Part Number: TPS2116EVM Other Parts Discussed in Thread: TPS2116 Hi all,
As shown on the right, Ch2 is Vout & Ch4 is ST. The voltage droop reaches to 2.75V from 3.3V supplies. It should be noted that Both Vin1 & Vin2 are 3.3v. The load used is the on…
Part Number: TPS2116 Hi,
I am trying to use this dev kit to test out my application. here is the setup
VIN1 -- 3.3V li-ion battery
VIN2 -- 3.3V li-ion battery
The end goal is ..
if VIN1 goes below 2.5V switch to VIN2.
Doesn't matter what i…
Part Number: TPS2116EVM Other Parts Discussed in Thread: TPS2116 Good evening,
I am currently using TPS2116EVM, I have connected two amperemeters on VIN2 and VIN1 inputs (both are operating at 3.3Volts) to check the current consumption. I have connected…
Part Number: TPS2116 Tool/software: Hi,
We are working on a design with the following requirements:
Two input batteries of the type : non-rechargeable ER14505 3.6V, Lithium Thionyl Chloride, 2.6Ah
Switch from IN1 to IN2 : Triggered when IN1 voltage…
Hi Go,
Yes this is unexpected behavior from the simulation model. There is no dependence on IN1 assertion for the device to select IN2 as the output.
The TPS2116 uses the highest voltage supply to power the internals of the device. When one supply…
Hi Kalin, Thank you for your support.
In Section 10.2 and TPS2116EVM, the two VOUTs are bundled together and connected to a single load. Can each VOUT be connected to two different loads as shown in Figure 3?
Regards, Dice-K
Peter,
The best way to see the behavior of the part would be to order an EVM and use this for testing. From the application you described, TPS2116EVM would be the appropriate device to order for testing. Depending on the device, the PSPICE models might…
