Part Number: DAC3282 Other Parts Discussed in Thread: LMK01000 , DAC3482
Hi,
I am running DAC3482 from my own board. An xilinx K7 FPGA is used to drive DAC through LVDS and controll onboard DDR memory. An external 1228.8MHz clock source is applied…
Hi Noel,
My main goal is to design for best phase noise performance. So I can use LMK01000 if it will do better job than LMK00304 with low slew rate. Actually I want to use LMK00304 but it's additive jitter is getting pretty high at low slew rates and…
Hello Andrew,
It appears the CDCVF2505 is designed to operate with +/- 150 ps (typical 0) input to output delay. So true 0-delay. Therefore it's not going to get you the 2 ns propagation delay you would like.
Consider the LMK03200, LMK04906, or…
We have some other clock dividers that may fit your needs. Please take a look at our offering here:
www.ti.com/.../products.html
I recommend looking into LMK01000 and CDCL1810 for low additive jitter.
The LMK010x0 family are low-jitter has 8 outputs…
Other Parts Discussed in Thread: LMX2531 , LMK01000 I want to use a LMK01000 clock buffer in the clock generation because I want to place more than one ADC10D1500 in this board and I would like to clarify some questions about the LMX2531-LMK01000-ADC10D1500…
Thanks for the answers. I am progressing in the board design.
I want to use a LMK01000 clock buffer in the clock generation because I want to place more than one ADC10D1500 in this board and I would like to clarify some questions about the LMX2531-LMK01000…
Hello Gabe,
Another question about the LMK01020 which datasheet is NOT clear about it.
According to LMK01000 page 10/26 when GOE (Global Output Enable) is driven LOW, "Clock X Output State" of all 8 outputs (which are DIFF output LVPECL in LMK01020…
Hi Mark,
Unfortunatey, the Clock and Timing forum is not the right place for this query either. We do not have any parts in our portfolio similar to SL532. We have analog and digital delays on some of our clocking products (LMK04806 as example) which…
Hi Alan,
I have found the bug in my PCB. The problem was the OSCin and Fin pins were swapped, and the input was going to OSCin. Hence at high frequencies it was getting coupled to Fin and the divider was working.
I have shorted the OSCin and Fin pins…
