Part Number: LM5122-Q1
We are using LM5122-Q1 in one of our application to boost the input voltage and to drive the power of 250W. The LM5122-Q1 is designed to provide constant output voltage of 36V with typical input voltage of 28V to deliver power…
Part Number: LM5122-Q1 Other Parts Discussed in Thread: LM5122 Dear expert,
Customer requirement is 12V in , 15V out, 2A average output current, 10A peak output current 100us duration for every 10ms, SW frequency is not decided yet.
Can LM5122 support…
Part Number: LM5122-Q1 Other Parts Discussed in Thread: LM5122 HI team,
PGND doesn't connect to GND, but AGND connects to GND, what is the risk?
BR
Jiawei
Part Number: LM5123-Q1 Other Parts Discussed in Thread: LM5122 Hello,
As a part of a power charging board I'm designing now I need a boost controller for up-converting batteries voltage while they are discharged.
Till now I considered working with…
Part Number: LM5122-Q1 Other Parts Discussed in Thread: LM5122 I'm Gerardo Lopez Carpinteyro, currently Im working for NAL Mexico an automotive company, right now our company have a problem with one of your products. One IC , I would like to follow this…
Part Number: LM5122-Q1 Hi team,
My customer uses 8 capacitors in parallel as the output capacitor. Spec of them are, 50V, 4.7uF, ESR=2.4mohm.
System requirement is, vout=23.18V,iout=1.079A, required ripple=1% Vout.
According to the formula in datasheet…
Part Number: LM5122-Q1 Other Parts Discussed in Thread: LM5122 , CD74HC4017 dear
LM5122 with four-phase time must use synchronous clock, if the four-phase power is too high, the cost is high, can use three-phase, any advise?thanks in advance
Part Number: LM5122-Q1 Hi Team,
we'd like to choose below diode as boot diode. Not sure about leakage current since datasheet just mentioned it need to be low. Thanks.
VF=715mV@1mA , 855mV@10mA
VBR=100V , IR 1uA 。
VBR=70V , TJ=150 ℃, max : 50uA
BRs
Given
Part Number: LM5122-Q1 Other Parts Discussed in Thread: PMP10886 , , LM5122 Hi Team,
Our customer is looking for a SEPIC converter. The specifications of the power supply are as follows:
Input voltage range = 6V to 18V Typical input voltage = 12V Output voltage…