Part Number: LM2676 Tool/software: Hi,
I wanted to verify which capacitor should I use for the boost cap. The datasheet mentions 2 different recommend values. The "Typical Application" diagram schematic shows a 0.01 uF cap while the "5.1 Pin Functions…
Part Number: LM2676
Hi TI team,
Thank you for your support.
I have a question for Overcurrent protection for LM2676T-ADJ/NOPB,
When Environment is
24V as Voltage Output and 1A as current output.
*How much voltage will be drop when Current out 1A t…
Part Number: LM2676 Hi,
We test the LM2676SX-ADJ for External Visual Inspection (EVI) and X-ray analysis, 3 pieces were used for SAM, Solderability test and Decapsulation analysis.
Product arrived in reel without appropriate MSL protective packaging.
An…
Part Number: LM2676 Other Parts Discussed in Thread: LM2679 Hi,
We use the LM2676-ADJ for the DC/DC buck from 24VDC to 8VDC, and now, we use the LM2679-ADJ with the same design, but the LM2679 has no output voltage, so please refer to below LM2676-ADJ …
Part Number: LM2676 Hi,
LM2676SX-ADJ/NOPB We received 2500pcs, u p advance visual inspection we could identify the bellow discrepancy;
Incomplete plating (Solder-Tin) on the lead solder (non-critical area) was identified.
No anomalies observed on the…
Part Number: LM2676 Hello everybody,
I'm currently having a design with the LM2676SD-5.0/NOPB, which has an interesting waveform at the switching node (pin12&13&14).The occurancy of this problem is currently in 1 of 10 pcbs and doesn't seem to be component…
Part Number: LM2676 I designed the LM2676 into my prototype, but I see that it was introduced in 1997, so I'm worried about the future availability of the part. I'm looking for a general purpose part with 3A output, 40V input (36V is worse but acceptable…
Part Number: LM2676 Hi,
due to the market shortage on the LM2676-ADJ, I'm thinking of using the 5.0Vout version on my products by altering the feedback network. If the internal diagram on p. 7 of the datasheet is realistic, the only difference between…
Part Number: LM2676 The load is too light and the ripple is large. 100mA Ripple 100p-p (mV). Is there any problem in use? And inductor, capacitor error, temperature change, secular variation, When implemented at the worst value of 80uH 122uF, it was 240P…
