Table of Contents

Chapter 1 Product Overview.. 1-1

1.1 Preface. 1-1

1.2 General Architecture. 1-2

1.2.1 Chassis and Slots. 1-3

1.2.2 Backplane. 1-6

1.2.3 System Power Supply. 1-7

1.2.4 PoE Power Supply. 1-9

1.2.5 Fan Tray. 1-11

1.2.6 SRPU Module. 1-11

1.2.7 LPU Modules. 1-29

1.2.8 Service Processor Cards. 1-30

1.2.9 System Specifications. 1-32

 

Chapter 1  Product Overview

1.1  Preface

H3C S9500 Series Routing Switches (hereinafter referred to as S9500 series) are orientated to operate at the convergence layer of a large MAN, or at the core layer of a small MAN, or at the backbone of a large enterprise network or a campus network. They serve as the Layer 3 devices in the switching center and convergence center. S9500 series provide 10GE ports, redundant power systems and redundant SRPU modules, to address multiservice, high-reliability and large-capacity needs from high-end users.

The S9500 series currently include three models:

l           S9502: This model provides up to 240 Gbps switching capacity. It allows (for example) the concurrent wire-speed forwarding on 144 GE ports, 8 x 10GE ports, 144 FE electrical ports, or 60 FE optical ports.

Figure 1-1 H3C S9502

l           S9505: provides up to 300 Gbps switching capacity and allows the concurrent wirespeed forwarding on 240 GE ports, or 20   10GE ports, or 240 FE electrical ports, or 100 FE optical ports.

Figure 1-2 H3C S9505

l           S9508: provides up to 480 Gbps switching capacity and allows the concurrent wirespeed forwarding on 384 GE ports, or 32   10GE ports, or 384 FE electrical ports, or 160 FE optical ports.

Figure 1-3 H3C S9508

l           S9512: provides up to 720 Gbps switching capacity and allows the concurrent wirespeed forwarding on 576 GE ports, or 48   10GE ports, or 576 FE electrical ports, or 240 FE optical ports.

Figure 1-4 H3C S9512

1.2  General Architecture

The S9500 series use integrated chassis, which can be subdivided into power supply area, board area, backplane and fan area.

1.2.1  Chassis and Slots

I. For S9502

Figure 1-5 S9502 slots

l           The S9502 chassis provides four slots in its board area: from up to down, the first one accommodates an SRPU (switching and routing processor unit), the second one accommodates an SRPU or an LPU (line processor unit), and the remaining two slots accommodate LPU/SPC (service processor card) modules, which you can select from various available LPUs and SPCs. If an SRPU is contained in the second slot, the two SRPUs in the first and the second slots can operate in 1+1 redundancy mode. All modules in this area are hot-swappable.

l           At the bottom of the chassis is the power area that contains two PSUs (power supply units). The two PSUs are online-swappable; they can operate in 1+1 redundancy mode. The switch supports both AC and DC power inputs. So you can select AC/DC PSUs as needed. The S9502 supports PoE, and uses a PoE filter at the rear of the chassis to import power from an external PoE power supply.

l           On the right of the chassis is the fan area that contains a vertical hot-swappable fan tray. The fan tray draws and exhausts air from left to right.

 

 

II. For S9505

Figure 1-6 S9505 slots

All modules in the cabinet are hot-swappable.

l           The S9505 chassis provides seven slots: The top two accommodate SRPU modules, which are in 1+1 redundancy; the remaining five accommodate LPU modules and service processor cards, which can be hybrid.

l           At the bottom of the chassis is the power supply area that contains one PoE entry area, two power supply units (PSU) that are online-swappable (which means you can use one PSU to supply power to the whole switch while changing the other PSU). The switch can be either AC-powered or DC-powered.

l           On the right of the chassis is the fan area that contains only one vertical fan tray. The fan tray draws air from the left and exhausts on the right.

 

 

III. For S9508

Figure 1-7 S9508 slots

All modules in the cabinet are hot-swappable.

l           The S9508 chassis provides ten slots: The middle two accommodate SRPU modules, which are in 1+1 redundancy; the remaining eight accommodate LPU modules and service processor cards, which can be hybrid.

l           At the bottom of the chassis is the power supply area that contains the PoE entry area, two PSUs that are online-swappable. The switch can be either AC-powered or DC-powered.

l           On the right of the chassis is the fan area that contains only one vertical fan tray. The fan tray draws air from the left and exhausts on the right.

IV. For S9512

Figure 1-8 S9512 slots

All modules in the cabinet are hot-swappable.

l           The S9512 chassis provides 14 slots: The two in the middle accommodate SRPU modules, which are in 1+1 redundancy; the remaining 12 accommodate LPU modules and service processor cards, which can be hybrid.

l           At the bottom of the chassis is the power supply area that contains the PoE entry area and two PSUs that are online-swappable. The switch can be either AC-powered or DC-powered.

l           On the right of the chassis is the fan area that contains two vertical fan trays. The fan trays draw air from the left and exhausts on the right.

