Juniper SRX300 Series Reference Manual
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Juniper SRX300 Series Reference Manual

High memory gateway interface modules
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SRX300 Series and SRX550 High Memory
Gateway Interface Modules Reference
Published
2020-01-19

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Summary of Contents for Juniper SRX300 Series

  • Page 1 SRX300 Series and SRX550 High Memory Gateway Interface Modules Reference Published 2020-01-19...
  • Page 2 END USER LICENSE AGREEMENT The Juniper Networks product that is the subject of this technical documentation consists of (or is intended for use with) Juniper Networks software. Use of such software is subject to the terms and conditions of the End User License Agreement (“EULA”) posted at https://support.juniper.net/support/eula/.

  • Page 3: Table Of Contents

    SRX300 Series and SRX550 High Memory Services Gateway Gigabit-Backplane Physical Interface Modules Overview | 20 Interfaces Port Naming Conventions for the SRX300 Series and SRX550 High Memory Services Gateways | 22 SRX300 Series and SRX550 High Memory Services Gateway Interface Modules and...
  • Page 4 1-Port Serial Mini-Physical Interface Module Interface Cables | 30 EIA-530A DCE and DTE Cable Pinouts | 31 EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module | 31 EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module | 33 RS-232 DCE and DTE Cable Pinouts | 34 RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module | 34 RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module | 35...
  • Page 5 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) | 57 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Overview | 57 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Hardware Specifications | 58 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) LEDs | 59 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Supported Profiles | 59 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-Physical Interface Module Cable...
  • Page 6 LTE Mini-Physical Interface Module | 75 LTE Mini-Physical Interface Module | 75 LTE Mini-Physical Interface Module LEDs | 79 LTE Mini-Physical Interface Module Hardware Specifications | 80 LTE Mini-Physical Interface Module Installation and Configuration | 80 Installing the LTE Mini-PIM | 81 Configuring the LTE Mini-PIM | 85 Firmware Upgrade on the LTE Mini-Physical Interface Module | 86 Mini-PIM Firmware Upgrade Using the CLI | 86...
  • Page 7 Maintaining the SRX Series Interface Modules | 129 Required Tools and Parts for Replacing Interface Modules | 129 Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550 High Memory Services Gateway | 130 Replacing Mini-Physical Interface Modules on the SRX300 Series and SRX550 High Memory...

  • Page 8: About The Documentation

    Requesting Technical Support | xiv Use this guide to understand the specifications and perform the basic configuration for the interface modules supported on the SRX300 Series and SRX550 High Memory Services Gateways. After understanding the support and compatibility information, and completing the configuration procedures covered in this guide, refer to the Junos OS documentation for information about further software configuration.

  • Page 9: Merging A Full Example

    If the example configuration contains the top level of the hierarchy (or multiple hierarchies), the example is a full example. In this case, use the load merge command. If the example configuration does not start at the top level of the hierarchy, the example is a snippet. In this case, use the load merge relative command.

  • Page 10: Merging A Snippet

    Merging a Snippet To merge a snippet, follow these steps: 1. From the HTML or PDF version of the manual, copy a configuration snippet into a text file, save the file with a name, and copy the file to a directory on your routing platform. For example, copy the following snippet to a file and name the file ex-script-snippet.conf.
  • Page 11 Table 1: Notice Icons Icon Meaning Description Informational note Indicates important features or instructions. Caution Indicates a situation that might result in loss of data or hardware damage. Warning Alerts you to the risk of personal injury or death. Laser warning Alerts you to the risk of personal injury from a laser.
  • Page 12 xiii Table 2: Text and Syntax Conventions (continued) Convention Description Examples Italic text like this Represents variables (options for Configure the machine’s domain which you substitute a value) in name: commands or configuration [edit] statements. root@# set system domain-name domain-name Text like this Represents names of configuration To configure a stub area, include...

  • Page 13: Documentation Feedback

    URL or page number, and software version (if applicable). Requesting Technical Support Technical product support is available through the Juniper Networks Technical Assistance Center (JTAC). If you are a customer with an active Juniper Care or Partner Support Services support contract, or are...

  • Page 14: Self-Help Online Tools And Resources

    JTAC hours of operation—The JTAC centers have resources available 24 hours a day, 7 days a week, 365 days a year. Self-Help Online Tools and Resources For quick and easy problem resolution, Juniper Networks has designed an online self-service portal called the Customer Support Center (CSC) that provides you with the following features: Find CSC offerings: https://www.juniper.net/customers/support/...

  • Page 15: Overview

    C HAPTER Overview SRX300 Series and SRX550M Interface Modules Support | 19 1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) | 28 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) | 46 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) | 57 8-Port Gigabit Ethernet SFP XPIM | 63...

  • Page 17: Srx300 Series And Srx550M Interface Modules Support

    MTU Default and Maximum Values for Physical Interface Modules | 24 Power over Ethernet Support on SRX550 High Memory Services Gateway Interfaces | 26 SRX300 Series and SRX550 High Memory Services Gateway Interfaces Power and Heat Requirements | 27 SRX300 Series and SRX550 High Memory Services Gateway Interface...

  • Page 18: Srx300 Series And Srx550 High Memory Services Gateway Gigabit-Backplane Physical Interface Modules Overview

    Table 3: SRX300 Series and SRX550 High Memory Services Gateway Mini-PIM Model Numbers Mini-PIMs Model Numbers Serial Mini-PIM SRX-MP-1Serial-R T1/E1 Mini-PIM SRX-MP-1T1E1-R VDSL2 Mini-PIM SRX-MP-1VDSL2-R LTE Mini-PIM SRX-MP-LTE-AE (for North America and the European Union) SRX-MP-LTE-AA (for Asia and Australia)
  • Page 19 Single-high, single-wide LAN switch GPIM that uses one slot Double-high, single-wide LAN switch GPIM that uses two standard slots vertically NOTE: GPIMs are not supported on the SRX300 Series devices. Table 4 on page 21 lists the GPIMs and XPIMs and their respective model numbers.

  • Page 20: Interfaces Port Naming Conventions For The Srx300 Series And Srx550 High Memory Services Gateways

    Figure 3: Example of a Double-High, Single-Wide XPIM Interfaces Port Naming Conventions for the SRX300 Series and SRX550 High Memory Services Gateways When configuring a port on a Mini-Physical Interface Module (Mini-PIM) or Gigabit-Backplane Physical Interface Module (GPIM), you must know the slot and port number assigned to the Mini-PIM or GPIM.

  • Page 21: Srx300 Series And Srx550 High Memory Services Gateway Interface Modules And Compatibility

    (slots 3 and 4) ) and the right side top two standard slots (6 and 8). Wi-Fi Mini-PIM wl–1/0/0 SRX300 Series and SRX550 High Memory Services Gateway Interface Modules and Compatibility Table 6 on page 24 shows the types of Mini-Physical Interface Modules (Mini-PIMs) with the SRX Series...

