Hardware Guide

Components needed to manufacture a smart toothbrush

Electronic components for assembling the board

Reference on the board	Notes	Footprint	Quantity	Shop Description	Shop Item No.	Costs per unit in EUR	Shop
U1	ESP32-WROOM-32 Processor	ESP32-WROOM-32	1	WIFI-SMD-Modul, ESP32-D0WD-V3, 4 MB SPI, 3,3 V, 18 x 25,5 x 3,1	ESP32WROOM32E	3.6	Link
RTC	Real-Time-Clock unit	PinSocket_1x05_P2.54mm_Vertical	1	Raspberry Pi - Real-Time-Clock-Modul (RTC), DS3231SN	RPI RTC CLOCK	4.6	Link
USB	USB input pin socket of the board	PinSocket_1x05_P2.54mm_Vertical	1	Präzisionsbuchsenleiste, gewinkelt, RM 2,54, 20-polig	W+P 154-020-1	2.25	Link
R_EN	SMD Resistor, 10K	R_0603_1608Metric_Pad0.98x0.95mm_HandSolder	1	SMD-Widerstand, 0603, 10 kOhm, 100 mW, 1%	SMD-0603 10K	0.02	Link
C_EN, C2	SMD capacitors, 0.1uF	C_0805_2012Metric_Pad1.18x1.45mm_HandSolder	2	Vielschicht-Kerko, 100nF, 50V, 125°C	KEM X7R0805 100N	0.03	Link
C1	SMD capacitors, 10uF	C_0805_2012Metric_Pad1.18x1.45mm_HandSolder	1	Vielschicht-Kerko, 10µF, 10V, 85°C	KEM X5R0805 10U	0.14	Link
T3, GND	through-hole resistor, 8.2K from T3 to GND	PinSocket_1x01_P2.54mm_Vertical, PinSocket_1x02_P2.54mm_Vertical	1	Widerstand, Metallschicht, 8,20 kOhm, 0207, 0,6 W, 1%	METALL 8,20K	0.07	Link
SD_card	SD Breakout Board	PinSocket_1x06_P2.54mm_Vertical	1	Micro SD Breakout Board 3,3V 6Pin für SD/TF Karte Compatible with Arduino	CP09009	1.19	Link
SW_EN_btn, SW_Boot_btn	Buttons	SW_Push_1P1T_NO_6x6mm_H9.5mm	1	10 Stk. 6x6x6mm DIP-4 mini Drucktaster Eingabetaster AC 250V DC 12V 50mA	ZB04002	1.19	Link
IMU	Sensor	PinSocket_1x04_P2.54mm_Vertical	1	GY-LSM6DS3 6-Wege-Modul Stöße, Neigungen, Bewegungen, Taps, Schritte, Temperatur messen	604811	2.58	Link

Further components for assembling the smart toothbrush

Notes	Quantity	Shop Description	Shop Item No.	Costs per unit in EUR	Shop
PCB Boards	1	PCB 2L, HASL, 8BD	AIS-109	2,6	Link
Stellar Stencil for the PCBs	1	Stencil, 100µm	AIS-103	6.69	Link
Low-temp solder paste	1	BEEYUIHF bleifreies Lötpaste, Sn42 Bi58 Spritzenlötpaste Flussmittel, bleifrei Lötflussmittel-Zinnpaste, Niedrige Temperatur 138 Grad, für BGA SMT Lötzinn (1.05oz/30g)	B0BLNJMTRF	12.99	Link
AAA battery springs	1	sourcing map 20Set Batterie Federplatte AAA Feder Kontakt Vernickelt 10mmx9mm	B0B1HKP324	6.99	Link
Insulated copper wire	1	LITZE RT Kupferlitze isoliert, 10 m, 1 x 0,14 mm², rot	LITZE RT	0.93	Link
High-performance lithium batteries	1	Kraftmax 10er Pack CR123 / CR123A Lithium Hochleistungs- Batterie für professionelle Anwendungen		14.94	Link
USB to TTL Serial converter	1	FTDI Adapter FT232RL USB zu TTL Serial 3,3V und 5V für Arduino PRO Mini	272300614420	1.67	Link
USB 2.0 A to Mini B cable	1	USB 2.0 Kabel, A Stecker auf Mini B Stecker, 0,3 m	GC 3310-AM03	1.3	Link
White PLA filament, 750g	1	ULTIMAKER 74579 PLA Filament - M0751 weiß - 750 g	ULTIMAKER 74579	41.65	Link
Rapid photopolymer resin, 1000g	1	ELEGOO 3D Drucker LCD UV Resin, 405nm Rapid Photopolymer Resin für LCD/DLP 3D Drucker Photopolymer Harz, 1000g Weiß	B08PBWMCXZ	29.99	Link
Toothbrush with replaceable heads	1	aronal - Zahnbürste öko-dent mit Aufsteckbürsten mittel, 1 St	1539461	3.95	Link
Methacrylate adhesive	1	Methacrylatkleber, Multi Power 3, milchig weiß / gelb, flüssig	GLUE MP111	5.6	Link
28 x 1 mm NBR 70 O-ring	1	Dichtring / O-Ring 28 x 1 mm NBR 70	451011	1.36	Link
M3 x 1/4 inch PC screws	1	PC Schrauben M3 x 1/4 Zoll, 50 Stück	ST SCREWM3	5	Link
M3 x 16 mm flat countersunk screws	1	Flach-Senkkopfschrauben, Edelstahl A2, PZD, M3, 16 mm, 100 Stück	SKS-E M3X16-100	6.99	Link
M3x5.7 thread inserts for 3D printing	1	3D Druck, Gewindeeinsätze, M3x5,7, 100 Stück	RX-M3X5,7	8.99	Link
Tape	1	tesafilm® invisible, 10 m x 19 mm, 1 Rolle	TESA 57335	1.45	Link
MicroSDHC memory card	1	MicroSDHC-Speicherkarte 4GB, Intenso	INTENSO MSDHC4G	2.99	Link

