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Transcript
April 2013
MNS® iRPP
Innovative power distribution
to critical loads
MNS® iRPP
Introduction
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 2

What is MNS® iRPP (intelligent Remote Power Panel)


ABB’s MNS® iRPP offers complete power distribution and
monitoring with up to 128 poles in a space-saving design.
MNS® iRPP key features:

Safe

Reliable

Scalable

Hot swappable branch circuits

Moves, add-ons and changes are accomplished without
powering down the complete RPP

Continuous monitoring with user configurable alarms

Choice of top / bottom cable entry to suit non-raised / raised
floor applications
MNS® iRPP
Value proposition
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture


Maximum uptime without outages

Safe, reliable operation with a complete vision of power
distribution and monitoring.

Pre-outage alarms, triggered by user selectable parameters
for main incomer and individual branch circuit breakers
Optimize energy usage


© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 3
Assists with analysis of actual rack usage against the rack
rated kW rating, helping data center operators manage power
distribution more effectively.
Scalable for the future

Hot swappable branch circuits

User-friendly phase balancing capability
MNS® iRPP
Value proposition
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture

Safety in a compact footprint


Simple, cost-effective operation and maintenance


Outputs can be replaced easily and quickly, reducing the
component non-availability time (MTTR)
Business without barriers

© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 4
The SMISSLINE TP plug-in socket system is fully protected
against direct contact (IPXXB).
No matter where you are in the world, ABB expertise is
nearby.
MNS® iRPP
Overview
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 5
MNS® iRPP
Overview
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 6

Functional description

ABB MNS® iRPP I comprises of SMISSLINE TP socket
system as distribution chassis to provide IPXXB protection for
the branch MCBs and facilitate ‘hot swap’ of circuits. The
current measurement system (CMS) continuously measures
the current consumption in each branch circuit and the
energy analyzer provides the reference voltage, cosphi and
frequency from the incoming supply.

A single CMS control unit can monitor up to 64 branch circuits

The data from both the CMS control unit and the energy
analyzer are fed into PLC AC500, which then calculates
parameters like kW, kWh, etc., for each branch

The data from PLC can be displayed on the user friendly HMI
type CP600 & can also be communicated serially to any
BMS/ DCEM
MNS® iRPP
Overview
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© ABB Group
22. Mai 2017 | Slide 7
 SMISSLINE-TP

Allows for load-free plugging in and
unplugging of branch devices without
additional personal safety equipment
and without powering down the RPP

Five directly pluggable protection
devices

Offers unrivalled flexibility,
expandability and availability

Finger proof IP2XB
MNS® iRPP
Overview
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© ABB Group
22. Mai 2017 | Slide 8
 Current measurement system (CMS)

Most compact, neat and hassle-free
current measurement system

Current sensors get mounted directly
on the SMISSLINE MCB, thus
eliminating the need of cumbersome
incoming cables

Quick start-up & reduced chances of
errors

Easy & quick installation

High availability
MNS® iRPP
Overview
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© ABB Group
22. Mai 2017 | Slide 9
 A44 EQ_Platinum

The energy analyzer has dual
function. First, it provides the voltage
and pf reference value to the PLC for
calculating all the power/ energy
values for the branch circuits.

Second, it provides the following data
for the complete RPP:

Active power

Apparent power

Reactive power

Current

Voltage

Frequency

Power factor

Total harmonic distortion
MNS® iRPP
Overview
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© ABB Group
22. Mai 2017 | Slide 10
 PLC AC500

ABB’s flagship PLC offers a wide
range of performance levels and
scalability within a single, simple
concept

Designed to perform with ease varied
communication tasks

Flexible

High data transmission speed

Multiple communication options

Easy configuration

Simple networking

Integrated web server
MNS® iRPP
Overview
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© ABB Group
22. Mai 2017 | Slide 11
• HMI CP660

Highly flexible

Specifically designed for advanced
applications in complex systems or
processes

Better information representation to
ease human-machine interaction

Choice of screen size

Resolution: 800 x 600
MNS® iRPP
Mains monitoring
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture


Voltage, L-N and average
[V]

Current per phase [A]

Max. current [A] per phase

Current demand [kW] per
phase

© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 12
Voltage, L-L and average
[V]
Max. current demand [kW]
per phase

Energy [kWh] per phase

Real power [kW] per phase

Apparent power [kVA] per
phase

Power factor per phase and
total

Frequency [Hz]

Voltage, THD [%]

Current, THD [%]
MNS® iRPP
Branch circuits monitoring
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 13

Current [A]

Max. current [A]

Current demand [A]

Max. current demand [kW]

Energy [kWh]

Real power [kW]

Real power [kW] demand

Real power [kW] demand max.

