Matrix Optical Switch Module (Matrix Switch)

Updated at Jul 15th 2026 Views 10

Matrix optical switch modules are core optical components that enable dynamic switching and routing of optical signals across multiple ports. They come in various product forms and serve different functional roles depending on the application field.

 

In optical communications, matrix optical switch modules are centered around optical switch matrices and serve as key building blocks for all-optical networks. They enable optical signal routing between any input and output ports, supporting dynamic optical path management, network fault protection switching, and flexible wavelength allocation. Our matrix optical switch modules feature low insertion loss, wide wavelength range, low crosstalk, high stability and reliability, and modular design. They are widely used in optical cross-connect (OXC) equipment, reconfigurable optical add-drop multiplexing (ROADM) systems, supporting flexible networking and bandwidth scheduling in backbone optical networks, as well as fiber optic sensing applications.

 

We offer products with M×N port configurations, including 4×8, 4×16, 4×72, 8×16, 12×24, etc., as well as N×N port configurations such as 4×4, 16×16, 48×48, 64×64, 320×320, and more. Customization is supported. We provide both mechanical matrix optical switches and MEMS matrix optical switches for optical matrix cross-connection.

 

 

Here are the specification details for the M×N matrix optical switch modules currently shipped by our company:

 

Matrix Optical Switch Module M×N:MEMS M×N Matrix Optical Switch Module-光通信方案提供商-恒创科技

 

SM
 

Parameters

Unit

MEMS M×N.SM

Working Wavelength

nm

1260-1650 or780or980or1064

Testing Wavelength

nm

1310/1550/1625/1650

Insertion Loss

dB

@CWL Single-band 

≤1.6 (M≤8, N≤8) 

 ≤2.0 (M≤16, N≤16)

≤2.6 (M≤32, N≤32)

≤3.0 (M≤64, N≤64)

@CWL Dual-band ≤2.0 (M≤8, N≤8) 

≤2.4 (M≤16, N≤16)

≤3.0 (M≤32, N≤32)

≤3.4 (M≤64, N≤64)

WDL

dB

≤0.6

PDL

dB

≤0.3

Return Loss

dB

≥45

Crosstalk

dB

≥50

Repeatability

dB

≤±0.1

Switching Time

ms

≤15 (M≤16, N≤16)

≤50(M≤64, N≤64)

Durability

times

≥109

Input Optical Power

mW

≤500

Operating Voltage

V

DC 5V±10%

Operating Current

A

≤0.8 (M+N≤16)

≤1.0 (M+N≤32)

≤2.0 (M+N≤64)

≤4.0 (M+N≤128)

Operating Temp.

°C

-5 ~ +75

Storage Temp.

°C

-40 ~ +85

Dimension

Mm

M5: 110× 141× 12 (M+N≤16)

M6: 200× 180× 18(M+N≤32)

M7: 280×240×32 (M+N≤64)

M8:300X400X60(64

1.Within operating temperature and all SOP.

2.Excluding connector.

3.WDL is measured in a ±20nm range at 23°C.

 

MM

 

Parameters

Unit

MEMS M×N-MM

Working Wavelength

nm

850±30, 1310±30

Testing Wavelength

nm

850/1310

Insertion Loss

dB

@CWL Single-band

≤1.6(M≤12, N≤12)

≤2.0 (M≤16, N≤16)

@CWL Dual-band

≤2.0 (M≤12, N≤12)

≤2.4 (M≤16, N≤16)

WDL

dB

≤0.6

PDL

dB

≤0.4

Return Loss

dB

≥30

Crosstalk

dB

≥30

Repeatability

dB

≤±0.1

Switching Time

ms

≤15 (M≤8, N≤8)

≤30(M≤16, N≤16)

Durability

times

≥109

Input Optical Power

mW

≤500

Operating Voltage

V

DC 5V±10%

Operating Current

A

≤0.8 (M+N≤16)

≤1.5 (M+N≤32)

Operating Temp.

°C

-5 ~ +70

Storage Temp.

°C

-40 ~ +85

Dimension

mm

M5: 110× 141× 12mm (M+N≤16)

M6: 200× 180× 18mm (M+N≤24)

M7: 280×240×32mm (M+N≤32)

customization:32

1.Within operating temperature and all SOP.

2.Excluding connector.

3.WDL is measured in a ±20nm range at 23°C.