PCB Design

The design was created with KiCad (https://www.kicad.org/). KiCad is open source and free of charge.

You can find the latest PCB design, version 2.0, in the following directories: Hardware/PCB/{Smart Toothbrush Version 2.0_KiCad, Smart Toothbrush Version 2.0_Gerber_files.zip}. The design is user-friendly, offering pins for each component on the board. This allows for direct soldering of components to the board via pins, simplifying the process and saving time. Additionally, a mounting screw ensures the board's stable position within the toothbrush. For added convenience, the micro SD card slot is easily accessible on the front of the board.

Ordering new PCBs

To order new PCBs, we have made good experiences with Aisler (https://aisler.net/). If you use KiCad, you can install the AISLER Push for KiCad plugin https://community.aisler.net/t/aisler-push-for-kicad/) to directly push the PCB design from KiCad to Aisler. Then you PCB design is automatically checked by Aisler to avoid basic design errors. For a more efficient soldering process of the SMD components and the processor to the board, you can order a corresponding stencil for precise application of the solder paste.

Soldering the SMD components on the board

To solder the SMD components on the board, you can use either a Hot Air Soldering Station, a Soldering Station, or a Reflow Oven. We used the T-962 Infrared Reflow Oven and solder paste with a melting point of 138℃. Place the stencil over the PCB and apply solder paste with a card such as credit card. After removing the stencil, solder paste should be evenly distributed over all contact surfaces. Next, place the processor and the other SMD components on the board.

R_EN	Resistor, 0603, 10 kOhm
C_EN, C2	Capacitor, 0805, 100nF
C1	nothing

If you use a reflow oven, you should be careful that the buttons do not melt and deform due to the heat. For us, it was better to leave the buttons out and then solder them on manually later.

Then, depending on your solder paste, choose a reflow curve. If you use the T-962 infrared reflow oven, then you can use wave 2.

Soldering all other components on the board

• First, start with the buttons, flatten the legs and then cut out the legs as shown in the picture

• Then solder the two buttons to the corresponding pads

• Next, position and solder the angled connector block with 5 pins on the board. It is required for the USB connection

• Then take the resistor with 8.20 kOhm and solder it between the T3 and the GND connection on the front of the PCB and clip off the connection wires from the resistor

• Then solder the IMU GY-LSM6DS3 to the PCB as follows on the back of the PCB
• Adapt the existing pin headers to accommodate configurations of 1 x 1 pin and 1 x 4 pins and then set the pins as shown in the table and in the pictures to connect the IMU to the PCB

	3V3
	GND
INT1	SCL
	SDA

• Then solder the pins on the front to the PCB and the pins on the back to the IMU

• Next solder the Real-Time-Clock-Modul (RTC), DS3231SN on the PCB
• Given RTC

• First desolder the yellow battery on the back and and remove the black pin socket
• To avoid damaging the RTC, remove the leg of each pin, e.g. with a side cutter, by simply cutting off one leg. Although this may seem unusual at first glance, we do not need to desolder the pins and solder new pins to the RTC using this method, as this can easily lead to a malfunction, e.g. due to a cold solder joint or destruction of the component

• Then position the RTC on the back of the board and use the available holes on the board to insert the legs of the RTC

• Then solder the legs of the RTC to the board on the front side
• The SD card board should be aligned parallel to the circuit board so that it fits well in the case later on

• Finally, use cables to connect the board with the battery contacts.

