Part Number: TPS61088-Q1 I am trying to design TPS61088-Q1 with following design inputs
Vinmin=3.2V Vinnom=3.3V Vinmax=3.4V Vout=5V Iout=3A Ta=100C
Due to Ta=100C switching frequency is coming 195.367 KHZ and Tj=129.646C
Is this design OK ? I am attaching…
Part Number: TPS61088-Q1 Other Parts Discussed in Thread: TIDA-050031 Tool/software: Hi team,
From TPS61088-Q1 datasheet, the min input voltage is 2.7V. But I'm curious that why it can go below 2V in this design guide TIDA-050031? Backup Battery Power…
Part Number: TPS61088-Q1 Other Parts Discussed in Thread: TPS61088 Tool/software: Hi Expert,
The recommended operating conditions of TPS61088 is 2.7V to 12V. My customer would like to check if 61088 can maintain 8V/6W output(10 minutes minimum) when VIN…
Part Number: TPS61088-Q1 Other Parts Discussed in Thread: TPS61378-Q1 , TPS61178 Hi, Support Team
our client use TPS61088-Q1 of Pspice model to simulation, and we find EN pin pull low to GND but output have a voltage?
schematic:
20240517-slvmau6a Add EN…
Part Number: TPS61088-Q1 Hello team,
my customer has questions for TPS61088-Q1 (RHL0020A).
1. How long is a. in millimeters?
2. is b. (0.2) max value or typ valu?
best regards,
kazusa suzuki
Part Number: TPS61088-Q1 Other Parts Discussed in Thread: TPS61033-Q1 For TPS61088-Q1 MPN design requirements are Vin=3.3V , Vout=5V , Iout=3A. As per WEBENCH ® Design Report duty cycle is 39.526 %. Is there any duty cycle recommendation for above mentioned…
Part Number: TPS61088-Q1 Hi TI Team,
Kindly share the difference between the two parts TPS61088QRHL R Q1 & TPS61088QRHL T Q1.
Also, can you please share this device's ordering part number nomenclature?
Thanks & regards
Sandra
Part Number: TPS61088-Q1 Hi,
We plan to use TI’s boost regulator TPS61088-Q1, for our automotive design.
Kindly help us in finalizing the below design parameters of the boost regulator for our design.
Which switching frequency should we choose…
Hi,
For the condition reported ,the conduction mode change from Boost DCM to Boost CCM occurs at iout close to 0.24 A.
Hence non-linearity is expected at output current of 0.24A.
Thanks and Regards,
Umayal