- play_arrow Fast Track: Initial Installation
- play_arrow Overview
- play_arrow Initial Installation and Configuration for New Systems
- PTX10008 Installation Overview
- Unpack the PTX10008 Router
- Mount the PTX10008 by Using the JNP10004-RMK-4POST Rack Mount Kit
- Mount the PTX10008 by Using the EX-MOD-RMK-4POST Rack Mount Kit
- Mount the PTX10008 by Using the JNP10K-RMK-4PST-XT Rack Mount Kit
- Install and Maintain the Front Door and its Components on the PTX10008 Router
- Connect the PTX10008 to Power
- Connect the PTX10008 to External Devices
- Register Products—Mandatory to Validate SLAs
- Perform the Initial Configuration for the PTX10008 Router
- play_arrow Hardware Upgrades
- play_arrow Maintain Components
- Install and Remove PTX10008 Routing and Control Boards
- Install and Remove PTX10008 Cooling System Components
- Install and Remove PTX10008 Power System Components
- Install and Remove PTX10008 Switch Fabric Components
- Install and Remove PTX10008 Line Card Components
- PTX10008 Transceiver and Fiber Optic Cable Installation and Removal
- Remove the PTX10008 Router
- play_arrow Troubleshoot Hardware
- play_arrow Contact Customer Support and Return the Chassis or Components
- play_arrow Safety and Compliance Information
- General Safety Guidelines and Warnings
- Definitions of Safety Warning Levels
- Qualified Personnel Warning
- Warning Statement for Norway and Sweden
- Fire Safety Requirements
- Installation Instructions Warning
- PTX10008 Chassis Lifting Guidelines
- Restricted Access Warning
- Ramp Warning
- Rack-Mounting and Cabinet-Mounting Warnings
- Grounded Equipment Warning
- Radiation from Open Port Apertures Warning
- Laser and LED Safety Guidelines and Warnings
- Maintenance and Operational Safety Guidelines and Warnings
- General Electrical Safety Guidelines and Warnings
- Action to Take After an Electrical Accident
- Prevention of Electrostatic Discharge Damage
- AC Power Electrical Safety Guidelines
- AC Power Disconnection Warning
- DC Power Electrical Safety Guidelines for the PTX10008 and PTX10016 Routers
- DC Power Copper Conductors Warning
- DC Power Disconnection Warning
- DC Power Grounding Requirements and Warning
- DC Power Wiring Sequence Warning
- DC Power Wiring Terminations Warning
- Multiple Power Supplies Disconnection Warning
- TN Power Warning
- PTX10008 and PTX10016 Agency Approvals and Compliance Statements
PTX10008 Power Planning for JNP10008-SF Switch Fabric
Use this information to calculate the power consumption for the PTX10008 in a JNP10008-SF switch fabric and plan your configuration’s power requirements.
Power Requirements for PTX10008 Components in a JNP10008-SF Fabric
Table 1 lists the power requirements for the PTX10008 router running the JNP10008-SF switch fabric under typical voltage conditions and optics.
Component | Description | At 25° C | At 55° C |
|---|---|---|---|
JNP10008-SF | PTX10008 Switch Interface Board | 170 W | 235 W |
JNP10008-FAN | PTX10008 fan tray | 225 W | 475 W |
JNP10008-FAN2 | PTX10008 enhanced fan tray | 600 W | 1280 W at maximum fan speed |
JNP10K-RE0 | PTX10008 standard Routing Control Board | 50 W | 100 W |
JNP10K-RE1 or JNP10K-RE1-LT | PTX10008 enhanced Routing Control Board | 150 W | 175 W |
PTX10K-LC1101 | PTX10008 30-port QSFP28 line card | 890 W | 1750 W |
PTX10K-LC1102 | PTX10008 36-port QSFP+ line card | 520 W | 675 W |
PTX10K-LC1104 | PTX10008 coherent DWDM line card | 900 W | 1050 W |
PTX10K-LC1105 | PTX10008 30-port MACsec QSFP28 line card | 950 W | 1250 W |
QFX10000-60S-60Q | QFX10000 60-port SFP+ and 6-port QSFP+ line card | 365 W | 465 W |
To ensure adequate power and to avoid raising a power alarm, we recommend that you maintain n +1 power supplies in your router at all times. Replace failed power supplies immediately to prevent unexpected failures.