  • Page 22: Mtu Default And Maximum Values For Physical Interface Modules

    SRX Series devices and the Junos OS releases that support them. Table 7: XPIM Types and Hardware Platform Compatibility Type Name First Junos OS Release SRX300 Series Services Gateways SRX550 High Memory XPIMs (10 Gigabit 8-Port Gigabit Ethernet SFP Not supported Junos OS Release 15.1X49–D30...
  • Page 23 Table 9 on page 25 lists the MTU values for the SRX300 Series and SRX550 High Memory Services Gateway Physical Interface Modules (PIMs). Table 9: MTU Values for the SRX300 Series and SRX550 High Memory PIMs...

  • Page 24: Power Over Ethernet Support On Srx550 High Memory Services Gateway Interfaces

    Table 10 on page 26 lists maximum transmission unit (MTU) values for VDSL- Mini-PIM AT mode (Encapsulation). Table 10: MTU Values for VDSL- Mini-PIM AT mode (Encapsulation) Physical Interface MTU Logical Interface MTU Mini-PIM (Bytes)–Default (Bytes)–Default Maximum MTU (Bytes) VDSL- Mini-PIM AT mode (Encapsulation) atm-snap 1514 1506...

  • Page 25: Srx300 Series And Srx550 High Memory Services Gateway Interfaces Power And Heat Requirements

    Static: Power allocation for each interface can be configured. Class: Power for interfaces is allocated based on the class of powered device connected. SRX300 Series and SRX550 High Memory Services Gateway Interfaces Power and Heat Requirements Table 12 on page 27 shows the power consumption values of each Physical Interface Module (PIM).

  • Page 26: 1-Port Serial Mini-Physical Interface Module (Srx-Mp-1Serial-R)

    Table 12: PIM Power Consumption Values (continued) PIM Model Power Consumption (Watts) T1/E1 Mini-PIM 1.92 VDSL2 Mini-PIM 9.80 8-Port Gigabit Ethernet SFP XPIM 16-Port Gigabit Ethernet XPIM 40 (without PoE) LTE Mini-PIM Wi-Fi Mini-PIM 7.12 1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) IN THIS SECTION 1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Overview | 29...

  • Page 27: 1-Port Serial Mini-Physical Interface Module (Srx-Mp-1Serial-R) Overview

    1-Port Serial Mini-Physical Interface Module (SRX-MP-1SERIAL-R) Overview Serial WAN links are bidirectional links and require very few control signals. In a basic serial setup, the data circuit-terminating equipment (DCE) is responsible for establishing, maintaining, and terminating a connection. A modem is a typical DCE device. A serial cable connects the DCE to a telephony network where, ultimately, a link is established with data terminal equipment (DTE).

  • Page 28: 1-Port Serial Mini-Physical Interface Module (Srx-Mp-1Serial-R) Leds

    1-Port Serial Mini-Physical Interface Module Interface Cables Table 15 on page 30 lists the cables that you can order from Juniper Networks to connect to a port on the synchronous 1-Port Serial Mini-Physical Interface Module (Mini-PIM). The device to which you are connecting and the serial interface types determine which type of cable you need.

  • Page 29: Eia-530A Dce And Dte Cable Pinouts

    Table 15: Juniper Networks Serial Cables (continued) Product Number Interface Type Length Connector Type JX-CBL-RS232-DCE RS232 cable (DCE) 3.04 m (10 ft) Female JX-CBL-RS232-DTE RS232 cable (DTE) 3.04 m (10 ft) Male JX-CBL-RS449-DCE RS449 cable (DCE) 3.04 m (10 ft)
  • Page 30 Table 16: EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) LFH-60 Pin DB-25 Pin LFH-60 Pairing Description Receive Data (A) Request to Send (A) Clear to Send (A) Data Set Ready (A) Signal Ground Received Line Signal Detector (A) Receive Clock (B) Received Line Signal Detector (B) Terminal Timing (B)

  • Page 31: Eia-530A Dte Cable Pinouts For The 1-Port Serial Mini-Physical Interface Module

    Table 16: EIA-530A DCE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) LFH-60 Pin DB-25 Pin LFH-60 Pairing Description 30 to 29 EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module Table 17 on page 33 gives the EIA-530A DTE cable pinouts. Table 17: EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-PIM LFH-60 Pin DB-25 Pin...

  • Page 32: Rs-232 Dce And Dte Cable Pinouts

    Table 17: EIA-530A DTE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) LFH-60 Pin DB-25 Pin LFH-60 Pairing Description Receive Data (B) Receive Clock (A) Local Loopback Request to Send (B) Data Terminal Ready (A) Signal Ground Terminal Timing (A) 26 to 25 30 to 29 18 to 17...

  • Page 33: Rs-232 Dte Cable Pinouts For The 1-Port Serial Mini-Physical Interface Module

    Table 18: RS-232 DCE Cable Pinouts for the 1-Port Serial Mini-PIM LFH-60 Pin DB-25 Pin LFH-60 Pairing Description Frame Ground Transmit Data Receive Data Request to Send Clear to Send Data Set Ready Signal Ground Data Carrier Detect Transmit Clock Receive Clock Local Loopback Data Terminal Ready...

  • Page 34: Rs-422/449 (Eia-449) Dce And Dte Cable Pinouts

    Table 19: RS-232 DTE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) LFH-60 LFH-60 Pin DB-25 Pin Pairing Description Receive Data Request to Send Clear to Send Data Set Ready Signal Ground Data Carrier Detect Transmit Clock Receive Clock Local Loopback Data Terminal Ready Terminal Clock 22 to 21...

  • Page 35: Rs-422/449 (Eia-449) Dce Cable Pinouts For The 1-Port Serial Mini-Physical Interface Module

    RS-422/449 (EIA-449) DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module Table 20 on page 37 gives the RS-422/449 DCE cable pinouts. Table 20: RS-422/449 DCE Cable Pinouts for the 1-Port Serial Mini-PIM DC-37 (DB-37) LFH-60 Pin LFH-60 Pairing Description Shield Ground Send Data (A)

  • Page 36: Rs-422/449 (Eia-449) Dte Cable Pinouts For The 1-Port Serial Mini-Physical Interface Module

    Table 20: RS-422/449 DCE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) DC-37 (DB-37) LFH-60 Pin LFH-60 Pairing Description Receive Timing (B) Clear to Send (B) Data Mode (B) Terminal Ready (B) Receiver Ready (B) Terminal Timing (B) Send Common 26 to 25 RS-422/449 (EIA-449) DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module Table 21 on page 38...
  • Page 37 Table 21: RS-422/449 DTE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) DC-37 (DB-37) LFH-60 Pin LFH-60 Pairing Description Local Loopback Data Mode (A) Terminal Ready (A) Receive Ready (A) Terminal Timing (A) Signal Ground Receive Common Send Data (B) Send Timing (B) Receive Data (B) Request to Send (B)

  • Page 38: V.35 Dce And Dte Cable Pinouts

    V.35 DCE and DTE Cable Pinouts IN THIS SECTION V.35 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module | 40 V.35 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module | 41 V.35 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module Table 22 on page 40 gives the V.35 DCE cable pinouts.

