Flanged Termination

Flanged terminations are installed at the end of a circuit, which absorb signals transmitted in the circuit and prevent signal reflection, thereby affecting the transmission quality of the circuit system.The flanged terminal is assembled by welding a single lead terminal resistor with flanges and patches. The flange size is usually designed based on the combination of installation holes and terminal resistance dimensions. Customization can also be made according to the customer’s usage requirements.

Rated power：5-1500W

Substrate materials：BeO、AlN、Al2O3

Nominal resistance value：50Ω

Resistance tolerance：±5%、±2%、±1%

Temperature coefficient：＜150ppm/℃

Operation temperature：-55～+150℃

Flange coating: optional nickel or silver plating

ROHS standard: Compliant with

Lead length: L as specified in the data sheet

Custom design available upon request.

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Product Detail

Product Tags

Flanged Termination

Flanged Termination
Main technical specs：

Rated power：5-1500W；
Substrate materials：BeO、AlN、Al2O3
Nominal resistance value：50Ω
Resistance tolerance：±5%、±2%、±1%
Temperature coefficient：＜150ppm/℃
Operation temperature：-55～+150℃
Flange coating: optional nickel or silver plating
ROHS standard: Compliant with
Applicable standard: Q/RFTYTR001-2022
Lead length: L as specified in the data sheet
(can be customized according to customer requirements)

Power (W)	Frequency Range	Dimension (unit: mm)											Substrate Material	Configuration	Data Sheet (PDF)
Power (W)	Frequency Range	A	B	C	D	E	H	G	W	L	J	Φ	Substrate Material	Configuration	Data Sheet (PDF)
5W	6GHz	13.0	4.0	9.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	Al₂O₃	FIG1	RFT50A-05TM1304
		11.0	4.0	7.6	4.0	0.8	1.8	2.8	1.0	4.0	/	2.2	Al₂O₃	FIG1	RFT50A-05TM1104
		9.0	4.0	7.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	Al₂O₃	FIG2	RFT50A-05TM0904(R,L,I)
10W	4GHz	7.7	5.0	5.1	2.5	1.5	2.5	3.5	1.0	3.0	/	3.1	BeO	FIG2	RFT50-10TM7750((R,L))
	6GHz	13.0	4.0	9.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	Al₂O₃	FIG1	RFT50A-10TM1304
		13.0	4.0	9.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	AlN	FIG1	RFT50N-10TJ1304
		11.0	4.0	7.6	4.0	0.8	1.8	2.8	1.0	4.0	/	2.2	Al₂O₃	FIG1	RFT50A-10TM1104
		11.0	4.0	7.6	4.0	0.8	1.8	2.8	1.0	4.0	/	2.2	AlN	FIG1	RFT50N-10TJ1104
		9.0	4.0	7.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	Al₂O₃	FIG2	RFT50A-10TM0904(R,L,I)
		9.0	4.0	7.0	4.0	0.8	1.8	2.8	1.0	4.0	/		AlN	FIG2	RFT50N-10TJ0904(R,L,I)
	8GHz	13.0	4.0	9.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	BeO	FIG1	RFT50-10TM1304
		11.0	4.0	7.6	4.0	0.8	1.8	2.8	1.0	4.0	/	2.2	BeO	FIG1	RFT50-10TM1104
		9.0	4.0	7.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	BeO	FIG2	RFT50-10TM0904(R,L,I)
	18GHz	7.7	5.0	5.1	2.5	1.5	2.5	3.5	1.0	3.0	/	3.1	BeO	FIG2	RFT50-10TM7750I
20W	4GHz	7.7	5.0	5.1	2.5	1.5	2.5	3.5	1.0	3.0	/	3.1	BeO	FIG2	RFT50-20TM7750((R,L))
	6GHz	13.0	4.0	9.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	AlN	FIG1	RFT50N-20TJ1304
		11.0	4.0	7.6	4.0	0.8	1.8	2.8	1.0	4.0	/	2.2	AlN	FIG1	RFT50N-20TJ1104
		9.0	4.0	7.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	AlN	FIG2	RFT50N-20TJ0904(R,L,I)
	8GHz	13.0	4.0	9.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	BeO	FIG1	RFT50-20TM1304
		11.0	4.0	7.6	4.0	0.8	1.8	2.8	1.0	4.0	/	2.2	BeO	FIG1	RFT50-20TM1104
		9.0	4.0	7.0	4.0	0.8	1.8	2.8	1.0	4.0	/	2.1	BeO	FIG2	RFT50-10TM0904(R,L,I)
	18GHz	7.7	5.0	5.1	2.5	1.5	2.5	3.5	1.0	3.0	/	3.1	BeO	FIG2	RFT50-10TM7750I
30W	6GHz	16.0	6.0	13.0	6.0	1.0	2.0	3.0	1.0	5.0	/	2.1	AlN	FIG1	RFT50N-30TJ1606
		16.0	6.0	13.0	6.0	1.0	2.0	3.0	1.0	5.0	/	2.1	BeO	FIG1	RFT50-30TM1606
		20.0	6.0	14.0	6.0	1.5	2.5	3.0	1.0	5.0	/	3.2	AlN	FIG1	RFT50N-30TJ2006
		20.0	6.0	14.0	6.0	1.5	2.5	3.0	1.0	5.0	/	3.2	BeO	FIG1	RFT50-30TM2006
		13.0	6.0	10.0	6.0	1.5	2.5	3.0	1.0	5.0	/	3.2	AlN	FIG2	RFT50N-30TJ1306(R,L,I)
		13.0	6.0	10.0	6.0	1.5	2.5	3.0	1.0	5.0	/	3.2	BeO	FIG2	RFT50-30TM1306(R,L,I)
60W	6GHz	16.0	6.0	13.0	6.0	1.0	2.0	3.0	1.0	5.0	/	2.1	AlN	FIG1	RFT50N-60TJ1606
		16.0	6.0	13.0	6.0	1.0	2.0	3.2	1.0	5.0	/	2.1	BeO	FIG1	RFT50-60TM1606
		20.0	6.0	14.0	6.0	1.5	2.5	3.0	1.0	5.0	/	3.2	AlN	FIG1	RFT50N-60TJ2006
		20.0	6.0	14.0	6.0	1.5	2.5	3.2	1.0	5.0	/	3.2	BeO	FIG1	RFT50-60TM2006
		13.0	6.0	10.0	6.0	1.5	2.5	3.0	1.0	5.0	/	3.2	AlN	FIG2	RFT50N-60TJ1306(R,L,I)
		13.0	6.0	10.0	6.0	1.5	2.5	3.2	1.0	5.0	/	3.2	BeO	FIG2	RFT50-60TM1306(R,L,I)