Troubleshooting in the electronics

• Cold solder joints or other connections that have not been soldered correctly can be checked with a multimeter. Simply look at the circuit diagram and check the connections with a multimeter.
• Also check the connections from the pads of the PCB to the pads of the processor, as sometimes not all the pads of the processor have been soldered to the PCB with the solder paste. In this case, simply re-solder manually with solder and check for a connection.

Editing the design of the case

• If you want to make changes to the case, you can use the Fusion-360 software (https://www.autodesk.de/products/fusion-360). There is a free limited home-based, non-commercial personal edition or a student license available.
• Then export the changed files as .stl files.

Printing the cover and outer case

• Resin printing is necessary for the cover and outer shell because it needs to be fully disinfect able and hygienic. Only the resin print then leads to a smooth surface of the outer case.
• For the preparation of the files for printing you can use Chitubox, a Resin 3D Printing Slicer software (https://www.chitubox.com/en/index). There is a basic free version of Chitubox available: CHITUBOX Basic is a free 3D printing software (slicer) that slices and converts 3D mesh files into printable files.
• In the following we use an ELEGOO Mars Resin 3D Printer

Use the Elegoo mars printer for the outer shell. Best results were achieved with the Elegoo rapid Resin in white (27€ 1Kg Elegoo Rapid Resin on Amazon). The settings are already in the respective SLA files. (Hardware/CAD/SLA_Elegoo_Mars_Printer_files/{Cover_final_SLA_5covers.cbddlp,Shell_final_SLA_4shells.cbddlp}). Make sure to stick to the orientation, because the surface in the back will be smoother this way. This is important for correct sealing with the O-ring.

• Important: To avoid possible damage to the LCD screen of the printer, always check that there is no leftover material on the bottom of the display before the build plate is lowered. This is particularly important if printing is started a second time and there may be support material at the bottom.
• Before each print: Clean the build plate and the resin tank with isopropanol

Printing the cover

• Fill in the resin and start printing. Printing the cover takes around 20 minutes

• Make sure to be gently when removing it from the print plate, because it breaks easily
• Then use the ELEGOO Mercury Wash Station to wash and clean the print. Two to three minutes are enough. Otherwise, simply use a box filled with isopropanol.

• Next, wait until the model is dry and check that it is clean
• Finally use an Elegoo Mercury cure station. For us, 5 minutes worked quite well. It´s important to use the right curing time so that the print is solid but not porous and bridging.

• Finally, you receive the following covers:

Printing the outer shell

• Printing the shell takes around 16 hours!

• To ensure that there is enough resin in the printer, it is important to check the fill level after approx. 5-6 hours and refill if necessary. For us, topping up once after approx. 5-6 hours worked well, as we preferred to fill the tank to the top, even if in the end not all Resin was needed!
• When refilling, we highly recommend to not stop the printing, but carefully filling the resin while printing to avoid any cracks and unnecessary edges.

• Then again, an Eleoo Mercury cure station for 5 minutes worked quite well.

• Result

Printing the inner component

• We printed the inner part is printed with the Ultimaker 3D printer. To generate the files for the printing process, the Ultimaker Cura software can be used https://ultimaker.com/software/ultimaker-cura/
• In the following we use an Ultimaker 2+ 3D Printer and the Ultimaker Cura software
• To print the inner component, Import the STL file and use the standard settings with a layer height of 0.06mm. If the print fails, first check that you set the correct layer height! For us, a layer height of 0.06mm worked quite well! Additionally, you can set the Build Plate Adhesion to brim, which worked quite well for us.

• We used the filament pla white (1613)
• Printing each inner cover takes around two and a half hours.

Assembling the toothbrush

• Take the Aronal toothbrush and cut off about 1.6 cm from the upper part of the toothbrush
• You can use a simple hand saw and a file to remove any excess material so that the piece fits into the hole of the outer case of the toothbrush

• Use two-component glue to glue the piece into the hole of the outer case of the toothbrush

• Use either two component or fast glue to secure the threads from the inside into the holes from the outer case (little bit tricky)

• Prepare the inner case

• Then use the thread and insert the thread into the hole

• You can then use the screw to mount the board in the inner case

• Then glue the cover and the inner case together

• Place the O-ring on the cover as shown in the picture

• Now the case is complete

• You can now insert the inner case into the outer case and secure it with the screws (M3, 16 mm).