  • Page 39: V.35 Dte Cable Pinouts For The 1-Port Serial Mini-Physical Interface Module

    Table 22: V.35 DCE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) LFH-60 Pin M/34 Pin LFH-60 Pairing Description Terminal Timing (A) Receive Timing (A) Terminal Timing (B) Receive Timing (B) Transmit Timing (A) Transmit Timing (B) 22 to 21 26 to 25 V.35 DTE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module Table 23 on page 41...

  • Page 40: X.21 Dce And Dte Cable Pinouts

    Table 23: V.35 DTE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) LFH-60 Pin M/34 Pin LFH-60 Pairing Description Transmit Data (A) Receive Data (A) Transmit Data (B) Receive Data (B) Terminal Timing (A) Receive Timing (A) Terminal Timing (B) Receive Timing (B) Transmit Timing (A) Transmit Timing (B)

  • Page 41: X.21 Dce Cable Pinouts For The 1-Port Serial Mini-Physical Interface Module

    X.21 DCE Cable Pinouts for the 1-Port Serial Mini-Physical Interface Module Table 24 on page 43 gives the X.21 DCE cable pinouts. Table 24: X.21 DCE Cable Pinouts for the 1-Port Serial Mini-PIM LFH-60 Pin DB-15 Pin LFH-60 Pairing Description Shield Ground Transmit Data (A) Control (A)

  • Page 42: 1-Port Serial Mini-Physical Interface Module (Srx-Mp-1Serial-R) Basic Configuration

    Table 25: X.21 DTE Cable Pinouts for the 1-Port Serial Mini-PIM (continued) LFH-60 Pin DB-15 Pin LFH-60 Pairing Description Transmit Data (A) Control (A) Receive (A) Indicate (A) Signal Element Timing (A) Signal Ground Transmit Data (B) Control (B) Receive (B) Indicate (B) Signal Element Timing (B) 30 to 29...

  • Page 43: Using The J-Web Interface

    To enable the 1-Port Serial Mini-Physical Interface Module (Mini-PIM) installed on the services gateway, you must configure the basic settings for the PIM. You can perform the configuration tasks for this using either the J-Web interface or the CLI. Using the J-Web Interface To perform basic configuration of the 1-Port Serial Mini-PIM and to configure network interfaces for the services gateway using the J-Web interface: 1.

  • Page 44: Using The Cli

    Using the CLI To perform basic configuration for the 1-Port Serial Mini-PIM and to configure network interfaces for the services gateway with the CLI: 1. Verify that the serial interface is installed on the device: show chassis hardware 2. Verify the status of the interface: show interfaces terse 3.

  • Page 45: 1-Port T1/E1 Mini-Physical Interface Module (Srx-Mp-1T1E1-R) Overview

    1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Network Interface Specifications | 50 Cable Specifications and Pinouts | 51 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Overview The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) provides the physical connection to T1 or E1 network media types and also performs T1 or E1 framing and line-speed signaling. Figure 5 on page 47 shows the front panel of the 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R).

  • Page 46: 1-Port T1/E1 Mini-Physical Interface Module (Srx-Mp-1T1E1-R) Hardware Specifications

    1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Hardware Specifications Table 26 on page 48 gives the physical specifications of the 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM). Table 26: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) Physical Specifications Description Value Dimensions (H x W x L) 0.80 in.

  • Page 47: 1-Port T1/E1 Mini-Physical Interface Module (Srx-Mp-1T1E1-R) Supported Loopback Diagnostics

    Table 27: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) LED States (continued) Color State Description CD (Carrier Green Indicates that the Mini-PIM link is up. Detector) Indicates that carrier detect is not active. 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Supported Loopback Diagnostics The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) has the following loopback diagnostics: Local, remote, payload Test patterns (BERT) All ones...

  • Page 48: 1-Port T1/E1 Mini-Physical Interface Module (Srx-Mp-1T1E1-R) Network Interface Specifications

    1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Network Interface Specifications The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) has the network interface specifications given in Table 28 on page Table 28: 1-Port T1/E1 Mini-PIM (SRX-MP-1T1E1-R) Network Interface Specifications Specification T1 Specification E1 Specifications Network interface specifications Transmit bit rate 1.544 Mbps...

  • Page 49: Cable Specifications And Pinouts

    Cable Specifications and Pinouts IN THIS SECTION RJ-48 Connector to RJ-48 Connector Pinouts for the 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) | 51 RJ-48 Connector to DB-15 Connector Pinouts for the 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) | 52 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) Basic Configuration | 54 RJ-48 Connector to RJ-48 Connector Pinouts for the 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) The 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM) uses an RJ-48 cable, which is not supplied...

  • Page 50: Connector To Db-15 Connector Pinouts For The 1-Port T1/E1 Mini-Physical Interface Module (Srx-Mp-1T1E1-R)

    Table 29: RJ-48 Connector to RJ-48 Connector (Straight) Pinouts (continued) RJ-48 Pin (on 1-Port T1/E1 RJ-48 Pin (Data Numbering Mini-PIM) Form) Signal No connect No connect No connect No connect Table 30 on page 52 lists the RJ-48 connector to RJ-48 connector (crossover) pinouts for the 1-Port T1/E1 Mini-Physical Interface Module (Mini-PIM).
  • Page 51 Table 31: RJ-48 Connector to DB-15 Connector (Straight) Pinouts (continued) DB-15 Pin (Data Numbering RJ-48 Pin (on T1/E1 Mini-PIM) Form) Signal RX/Tip/+ <––>RX/Tip/+ TX/Ring/– <––>TX/Ring/– TX/Tip/+ <––>TX/Tip/+ Shield/Return/Ground Shield/Return/Ground No connect No connect No connect No connect No connect No connect No connect No connect No connect...

