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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet
20082011 Infinite Power Solutions, Inc. All rights reserved. Infinite Power Solutions, THINERGY, INFINERGY, MEC, and the Infinite Power Solutions, THINERGY, andINFINERGY logos are trademarks or registered trademarks of Infinite Power Solutions in various countries. All other names are the property of their respective owners.Information in this document supersedes and replaces all information previously supplied. All specifications are subject to change without notice.
Features Thin Form Factor 170 m Thick
Capacity options up to 400 Ah
All Solid-State Construction
High Discharge Rate Capability
Ultra-Low Self-Discharge Rate
Industry-Leading Cycle Life
Fast Recharge
RoHS Compatible
Eco-Friendly/Safe
Applications Energy Harvesting Solutions/Self-Powered Systems
Remote/Autonomously Powered Wireless Sensors
Memory & Real Time Clock (RTC) Backup
Semi-Active RFID Tags
Smart Cards (Including Units with Displays/Biometrics)
Medical Devices
High Temperature Applications
Military/DoD & Aerospace
Benefits Lowest Cost of Ownership
No maintenance costs
Lasts the lifetime of the application
Can be recharged and reused over and over
Ideal energy storage solution for energy harvesting
Can be trickle-charged with no memory effect
Simple constant-voltage recharge with no current limiting
required.
Physical Properties
General DescriptionThe THINERGY MEC220 is a solid-state, flexible,rechargeable, thin-film Micro-Energy Cell (MEC). Thisunique device substantially outperforms all other small formfactor electrochemical energy storage technologies, includ-ing supercapacitors, printed batteries, and other thin-filmbatteries. The device is fabricated on a metal foil substrateto achieve its flexibility, thin profile, broad operating temper-ature range, and long life.
The MEC is offered in a unique, patented package designthat maximizes the active area of the cell and minimizes thedevice footprint to deliver the highest energy and powerdensity of any energy storage element of its size. Externalterminals in the form of positive and negative nickel-platedtabs are located along the top edge of the cell for easy sol-dering to printed circuit boards (PCBs). The tabs aresupported with a flex circuit for added strength and to keepthem planar with the r igid or flex PCBs. Through-holes
located in the terminal contacts allow the MECs to bealigned on solder posts for easy connection and cell stack-ing to create battery modules with higher capacity andcurrent. These tabs also allow easy connection to both ter-minals from either side of the cell, which is important duringautomated assembly onto flex circuits and PCBs. The con-ductive metal tabs allow various connection methodsincluding epoxies, anisotropic conductive film (ACF) materi-als, and solder. The cells can be oriented to stack in series
(to multiply voltage) or in parallel (to multiply capacity andpower).
The active materials in the device include a Lithium CobaltOxide (LiCoO2) cathode and a Li-metal anode. A solid-stateelectrolyte called LiPON (Lithium Phosphorus Oxynitride)with its high Li-ion conductivity, is used to provide superiopower performance. The extremely low electron conductivity within LiPON results in ultra-low self discharge, making
THINERGYMEC220Solid-State, Flexible, Rechargeable
Thin-Film Micro-Energy Cell
DS1013 v1.0 Preliminary Product Data Sheet
[actual size]
Size: 25.4 mm x 12.7 mm x 0.170 mm [1.0 in x 0.5 in x 0.007 in]
Mass: 255 mg
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 2
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
this technology ideal for applications where energy must bereliably stored for many years without the ability torecharge, or for low-power ambient energy harvestingcharging solutions. In addition, this eco-friendly technologycontains no toxic chemicals or heavy metals, providingindustry-leading safety with absolutely no possibility forchemical leakage, thermal runaway or fire, as experiencedwith other Li-ion batteries using liquid or gel electrolytes. A
proprietary flex-circuit encapsulation methodology is usedto achieve the ultra-thin and flexible form factor and toensure reliability and performance under harsh environ-mental conditions, far exceeding other micro-energystorage technologies.
