Part Number: TPS7H4002-SP Other Parts Discussed in Thread: TPS7H4010-SEP , Hi,
I asked a similar question about the TPS7H4010-SEP, but i was looking for clearer data on the light load efficiency characteristics of the 4002-SP as well. The graphs below…
Part Number: TPS7H4002-SP The pin length on the TPS7H4002 is far longer than the supplied footprint; I'm assuming that the pins need to be cut, as the Eval board has far shorter pins than the stock part? Is there a documented method or template available…
Part Number: TPS7H4002-SP Regarding the above part, the calculator supplied is suggesting an RSC value of 2.14MOhms, however the datasheet (7.3.5) states that slope compensation is internal. Can you confirm that no external RSC is required, and that this…
Part Number: TPS7H4002-SP Other Parts Discussed in Thread: PSPICE-FOR-TI Hello,
We are considering using the TPS7H4002 in a space grade design, and are currently evaluating it via Altium's PSPICE. However, there appears to be an issue with the supplied…
Part Number: TPS7H4002-SP Other Parts Discussed in Thread: TPS50601A-SP Would the TPS7H4002-SP be capable of providing a 1.0V +/- 3% output? Vin = 5V and Iout = 600 mA nominal.
Vref tolerance +/-1.5 % based on data sheet. Feedback resistors would need…
Part Number: TPS7H4002-SP
Hi! We are considering this device for a new space-grade design. The datasheet says that the component is "SET and SEFI characterized up to LET = 75 MeV-cm2/mg". In the Single-Event Effects test Report no explicit mention…
For PVIN=5V operation, the external input clock should meet the min VIH requirements determined in simulation and characterization (see below). A 3.3V clock source will meet this requirements with margin.
The SYNC circuitry of TPS50601A-SP was reused…
Other Parts Discussed in Thread: MKT-WG16A-MS , MKT-WG10A-MS , SN0020HKH , SN0010HKU , SN00020FK Looking for mechanical package samples for trim and form setup
Answer:
For our Power Ceramic QMLV qualified portfolio of devices we do offer the following mechanical…
Lead-times and available finished good inventory vary by device and change over time, but we are dedicated to providing quick and easy access to all our devices via TI.com.
To help provide more transparency into TI’s available inventory, in late 2020…
Could TI please provide guidance for how to trim/form the leads of ceramic devices and provide the PCB footprints so we can integrate into our system design?