  • Page 52: 1-Port T1/E1 Mini-Physical Interface Module (Srx-Mp-1T1E1-R) Basic Configuration

    Table 32: RJ-48 Connector to DB-15 Connector (Crossover) Pinouts (continued) RJ-48 Pin (on T1/E1 DB-15 Pin (Data Numbering Mini-PIM) Form) Signal TX/Tip/+ <––>RX/Tip/+ Shield/Return/Ground Shield/Return/Ground No connect No connect No connect No connect No connect No connect No connect No connect No connect No connect No connect...
  • Page 53 Using the J-Web Interface To perform basic configuration for the 1-Port T1/E1 Mini-Physical Interface Module (SRX-MP-1T1E1-R) and to configure network interfaces for the services gateway using the J-Web interface: 1. In the J-Web interface, select Configure>Interfaces. The Interfaces page displays and lists the network interfaces present on the services gateway, along with configuration information (if configured).
  • Page 54 1. Verify that the T1/E1 interface is installed on the device: show chassis hardware 2. Verify the status of the interface: show interfaces terse 3. Assign the port an IP address: For T1 interfaces: set interfaces t1-1/0/0 unit 0 family inet address interface address/destination prefix For E1 interfaces: set interfaces e1-1/0/0 unit 0 family inet address interface address/destination prefix 4.

  • Page 55: 1-Port Vdsl2 Annex A Mini-Physical Interface Module (Srx-Mp-1Vdsl2-R)

    1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) IN THIS SECTION 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Overview | 57 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Hardware Specifications | 58 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) LEDs | 59 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Supported Profiles | 59 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-Physical Interface Module Cable Specifications | 60 1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Basic Configuration | 61...

  • Page 56: 1-Port Vdsl2 Annex A Mini-Physical Interface Module (Srx-Mp-1Vdsl2-R) Hardware Specifications

    The following features are supported on the 1-Port VDSL2 Annex A Mini-Physical Interface Module (Mini-PIM): ADSL/ADSL2/ADSL2+ backward compatibility with Annex-A, Annex-M support Packet Mode Transfer (PTM) or Ethernet in the First Mile (EFM) (802.3ah) support Operation, Administration, and Maintenance (OAM) support for ADSL/ADSL2/ADSL2+ mode Asynchronous Transfer Mode (ATM) quality of service (QoS) (supported only when the VDSL2 Mini-PIM is operating in ADSL2 mode) Multilink Point-to-Point Protocol (MLPPP) (supported only when the VDSL2 Mini-PIM is operating in...

  • Page 57: 1-Port Vdsl2 Annex A Mini-Physical Interface Module (Srx-Mp-1Vdsl2-R) Leds

    1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) LEDs The 1-Port VDSL2 Annex A Mini-Physical Interface Module (Mini-PIM) has two LEDs. Table 34 on page 59 describes the LED states. Table 34: 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-PIM LED States Color State Description...

  • Page 58: 1-Port Vdsl2 Annex A (Srx-Mp-1Vdsl2-R) Mini-Physical Interface Module Cable Specifications

    Table 35: Supported Profiles on the 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-PIM (continued) Profiles Data Rate Auto Auto mode (default) 1-Port VDSL2 Annex A (SRX-MP-1VDSL2-R) Mini-Physical Interface Module Cable Specifications The 1-Port VDSL2 (Annex A) Mini-Physical Interface Module (Mini-PIM) requires a standard RJ-11 cable. Figure 7 on page 60 shows the RJ-11 cable design.

  • Page 59: 1-Port Vdsl2 Annex A Mini-Physical Interface Module (Srx-Mp-1Vdsl2-R) Basic Configuration

    1-Port VDSL2 Annex A Mini-Physical Interface Module (SRX-MP-1VDSL2-R) Basic Configuration IN THIS SECTION Using the J-Web Interface | 61 Using the CLI | 62 To enable the 1-Port VDSL2 Annex A Mini-Physical Interface Module (Mini-PIM) installed on the services gateway, you must configure the basic settings for the PIM. You can perform the configuration tasks for this using either the J-Web interface or the CLI.

  • Page 60: Using The Cli

    Protocols=Allow All d. Click OK to save changes, and select Commit>Commit to apply the configuration and other pending changes. 4. To use the port on the Mini-PIM, you must also set security policies. Select the following settings: a. Select Configure>Security>Security Policy b.

  • Page 61: 8-Port Gigabit Ethernet Sfp Xpim

    Maintaining the SRX Series Interface Modules | 129 8-Port Gigabit Ethernet SFP XPIM IN THIS SECTION 8-Port Gigabit Ethernet SFP XPIM Overview | 63 8-Port Gigabit Ethernet SFP XPIM Components | 64 8-Port Gigabit Ethernet SFP XPIM Hardware Specifications | 65 8-Port Gigabit Ethernet SFP XPIM LEDs | 65 8-Port Gigabit Ethernet SFP XPIM Supported Transceivers | 66 8-Port Gigabit Ethernet SFP XPIM Network Interface Specifications | 67...

  • Page 62: 8-Port Gigabit Ethernet Sfp Xpim Components

    JTAG support for boundary scan test CAUTION: If you face a problem running a Juniper Networks device that uses a third-party optic or cable, the Juniper Networks Technical Assistance Center (JTAC) can help you diagnose the source of the problem. Your JTAC engineer might recommend that you check the third-party optic or cable and potentially replace it with an equivalent Juniper Networks optic or cable that is qualified for the device.

  • Page 63: 8-Port Gigabit Ethernet Sfp Xpim Hardware Specifications

    8-Port Gigabit Ethernet SFP XPIM Hardware Specifications Table 38 on page 65 provides the physical specifications of the 8-Port Gigabit Ethernet small form-factor pluggable XPIM (SFP XPIM). Table 38: 8-Port Gigabit Ethernet SFP XPIM Physical Specifications Description Value Dimensions (H x W x L) 0.78 in.

  • Page 64: 8-Port Gigabit Ethernet Sfp Xpim Supported Transceivers

    Table 40 on page 66 lists the SFP transceivers and cables supported on the 8-port Gigabit Ethernet SFP modules for XPIMs. Table 40: 8-Port Gigabit Ethernet SFP XPIM Supported Modules Juniper Product Number Connector Type (SFP Transceiver) Cable SRX-SFP-FE-FX 100BASE-FX...

  • Page 65: 8-Port Gigabit Ethernet Sfp Xpim Network Interface Specifications

    1000BASE-BX, at 40 km (TX1550 nm / RX1310 nm) CAUTION: If you face a problem running a Juniper Networks device that uses a third-party optic or cable, the Juniper Networks Technical Assistance Center (JTAC) can help you diagnose the source of the problem. Your JTAC engineer might recommend that you check the third-party optic or cable and potentially replace it with an equivalent Juniper Networks optic or cable that is qualified for the device.
  • Page 66 Table 41: 8-Port Gigabit Ethernet SFP XPIM Network Interface Specifications (continued) Network Interface Specification Value Operating speed 10/100/1000 Mbps VLAN support 802.1Q virtual LANs Class-of-service support Supported Encapsulations DIX, LLC/SNAP, CCC, TCC, and VLAN-CCC Loopback diagnostic feature Supported Autonegotiation Supported...