The thin form factor, rechargeability, and high dischargerate capability enable applications where conventionalcoin/button or primary thin batteries are not well suited. Dueto its low internal cell resistance, the MEC offers superiorcharge acceptance, making it an ideal energy storagedevice for applications where extremely low currentrecharge sources are available, including various ambientenergy harvesting methods. Pulsed or continuous currentsas low as 1 A can be used to effectively recharge thisdevice. The MEC recharges in seconds to minutes, depend-ing on its state of discharge and available charge current.MECs can be recharged using constant current, constantvoltage, pulsed current, or pulsed voltage sources. Anycharge voltage greater than cell voltage (not to exceed themaximum specified recharge voltage) will result in charging.A variety of charging methods can be used, such as directconnection to a power supply, wireless recharge via induc-tive coupling, or energy scavenging solutions that harvestkinetic, solar, RF, magnetic, or thermal energy.
The low self-discharge rate results in decades of shelf life.With its recharge cycle stability, the device offers tens ofthousands of recharge cycles for many years of use with no
memory effects. The MEC220 provides an extremely safe,reliable, and low-cost energy storage solution that outper-forms any other micro-battery or capacitor solution. Thiscomponent class device is intended to be designed in forthe life of the product.
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 3
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
Specifications
Parameter Options (1)Rating
ConditionsMin Typ Max
Capacity(2)-3 300 Ah
C/2 Discharge Rate @ 25C-4 400 Ah
Stored Energy(2)
-3 4J
-4 5.5J
Operating Temperature All 40C +85C (Note 3)
Storage Temperature All 40C +50C
Charge Time:
to 80% State of ChargeS 15 Min
4.10V constant voltage recharge(min. peak available current of 10 mA)
P 10 Min
to 90% State of ChargeS 20 Min
P 15 Min
Max. Continuous Discharge Current(Standard vs. Performance Grade)
S 10 mA25C
P 15 mA
Internal ResistanceS 150 180
25CP 100 120
Cycle Life
-3
100,00010% depth of discharge with typicalapplication load(4)
10,000100% depth of discharge with typicalapplication load (4)
-4
100,00010% depth of discharge with typicalapplication load(4)
5,000100% depth of discharge with typicalapplication load (4)
Nominal Output Voltage 3.9V C/2 rate
Recharge 4.10V 4.15V Constant voltage
Shelf Life 15 years 25C
Discharge Cutoff Voltage(5)2.1V
For currents of 0.4 mA up to maximumdischarge rate
3.0V For currents < 0.4 mA
Annual Non-reversible Capacity Loss(6) 1%, 3%, 6% 25C, 45C, and 65C respectively
Annual Self-discharge Rate (Charge Loss)(6) 1%, 3%, 6% 25C, 45C, and 65C respectively
Notes:
1. See Ordering Information.2. MECs may be shipped in a partially-charged state. Full charging prior to use is recommended.3. Standard electrochemical degradation is proportional to temperature increase. Contact IPS for performance information regarding higher
temperature applications up to 150C.4. 80% of rated capacity remaining @ 25C.5. Discharging the cell below the specified discharge cutoff voltage will cause permanent battery damage.6. After f irst year.7. MECs cannot be used in reflow or infrared soldering processes. Hand or robotic soldering is required.
