Selection and application guide

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Siemens Energy & Automation, Inc.

Selection and application guide

www.usa.siemens.com/i-3

i-3® Control

Technology V2

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i-3® Control Technology V2

3 The Siemens P1 Series Lighting Panelboard with i-3 V2 Control Technology is the next step in engineering innovation for our lighting control product portfolio. The i-3 V2 is a lighting control solution that allows engineers and end users to integrate, install, and interface controllable breakers into their electrical applications; hence the name i-3 V2.

The i-3 V2 is designed to provide a simple,flexible, compact solution for controlling branch lighting circuits remotely via a time schedule or an external signal (i.e. a switch, Building Automation System, etc.). The i-3 V2 reduces energy consumption by providing programmable remote control of our patented SIPODs, which are connected to Siemens BQD frame breakers. This modular design produces a “smart” breaker system that lowers installation costs, minimizes the impact and cost of future system modifications, makes retrofit applications less tedious, and reduces component replacement costs. The i-3 V2 offers a touch screen panel on its system controller that provides a user friendly graphical interface for commissioning and scheduling. i-3 V2 components mount inside a standard P1 lighting panelboard. The i-3 V2 can stand alone or be networked into a larger Building Automation System (BAS).

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P1 Series Lighting Panel

integration

J Small footprint — can stack up to two 42 circuit panels in one section of an IPS Switchboard

J Reduced labor costs -- add to existing P1 , S1 or S2 SIEMENS panelboards installations by simply replacing interior, using the current enclosure.

J Enhanced power management

-- control up to eight panels from a single system controller.

interface

J EIB, MODBUS, BACnet and dry or wet contact capable

J USB interface in System Controller for uploading and downloading panel configurations

J Integrated color touch panel with intuitive commissioning setup wizards (no PC required). PC interface also available. installation

J Modular design with use of standard BQD breakers, add SIPODs only where control is needed

J Reduced wiring complexity over traditional systems

J Reduced labor and installation costs

Qualified Person

This device/system may only be set up and used in conjunction with these instructions. Installation, maintenance and operation of this device/system may only be performed by qualified personnel. Within the context of these instructions, qualified persons are defined as persons who have the skills and knowledge related to the construction and operation of the electrical equipment and installations and have received safety training to recognize and avoid the hazards involved.

Panel Amp Ratings: Up to 250A

System Ratings: 3 phase, 4-wire, 480Y/277V AC3 phase, 4-wire, 208Y/120V AC 1 phase, 3-wire, 120/240V AC

Panel Size: 18, 30, 42 circuits

Mains: Breaker or Lug

Enclosures: NEMA 1, 3R, 3R/12, 4 & 4X

Dimensions:

(NEMA 1) 20” wide x 5.75” deep Mounting: Flush or Surface

Front: Hinged, piano hinged, door-in-door, screw to the

box

Approvals:

UL 916 Energy Management Equipment Controller - cULus Listed.

Panelboard - cUL or UL Listed UL 489 Breakers

CA Title 24

Operating Conditions:

Ambient temperature operating: 23°F...104°F (-5°C...40°C)

Ambient temperature non-operating: -13°F...158°F (-25°C...70°C)

Specifications:

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Meter Breaker Combinations

Approved for Keyspan

System Controller System Controller System Controller System Controller MLO/Main Breaker Space Ground Bar i-3® V2 Controller Data Rail SIPOD BQD Breaker Neutral Extension Convenient Front Panel Communication Ports (through deadfront) System Controller I/O Controller J 250A bus

J No column mounted panels

J No feed thru or sub feed lugs J No split bus

J No internal TVSS

(deadfront/door removed for picture) Figure 2

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Figure 3

7

Branch Circuit Breakers

Load Lug Terminal BQD Line Connection

BQD breakers are required for all control points. BL breakers may be used for 240V applications involving non-controlled points. BQD breakers without a SIPOD can be used for 277V applications involving

non-controlled points.