1.2.2  Backplane

The backplane of the S9500 series allows high-speed data exchange between an SRPU module and LPU modules, as well as the exchange of various management and control signals in the system.

I. Functions

The backplane mainly functions in

l           Providing communication channels for signal exchange between boards

l           Providing support for hot-swapping of boards

l           Auto-identifying the slots

l           Connecting PSUs, achieving distributed power supply for SRPU modules, LPU modules and PSUs and providing corresponding control channels.

II. Structure

l           S9502

It uses a passive backplane, which provides two LPU slots and two SRPU slots or provides three LPU slots and one SRPU slot, one port for fan tray, and two -48V ports (one for system power input and one for PoE entry).

l           For S9505

It uses a passive backplane, which provides five LPU slots and two SRP slots, one port for fan tray and two –48V ports (one for system power input and one for PoE entry).

l           For S9508

It uses a passive backplane, which provides eight LPU slots and two SRP slots, one port for fan tray and two –48V ports (one for system power input and one for PoE entry).

l           For S9512

It uses a passive backplane, which provides 12 LPU slots and two SRP slots, one port for fan tray and two –48V ports (one for system power input and one for PoE entry).

1.2.3  System Power Supply

 

 

The S9500 series can be AC-powered or DC-powered. The power supply is at the bottom of the chassis, with a height of 3U (except S9502 switches). You can insert both AC and DC power supply modules in the same slot based on your needs. The power frame is in different compartment from the functional board frame and connected to the latter with cables, which are routed on the chassis back. The power supply is cooled by built-in fans of the PSU, which draw air into the chassis from the front and exhaust out of the back.

I. Power supply specifications

l           AC-input PSU

Table 1-1 Specifications for the AC-input PSU

Item	Specifications
	S9502	S9505	S9508	S9512
Rated voltage range	100 VAC to 240 VAC, 50/60 Hz	100 VAC to 240 VAC, 50 Hz	100 VAC to 120 VAC, 50 Hz 200 VAC to 240 VAC, 50 Hz	100 to 120 VAC, 50 Hz 200 to 240 VAC, 50 Hz
Max voltage range	90 VAC to 264 VAC, 50/60Hz	90 VAC to 264 VAC, 47 Hz to 63 Hz	90 VAC to 264 VAC, 47 Hz to 63 Hz	90 VAC to 264 VAC, 47 Hz to 63 Hz
Max input current	7.5 A	15 A	15 A	15 A
Max output power	600 W	1200 W	1200 W (90 V to 160 V) 2000 W (160 V to 264 V)	1200 W (90 V to 160 V) 2000 W (160 V to 264 V)

 

l           DC-input PSU

Table 1-2 Specifications for the DC-input PSU

Item	Specifications
	S9502	S9505	S9508	S9512
Rated voltage range	–60 VDC to –48 VDC	–48 VDC	–48 VDC	–48 VDC	–48 VDC
Max voltage range	–72 VDC to –36 VDC	–72 VDC to –36 VDC	–72 VDC to –36 VDC	–72 VDC to –36 VDC	–72 VDC to –36 VDC
Max input current	12.5 A	25 A	42 A	42 A	25 A
Max output power	600 W	1200 W	2000 W	2000 W	1200 W

 

1.2.4  PoE Power Supply

The S9500 series support power over Ethernet (PoE). With this feature, a S9500 series switch equipped with external power supply and PoE-capable cards can deliver 48 VDC to remotely powered devices (PDs, such as IP Phones, WLAN APs and Network Cameras) through twisted pairs.

l           The S9500 series can supply power to remote PDs through the Ethernet electrical ports on the LPUs. Each LPU can simultaneously supply power to up to 48 PDs at a distance of up to 100 m (328.1 feet) away.

l           Each Ethernet port can deliver up to 15.4 W to its PD.

l           Totally, an S9500 series switch can deliver up to 4500 W (220 V)/2250 W (110 V) power to its PDs. It determines whether to deliver power to the newly detected PD depending on the power it currently supplied.

I. PoE entry area

On the S9500 series, the PoE entry area is between the two power supply modules. The PoE entry module is connected with the wiring screw post of the power frame when supported.

II. External PoE power frame

The following two types of PoE external power supplies are available for the S9500 series:

l           PSE4500-A: adopted by S9505/S9508/S9512 switches

l           PSE2500-A1: adopted by S9502 switches

Currently the S9500 series support the PoE power system with three AC inputs and one DC output. The PoE power frame with three AC inputs is shown Figure 1-9:

Figure 1-9 Three-input PoE power frame

 

 

Table 1-3 describes the technical specifications of the external PoE power system.