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 4
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
Typical CharacteristicsX-RefTarget - Figure 1
Figure 1: Typical Discharge Curves @25C (300 Ah Standard Grade Cell)
X-RefTarget - Figure 2
Figure 2: Typical Discharge Curves @25C (300 Ah Performance Grade Cell)
ds1013_01_20110729
1.5
2.0
2.5
3.0
3.5
4.0
4.5
0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35
CellVoltage(V)
Discharge Capacity (mAh)
0.3 mAh Standard Grade
0.15 mA Discharge
0.3 mA Discharge
1.5 mA Discharge
4.0 mA Discharge
6.0 mA Discharge
10 mA Discharge (33 C-Rate)
ds1013_02_20110729
1.5
2.0
2.5
3.0
3.5
4.0
4.5
0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35
CellVoltage(V)
Discharge Capacity (mAh)
0.3 mAh Performance Grade
0.15 mA Discharge
0.3 mA Discharge
1.5 mA Discharge
5.0 mA Discharge
8.0 mA Discharge
15 mA Discharge (50 C-Rate)
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 5
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
X-RefTarget - Figure 3
Figure 3: Typical Discharge Curves @25C (400 Ah Standard Grade Cell)
X-RefTarget - Figure 4
Figure 4: Typical Discharge Curves @25C (400 Ah Performance Grade Cell)
ds1013_03_20110729
1.5
2.0
2.5
3.0
3.5
4.0
4.5
0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40 0.45
CellVoltage(V)
Discharge Capacity (mAh)
0.4 mAh Standard Grade
0.15 mA Discharge
0.3 mA Discharge
1.5 mA Discharge
4.0 mA Discharge
6.0 mA Discharge
10 mA Discharge (25 C-Rate)
ds1013_04_20110729
1.5
2.0
2.5
3.0
3.5
4.0
4.5
0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40 0.45
CellVoltage(V)
Discharge Capacity (mAh)
0.4 mAh Performance Grade
0.15 mA Discharge
0.3 mA Discharge
1.5 mA Discharge
5.0 mA Discharge
8.0 mA Discharge
15 mA Discharge (37 C-Rate)
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 6
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
X-RefTarget - Figure 5
Figure 5: Typical Maximum Current vs. Temperature All Capacity Options
X-RefTarget - Figure 6
Figure 6: Typical Charge Curve @ 25C All Capacity Options
ds1013_05_20110812
0.01
0.10
1.00
10.00
100.00
1000.00
10000.00
-60 -40 -20 0 20 40 60 80 100
Current(mA)@Voltage2.2
V
Temperature (C)
P - Grade Max Continuous Current (mA)
S - Grade Max Continuous Current (mA)
ds1013_05_20110812
0.01
0.10
1.00
10.00
100.00
1000.00
10000.00
-60 -40 -20 0 20 40 60 80 100
Current(mA)@Voltage2.2V
Temperature (C)
P - Grade Max Continuous Current (mA)
S - Grade Max Continuous Current (mA)
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
0 10 20 30 40 50
SOC%
Current(mA)
Time (minutes)
Typical Recharge 25C
S-Type MEC Recharge Current
S-Type MEC SOC
P-Type MEC Recharge Current
P-Type MEC SOC
ds1013_06_20110805
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 7
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
Shelf Life and Self-Discharge Characteristics
Typical energy storage devices such as batteries andsuper capacitors exhibit self discharge behavior that pre-vents them from being used in many applications wherethe stored energy must be retained for periods in excess often years or more. Temperature changes that occur in typ-ical applications also have a strong effect on the self-
discharge rates of these devices, normally resulting inmuch higher self -discharge rates as temperatureincreases. Traditional energy storage devices that haveacceptable self-discharge rates at room temperature caneasily become unsuitable at elevated temperatures due toelevated self-discharge rates. In contrast, IPS MEC tech-nology consistently demonstrates world leading self-discharge behavior, allowing MECs to be used in place oftraditional energy storage devices in applications wheredecades of use without maintenance are required.
MECs have a distinct advantage over traditional energystorage devices in that they possess a solid state electrolyte. This solid state electrochemical system prevents thehigh self-discharge rates and premature device failuresfound in other electrochemical systems using liquidelectrolytes.
Shelf life will be determined by the condition of the energystorage device as the open circuit voltage (OCV)decreases over time in the application environmentDevice or application failure occurs when the cell voltagedrops below the useable cutoff voltage of the applicationor when the residual capacity at a given voltage level is nolonger sufficient to perform a task demanded by the appli-cation without recharge being supplied.
Figure 7 shows the typical MEC state of charge as a function of the open circuit voltage. Note that a great deal ofMEC capacity is reserved between 3.9 and 4.0V.