Power (W)	Frequency Range	Dimensions (unit: mm)											Substrate Material	Configuration	Data Sheet(PDF)
Power (W)	Frequency Range	A	B	C	D	E	H	G	W	L	J	Φ	Substrate Material	Configuration	Data Sheet(PDF)
100W	3GHz	24.8	9.5	18.4	9.5	2.9	4.8	5.5	1.4	6.0	/	3.1	BeO	FIG1	RFT50-100TM2595
	4GHz	16.0	6.0	13.0	9.0	1.0	2.0	2.5	1.0	6.0	/	2.1	BeO	FIG2	RFT50N-100TM1606
		20.0	6.0	14.0	9.0	1.5	2.5	3.0	1.0	5.0	/	3.2	BeO	FIG1	RFT50N-100TJ2006
		24.8	6.0	18.4	6.0	2.8	3.8	4.6	1.0	5.0	/	3.2	BeO	FIG1	RFT50-100TM2506
		16.0	10.0	13.0	10.0	1.5	2.6	3.3	1.4	6.0	/	3.2	BeO	FIG4	RFT50-100TJ1610(R,L,I)
		23.0	10.0	17.0	10.0	1.5	3.0	3.8	1.4	6.0	/	3.2	BeO	FIG1	RFT50-100TJ2310
		24.8	10.0	18.4	10.0	3.0	4.6	5.5	1.4	6.0	/	3.5	BeO	FIG1	RFT50-100TJ2510
	5GHz	13.0	6.35	10.0	6.35	1.5	2.5	3.2	1.0	5.0	/	3.2	BeO	FIG2	RFT50-100TJ1363(R,L,I)
	5GHz	16.6	6.35	12.0	6.35	1.5	2.5	3.5	1.0	5.0	/	2.5	BeO	FIG1	RFT50-100TM1663
	6GHz	16.0	6.0	13.0	8.9	1.0	2.0	2.5	1.0	5.0	/	2.1	AlN	FIG1	RFT50N-100TJ1606B
	6GHz	20.0	6.0	14.0	8.9	1.5	2.5	3.0	1.0	5.0	/	3.2	AlN	FIG1	RFT50N-100TJ2006B
	8GHz	20.0	6.0	14.0	8.9	1.5	3.0	3.5	1.0	5.0	/	3.2	AlN	FIG1	RFT50N-100TJ2006C
150W	3GHz	16.0	10.0	13.0	10.0	1.5	2.6	3.3	1.4	6.0	/	3.2	BeO	FIG4	RFT50-150TM1610(R,L,I)
		22.0	9.5	14.0	6.35	1.5	2.6	3.0	1.4	5.0	/	4.0	AIN	FIG1	RFT50N-150TJ2295
		24.8	9.5	18.4	9.5	2.9	4.8	5.5	1.4	6.0	/	3.1	BeO	FIG1	RFT50-150TM2595
		24.8	10.0	18.4	10.0	3.0	4.6	5.5	1.4	6.0	/	3.5	BeO	FIG1	RFT50-150TM2510
	4GHz	16.0	10.0	13.0	10.0	1.5	2.6	3.3	1.4	6.0	/	3.2	BeO	FIG4	RFT50-150TJ1610(R,L,I)
		23.0	10.0	17.0	10.0	1.5	3.0	3.8	1.4	6.0	/	3.2	BeO	FIG3	RFT50-150TJ2310
		24.8	10.0	18.4	10.0	3.0	4.6	5.5	1.4	6.0	/	3.5	BeO	FIG1	RFT50-150TJ2510
200W	3GHz	24.8	9.5	18.4	9.5	2.9	4.8	5.5	1.4	6.0	/	3.1	BeO	FIG1	RFT50-200TM2595
	3GHz	24.8	10.0	18.4	10.0	3.0	4.6	5.5	1.4	6.0	/	3.5	BeO	FIG1	RFT50-200TM2510
	4GHz	16.0	10.0	13.0	10.0	1.5	2.6	3.3	1.4	6.0	/	3.2	BeO	FIG2	RFT50-200TM1610(R,L,I)
		23.0	10.0	17.0	10.0	1.5	3.0	3.8	1.4	6.0	/	3.2	BeO	FIG3	RFT50-200TJ2310