If a new line card is installed in an operational router, power management does not power on the line card if the increased power demand exceeds the total available power, including redundant power. If redundant power is used to power on the line card, a minor alarm is raised, which becomes a major alarm in five minutes if the condition is not corrected.
You can view the total power provided to the chassis, the power required to operate the chassis and the components installed in it, and the balance power available in the chassis by using the show chassis power detail command.
Calculate Power Requirements for a PTX10008
Use the Power Calculator or the information in this topic to calculate power requirements of your PTX10008 configuration and the number of power supplies required for different PTX10008 router configurations.
To ensure adequate power and to avoid raising a power alarm, we recommend that you maintain n +1 power supplies in JNP10008-SF configurations at all times. Replace failed power supplies immediately to prevent unexpected failures.
If a new line card is installed in an operational router, power management does not power on the line card if the increased power demand exceeds the total available power, including redundant power. If redundant power is used to power on the line card, a minor alarm is raised, which becomes a major alarm in five minutes if the condition is not corrected.
The calculations in this topic represent the maximum power requirements that you need to budget for your PTX10008 router configuration. The actual power consumption of your router will be less than the calculated results shown here and will vary based on the hardware and software configuration of your router, the amount of traffic passing through the line cards, and environmental variables such as room temperature.
Before you begin these calculations:
Ensure you understand the different router configurations. See PTX10008 Configurations and Upgrade Options.
Ensure that you know the power requirements of different router components. See Power Requirements for PTX10008 Components in a JNP10008-SF Fabric.
This topic describes these tasks:
- Calculate the Power Consumption of Your PTX10008 Configuration
- Calculate the Number of Power Supplies Required for Your PTX10008 Configuration
Calculate the Power Consumption of Your PTX10008 Configuration
Use the following procedure to determine the maximum power you need to supply to the router. To calculate maximum system power consumption, you first determine the combined maximum internal power requirements of all the router components and then divide this result by the power supply output power.
To calculate maximum system power consumption:
Calculate the Number of Power Supplies Required for Your PTX10008 Configuration
Use this procedure to calculate the number of power supplies required by your router configuration. The minimum power configuration for PTX10008 routers is three power supplies. However, using the calculated minimum power configuration does not prevent the system from raising a power alarm. If you are running the router in a JNP10008-SF switch fabric configuration, you must configure your router for n+1 power supplies to ensure you do not log power alarms.
To calculate the number of power supplies required for your minimum router configuration:
JNP10K-PWR-AC Power Specifications
PTX10008 and PTX10016 redundant-configuration routers can use either AC or DC power supplies; base-configuration routers are AC only. You can run the JNP10K-PWR-AC power supply only in routers in which you have installed the JNP10008-SF or JNP10016-SF switch fabric.
Table 8 lists the power specifications for the AC power supply (JNP10K-PWR-AC) used in a PTX10008 or PTX10016 chassis.
Item | Specification |
|---|---|
AC input voltage | Operating range: 200–240 VAC |
AC input line frequency | 50–60 Hz |
AC input current rating | 16 A |
AC output power | 2700 W |
Use a 2-pole circuit breaker rated at 25 A in the building installation and the system, or as per local electrical code.
Table 9 shows the physical specifications for an AC power supply.
Specification | Value |
|---|---|
Height | 3.4 in. (8.64 cm) |
Width | 3.6 in. (9.14 cm) |
Depth | 14.4 in. (36.58 cm) |
Weight | 6.8 lb (3.08 kg) |
JNP10K-PWR-AC2 Power Specifications
The JNP10K-PWR-AC2 power supply supports AC, HVAC, and HVDC. You can run JNP10K-PWR-AC2 power supplies in either a JNP10008-SF or a JNP10008-SF3 system. If you are upgrading a JNP10008-SF system to use JNP10K-PWR-AC2 power supplies, also upgrade your fans and fan tray controllers to ensure the proper airflow. JNP10K-PWR-AC2 power supplies require JNP10008-FAN2 and JNP10008-FTC2 cooling systems.
Table 10 lists the power specifications for the AC power supply (JNP10K-PWR-AC2) used in a PTX10008 or PTX10016 chassis.
