Oscilloscope How To: This tutorial will guide you through the basics of using an oscilloscope, it is. //simple 500Hz square wave //by Amanda Ghassaei 2012 /* * This program is free software; you can redistribute it. Health Hiding Places Holidays Homesteading Kids Kitchen Life Hacks Organizing.

Bisa tlg krm ke email sy erlinherlina49@gmail.com untuk soal un rpl thn 2013/2014 thanks. Nopi Hartawan February 3, 2017 at 12:14 PM. Contoh soal un rpl 2013 ram 4.

Becouse there is old 'rewiev' thread what have started with older version and many information and tests there are now obsolete. So I want open new thread for this new generation SDS7102. These tests here and opinions are made with new factory improved SDS7102V, version V2.4.1 Do not mix old version things to this thread - please! (exept direct explained comparison and well marked what is old version) This oscilloscope do not need hack or modify for better frequency response.

Frequency response is amazing good in this class. Capturing (ADC) quality is also very good (in this class). Today I do not know any serious competitor! Factory have done it allready. So peoples do not need take risk for damage they oscolloscope anymore and also factory have not then 'warranty' faild after peoples have broken they scopes. Do not open, you can not do any useful things there! Also in some places I have seen some information how to make modifications for front end and some other parts inside of scope construction.

No need anymore! Factory have allready made these.

(no VGA cable inside, adapter board do not go under battery compartment (adapter board is totally new) etc. ) Whole front end construction have changed (and main board). New models of BNC connectors go directly to main board. Solution is mechanically good. Also it is electrically good. Channels have also now better RF isolation.

Solution is also more reliable. But what is also good. It have clearly better frequency response. Lot of better! Also in this phase they have added LAN (this have not so much advantages exewpt if need use long distange watching or connect many oscilloscopes to teacher board in class room etc. But more or less useful, it is there.

Here first two pictures about risetime. Same signal but other have infinite persitence for show that wobbling is not bad and it is amazing stabile trigged in this class of scopes. Then nice that ALT trig really work and it have also two freq counters. Then picture about front end construction. ( this is littlebit obsolete - metal pillar what seen top right corner of picture is changed now in production for also improve signal quality (in CH1). Metal pillar affect signal quality - yes!) And then.

Cursors are -3dB levels if compare to 1MHz level. (generator have enough good flatness for this test, HP8644B and 1 - 350MHz come with same level as 1MHz. (flatness (level accuracy to well matched 50ohm is inside +-0.1dB. This matching with scope is not ok, this may add some small errors but not markable for this purpose now here.) Then 300MHz normal realtime sampling. Then same 300MHz but now infinite prsistence so that it tell littlebit how much there is 'wobbling'. And last one 350MHz with infinite persistence.

This is OWON! Keep fun with modifying other names. This do not need! Later more tests. Nice risetime in 100MHz chinese oscilloscope! (pulse generator have around 70ps risetime).

With this measuring accuracy and common simple thumb rule (.35 rule) for risetime this measurement is just inline. Also this risetime number is oscilloscope itself measured and with around 40% of 0-255 (8bit) signal level.

I have NOT measured 300MHz -3dB bandwith. With Tektronix originated thumb rules typical 200MHz 'gaussian BW' oscilloscope have risetime 1.75ns. (yes I made also risetime measurement with fast 'spike' pulse.

Oscilloscope show. All this discussion on bandwidth is above my knowledge, but I have one question, maybe a little ingenuous, how are the included probes? How is the frequency response using them? I think I'll buy this scope (as anyone experience with develissimo?) and I'll use mainly the included probes often at 1:1 and 10:1 and 1M input. Also having vga output it would be fantastic if owon and others could use the full lcd's square centimeters, for example the dso screen for measurements and menu and vga for the waveforms output, with all the info (full capture and magnified zone, math etc.) that can be seen all toghether. But I understand that a fancy GUI eats fast the computing power and the programming and debugging time. All this discussion on bandwidth is above my knowledge, but I have one question, maybe a little ingenuous, how are the included probes?