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Bj400 (WR22) 33 - 50.0GHz Aluminum Directional Coupler for Signal Isolation, Separation, and Mixing

Product Details

Customization:	Available
Frequency Range (GHz):	33 - 50.0GHz
Vswr:	≤1.25

Nanjing Reach Top Communication Technology Co., Ltd.

Trading Company

Diamond Member Since 2025

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Year of Establishment

2025-04-01

Plant Area

80 square meters

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Basic Info.

Model NO.

RT-OHQ400C30D30CP

Material

Aluminum

Coupling Degree (dB)

25 - 60

Directivity (°)

Coupling Accuracy (dB)

±0.8

Flatness (dB)

±0.6

Key

Attenuator

Name

Coaxial Fixed Attenuators

Transport Package

Carton

Origin

China

Product Description

BJ400(WR22) 33 - 50.0GHz Aluminum directional coupler for signal isolation, separation, and mixing

A directional coupler is a common microwave/millimeter - wave component. It can be used for signal isolation, separation, and mixing, such as power monitoring, source output power stabilization, signal source isolation, and swept - frequency testing of transmission and reflection. Its main technical indicators are directivity, voltage standing wave ratio, coupling degree, and insertion loss.

The waveguide specifications of wide - arm high - directivity directional couplers range from WR430 to WR22, with a coupling degree of 25 - 60 dB and excellent fluctuation characteristics. The basic materials are aluminum or brass. The surface treatment is a unique corrosion - resistant 316 stainless - steel epoxy coating. It is commonly used in system detection and measurement.

Product Model	Waveguide Specification	Frequency Range (GHz)	Secondary Path Voltage Standing Wave Ratio	Main Path Voltage Standing Wave Ratio	Coupling Degree (dB)	Directivity (°)	Coupling Accuracy (dB)	Flatness (dB)
RT- OHQ22C30D30AP	BJ22(WR430)	1.72 - 2.61	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT - OHQ26C30D30AP	BJ26(WR340)	2.17 - 3.3	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ32C30D30AP	BJ32(WR284)	2.6 - 3.95	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ40C30D30AP	BJ40(WR229)	3.22 - 4.90	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT - OHQ48C30D30AP	BJ48(WR187)	3.94 - 5.99	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ58C30D15AP	BJ58(WR159)	4.64 - 7.05	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ70C30D30AP	BJ70(WR137)	5.38 - 8.17	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ84C30D30AP	BJ84(WR112)	6.57 - 9.99	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ100C30D30AP	BJ100(WR90)	8.2 - 12.5	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ120C30D30AP	BJ120(WR75)	9.84 - 15.0	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT - OHQ140C30D30AP	BJ140(WR62)	11.9 - 18.0	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT - OHQ180C30D30AP	BJ180(WR51)	14.5 - 22.0	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT- OHQ220C30D30CP	BJ220(WR42)	17.6 - 26.7	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT - OHQ260C30D30CP	BJ260(WR34)	21.7 - 33.0	≤1.1	≤1.05	25 - 60	30	±0.6	±0.5
RT - OHQ320C30D30CP	BJ320(WR28)	26.3 - 40.0	≤1.15	≤1.05	25 - 60	30	±0.8	±0.6
RT - OHQ400C30D30CP	BJ400(WR22)	33 - 50.0	≤1.25	≤1.05	25 - 60	30	±0.8	±0.6

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Bj400 (WR22) 33 - 50.0GHz Aluminum Directional Coupler for Signal Isolation, Separation, and Mixing

Regarding Frequency Bands

Q1: Can C - band filters be used for satellite TV?
A: C - band filters are commonly used in satellite communication and other scenarios. Although some satellite TV signals may be in the C - band, satellite TV mostly uses the Ku - band. So, C - band filters may not be suitable for satellite TV. It depends on the specific frequency band of the TV signal.

Q2: Where are X - band filters mainly used?
A: X - band filters are mostly applied in radar and aviation communication. For example, they are used in radar signal processing to ensure that the radar can accurately detect targets.

Regarding Materials

Q1: Are aluminum - made filters sturdy?
A: Aluminum - made filters are light - weight and cost - effective. Under normal usage environments and with proper operation, they can meet usage requirements and are relatively sturdy and durable.

Q2: Why are copper - made filters more expensive?
A: Copper - made filters are more expensive because copper has excellent electrical and thermal conductivity, performing well in scenarios with high - frequency signal transmission and high heat - dissipation requirements. Moreover, the cost of copper is relatively high.

Regarding Performance

Q1: What are the impacts of high insertion loss on signals?
A: High insertion loss means more energy loss when the signal passes through the filter. The signal will weaken, which may affect the quality and accuracy of signal reception by subsequent devices.

Q2: What happens if the voltage standing wave ratio is high?
A: A high voltage standing wave ratio indicates poor matching between the filter and the transmission line. There will be more signal reflection, reducing the transmission efficiency and potentially affecting the normal operation of the equipment.