Item | Specifications |
|---|---|
AC input voltage | 180–305 VAC |
DC input voltage | 190–410 VDC |
Input current rating | 28.5 A |
DC output power | 5500 W with dual feed and 5000 W with single feed |
Table 11 shows the physical specifications for a JNP10K-PWR-AC2 power supply.
Specification | Value |
|---|---|
Height | 3.4 in. (8.64 cm) |
Width | 3.6 in. (9.14 cm) |
Depth | 16.6 in. (42.16 cm) |
Weight | 11.4 lb (5.17 kg) |
JNP10K-PWR-AC3 Power Specifications
The JNP10K-PWR-AC3 power supply supports AC.
Table 12 lists the power specifications for the AC power supply (JNP10K-PWR-AC3) used in a PTX10004 chassis.
Specification | Value |
|---|---|
AC input voltage | 180–264 VAC |
Input current rating | 16 A |
DC output power | 12.3 V |
Table 13 shows the physical specifications for a JNP10K-PWR-AC3 power supply.
Specification | Value |
|---|---|
Height | 3.386 in. (8.60 cm) |
Width | 3.584 in. (9.10 cm) |
Depth | 17.15 (43.57 cm) |
Weight | 12.8 lbs (5.8 kg) |
JNP10K-PWR-AC3 Power Cable Specifications
The JNP10K-PWR-AC3 power supply operates in two modes:
20-A input with 7800 W or 6000 W or 3000 W output
15-A input with 7800 W or 7500 W, or 5000 W, or 2500 W output
When power cords with right angle plugs at the PSU end are selected, they must be in pairs of Right Angle Left Plugs for inputs A0 or B0 and Extended Right Angle Left Plugs for inputs A1 or B1.
See Table 14 for a list of appropriate cables.
Do not run JNP10K-PWR-AC3 power supplies using 16-A or 20-A cables if connected to 15-A input.
You can prevent AC power cables from being exposed to hot air exhaust by always routing the power cables away from the fan trays and power supplies.
With right angle power cords and the baffle installed, the power cords will be exposed to hot exhaust air. The IEC C21 plugs have a temperature rating of 155C and the power cord cables have a rating of 90C.
Locale | Cord Set Rating | Plug Standard | Spare Juniper Model Number | Graphic |
|---|---|---|---|---|
| Straight Plug at PSU Input | ||||
Australia and New Zealand | 15 A, 250 VAC | AS/NZS 3112 | CBL-PWRC21-AU |  |
Europe (except Italy, Switzerland, and United Kingdom) | 16A, 250 VAC | CEE 7/7 | CBL-PWRC21-EU |  |
Italy | 16A, 250 VAC | CEI 23-16 | CBL-PWRC21-IT |  |
North America | 20A, 250 VAC | Locking NEMA L6-20P | CBL-PWRC21-US-L |  |
| NEMA 6-20P | CBL-PWRC21-US |  | ||
| International | 16A, 250VAC | IEC-309 316P6W | CBL-PWRC21-316P6 | |
| North America | 20A, 250 VAC | IEC-309 320P6W | CBL-PWRC21-320P6 | |
| Japan | 20A, 250 VAC | NEMA L6-20P | CBL-PWRC21-JP-L | |
| China | 16A, 250 VAC | GB2099-1 | CBL-PWRC21-CN |  |
| North America | 20A, 250 VAC | IEC-320-C20 | CBL-PWRC21-C20-NA |  |
| Europe | 16A, 250 VAC | IEC-320-C20 | CBL-PWRC21-C20-EU | |
| Japan | 20A, 250 VAC | IEC-320-C20 | CBL-PWRC21-C20-JP | |
| China | 16A, 250 VAC | IEC-320-C20 | CBL-PWRC21-C20-CN | |
| Switzerland | 16A, 250 VAC | SEV1011 | CBL-PWRC21-SZ | |
| South Africa | 16A, 250 VAC | RA SANs 164/1 | CBL-PWRC21-SA |  |
| India | 16A, 250VAC | RA IS 1293 | CBL-PWRC21-IN | |
| United Kingdom | 16A, 250 VAC | BS 1363 | CBL-PWRC21-UK |  |
