LPKF Plater
iLab Name: LPKF Plater
iLab Kiosk: BRK Packaging and Assembly Core
FIC: Dimitrios Peroulis
Owner: Mihailo Bradash
Location: BRK 2233
Maximum Wafer Size:
Overview
General Description
Maximum PCB Overall Size: 230 X 330 mm
Maximum PCB Platable Size: 200 X 260 mm
Minimum diameter via hole: 0.4 mm
The MiniContac RS unit is made for galvanic through-plating of circuit boards using the black hole process and for galvanic reinforcement of copper surfaces. The unit can be used for double-sided and multi-layer circuit boards.
The unit consists of a durable plastic and metal case containing the tanks for the chemical baths, the motion mechanism, the circuit board holders, and the control panel with status display. The control panel is located on the right of the unit top and the main switch is located on the right side panel of the unit.
Specifications
Maximum PCB Overall Size: 230 X 330 mm
Maximum PCB Plating Size: 200 X 260 mm (Due to mounting constraints, one end of board cannot be plated)
Minimum diameter via hole: 0.4 mm common (0.2 mm possible)
Standard Circuit Board Processing Time Estimate: 3 hours
Copper deposition rate: approximately 0.1 - 0.2 um per minute (6-12 um per hour) This value is only an estimate and depends on tank temperature, current, circuit board size, and condition of chemical baths.
Technology Overview
Phase 1: Degreasing the circuit board
Estimated processing time: 65 min
Phase 2: Cleaning the circuit board
Estimated processing time: 5 min
Phase 3: Activating the circuit board
Estimated processing time: 15 min
Phase 4: Copper plating the circuit board
Estimated processing time: 90 min
Reverse Pulse Plating Capability: The “Reverse Pulse Plating“ mode is activated in profiles 2, 4, and 6 preedited by LPKF. Reverse Pulse Plating is implemented in the special LPKF control circuit that monitors the the whole through-plating process. Conventional electroplating results in increased deposition of material on the rims of the via holes due to the distribution of flux lines. This so-called "dog-bone effect" of edge buildup during metal deposition occurs especially at a large depth-to-diameter ratio of the via holes. Reverse pulse plating uses short inverted pulses during which the circuit board acts as an anode. This causes parts of the bulging material to be removed so that the overall copper deposition is more uniform.
Sample Requirements and Preparation
The circuit board should be drilled only with carbide drills that are suitable for the board material and are in mint condition. Comply with the drill parameters found in the drill's manual or the tool libraries of BoardMaster. Preferably use FR4 with a copper layer of 5 or 9 μm, as this material has a protective copper film and rinsing suffices to clean the drilled holes. When using base material without protective film, e.g. FR4 18/18 μm, you need to deburr the drilled board and brush or scrub the surface with a non-woven synthetic (do not use steel wool). Rinse the circuit board thoroughly, especially the holes. Before processing the circuit board select the profile suitable for your requirements. If you should use board material of dimensions other than 9 x 12 “, you will have to edit the profile according to the board dimensions employed.
Bath 1 must be heated to approximately 55 C prior to operation. (See digital thermometer readout)
Standard Operating Procedure
Common Tasks and Processing Tips
Changing the plating profile (See Available Process Profiles)
- Use the up/down arrows to highlight the "Profiles" menu option. Click the right arrow to enter the next menu level.
Use the up/down arrows to highlight the "Selection" menu option. Click the right arrow to enter the next menu level.
Use the up/down arrows to highlight the process profile to be used. Click the right arrow to enter the selection.
Note: You can abort by pressing the left arrow key, several times if necessary.
Starting the process or specific phase of the process
- Use the up/down arrows to highlight the "Phases" menu option. Click the right arrow to enter the next menu level.
- Use the up/down arrows to highlight the phase to start, typically phase 1. Click the right arrow to enter the next menu level.
- Use the up/down arrows to highlight the "Start" option. Click the right arrow to enter the selection, follow prompts.
Note: You can abort by pressing the left arrow key, several times if necessary.
Setting calculated current for custom size circuit boards
Once required current setting has been determined from the Custom Size Circuit Board Current Calculator, you must enter this value into the appropriate profile to be applied during processing.
Note: Make sure you have the proper profile selected in the controller before proceeding with change.
- Use the up/down arrows to highlight the "Profiles" menu option. Click the right arrow to enter the next menu level.
- Use the up/down arrows to highlight the "Change" menu option. Click the right arrow to enter the next menu level.
- Use the up/down arrows to highlight the "Current" menu option. Click the right arrow to enter the new value.
- Select the digit to change using the right arrow key.
- Change the digit by pressing the up or down arrow key.
- Press the right arrow key several times to move the cursor to the last entry position. Press the right arrow key one more time, the value shown is stored to memory.
