So I have a circuit where a typical 3.7V LiPo battery supplies power to a [bq24074 Charge Protect IC][1], which should in theory short that voltage straight to the output of the charge-protect circuit, which then can be attached to a load. For a load, I'm having an electronic load drain constant current of 200mA. The flow is as I described:

[LiPo] ---(Vbatt)---> [Charge Protect IC] ---(Vload)---> [Electronic load]

[![Voltage is collapsing when load is attached][2]][2]

When the load is turned on (draws 200mA), the battery voltage remains relatively unphased, but the voltage between the Charge Protect IC and the Electronic load drops to 1.7V from 4.0V. I followed the application schematic from the datasheet almost exactly, only changing resistors that control charge current rates.

The application I have for this only draws around 15-25mA, and at those draws the voltage collapse is much smaller so there's no urgency in solving this. That said, in the future I want to implement applications that have infrequent large spikes in current consumption, so it begs the questions:

 - **In the situation I described, why might the load be causing the
   voltage to collapse?**
 - (and bonus question for curiosity's sake, since google wasn't
   helpful:) **In general, why might a load cause voltages to collapse?**

  [1]: http://www.ti.com/lit/ds/symlink/bq24074.pdf
  [2]: https://i.sstatic.net/YEJZs.jpg