Part Number: TIDA-010074 Hello Team,
My customer is looking for the x-y pick and place files for the TIDA-010074. The design files have gerber data and BOM data, but are missing the placement files.
Thanks in advance.
Regards,
Renan
Part Number: TIDA-010074 Other Parts Discussed in Thread: LM5164 Dear TI expert,
In this example, RON connect R148 1.0M, if let's the power supply work in DCM mode? How to calculate the R148 is 1.0M value?
in normal work mode, the MCU let's turn on…
Part Number: TIDA-010074 Other Parts Discussed in Thread: LM2904B , , LM2904 HI
The LM2904B in the reference design TIDA-010074, as the 16 or 17 section, the maximum power supply of LM2904B is only 26V, 17 strings voltage is close to 60V. Does the power su…
Part Number: BQ76940
Query : Q23 MOSFET has Part no ZXMP10A13FTA which has VGth -2.0V to -4.0 V & if the op-amp Vss current is greater than 2uA /4 uA then Q23 will turn ON & op-amp Vss will pull down to Cell0 (GND). In this case, Vcc at op-amp is Bus…
Part Number: TIDA-010074 Hello;
TIDA-010074 uses " CSD19536KTT " Three , N-CH MOSFET, 100 V, 200 A .The Document says that it can handle 72 V and 30 A Discharge current .. So my question is if we look at this mosfet SOA the max Current at this voltage…
Part Number: TIDA-010074 Other Parts Discussed in Thread: CSD19536KTT , , BQ76200 Hello;
TIDA-010074 uses "CSD19536KTT" Three , N-CH MOSFET, 100 V, 200 A .The Document says that it can handle 72 V and 30 A Discharge current .. So my question is…
Part Number: LM5013 Other Parts Discussed in Thread: TIDA-010074 , LM5164 Hi expert,
Customer uses LM5013 in BMS project and Vin is connected with battery. Once connected with the battery (~52V) pin2 and pin3 damages. But using DC power supply there's…
Part Number: BQ76940 Other Parts Discussed in Thread: TIDA-010074 Hi
I have some queries about TIDA-010074
1. VDD of the op amp is CELL17+, VSS is CELL13+, and a 1M resistance between VSS and CELL13+ will not affect the power supply?What does Q23 do in…
Part Number: BQ76940 Hi,
in the reference design. We are able to monitor up to 17 cells voltage.
But I can't find that it can achieve cell balancing for the 16 and 17 cells. It seems that the cell balancing is still achieved within 15 cells controlled…