Cisco CEE 7/7 - IEC-C19 13-ft Europe
Contents
1. Table 2 2 1300 W and 1400 W AC Power Cords continued Locale Part Number Length Plug Rating Plug Type Europe CAB AC 2800W EU 13 2 ft 250 VAC 16A CEE 7 7 4 0 m 5 Lo 7 3 SO A S South Africa CAB BS546 C15 SA 13 6 ft 250 VAC 16 A India was CAB 7513ACSA 4 1 m International CAB AC 2800W INT 13 6 ft 250 VAC 16 A 4 1 m United CAB BS1363 C19 UK 14 ft 4 3 m 250 VAC 13 A Kingdom Israeli CAB S132 C19 ISRL 14 ft 4 3 m 250 VAC 16 A SI32 UPS 220V CAB C19 CBN 9 ft 2 74 m 250 VAC 20 A a gt o UPS 110V CAB C19 C14 14 ft 4 3 m 125 VAC 16 A IEC 60320 C14 y y ie a 3 I 0L 13972 02 Catalyst 4500 E Series Switches Installation Guide Chapter2 Preparing for Installation M Power Connection Guidelines for AC Powered Systems Table 2 3 2800 W AC Power Cords Locale Part Number Length Plug Rating Plug Type Appliance Coupler 120353 2800 W Power Supply PWR C45 2800ACV North America CAB AC 2800W TWLK 13 6 ft 250 VAC 16 A NEMA L6 20 locking 4 1 m 200 240 VAC operation E North America CAB AC 2800W 6 20 13 2 ft 250 VAC 16 A NEMA 6 20 non locking 4 0 m non locking 200 240 VAC operation n Europe CAB AC 2800W EU 13 2 ft 250 VAC 16 A CEE 7 7 4 0 m Argentina CAB IR2073 C19 AR 14 ft 4 3 m 1250 VAC 10 A IRAM 2073 was CAB 7513ACR 120357 International CAB AC 2800W INT2. M Power Connection Guidelines for AC Powered Systems Table 2 5 6000 W AC Power Cords continued Locale Part Number Length Plug Rating Plug Type Switzerland CAB ACS 16 8ft 2 9m 250 VAC 16 A G23 India CAB SABS C19 IND 14 ft 4 3 m 1250 VAC 16 A SABS 164 1 UPS 220V CAB C19 CBN 9 ft 2 74 m 250 VAC 20 A UPS 110V CAB C19 C14 14 ft 4 3 m 125 VAC 16 A P TO a J 3 Catalyst 4500 E Series Switches Installation Guide 212 E OL 13972 02 Chapter 2 Preparing for Installation Power Connection Guidelines for DC Powered Systems Mi Power Connection Guidelines for DC Powered Systems This section provides the basic guidelines for connecting the Catalyst 4500 E series switch compatible DC input power supplies to the site power source or AC power shelf e All power connection wiring should conform to local and national codes e DC and DC return terminals are evaluated for use with 1 0 AWG wire 1400W DC supply only e The ground terminal is evaluated for use with 6 AWG wire 10 AWG for the multi input power supply e DC and DC return wire lugs shall not exceed 0 83 inches in width 0 378 inches for the multi input power supply e For DC power cables we recommend that you use commensurately rated high strand count copper wire cable Connection to the DC input power supply requires one earth ground cable one source DC and one source DC return The length of the
3. Following are guidelines for preventing ESD damage e Always use an ESD wrist or ankle strap and ensure that it makes good skin contact e Connect the equipment end of the strap to an unfinished chassis surface e When installing a component use any available ejector levers or captive installation screws to properly seat the bus connectors in the backplane or midplane These devices prevent accidental removal provide proper grounding for the system and help to ensure that bus connectors are properly seated Catalyst 4500 E Series Switches Installation Guide 22 E OL 13972 02 Chapter 2 Preparing for Installation A Site Power Requirements and Heat Dissipation Mi e When removing a component use any available ejector levers or captive installation screws to release the bus connectors from the backplane or midplane e Handle carriers by available handles or edges only avoid touching the printed circuit boards or connectors e Place a removed component board side up on an antistatic surface or in a static shielding container If you plan to return the component to the factory immediately place it in a static shielding container e Avoid contact between the printed circuit boards and clothing The wrist strap only protects components from ESD voltages on the body ESD voltages on clothing can still cause damage e Never attempt to remove the printed circuit board from the metal carrier Caution For safety peri
