80 Gbps Dual DP3T RF MEMS Switch (AC Coupled) Supplier | High-Quality Relays and Switches Manufacturer from Taiwan | Toward Technologies, Inc.

The MM5625 is a high-speed differential loopback switch designed for next-generation PCIe Gen5/Gen6, SerDes, and advanced high-speed digital test environments. Supporting data rates up to 80 Gbps with a 20 GHz bandwidth, it offers low insertion loss, fast switching, and long operating life. Independent control of each differential pair enables flexible lane management across 128 switch states.

Its compact SiP implementation integrates the driver, charge pump, and loopback capacitors to reduce board footprint and simplify overall system design. With full-rate differential performance and compatibility with parallel test architectures, the MM5625 is well-suited for production testing and high-speed validation of processors, accelerators, graphics, networking, and memory devices. Toward is a high-quality RF MEMS Switch, Opto-MOS Relay ,Opto-MOSFET Relays, Reed Relay, Solid State Relay manufacturer from Taiwan. With more than 30 years relay manufacture experience, Toward is specialised in manufacturing different kinds of relays. since 1988

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80 Gbps Dual DP3T RF MEMS Switch (AC Coupled)

80 Gbps AC-Coupled Differential Loopback DP3T Switch(AC coupled) / Toward Technologies, Inc. is a manufacturer of Solid State Relays, Reed Relays and MEMS Switches.

80 Gbps Dual DP3T RF MEMS Switch (AC Coupled) - 80 Gbps AC-Coupled Differential Loopback DP3T Switch(AC coupled)
  • 80 Gbps Dual DP3T RF MEMS Switch (AC Coupled) - 80 Gbps AC-Coupled Differential Loopback DP3T Switch(AC coupled)
80 Gbps Dual DP3T RF MEMS Switch (AC Coupled)
MM5625

The MM5625 is a high-speed differential loopback switch designed for next-generation PCIe Gen5/Gen6, SerDes, and advanced high-speed digital test environments. Supporting data rates up to 80 Gbps with a 20 GHz bandwidth, it offers low insertion loss, fast switching, and long operating life. Independent control of each differential pair enables flexible lane management across 128 switch states.

Its compact SiP implementation integrates the driver, charge pump, and loopback capacitors to reduce board footprint and simplify overall system design. With full-rate differential performance and compatibility with parallel test architectures, the MM5625 is well-suited for production testing and high-speed validation of processors, accelerators, graphics, networking, and memory devices.

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Key Benefits

Leveraging Menlo Micro's Ideal Switch® technology, the MM5625 maintains clean, high-fidelity AC-coupled differential signaling across a wide 20 GHz bandwidth. Independent lane control and support for numerous routing states provide the flexibility required in dense, multi-channel test platforms. A switching endurance exceeding 3 billion cycles ensures reliable performance for PCIe Gen5/Gen6, SerDes, and other advanced digital interfaces.

System Integration

The MM5625's SiP architecture consolidates the driver, charge pump, and loopback capacitors into a single compact module, minimizing PCB area and simplifying design for high-speed test systems. An SPI interface enables seamless coordination with host controllers, supporting scalable loopback routing for ATE environments, production test setups, and high-speed signal-integrity validation platforms.

Features
  • Ideal Switch® Technology provided by Menlo Micro
  • DC to 20 GHz range
  • Dual DP3T configuration with Loopback
  • Low insertion loss: 2.7 dB @ 20 GHz
  • Built-in AC Coupling Capacitors
  • High reliability: over 3 billion switching cycles
  • Control via SPI or GPIO interfaces
  • 128 possible switch control states
  • Compact 8.2 x 8.2 mm LGA package
Contact Form
  • Differential, Dual DP3T, Normally Open, Reflective actuator
Frequency
  • DC to 20 GHz
On Resistance (Ω)
  • 1.7 Ω (HS to MS/LS, MS to LS), up to 4.0 Ω
Insertion Loss [Differential]
  • 2.7 dB @ 20 GHz (HS1 to HS2)
  • 1.6 dB @ 16 GHz (HS1 to HS2)
  • 2.2 dB @ 16 GHz (MS1 to MS2)
  • 0.7 dB @ 16 GHz (HS1 to MS1)
Return Loss [Differential]
  • 18 dB @ 20 GHz (HS1 to HS2)
  • 29 dB @ 16 GHz (HS1 to HS2)
  • 35 dB (MS1 to MS2)
  • 17 dB (HS1 to MS1)
  • 26 dB (HS2 to MS2)
Isolation [Differential]
  • 46 dB @ 20 GHz (HS1 to HS2)
  • 52 dB @ 16 GHz (HS1 to HS2)
  • 54 dB @ 16 GHz (MS1 to MS2)
  • 58 dB @ 16 GHz (HS1 to MS1)
  • 45 dB @ 16 GHz (HS2 to MS2)
ESD Protection
  • 150 V (RF pins)
  • 2000 V (Control/Power pins)
  • 500 V (VPP pin)
Application
  • High-Speed Data Digital Component Testing
  • Optical-Electrical Module Testing
  • High-Speed Signal Routing
  • ATE Device Interface Boards
  • Optical-Electrical Module Testing
  • Differential Switch Matrices
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MM5625 Data Sheet
MM5625 Data Sheet

80 Gbps Dual DP3T RF MEMS Relay AC Coupled

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Toward - 80 Gbps Dual DP3T RF MEMS Switch (AC Coupled) Manufacturer

Located in Taiwan since 1988, Toward Technologies, Inc. is a relay supplier and manufacturer. Main products, including Opto-MOSFET Relays, Opto-SiC MOSFET Relays, Solid State Relays, Reed Relays, and RF MEMS Switches.

Toward supplies relays to the world's semiconductor and automotive industries for over three decades and has long term long-term partnerships with OKITA Works based in Japan; Menlo Microsystems based in California; JEL Systems based in Japan and Teledyne Relays and Coax Switches based in California. Mainly serve the Semiconductor Testing, ATE, BMS (Battery Management Systems), industrial machinery and Electric Vehicle industries.

Toward has been offering customers high-quality Opto-MOSFET and Opto-SiC MOSFET relays since 1988, both with advanced technology and 37 years of experience, Toward ensures each customer's demands are met.