Resistor mai Flanged

Resistor mai lanƙwasa yana ɗaya daga cikin abubuwan da ake amfani da su a cikin da'irorin lantarki, wanda ke da aikin daidaita da'irar. Yana cimma ingantaccen aiki na da'irar ta hanyar daidaita ƙimar juriya a cikin da'irar don cimma daidaiton yanayin yanzu ko ƙarfin lantarki. Yana taka muhimmiyar rawa a cikin na'urorin lantarki da tsarin sadarwa. A cikin da'ira, lokacin da ƙimar juriya ba ta daidaita ba, za a sami rarrabawar yanzu ko ƙarfin lantarki mara daidaito, wanda ke haifar da rashin daidaito na da'irar. Resistor mai lanƙwasa zai iya daidaita rarrabawar yanzu ko ƙarfin lantarki ta hanyar daidaita juriya a cikin da'irar. Resistor mai lanƙwasa yana daidaita ƙimar juriya a cikin da'irar don rarraba wutar lantarki ko ƙarfin lantarki daidai a cikin kowane reshe, don haka cimma daidaiton aiki na da'irar.

Ƙarfin da aka ƙima:10-800W

Kayan ƙasa:BeO, AlN, Al2O3

Darajar juriya mara iyaka:100 Ω (10-3000 Ω zaɓi ne)

Juriyar juriya:± 5%, ± 2%, ± 1%

Ma'aunin zafin jiki:＜ 150ppm/℃

Zafin aiki:-55~+150 ℃

Shafi na flange:zaɓi na nickel ko azurfa plating

Ma'aunin ROHS:Mai bin doka

Tsawon jagora:L kamar yadda aka ƙayyade a cikin takardar ƙayyadewa

Zane na musamman yana samuwa akan buƙata.:

Aika mana imel sales@rftyt.com

Cikakken Bayani game da Samfurin

Alamun Samfura

Resistor mai Flanged

Ƙarfin da aka ƙima: 10-800W;

Kayan substrate: BeO, AlN, Al2O3

Ƙimar juriya na ƙima: 100 Ω (10-3000 Ω na zaɓi)

Juriyar juriya: ± 5%, ± 2%, ± 1%

Ma'aunin zafin jiki: ± 150ppm/℃

Zafin aiki: -55~+150 ℃

Shafi na flange: zaɓi na nickel ko azurfa

Ma'aunin ROHS: Ya dace da

Ma'aunin da ya dace: Q/RFTYTR001-2022

Tsawon jagora: L kamar yadda aka ƙayyade a cikin takardar ƙayyadewa (ana iya tsara shi bisa ga buƙatun abokin ciniki)

