1998 Strategic Communications Plan - Texas Instruments
Transcript of 1998 Strategic Communications Plan - Texas Instruments
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New Analog IC Technology Support Safety, High Efficiency and High Reliability
of Today's PV Solar System
Delivering MORE Together
• Shanghai International Power Electronics Innovation Forum, 21, 2012
Picture: 53MW solar park, Lieberose, Germany
Solar Magic
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Agenda
• Challenges of Today’s PV Solar Industry Development
• PV Solar Market Ask for Safe System, Arc Detection
• Distributed MPPT Increase Solar Power Harvest, DC/DC Optimizer
• New SBD Raise the Reliability of PV Panel
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Big Trend – the 3rd Wave of Electronics
• 1st Wave - Essential Electric Society
– Home appliances, Ice box, Washer, TV, etc.
– Wired telecom
– Incentive to more electrical energy consumption
• 2nd Wave - Informative and Network Society
– PCs are every where and
– Mobile telecom & Internet access
– Encourage energy conservation
• 3rd Wave – Smart & Environment Protection Society
– WW population up to 7B (China 1.6B), a new challenge to energy resource
– Solar Power is the best solution among all the renewable energy
– PV Solar bring in new opportunities for all the industry including ICs
Hi Growth Rate, Huge Market Potential
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AP and China Solar Installation Market is Soaring
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PV System & Ecosystem
Smart
Jbox
SM
PCBa
SM Chip
Set
TI solar ref
•Safety is a strong demand of future PV solar systems
•High total system efficiency bring attention from $/Wp to $/KWh of ROI
•Reliability is system engineering over total PV system
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New 2011 NEC Arc-Fault Requirements for PV Systems
Article 690.11 Mandate
• Written to detect and interrupt “series” arc-faults in
modules, connections, wiring, and other
components in a PV System
• Requires inverters, charge controllers or other
devices in the arcing circuit to be disconnected and
disabled
• Requires manual resets and reconnects once an
arc is detected and fixed
• Functionality tested according to UL 1699B
• TI-SVA is full member of the UL workgroup
defining this standard
The new 2011 NEC
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Arc Detection Solution
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• SM73201 Arc-Detection compliant with NEC requirements
• Detects series, parallel and ground fault arcs
• Check frequency for arc detection up to 20Hz.
• Arc detect signal can be output as a digital output or over UART or
wireless signal.
• Designed to operate in the presence of noise due to switching power electronics (inverters, power optimizers, etc…). Special algorithms designed to recognize these signals and avoid false triggers.
• Tested for all major inverters/PV technologies
• Available for integration into
– Smart combiner box, Decentralized PVI (up to 15 A)
– Multi-string Option
– Self-Test Feature
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Arc Detection Principle Block Diagram
DC
Po
wer
Lin
e
Electrical Parameters SM73201-ARC-EV
String current 15A
Multi-string Option Yes
DC Bus Voltage 1000V (3000 V iso)
Arc Detection Time <150 ms
The arc detection signal
can be used in various
configurations to trigger
the shut-down of the
affected module or string:
-Electro-mechanical
string shut down
- Inverter based shut-
down
Multi-band
Dynamic
Filtering
DSP
SM73307
SM73308C2000SM73201
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Arc Detection Main Features
• Check frequency for arc detection up to 20Hz.
• Arc detect signal can be output as a digital output or over UART or
wireless signal.
• Designed to detect parallel and serial arcs
• Designed to operate in the presence of noise due to switching power
electronics (inverters, power optimizers, etc…). Special algorithms
designed to recognize these signals and avoid false triggers.
• The arc detection circuitry has been designed to pass the draft standard
for arc detection being developed by the UL1699B working group.
