Group Actions
Engagement
  • Author Author: COMPACT
  • Date Created: Date Created
  • Views 557 views
  • Likes 1 like
  • Comments 2 comments
Related
Recommended

It's Alive! Part 013

COMPACT

Design Considerations

This version of QI is designed to pump out 5 watts.

To ensure that this maximum is not exceeded;

  • the selected Li-Ion battery charger chosen supports current limiting.
  • the output power supply's specification match

 

Since a Li-Ion Cell voltage ranges from 3.7 to 4.2 volts, output voltages above this will require a step up power supply.

Similarly for voltages below this will require a step down power supply.

 

To minimise the part count I have selected;

  • BQ51013T Qi Receiver
  • BQ24075T Li-Ion Battery Charger with dynamic power path Management (DPPM)
  • LMR62014XMFE/NOPBLMR62014XMFE/NOPB A 1.4W Step Up Simple Switcher (up to a maximum of 20V) or LMZ10503 Simple Switcher  (for 0.8-5.0V)

 

The BQ24075T is a clever part. Besides being able to charge a Li-Ion battery;

  • it has its own Dynamic Power Path Management (DPPM) that removes the need for an additional MOSFET, TPS2115APWTPS2115APW or similar power multiplexter.
  • it provides current limiting control to limit the load upon its input power supply
  • it's also got two indicator leds to indicate Charging and Power Good.

 

Here is a photo of the TI EVMs connected and working to prove the concept.

image

This particular configuration uses the LMZ10503 to produce 2.5V but this can be adjusted up to 5V to power the beagleboard or other device as required.

The blue battery (a 18650 Li-Ion cell with 2200mAh) looks like an AA cell but is much larger in size.

To fit into the case I will need to obtain a flat format battery like those used for digital cameras and phones.

 

Power comes out from the Simple Switcher outputs - These are not connected just for the photo.

 

Initial testing shows it that works a treat with seamless power switching.

  • Without wireless power and with battery connected - the battery is powering the Simple Switcher and the output voltage from the Simple Switcher is correct is correct.
  • With wireless power and battery connected - the wireless power is powering the Simple Switcher and (charging the battery as required) and the output voltage from the Simple Switcher is correct.
Parents Comment Children
  • in reply to vsluiter

    Yes.

    Qi version 1 has a limit of 5W and the beagleboard PMIC has a maximum input current of 2.5A (12.5W @ 5V) via DC connector and  recommended maximum of 1.3A (5.9W via mini USB port).

     

    To accomodate power hungry capes, I'd require a set of medium power Qi underpants that can provide up to 120W or relegate the Qi to only charge the batteries.

    A supercap could also be considered to handle intermittent higher peak loads.

     

    This set of underpants is for low power 5W applications or only charging batteries.

    If I am to boot the beagleboard directly from wireless power the BQ24075T has a charge enable input to enable me to delay any required battery charging at boot up allowing me to use the full complement of 5W for the beagle board.

    After a predetermined delay to cater for the increased boot load, charging can be enabled.

     

    To avoid blowing up the Qi Receiver, BQ24075T input current limiter will be set to 1A.

     

    In my quest to adapt devices for wireless operation I've encountered a few that have some power consumption peaks above 5W.

    For these, QI wireless power is relegated to charging the batteries.

    The batteries and switching power supply must also be sufficient.