  • Page 67: 8-Port Gigabit Ethernet Sfp Xpim Basic Configuration

    8-Port Gigabit Ethernet SFP XPIM Basic Configuration The 8-Port Gigabit Ethernet small form-factor pluggable Gigabit-Backplane Physical Interface Module (SFP XPIM) provides connectivity to a single Gigabit Ethernet device or to a network. After you install the XPIM in the services gateway, you configure a network interface on the XPIM. NOTE: The SRX550 High Memory Services Gateway does not support hot-swappable functionality for GPIMs.
  • Page 68 1. Verify that the 8-Port Gigabit Ethernet SFP XPIM is installed in the services gateway: user@host >show chassis hardware Hardware inventory: Item Version Part number Serial number Description Chassis DA3515AK0016 SRX550M Midplane REV 03 750-063950 ACMW7426 Routing Engine REV 03 711-062269 ACMT8374 RE-SRX550M...

  • Page 69: 16-Port Gigabit Ethernet Xpim (Poe)

    [edit] user@host# set interfaces interface-name unit 0 family inet address interface address/destination prefix 5. Add or select a security zone; for example, Trust: [edit] user@host# set security zones security-zone trust interfaces ge-0/0/x.0 host-inbound-traffic system-services all where x is less than or equal to 16 6.

  • Page 70: 16-Port Gigabit Ethernet Xpim (Poe) Overview

    16-Port Gigabit Ethernet XPIM (PoE) Overview The 16-Port Gigabit Ethernet XPIM is a double-high, single-wide LAN switch Gigabit-Backplane Physical Interface Module (GPIM) that uses two standard slots vertically. It is available with or without Power over Ethernet (PoE) support. The SRX550 High Memory Services Gateway supports the PoE model. The PoE GPIMs provide ports that supply electric power over the same ports that are used to connect network devices.

  • Page 71: 16-Port Gigabit Ethernet Xpim (Poe) Components

    Maximum module power of 40 W without PoE JTAG support for boundary scan test 16-Port Gigabit Ethernet XPIM (PoE) Components The 16-Port Gigabit Ethernet XPIM contains the components listed in Table 42 on page Table 42: 16-Port Gigabit Ethernet XPIM Components Component Location Description...

  • Page 72: 16-Port Gigabit Ethernet Xpim (Poe) Leds

    Table 43: 16-Port Gigabit Ethernet XPIM Hardware Specifications (continued) Description Value Connector type 16 RJ-45 Form factor Double-high, single-wide XPIM Environmental operating temperature 32° F through 104° F (0° C through 40° C) Storage temperature -40° F through 158° F (-40° C through 70° C) Relative humidity 5% to 90% noncondensing 16-Port Gigabit Ethernet XPIM (PoE) LEDs...

  • Page 73: 16-Port Gigabit Ethernet Xpim Basic Configuration

    Firmware Upgrade on the LTE Mini-Physical Interface Module | 86 LTE Mini-Physical Interface Module The LTE Mini-Physical Interface Module (Mini-PIM) provides wireless WAN support on the SRX300 Series and SRX550 High Memory Services Gateways. The Mini-PIM contains an integrated modem and operates over 3G and 4G networks.
  • Page 74 SIM lock and unlock capability Always-on, dial-on-demand, and backup modes Over-the-Air upgrade for modem firmware Figure 10 on page 76 shows the front panel of the LTE Mini-PIM. Figure 10: LTE Mini-PIM Front Panel Table 45 on page 76 lists the components on the front panel of the Mini-PIM. Table 45: LTE Mini-PIM Front Panel Components Component Description...
  • Page 75 Table 46: Specifications for the LTE Mini-PIM Antenna (continued) Specification Value Voltage Standing Wave Ratio (VSWR) 5 (maximum) Impedance 50 ohm Radiation Omnidirectional Peak gain 2.45 dBi (704~960 MHz) 4.51 dBi (1710~2700 MHz) Input power Polarization Linear, vertical Operating temperature –4°...
  • Page 76 Table 48: LTE Mini-PIM Models Model Mode Operating Region Frequency Band SRX-MP-LTE-AE North America For LTE: HSPA+ European Union Bands 1 through 5, 7, 8, 12, 13, 20, 25, 26, 29, 30, and 41 For 3G (HSPA+): Bands 1 through 5, and 8 SRX-MP-LTE-AA Asia For LTE:...

  • Page 77: Lte Mini-Physical Interface Module Leds

    LTE Mini-Physical Interface Module LEDs Figure 11 on page 79 shows the LEDs on the LTE Mini-PIM. Figure 11: LTE Mini-PIM LEDs Table 49 on page 79 lists the LEDs on the LTE Mini-PIM and their indications. Table 49: LTE Mini-PIM LED States Description SIG (Received Signal Strength Indicator) Solid green (one bar)—Low signal strength (<= –99 dBm).

  • Page 78: Lte Mini-Physical Interface Module Hardware Specifications

    NOTE: If all the LEDs are blinking, it indicates that firmware updates are in progress. Do not power off the services gateway before the updates complete. LTE Mini-Physical Interface Module Hardware Specifications Table 50 on page 80 provides the hardware specifications for the LTE Mini-PIM. Table 50: LTE Mini-PIM Hardware Specifications Description Value...

  • Page 79: Installing The Lte Mini-Pim

    Installing the LTE Mini-PIM The LTE Mini-PIM can be installed in any of the Mini-PIM slots on the services gateway. NOTE: You can install only one LTE Mini-PIM in a services gateway. To install the LTE Mini-PIM in a services gateway: 1.
  • Page 80 7. Using a 1/8-in. (3-mm) flat-blade (–) screwdriver, tighten the screws on each side of the Mini-PIM faceplate. 8. Remove the cover from the SIM slot, SIM 1. Insert the SIM card into the SIM slot. You can use the other slot, SIM 2, for installing a secondary or backup SIM.
  • Page 81 Figure 14: Mounting the Antennas on a Rack...
  • Page 82 NOTE: For SRX320 Services Gateways, which can be mounted on a wall, the antennas can be mounted as shown in Figure 15 on page Figure 15: Mounting the Antennas on a Wall > 11 in. (27 .9 cm) 11. Power on the services gateway.

  • Page 83: Configuring The Lte Mini-Pim

    Configuring the LTE Mini-PIM NOTE: If a services gateway with factory-default settings is powered on with the LTE Mini-PIM installed in slot 1, the dialer interface is triggered to dial automatically. This functionality is applicable only if the Mini-PIM is installed in slot 1. If the Mini-PIM is installed in any other slot, then you will need to manually configure the cl-slot-number/0/0 interface to be associated with the dialer interface.