• Arc detect reference design operates in single and multi string
architectures
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Arc Protection/Remote Shutdown
Arc Detect configuration
Approximate board area
for arc detection: 50x30
mm
Arc Detection Reference PCBoard SM73201-ARC-EV
Support:http://www.national.com/rd/RDhtml/RD-195.html
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Arc Detection Evaluation Board SM73201-ARC-EV
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Approximate board area
for arc detection: 50x30
mm
Reference design
samples available *User’s Guide available
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DC Arc Characteristics
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DC Arc Characteristics – Inverter ON
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Try Detecting the Arc Now!
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UL Arc Detection Test Procedure UL 1699B (Draft)
Source: UL 1699B DRAFT
OUTLINE OF INVESTIGATION FOR
PHOTOVOLTAIC (PV) DC ARC-FAULT CIRCUIT PROTECTION
Version December 16, 2010
National Semiconductor (merged to SVA/TI) is a full member of the UL
working group that defines this standard
Arc generator Small tuft of steel wool placed inside tube
Arc Generator
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SolarMagicTM
DC/DC Power OptimizerTechnology & IC Products
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Distributed MPPT - Higher Efficiency
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•Solar Plant / Utility
•Commercial Facilities
• BIPV / Solar Wall
• BAPV
• Public facilities
•Residential Rooftop
• Grid-tied solar system
• Off-grid solar home w/ energy storage
• Solar home system w/ energy storage by on-grid
supply
•Extended Solar Applications
• Small solar system w/ energy storage
• Mobile solar backup power
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SolarMagic DC/DC Optimizer Chipsets
• Enables power optimizing solutions for Off-Grid and Grid-Tied solar
systems
• Wide voltage input range that makes compatible with most of
commercially available solar panels (100V)
• Current driving capabilities up to 100A
• Advanced protection features (OVP,OCP and OTP)
• I2C programmability allows high degree of customization
• 125°C operation
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Reference DesignsGrid-Tied SM1230/SM3320 Chipset
NSID Description Package SM1230 SM3320
SM72485 150mA, 100V Constant On-Time Buck Switching Regulator LLP-8 X X
SM72238 100mA, 5V Micropower Voltage Regulator TO-252-3 X X
SM72240 uP Reset Circuit, Active-Low Reset Open Drain Output SOT-23-5 X X
SM72295 Full Bridge Driver SOIC-8 X X
SM72441 MPPT Controller with OVP, OCP, and OTP TSSOP-28 X
SM72442Enhanced MPPT Controller with Panel Mode, OVP, OCP, and
OTPTSSOP-28 X
SM72480 +/- 2.2C Thermostat, 120C Trip LLP-6 X X
SM72501 Precision, CMOS Input, RRIO, Wide Range Amplifier SOT-23-5 X X
SM72375Dual Micropower RRI CMOS Comparator with Open Drain
OutputMSOP-8 X
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Technical Support• Chipset of SM3320 SM72442 MPPT Controller w/ I2C
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• Panel voltage reading
• Panel current reading
• Battery voltage reading
• Battery current reading
• Output voltage set-point adjustments
• Open loop mode: duty cycle can be
controlled directly through I2C
• Dead time control
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Technical Support• Chipset of SM3320 SM72295 Dual Half Bridge Driver
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• Dual Half Bridge MOSFET
Drivers
• Integrated 100V bootstrap
diodes
• Independent High and Low
driver logic inputs
• Bootstrap supply voltage
range up to 115V DC
• Two current sense
amplifiers
with externally
programmable gain and
buffered outputs
• Programmable over voltage
protection
• Supply rail under-voltage
lockouts with power good
indicator
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SolarMagic SM3320 Benefits
• PV Design Flexibility
• Integrated, easy installation
• Varying string lengths
• Different roof orientations per string
• Increases roof coverage
• Scalable
• One solution fits all - from residential through commercial
• Lower cost per kWh
• Enables lower balance of system costs, installation/design time
• Support on/off –grid PV solar system with Energy Storage
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SolarMagic Proven Performance
• Various entities (both National and third parties) have done extensive
testing and experiments on the SolarMagic technology
• Results from both National’s internal tests and customer case studies
show a significant performance increase when the technology is in
use:
– Recovery of lost energy - up to 75%
– Additional energy harvest - up to 25%
• Testing by outside agencies (Photon, NREL, others) show significant
performance numbers when SolarMagic assisted strings are tested in
parallel against unassisted strings:
– Recovery of lost energy - up to 71%
– Additional energy harvest - up to 39%
More Energy for System Owner!
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0
10
20
30
40
50
60
70
80Energy With SolarMagic (kWhr)
Energy Without SolarMagic (kWhr)
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Source: various field trials and outdoor tests
SolarMagic Performance Results
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Value Created by SM3320
• $3.50/Wp installed cost
• 10% installation savings
• 20% BOS (Racking, Wiring,
Combiner Box) savings
• 50% Engineering savings
• 17% Inverter savings
• >9% Energy harvest gain
over 25yrs
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Local Players are Taking Actions…
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Case 1: Multiple orientations in single stringTokyo, complex roof
• Layout String2:North,7panels
String3:
3West+3South
=6panels
w/ SolarMagic
String1:East, 7panels
Tilt: 30.1deg (6-sunn)
SuntechPower, 180W x20panels
=3.6kW system
Detailed analysis to
follow on pages
TI Information Selective Disclosure 26
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Case 2: Parallel strings with different lengths
• Situation created when rooftop size
limited.
• Different string lengths enables
maximization of output power
• Use Optimizer in shorter strings only
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Case 3: Shade with multiple string and single MPPT channel
• Shade should affect more than 15% of
modules in a particular string
• Hard shade: current flowing through
bypass diodes
• Optimizers only needed on shade
affected string.
• Best to use optimizers on all modules
in string
MPPT
TI Information Selective Disclosure 28
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Case 4: Soft-shade with single string
• Optimizer only needed on shaded
modules
Note: Soft shade does not force the bypass
diode to turn on!
In case of hard shade the bypass diode will
eliminate the potential of the optimizer to
compensate for mismatches of the operating
point between shaded and un-shaded
modules
TI Information Selective Disclosure 29
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SolarMagicTM
Smart Bypass Diode
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How Do By-Pass Diodes Work?
Continuous
Energy Loss
due to leakage
!
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Bypass Diode Replacement
Junction Box Junction Box
SBD
SBD
SBDControl
Circuitry
Smart Bypass
Diode
Module with
conventional
bypass diodes
Bypass diodes protect PV cells from reverse breakdown voltages
and prevent hotspots in PV cells
Problem: Bypass diodes themselves create significant amount of
heat
Solution: Smart bypass device which creates less heat
Junction Box
SBD
SBD
SBDControl
Circuitry
Smart Bypass
Diode
Module with
Smart bypass
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Smart Bypass Diode Thermal Advantage
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Measured at 10AMax 123º C Max 64º C
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Smart Bypass Diode Thermal Advantage
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Max 123º C
Max 64º C
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Thermal Evaluation
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Smart Bypass Switch Benefits
Reduced module cost
– Reduce heat sink in junction box, size of junction box
– Options for alternative packages
Enable higher current modules
– Eliminate need for heat-sinking especially at increased module efficiency
Increased reliability
– Module lifetime decreased by heat generated in junction box
– Reduce failure rate in the field Lower Levelized Cost of Energy (LCOE)
Improved Safety
– Reduced fire hazard
Higher energy yield
– Reduce reverse current leakage
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Electrical Specifications
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Standard Packaging TO263
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End of Document
Contact Information:
Johnson HuSolar, Analog Business DevelopmentTel: [email protected]
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Q&A
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问题之一
TI 的电弧检测方案可以用在光伏系统的哪些方面?
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问题之二
TI 的SolarMagic DC/DC 优化器的好处有哪些?
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问题之三
TI 的Smart Bypass Diode 有哪些特点?