Takardar bayanai

Ƙarfi W	ƙarfin aiki PF@100Ω	Girma (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
10	2.4	7.7	5.0	5.1	2.5	1.5	2.5	3.5	1.0	4.0	/	3.1	AlN	FIG2	RFTXXN-10RM7750
10	1.2	7.7	5.0	5.1	2.5	1.5	2.5	3.5	1.0	4.0	/	3.1	BeO	FIG2	RFTXX-10RM7750
Ƙarfi W	ƙarfin aiki PF@100Ω	Girma (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
20	2.3	9.0	4.0	7.0	4.0	0.8	1.8	2.6	1.0	4.0	/	2.0	AlN	FIG2	RFTXXN-20RM0904
	1.2	9.0	4.0	7.0	4.0	0.8	1.8	2.6	1.0	4.0	/	2.0	BeO	FIG2	RFTXX-20RM0904
	2.3	11.0	4.0	7.6	4.0	0.8	1.8	2.6	1.0	3.0	/	2.0	AlN	FIG1	RFTXXN-20RM1104
	1.2	11.0	4.0	7.6	4.0	0.8	1.8	2.6	1.0	3.0	/	2.0	BeO	FIG1	RFTXX-20RM1104
	2.3	13.0	4.0	9.0	4.0	0.8	1.8	2.6	1.0	4.0		2.0	AlN	FIG1	RFTXXN-20RM1304
	1.2	13.0	4.0	9.0	4.0	0.8	1.8	2.6	1.0	4.0	/	2.0	BeO	FIG1	RFTXX-20RM1304
Ƙarfi W	ƙarfin aiki PF@100Ω	Girma (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
30	1.2	9.0	4.0	7.0	4.0	0.8	1.8	2.6	1.0	4.0	/	2.0	BeO	FIG2	RFTXX-30RM0904
	1.2	13.0	4.0	9.0	4.0	0.8	1.8	2.6	1.0	4.0	/	2.0	BeO	FIG1	RFTXX-30RM1304
	2.9	13.0	6.0	10.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	AlN	FIG2	RFTXXN-30RM1306
	2.6	13.0	6.0	10.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	BeO	FIG2	RFTXX-30RM1306
	1.2	13.0	6.0	10.0	6.0	1.5	5.0	5.9	1.0	5.0	/	3.2	BeO	FIG2	RFTXX-30RM1306F
	2.9	20.0	6.0	14.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	AlN	FIG1	RFTXXN-30RM2006
	2.6	20.0	6.0	14.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	BeO	FIG1	RFTXX-30RM2006
	1.2	20.0	6.0	14.0	6.0	1.5	5.0	5.9	1.0	5.0	/	3.2	BeO	FIG1	RFTXX-30RM2006F
Ƙarfi W	ƙarfin aiki PF@100Ω	Girma (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
60W	2.9	13.0	6.0	10.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	AlN	FIG2	RFTXXN-60RM1306
	2.6	13.0	6.0	10.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	BeO	FIG2	RFTXX-60RM1306
	1.2	13.0	6.0	10.0	6.0	1.5	5.0	5.9	1.0	5.0	/	3.2	BeO	FIG2	RFTXX-60RM1306F
	2.9	20.0	6.0	14.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	AlN	FIG1	RFTXXN-60RM2006
	2.6	20.0	6.0	14.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	BeO	FIG1	RFTXX-60RM2006
	1.2	20.0	6.0	14.0	6.0	1.5	5.0	5.9	1.0	5.0	/	3.2	BeO	FIG1	RFTXX-60RM2006F
Ƙarfi W	ƙarfin aiki PF@100Ω	Girma (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
100	2.6	16.0	6.0	10.0	6.0	1.5	2.5	3.3	1.0	5.0	/	3.2	BeO	FIG2	RFTXX-100RM1306
	2.1	20.0	6.0	14.0	8.9	1.5	3.0	3.5	1.0	5.0	/	3.2	AlN	FIG1	RFTXXN-100RJ2006B
	2.1	16.0	6.0	13.0	8.9	1.0	2.5	3.0	1.0	5.0	/	2.1	AlN	FIG1	RFTXXN-100RJ1606B
	3.9	22.0	9.5	14.2	6.35	1.5	2.5	3.3	1.4	6.0	/	4.0	BeO	FIG1	RFTXX-100RM2295
	5.6	16.0	10.0	13.0	10.0	1.5	2.5	3.3	2.4	6.0	/	3.2	BeO	FIG4	RFTXX-100RM1610
	5.6	23.0	10.0	17.0	10.0	1.5	2.5	3.3	2.4	6.0	/	3.2	BeO	FIG3	RFTXX-100RM2310
	5.6	24.8	10.0	18.4	10.0	3.0	4.0	5.0	2.4	6.0	/	3.5	BeO	FIG1	RFTXX-100RM2510
	4.0	24.8	10.0	18.4	10.0	3.0	4.5	5.3	2.4	6.0	/	3.5	BeO	FIG1	RFTXX-100RM2510B

