Part Number: LMH0384 Other Parts Discussed in Thread: LMH0394 ,
Greetings,
Please attached note IBIS files for these two 3G adaptive cable equalizers.
Regards, Nasser LMH0394.ibs lmh0384.ibs
Part Number: LMH0384 Hi experts,
What are recommended parameters for input inductor shown at figure.8 of the datasheet?
Customer use LQG15HS5N6B02D/Murata instead of LQP15MN5N6B02D due to EoL. Both are 5.6nH +/- 0.1nH, does it affect the difference?
Regards…
Part Number: LMH0384 Other Parts Discussed in Thread: LMH0324 , Hi Team,
We have used LMH0384SQ part for SDI input equalization, as we operate at 1.0625Gbps speed link/data rate will this chip be able to support this particular data rate, Please suggest…
Part Number: LMH0384 Other Parts Discussed in Thread: LMH0302 Hello team,
Could you please check if termination resistor of LMH0384 side can be removed? My customer concerns that the termination resistor can reduce signal amplitude from 800mV to 533mV…
Part Number: LMH0384 My customer is asking SDO output schematic layout.
Current design is to utilize top layer PCB -> thru DC cutting cap -> thru LVDS receiver.
what if differential signal line are well controlled as 100ohms impedance matching with…
Part Number: LMH0384 Other Parts Discussed in Thread: TINA-TI , LMH0303 , , LMH0397 Tool/software: TINA-TI or Spice Models Hi,
Is there any plan to release IBIS-AMI models for LMH0384 and/or LMH0303? I have these parts on a board and need to do some HyperLynx…
Part Number: LMH0384 Hi, Team,
For LMH0384 ac coupling capacitor, I have a question for the return loss measurement.
The customer layout is 1005, but the mounted capacitor is 0603. Is there a concern when we measure the return loss of this board?
I think…
Hi Amy,
1). Complete 10 bits need to be provided to the LMH0030 device. 10-bits X 27MHz is equivalent to 270MBps.
2). 10 Bits at 27MHz clock can be used to meet these two requirements.
3). Typically FPGA along with a serializer is used. There are two…
Part Number: LMH0303 Other Parts Discussed in Thread: LMH0318 Dear Team,
I would like to inquire about the rationale behind the circuit configuration for the LMH0303, specifically regarding the proper handling of the /SDO terminal (pin 11) in single…