| Israel | 16A, 250 VAC | SI 32/1971 Type IL/3G | CBL-PWRC21-IL |  |
| Brazil | 16A, 250 VAC | NBR 14136 Type BR/3 | CBL-PWRC21-BR |  |
| Argentina | 16A, 250 VAC | IRAM 2073 Type RA/3 | CBL-PWRC21-AR |  |
| Right Angle Left Plug at PSU Input | ||||
| USA | 20A, 250 VAC | NEMA L6-20P | CBL-PWRC21R-US-L | |
| USA | 20A, 250 VAC | NEMA 6-20P | CBL-PWRC21R-US | |
| Europe | 16A, 250 VAC | CEE 7/7 | CBL-PWRC21R-EU | |
| Australia | 15A, 250 VAC | AS/NZ 3112 | CBL-PWRC21R-AU | |
| Italy | 16A, 250 VAC | CEI 23-50 | CBL-PWRC21R-IT | |
| International | 16A, 250 VAC | IEC 60309 316P6W | CBL-PWRC21R-316P6 | |
| North America | 16A, 250VAC | IEC 60309 320P6W | CBL-PWRC21R-320P6 | |
| Japan | 20A, 250 VAC | NEMA L6-20P | CBL-PWRC21R-JP-L | |
| China | 16A, 250 VAC | GB2099-1 | CBL-PWRC21R-CN | |
| North America | 16A, 250 VAC | IEC-60320 C20 | CBL-PWRC21R-C20-NA | |
| Europe | 16A, 250 VAC | IEC 60320 C20 | CBL-PWRC21R-C20-EU | |
| Japan | 20A, 250 VAC | IEC 60320 C20 | CBL-PWRC21R-C20-JP | |
| China | 16A, 250 VAC | IEC 60320 C20 | CBL-PWRC21R-C20-CN | |
| Switzerland | 16A, 250 VAC | SEV 1011 | CBL-PWRC21R-SZ | |
| South Africa | 16A, 250 VAC | SANS 164/1 | CBL-PWRC21R-SA | |
| India | 16A, 250 VAC | IS 1293, RA | CBL-PWRC21R-IN | |
| United Kingdom | 16A, 250 VAC | BS1363 | CBL-PWRC21R-UK | |
| Israel | 16A, 250 VAC | SI 32/1971 TYPE IL/3G | CBL-PWRC21R-IL | |
| Brazil | 16A, 250 VAC | NBR 14136 TYP BR/3 | CBL-PWRC21R-BR | |
| Argentina | 16A, 250 VAC | IRAM 2073 TYPE RA/3 | CBL-PWRC21R-AR | |
| Extended Right Angle Left Plug at PSU Input | ||||
| USA | 20A, 250 VAC | NEMA L6-20P | CBL-PWRC21RL-US-L | |
| USA | 20 A, 250 VAC | NEMA 6-20P | CBL-PWRC21RL-US | |
| Europe | 16A, 250 VAC | CEE 7/7 | CBL-PWRC21RL-EU | |
| Australia | 15A, 250 VAC | AS/NZ 3112 | CBL-PWRC21RL-AU | |
| Italy | 16A, 250 VAC | CEI 23-50 | CBL-PWRC21RL-IT | |
| International | 16A, 250 VAC | IEC-60309 316P6W | CBL-PWRC21RL-316P6 | |
| North America | 20A, 250 VAC | IEC-60309 320P6W | CBL-PWRC21RL-320P6 | |
| Japan | 20A, 250 VAC | NEMA L6-20P | CBL-PWRC21RL-JP-L | |
| China | 16A, 250 VAC | GB2099-1 | CBL-PWRC21RL-CN | |
| North America | 20A, 250 VAC | IEC-60320 C20 | CBL-PWRC21RL-C20NA | |
| Europe | 16A, 250 VAC | IEC-60320 C20 | CBL-PWRC21RL-C20EU | |
| Japan | 20A, 250 VAC | ICE-60320 C20 | CBL-PWRC21RL-C20JP | |
| China | 16A, 250 VAC | IEC-60320 C20 | CBL-PWRC21RL-C20CN | |
| Switzerland | 16A, 250 VAC | SEV 1011 | CBL-PWRC21RL-SZ | |
| South Africa | 16A, 250 VAC | SANS 164/1 | CBL-PWRC21RL-SA | |
| India | 16A, 250 VAC | IS1293, RA | CBL-PWRC21RL-IN | |
| United Kingdom | 16A, 250 VAC | BS 1363 | CBL-PWRC21RL-UK | |
| Israel | 16A, 250 VAC | SI 32/1971 Type IL/3G | CBL-PWRC21RL-IL | |
| Brazil | 16A, 250 VAC | NBR 14136 Type BR/3 | CBL-PWRC21RL-BR | |
| Argentina | 16A, 250 VAC | IRAM 2073 Type RA/3 | CBL-PWRC21RL-AR | |
PTX10008 Power Cables Specifications
Most sites distribute power through a main conduit that leads to frame-mounted power distribution panels, one of which can be located at the top of the rack that houses the router. An AC power cord connects each power supply to the power distribution panel.