  • Page 84: Firmware Upgrade On The Lte Mini-Physical Interface Module

    user@host# set interfaces dl0 unit 0 dialer-options always-on Dial-on-demand mode: user@host# set interfaces dl0 unit 0 family inet negotiate-address user@host# set interfaces dl0 unit 0 family inet6 negotiate-address user@host# set interfaces dl0 unit 0 family inet filter dialer dialer-filter-name user@host# set interfaces dl0 unit 0 dialer-options pool dialer-pool-number user@host# set interfaces dl0 unit 0 dialer-options dial-string dial-number Backup mode: user@host# set interfaces dl0 unit 0 family inet negotiate-address...
  • Page 85 If the Available Version field in the output lists the firmware version, proceed to Step 4. 2. Download the appropriate jfirmware version from https://www.juniper.net/support/downloads/?p=junos-srx#sw: NOTE: Ensure that the Junos OS version installed on the device is the same as the jfirmware version or higher.

  • Page 86: Modem Firmware Upgrade Through Over-The-Air (Ota)

    a. Take the FPC offline: user@host > request chassis pic pic-slot <pic-slot-number> fpc-slot <fpc-slot-number> offline b. Verify that the FPC is offline: user@host > show chassis fpc pic-status <fpc-slot-number> Slot 0 Online PIC 0 Online 6xGE,2xGE SFP Base PIC Slot 1 Offline c.
  • Page 87 root> show modem wireless firmware cl-1/0/0 LTE mPIM firmware details Product name: Junos LTE mPIM Serial number: AG50071902 Hardware version: AcceleratedConcepts/sprite Firmware version: 17.2.91 MAC: 00:00:5e:00:53:c5 System uptime: 429 seconds Wireless modem firmware details Modem firmware version: 9999999_9904609_SWI9X30C_02.23.00.00_00_GENERIC_002.018_000 Modem Firmware build date: 22/10/2016 Card type: MC7430 Modem manufacturer: Sierra Wireless, Inc Hardware version: 1.0...

  • Page 88: Wi-Fi Mini-Physical Interface Module

    Wireless Modem Network Info Current Modem Status: Connected Current Service Status: Normal Current Service Type: PS Current Service Mode: LTE Current Band: B3 Network: UNICOM Mobile Country Code (MCC): 460 Mobile Network Code (MNC): 1 Location Area Code (LAC): 65534 Routing Area Code (RAC): 0 Cell Identification: 4865903 Access Point Name (APN): ctnet...

  • Page 89: Wi-Fi Mini-Physical Interface Module Overview

    Wi-Fi Mini-Physical Interface Module Overview The Wi-Fi Mini-Physical Interface Module (Mini-PIM) for branch SRX Series Services Gateways provides a branch-in-a-box solution (which includes an SRX Series device, LTE, and wi-fi) for retail and small office deployments. The Mini-PIM has an embedded enterprise-class wireless system-on-chip (SOC) that supports the 802.11ac Wave 2 wireless standards.

  • Page 90: Wi-Fi Mini-Pim Models

    Figure 16: Wi-Fi Mini-PIM Front Panel Table 51 on page 92 lists the components on the front panel. Table 51: Wi-Fi Mini-PIM Front Panel Components Sl. No. Component Description 1, 4 Antenna connectors Two Reverse Polarity SubMiniature version A (RP-SMA) connectors Console Mini-USB Type-B port for debugging purposes LEDs...

  • Page 91: Physical Interface

    Table 52: Wi-Fi Mini-PIM Models (continued) Model or SKU Supported Region Notes SRX-MP-WLAN-IL Israel This model is based on the wireless standards supported in Israel. The country code is fixed and cannot be changed. SRX-MP-WLAN-WW Other countries You can set the country code using the set wlan access-point ap-name access-point-options country country code command.

  • Page 92: Antenna Specifications

    Antenna Specifications The Mini-PIM supports two multi-band swivel-mount dipole antennas, which can be rotated 360 degrees. You can rotate the antennas and select the angle at which the signal strength is high. Table 54 on page 94 lists the specifications for the antenna. Table 54: Specifications for the Wi-Fi Mini-PIM Antenna Specification Value...
  • Page 93 The default channel bandwidth is 20 MHz for the 2.4 GHz radio and 40 MHz for the 5 GHz radio. Setting the bandwidth to 40 MHz or 80 MHz reduces the number of available channels for use. Table 55 on page 95 lists the channels supported on the 2.4 GHz radio.
  • Page 94 Table 56: Channels Supported on the 5 GHz Radio (20 MHz Bandwidth) Band Channel Number Center Frequency MHz 5150~5250 5180 5200 5220 5240 5250~5350 5260 5280 5300 5320...
  • Page 95 Table 56: Channels Supported on the 5 GHz Radio (20 MHz Bandwidth) (continued) Band Channel Number Center Frequency MHz 5470~5725 5500 5520 5540 5560 5580 5600 5620 5640 5660 5680 5700 5725~5850 5720 5745 5765 5785 5805 5825 Table 57: Channels Supported on the 5 GHz Radio (40 MHz Bandwidth) Band Channel Number Center Frequency MHz...

  • Page 96: Dynamic Frequency Selection

    Table 57: Channels Supported on the 5 GHz Radio (40 MHz Bandwidth) (continued) Band Channel Number Center Frequency MHz 5250~5350 MHz 5270 5310 5470~5725 MHz 5510 5550 5590 5630 5670 5725~5850 MHz 5710 5755 5795 Table 58: Channels Supported on the 5 GHz Radio (80 MHz Bandwidth) Band Channel Number Center Frequency MHz...

  • Page 97: Country Codes And Regulatory Domains

    on a channel, the access point selects a radar-free channel and performs a 60-second availability check before operating on that channel. DFS is enabled by default. You can disable DFS by using the dfs-off option: set wlan access-point ap-name radio 1 radio-options dfs-off NOTE: Only the 5 GHz radio (radio 1) supports DFS.
  • Page 98 Table 59: Country Codes and Regulatory Domains Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) Australia SRX-MP-WLAN-WW FCC6 36, 40, 38, 46, 42, 58, WORLD 1 to 13 1 to 13 (AU) 44, 48,...
  • Page 99 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) Canada (CA) SRX-MP-WLAN-WW FCC6 36, 40, 38, 46, 42, 58, FCCA 1 to 11 1 to 11 44, 48, 54, 62,...
  • Page 100 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) European SRX-MP-WLAN-WW ETSI11 36, 40, 38, 46, 42, 58, WORLD 1 to 13 1 to 13 Union 44, 48,...
  • Page 101 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) Indonesia SRX-MP-WLAN-WW APL2 149, 151, ETSIC 1 to 13 1 to 13 (ID) 153, 157,...
  • Page 102 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) Malaysia SRX-MP-WLAN-WW FCC11 36, 40, 38, 46, 42, 58, WORLD 1 to 13 1 to 13 (MY) 44, 48,...
  • Page 103 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) Mexico SRX-MP-WLAN-WW FCC3 36, 40, 38, 46, 42, 58, ETSIC 1 to 13 1 to 13 (MX) 44, 48,...
  • Page 104 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) SRX-MP-WLAN-WW FCC3 36, 40, 38, 46, 42, 58, ETSIC 1 to 13 1 to 13 Zealand 44, 48,...
  • Page 105 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) South Korea SRX-MP-WLAN-WW APL9 36, 40, 38, 46, 42, 58, WORLD 1 to 13 1 to 13 (KR) 44, 48,...
  • Page 106 Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) United SRX-MP-WLAN-US FCC8 36, 40, 38, 46, 42, 58, FCCA 1 to 11 1 to 11 States (US) 44, 48,...

