- play_arrow DPC, SPC, MPC, MIC, and PIC Descriptions
- play_arrow MX Series DPC Descriptions
- Gigabit Ethernet DPC with SFP
- Gigabit Ethernet Enhanced DPC with SFP
- Gigabit Ethernet Enhanced Ethernet Services DPC with SFP
- Gigabit Ethernet Enhanced Queuing Ethernet Services DPC with SFP
- Gigabit Ethernet Enhanced Queuing IP Services DPCs with SFP
- 10-Gigabit Ethernet DPC with XFP
- 10-Gigabit Ethernet Enhanced DPCs with XFP
- 10-Gigabit Ethernet Enhanced Ethernet Services DPC with XFP
- 10-Gigabit Ethernet Enhanced Queuing Ethernet Services DPC with XFP
- 10-Gigabit Ethernet Enhanced Queuing IP Services DPC with XFP
- Multi-Rate Ethernet Enhanced DPC with SFP and XFP
- Multi-Rate Ethernet Enhanced Ethernet Services DPC with SFP and XFP
- Multi-Rate Ethernet Enhanced Queuing IP Services DPC with SFP and XFP
- Multiservices DPC
- Tri-Rate Enhanced DPC
- Tri-Rate Enhanced Ethernet Services DPC
- play_arrow MX Series SPC Description
- play_arrow MX Series MPC Descriptions
- MPC-3D-16XGE-SFPP
- Multiservices MPC
- MPC1
- MPC1E
- MPC1 Q
- MPC1E Q
- MPC2
- MPC2E
- MPC2 Q
- MPC2E Q
- MPC2 EQ
- MPC2E EQ
- MPC2E P
- MPC2E NG
- MPC2E NG Q
- MPC3E
- MPC3E-3D-NG
- MPC3E-3D-NG-Q
- 32x10GE MPC4E
- 2x100GE + 8x10GE MPC4E
- 6x40GE + 24x10GE MPC5E
- 6x40GE + 24x10GE MPC5EQ
- 2x100GE + 4x10GE MPC5E
- 2x100GE + 4x10GE MPC5EQ
- MPC6E
- MPC7E-MRATE
- MPC7E-10G
- MPC8E
- MPC9E
- MPC10E-10C-MRATE
- MPC10E-15C-MRATE
- MX2K-MPC11E Modular Port Concentrator
- MX10K-LC480
- MX10K-LC2101
- MX10K-LC9600
- MX10K-LC4800
- play_arrow MX Series MIC Descriptions
- ATM MIC with SFP
- DS3/E3 MIC
- Gigabit Ethernet MIC with SFP
- Gigabit Ethernet MIC with SFP (E)
- Gigabit Ethernet MIC with SFP (EH)
- Gigabit Ethernet MIC with 256b-AES MACsec
- 10-Gigabit Ethernet MICs with XFP
- 1-Gigabit/10-Gigabit Ethernet MIC with SFP+ (10 Ports)
- 10-Gigabit Ethernet MIC with SFP+ (10 Ports)
- 10-Gigabit Ethernet MIC with SFP+ (24 Ports)
- 10-Gigabit Ethernet OTN MIC with SFP+ (24 Ports)
- 40-Gigabit Ethernet MIC with QSFP+
- 100-Gigabit Ethernet MIC with CFP
- 100-Gigabit Ethernet MIC with CXP
- 100-Gigabit Ethernet MIC with CXP (4 Ports)
- 100-Gigabit Ethernet MIC with CFP2
- 100-Gigabit DWDM OTN MIC with CFP2-ACO
- Channelized SONET/SDH OC3/STM1 (Multi-Rate) MICs with SFP
- Channelized OC3/STM1 (Multi-Rate) Circuit Emulation MIC with SFP
- Channelized OC3/STM1 (Multi-Rate) Circuit Emulation MIC with SFP (H)
- Channelized E1/T1 Circuit Emulation MIC
- Channelized E1/T1 Circuit Emulation MIC (H)
- Tri-Rate MIC
- MIC MRATE
- Multiservices MIC
- SONET/SDH OC3/STM1 (Multi-Rate) MICs with SFP
- Multi-Rate Ethernet MIC
- Multi-Rate Ethernet MACSEC MIC
- SONET/SDH OC192/STM64 MIC with XFP
- play_arrow MX Series PIC Descriptions
- Channelized OC12/STM4 Enhanced IQ (IQE) PIC with SFP
- Channelized OC48/STM16 Enhanced IQ (IQE) PIC with SFP
- SONET/SDH OC3/STM1 (Multi-Rate) PIC with SFP
- SONET/SDH OC12/STM4 (Multi-Rate) PIC with SFP
- SONET/SDH OC48/STM16 Enhanced IQ (IQE) PIC with SFP
- SONET/SDH OC48/STM16 (Multi-Rate) PIC with SFP
- SONET/SDH OC48/STM16 PIC with SFP
- SONET/SDH OC192c/STM64 PIC
- SONET/SDH OC192c/STM64 PIC with XFP
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- play_arrow Protocol and Application Support
- play_arrow DPC Protocol and Application Support for MX240, MX480, and MX960
- Protocols and Applications Supported by DPCs and Enhanced DPCs (DPC and DPCE-R)
- Protocols and Applications Supported by Enhanced Ethernet Services DPCs (DPCE-X)
- Protocols and Applications Supported by Enhanced Queuing IP Services DPCs (DPCE-R-Q)
- Protocols and Applications Supported by Enhanced Queuing Ethernet Services DPCs (DPCE-X-Q)
- Protocols and Applications Supported by the Multiservices DPC (MS-DPC)
- play_arrow SPC Protocol and Application Support for MX240, MX480, and MX960
- play_arrow MPC Protocol and Application Support for MX240, MX480, MX960, MX2010, MX2020, and MX10003
