Part Number: LMZ13610 Hi Sir: The Green is Vin 。 The Yellow is Vout. The power output When closed the Vin. The Vout should down to 0 V But there's a period of time , it goes up. then down to 0V
Part Number: LMZ13610 the data sheet lists junction to top case thermal resistance as 1°C/W. Question:
1. this package has an exposed Pad on the bottom. What is the Junction to Pad or Junction to Board thermal resistance?
Part Number: LMZ13610 Other Parts Discussed in Thread: LMZ31520 , I have a question about this chip.
Will this Chip be produced continuously? We plan to use this IC on our product, and it will be unfortunate if it stops being produced.
We can buy this chip…
Part Number: LMZ22010 Other Parts Discussed in Thread: LMZ22008 , LMZ23610 , LMZ13610 Hi Team,
Is there a recommended part number to P2P replace LMZ22010TZE?
Thank you.
Best Regards
Darren
Other Parts Discussed in Thread: LMZ13610 Hello, I'm attempting to use the unencrypted transient PSpice model of the LMZ13610 in LTSpice. I'm encountering an error that says, "Analysis: Time step too small...". I believe it's related to the SS pin because…
Other Parts Discussed in Thread: LMZ13610 Hello Sir,
I am planning to use LMZ13610 for one of my automotive application
I want to convert a 12V DC (from a Car battery) to 5V DC with 5A of output current requirement. Please provide the circuit for same…
Other Parts Discussed in Thread: LMZ13610 I am planning to use LMZ13610 for my project LED Operation Theatre Light. Kindly suggest whether I should use a double layer PCB or MPCB for mounting LMZ13610. LED's will be mounted on the same PCB.
Other Parts Discussed in Thread: LMZ13610 , LMZ23610 I am planning to use LMZ13610 for my led Operation theatre light project. I would be driving it at 10A continuously. Since my product is a medical device,I would like to know the performance and reliability…
Hi Abhinav,
The LMZ13610 may sustain a ~8A/us load transient. I recommend sizing the output capacitance according to any peak-to-peak voltage variation requirements as outlined in section 8.2.2.6 of the datasheet. I would also recommend the use of a feed…
Other Parts Discussed in Thread: LMZ13608 , LMZ13610 On page 13 of LMZ13608’s datasheet, the output voltage is determined by this equation: Vout = 1.2V * (1+ R_FBT/R_FBB)
In practice we are finding that LMZ13608’s output voltage is actually determined…