In North America, AC power cords must not exceed 15 feet (approximately 4.5 meters) in length, to comply with National Electrical Code (NEC) Sections 400-8 (NFPA 75, 5-2.2) and 210-52 and Canadian Electrical Code (CEC) Section 4-010(3). The cords shipped with the router to North America and Canada are in compliance.
PTX10008 AC, high-voltage alternating current (HVAC), and high-voltage direct current (HVDC) power supplies have specific cord requirements. Use the following sections to determine the cable requirements based on the model of your power supply and any mode settings:
For JNP10K-PWR-AC, see JNP10K-PWR-AC Power Cable Specifications
For JNP10K-PWR-AC2 with 20-A input, see JNP10K-PWR-AC2 Power Cable Specifications
For JNP10K-PWR-AC2 with 30-A input, see JNP10K-PWR-AC2 Power Cable Specifications for 30-A Input
- JNP10K-PWR-AC Power Cable Specifications
- JNP10K-PWR-AC2 Power Cable Specifications
- JNP10K-PWR-AC2 Power Cable Specifications for 30-A Input
JNP10K-PWR-AC Power Cable Specifications
Each JNP10K-PWR-AC power supply has two independent 16 A rated AC inlets on the faceplate.
Each detachable AC power cord is 8 feet (approximately 2.5 meters) long. The coupler end of the appliancecord inserts into the AC appliance inlet on the faceplate of the AC power supply. The coupler type is C19 as described by the International Electrotechnical Commission (IEC) standard 60320. The plug end of the power cord fits into the power source outlet that is standard for your geographical location.
Table 15 lists the AC power cord specifications for JNP10K-PWR-AC for various countries and regions.
Country/Region | Electrical Specifications | Plug Standards | Juniper Model Number | Graphic |
|---|---|---|---|---|
Argentina | 250 VAC, 16 A, 50 Hz | IRAM Type RA/3/20 | CBL-EX-PWR-C19-AR |  |
Australia | 250 VAC, 15 A, 50 Hz | AS/NZS 3112 Type SAA/3/15 | CBL-EX-PWR-C19-AU |  |
Brazil | 250 VAC, 16 A, 50 Hz | NBR 14136: 2002 Type BR/3/20 | CBL-EX-PWR-C19-BR |  |
China | 250 VAC, 16 A, 50 Hz | GB 1002 Type PRC/3/16 | CBL-EX-PWR-C19-CH |  |
Europe (except Italy, Switzerland, and United Kingdom) | 250 VAC, 16 A, 50 Hz | CEE (7) VII Type VIIG | CBL-EX-PWR-C19-EU |  |
India | 250 AC, 16 A, 50 Hz | SABS 164/1:1992 Type ZA/3 | CBL-EX-PWR-C19-SA |  |
Israel | 250 AC, 16 A, 50 Hz | SI 32/1971 Type IL/3 | CBL-EX-PWR-C19-IL |  |
Italy | 250 VAC, 16 A, 50 Hz | CEI 23-16 Type I/3/16 | CBL-EX-PWR-C19-IT |  |
Japan | 250 VAC, 16 A, 60 Hz | NEMA 6–20 Type N6/20 | CBL-EX-PWR-C19-JP (default) |  |
250 VAC, 16 A, 60 Hz | NEMA L6–20P Type NEMA Locking | CBL-EX-PWR-C19-JPL |  | |
Korea | 250 VAC, 16 A, 50 Hz | CEE (7) VII Type VIIG | CBL-EX-PWR-C19-KR |  |
North America | 250 VAC, 16 A, 60 Hz | NEMA 6–20 Type N6/20 | CBL-EX-PWR-C19-US (default) | |
250 VAC, 16 A, 60 Hz | NEMA L6–20P Type NEMA Locking | CBL-EX-PWR-C19-USL | | |
South Africa | 250 VAC, 16 A, 50 Hz | SABS 164/1:1992 Type ZA/3 | CBL-EX-PWR-C19-SA |  |
Switzerland | 250 VAC, 16 A, 50 Hz | SEV 5934/2 Type 23G | CBL-EX-PWR-C19-SZ |  |
United Kingdom | 250 VAC, 13 A, 50 Hz | BS 1363/A Type BS89/13 | CBL-EX-PWR-C19-UK | |
Worldwide (except Japan) | 250 VAC, 16 A, 50 Hz | EN 60320-2-2/1 | CBL-EX-PWR-C19-C20 |  |
JNP10K-PWR-AC2 Power Cable Specifications
The JNP10K-PWR-AC2 power supply operates in two modes:
JNP10K-PWR-AC2 Power Cable Specifications for 30-A Input shows cables and connectors for 30-A input with 5500-W output. One end of the cable has a type SAF-D-GRID Series (3-5958P4) Anderson APP-400 connector, rated 30A/400V/105C, while the other end of the cable is bare wire.
