Editor Version ×
recommended

Pro Edition

free

Brand new interactions and interfaces

Smooth support for design sizes of over 3W

devices or 10W pads

More rigorous design constraints, more

standardized processes

For enterprises, more professional users

Std Edition

Easy to use and quick to get started

The process supports design scales of 300

devices or 1000 pads

Supports simple circuit simulation

For students, teachers, creators

Ongoing

STD Speedometer with Atmega328p, OLED, BMP280 and 433Mhz receiver

Speedometer with Atmega328p, OLED, BMP280 and 433Mhz receiver

Project tags

License

License:

Mode:

Mode

Editors' pick

Editors' pick

Cloned from Speedometer with ATtiny85 and OLED display copy

  • 2.2k
  • 0
  • 7
Update time: 2021-04-21 11:52:36
Creation time: 2020-03-11 21:05:38
Description

Description

More compact speedometer with OLED display and temperature measurement. This is the version 2 of the ATtiny85 speedometer. It features an ATmega328p uC that has more memory, pin functionalities, higher frequency and to which you can easily find the needed libraries (the ATmega328p is used on Arduino Uno). A serial-to-USB converter is needed for programming. It has the previous version's battery charging and protection circuitry, with the exception of the temperature sensor (v2 has BMP280 instead of TC74). I will be using it to measure the speed of my bicycle and determine the temperature around me on my rides. The project consists of 2 pcbs: the sensor that will be mounted on the wheel of my bike and the actual speedometer. The wheel sensor sends radio pulses via the H34A transmitter module each time a magnet passes through the Reed sensor. Each pulse will be then received by the H3V4F 433MHz receiver integrated in the speedometer board. The ATmega328p uC calculates the speed of the wheel and constantly reads the temperature and altitude using the BMP280 sensor by which then prints the values on the oled screen. The uC can also read the battery voltage. The speedometer circuitry will be supplied with a LiPo battery. The charging and protection circuits are based on a LiPo USB charger board commonly found on Aliexpress. Work in progress...
Design Drawing

Design Drawing

schematic diagram
1 /
PCB
1 /
The preview image was not generated, please save it again in the editor.
ID Name Designator Footprint Quantity
1 1N4148WS T4 D1 SOD-323 1
2 4.7K R1 0805 1
3 XC6206P332MR XC6206P332MR,XC6206P1MR SOT-23(SOT-23-3) 2
4 4.7uF C2 0805 1
5 H3V4F-433M U4 H3V4F-433M 1
6 390K R11 0805 1
7 2.2uF C3 0805 1
8 1k R4 0805 1
9 10k R9,R21,R22,R5 0805 4
10 ??? R10 0805 1
11 2k R13 0805 1
12 15k R12 0805 1
13 56k R15 0805 1
14 Header-Male-2.54_1x1 P3,P1 HDR-1X1/2.54 2
15 17- LED1 LED-0805 1
16 1uF C6 0805 1
17 0 R2,R3 0805 2
18 DW01A-G U3 SOT-23-6 1
19 10uF C1 0805 1
20 Switch,3*6*2.5Plastic head white,260G, 0.25mm,SMD SW3,SW4 SWITCH-3X6X2.5_SMD 2
21 U-MICRM05P-BF10 USB1 MICRO-USB-SMD_5PIN-H-FEMALE-PITCH0.65-L_U-MICRM05P-BF10 1
22 FS8205A Q2 TSSOP-8_3X4.4X065P 1
23 OLED U9 OLED 1
24 BME280 U8 LGA-8 1
25 TP4056 U1 SOP-8_L4.9-W3.9-P1.27-LS6.0-BL-EP 1
26 10nF C21,C9,C11,C7,C4,C5 0805 6
27 100nF C24 0805 1
28 ATMEGA328P-AU U10 TQFP-32_L7.0-W7.0-P0.80-LS9.0-BL 1

Unfold

Project Attachments

Project Attachments

Empty
Project Members

Project Members

Target complaint
Related Projects
Change a batch
Loading...

Comment

Add to album ×

Loading...

reminder ×

Do you need to add this project to the album?

服务时间

周一至周五 9:00~18:00
  • 0755 - 2382 4495
  • 153 6159 2675

服务时间

周一至周五 9:00~18:00
  • 立创EDA微信号

    easyeda

  • QQ交流群

    664186054

  • 立创EDA公众号

    lceda-cn