Ƙarfi W	Ƙarfin aiki PF@100Ω	Girman (naúrar): mm											Substrate Kayan Aiki	Saita	Takardar Bayanai (PDF)
Ƙarfi W	Ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Substrate Kayan Aiki	Saita	Takardar Bayanai (PDF)
150W	3.9	22.0	9.5	14.2	6.35	1.5	2.5	3.3	1.4	6.0	/	4.0	BeO	FIG1	RFTXX-150RM2295
	5.6	16.0	10.0	13.0	10.0	1.5	2.5	3.3	2.4	6.0	/	3.2	BeO	FIG4	RFTXX-150RM1610
	5.6	23.0	10.0	17.0	10.0	1.5	2.5	3.3	2.4	6.0	/	3.2	BeO	FIG3	RFTXX-150RM2310
	5.0	24.8	10.0	18.4	10.0	3.0	4.0	5.0	2.4	6.0	/	3.5	BeO	FIG1	RFTXX-150RM2510
Ƙarfi W	Ƙarfin aiki PF@100Ω	Girman (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	Ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
250	5.6	23.0	10.0	17.0	10.0	1.5	3.8	3.3	2.4	6.0	/	3.2	BeO	FIG3	RFTXX-250RM2310
	5.6	24.8	10.0	18.4	12.0	3.0	4.0	4.8	2.4	6.0	/	3.5	BeO	FIG1	RFTXX-250RM2510
	4.0	24.8	10.0	18.4	10.0	3.0	4.5	5.3	2.4	6.0	/	3.5	BeO	FIG1	RFTXX-250RM2510B
	5.0	27.0	10.0	21.0	10.0	2.5	3.5	4.3	2.4	6.0	/	3.2	BeO	FIG1	RFTXX-250RM2710
Ƙarfi W	Ƙarfin aiki PF@100Ω	Girman (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	Ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
300	5.0	24.8	10.0	18.4	12.0	3.0	4.0	4.8	2.4	6.0	/	3.5	BeO	FIG1	RFTXX-300RM2510
	4.0	24.8	10.0	18.4	10.0	3.0	4.5	5.3	2.4	6.0	/	3.5	BeO	FIG1	RFTXX-300RM2510B
	5.6	27.0	10.0	21.0	10.0	2.5	3.5	4.3	2.4	6.0	/	3.2	BeO	FIG1	RFTXX-300RM2710
	2.0	27.8	12.7	20.0	12.7	3.0	9.0	10.0	2.4	6.0	/	4.5	BeO	FIG1	RFTXX-300RM2813K
Ƙarfi W	Ƙarfin aiki PF@100Ω	Girman (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	Ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
400	8.5	32.0	12.7	22.0	12.7	3.0	4.5	5.5	2.4	6.0	/	4.0	BeO	FIG1	RFTXX-400RM3213
	2.0	32.0	12.7	22.0	12.7	3.0	9.0	10.0	2.4	6.0	/	4.0	BeO	FIG1	RFTXX-400RM3213K
	8.5	27.8	12.7	20.0	12.7	3.0	4.5	5.5	2.4	6.0	/	4.5	BeO	FIG1	RFTXX-400RM2813
	2.0	27.8	12.7	20.0	12.7	3.0	9.0	10.0	2.4	6.0	/	4.5	BeO	FIG1	RFTXX-400RM2813K
Ƙarfi W	Ƙarfin aiki PF@100Ω	Girman (naúrar): mm											Kayan Substrate	Saita	Takardar Bayanai (PDF)
Ƙarfi W	Ƙarfin aiki PF@100Ω	A	B	C	D	E	H	G	W	L	J	Φ	Kayan Substrate	Saita	Takardar Bayanai (PDF)
500	8.5	32.0	12.7	22.0	12.7	3.0	4.5	5.5	2.4	6.0	/	4.0	BeO	FIG1	RFTXX-500RM3213
	2.0	32.0	12.7	22.0	12.7	3.0	9.0	10.0	2.4	6.0	/	4.0	BeO	FIG1	RFTXX-500RM3213K
	8.5	27.8	12.7	20.0	12.7	3.0	4.5	5.5	2.4	6.0	/	4.5	BeO	FIG1	RFTXX-500RM2813
	21.8	48.0	26.0	40.0	25.4	3.0	4.6	5.2	6.0	7.0	12.7	4.2	BeO	FIG5	RFTXX-500RM4826
600	21.8	48.0	26.0	40.0	25.4	3.0	4.6	5.2	6.0	7.0	12.7	4.2	BeO	FIG5	RFTXX-600RM4826
800	21.8	48.0	26.0	40.0	25.4	3.0	4.6	5.2	6.0	7.0	12.7	4.2	BeO	FIG5	RFTXX-800RM4826