Interrupting Rate (RMS kA)

Poles Volts (AC)

120 240 277 480 1 65 - 14 -2 - 65 - 14 Poles Amperage (@ 40 C) CatalogNumber 1 15A BQD115 20A BQD120 30A BQD130 2 15A BQD215 20A BQD220 30A BQD230 Breaker Selection for controlled circuits

BQD 15A Breaker Side View

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A

D

C

B

8

The SIPOD is a remotely operated electro-mechanical contactor that is attached to a Siemens BQD molded case circuit breaker allowing loads to be switched ON and OFF. The SIPOD has the following features:

J UL Listed 489 CB Accessory

J Same kA rating as the BQD breaker

J Rated for 500,000 + operations at full load

The SIPOD connects to the load side of the breaker by inserting the

conductor tab into the breaker load lug. The SIPOD load lug is the same size as the circuit breaker load lug, so load wire connections can easily be attached to the SIPOD load lug. Manual Override

To simplify testing during installation and commissioning, the SIPOD includes a manual override that forces the main contacts to close. Once the override lever is rotated to the closed position, the contacts remain closed until the SIPOD receives a command signal from the controller. This feature allows electrical loads to be tested prior to configuring the lighting control system. The manual override of remote commands is temporary until the controller is commissioned and operational. The manual override is purely mechanical, so no

electrical feedback is provided. The manual override is not designed to be used to open the SIPOD contacts. This may damage the mechanism. To turn power to the load OFF after using the SIPOD manual override to close its contacts, the BQD circuit breaker toggle must be used.

Maglatch Mechanism

The SIPODs switch ON/OFF via a maglatch mechanism, designed to hold and actuate between the ON and OFF state. This bi-stable operation is achieved with the use of a solenoid, a permanent magnet and a spring to ensure the SIPOD contacts remain in their current state if power is lost. When power is restored, normal

operation resumes. Unlike motor driven mechanisms that are prone to high inrush currents, slippage, failure and loud noise due to the operation of the DC motor, the maglatch mechanism requires less power (approximately 1.7A @ 24VDC for 2-25 milliseconds), is faster (breaks

continuity in less than 4.5 milliseconds), has a longer mechanical life (more than half a million operations at full load) and is quieter (the only noise is the sound of the contacts striking). SIPOD statistics can be retrieved using the System Controller or the Modbus. This enables the user to learn the number of operations the SIPOD had performed.

Components 1 Manual Override 2 Maglatch Mechanism 3 Blow-Closed Mechanism 4 Integrated Electronics

SIPOD™

Components Description

1 Conductor tab The conductive element that connects the circuit

breaker to the SIPOD

2 Mechanical Status Indicator Provides the open/close status of the SIPOD contacts

3* Manual Override Allows the user to close the SIPOD contacts

4 SIPOD Load Lug The terminal that connects SIPOD to the lighting loads

5 SIPOD Connector 4-pin connector that links SIPOD to the data rail

A

B

C

D

E

* If the manual override is engaged while the controller is functioning, the controller will re-open the contacts. Signals from the controller take priority when functioning. This minimizes tampering when the system is functioning.

Figure 4

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SIPOD™

Blow-Closed Mechanism

The blow-closed mechanism is designed to keep the SIPOD contacts closed during short circuit and overload conditions. This is achieved by using a compression spring, a steel yoke and armature that function as a magnet, and two parallel conductors. During normal operation, the spring provides the force required to maintain the contacts in either the open or closed position. During extremely high current levels, the parallel conductors produce a non-saturating force that is proportional to the square of the current and length over which the parallel conductors are acting. This force combines with the forces produced by the spring and magnet, to keep the contacts closed. For more information, please refer to the Blow-Closed Mechanism White Paper. Available on:

www.usa.siemens.com/i-3

Integrated Electronics

The SIPOD contains a printed circuit board (PCB) that controls the SIPOD contacts and communicates with the controller through a data rail connection. Commands from the controller can open or close the SIPOD contacts, request contact status, or other operational parameters. The PCB also has a microprocessor that minimizes the power supplied from the source and ensures proper operation of the solenoid.