  • Page 107: Rf Specifications For The Wi-Fi Mini-Pim

    Table 59: Country Codes and Regulatory Domains (continued) Country Country Code Model Radio 1 (5 GHz) Radio 2 (2.4 GHz) Regulatory Regulatory Domain Domain (5 GHz) (2.4 GHz) Vietnam SRX-MP-WLAN-WW FCC3 36, 40, 38, 46, 42, 58, WORLD 1 to 13 1 to 13 (VN) 44, 48,...
  • Page 108 Table 60: RF Specifications for the Wi-Fi Mini-PIM Receive Sensitivity (+/-2 Target Power (+/-2 Operating Mode Data Rate dBm) Per Chain dBm) Per Chain 802.11ac (VHT20) MCS0 16.5 MCS8 11.5 802.11ac (VHT40) MCS0 MCS9 802.11ac (VHT80) MCS0 15.5 MCS9 10.5 802.11a 6 Mbps 16.5...

  • Page 109: Installing The Wi-Fi Mini-Pim In An Srx Series Services Gateway

    SEE ALSO Installing the Wi-Fi Mini-PIM in an SRX Series Services Gateway You can install the Mini-PIM in any of the Mini-PIM slots on the services gateway. NOTE: You can install only one Wi-Fi Mini-PIM in a services gateway. To install the Mini-PIM in a services gateway: 1.
  • Page 110 Figure 18: Attaching the Antennas (Direct Mounting) Using an external antenna base—Attach the antennas to the antenna base. Connect the cables from each antenna base to the RP-SMA connectors on the front panel (see Figure 14 on page 83). Figure 19: Attaching the Antennas Using an Antenna Base (Rack Mounting) For SRX320 Services Gateways, which can be mounted on a wall, you can mount the antennas on a wall as shown in Figure 15 on page...

  • Page 111: Configuring The Wi-Fi Mini-Pim On An Srx Series Services Gateway

    Figure 20: Attaching the Antennas Using an Antenna Base (Wall Mounting) > 11 in. (27.9 cm) 5. Power on the services gateway. SEE ALSO Configuring the Wi-Fi Mini-PIM on an SRX Series Services Gateway IN THIS SECTION Wi-FI Mini-PIM Configuration Overview | 114 Radio Configuration Overview | 114...

  • Page 112: Wi-Fi Mini-Pim Configuration Overview

    Virtual Access Point Configuration Overview | 115 Configure the Wi-Fi Mini-PIM | 117 Wi-FI Mini-PIM Configuration Overview Before you configure the Mini-PIM, configure the network settings on the SRX Series device and connect the device to your network. For details, see the Hardware Guide for your SRX Series device. Configure the following settings for the access point: Name for the access point Interface—The interface name for the AP is denoted as wl-x/0/0, where x is the slot on the services...

  • Page 113: Virtual Access Point Configuration Overview

    Table 61: Supported Modes on the Wi-Fi Mini-PIM radios Radio Supported Modes Radio 1 (5.0 GHz) an—802.11a and 802.11n clients operating on 5 GHz frequency can connect to the access point acn—802.11a, 802.11n and 802.11ac clients operating on 5 GHz frequency can connect to the access point Radio 2 (2.4 GHz) gn—802.11g, and 802.11n clients operating in 2.4 GHz frequency can connect to the...
  • Page 114 The maximum number of clients that can connect to the VAP The value can be in the range of 1 through 127. Security for the access point The access point supports several types of authentication methods that are used by clients to connect to the access point.

  • Page 115: Configure The Wi-Fi Mini-Pim

    Configure the Wi-Fi Mini-PIM To configure the Wi-Fi Mini-PIM: 1. Configure the Wi-Fi interface: a. Configure an IP address for the Wi-Fi interface: user@host# set interfaces wl-x/0/0 unit 0 family inet address ip-address b. Configure the address pool. The DHCP address pool and the Wi-FI interface must be in the same network.
  • Page 116 user@host# commit 3. Configure the radio settings. Note that radio 1 operates at 5 GHz and radio 2 operates at 2.4 GHz. NOTE: Changing the radio settings can cause the access point to stop and restart system processes. If this occurs, wireless clients that are connected to the access point will temporarily lose connectivity.
  • Page 117 wpa-enterprise—The device authenticates through an 802.1X-compliant RADIUS server. user@host# set wlan access-point name radio [1|2] virtual-access-point id security wpa-enterprise cipher-suites ccmp user@host# set wlan access-point name radio [1|2] virtual-access-point id security wpa-enterprise radius-server ip-address user@host# set wlan access-point name radio [1|2] virtual-access-point id security wpa-enterprise radius-port port user@host# set wlan access-point name radio [1|2] virtual-access-point id security wpa-enterprise radius-key secret-key...

  • Page 118: Verify The Status Of The Wi-Fi Mini-Pim

    Verify the Status of the Wi-Fi Mini-PIM Table 62 on page 120 lists the commands that you can use to verify and monitor the status of the Wi-Fi Mini-PIM: Table 62: Commands to Verify and Monitor the Status of the Wi-Fi Mini-PIM Command Purpose show wlan access-points ap-name...
  • Page 119 Table 62: Commands to Verify and Monitor the Status of the Wi-Fi Mini-PIM (continued) Command Purpose show wlan access-points Displays the details of all the access points configured on the Mini-PIM. Sample: Active access points information Access-Point Type Interface Radio-mode/Channel/Bandwidth wap3 wl-2/0/0 acn/120/40, gn/11/20...

