Part Number: TPSM82864A Hello, the TPSM82864A MODE pin guaranteed input low level is (only) 0.4V.
When using a VSET pull-down resistor of say 205K (for fix 3.3V), will this safely provide a low-level for the digital MODE input during operation as well…
Part Number: TPSM82864A Other Parts Discussed in Thread: TPSM82813 , Hi team,
Are there some difference of Electrical characteristics between TPSM82864AA0 and TPSM82864AAH?
Best regards,
teritama
Part Number: TPSM82864A Hi Team,
Couple of questions regarding the schematic and layout.
If we put in a feedback resistor circuit, do we need to connect it to the AGND in the layout? That is, does pin 17 need to be connected to pin 18 in layout? Likewise…
Part Number: ADC12QJ1600 Other Parts Discussed in Thread: TPSM82864A Tool/software: Hello,
In your EVM - ADC12JQ1600 EVM you are using for the DC-DC conversion - from 5V to 2.2V, 1.4V, and 1.1V the TPS2652268 device.
Can we use X3 TPSM82864A instead …
Part Number: TPS54418 Other Parts Discussed in Thread: TPSM82864A Tool/software: I am using TPS54418 DC-DC IC, but found there is a 20mVpp 1KHz ripple at the output when current is drawn.
Is this due to switching frequency dithering? If so, what can…
Part Number: TPS62868 Other Parts Discussed in Thread: TPSM82864A , TPS62865 Hi,
According to datasheet, output voltage can be selected between two output voltage registers by the VID pin.
For TPS628680ARQY, the VSET/VID pin is connected to external resistor…
Part Number: TLVM13640 Other Parts Discussed in Thread: TPSM82810 , TPSM82864A , Good day,
I see that Buck converters like the TPSM82810 is rated for a Maximum Effective Output Capacitance of 470uF and the TPSM82864A datasheet states that Effective Output Capacitance…
Hi Moheddin,
Thanks for your help.
If the customer deems necessary, may a thermal pad be applied to the top of the module when using the power module below?
- TPSM82823
- TPSM82864A
- TPSM82810
- TPSM82813
Thanks,
JH
Hi Charlie,
For those specs, we have the newer, smaller TPSM82864A which is recommended.
This blog can help you calculate a second order filter to get the ripple down: https://e2e.ti.com/blogs_/b/powerhouse/posts/design-a-second-stage-filter-for-sensitive…