- Protocols and Applications Supported on MPCs for MX Series Routers
- Protocols and Applications Supported on the MPC1E for MX Series Routers
- Protocols and Applications Supported by the MX240, MX480, MX960, MX2010, and MX2020 MPC2E
- Protocols and Applications Supported by the MPC3E on MX Series Routers
- Protocols and Applications Supported on the MPC4E for MX Series Routers
- Protocols and Applications Supported by the MPC5E for MX Series Routers
- Protocols and Applications Supported by the MPC6E for MX2000 Routers
- Protocols and Applications Supported by the MPC7E for MX Series Routers
- Protocols and Applications Supported by the MPC8E and MPC9E on the MX2010 and MX2020 Routers
- Protocols and Applications Supported by the MS-MIC and MS-MPC
- Protocols and Applications Supported by the MX10003 MPC (Multi-Rate) on the MX10003 Router
- Protocols and Applications Supported by the JNP10K-LC2101 on the MX10004, MX10008, and MX10016 Routers
- Protocols and Applications Supported by the MPC10E
- Protocols and Applications Supported by the MX2K-MPC11E
- Protocols and Applications Supported by MX10K-LC480 for MX Series Routers
- Protocols and Applications Supported by MX10K-LC9600 for MX10004 and MX10008 Series Routers
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Cable and Connector Specifications for MX and PTX Series Devices
The transceivers that are supported on MX Series and PTX Series devices use fiber-optic cables and connectors. The type of connector and the type of fiber depends on the transceiver type.
You can determine the type of cable and connector required for your specific transceiver by using the Hardware Compatibility Tool.
To maintain agency approvals, use only a properly constructed, shielded cable.
The terms multifiber push-on (MPO) and multifiber termination push-on (MTP) describe the same connector type. The rest of this topic uses MPO to mean MPO or MTP.
12-Fiber MPO Connectors
There are two types of cables used with 12-fiber MPO connectors on Juniper Networks devices—patch cables with MPO connectors on both ends, and breakout cables with an MPO connector on one end and four LC duplex connectors on the opposite end. Depending on the application, the cables might use single-mode fiber (SMF) or multimode fiber (MMF). Juniper Networks sells cables that meet the supported transceiver requirements, but it is not required to purchase cables from Juniper Networks.
Ensure that you order cables with the correct polarity. Vendors refer to these crossover cables as key up to key up, latch up to latch up, Type B, or Method B. If you are using patch panels between two transceivers, ensure that the proper polarity is maintained through the cable plant.
Also, ensure that the fiber end in the connector is finished correctly. Physical contact (PC) refers to fiber that has been polished flat. Angled physical contact (APC) refers to fiber that has been polished at an angle. Ultra physical contact (UPC) refers to fiber that has been polished flat, to a finer finish. The required fiber end is listed with the connector type in the Hardware Compatibility Tool.
- 12-Fiber Ribbon Patch Cables with MPO Connectors
- 12-Fiber Ribbon Breakout Cables with MPO-to-LC Duplex Connectors
- 12-Ribbon Patch and Breakout Cables Available from Juniper Networks
12-Fiber Ribbon Patch Cables with MPO Connectors
You can use 12-fiber ribbon patch cables with socket MPO connectors to connect two transceivers of the same type—for example, 40GBASE-SR4-to-40GBASESR4 or 100GBASE-SR4-to-100GBASE-SR4. You can also connect 4x10GBASE-LR or 4x10GBASE-SR transceivers by using patch cables—for example, 4x10GBASE-LR-to-4x10GBASE-LR or 4x10GBASE-SR-to-4x10GBASE-SR—instead of breaking the signal out into four separate signals.
Table 1 describes the signals on each fiber. Table 2 shows the pin-to-pin connections for proper polarity.