Table 16 shows cables appropriate for 20-A input with 3000-W output. One end of the cable has a type SAF-D-GRID Series (3-5958P4) Anderson APP-400 connector, rated 30A/400V/105C. An example of the connector is shown in Figure 1.
Do not run JNP10K-PWR-AC2 power supplies using 16-A or 20-A cables if connected to 30-A input.
You can prevent AC power cables from being exposed to hot air exhaust by always routing the power cables away from the fan trays and power supplies.
It is important to connect both input feeds of the JNP10K-PWR-AC2 power supply to AC mains before loading the system with power.
Locale | Cord Set Rating | Plug Standards | Spare Juniper Model Number | Graphic |
|---|---|---|---|---|
Argentina | 16 A, 250 VAC | IRAM 2073 Type RA/3 | CBL-JNP-SG4-AR | |
Australia and New Zealand | 15 A, 250 VAC | AS/NZS 3112 | CBL-JNP-SG4-AU | |
Brazil | 16 A, 250 VAC | NBR 14136 Type BR/3 | CBL-JNP-SG4-BR | |
China | 16 A, 250 VAC | GB2099 | CBL-JNP-SG4-CH | |
China, Europe, and Japan | 16 A, 250 VAC | C20 to Anderson 3-5958p4 | CBL-JNP-SG4-C20-CH |  |
Europe (except Italy, Switzerland, and United Kingdom) | 20 A, 250 VAC | CEE 7/7 | CBL-JNP-SG4-EU | |
Great Britain | 13 A, 250 VAC, | BS1363 | CBL-JNP-SG4-UK | |
India | 16 A, 250 VAC | SANS 164/1 | CBL-JNP-SG4-SA |  |
Israel | 16 A, RA, 250 VAC | SI 32/1971 Type IL/3C | CBL-JNP-SG4-IL | |
Italy | 16 A, 250 VAC | CEI 23-50 | CBL-JNP-SG4-IT | |
North America | 20 A, 250 VAC | C20 to Anderson 3-5958p4 | CBL-JNP-SG4-C20 | |
16 A, 250 VAC | Locking NEMA L6-20P | CBL-JNP-SG4-US-L | | |
NEMA 6-20P | CBL-JNP-SG4-US | | ||
20 A, 277 V | NEMA I7-20P | CBL-JNP-SG4-HVAC |  | |
South Africa | 16 A, 250 VAC | SANS 164/1 | CBL-JNP-SG4-SA | |
Switzerland | 16 A, 250 VAC | CEI 23-50 | CBL-JNP-SG4-SZ | |
JNP10K-PWR-AC2 Power Cable Specifications for 30-A Input
The JNP10K-PWR-AC2 AC or HVDC power supply require a high current cable assembly when set for 30-A input. One end of the cable has a type SAF-D-GRID Series (3-5958P4) Anderson APP-400 connector, rated 30A/400V/105C, while the other end of the cable is bare wire. See Figure 2 and Table 17. These cables are separately orderable and are not shipped automatically with JNP10K-PWR-AC2 orders. An example of the right-angle cable and connector is shown in Figure 4.
For connection to AC systems, Juniper provides a cable with either a NEMA 30-A connector (Figure 2) or an IEC 330P6W connector (Figure 3).
