nanogrid: dc based energy distribution and control
TRANSCRIPT
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Nanogrid: DC Based Energy
Distribution and Control
Santanu K. Mishra ([email protected] )
Associate Professor
Indian Institute of Technology Kanpur
22 March 2013 1
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22 March 2013
Experience1. 2000-2004: Research Assistant at University of Florida
2. 2004-2008: Staff Application Engineer at International Rectifier
Corporation, North Kingstown, Rhode Island
3. 2008-2012: Assistant Professor at IIT Kanpur
4. 2012-Present: Associate Professor at IIT Kanpur
General Research Interest1. DC/DC power conversion
2. Power Electronics Converters & Control
3. DC Based Power Distribution
4. Renewable Power Supplies
5. Nano-grids
2
PROFILE
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What the talk is all about ?
1. What are Nano-grids
2. How are they related to a Smart-grid (SG)
3. Role of Multi-port Converters in a Nano-grid
4. Some Prospective on creating a sound SG
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Sequence
1. Smart-grid: Introduction
2. Nano-grid: As a part of Smart-grid
3. Nano-grid: Research Problems and Solutions
4. Nano-grid: Future Research Plan
5. Different Strokes!!
6. Research Asset
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Conventional Grid Vs Smart Grid
Power Station Transmission Grid Substation
Distribution Transformer
Homes
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22 March 20136
Smart Grid?
What?The application of intelligent, co-operating resources
to create a flexible electric power system is referred
to as smart grid.
- Two-way flow of power and info in distribution grid
- Information technology is used to improve grid function
- Interconnection of high number of automation devices
Why?
- Increases penetration of renewable energy sources
- Enables active participation of consumers
- Improved Reliability
- Optimizes power quality (Reduces Brownouts!!)
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22 March 2013
Conventional Grid Vs Smart Grid
3 Phase
Distribution System (Single Phase)
3 p
ha
se
Power Station Sub Station
Domestic Wind-Turbines
V2G and G2V
Solar Powered Homes
Distributed Energy
Resources (DER)
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Smart Grid: Characterization
Smart Grid
Smart
InfrastructureSmart
Management
Smart
Protection
Smart Energy
System
Transmission
Grid
Distribution
Grid
New Paradigm
(V2G, G2V,
Microgrid, etc.)
Smart Info
System
Smart Comm.
System
Power
Generation
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Micro-grid Integration
Virtual Power Source (VPS)
Micro-gridMicro-grid
Nanogrid
Nanogrid
Nanogrid
Nanogrid
Nanogrid
Nanogrid
Su
b s
tati
on VPS ~ 50 kW
- Each Micro-grid should work autonomously.
- Each Nano-grid should work autonomously.
- Leads to reliability and fault tolerant Smart-grid
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1. Microgrid are building blocks of a Smart-grid.
2. Nanogrids are building cells of a Micro-grid.
3. They should be efficient, reliable, self-sufficient, and
fault tolerant to contribute to a healthy smart grid
Observations
Strategies
1. A Nanogrid may not be directly connected to a grid.
2. It should stably operate in clusters (in a Microgrid)
3. It should be able to operated in an islanded mode
4. Nanogrid should be Operationally independent to
make the Smart-grid reliable and fault tolerant
5. Reduce the number of converters in Nanogrid.
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NanogridResearch Problems &
Proposed Solutions
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12
Basic Architecture: Why DC?
Inside Home
(small geographic area)
Arg. 1: Generates
Power at DC
Arg. 2: Modern Loads are
DC Compatible
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Arg. 2: Modern Domestic Loads (Lightings)
1322 March 2013
Rectifier Inverter
230 VAC/50 Hz
110 VAC/60 Hz 160 VAC
/45 kHz
LED Lighting (AC-DC ) CFL Lighting (AC-DC-AC)
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Arg. 2: Modern Loads: DC Compatibility
AC -> DC
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Nanogrid: Present Technology
1. Dedicated converter for each job: Can it be Improved
2. All converters communicate with Energy Control Center (ECC)
3. Power electronics intensive with no need of protective gears
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Energy Control Center (ECC)
Sub Station
Micro-grid Micro-grid
Virtual Source
Role of Communication
NanogridNanogrid Nanogrid
Nanogrid Nanogrid
Nanogrid
Less Converters Less
communication
=>Reliable System
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1. Efficient Design Strategies
a. Transformer-less Single topology for Multiple jobs
b. Single-input Multi-output converters
c. Multi-input Single-output converters
2. Battery life: Improved battery charging strategy
a. Smart charging circuits
How to Improve this Technology?
Reduces the no. of converter stages
to improve reliability
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1. Efficient Design Strategies
a. Transformer-less Single topology for Multiple jobs
b. Single-input Multi-output converters
c. Multi-input Single-output converters
2. Battery life: Improved battery charging strategy
a. Optimal charging circuits
How to Improve this Technology?