Fast and Easy Maintenance An exclusive SENTRON i-3® V2 system feature is the ability to keep operating even if the SIPOD fails. Just remove the SIPOD and use the breaker like a normal uncontrolled breaker. This allows manual control of the lights while waiting for a replacement SIPOD. If the BQD breaker fails you can quickly get a replacement from your local Siemens distributor.

The modularity of the SIPOD/breaker combination reduces system down-time by allowing parts to be mixed and matched. This is not possible with a single unit remotely operated breaker.

How to minimize downtime if a SIPOD fails:

J Remove the SIPOD from the panel

J Connect the load to the load side of the breaker

J The circuit is now restored and controlled by the the circuit breaker handle.

J Order a replacement SIPOD from your Siemens distributor

If a breaker fails:

J Remove the breaker from the panel

J Obtain an off-the shelf replacement BQD breaker

J BQD breakers are stock items with minimal lead time

Danger

Figure 6 Figure 7 Figure 8

Dangerous voltages are present in the equipment which may cause death, serious injury or property damage. Always disconnect and lock-off the equipment before maintenance. Maintenance should be performed only by qualified personnel. Qualified Person

This device/system may only be set up and used in conjunction with the instructions supplied with the equipment. Installation, maintenance and operation of this device/system may only be performed by qualified personnel. Within the context of these instructions, qualified persons are defined as persons who have the skills and knowledge related to the construc-tion and operaconstruc-tion of the electrical equipment and installations and have received safety training to recognize and avoid the hazards involved.

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Emergency SIPOD

™

Emergency Lighting Circuits Application

The i-3® V2 Technology System offers an option to control emergency lighting circuits.

For this application, i-3® V2 utilizes a standard two-pole BQD breaker coupled with a standard one-pole SIPOD. The assembly is installed in a factory modified P1 Panel-board.

Note: This is not a field modification option. The i-3® V2 system with this option must be ordered with this modification. An i-3® V2 system with emergency lighting circuits can have 2, 4, 6, 8, 10 or 12circuits factory modified for this application. See diagrams on next page

The functional circuit is shown below.

Figure 9

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11

Emergency SIPOD

™

A B C C A B B C C C A B B B A A C C C A B 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD4201 42 Circuits overall with

2 Emergency Circuits A B C C A B B A C C A B B B A A C C C A B 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD4202 42 Circuits overall with

4 Emergency Circuits 2-Pole BQD SIPOD 2-Pole BQD SIPOD A B C C A B B A C C C B B B A A C C C A B 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD4203 42 Circuits overall with

6 Emergency Circuits 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD A B C C A B B C C C A B B A C 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD3001 30 Circuits overall with

2 Emergency Circuits A B C C A B B A C C A B B A C 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD3002 30 Circuits overall with

4 Emergency Circuits 2-Pole BQD SIPOD 2-Pole BQD SIPOD A B C C A B B C C 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD1801 18 Circuits overall with

2 Emergency Circuits A B C Key: A-phase B-phase C-phase A B C C A B B A C 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD1802 18 Circuits overall with

4 Emergency Circuits A B C C A B B A C C C B B A C 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD3003 30 Circuits overall with

6 Emergency Circuits A B C C A B B A C A C B B A C 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD3004 30 Circuits overall with

8 Emergency Circuits 2-Pole BQD SIPOD 2-Pole BQD SIPOD A B C C A B B A C A C B B B A A C C C A B 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD4204 42 Circuits overall with

8 Emergency Circuits A B C C A B B A C A C B B B A C C C C A B 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD4205 42 Circuits overall with 10 Emergency Circuits 2-Pole BQD SIPOD 2-Pole BQD SIPOD A B C C A B B A C A C B B B A C C A C A B 2-Pole BQD SIPOD 2-Pole BQD SIPOD I3ESIPODMOD4206 42 Circuits overall with 12 Emergency Circuits 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD 2-Pole BQD SIPOD

The graphic above depicts the 12 possible panel configurations.Spaces not configured for emergency lighting control may be used for controlled or non controlled circuits.