Locale | Cord Set Rating | Plug Standards | Connector | Spare Juniper Model Number | |
|---|---|---|---|---|---|
AC/HVDC power cord | Any | 30-A, 400 VAC | UL 950 and IEC 60950 | Anderson/straight to bare wire | CBL-PWR2-BARE |
30-A, 400 VAC | UL 950 and IEC 60950 | Anderson/right-angle to bare wire | CBL-PWR2-BARE-RA | ||
AC power cord | Continental Europe | 30-A 250 VAC | UL 950 and IEC332P6 | Anderson/right-angle to IEC 332P6 | CBL-PWR2-332P6W-RA |
30-A 250 VAC | UL 950 and IEC332P6 | Anderson/straight to IEC332P6 | CBL-PWR2-332P6W | ||
North America | 30-A 250 VAC | IEC330P6 | Anderson/right-angle to IEC 330P6 | CBL-PWR2-330P6W-RA | |
30-A 250 VAC | IEC330P6 | Anderson/straight to IEC 330P6 | CBL-PWR2-330P6W | ||
30-A 250 VAC | UL 498, CSA | Anderson/right-angle to L6-30P (NEMA-30A) | CBL-PWR2-L6-30P-RA | ||
30-A 250 VAC | UL 498, IEC5958P4 | Anderson/straight to L6-30P (NEMA-30A) | CBL-PWR2-L6-30P |
1 — Black wire – “+” or “-“ for HVDC and “Hot or neutral” for AC | 3 — White wire – “+” or “-“ for HVDC and “Hot or neutral” for AC |
2 — Green wire - Ground |
JNP10K-PWR-DC Power Specifications
The DC power supply (JNP10K-PWR-DC) is supported only in routers in which you have installed the JNP10008-SF or JNP10016-SF switch fabric. Table 18 lists the power specifications for the JNP10K-PWR-DC power supply used in PTX10008 and PTX10016 routers.
Item | Specifications |
|---|---|
DC input voltage |
|
DC input current rating | 60 A maximum at nominal operating voltage (–48 VDC) for each input terminal |
Output power | 2500 W |
Table 19 shows the physical specifications of the JNP10K-PWR-DC power supply.
Specification | Value |
|---|---|
Height | 3.4 in. (8.64 cm) |
Width | 3.6 in. (9.14 cm) |
Depth | 14.4 in. (36.58 cm) |
Weight | 6 lb (2.72 kg) |
JNP10K-PWR-DC2 Power Specifications
If you are upgrading a JNP10008-SF system to use JNP10K-PWR-DC2 power supplies, also upgrade your fans and fan tray controllers to ensure the proper airflow. JNP10K-PWR-DC2 power supplies require JNP10008-FAN2 and JNP10008-FTC2 cooling systems.Table 20 lists the power specifications for the dual DC power supply used in a PTX10008 chassis.
Item | Specifications |
|---|---|
DC input voltage |
|
DC input current rating |
|
Output power | 2200 W for low input (60-A) single feed 4400 W for low input (60-A) dual feed 2750 W for high input (80-A) single feed 5500 W for high input (80-A) dual feed |
Table 21 shows the physical specifications for a JNP10K-PWR-DC2 power supply.
Specification | Value |
|---|---|
Height | 3.4 in. (8.64 cm) |
Width | 3.6 in. (1.63 cm) |
Depth | 16.05 in. (40.77 cm) |
Weight | 8.6 lb (3.9 kg) |
JNP10K-PWR-DC3 Power Specifications
If you are upgrading a JNP10008-SF system to use JNP10K-PWR-DC3 power supplies, also upgrade your fans and fan tray controllers to ensure the proper airflow. Table 22 lists the power specifications for the DC power supply (JNP10K-PWR-DC3) used in PTX10008 routers.
Item | Specifications |
|---|---|
DC input voltage |
|
Input current rating | 60 A/80 A |
Output power | 12.3 VDC |
Table 23 shows the physical specifications for a JNP10K-PWR-DC3 power supply.
Specification | Value |
|---|---|
Height | 3.386 in. (8.60 cm) |
Width | 3.584 in. (9.10 cm) |
Depth | 15.391 in. (39.09 cm) |
Weight | 12.8 lb. (5.7 kg) |
For more information, see:
