Part Number: TPS7A96 LDO team,
Can you help with explaining a little more about the PG trip point for the TPS7A96? If the Rfb Top and Bottom is set to 187K and 12.4K respectively in order to give a 3.3V output, the resulting Vfb_pg = 0.205V. This is actually…
Part Number: TPS7A96 Hi team,
Our customer would be interested in a SPICE model for the TPS7A9601, but I can't find it on ti.com. Could you please help us out here? Thanks.
Best regards, Bryan
Part Number: TPS7A96 Other Parts Discussed in Thread: TPS7A57 , TPS7A47 , TPS7A3501 Hi Team,
I have a customer who have a question on cascading LDO.
Assuming that we have a cascaded power supply tree 24V-6-5-3.3 where the last 2 stages are LDO, customer…
Part Number: TPS7A96 Hi team,
Let me confirm about the resistor divider divider on the Table 8-2.
To what extent can this resistance variation be tolerated? However we can find 1% resistance use case, that is sometimes difficult to make the value with…
Part Number: TPS7A96 Other Parts Discussed in Thread: TPS796 Part number: TPS7A96: Part Description: Ultra-Low Noise, Ultra-High PSRR, RF Voltage Regulator
Questions :
The plot shown above is taken from page 1 of the part’s datasheet . I will be performing…
Hello,
I am unfamiliar with an IMON pin. Could you please clarify what this type of pin is and how to work, or send over a datasheet with this pin being used?
If the output current is greater than or equal to the minimum current limit (ILIM(Min)), then…
Part Number: TPS7A94 Other Parts Discussed in Thread: TPS7A96 Hi,
In data sheet to improve noise vs frequency performance at 1 MHz, it is suggested to use a Ferrite-bead Impedance = 49 @ 1MHz followed by a 1 uF capacitance. Can you please suggest some…
Hi Tom,
This should work just fine. The internal circuitry is analog in nature. You can dynamically change the NR/SS resistance and see a corresponding effect on Vout as you have indicated. Please be aware that the NR/SS capacitor is necessary for the…
Part Number: ADC08L060 Other Parts Discussed in Thread: TPS7A96 I've inherited a design using this device. It seems to be putting harmonics of the 48MHz clock we're using into the 3V supply, so I consulted the data sheet for supply filtering recommendations…