Part Number: BQ24075EVM Other Parts Discussed in Thread: BQ24075 , TPS61092 , BQ24074 ,
Hi Team,
Good day! This is posted in behalf of the customer. Please see whole inquiry below.
I am trying to build a solar charger using BQ24075 EVM. I am connecting a…
Part Number: BQ24075EVM Other Parts Discussed in Thread: BQ24072 Hi, I would like to know if the design files for the BQ24075EVM can be made available.
I've searched the forums and the pages for the evaluation modules for BQ24072/3/4 and there are no documents…
Part Number: BQ24075EVM Other Parts Discussed in Thread: BQ24075 Hello all,
I just have one quick question, is the Bq24075 able to recognize an e-load as a battery?
I tried hooking it up to an e-load in CV mode just to see the changing in the charging…
Part Number: BQ24075EVM Other Parts Discussed in Thread: BQ24075 Hello,
I'm working on a battery charger solution for a costumer and in order to test my charger I've been trying to use this battery emulator written by Rushil KK :
http://www.ti…
Part Number: BQ24075 Other Parts Discussed in Thread: , BQ24074 , BQ25120A Hi,
I'm in midst of working on a single cell 4.2V 1130mAh Li-Ion battery charger which carries the following parameters.
USB Source: 5V, 1.5A
Vchg: 5V, Ichg max: 750mA
I tried…
What is the battery capacity? How much charge current is flowing? Do you have the capability to measure VOUT, V(BAT), V(IN) and I(IN) on an oscilloscope scope over a long time period so the I can see battery attach and then start of charging? If you can…
Other Parts Discussed in Thread: BQ24075EVM I have a 5.14V @ 2.5A wall wart connected to the bq24075EVM and a 2600mAh Li-Ion battery. I need to be able to drive a 2A load. I see that the AC path (Iin) can only provide 1.5A and that the battery can supplements…
Other Parts Discussed in Thread: BQ24075 , BQ24075EVM Hi, I have a question regarding the BQ24075 IC. We purchased the evaluation module and according to the data sheet of both the IC and the evaluation module, the special feature for this BQ24075 IC by…
Hi Tahar,
What I'd really like to know is how TI arrived at the specification of Iout and Ibat(discharging), which on the datasheet are specified as 4.5A max. I've tested probably a dozen parts at this point, with several different power sources…