Part Number: LM76002-Q1 Tool/software: Thus far, looking at the data sheets I cannot see a difference beyond the labeling , although I wonder if the the difference may be in the manufacturing ie performance tested vs guaranteed by design. Are you able…
Part Number: LM76005-Q1 Tool/software: I am trying to simulate the LM76005-Q1, but I can't get an output voltage. In every sim I run (OrCAD Pspice - both a "manual" circuit drawn from the Webench output and the provided "Buck_Startup" simulation…
Part Number: LM76005-Q1 Tool/software: I am trying to simulate the LM76005-Q1, but I can't get an output voltage. In every sim I run (OrCAD Pspice - both a "manual" circuit drawn from the Webench output and the provided "Buck_Startup" simulation…
Part Number: LM76005-Q1 Other Parts Discussed in Thread: LM76005 , LM76002 , LM76003 , LM70880 , LM70840 , LM70860 Tool/software: I am looking at the Loop Response graph (i.e.,gain phase graph) on page 5 of attached pdf report, based on the automatic design…
Part Number: LM76005-Q1 Hi
If you look at the switching waveform, there is a duty change in the middle. So I tried both pfm/pwm modes and they were the same. Normal waveform?
And in PWM mode, inductor heat was generated, but when I changed to PFM mode…
Part Number: LM76005-Q1 Other Parts Discussed in Thread: LM76005 Hi Ti Team,
When I connect the LM76005 Bias Pin to GND, will it create any reliability issues? Vout is 5V in my case.
Jebin
Part Number: LM76005-Q1 Hello ,
We are planning to use LM76005-Q1 BUCK Converter in our design for 24V applications. Please find the parameters details mentioned below
Parameters-
Vin max = 36V
Vin typ = 24V
Vout = 12v
Iout = 3.5A
When we perform the…
Part Number: LM76005-Q1 Hi,
For a project, I have designed a fly-buck using a LM76005-Q1 (schematic below).
While the circuit provides a correct voltage on the primary (V5P5_PRI, yellow curve) and secondary (V5P0_NO_REG, orange curve) outputs, I have…
Part Number: LM76005-Q1 Hi
Is the output voltage bypassed when the output voltage is higher than the input voltage?
In such a case, the output current is as low as 200 mA
Input: 6~9V
Output: 9V 200mA
And voltage drops occur when the output current changes…