- Press the left arrow key as many times as needed to reach the main menu.
Note: You can abort by pressing the left arrow key, several times if necessary.
Inserting the circuit board into a chemical bath
- Insert the board into the bath and knock the board against the side of the tank several times to help remove air bubbles from small via holes.
- Fit the holes of the circuit board holder onto the pins on the tank frame.
- Shift the circuit board holder towards the back so that the clasp locks into place under the frame.
Phase 1: Degreasing the circuit board (complete sample requirements and preparation step above before proceeding)
1. Insert the circuit board with several knocking movements into tank 1.
2. Select and start PHASE 1 on the controller.
When the time counter is down to 0, a beep sounds and the status display prompts you to rinse the board.
3. Acknowledge the end of PHASE 1 by selecting and confirming END on the controller.
4. Take the circuit board out of the tank and rinse it thoroughly water in an external basin or sink.
Note: It is necessary to rinse the circuit board immediately after taking it out of bath 1 to prevent the degreasing agent from hardening. To rinse the circuit board move it up and down in a jet of water for about 15 times or at least 30 seconds. Ensure that the circuit board fastenings are also rinsed in order to minimize carry-over.
Phase 2: Cleaning the circuit board
1. Insert the circuit board with several knocking movements into tank 2.
2. Select and start PHASE 2 on the controller.
When the time counter is down to 0, a beep sounds and the status display prompts you to rinse and subsequently dry the board.
3. Acknowledge the end of PHASE 2 by selecting and confirming END on the controller.
4. Take out the circuit board and rinse thoroughly with tap water in an external basin or sink.
5. Rinse the circuit board with distilled, de-ionised, or ultra pure water. Make sure that the via holes are also rinsed thoroughly in this step.
Note: Take special care rinsing the circuit board otherwise the ACTIVATOR chemical is ruined by trace elements of the tap water (chlorine, calcium carbonate etc.) and has to be replaced completely.
6. Blow off the circuit board with oil-free compressed air or nitrogen until the water is removed from the holes.
7. Dry both sides of the circuit board with a heat gun. Make sure that the holes are completely cleared for the next phase.
Note: The circuit board has to be completely dry, water will dilute the ACTIVATOR chemical!
8. Cover tanks 1 and 2 to minimize evaporation losses.
Phase 3: Activating the circuit board
1. Insert the circuit board with several knocking movements into tank 3.
2. Select and start PHASE 3 on the controller.
When the time counter is down to 0, a beep sounds and the status display prompts you to dry the board.
3. Acknowledge the end of PHASE 3 by selecting and confirming END on the controller.
4. Take the circuit board out of the tank and wipe off the ACTIVATOR on both sides letting the liquid drip back into tank 3 using a squeegee.
5. Tap the almost dry circuit board on a soft surface so that surplus ACTIVATOR is removed even from small via holes.
6. Unfasten the board from the circuit board holder.
7. Let the circuit board dry thoroughly (e.g. using a heat gun, max. temperature 95 °C, +/- 5 °C for 4 minutes +/- 1 minute) and remove surplus ACTIVATOR by tapping the board in turns on a soft surface.
Note: Drying the ACTIVATOR can also be achieved using a drying cabinet at 100 °C max. (95 °C, +/- 5 °C for 4 minutes +/- 1 minute).
Note: Ensure that the holes are not blocked by residues.
8. If you are using FR4 base material with copper film remove the film after drying.
Phase 4: Copper plating
1. Remove any oxide layers on the circuit board holder with electrical connector using sandpaper (copper gleam must be visible at the bolt and the flat surfaces).
2. Fasten the circuit board to the circuit board holder with electrical connector.
3. Ensure that the cathode connector is plugged in properly on the right side of the enclosure.
4. Insert the circuit board with several knocking movements into tank 4.
5. Select and start PHASE 4 on the controller.
Checking whether all via holes are plated with copper.
6. After approx. 15 to 20 minutes select and confirm PAUSE in order to interrupt the through-plating process.
The countdown is halted.
7. Take the circuit board out of the tank.
8. Rinse the circuit board thoroughly in an external basin or sink.
9. Check the circuit board:
Check whether the circuit board edge is copper-plated already.
For multi-layer circuit boards the edges of which you have sealed with adhesive tape, use a magnifying glass to inspect the largest via hole whether it is copper-plated already.
If the circuit board edges (or holes) are already copper-plated the process works fine. Otherwise: Check the parameter settings (current, RPP).
10. Reinsert the circuit board with several knocking movements into tank 4.
11. Select and confirm START on the controller.
The countdown is resumed.
When half the time is over a beep is sounded and you are prompted to turn around the circuit board.