Table 1-3 Technical specifications of the PoE power system

Item	Description
Dimensions (H   W   D)	177   486   320.5 mm (7.0   19.1   12.6 in.)
System controller	One
Rectifier	Two NP2500UAC (required) + one redundant NP2500UAC (optional)
AC distribution assembly	Three AC inputs with one manual switch for each Three-phase AC voltage detection circuit Input voltage range: 90 VAC to 290 VAC; rated voltage and current: 250 VAC/20A
DC distribution assembly	A single DC output, with max output current of 93A
Max. power consumption	4500 W

 

PoE power system functions in monitoring and provides an RS232 and two RS485 monitoring interfaces. The system monitor sends the running information of the system module to SRP through RS232 or RS485 interfaces and displays the alarm by ALM LED. You can connect cables to the interface from the front or rear of the frame.

Table 1-4 LEDs of PoE power system

LED	Color	Normal status	Abnormal status	Causes
AC	Green	ON	OFF	There is no AC input or the fuse is broken.
DC	Green	ON	OFF	There is no DC output.
Fault	Red	OFF	ON	The fault in the module is irretrievable.
RUN	Green	ON	OFF	The power module is not running or is failed.
ALM	Red	OFF	ON	There is under- and over-voltage, even no AC power input, or faulty module.

 

1.2.5  Fan Tray

The S9502 uses eight DC fan units (70   70   25.4 mm or 2.8   2.8   1.0 in) in a fan tray (36 W, and there is only one fan tray in the chassis). The fans operate on 12 VDC supplied from the fan monitor board.

The S9505 uses four DC fan units (120   120   25.4 mm or 4.7   4.7   1.0 in) in a fan tray (25 W).The fans can be governed in two modes: SRPU-controlled or temperature-controlled. They operate on –48 VDC supplied from the backplane.

The fan subsystem of the S9508 and S9512 is the same as that of the S9505, except that the S9508 uses six DC fan units in one fan tray (35 W) and the S9512 uses eight DC fan units in two fan trays (25 W for each frame, four units in each).

Figure 1-10 Panel of the fan tray for the S9500 series

Table 1-5 LEDs on the faceplate of the fan tray

LED	Color	Status
RUN	OFF	The fan tray is faulty.
	Green	The fan tray is running normally.
ALM	OFF	The fan tray is running normally.
	Red	The fan tray is faulty.

 

1.2.6  SRPU Module

The SRPU module is the core of the switch, and mainly functions in

l           Route calculating and forwarding table maintenance.

l           Integrating Crossbar switching fabric to exchange the service between different boards.

l           Providing system configuration and monitoring functions, which allows the system to upgrade and reset service board software.

The S9500 series support these types of SRPU modules:

l           S9502: SRP1M1

l           S9505: SRP1N6,SRP1N7

l           S9508: SRP1N5,SRP1N7

l           S9512: SRP1N4,SRP1N7

I. SRP1N4 module

1)         Specifications

The S9512 uses SRP1N4 modules. The following table summarizes the module specifications.

Table 1-6 SRP1N4 module specifications

Attribute	SRP1N4
CPU	MPC755
Boot ROM	512 KB
SDRAM	512 MB (expandable to 1 GB)
Dimensions (L   W)	366.7   340 mm (14.4   13.4 in.)
Port	One Console port, for local configuration management One AUX port, for remote dialup configuration management One 10Base-T/100Base-TX port for system management and program upgrade One RS232/485 port, for connecting external PoE power frame when supported One hot-swappable CF port
Max. power consumption	60 W

 

2)         SRP1N4 panel

The SRP1N4 module provides CF port, CF LED (CFS), 10Base-T/100Base-TX port, RS232/485 port, Console port, AUX port, RESET button, LPU status LEDs, SRP1N4 status LEDs (SFS, ACT, ALM, RUN), as shown in Figure 1-11.

Figure 1-11 SRP1N4 panel

3)         User ports

l           CF port

The SRP1N4 module provides a CF port to accommodate a standard CF card, where you can save logging information, host version information, alarming and other diagnostic information and conveniently upgrade software online.

l           Management 10Base-T/100Base-TX port

The management 10Base-T/100Base-TX port uses an RJ-45 connector. It can connect a background terminal for system program loading and debugging, or connect a network management station for remote system management.

Table 1-7 Management 10Base-T/100Base-TX port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One
Rate	10 Mbps, half duplex/full duplex 100 Mbps, half duplex/full duplex
Max. transmission segment over the selected medium	100 m (328 ft) over the category-5 twisted pair cable (crossover cable is required).
Service	System program upgrade and network management

 

The following table describes the status LEDs for the management 10Base-T/100Base-TX port.