		24.8	10.0	18.4	10.0	3.0	4.6	5.5	1.4	6.0	/	3.5	BeO	FIG1	RFT50-150TJ2510
	10GHz	32.0	12.7	22.0	12.7	3.0	5.0	6.0	2.4	6.0	/	4.0	BeO	FIG1	RFT50-200TM3213B
250W	3GHz	23.0	10.0	17.0	12.0	1.5	3.0	3.8	1.4	6.0	/	3.2	BeO	FIG3	RFT50-250TM2310
		24.8	10.0	18.4	12.0	3.0	4.6	5.5	1.4	6.0	/	3.5	BeO	FIG1	RFT50-250TM2510
		27.0	10.0	21.0	12.0	2.5	4.0	5.5	1.4	6.0	/	3.2	BeO	FIG1	RFT50-250TM2710
	10GHz	32.0	12.7	22.0	12.7	3.0	5.0	6.0	2.4	6.0	/	4.0	BeO	FIG1	RFT50-250TM3213B
300W	3GHz	23.0	10.0	17.0	12.0	1.5	3.0	3.8	1.4	6.0	/	3.2	BeO	FIG1	RFT50-300TM2310
		24.8	10.0	18.4	12.0	3.0	4.6	5.5	1.4	6.0	/	3.5	BeO	FIG1	RFT50-300TM2510
		27.0	10.0	21.0	12.0	2.5	4.0	5.5	1.4	6.0	/	3.2	BeO	FIG1	RFT50-300TM2710
	10GHz	32.0	12.7	22.0	12.7	3.0	5.0	6.0	2.4	6.0	/	4.0	BeO	FIG1	RFT50-300TM3213B
400W	2GHz	32.0	12.7	22.0	12.7	3.0	5.0	6.0	2.4	6.0	/	4.0	BeO	FIG1	RFT50-400TM3213
500W	2GHz	32.0	12.7	22.0	12.7	3.0	5.0	6.0	2.4	6.0	/	4.0	BeO	FIG1	RFT50-500TM3213
800W	1GHz	48.0	26.0	40.0	26.0	3.0	6.2	6.9	6.0	7.0	12.7	4.2	BeO	FIG5	RFT50-800TM4826
1000W	1GHz	48.0	26.0	40.0	26.0	3.0	6.2	6.9	6.0	7.0	12.7	4.2	BeO	FIG5	RFT50-1000TM4826
1500W	0.8GHz	50.0	78.0	40.0	26.0	5.0	8.2	9.0	6.0	7.0	15.0	4.2	BeO	FIG5	RFT50-1500TM5078

Overview

The flange is generally made of copper plated nickel or silver processing. The resistance substrate is generally made of beryllium oxide, aluminum nitride, and aluminum oxide printing according to power requirements and heat dissipation conditions.

The Flanged Termination, like the Leaded Termination, is mainly used to absorb signal waves transmitted to the end of the circuit, prevent signal reflection from affecting the circuit, and ensure the transmission quality of the circuit system.

The Flanged Termination has the characteristic of easy installation compared to patch resistors due to its flange and mounting holes on the flange.

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Flange Mount Termination