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Controllers

The i-3® V2 P1 Series Lighting Control Panel has four available controllers:

J System Controller with color Touch Screen

J EIB (only to network with system controller)

J Modbus (RTU and TCP) – for Modbus BAS

J BACnet MSTP – for direct connection with Siemens Building Technologies APOGEE or any other BACnet BAS MS/TP master

The System Controllers enable users to implement time schedules, create zones, manage inputs, and display SIPOD and system status.

Battery Backup

(System Controller Only) In the event that power is lost, a factory installed battery will maintain the system clock settings for at least one year. The lithium coin cell battery is rated for 10 years.

The I/O Board input terminals require the connector shown in figures 12. There are two of these connectors; each accepts 10 inputs, which are numbered 1-10 and 11-20. Figure 13 shows the connector for the inputs common. It accepts 6 common wires. If your system has more than 6 common wires; they will need to be connected together outside of the controller and bring one common wire to the controller.Both connectors accept 18 AWG copper, stranded wire. Figure 14 shows the connector used for wet contacts and to power external sensors. Figure15 shows the Modbus/BACnet communications connector. Finally Figure16 shows the EIB connector, which is used for communications between the system controller and its salve (EIB) I/O controllers. Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 12

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I/O Controllers

The I/O Controllers provide the intelligence required to switch the remote operated breakers ON and OFF. The I/O Controllers also enables the i-3® V2 system to accept dry or wet contact inputs, and commands over

communication networks. Inputs and Outputs

J20 Digital, 2-wire Inputs

J10 Digital, 3-wire Inputs

J2 Analog Inputs

J2 Analog Outputs Communication Interface

JModbus RTU (Optional TCP/IP)

JEIB for communications with a System Controller master (EIB I/O controllers are not designed to operate alone; they must be tied to s System Controller)

J BACnet MSTP for Siemens Building Technologies APOGEE applications only or any other BACnet BAS MS/TP master Features:

JConfigurable zones dependent on

number of breakers per zone

JOff Warning Blink

JInput/output mapping

Communication Cable

(Modbus and BACnet applications) USB/RS–485 converter cable kit is required to allow communication between the i-3® V2 I/O Controller and a personal computer. This cable kit can be owner furnished or ordered from SIEMENS using the following part numbers:

J USB to RS–485 Kit: 5WG1 715-8XY02

The converter cable kit is fully assembled and includes all the required components to connect the I/O controller to the computer. (see figure 17)

Note: Contact Technical Support for Instructions

([email protected])

Figure 17

FTD Chip

part no. USB-RS485-WE-1800-BT Phoenix connector

part no. 1984028 USB-RS485 Converter kit

part no. 5WG1715-8XY02

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I/O Configuration Software (Modbus and BACnet Only)

The i-3® V2 Configurator Software is a Windows based application that enables the user to easily configure a i-3® V2 Modbus or BACnet I/O control-ler. Please visit: www.usa.siemens. com/i-3 to obtain a free copy of the software.

The i-3® V2 Control Technology Panel Configurator allows the user to:

J See an accurate graphical panel layout

J Check the status of breakers, inputs, and zones

J Configure zones and I/O mappings

J Import/ Export system configurations

J Operate all the SIPODs to test for proper communications and operations of each device

J Test the configuration

System Requirements

J Net Framework 2.0

J Windows XP, 2003, or newer

versions Status Screen: The graphical panel representation on the left indicates which _{SIPODs are open (green) or closed (red). The table on the right provides the status} of up to 20 digital inputs. SIPODS can be open and closed from this screen in order to test them for communications and operation.