4. W Site Planning Checklist Table 2 6 Site Planning Checklist Task No Planning Activity Verified by Time Date 1 Space evaluation e Space and layout e Floor covering e Impact and vibration e Lighting e Maintenance access 2 Environmental evaluation e Ambient temperature e Humidity e Altitude e Atmospheric contamination e Airflow 3 Power evaluation e Input power type e Receptacle proximity to the equipment e Dedicated separate circuits for redundant power supplies e UPS for power failures 4 Grounding evaluation e Circuit breaker size 5 Cable and interface equipment evaluation e Cable type e Connector type e Cable distance limitations e Interface equipment transceivers 6 EMI evaluation e Distance limitations for signaling e Site wiring e RFI levels Catalyst 4500 E Series Switches Installation Guide 215 E OL 13972 02
5. 13 6 ft 250 VAC 16 A 4 1 m 120360 Catalyst 4500 E Series Switches Installation Guide HE OL 13972 02 Chapter2 Preparing for Installation Power Connection Guidelines for AC Powered Systems Mi Table 2 4 4200 W AC Power Cords Locale Part Number Length Plug Rating Plug Type Appliance Coupler 120353 4200 W PWR C45 4200ACV Power Supplies North America CAB US515P C19 US 9 8 ft 125VAC 15A NEMA 5 15P 120 VAC asa operation 3 North America CAB L620P C19 US 14 ft 4 2 m 250 VAC 20 A locking 200 240 VAC E operation 8 North America CAB US620P C19 US 13 2 ft 250 VAC 20 A NEMA 6 20 non locking 4 02 m non locking 200 240 VAC operation Europe CAB CEE77 C19 EU 13 2 ft 250 VAC 15 A CEE 7 7 4 0 m y Lo 5 So S International CAB I309 C19 INT 13 6 ft 250 VAC 16 A IEC 309 including 4 1 m Argentina and South Africa Australia CAB A3112 C19 AUS 14 ft 4 3 m 250 VAC 15 A Argentina CAB IR2073 C19 AR 14 ft 4 3 m 250 VAC 10 A was CAB 7513ACR Italy CAB C2316 C19 IT 14 ft 4 3 m 250 VAC 16 A CEI 23 16 Catalyst 4500 E Series Switches Installation Guide oL 13972 02 EJ Chapter 2 Preparing for Installation M Power Connection Guidelines for AC Powered Systems Table 2 4 4200 W AC Power Cords continued Locale Part Number Length Plug Rating Plug Type United CAB BS1363 C19 UK 14
6. E Series Switches Installation Guide Chapter2 Preparing for Installation M Power Connection Guidelines for AC Powered Systems Table 2 2 1300 W and 1400 W AC Power Cords Locale Part Number Length Plug Rating Plug Type Appliance Coupler 1300 W PWR C45 1300ACV and LT 1400 W PWR C45 1400AC Power Supplies North America CAB US520 C19 US 14 ft 4 3 m 1125 VAC 20 A NEMA 5 20 was CAB 7513AC 120353 120362 Australia CAB A3112 C19 AUS 14 ft 4 3 m 250 VAC 15A SAA 3 New Zealand was CAB 7513ACA AS NZZS 3112 1 o 93 Europe except CAB CEE77 C19 EU 14 ft 4 3 m 1250 VAC 16 A CEE 7 7 Italy was CAB 7513ACE gt Lo 5 SO S Italy CAB C2316 C19 IT 14 ft 4 3 m 250 VAC 16A 11 3 16 CEI 23 16 was CAB 7513ACI 120358 United CAB BS1363 C19 UK 14 ft 4 3m 1250 VAC 13 A IBS 89 13 Kingdom was CAB 7513ACU BS 1363 A Argentina CAB IR2073 C19 AR 14 ft 4 3 m 250 VAC 10 A was CAB 7513ACR 120356 North America CAB AC 2800W TWLK 13 6 ft 250 VAC 16 A locking 4 1 m 200 240 VAC E operation 8 North America CAB AC 2800W 6 20 13 2 ft 250 VAC 16 A NEMA 6 20 non locking 4 0 m non locking 200 240 VAC operation 120355 Catalyst 4500 E Series Switches Installation Guide HE OL 13972 02 Chapter 2 Preparing for Installation Power Connection Guidelines for AC Powered Systems
7. cables depends on your switch location These cables are not available from Cisco Systems They are available from any commercial cable vendor e The color coding of the source DC power cable leads depends on the color coding of the site DC power source Typically green or green and yellow indicate that the cable is a ground cable Because there is no color code standard for source DC wiring you must ensure that the power cables are connected to the DC input power supply terminal block in the proper and polarity In some cases the source DC cable leads might have a positive or a negative label This label is a relatively safe indication of the polarity but you must verify the polarity by measuring the voltage between the DC cable leads When making the measurement the positive lead and the negative lead must always match the and labels on the DC input power supply terminal block Calculating DC Input Current Step 1 Step 2 Step 3 Complete power usage tables are in the Catalyst 4500 Series Module Installation Guide To calculate the DC input current needed for data and inline power applications use the following steps the example shows the DC input current requirement in a Catalyst 4503 E with a Supervisor Engine II and two WS X4306 GB modules and assumes a DC input voltage of 48 VDC Add the power requirement for each component in your system e Catalyst 4503 E uses 54 W e Supervisor Engine
