Deal of The Day! Hurry Up, Grab the Special Discount - Save 25% - Ends In 00:00:00 Coupon code: SAVE25
Welcome to Pass4Success

- Free Preparation Discussions
Mail Us support@pass4success.com
Location US
Mob_nav_barsMENU

Huawei H35-560 Exam - Topic 3 Question 87 Discussion

The intermodulation interference of the system is usually mainly caused by second-order and third-order intermodulation, and the frequency of the second-order intermodulation product is F=2f1f2 or 2f2f1.
B) False
A) True

Huawei H35-560 Exam - Topic 3 Question 87 Discussion

Actual exam question for Huawei's H35-560 exam
Question #: 87
Topic #: 3
[All H35-560 Questions]

The intermodulation interference of the system is usually mainly caused by second-order and third-order intermodulation, and the frequency of the second-order intermodulation product is F=2f1f2 or 2f2f1.

Show Suggested Answer Hide Answer
Suggested Answer: B

by Kenneth at Aug 02, 2025, 02:29 PM

Limited Time Offer

25%

Off

Get Premium H35-560 Questions as Interactive Web-Based Practice Test or PDF

Contribute your Thoughts:

0/2000 characters
Submit Cancel
Galen
5 months ago
Wait, is it really that simple?
upvoted 0 times
...
Hui
6 months ago
Definitely true, second-order is often overlooked.
upvoted 0 times
...
Refugia
6 months ago
I thought it was just third-order that mattered.
upvoted 0 times
...
Keena
6 months ago
Agreed, but I’ve seen cases where it’s more complex.
upvoted 0 times
...
Thomasena
7 months ago
True, that’s how intermodulation works!
upvoted 0 times
...
Yuki
7 months ago
I recall that intermodulation can be tricky, but I think the formulas mentioned are correct for second-order products, so I would say true.
upvoted 0 times
...
Cordelia
7 months ago
I'm a bit confused; I thought the second-order intermodulation was just a simple sum of frequencies, not a product. Maybe it's false?
upvoted 0 times
...
Katheryn
7 months ago
I feel like I've seen similar questions in practice exams, and they usually emphasize the second-order products, so I might lean towards true.
upvoted 0 times
...
Tashia
7 months ago
I think the statement is true because I remember studying how intermodulation products are calculated, but I'm not entirely sure about the specific formulas.
upvoted 0 times
...
Annamae
8 months ago
This is a good opportunity to apply the concepts we've been learning. I'll take my time, think through the logic, and make sure I select the right answer.
upvoted 0 times
...
Annice
8 months ago
I'm a little confused by the wording of the question. Let me read through it carefully and try to break down the information they're giving us.
upvoted 0 times
...
Matilda
8 months ago
Okay, the key here is to remember the formula for the second-order intermodulation product frequency. I think I can work through this step-by-step.
upvoted 0 times
...
Rutha
8 months ago
Hmm, I'm a bit unsure about the specifics of second-order and third-order intermodulation. I'll need to review my notes to make sure I understand the frequency calculations.
upvoted 0 times
...
Denise
8 months ago
This looks like a straightforward question about intermodulation interference. I'm pretty confident I can handle this one.
upvoted 0 times
...
In
9 months ago
B) False? Nah, I'm pretty sure the formula is 2f1-f2 or 2f2-f1. This exam is trying to trick us!
upvoted 0 times
...
Terrilyn
9 months ago
Wait, what's intermodulation interference again? Sounds like something my grandpa would complain about on his old radio.
upvoted 0 times
Lina
5 months ago
It's a real issue in communication systems!
upvoted 0 times
...
Darrel
5 months ago
My grandpa used to fix that with a better antenna.
upvoted 0 times
...
Jerilyn
6 months ago
Yeah, it creates unwanted frequencies.
upvoted 0 times
...
Shayne
6 months ago
Intermodulation interference happens when two signals mix.
upvoted 0 times
...
...
Lashon
10 months ago
True, that's the correct formula for second-order intermodulation. Easy peasy!
upvoted 0 times
Jarvis
10 months ago
A) True
upvoted 0 times
...
...

Save Cancel