Figure 18

Operations Screen: Allows the user to override the current SIPOD status, create zones, and set I/O mappings and test the settings.

Figure 19

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System Controller

The System Controller provides an intuitive color touchscreen with set-up wizards to configure the system. Off-line configuration software is also available from SIEMENS. Please visit: www.usa.siemens.com/i-3

to download a free copy.

The System Controller also includes the Modbus RTU and TCP/IP communication protocol in order to operate as slave to a Modbus BAS.

Features:

J Touch Screen Panel

J 6 Setup Wizards (Panels, Breakers, Inputs, Zones, I/O Mapping, and Schedules)

J Three levels of Password Protection

J Event Logs

J Flexible Automatic Daylight Saving Time and Leap Year compensation

J USB interface for programming and troubleshooting (details on page 16)

J 20 independent schedules (10 events per schedule)

J Unlimited holiday overrides

J Astronomical clock

Figure 20

System Controller Screenshots

Setup Wizards Password Protection Schedules

Tools and Overrides Zones I/O Mapping

Figure 21

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USB Interface

The USB interface enables users to upload or download system configuration files and software updates. This feature simplifies the installation, commissioning, and support of i-3® V2 equipped pan-elboards. Upgrades will no longer require lighting control “experts”. On occassions when technical assistance is needed, the user simply e-mails the configuration files to technical support. After the issue is remotely diagnosed, the updated file is e-mailed back to the user and downloaded to the controller. This reduces downtime and costs.

System Controller Screenshots

USB import file feature

For technical support call:

1-877-757-5002

Users can now send

configuration files to

technical support

for remote diagnosis

and solutions

16

Figure 22

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Communication and Networking Configurations

RS-485 I/O Controllers Modbus or BACnet USB to RS–485

The i-3® V2 System can communicate via EIB, Modbus or BACnet protocols; depending on the type of controllers in use.

The System Controller, on "stand alone" configuration, is networked with its slave controllers via EIB protocol. Up to seven IEB I/O controllers can be networked with one Sytem Controller. The total maximum cable length allowed for networking these panels is 3,300 ft (1,000 meters). The wire must be 18 AWG, solid copper twisted pair shielded (The recommended wire is

Belden 6320).

System Controller systems can also be slaves to Modbus BAS. The connection from the System Controller to the Mod-buas BAS master can be RTU or TCP/IP.

...Up to 7 additional panels can be networked from a single system controller EIB System Controller I/O Controllers 1st Floor

...up to 7 I/O Controllers ...up to 7 I/O Controllers2nd Floor

System

Controller 1 SystemController 2

Modbus

LAN/RS485

Note: System

control-lers cannot commu-nicate with each other even if they are on the same LAN.

Note: Up to a maximum of 32 devices may be connected in one

Modbus loop (this is a Modbus rule).

...Up to 247 I/0 Controller Modbus or BACnet Slaves

...central building automation system can control several local system controllers. (i.e. Highrise application)

Modbus RTU or Modbus TCP/IP

I/O Controllers System

Controller

...System Controller can be connected on a LAN

EIB

17

Figure 24 Figure 25

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Dimensions

Type 1 Box

Type 3R and 3R/12 Box

Amp

Rating EndGutter NeutralLocation

125 10.500 11.500

250 10.500 11.500

Main Lug End Gutter Dimensions

Branch

Breakers WiringSpace

BQD + SIPOD Combo 3.25

BQD 5.5

BL 6.375

Branch Breaker Side Gutter

Wiring Space (inches) _Main

Breaker Side Gutter Neutral Location BL, BLH, HBL, BQD 8.500 11.500

ED4, ED6, HED4 6.125 11.500

QJ2,QJH2, QJ2-H 6.500 11.500

FD6, FXD6, HFD6 5.250 11.500

Main Breaker Gutter Dimensions (inches)