8. A CHAPTER Preparing for Installation Warning A This unit is intended for installation in restricted access areas A restricted access area can be accessed only through the use of a special tool lock and key or other means of security Statement 1017 Warning A Only trained and qualified personnel should be allowed to install replace or service this equipment Statement 1030 Warning A Warning A This equipment must be grounded Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor Contact the appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available Statement 1024 Class 1 laser product Statement 1008 If you will be using your switch as a PoE source the following warning applies Warning Voltages that present a shock hazard can exist on inline power circuits if interconnections are made by using uninsulated exposed metal contacts conductors or terminals Avoid using such interconnection methods unless the exposed metal parts are in a restricted access location and users and service people who are authorized to access the location are made aware of the hazard A restricted access area can be accessed only through the use of a special tool lock and key or other means of security Statement 1072 This chapter describes how to prepare your site for the i
9. II uses 147 W e WS X4306 GB uses 2 X 47 94 W e Total DC input power 295 W After the entries for all components have been added together divide that number by the DC input voltage to determine the DC input current e Input current 295 W 48 VDC 6 14 A for data only Step 3 to Step 5 are for applications requiring inline power If your configuration does not include inline power devices the DC input current is the result of Step 2 If you want to add an inline capable module WS X4148 RJ45V with 10 inline devices such as IP Phones to your system calculate the DC output power sent to inline devices I 0L 13972 02 Catalyst 4500 E Series Switches Installation Guide Chapter2 Preparing for Installation WE Ventilation Ventilation Step 4 Step 5 Step 6 e 10X 6 3 W 63 W for inline devices 6 3 Watts is correct for a Cisco IP phone Wattage consumption will depend on the inline device used Find the DC input power using the DC output power e 63 96 efficiency 65 W of DC input power Divide the DC input power by the DC voltage input of 48 V to find the DC input current used by inline devices e 65 48 1 4 Amps for inline devices Add the DC input current used by data and the DC input current used by inline devices to find the total DC input current e Total DC input current 6 14 1 4 7 54 A Planning a proper location for the switch and the layout of your equipment rack or wiring close
10. ational locations as well as the appliance coupler that is attached to the other end of the 4200 W power supply power cord The cable part numbers use standard conventions as shown in this example CAB L620P C19 US CAB L means the cable will lock to the outlet 620P means the cable is intended for a NEMA 220V 20 AMP circuit connection C19 refers to the appliance side connector shape rated for 20 Amps US is the country the cable is intended for use in Catalyst 4500 E Series Switches Installation Guide 2 E OL 13972 02 Chapter 2 Preparing for Installation Power Connection Guidelines for AC Powered Systems Table 2 1 1000 W AC Power Supply Power Cords Locale Part Number Length Plug Rating Plug Type Appliance 1000 W Power Supply PWR C45 1000AC Coupler g North America CAB US515 C15 US 8 2 ft 2 5 m 125 VAC 15 A was CAB 7KAC Australia CAB AS3112 C15 AU 8 2 ft 2 5 m 1250 VAC 15 A SAA 3 New Zealand was CAB 7ACA AS NZS 3112 1993 D c g Europe except CAB CEE77 C15 EU 8 2 ft 2 5 m 250 VAC 16 A CEE 7 7 Italy was CAB 7ACE y Lo E SO Italy CAB C2316 C15 IT 8 2 ft 2 5 m 250 VAC 16 A 1 3 16 CEI 23 16 was CAB 7ACI P o United CAB BS1363 C15 UK 8 2ft 2 5m 1250 VAC 13 A BS89 13 Kingdom was CAB 7ACU BS 1363 A Argentina CAB IR2073 C15 AR 8 2 ft 2 5 m 250 VAC 10 A IRAM 2073 was CAB 7KACR S c a I OL 13972 02 Catalyst 4500