Table 1-8 Status LEDs for the management 10Base-T/100Base-TX port

LED	Status
LINK	OFF	No link is present.
	ON	A link is present.
ACT	OFF	No packets are transmitted/received on the port.
	Blinking	Packets are being transmitted/received on the port.

 

l           RS232/485 port

The RS232/485 port uses RJ-45 connector, for connecting external PoE power frame when supported and monitoring its status.

Table 1-9 RS232/485 port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One RS 232 port and one RS485 port
Service	The port for monitoring and communication with the external subsystem, such as external PoE power supply module

 

l           Console port

The Console port uses an RJ-45 connector. It can be connected to a background terminal for system debugging, maintenance, management, and host software loading.

Table 1-10 Console port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Baud rate	9600 bps (default)
Transmission segment	15 m (49 ft)
Service	Connects a serial port of a local PC and runs terminal emulation on the PC.

 

 

l           AUX port

The AUX port uses an RJ-45 connector. The port can serve as a backup port for the Console port to connect a background terminal, or directly connect a modem device, for remote system debugging, configuration, maintenance and management.

Table 1-11 AUX port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Service	Connects a serial port of a PC (through a Modem pair for a remote PC) and runs terminal emulation on the PC.

 

4)         RESET button

You can press the RESET button on the panel to reset the SRP1N4 module.

5)         Status LEDs

l           CF status LED

You can learn the operating status of the CF card by reading the CF status LED on the panel.

Table 1-12 CF status LED

LED	Status
CFS	ON	The CF card is in position and is idle. You cannot remove the card.
	Blinking	The CF card is in position and reading/writing data. You cannot remove the card.
	OFF	The CF card is out of position or offline (you can force the in-position CF card to go offline using the appropriate background command). You can remove/insert the card.

 

l           Status LEDs for LPU modules

The SRP1N4 module has 12 pairs of LEDs to indicate the operating status of 12 LPU modules.

Table 1-13 Status LEDs for LPU modules

LED	Status
RUN	ON	The module is faulty.
	OFF	The module is faulty or out of position.
	Blinking (1s)	The module is running normally.
	Fast blinking (125 ms)	The module is booting or not registered successfully.
ALM	ON	The module has alarms.
	OFF	The module has no alarms or is out of position.
0~5, 8~13	Indicate slots 0 through 5 and slots 8 through 13

 

l           Status LEDs for the SRP1N4 module

You can learn the operating status of SRP1N4 module by reading the SFS, ACT, ALM and RUN LEDs on it. The following table gives a summary of the four LEDs.

Table 1-14 Status LEDs for the SRP1N4 module

SRP1N4 LED	Status
SFS	ON	The switching fabric unit is active.
	OFF	The switching fabric unit is standby.
RUN	Green	The SRP1N4 module is faulty.
	OFF	The SRP1N4 module is faulty.
	Green blinking	The SRP1N4 module runs normally.
ALM	Red	The SRP1N4 module has alarms.
	OFF	The SRP1N4 module has no alarms.
ACT	Green	The SRP1N4 module is active.
	OFF	The SRP1N4 module is standby.

 

II. SRP1N5 module

1)         Specifications

The S9508 uses SRP1N5 modules. The following table summarizes the board specifications.

Table 1-15 SRP1N5 module specifications

Attribute	SRP1N5
CPU	MPC755
Boot ROM	512 KB
SDRAM	512 MB (expandable to 1 GB)
Dimensions (L   W)	366.7   340 mm (14.4   13.4 in.)
Port	One Console port, for local configuration management One AUX port, for remote dialup configuration management One 10Base-T/100Base-TX port for system management and program upgrade One RS232/485 port, for connecting external PoE power frame when supported One hot-swappable CF port
Max. power consumption	60 W

 

2)         SRP1N5 panel

The SRP1N5 module provides CF port, CF LED (CFS), 10Base-T/100Base-TX port, RS232/485 port, Console port, AUX port, RESET button, LPU status LEDs, SRP1N5 status LEDs (SFS, ACT, ALM, RUN), as shown in Figure 1-12.

Figure 1-12 SRP1N5 panel

3)         User ports

l           CF port

The SRP1N5 module provides a CF port to accommodate a standard CF card, where you can save logging information, host version information, alarming and other diagnostic information and conveniently upgrade software online.

l           Management 10Base-T/100Base-TX port

The management 10Base-T/100Base-TX port uses an RJ-45 connector. It can connect a background terminal for system program loading and debugging, or connect a network management station for remote system management.

Table 1-16 Management 10Base-T/100Base-TX port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One
Rate	10 Mbps, half duplex/full duplex 100 Mbps, half duplex/full duplex
Max. transmission segment over the selected medium	100 m (328 ft) over the category-5 twisted pair cable (crossover cable is required.)
Service	System program upgrade and network management

 

The following table describes the status LEDs for the management 10Base-T/100Base-TX port.