Figure 28

Figure 29

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Ordering Information

The SENTRON i-3® V2 is installed in a standard Siemens P1 panel. Please refer to the P1 Panelboard Selection and Application Guide to select the interior, enclosure modifications, and front options. They can be found at: http://www.usa.siemens. com/panelboards

Keep the following parameters in mind when ordering a P1 Series Panel with SENTRON i-3® V2 Control Technology:

J 250A Maximum Bus

J No column mounted panels

J No feed through or sub feed lugs

J No Fast-Latch Trim

J No Split Bus

J No 200 % Neutral

J No Internal TVSS**

Summary of Ordering Steps: 1. Select Interior and Main Device 2. Select Branch Breakers and SIPODs 3. Select the Controller

4. Select Enclosure Modifications and Front Options (from P1 S&A Guide) 5. Contact your local Siemens Sales Representative for pricing and order entry.

**Can be mounted externally using a branch mounted circuit breaker.

How to Order

1. Select Interior and Main

Select the interior by bus type, panel rating, and the number of branch circuits.

Main Lugs Only*

Max Panel Amps Max 1-Pole Circuits Box Height (inches) Catalog Numbers 120/240V

1-ph, 3-wire 3-ph, 4-wire208Y/120V 3-ph, 4-wire480Y/277V

125

18 32 P1A18ML125ATS P1C18ML125ATS P1E18ML125ATS

250

42 44 P1A42ML250ATS P1C42ML250ATS P1E42ML250ATS * Catalog Numbers are for aluminum main bus. For optional copper main bus change “A” in position 11 to “C”. For example, a 125A panel with 120/240V 1-phase, 3-wire would have the following catalog number: P1A18ML125CTS. Specify bottom feed by changing the character in position 12 from “T” (top) to “B”. Specify flush mount by changing the character in position 13 from “S” (surface) to “F”.

Main Circuit Breaker*

Max Panel Amps Max 1-Pole Circuits Box Height (inches) Catalog Numbers 120/240V 1-ph, 3-wire 208Y/120V 3-ph, 4-wire 480Y/277V 3-ph, 4-wire 100

18 32 P1A18BL100ATS P1C18BL100ATS P1E18BL100ATS

125

18 32 P1A18E4125ATS P1C18E4125ATS P1E18E4125ATS

225

18 32 P1A18QJ225ATS P1C18QJ225ATS P1E18QJ225ATS

250

18 32 P1A18FX250ATS P1C18FX250ATS P1E18FX250ATS

30 38 P1A30FX250ATS P1C30FX250ATS P1E30FX250ATS

42 44 P1A42FX250ATS P1C42FX250ATS P1E42FX250ATS 2. Select Branch Breakers and SIPODs.

BQD breakers are required for all control points.

Branch

Breakers BreakerType Poles

Available Amp Rating

Max Interrupting Rate (kA)

120/240V 240V 277V Controllable BQD 1,2 15, 20, 25, 30 65 - 14 Non-Controllable BL, BQD 1, 2, 3 15, 20, 25, 30,35,40, 45, 50, 60 10 - -70 10 - -80, 90, 100 10 - -19

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Ordering Information

* Use the Catalog Number provided in the table to specify circuit breakers.

3. Select Controller

Description Catalog number

I/O Controller (EIB) 5WG1 718-8XY02

I/O Controller (Modbus) 5WG1 718-8XY15

I/O Controller (BACnet) 5WG1 718-8XY16

System Controller 5WG1 718-8XY14

RS485/USB Converter* 5WG1 715-8XY02

*Communication cable factory available or owner constructed.

4. Enclosure Modifications and Front Options

There are several enclosure modifications and front options for the P1 Series Panel with SENTRON i-3® V2 Control Technology. Please review the P1 Selection and Application Guide for details.