Branch CB On/Off

Branch CB rating
MNS® iRPP
Alarms indication
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© BU 3101 Low Voltage Systems
May 22, 2017 | Slide 14

Over-/ under voltage

Over current

Phase loss

Over-/ under frequency
MNS® iRPP
Typical iRPP application
- Low-voltage switchboards / switchgear
- Circuit breakers
- Active filters
- Power factor correction
- Rectifiers
- UPS
- Power transformer
- Intelligent power
- Distribution units
- Remote power panels
- Branch circuit monitoring
Data Center Infrastructure Management (DCIM)
Service and consulting offerings
- Efficiency improvements
- Power Quality Studies
- Design
- Remote monitoring
- Service
- Operation
- Maintenance
- Smart grid connectivity
- Microgrid solutions
- Strategic partner to leading wind
and photovoltaic OEMs
- HVAC solutions
- High-efficiency motors
- Low-harmonic variable frequency
drives / inverters
- Circuit breakers
- Cooling
- Automation and control
- Energy efficiency audits
- Instrumentation
© ABB Group
May 22, 2017 | Slide 15
- Substation
- Transformer
- Medium-voltage switchboards / switches
- Power quality assessments
- MV UPS
- Data center automation and power optimization
- Remote monitoring and diagnostics
- Wide range of gensets
Link to electrification capability slides
MNS® iRPP
Typical communication architecture
Introduction
Value proposition
Overview
Mains monitoring
Branch circuits
monitoring
Alarms indication
Typical iRPP
application
Typical
communication
architecture
© ABB Group
May 22, 2017 | Slide 16
ABB in data centers
Scope of supply
Utility-data center demand-response (Power Assure, Ventyx)
DCEM (data center enterprise management) including services
Building electrical infrastructure (lighting, security, fire detection and suppression, etc.)
Energy distribution network management
MV
switchgear
LV switchgear, PDUs, RPPs
HV
Substation
IT racks
servers
Transformer
Generator
set
UPS or rectifier with
batteries
HVAC offering
& LV components
Building mechanical infrastructure (doors, fences, security, barriers, etc.)
ABB offering (BU PACT)
Optional offering (as part of the energy supply package)
ABB offering (BU PSSS)
3rd party (outside of ABB’s scope and supply)
ABB Ltd.
May 22, 2017 | Slide 18
CONFIDENTIAL – NO DISTRIBUTION WITHOUT WRITTEN PERMISSION
ABB offering (BU LPLS)
Energy supply for data centers
AC or DC – we have the solution
Utility
MV/LV
transformers
Switchgear
UPS
PDU
IT Power
supply
Servers
AC Architecture
MV ac
400Vac
400Vac
400Vac
400Vac
Batteries
Utility
DC
Rectifier
DC
Switchgear
IT Power
supply
Servers
DC Architecture
MV ac
380Vdc
Batteries
ABB Ltd.
May 22, 2017 | Slide 19
CONFIDENTIAL – NO DISTRIBUTION WITHOUT WRITTEN PERMISSION
380Vdc
12Vdc
12Vdc
Energy supply for data centers
AC and DC
DC
AC

Medium voltage switchgear

Transformer

MV/ LV rectifier

Low voltage AC bus duct

Low voltage DC bus duct

Low voltage AC switchgear

Low voltage DC switchgear

UPS (static/ rotary)

Battery

AC PDU/ RPP

DC PDU/ RPP

Generator set

Generator set

Power quality products
ABB Ltd.
May 22, 2017 | Slide 20
CONFIDENTIAL – NO DISTRIBUTION WITHOUT WRITTEN PERMISSION
Summary: Key factors influencing data center success
ABB as your partner

Risk management / ease of doing business: ABB needs to become the
easiest in doing business with, all around the globe.
We take pride in directly providing 100% of our customer solutions, exclusively
and anytime throughout the life cycle of our products.

Safety: With our proven ‘Safety Plus’ philosophy, we offer the safest systems on
the market. Personal protection is our highest priority.

Availability / reliability: ABB’s portfolio offers the most reliable products on the
market today by delivering real time predictive maintenance information, the
most tested and industry proven components, high MTBF and shortest MTTR.

Scalability: ABB’s portfolio delivers the most flexible hardware and software
options, allowing quick additions and / or configuration changes to match
growing business needs.

Ease of operation / maintenance: As a world wide operating company, our
service locations are close to any data center. We offer extensive SLA to suit
individual facility requirements.
ABB Ltd.
May 22, 2017 | Slide 21
CONFIDENTIAL – NO DISTRIBUTION WITHOUT WRITTEN PERMISSION