Table 1-17 Status LEDs for the management 10Base-T/100Base-TX port

LED	Status
LINK	OFF	No link is present.
	Green	A link is present.
ACT	OFF	No packets are transmitted/received on the port.
	Blinking	Packets are being transmitted/received on the port.

 

l           RS232/485 port

The RS232/485 port uses RJ-45 connector, for connecting external PoE power frame when supported and monitoring its status.

Table 1-18 RS232/485 port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One RS 232 port and one RS485 port
Service	The port for monitoring and communication with the external subsystem, such as external PoE power supply module

 

l           Console port

The Console port uses an RJ-45 connector. It can be connected to a background terminal for system debugging, maintenance, management, and host software loading.

Table 1-19 Console port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Baud rate	9600 bps (default)
Transmission distance	15 m (49 ft)
Service	Connects a serial port of a local PC and runs terminal emulation on the PC.

 

 

l           AUX port

The AUX port uses an RJ-45 connector. The port can serve as a backup port for the Console port to connect a background terminal, or directly connect a modem device, for remote system debugging, configuration, maintenance and management.

Table 1-20 AUX port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Service	Connects a serial port of a PC (through a Modem pair for a remote PC) and runs terminal emulation on the PC.

 

4)         RESET button

You can press the RESET button on the panel to reset the SRP1N5 module.

5)         Status LEDs

l           CF status LED

You can check operating status of the CF card by reading the CF status LED on the panel.

Table 1-21 CF status LED

LED	Status
CFS	ON	The CF card is in position and is idle. You cannot remove the card.
	Blinking	The CF card is in position and reading/writing data. You cannot remove the card.
	OFF	The CF card is out of position or offline (you can force the in-position CF card to go offline using the appropriate background command). You can remove/insert the card.

 

l           Status LEDs for LPU modules

The SRP1N5 module has eight pairs of LEDs to indicate the operating status of eight LPU modules.

Table 1-22 Status LEDs for LPU modules

LED	Status
RUN	ON	The module is faulty.
	OFF	The module is faulty or out of position.
	Blinking (1s)	The module is running normally.
	Fast blinking (125ms)	The module is booting or not registered successfully.
ALM	ON	The module has alarms.
	OFF	The module has no alarms or is out of position.
0~3, 6~9	Indicate slots 0 through 3 and slots 6 through 9

 

l           Status LEDs for the SRP1N5 module

You can learn the operating status of SRP1N5 module by reading the SFS, ACT, ALM and RUN LEDs on it. The following table gives a summary of the four LEDs.

Table 1-23 Status LEDs for the SRP1N5 module

SRP1N5 LED	Status
SFS	ON	The switching fabric unit is active.
	OFF	The switching fabric unit is standby.
RUN	Green	The SRP1N5 module is faulty.
	OFF	The SRP1N5 module is faulty.
	Green blinking	The SRP1N5 module runs normally.
ALM	Red	The SRP1N5 module has alarms.
	OFF	The SRP1N5 module has no alarms.
ACT	Green	The SRP1N5 module is active.
	OFF	The SRP1N5 module is standby.

 

III. SRP1N6 module

1)         Specifications

The S9505 uses SRP1N6 modules. The following table summarizes the board specifications.

Table 1-24 SRP1N6 module specifications

Attribute	SRP1N6
CPU	MPC755
Boot ROM	512 KB
SDRAM	512 MB (expandable to 1 GB)
Dimensions (L   W)	366.7   340 mm (14.4   13.4 in.)
Port	One Console port, for local configuration management One AUX port, for remote dialup configuration management One 10Base-T/100Base-TX port for system management and program upgrade One RS232/485 port, for connecting external PoE power frame when supported One hot-swappable CF port
Max. power consumption	60 W

 

2)         SRP1N6panel

The SRP1N6 module provides CF port, CF LED (CFS), 10Base-T/100Base-TX port, RS232/485 port, Console port, AUX port, RESET button, LPU status LEDs, SRP1N6 status LEDs (SFS, ACT, ALM, RUN), as shown in Figure 1-13.

Figure 1-13 SRP1N6 panel

3)         User ports

l           CF port

The SRP1N6 module provides a CF port to accommodate a standard CF card, where you can save logging information, host version information, alarming and other diagnostic information and conveniently upgrade software online.

l           Management 10Base-T/100Base-TX port

The management 10Base-T/100Base-TX port uses an RJ-45 connector. It can connect a background terminal for system program loading and debugging, or connect a network management station for remote system management.

Table 1-25 Management 10Base-T/100Base-TX port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One
Rate	10 Mbps, half duplex/full duplex 100 Mbps, half duplex/full duplex
Max. transmission segment over the selected medium	100 m (328 ft) over the category-5 twisted pair cable (crossover cable is required.)
Service	System program upgrade and network management

 

The following table describes the status LEDs for the management 10Base-T/100Base-TX port.

