Difference between revisions of "Pusher"

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* Based on ESP8266 WiFi Module (ESP-12S) - all source code is available for download and developed in the popular Arduino IDE.   
 
* Based on ESP8266 WiFi Module (ESP-12S) - all source code is available for download and developed in the popular Arduino IDE.   
 
* Battery Input can be any Lithium Polymer 3.7V - standard micro JST connector jack is used (please double check polarity),any of [https://www.adafruit.com/category/574 these] would work nicely.
 
* Battery Input can be any Lithium Polymer 3.7V - standard micro JST connector jack is used (please double check polarity),any of [https://www.adafruit.com/category/574 these] would work nicely.
* Sensor input to trigger the "Wake Up" can be any passive switch.  Typically a standard magnetic door/window switch is used and the board can be configured to wake on the "closure" (Normally Closed) or "opening" (Normally Open) of the contact.  Solder jumpers set this - Normally Closed is Default, so standard door/window switches wake the board up when opened.   
+
* Sensor input to trigger the "Wake Up" can be any passive switch.  Typically a standard magnetic door/window switch is used and the board can be configured to wake on the "opening" (Normally Closed) or "closure" (Normally Open) of the contact.  Solder jumpers set this - Normally Closed is Default, so standard door/window switches wake the board up when opened.   
 
* Dimensions only 0.8" x 1.6 "  (20.32mm x 40.64mm)
 
* Dimensions only 0.8" x 1.6 "  (20.32mm x 40.64mm)
  

Revision as of 22:08, 5 December 2017

...Back to Projects:

PusherHeader.png

The Pusher Board is an IoT project that does one thing - it pushes you a notification triggered by a digital input. Well, it's much more than that, but this is the inspiration. I wanted to design a WiFi board that essentially sleeps most of its life, but when that door switch, flood sensor, motion sensor, etc.. gets triggered, I just want a notification immediately on my phone. And that's about it... a perfect IoT device in the background doing its job.

Latest Release Version 4

PusherHookedUp.png

  • Simple IoT development board that was designed to trigger "Push Notifications" on a smart phone/tablet based on a trigger event.
  • Unique low power front end to enable sub 1uA sleep current - uses a pulse to trigger wake-up, so even if door/window/etc is opened, the same ultra low currents can be achieved. Compare to standard pull-up/down resistor based digital input designs with significantly higher leakage current.
  • The board will wake itself up once an hour to check the battery voltage - if running low, a push notification is sent to warn the user. This timer can be used to check other things as well - temperature changes, accelerometers, or other environmental sensors.
  • Based on ESP8266 WiFi Module (ESP-12S) - all source code is available for download and developed in the popular Arduino IDE.
  • Battery Input can be any Lithium Polymer 3.7V - standard micro JST connector jack is used (please double check polarity),any of these would work nicely.
  • Sensor input to trigger the "Wake Up" can be any passive switch. Typically a standard magnetic door/window switch is used and the board can be configured to wake on the "opening" (Normally Closed) or "closure" (Normally Open) of the contact. Solder jumpers set this - Normally Closed is Default, so standard door/window switches wake the board up when opened.
  • Dimensions only 0.8" x 1.6 " (20.32mm x 40.64mm)

PusherV4diagram.png


Version 1

Screen Shot 2017-06-04 at 1.38.08 PM.png

Very first prototype board

  • Mostly through hole components for easy testing and assembly
  • ESP8266 based (ESP-12S module)
  • Wake on regular timer interval - set for 1hr during my testing.
  • Wake on Digital Input - Normally Closed type contact, so works nicely with door sensors.
  • Tested sleep current <1uA that's years and years of battery life.
  • Max Battery Voltage is ~4.2VDC, so designed to be used with standard Lithium Batteries.
  • Note: this board does require re-work in order to exercise all of the functionality. Please watch assembly videos below for detailed information

Here's a quick demo!

Installed on my door for testing:

PusherOnDoor.png

Schematic

PusherV1SCH.png

Purchase

given to Patrons

Parts

Parts list HERE

Assembly

Soldering the board together:

The rework changes:

Battery Voltage Measurement Circuit Change:

Tutorials

Programming and Testing the board:

That Sample Code HERE

Pusher Board Sending Push Notifications with Pushbullet and hardware walkthrough

I'm using Pushbullet for the Notifications:  https://www.pushbullet.com  (~$40/yr for unlimited pushes - 500/mo for free version)
That's nice because you don't need to develop your own app or anything.  Just set up an account with them and you're good to go.  Go to settings, account, and API - generate your token and copy that whole thing into the code - should be something like o.xyz...
THE CODE HERE
Richard's Channel: https://www.youtube.com/channel/UCLgqthbPlZGr8DuHDKKr9EA
And where I found the Pushbullet API code:  https://steve0hh.github.io/2016/12/04/how-to-send-push-notifications-using-esp8266.html
 Update 7/28/17 I did have two instances where the board failed to go back to sleep after wake.  I had to unplug the battery to resolve

And if you're having problems getting the Arduino IDE setup, check out this video:

The .json url  HERE

Version 2

PusherV2gerb.png

Changes to V2:

  • Fixed up the issues from V1 - mostly the circuit to pulse-wake the board
  • Added in support for Normally Open style contacts, so now with an on-board switch, the board can either be woken up from a contact closing or opening.
  • JST connectors for battery and sensor input - can use these

Schematic

PusherV2sch.png

Parts

Parts list HERE

Assembly

Soldering the board is pretty much the same as V1.

The Q4 Rework Change:

Version 3

PusherV3front.png PusherV3back.png

  • Miniaturized version - all surface mount components
  • Dimensions only 0.8" x 1.6 " (20.32mm x 40.64mm)
  • Optimized circuit design from V2
  • Battery Charging on board via MicroUSB connector

Schematic

PusherV3schemo.png

Parts

Parts list HERE

Ordering Stencils Tutorial
Ordering Parts Tutorial

Assembly

Since this board is all surface mount - a top paste stencil is recommended. HERE is the file to get this made.

I usually get my stainless stencils from Electrodragon, but you can go with PCBway or you could even get a plastic stencil from Pololu. I would only recommend a stainless stencil for this job though.

Before you take start the assembly, check this video out I made a while back

Tools I use:

Soldering Station Hakko FX888D and I like a these tips
Hot Air Station here: https://www.amazon.com/gp/product/B00ITMPQS2/ref=oh_aui_detailpage_o04_s00?ie=UTF8&psc=1
Solder Paste: SMD291SNL10 (I keep mine refrigerated when not in use, then sit out for an hour or so before I need it)
https://www.digikey.com/product-detail/en/chip-quik-inc/SMD291SNL10/SMD291SNL10-ND/2057272
Get a decent Loupe
Quality tweezers
And some good Flux

This board is so tiny and dense that I couldn't place the silk screen designators, so here's where all of the parts go:

PusherV3topASSY.png PusherV3botASSY.png

Full Assembly Video:

Programming

Pusher V3 Sample