  • Page 120: Upgrading The Firmware On The Wi-Fi Mini-Pim

    Table 62: Commands to Verify and Monitor the Status of the Wi-Fi Mini-PIM (continued) Command Purpose VAP2: SSID : 5g_vap2 MAC Address : 00:00:5e:00:53:12 Maximum Station : 100 Broadcast SSID : Enable Station Isolation : Disable Upload Limit : Disable Download Limit : Disable VLAN ID...
  • Page 121 The Current version field in the output displays the firmware version that is currently installed on the Mini-PIM. If there is a newer version of the firmware at https://www.juniper.net/support/downloads/?p=junos-srx#sw, then proceed to the next step to download the latest firmware.
  • Page 122 Routing Engine 0 RE BIOS Routing Engine 0 RE BIOS Backup 4. Upgrade the firmware on the device: user@host > request system firmware upgrade pic fpc-slot <fpc-slot-number> Part Type Tag Current Available Status version version FPC 2 PIC 0 MWAP_FW 1.1.8 1.2.1 Perform indicated firmware upgrade ? [yes,no] (no) yes...
  • Page 123 Part Type Tag Current Available Status version version FPC 2 PIC 0 MWAP_FW 1.1.8 1.2.1 PROGRAMMING (100%) Routing Engine 0 RE BIOS Routing Engine 0 RE BIOS Backup user@host > show system firmware Part Type Tag Current Available Status version version FPC 2 PIC 0...

  • Page 124: Maintaining Interface Modules

    C HAPTER Maintaining Interface Modules Maintaining the SRX Series Interface Modules | 129...

  • Page 126: Maintaining The Srx Series Interface Modules

    IN THIS SECTION Required Tools and Parts for Replacing Interface Modules | 129 Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550 High Memory Services Gateway | 130 Replacing Mini-Physical Interface Modules on the SRX300 Series and SRX550 High Memory Services...
  • Page 127 Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550 High Memory Services Gateway Many services gateway hardware components are sensitive to damage from static electricity. Some components can be impaired by voltages as low as 30 V. You can easily generate potentially damaging static voltages whenever you handle plastic or foam packing material or if you move components across plastic or carpets.

  • Page 128: Preventing Electrostatic Discharge Damage To The Srx300 Series And Srx550 High Memory Services Gateway

    Replacing Mini-Physical Interface Modules on the SRX300 Series and SRX550 High Memory Services Gateways IN THIS SECTION Removing a Mini-Physical Interface Module | 131 Installing a Mini-Physical Interface Module | 132 Removing a Blank Mini-Physical Interface Module Faceplate | 133 Installing a Blank Mini-Physical Interface Module Faceplate | 133 Before you begin, power off the services gateway.
  • Page 129 4. Label the cables connected to the Mini-PIM so that you can later reconnect each cable to the correct Mini-PIM. 5. Disconnect the cables from the Mini-PIM. 6. If necessary, arrange the cables to prevent them from dislodging or developing stress points. 7.

  • Page 130: Installing A Mini-Physical Interface Module

    6. Using a 1/8-in. (3-mm) flat-blade (–) screwdriver, tighten the screws on each side of the Mini-PIM faceplate. 7. Insert the appropriate cables into the cable connectors on the Mini-PIM. 8. If necessary, arrange the cables to prevent them from dislodging or developing stress points: Secure the cables so that they are not supporting their own weight as they hang to the floor.

  • Page 131: Removing A Blank Mini-Physical Interface Module Faceplate

    ESD points on the chassis. For more information about ESD, see “Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550 High Memory Services Gateway” on page 130. 2. Push the OFFLINE button to turn the GPIM offline. After the STATUS LED light turns off, it is safe to remove the GPIM.

  • Page 132: Removing A Gigabit-Backplane Physical Interface Module

    Table 63: LED Indications for Hot-Swappable GPIM Components Number Component Description STATUS LED The STATUS LED has the following indicators: Solid green indicates that the GPIM is functioning normally. Solid yellow indicates that the GPIM is starting up, running diagnostics, or going offline. Solid red indicates that the GPIM has failed.

  • Page 133: Installing A Gigabit-Backplane Physical Interface Module

    ESD points on the chassis. For more information about ESD, see “Preventing Electrostatic Discharge Damage to the SRX300 Series and SRX550 High Memory Services Gateway” on page 130. 2. Grasp the handles on each side of the GPIM faceplate, and align the edges of the GPIM circuit board with the guide rails at each side of the GPIM slot.

  • Page 134: Removing A Blank Gigabit-Backplane Physical Interface Module Faceplate

    Table 64: Hot-Swappable Component Descriptions for GPIMs Number Component Description STATUS LED The STATUS LED has the following indicator s: Steady green indicates that the GPIM is functioning normally. Steady yellow indicates that the GPIM is starting up, running diagnostics, or going offline. Steady red indicates that the GPIM has failed.
  • Page 135 2. Using a Phillips (+) screwdriver, tighten the captive screws on each side of the blank faceplate until the faceplate is flush with the chassis.

  • Page 136: Contacting Customer Support And Returning The Module

    C HAPTER Contacting Customer Support and Returning the Module Returning the SRX Series Modules | 141...

  • Page 138: Returning The Srx Series Modules

    Contacting Customer Support Once you have located the serial numbers of the device or component, you can return the device or component for repair or replacement. For this, you need to contact Juniper Networks Technical Assistance Center (JTAC). You can contact JTAC 24 hours a day, 7 days a week, using any of the following methods: On the Web: Using the Service Request Manager link at https://support.juniper.net/support/...

  • Page 139: Contacting Customer Support

    144 NOTE: Do not return the services gateway or any component to Juniper Networks unless you have first obtained an RMA number. Juniper Networks reserves the right to refuse shipments that do not have an RMA. Refused shipments are returned to the customer via collect freight.

  • Page 140: Return Procedure For Srx Series Services Gateway Hardware Components

    Locating the SRX Series Services Gateway Hardware Component Mini-PIM or GPIM Serial Number Label IN THIS SECTION SRX Series Services Gateway Mini-PIM Serial Number Label | 143 SRX Series Services Gateway GPIM Serial Number Label | 143 This topic includes the following sections: SRX Series Services Gateway Mini-PIM Serial Number Label Mini-Physical Interface Modules (Mini-PIMs) are field-replaceable on the SRX Series Services Gateway.

  • Page 141: Locating The Srx Series Services Gateway Hardware Component Mini-Pim Or Gpim Serial Number Label

    Required Tools and Parts for Packing the SRX Series Services Gateway Hardware Components The following tools and parts are required to pack the SRX Series Services Gateway Hardware Components: Blank panel to cover empty Mini-PIM slot Electrostatic bag or antistatic mat, for each component Electrostatic discharge (ESD) grounding wrist strap Flat-blade screwdriver, approximately 1/4 in (6 mm) Phillips (+) screwdrivers, numbers 1 and 2...
  • Page 142 CAUTION: Do not stack any of the services gateway components during packing.

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