Table 1-26 Status LEDs for the management 10Base-T/100Base-TX port

LED	Status
LINK	OFF	No link is present.
	Green	A link is present.
ACT	OFF	No packets are transmitted/received on the port.
	Orange blinking	Packets are being transmitted/received on the port.

 

l           RS232/485 port

The RS232/485 port uses RJ-45 connector, for connecting external PoE power frame when supported and monitoring its status.

Table 1-27 RS232/485 port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One RS 232 port and one RS485 port
Service	The port for monitoring and communication with the external subsystem, such as external PoE power supply module

 

l           Console port

The Console port uses an RJ-45 connector. It can be connected to a background terminal for system debugging, maintenance, management, and host software loading.

Table 1-28 Console port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Baud rate	9600 bps (default)
Transmission distance	15 m (49 ft)
Service	Connects a serial port of a local PC and runs terminal emulation on the PC.

 

 

l           AUX port

The AUX port uses an RJ-45 connector. The port can serve as a backup port for the Console port to connect a background terminal, or directly connect a modem device, for remote system debugging, configuration, maintenance and management.

Table 1-29 AUX port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Service	Connects a serial port of a PC (through a Modem pair for a remote PC) and runs terminal emulation on the PC.

 

4)         RESET button

You can press the RESET button on the panel to reset the SRP1N6 module.

5)         Status LEDs

l           CF status LED

You can check operating status of the CF card by reading the CF status LED on the panel.

Table 1-30 CF status LED

LED	Status
CFS	ON	The CF card is in position and is idle. You cannot remove the card.
	Blinking	The CF card is in position and reading/writing data. You cannot remove the card.
	OFF	The CF card is out of position or offline (you can force the in-position CF card to go offline using the appropriate background command). You can remove/insert the card.

 

l           Status LEDs for LPU modules

The SRP1N6 module has five pairs of LEDs to indicate the operating status of five LPU modules.

Table 1-31 Status LEDs for LPU modules

LED	Status
RUN	ON	The module is faulty.
	OFF	The module is faulty or out of position.
	Blinking (1s)	The module is running normally.
	Fast blinking (125ms)	The module is booting or not registered successfully.
ALM	ON	The module has alarms.
	OFF	The module has no alarms or is out of position.
2~6	Indicate slots 2 through 6

 

l           Status LEDs for the SRP1N6 module

You can learn the operating status of SRP1N6 module by reading the SFS, ACT, ALM and RUN LEDs on it. The following table gives a summary of the four LEDs.

Table 1-32 Status LEDs for the SRP1N6 module

SRP1N6 LED	Status
SFS	ON	The switching fabric unit is active.
	OFF	The switching fabric unit is standby.
RUN	Green	The SRP1N6 module is faulty.
	OFF	The SRP1N6 module is faulty.
	Green blinking	The SRP1N6 module runs normally.
ALM	Red	The SRP1N6 module has alarms.
	OFF	The SRP1N6 module has no alarms.
ACT	Green	The SRP1N6 module is active.
	OFF	The SRP1N6 module is standby.

 

IV. SRP1N7 module

1)         Specifications

The S9512, 9508 and 9505 can use SRP1N7 modules, which integrate clock modules in them. The following table summarizes the specifications.

Table 1-33 SRP1N7 module specifications

Attribute	SRP1N7
CPU	MPC755
Boot ROM	512KB
SDRAM	1GB
Dimensions (L   W)	366.7   340 mm (14.4   13.4 in.)
Port	One Console port, for local configuration management One AUX port, for remote dialup configuration management One 10Base-T/100Base-TX port for system management and program upgrade One RS232/485 port, for connecting external PoE power frame when supported One hot-swappable CF port Two SMB coaxial clock ports
Max. power consumption	70 W

 

2)         SRP1N7 panel

The SRP1N7 module provides SMB coaxial clock ports, CF card, CF LED (CFS), 10 Base-T/100Base-TX port, RS232/485 port, Console port, AUX port, RESET button, LPU status LEDs, SRP1N7 status LEDs (SFS, ACT, ALM, RUN), as shown in Figure 1-14.

Figure 1-14 SRP1N7 panel

3)         User ports

l           SMB coaxial clock port

The two SMB coaxial clock ports are used as the external benchmark input for internal clock modules or the clock benchmark for external devices. The port rate/frequency is 2.048 Mbps or 2.048 MHz. You can manually configure the ports through the DIP switch on the clock module.

l           CF port

The SRP1N7 module provides a CF port to accommodate a standard CF card, where you can save logging information, host version information, alarming and other diagnostic information and conveniently upgrade software online.

l           Management 10Base-T/100Base-TX port

The management 10Base-T/100Base-TX port uses an RJ-45 connector. It can connect a background terminal for system program loading and debugging, or connect a network management station for remote system management.