Bayani

Ana iya amfani da resistor mai flanged sosai a cikin amplifiers masu daidaito, gadoji masu daidaito, da tsarin sadarwa.
Ya kamata a zaɓi ƙimar juriyar resistor mai flanged bisa ga takamaiman buƙatun da'ira da halayen sigina.
Gabaɗaya, ƙimar juriya yakamata ta dace da ƙimar juriya ta halayyar da'irar don tabbatar da daidaito da aiki mai ɗorewa.
Ya kamata a zaɓi ƙarfin juriyar da ke kan flange bisa ga buƙatar wutar lantarki na da'irar.
Gabaɗaya, ƙarfin juriyar ya kamata ya fi ƙarfin da'irar ƙarfi don tabbatar da aikinta na yau da kullun.
Ana haɗa resistor mai flanged ta hanyar walda flange da resistor mai gubar biyu.
An tsara flange ɗin don shigarwa a cikin da'irar kuma yana iya samar da ingantaccen watsa zafi ga masu juriya da ake amfani da su.

Resistor mai lanƙwasa yana ɗaya daga cikin abubuwan da ake amfani da su a cikin da'irori na lantarki, wanda ke da aikin daidaita da'irori.
Yana daidaita ƙimar juriya a cikin da'irar don cimma daidaiton yanayin wutar lantarki ko ƙarfin lantarki, ta haka ne ake cimma daidaiton aikin da'irar.
Yana taka muhimmiyar rawa a cikin na'urorin lantarki da tsarin sadarwa.
A cikin da'ira, idan ƙimar juriya ba ta daidaita ba, wutar lantarki ko ƙarfin lantarki za ta kasance ba ta daidaita ba, wanda ke haifar da rashin daidaiton da'irar.
Resistor mai flanged zai iya daidaita rarrabawar wutar lantarki ko ƙarfin lantarki ta hanyar daidaita juriya a cikin da'irar.
Mai daidaita juriyar flange yana daidaita ƙimar juriya a cikin da'irar don rarraba wutar lantarki ko ƙarfin lantarki daidai gwargwado a cikin rassan daban-daban, ta haka ne ake cimma daidaiton aikin da'irar.
Ana iya amfani da juriyar gubar mai flanged sosai a cikin amplifiers masu daidaito, gadoji masu daidaito, da tsarin sadarwa
Ya kamata a zaɓi ƙimar juriya ta hanyar amfani da flange mai lanƙwasa biyu bisa ga takamaiman buƙatun da'ira da halayen sigina.
Gabaɗaya, ƙimar juriya ya kamata ta dace da ƙimar juriya ta halayyar da'irar don tabbatar da daidaito da ingantaccen aikin da'irar.
Ya kamata a zaɓi ƙarfin resistor mai flanged bisa ga buƙatun wutar lantarki na da'irar.
Gabaɗaya, ƙarfin juriyar ya kamata ya fi ƙarfin da'irar ƙarfi don tabbatar da aikinta na yau da kullun.
Ana haɗa resistor ɗin da aka yi wa lanƙwasa ta hanyar walda flange da resistor ɗin gubar biyu.
An tsara flange ɗin don shigarwa a cikin da'irori kuma yana iya samar da ingantaccen watsa zafi ga masu juriya yayin amfani.
Kamfaninmu kuma zai iya keɓance flanges da resistors bisa ga takamaiman buƙatun abokin ciniki.