Fiber | Signal |
|---|---|
1 | Tx0 (Transmit) |
2 | Tx1 (Transmit) |
3 | Tx2 (Transmit) |
4 | Tx3 (Transmit) |
5 | Unused |
6 | Unused |
7 | Unused |
8 | Unused |
9 | Rx3 (Receive) |
10 | Rx2 (Receive) |
11 | Rx1 (Receive) |
12 | Rx0 (Receive) |
MPO Pin | MPO Pin |
|---|---|
1 | 12 |
2 | 11 |
3 | 10 |
4 | 9 |
5 | 8 |
6 | 7 |
7 | 6 |
8 | 5 |
9 | 4 |
10 | 3 |
11 | 2 |
12 | 1 |
12-Fiber Ribbon Breakout Cables with MPO-to-LC Duplex Connectors
You can use 12-ribbon breakout cables with MPO-to-LC duplex connectors to connect a QSFP+ transceiver to four separate SFP+ transceivers—for example, 4x10GBASE-LR-to-10GBASE-LR or 4x10GBASE-SR-to-10GBASE-SR SFP+ transceivers. The breakout cable is constructed out of a 12-fiber ribbon fiber-optic cable. The ribbon cable splits from a single cable with a socket MPO connector on one end, into four cable pairs with four LC duplex connectors on the opposite end.
Figure 1 shows an example of a typical 12-ribbon breakout cable with MPO-to-LC duplex connectors (depending on the manufacture, your cable may look different).
Table 3 describes the way the fibers are connected between the MPO and LC duplex connectors. The cable signals are the same as those described in Table 1.
MPO Connector Pin | LC Duplex Connector Pin |
|---|---|
1 | Tx on LC Duplex 1 |
2 | Tx on LC Duplex 2 |
3 | Tx on LC Duplex 3 |
4 | Tx on LC Duplex 4 |
5 | Unused |
6 | Unused |
7 | Unused |
8 | Unused |
9 | Rx on LC Duplex 4 |
10 | Rx on LC Duplex 3 |
11 | Rx on LC Duplex 2 |
12 | Rx on LC Duplex 1 |
12-Ribbon Patch and Breakout Cables Available from Juniper Networks
Juniper Networks sells 12-ribbon patch and breakout cables with MPO connectors that meet the requirements described above. It is not required to purchase cables from Juniper Networks. Table 4 describes the available cables.
Cable Type | Connector Type | Fiber Type | Cable Length | Juniper Model Number |
|---|---|---|---|---|
12-ribbon patch | Socket MPO/PC to socket MPO/PC, key up to key up | MMF (OM3) | 1 m | MTP12-FF-M1M |
3 m | MTP12-FF-M3M | |||
5 m | MTP12-FF-M5M | |||
10 m | MTP12-FF-M10M | |||
Socket MPO/APC to socket MPO/APC, key up to key up | SMF | 1 m | MTP12-FF-S1M | |
3 m | MTP12-FF-S3M | |||
5 m | MTP12-FF-S5M | |||
10 m | MTP12-FF-S10M | |||
12-ribbon breakout | Socket MPO/PC, key up, to four LC/UPC duplex | MMF (OM3) | 1 m | MTP-4LC-M1M |
3 m | MTP-4LC-M3M | |||
5 m | MTP-4LC-M5M | |||
10 m | MTP-4LC-M10M | |||
Socket MPO/APC, key up, to four LC/UPC duplex | SMF | 1 m | MTP-4LC-S1M | |
3 m | MTP-4LC-S3M | |||
5 m | MTP-4LC-S5M | |||
10 m | MTP-4LC-S10M |
24-Fiber MPO Connectors
You can use patch cables with 24-fiber MPO connectors to connect two supported transceivers of the same type—for example, 100GBASE-SR10-to-100GBASE-SR10.
Figure 2 shows the 24-fiber MPO optical lane assignments.
Ensure that you order cables with the correct polarity. Vendors refer to these crossover cables as key up to key up, latch up to latch up, Type B, or Method B. If you are using patch panels between two transceivers, ensure that the proper polarity is maintained through the cable plant.
The MPO optical connector for the CFP2-100G-SR10-D3 is defined in Section 5.6 of the CFP2 Hardware Specification and Section 88.10.3 of IEEE STD 802.3-2012. These specifications include the following requirements:
Recommended Option A in IEEE STD 802.3-2012.
The transceiver receptacle is a plug. A patch cable with a socket connector is required to mate with the module.
Ferrule finish shall be flat polished interface that is compliant with IEC 61754-7.
Alignment key is key up.
The optical interface must meet the requirement FT-1435-CORE in Generic Requirements for Multi-Fiber Optical Connectors. The module must pass the wiggle test defined by IEC 62150-3.
LC Duplex Connectors
You can use patch cables with LC duplex connectors to connect two supported transceivers of the same type—for example, 40GBASE-LR4-to-40GBASE-LR4 or 100GBASE-LR4-to100GBASE-LR4. The patch cable is one fiber pair with two LC duplex connectors at opposite ends. LC duplex connectors are also used with 12-fiber ribbon breakout cables, as described in 12-Fiber Ribbon Breakout Cables with MPO-to-LC Duplex Connectors.
Figure 3 shows an LC duplex connector being installed in a transceiver.