Table 1-34 Management 10Base-T/100Base-TX port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One
Rate	10 Mbps, half duplex/full duplex 100 Mbps, half duplex/full duplex
Max. transmission distance over the selected medium	100 m (328 ft) over the category-5 twisted pair cable (crossover cable is required.)
Service	System program upgrade and network management

 

The following table describes the status LEDs for the management 10Base-T/100Base-TX port.

Table 1-35 Status LEDs for the management 10Base-T/100Base-TX port

LED		Status
LINK	OFF	No link is present.
	Green	A link is present.
ACT	OFF	No packets are transmitted/received on the port.
	Orange blinking	Packets are being transmitted/received on the port.

 

l           RS232/485 port

The RS232/485 port uses RJ-45 connector, for connecting external PoE power frame when supported and monitoring its status.

Table 1-36 RS232/485 port specifications

Attribute	Description
Connector	RJ-45
Number of ports	One RS 232 port and one RS485 port
Service	The port for monitoring and communication with the external subsystem, such as external PoE power supply module

 

l           Console port

The Console port uses an RJ-45 connector. It can be connected to a background terminal for system debugging, maintenance, management, and host software loading.

Table 1-37 Console port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Baud rate	9600 bps (default)
Transmission distance	15 m (49 ft)
Service	Connects a serial port of a local PC and runs terminal emulation on the PC.

 

 

l           AUX port

The AUX port uses an RJ-45 connector. The port can serve as a backup port for the Console port to connect a background terminal, or directly connect a modem device, for remote system debugging, configuration, maintenance and management.

Table 1-38 AUX port specifications

Attribute	Description
Connector	RJ-45
Standard	Asynchronous EIA/TIA-232
Service	Connects a serial port of a PC (through a Modem pair for a remote PC) and runs terminal emulation on the PC.

 

4)         RESET button

You can press the RESET button on the panel to reset the SRP1N7 module.

5)         Status LEDs

l           CF status LED

You can check operating status of the CF card by reading the CF status LED on the panel. Fore more details about the LEDs, see Table 1-12

l           Status LEDs for LPU modules

The SRP1N7 module has 12 pairs of LEDs to indicate the operating status of 12 LPU modules. Fore more details about the LEDs, see Table 1-13.

l           Status LEDs for the SRP1N7 module

You can learn the operating status of SRP1N7 module by reading the SFS, ACT, ALM and RUN LEDs on it. Fore more details about the LEDs, see Table 1-14.

V. SRP1M1 module

1)         Specifications

The S9502 uses SRP1M1 modules. The following table summarizes the module specifications.

Table 1-39 SRP1M1 module specifications

Attribute	SRP1M1
CPU	MPC755
BootROM	512 KB
SDRAM	512 MB (expandable to 1 GB)
Dimensions (W x D)	366.7   340 mm (14.4   13.4 in)
Port	One Console port, for local configuration management One AUX port, for remote dialup configuration management One 10Base-T/100Base-TX port, for software upgrade and network management One RS232/485 port, for connecting the external PoE power frame when using PoE function; The RS485 port supports the cascade connection of PoE power frame and NEPS3500-AB when using PoE function and NEPS3500-AB. One hot-swappable CF port
Max power consumption	60 W

 

2)         Panel

The SRP1M1 module provides a CF port and CF LED (CFS), a 10Base-T/100Base-TX port, RS232/485 port, Console port and AUX port, a RESET button, LPU status LEDs, and SRP1M1 status LEDs (SFS, ACT, ALM, and RUN), as shown in Figure 1-15.

Figure 1-15 SRP1M1 panel

3)         User ports

Refer to “User ports” in "SRP1N4 module".

4)         RESET button

You can press the RESET button on the panel to reset the SRP1M1 module.

5)         Status LEDs

l           CF status LED

You can check the operating status of the CF card by reading the CF status LED on the panel. For more details about the LED, refer to Table 1-12.

l           Status LEDs for LPU modules

The SRP1M1 module has three pairs of LEDs to indicate the operating status of the three LPU modules.

Table 1-40 Status LEDs for LPU modules

LED	Status
RUN	ON	The module has failed.
	OFF	The module has failed or is not present.
	Blinking (1s)	The module is operating normally.
	Fast blinking (125ms)	When the module is starting up, the RUN LED is steady on or fast blinking. Continuous fast blinking status indicates the module registration fails.
ALM	OFF	There are no alarms on the module or the module is not present.
	ON	There are alarms on the module.
1~3	Indicate slots 1 through 3

 

l           Status LEDs for the SRP1M1 module

You can learn the operating status of the SRP1M1 module by reading the SFS, ACT, ALM and RUN LEDs on its panel. For more details, refer to Table 1-14.