11. ft 4 3 m 250 VAC 13 A BS 1363 Kingdom Israeli CAB S132 C19 ISRL 14 ft 4 3 m 250 VAC 16 A SI32 UPS 220V CAB C19 CBN 9 ft 2 74 m 250 VAC 20 A a a gl 3 UPS 110V CAB C19 C14 14 ft 4 3 m 1125 VAC 16 A 130924 Catalyst 4500 E Series Switches Installation Guide OL 13972 02 Chapter 2 Preparing for Installation Table 2 5 Locale 6000 W AC Power Cords Part Number Power Connection Guidelines for AC Powered Systems Length Plug Rating Plug Type 6000 W PWR C45 6000ACV Power Supplies Appliance Coupler 120353 North America CAB US515P C19 US 9 8 ft 125VAC 15A NEMA 5 15P 120 VAC ean operation 3 North America CAB US620P C19 US 13 2 ft 250 VAC 20 A NEMA 6 20 non locking 4 02 m non locking 200 240 VAC operation a Europe CAB AC 2800W EU 13 2 ft 250 VAC 16 A CEE 7 7 4 0 m 5 Lo E SO S International CAB AC 2800W INT 13 6 ft 250 VAC 20 A IEC 309 4 1 m North America CAB AC 2800W TWLK 13 6 ft 250 VAC 16 A locking 4 1 m 200 240 VAC operation 8 Australia CAB AC 16A AUS 14 ft 4 3 m 250 VAC 16 A AU20S3 Argentina CAB IR2073 C19 AR 14 ft 4 3 m 250 VAC 16 A IRAM 2073 a China CAB 9K16A CH 14 ft 4 3 m 250 VAC 16 A GB16C 200 240 VAC E operation 8 I 0L 13972 02 Catalyst 4500 E Series Switches Installation Guide Chapter2 Preparing for Installation
12. hat the exhaust from other equipment does not blow into the intake vent of the chassis Cooling air is drawn in through the right side of the chassis Keep the right side clear of obstructions including dust and foreign conductive material and away from the exhaust ports of other equipment Allow at least one foot of clearance for both intake and exhaust air flow and keep cover plates on unused power supply bays and switching module slots to ensure the air in the chassis flows as designed Appendix A Specifications lists the operating and nonoperating environmental site requirements for the switches To maintain normal operation and ensure high system availability maintain an ambient temperature and clean power at your site The environmental ranges listed in Appendix A Specifications are those within which the switch will continue to operate however a measurement that approaches the minimum or maximum of a range indicates a potential problem You can maintain normal operation by anticipating and correcting environmental anomalies before they exceed the maximum operating range Catalyst 4500 E Series Switches Installation Guide 2 14 E OL 13972 02 Chapter2 Preparing for Installation Calculating System Heat Dissipation Site Planning Checklist W To calculate the expected heat dissipation from a switch add the total amount of power drawn from power supply by the system s configuration then divide the total amount
13. ly has its own dedicated branch circuit e Size the circuits according to local and national codes e If you are using a 200 240 VAC power source in North America use a two pole circuit breaker to protect the circuit e Place the source AC outlet within 6 feet 1 8 meters of the system and make sure it is easily accessible I 0L 13972 02 Catalyst 4500 E Series Switches Installation Guide Chapter2 Preparing for Installation M Power Connection Guidelines for AC Powered Systems Make sure the AC power receptacles used to plug in the chassis are the grounding type The grounding conductors that connect to the receptacles should connect to protective earth ground at the service equipment Four types of AC input power supplies are available 1000 W Table 2 1 lists the AC input power cord options specifications Cisco part numbers and shows the different styles of 1000 W AC input power cord wall plugs that are available for North America and international locations as well as the appliance coupler that is attached to the power supply end of the power cord 1300 W Table 2 2 lists the AC input power cord options specifications and Cisco product numbers and shows the different styles of 1300 W AC input power cord wall plugs that are available for North America or various international locations as well as the appliance coupler that is attached to the power supply end of the power cord Ss Note For North America the powe