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22 March 2013
Versatile Renewable Power Module (VRPM)Motivated by Needs of Rural India: (Developed for GE Global Research)
- A transformer-less High
step up Inverter
- Bidirectional power flow
High
Step-up
27 V
Solar Panel
105 V AC
- Same topology for any kind of
renewable power conversionOlive Ray, Santanu Mishra, and Avinash Joshi, ECCE 2012
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Typical Application of a VRPM
Versatility – Ability to interact with different Input-Output types.
Modularity – Same Topology to be used for all Operations.
Scalability – Ability to cater to higher demand.
Efficient/Volume- Intended for smaller systems in rural areas
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1. Efficient Design Strategies
a. Transformer-less Single topology for Multiple jobs
b. Single-input Multi-output converters
c. Multi-input Single-output converters
2. Battery life: Improved battery charging strategy
a. Optimal charging circuits
How to Improve this Technology?
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22 March 2013
Single-Input Multi-Output Converters
- Simultaneous AC and DC loads
- The converter has excellent
cross-regulation.
- Converter has excellent EMI immunity
Switched Boost Inverter (AC-DC outputs)
Ravindranath Adda, Santanu Mishra, and Avinash Joshi, IEEE Trans. On PE, ECCE 12, EPE 12
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Boost Converter (AC-DC outputs)
Hybrid Boost is obtained by
simple modification of a Boost:
Produces DC and AC outputs
Olive Ray and Santanu Mishra, ECCE 12
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Typical Application: Hybrid Class Converters
μ-Grid
μ-Grid
Conventional DC Nano-grid
DC Nano-grid with SBI
Ravindranath Adda, Santanu Mishra, and Avinash Joshi, IEEE Trans. On PE
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Special Converters For Nanogrid
VDC VAC
Conventional Converters shorts in HF-application due to Shoot-through
• These new inverters allow shoot-through: Better EMI
• Suitable for compact high frequency applications
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Flavour of Research: Special PWM Control
Ravindranath Adda, Santanu Mishra, and Avinash Joshi, IEEE Trans. On IE
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22 March 2013 27
Flavour of Research: Control and Performance
Cross-regulation Non-Linear Load
Ravindranath Adda, Santanu Mishra, and Avinash Joshi, IEEE Trans. On PE
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Single-Input Multi-Output
Single Input
Multiple DC
output
Vin Vo1
Vo2
(DC)
(DC)
Schematic Waveforms
(DC)
- V o1 is always higher than Vin
- V o2 may be higher or lower than Vin
Olive Ray, Anil J., and Santanu Mishra, ISIE 13
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1. Efficient Design Strategies
a. Transformer-less Single topology for Multiple jobs
b. Single-input Multi-output converters
c. Multi-input Single-output converters
2. Battery life: Improved battery charging strategy
a. Optimal charging circuits
How to Improve this Technology?
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22 March 2013 30
Multi-Control Single-Input
Converter
48 V-96 V-144 V
12 V
24 V
Multi Input Battery Charger
Multiple Solar Panel Inputs
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22 March 2013 31
1. Efficient Design Strategies
a. Transformer-less Single topology for Multiple jobs
b. Single-input Multi-output converters
c. Multi-input Single-output converters
2. Battery life: Improved battery charging strategy
a. Optimal charging circuits
How to Improve this Technology?
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22 March 2013 32
Battery Charging Basics
Predefiend
Voltage
CC Mode CV Mode
Charging Current
Battery Voltage
Time
Vo
lta
ge
/ C
urr
ent
(Battery Charging
Current)
(Battery Voltage)
CEA
VEA
PWMChange
Over
+
-
OUT
d
+
-
OUT
Ibat
V
refI
V
ref
bat
Ideal ChargingActual Charging
Reason for irregularities in
actual charging
Rajeev Singh and Santanu Mishra, IEEE Trans. On IE, ECCE 11, ECCE 12, IECON 12, PEMD 12
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Optimal Battery Charging
clampI
DD
bat_boost
+
-
OUT
CEA
Vbat
minV+
-
OUT
d
+
-
OUT
= Vhi
K + offset
V Bi-Directional
Coupled Inductor
Converter
VEA
PWM
+
TIMER LOGIC
bat_boost
+
-
OUT
bat_buckV
refV(Can be adusted as per V
Feed back Clamping
Circuit
veaV
lo= V
S
iL1
)
clampV
uM
- +
analog-digital
-analog
conversion
ML
1 2
v
V
V
v
A/D
LLr
out
in
RC
o
oI
n bit
f smp
Hysteretic
Comparator
Vphase Gate
Driver
n bit
1 bit
n bit
comparator
Ripple
Synthesizer
f
d[k]
V
clk
ref
iL
Vcmd
Error
Amplifier
ESR
f
clkf
clk
modV
gUV
VgL
Vcom
D/A
Inside the
digital domain
smpf
o
detVVphase
Pre condition
Power Stage
Analog (7 Ah) Digital (FPGA) (4.5 Ah)Rajeev Singh and Santanu Mishra, IEEE Trans. On IE
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What’s Next ???(Research Directions)
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35
Building a Nano-grid
Energy Control
Center
(Hybrid Converter)
DC Distribution Bus -- VBat
Load Center 1(Multi-Port DC)
µ-Grid
Load Center 1(Multi-Port DC)
Boroyovic ‘ 10
22 March 2013
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Interconnecting NanogridsMicrogrid Strategy
