Part Number: TPS61230 Tool/software: hi
i wish to understand, if the input voltage is lower than the output voltage (Vin<Vout), is it possible that the device will shorten Vout to Vin and that current will flow from output to the input? from the datasheet…
Part Number: TPS61230 Hi team,
Input: 5V+-10%,Output: 5.5V/1.8A
Inductance L1 Recommended Inductance Value?
Is there a limit to the input Voltage and Output Voltage to how much difference of pressure does it not operate?
Does the Input voltage bypass…
Part Number: TPS61230 Other Parts Discussed in Thread: TPL5110 , Hi Experts,
Good day! I am posting this on behalf of the customer.
I am trying to design a circuit using a couple of your components but I am struggling with getting the PCB components right…
Part Number: TPS61230 Does this boost regulator support using 2 in parallel? I know that not all boost devices can support parallelization, but I found this thread showing that the part in question does support parallel use:
e2e.ti.com/.../tps61288-using…
Part Number: TPS61230 Hi TI,
If my design is Vin=3.135V to 3.465V and set Vout=3.5V and the max. consumed current is 2A, can TPS61230 work normally without issue and side effect? What is the suggest Cin/Cout/Inductance?
If not, what is the workable gap…
Part Number: TPS61230 Hello Sir:
Our schematic shows below figure.
Our inductance is 1uH, we make 100pcs products and there were 20pcs in PFM mode.
Please refer our tested waveform in attached file.
Can you let us know how to let converter enter PWM early…
Part Number: TPS61230 We are in production. the part we use to generate 5V : TPS61230ARNSR or TPS61230ARNST. However, neither is available in stock.
Do you have replacement part with the same foot print and performance ?
Part Number: TPS61230 Hi Team,
My customer now use TPS61230.
But the input from backup battery has a 3.8 ohm to GND.
But with the 3.8 ohm from Front circuit, TPS61230 circuit will oscillate; When customer disconnected Front circuit, which means no 3.8ohm…
Part Number: TPS61230 When the power down slew rate is extremely slow (ex: 3.3V -> 2V takes 10ms), it will result in an “oscillation” (or “power ring”).
For instance:
Input power droop below 2.5V -> All the circuits connect…