14. nstallation of the switch The information is presented in these sections e Electrostatic Discharge page 2 2 e Site Power Requirements and Heat Dissipation page 2 3 e Power Connection Guidelines for AC Powered Systems page 2 3 e Power Connection Guidelines for DC Powered Systems page 2 13 e Ventilation page 2 14 e Site Planning Checklist page 2 15 Catalyst 4500 E Series Switches Installation Guide 0L 13972 02 E Chapter2 Preparing for Installation WE Electrostatic Discharge amp Note See the Site Planning Checklist at the end of this chapter to help ensure that you complete all site planning activities before you install the switch Electrostatic Discharge Electrostatic discharge is common on Category 5E and Category 6 cabling systems Category 5E and Category 6 cables have higher capacitance than Category 5 cables As a result Category 5E and Category 6 cables can store higher voltages than Category 5 cables and are more prone to damaging networking equipment if a differential discharge event occurs Unshielded twisted pair cables can store high voltages When these charged cables are connected to networking equipment energy is discharged into the networking equipment this is known as electrostatic discharge ESD Networking equipment is commonly designed and tested to withstand common mode ESD events of up to 2000 V The design for the common mode event is based on the expectation that the discharge is delive
15. odically check the resistance value of the antistatic strap The measurement should be between 1 and 10 megohm Mohm Site Power Requirements and Heat Dissipation This section provides module power requirements and heat dissipation specifications for the Catalyst 4500 E series switches You should verify site power before you install the switch For more information about power management and planning refer to the Environmental Monitoring and Power Management chapter in the Catalyst 4500 Series Switch Cisco IOS Software Configuration Guide version appropriate for your software Knowing the power requirements is useful for planning the power distribution system needed to support the switches You should consider the heat dissipation specifications when estimating the air conditioning requirements for an installation For all Catalyst 4500 series switches supervisor engines and switching modules in AC or DC environments see the Catalyst 4500 Series Module Installation Guide at http www cisco com en US docs switches lan catalyst4500 hardware module guide Oaspecs html wp 1007594 Catalyst 4500 E series supervisor engines and switching modules are discussed elsewhere in this book Power Connection Guidelines for AC Powered Systems This section provides guidelines for connecting the Catalyst 4500 E series switch AC power supplies to the site power source Basic guidelines include the following e Make sure each chassis power supp
16. of power by the efficiency of the power supply Multiply the result by 3 415 to get the system heat dissipation in BTUs hr First example System without any powered devices Components Output Power 1 Catalyst 4506 E with fans 50 W 1 Supervisor Engine IV 145 W 1 WS X4248 RJ45V with no phones 72 W total output power 267 W Total heat dissipated by system 267 75 3 415 1215 BTUs hr Note All power supplies have different efficiencies An average efficiency figure of 75 was chosen Second example same system but this time with one IEEE class 3 device Components Output Power 1 Catalyst 4506 E with fans 50 W 1 Supervisor Engine IV 145 W 1 WS X4248 RJ45V with no phones 72 W 1 IEEE class 3 device 17 3 W total output power 284 W Total heat dissipated by system 284 75 3 415 1293 BTUs hr amp Note Although a class 3 device needs 15 4 W to power up 17 3 W need to be generated from the backplane in order to have 15 4 W at the switch port 17 3 W comes from the WS X4248 RJ45V DC DC converter s efficiency 89 Site Planning Checklist Table 2 6 lists the site planning activities that you should complete before you install a Catalyst 4500 E series switch Completing each activity helps to ensure a successful switch installation OL 13972 02 Catalyst 4500 E Series Switches Installation Guide E Chapter 2 Preparing for Installation