1. Micro-grid are interconnected using a 50/60 Hz
2. Interconnection is three phase through a ∆-Y transformer
3. Fully controlled Autonomous operation using local measurements only
4. Static Switch activates in case of abnormality (IEEE 1547, Faults, etc.)
Lasseter, CERTS
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Interconnecting Nanogrids
Why do we have 50/60 Hz AC?
• Electromechanical Machines yield better to this frequency
• Less inductive drop when geographic area is high
• Rest of the World: 50 or 60 Hz depends on where the countries
bought their equipment from (US or Europe)
Present Scenario:We are not handicapped by these factors anymore as
(a) Geographic area is smaller (Low inductance)
(b) No Electromechanical conversion to limit frequency
(c) Higher frequency operation will lead to smaller transformer
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Options 1: Interconnecting Nanogrids (HFAC)
1. Nanogrid can generate high frequency AC (HFAC, 1 phase)
2. Isolation transformer size is reduced if HFAC used
3. Harmonic order is higher leading to smaller filters
4. Static switch is easier to design as current has a zero crossing
5. Nanogrids operate in a peer-to-peer (no master) fashion
6. All Nanogrids are controlled based on their local measurements only
Microgrid Distribution (HFAC)
Nanogrid Nanogrid Nanogrid
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HFAC Sources
Santanu Mishra, Kapil Jha, and Khai Ngo, IEEE Trans. On PE, ECCE 10, APEC13
1 kHz Output Excellent Dynamic
- Conventionally VSI based Inverters are used.
- This research uses a Boost based inverter
- Excellent Power bandwidth and dynamic response
DC InputAC Output
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Options 2: Interconnecting Nanogrids (DC)
1. Nanogrid can generate HV-DC (at 1 kV or so) for distribution
2. Individual overall isolation not possible
3. Static Switches have to be over-rated as no zero crossing in current.
(DC switch gears: Hard to quench the arc)
4. No reactive component
5. Nanogrids operate in a peer-to-peer (no master) fashion
6. All Nanogrids are controlled based on their local measurements only
Microgrid Distribution (DC)
Nanogrid NanogridNanogrid
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Conclusions of Nano-grid Research
1. DC based distribution is more suitable for Nano-grids
2. Various multi-port converter topologies are proposed
3. Multi-port converters make nano-grid reliable
Research Topics to be addressed
1. Nano-grid Interconnection using HFAC or HVDC
2. Power balance studies of the system of Nanogrids
3. Fault studies of the system of Nanogrids
4. Communication between Micro and Macro systems
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Different Strokes !!
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22 March 2013
Rural Telecom Problem
43
Objective:
How to sustain the smile without
digging deep into the company’s
pocket ??
What on the way?
- Exchanges in Remote places
- Grid is intermittent and unreliable
- Available in 1-2-3 phases in different
time of the day
- Power plants only work with 3 phase
supply grid or diesel generators
Solution:
A power plant that works seamlessly
with 1-2-3 phases without any derating
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A Novel Rectifier Concept!!
Patent No. : 1053/DEL/2011 : Power Supply System; Santanu Mishra
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Commercial Production
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Miscellaneous Research: Eload
Saurabh Upadhyay, Santanu Mishra, and Avinash Joshi, IEEE Trans. On IE, APEC 11
Steady State
Transient Response
Transient Response
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Research Asset
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Research Facilities
Simulation:Mathematical Computation Tools:
Matlab, Simulink Modules,Mathcad Pro. Licenses
Real time Simulation Tools:
PSpice professional licenses
Prototyping:PCB Layout Software:
Orcad Allegro Pro., Altium DXP
Soldering:
95 W contact soldering tools and 300 W non-
contact surface mount rework station.
Experimentation:Range of power supplies, high-end scopes (isolated and non-isolated types),
High-end and regular Multi-meters, Thermal Measurement tools, Function
generators, Altera FPGAs boards and Interfaces, DSP kits
22 March 2013
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Group (Started in 2008)
Funding: Above $200,000
- DST (Equivalent of NSF in India)
- BSNL (Telecom)
- General Electric Global Research
Research Publications:
- Transactions: 12
- Conferences: 29
Group:
- Ph.Ds=3 (On-going) +1 (About the Submit)+ 1 (Graduated)
- M. Tech=4 (On-going) + 15 (Graduated)
To learn More:
- Please visit @ www.iitk.ac.in/~santanum
22 March 2013
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22 March 2013 50
Questions !!