Read More About inductance break point tester

PUSH Electrical PS-RG03 Capacitance Inductance Tester

I hangaia tenei taputapu mo nga raruraru kei roto i te inenga o nga peeke hiko hiko teitei i roto i nga teihana, me te korero ki te GB3983.2-1989 "Nga ngaohiko hiko teitei", DL/T840-2003 "Nga tikanga Hangarau mo te whakamahi i te teitei. -ngaohiko shunt pūnga iahiko” me te JB5346-1998 ” He mea tino whakawhanakehia kia rite ki nga paerewa a-motu penei i te “Series Reactors”, te nuinga mo te inenga o nga peeke hiko whakarara whakarara me nga reactors o nga taputapu utu hiko.

WHAKAPAKI NEI KAUPAPA KI TE PDF

Nga korero

Tohu

Hua Whakataki Tohu Whakataki

1. Ka taea e tenei taputapu te ine i te puritanga kotahi o te roopu o nga puri whakarara me te kore e tango i nga waea (ka taea te ine i te puritanga o te wahanga kotahi me te puritanga toru-waahanga). momo whakamahi.
2. I te wa o te ine, ka taea e te taputapu te whakaatu i te uara puritanga ine, i te uara inductance ranei, ka taea hoki te whakaatu i te ngaohiko ine, o naianei, te kaha, te auau, te impedance, te koki wahanga me etahi atu raraunga;
3. Ko te taputapu ka tango i te 7.0-inihi 1024 × 600 teitei-whakamaramatanga mata, te mahi pa, te tirohanga maamaa i te ao me te po, nga tohu tahua Hainamana, ngawari ki te whakahaere.
4. Kua hangaia e te taputapu te mahara-kore-kore-nui-nui: ka taea e ia te penapena i nga huinga 200 o nga raraunga ine. Ko te taputapu he atanga U-kopae, ka taea te penapena i tetahi roopu o nga raraunga inenga (he iti te kaha o te U-kopae).
5. Kua hangaia e te taputapu he mahi karaka tino-tika: ka taea te whakarite i te ra me te waa.
6. Ka tae mai te taputapu me te miihini hiko moroiti tere: ka taea e ia te tuhi ine me nga raraunga o mua.

Tawhā Hua

Ngaohiko whakamatautau	AC 100V ±10%, 50Hz
	AC 40V±10%, 50Hz
	AC 10V±10%, 50Hz
	AC 1V±10%, 50Hz
Te awhe ine me te tika	Awhe pūnga ine ine	0.1uF～6000uF ±(panui 1%+0.01uF)
	Awhe inductance ine	50uH ～20H ±(panui 3%+0.05uH)
	Awhe o naianei ka taea te ine	5mA ~ 2A ±(3% o te panui + 0.05mA)
	Awhe parenga ine	20mΩ～20kΩ ±(panui 3%+0.1mΩ)
Ahu	365mm×285mm×170mm
Te pāmahana ambient	-20℃～40℃
Haumākū ambient	≤85%RH
Te mana mahi	AC220V±10%, 50±1Hz

Ataata

inductance break point test

inductance break point tester

inductance breakpoint test

Mena kei te pirangi koe ki a maatau hua, ka taea e koe te kowhiri ki te waiho i o korero ki konei, a ka tata tonu te korero ki a koe.

Tuhia to korero ki konei ka tukuna mai ki a matou

E pa ana Hua

E pa ana Rongorongo

Mar . 31, 2026
Find the Best Loop Impedance Tester for Sale and Ensure Electrical Safety

When ensuring electrical safety, accurate loop impedance testing is crucial. Whether you’re an electrician, a facilities manager, or a safety inspector, having a reliable loop impedance tester for sale is essential. This article will guide you through the key considerations when purchasing a loop impedance tester, explore the different types available, and highlight the benefits of choosing a high-quality instrument. Understanding the nuances of these testers will help you make an informed decision and ensure compliance with safety regulations.
Taipitopito
Mar . 28, 2026
Comprehensive Guide to Loop Impedance Meter for Electrical Safety

Ensuring electrical safety is paramount in any installation, and a loop impedance meter is a crucial tool for achieving this. This device measures the total impedance of the earth fault loop, helping to verify that protective devices will operate correctly under fault conditions. In this article, we'll explore what a loop impedance meter is, how it works, its applications, factors influencing measurements, choosing the right meter, and the importance of regular testing. Investing in a quality meter from Push Tester is a step towards safer electrical systems.
Taipitopito
Mar . 26, 2026
Understanding and Choosing a Line Impedance Tester for Optimal Network Performance

In the realm of telecommunications and electrical engineering, maintaining the integrity of transmission lines is paramount. A line impedance tester is a crucial instrument for ensuring optimal signal transmission and preventing costly network disruptions. This article delves into the world of line impedance testing, exploring its importance, applications, types of testers, and what to look for when making a purchase. Ensuring accurate impedance measurements is essential for efficient and reliable network performance. Choosing the right tester can significantly impact troubleshooting speed and the overall quality of your infrastructure. A line impedance tester, also known as a cable impedance analyzer, is a device used to measure the characteristic impedance of coaxial cables, twisted pair cables, and other transmission lines. Impedance, measured in ohms, represents the opposition to the flow of alternating current. Maintaining the correct impedance (typically 50 or 75 ohms) is vital for minimizing signal reflections, ensuring efficient power transfer, and preventing signal degradation. Mismatched impedance can lead to signal loss, ghosting, and reduced network performance. Regular testing helps identify faults and maintain network integrity.
Taipitopito