12. Take the circuit board holder with the circuit board out of the tank, turn it 180 °, and re-insert it with several knocking movements into the tank.
13. Select and confirm START on the controller.
When the time counter is down to 0, a beep sounds and the status display prompts you to rinse and subsequently dry the board.
14. Acknowledge the end of PHASE 4 by selecting and confirming END on the controller.
PHASE 4 can be repeated as often as needed by pressing the u key.
15. Take the circuit board out of bath 4 and let the chemical drip back into the bath.
16. Rinse the circuit board in an external basin or sink with running water for at least 30 seconds.
17. Blow off the circuit board with oil-free compressed air or nitrogen.
18. Dry the circuit board quickly, using warm air if possible (e.g. with a hair dryer or heat gun).
Note: This should be done as quickly as possible to prevent the copper from oxidizing.
Questions & Troubleshooting
Frequently asked Questions
What is the "Black hole process"?
In this process, the circuit board is wetted with a graphite solution. The solution is dried. Subsequently, the graphite layer is removed from the copper. In the via holes where the surface is rough with glass fibers and epoxy the graphite remains and thus forms a conductive surface for the copper to begin plating.
Error Codes
If the unit has detected an error this is indicated by an error code on the display. On the lower left of the display an "E" for "error" and a corresponding code number is displayed. On the lower right of the display the error name is displayed. At the same time a beep is sounded.
Code | Display | Cause | Remedy |
---|---|---|---|
01 | I < 1A | Current interrupted in tank 4 | Re-insert the circuit board into tank 4. Select and confirm START on the controller. |
Check the electric contact of the circuit board and holder | |||
Remove the protective copper film | |||
Check the anode plug and cable | |||
see "Cleaning the anode rails" on page 54 of manual | |||
02 | Level | Fill level of tank 1 is too low | Fill up tank 1 with CLEANER 110 up to the triangular mark. |
Fill level sensor is defective | Switch off the unit. Report the error to customer service. | ||
03 | VDD | Voltage VDD faulty | |
04 | Temp | Overheated heat sink | |
05 | 24V | 24V voltage faulty | |
06 | 3V | Plating voltage faulty | |
08 | TempSen | Temperature sensor is defective | |
16 | I Motor | Motor overload | see "Easing frame movement" on page 55 of manual |
Motor is defective | Switch off the unit. Report the error to customer service. |
Other fault indicators
Fault indicator | Possible Cause | Remedy |
---|---|---|
Bath 1 remains at room temperature | Heating element or heating fuse is defective | Switch off the unit. Report the error to customer service. |
Unit cannot be switched on | no mains connection | Check mains connection |
Mains fuse is defective | see "Replacing the fuse" on page 55 of manual | |
Internal fault | Switch off the unit. Report the error to customer service. |
Process Library
Available Process Profiles
Profiles 1 to 7 have been predefined by LPKF for use with 230 x 330 mm (9 x 12 in) circuit boards. Profiles 8 and 9 are available for customizing by the user.
Profile | Application | Preparation | Bath 1 Degreasing (55C) | Preparation | Bath 2 Cleaning | Preparation | Bath 3 Activation | Preparation | Bath 4 Plating | Concluding | Current (A) Full Board Settings | Reverse Pulse Plating (RPP) |
---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | Standard Board |
| 65 |
| 5 |
| 15 |
| 90 |
| 12 | off |
2 | Standard Board w/ RPP | 65 | 5 | 15 | 90 | 12 | on | |||||
3 | Multi-layer Board | 80 | 10 | 25 | 120 | 12 | off | |||||
4 | Multi-layer Board w/ RPP | 80 | 10 | 25 | 120 | 12 | on | |||||
5 | Flexible Board | 80 | 5 | 15 | 60 | 10 | off | |||||
6 | Flexible Board w/ RPP | 80 | 10 | 25 | 60 | 10 | on | |||||
7 | Initialization - Do not modify (used when chemicals are replaced) | 80? | N/A | N/A | 300? | 12? | ?? | |||||
8 | User-defined | User Defined as needed | ||||||||||
9 | User-defined | User Defined as needed |
When using circuit boards of dimensions other than 230 x 330 mm (standard full board), the plating current has to be recalculated and the profile has to be edited accordingly. Calculate the board area by multiplying Width x Length (do not double this for two sided boards). Enter the product into the calculator below in mm2 units. Press the Calculate Current button and the required current setting is output in the Required Current field. Enter this value into the profile as described below.
Note: Operating the unit at too high current settings will degrade the surface of the circuit board and reduce the service life of the chemical bath.
Custom Size Circuit Board Current Calculation
Once required current setting has been determined from the calculator below, you must enter this value into the appropriate profile to be applied during processing.
Online Calculator, Current = Board Area * Constant