Ordering Example:

3-phase, 4-wire 480Y/277V AC 250 Amp Main circuit breaker 42 Branch Circuits

Bottom Feed Surface Mounted Hinged Trim

30 – 20 Amp one-pole Controllable Breaker SIPOD Combos

3 – 20 Amp two-pole Controllable Breaker SIPOD Combos

6 – 30 Amp one-pole Non-Controllable Breaker System Controller

5. Contact your local Siemens Sales Representative for order entry.

For your nearest sales office call us at 1.800.427.2256

SIPODS*

Amp Rating Poles Catalog Number

20 1 BQD20CPOD1

20 2 BQD20CPOD2

30 1 BQD30CPOD1

30 2 BQD30CPOD2

Emergency Lighting Circuit Control (panel modification)

Description Catalog number

Emergency Lights control 18 ckts panel mod (1 set of 2 E ckts) I3ESIPODMOD1801

Emergency Lights control 18 ckts panel mod (2 sets of 2 E ckts) I3ESIPODMOD1802

Emergency Lights control 42 ckts panel mod (6 sets of 2 E ckts) I3ESIPODMOD4206 Notes:

1- Emergency Lighting Circuit Control is sold in even numbers only. 2- Configurations are available as described on pages 10 and 11.

Branch breakers Breaker type Poles

Available Amp Rating

Max Interrupting Rate (kA) 120/240V 277 V Controllable BQD 1, 2 15, 20, 25, 30 65 14 Non Controllable BQD 1, 2, 3 15, 20, 25, 30,35,40, 45, 50, 60, 70, 80, 90, 100 65 14 BL 1, 2, 3 15, 20, 25, 30,35,40, 45, 50, 60, 70, 80, 90, 100 10 -20

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Ordering Information

Panel

Step 1

(from P1 Guide) Step 2 Step 3 Step 4 Interior and Main

Device: Breakers and SIPODS: Qty.: Controller: Enclosure Modifications and Front Options

1 2 3 4 5 6 7 8

Panel Configuration Form

Branch breakers Breaker type Poles

Available Amp Rating

Max Interrupting Rate (kA) 120/240V 277 V Controllable BQD 1, 2 15, 20, 25, 30 65 14 Non Controllable BQD 1, 2, 3 15, 20, 25, 30,35,40, 45, 50, 60, 70, 80, 90, 100 65 14 BL 1, 2, 3 15, 20, 25, 30,35,40, 45, 50, 60, 70, 80, 90, 100 10 -21

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Integrated Power System Switchboards

Your Single Source For Simpler, Smaller and Faster Installations By selecting the P1 Series Lighting Control Panel with i-3® V2 Control Technology for your next Integrated Power System, you gain the ability to stack up to two panels with 42 branch controlled circuits each in one section! The modular design of the Siemens Integrated Power System (IPS) switchboard allows the user to integrate electrical distribution equipment, power monitoring and environmental controls, that typically mount in multiple enclosures, into one switchboard line-up. Users have the freedom to configure a system that best fits their individual needs.

How IPS can help reduce the cost of your next project:

IPS reduces the number of

components required which decreases the amount of time you spend on the job site. It also simplifies field setup and programming. Finally, the small footprint reduces space requirements so you have more room for revenue-generating resources.

Integrated Power System switchboards are built to UL 891 and NEMA PB-2 standards. The standard height of each Integrated Power System sections is 90 inches (Optional 70 inch height available). The minimum depth of the IPS is 13.75 inches. Optional depths of 20, 28, and 38 inches are available. For more information on IPS and what it can do for you, please contact your nearest Siemens Sales Office at 1.800.241.4453.

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Siemens Industry, Inc. 5400 Triangle Parkway Norcross, GA 30092 1-877-757-5002

Siemens is a registered trademark of Siemens AG. Product names mentioned may be trademarks or registered trademarks of their respective companies. Specifications are subject to change without notice.

PBSA-i3TEC-0312 Printed in USA

Selection and application guide