17. r cord plug types and appliance couplers on the power supplies are different for the 1000 W power supplies and the 1300 W power supplies for other countries the plugs shown are the same for the 1000 W and 1300 W power supplies 1400 W Table 2 2 lists the AC input power cord options specifications and Cisco product numbers and shows the different styles of 1400 W AC input power cord wall plugs that are available for North America or various international locations as well as the appliance coupler that 1s attached to the power supply end of the power cord 2800 W Table 2 3 lists the AC input power cord options specifications and Cisco part numbers and shows the different styles of 2800 W AC input power cord wall plugs that are available for North America and international locations as well as the appliance coupler that is attached to the other end of the 2800 W power supply power cord 4200 W Table 2 4 lists the AC input power cord options specifications and Cisco part numbers and shows the different styles of 4200 W AC input power cord wall plugs that are available for North America and international locations as well as the appliance coupler that is attached to the other end of the 4200 W power supply power cord 6000 W Table 2 5 lists the AC input power cord options specifications and Cisco part numbers and shows the different styles of 6000 W AC input power cord wall plugs that are available for North America and intern
18. red to all pins of a port at once Sometimes voltage is discharged to some of the pins of the connector and not others or to some pins on the connector before others This is known as a differential discharge event which can damage the networking equipment being connected You can take the following measures to prevent ESD cable damage e Ground the cable before connecting the networking equipment You can create a grounding cable using an RJ 45 patch cable by doing the following Bare the wires on one end Connect the wires to a suitable and safe earth ground Connect the RJ 45 cable to a female RJ 45 connector e Briefly connect all cables to the grounded cable before connecting to networking equipment e Leave cables from the networking equipment in the distribution closet connected to ports at user desktops After you make connections on either side of the cable to networking equipment the cable will not build up charge Preventing Electrostatic Discharge Damage Electrostatic discharge ESD damage which can occur when electronic cards or components are improperly handled results in complete or intermittent failures Port adapters and processor modules consist of printed circuit boards that are fixed in metal carriers Electromagnetic interference EMI shielding and connectors are integral components of the carrier Although the metal carrier helps to protect the board from ESD use a preventive antistatic strap during handling
19. t is essential for successful system operation You should install the switch in an enclosed secure area ensuring that only qualified personnel have access to the switch and control of the environment Equipment placed too close together or inadequately ventilated can cause system overtemperature conditions In addition poor equipment placement can make chassis panels inaccessible and difficult to maintain The switch operates as a standalone system mounted in a rack in a secure wiring closet It requires a dry clean well ventilated and air conditioned environment To ensure normal operation maintain ambient airflow If the airflow is blocked or restricted or if the intake air is too warm an overtemperature condition can occur The switch environmental monitor can then shut down the system to protect the system components To ensure normal operation and avoid unnecessary maintenance plan your site configuration and prepare your site before installation After installation make sure the site maintains an ambient temperature of 0 to 40 C 32 to 104 F It is essential to keep the area around the chassis as free from dust and foreign conductive material such as metal flakes from nearby construction activity as is possible Multiple switches can be rack mounted with little or no clearance above and below the chassis However when mounting a switch in a rack with other equipment or when placing it on the floor near other equipment ensure t
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