 

1.2.7  LPU Modules

These types of LPU modules are available on the S9500 series:

Table 1-41 LPU modules supported on the S9500 series

LPU	User interface
XP2	2   10GEBase-R XFP/LC/10GEBase-W XFP/LC optical ports
XP4	4   10GE XFP/LC optical ports (1:2 convergence)
XK1	1   10GE XENPAK/SC port
GP12	12   1000 Mbps SFP/LC optical ports
GP24	24   1000 Mbps SFP/LC optical ports
FP20	20   100 Mbps SFP/LC optical ports
F32G	4   1000 Mbps SFP/LC optical ports and 32   10/100 Mbps auto-sensing RJ-45 ports
GT24	24   10/100/1000 Mbps auto-sensing RJ-45 electrical ports
GV48	48   10/100/1000 Mbps auto-sensing RJ-45 electrical ports (PoE-supported)
FT48	48   10/100 Mbps auto-sensing electrical ports
P4G8	8   1000 Mbps SFP/LC optical ports and 4   155Mbps SFP/LC POS optical ports
SP4	4   OC-48c SFP/LC POS optical ports
UP1	1   OC-192c XFP/LC POS optical port

 

1.2.8  Service Processor Cards

The service processor card is designed specially for high-speed processing of a certain service, which covers partial or no functions of LPU modules.

The S9500 series support these types of service processor cards:

l           NAT service processor card (LSB1NATB0): No external port available.

l           VPLS service processor card (LSB1VPNB0): No external port available.

I. NAT service processor card

1)         Technical specifications

The NAT service processor card provides no external port.

Table 1-42 Technical specifications of the NAT service processor card

Attribute	NAT
CPU	MPC755
Boot ROM	512 KB
SDRAM	512 MB
Dimensions (L   W)	366.7   340 mm

 

2)         Front and rear panels

Figure 1-16 Front panel of the NAT service processor card

Figure 1-17 Rear panel of the NAT service processor card

II. VPLS service processor card

1)         Technical specifications

The VPLS service processor card provides no external port.

Table 1-43 Technical specifications of the VPLS service processor card

Attribute	VPN
CPU	MPC755
Boot ROM	512 KB
SDRAM	512 MB
Dimensions (L   W)	366.7   340mm (14.4   13.4 in)

 

2)         Front and rear panels

Figure 1-18 Front panel of the VPLS service processor card

Figure 1-19 Rear panel of the VPLS service processor card

1.2.9  System Specifications

The following table summarizes the physical specifications of the S9500 series.

Table 1-44 Technical specifications of the S9500 series

Item	S9502	S9505	S9508	S9512
Dimensions (H   W   D, in mm)	264   436   442 mm (10.4   17.2   17.4 in)	486   436   450 mm (19.1   17.2   17.7 in)	619   436   450 mm (24.4   17.2   17.7 in)	753   436   450 mm (29.6   17.2   17.7 in)
Weight (full load)	≤ 40 kg (88.2 lb)	≤ 65 kg (143.3 lb)	≤ 80 kg (176.4 lb)	≤ 100 kg (220.5 lb)
Max power consumption	600 W	1200 W	2000 W	2000/3500 W
Switching capacity	240 Gbps	SRP1N: 300 Gbps SRP2N: 600 Gbps	SRP1N: 480 Gbps SRP2N: 960 Gbps	SRP1N: 720 Gbps SRP2N: 1440 Gbps
Number of VLANs	4 K	4 K	4 K	4 K
MAC address table size	14 K per card, the maximum table size supported by the switch is 14 K   n (number of cards)
Forwarding table entries	128 K/256 K/512 K
Number of SRP slots	1 or 2	2	2	2
SRPU module type	SRP1M0	SRP1N2 SRP1N3 SRP2N2 SRP2N3 SRP1NA2 SRP1NA3	SRP1N1 SRP1N3 SRP2N1 SRP2N3 SRP1NA1 SRP1NA3	SRP1N0 SRP1N3 SRP2N0 SRP2N3 SRP1NA0 SRP1NA3
Number of LPU slots	3 or 2	5	8	12
User interface	100BASE-FX SFP 10/100BASE-TX RJ-45 1000BASE-X-SFP 10/100/1000BASE-TX RJ-45 10/100BASE-TX RJ-45 with PoE (Power over Ethernet) 10GBASE-R XENPAK 10GBASE-R/W XFP 10GBASE-CX4 XENPAK OC-3c POS SFP OC-48c POS SFP OC-192c POS XFP OC-192c RPR XFP
Operating temperature	0 C to 40 C (32 F to 104 F)
Operating humidity (noncondensing)	10% to 90%
Storage temperature	–40 C to 70 C (–40 F to 158 F)
Storage humidity	5% to 95%