been chosen. For further confirmation, any instruction notes that were entered in the Instructions area will also be visible. These help the user to confirm that the data pulled up is the proper data for the component and PCB.
|
|
|
|
COMPONENT PREPARATION, ALIGNMENT AND PLACEMENT
|
|
|
|
|
The RD-500III and the RD-500SIII both come standard with the BP-500 Solder Paste Preparation Kit ( stencils are optional ).
The BP-500 allows the user to apply solder paste directly to the balls of the component. This component is then placed in
the Optics Arm where it is picked from the BP-500 and is ready for alignment to the PCB. The Optics Arm and Alignment
software then allow the user to Zoom, Focus ( if auto-focus is disabled ), and split screen for maximum easy in alignment and
placement. Here are the Basic Steps
|
STEP 1
|
|
STEP 2
|
|
STEP 3
|
|
Place the component in the appropriate stencil
|
|
Apply solder or flux paste to the component.
|
|
Deploy the Optics Arm and Place the BP-500 with the component against the stop of the Optics Arm.
|
STEP 4
|
|
STEP 5
|
|
STEP 6 (Screen Split)
|
|
Using the table movement knobs, align the PCB to the component as necessary. If Theta adjustment is required, it can be done via the Theta adjustment knob on the front of the heater head.
|
|
For large components where the balls are difficult to distinguish, the screen split function will enlarge and split the view so that only two smaller corner sections can be viewed.
|
|
The RD-500III and the RD-500SIII share the same set of unique safety features that make operating the machine simple and safe.
These include:
Initialization Check
When the unit is initially powered up, the software will check all the major motion sensor the software will prevent the machine from operating until the problem is fixed and the error is cleared.
Airflow Sensor
There is an airflow sensor on the main input side of the unit that will prevent the machine from runnning if there is insufficient or no airflow into the machine. Also, if the air flow to the machine is stopped during the cycle it will stop the unit from functioning.
Heater Overload Sensor
Should either of the upper or lower air flow heaters see a condition where they are getting full power from more than 60 seconds, the unit will stop the cycle.
Thermo-protector Cutoff Switch
These are two heater cut off switches that are mechanically attached to heating elements. These cutoff switches act as breakers in a condition where the heaters become over heated. If they reach a certain temperature, then they will cut off the power to the heater. The only way that they will work against is if they are manually reset by pusing a button on the cutoff switch.
Heater Head Slip Clutch
The heater head moves up and down using a motor driven belt. This belt has a slip clutch on it so that if the motion is obstructed in anyway, the slip clutch will activate and prevent injury or damage to the board.
Low Strength Optics Arm
The optics arm is also deployed using a motor which drives a belt. The power that is used to deploy the arm is at such a low level that even the slightest obstruction will stop the deployment. However, once the obstruction is removed, the arm will continue its movement
|
|
|
Part#
|
Size in MM
(Inside
Dimension)
|
|
BNZ-07
|
7 X 7
|
|
BNZ-09
|
9 X 9
|
|
BNZ-13
|
13 X 13
|
|
BNZ-15
|
15 X 15
|
|
BNZ-18
|
18 X 18
|
|
BNZ-20
|
20 X 20
|
|
BNZ-22
|
22 X 22
|
|
BNZ-24
|
24 X 24
|
|
BNZ-26
|
26 X 26
|
|
|
|
Part#
|
Size in MM
(Inside
Dimension)
|
|
BNZ-28
|
28 X 28
|
|
BNZ-30
|
30 X 30
|
|
BNZ-32
|
32 X 32
|
|
BNZ-35
|
35 X 35
|
|
BNZ-37
|
37 X 37
|
|
BNZ-39
|
39 X 39
|
|
BNZ-44
|
44 X 44
|
|
BNZ-49
|
49 X 49
|
|
BNZ-52
|
52 X 52
|
|
Odd size/shape PCB Holder
|
Multi Parts Holder
|
Board Support Bracket
|
RD-500SIII Area Heater
|
Stencils
|
Table with Drawer, Wheels and Adjustable Leveling Feet
|
Small Board Holder for Small Size PCB *Standard Accessory
|
|
|
|
- Controller
- Flat Panel Display
- Regulator
- Small Board Holder
for Small Size PCB
- Board Support Bracket
(Optional for RD-500SIII)
|
- Top Heater Nozzle
( Selectable from 18 kinds )
- Botton Heater Nozzle 2 Each
- Vacuum Pad, Medium and Large 3 each
- K-Type Thermocouples 5 each
- Stenciling Kit BP-500 (Less Stencil)
- Squeegee
- Board Stopper
|
|
|
RD-500III
|
RD-500SIII
|
|
Maximum PCB Size
|
500mm X 600mm
|
400mm X 420mm
|
|
Device Size Range
|
2mm -50mm
|
|
Placement Accuracy
|
+/- 0.025mm
|
|
Upper Hot Air Heater
|
700Watt Hot Air
|
|
Lower Hot Air Heater
|
700Watt Hot Air
|
|
Area Heater
|
400W X 6(IR) 2400Watt Total
|
400W X 3(IR) 1200Watt Total *Optional
|
Temperature Setting
Range Upper & Lowe
Hot Air Heater
|
0 - 650 Degree C
|
|
Temperature Setting Range Air Heater
|
0 - 650 Degree C
|
|
PC Operating System
|
Controller (PC-500)
|
|
Monitor Size
|
15 Inch LCD Display
|
|
Overall Size Less PC
|
770W X 755D X 885H
|
580W X 580D X 735H
|
|
Overall Weight
|
Approximately 78kg
|
Approximately 50kg
|
|
Air Requirements
|
80L/min (0.2 - 1.0MPa)
|
|
Electrical Requirements
|
AC200-230V 3.8kW
|
AC200-230V 2.6kW(1.4kW for Main Body, 1200W for Area Heater)
|
|
|
|
CATALOG : 