X-RefTarget - Figure 7
Figure 7: OCV as a Function of State of Charge at 25C
ds1013_07_20110729
3.0
3.2
3.4
3.6
3.8
4.0
4.2
0 10 20 30 40 50 60 70 80 90 100
% State Of Discharge
OpenCircuitVoltage(V)
0102030405060708090100
% State Of Charge
T = 25 3C
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 8
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
Self-Discharge Performance
In applications where no external load is applied to theMEC, it will experience self-discharge exhibited by anobservable decrease in the OCV that is measured on thecell. Figure 8 shows a typical self-discharge curve gener-
ated from MEC test data over one year of self-dischargeat 25C. The self-discharge rate increases with temperature, but remains lower than any other energy storagedevice.
X-RefTarget - Figure 8
Figure 8: Typical Voltage Decay over One Year at 25C
ds1013_08_20110729
3.5
3.6
3.7
3.8
3.9
4.0
4.1
4.2
0 50 100 150 200 250 300 350 400
Days
Op
enCircuitVoltage
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 9
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
Figure 9 shows an extrapolated ten year self-dischargecurve. Extrapolation is used since no known failure mech-anism has been identified in MECs that would cause thedischarge curve to deviate from observed normal dis-charge behavior. As noted previously, the MEC capacity is
largely reserved in the voltage region between 3.9 and4.0V. This demonstrates that the MEC capacity has beenreduced by only a fraction, even after ten years of storageat room temperature. Figure 10 shows the extrapolatedremaining MEC capacity after 10 years of storage time.
X-RefTarget - Figure 9
Figure 9: Ten-Year Extrapolated Voltage Decay at 25C
X-RefTarget - Figure 10
Figure 10: Extrapolated Ten-Year Remaining Capacity at 25C
ds1013_09_20110729
3.5
3.6
3.7
3.8
3.9
4
4.1
4.2
0 2 4 6 8 10 12
Years
Voltage(V)
ds1013_10_20110812
50
55
60
65
70
75
80
85
90
95
100
0 2 4 6 8 10
Years
R
emainingCapacity%
Includesboth self-discharge andnon-reversible capacity loss.
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 10
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
Package DimensionsX-RefTarget - Figure 11
Figure 11: Front and Side Views
12.70
25.40
2.50
1 (typ)
2.25
2 (typ)
8.20
11.2
ds1013_11_20110805
Nickel-Plated Tab (x2)
A
0.4
DETAIL A
FRONT VIEW
SIDE VIEW
0.170
0.09
0.04
2.50
GreenInsulating
Layer
MetalConductiveSurface(Positive)
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DS1013 v1.0 16 August 2011 www.InfinitePowerSolutions.comPreliminary Product Data Sheet 11
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
PCB Land Pattern DimensionsX-RefTarget- Figure 12iNote:The orientation ofthis landpattern issuch thatthe MEC220mustbe placedwith thegreen(solder mask) side facing away from theboard.If your designrequires the green (solder mask) sidetofacethe boardbecause of exposed pads,etc.,thenthis land pattern mustbemirrored.
Figure 12: PCB Land Pattern
Note: The orientation of this land pattern issuch that the MEC220 must be placed with the green (solder mask) side facing toward theboard. If your design requires the green (solder mask) side to face away from the board because of cosmetics, etc., then this land patternmust be mirrored. See Drawing (A) above.
Drawing (B)
Green (Insulated) Side Down
ds1013_12_20110805
Note: The orientation of this land pattern issuch that the MEC220 must be placed with the green (solder mask) side facing away from theboard. If your design requires the green (solder mask) side to face the board because of exposed pads, etc., then this land pattern must bemirrored.See Drawing (B) below.
Drawing (A)
Green (Insulated) Side Up
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DS1013 1 0 16 A t 2011 I fi it P S l ti
THINERGYMEC220: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cel
Ordering Information
The complete IPS part number is as follows:
MEC 220 - 4 P
Related Documents
Related Products
Available Development Tools
For more information on this and other IPS battery products, visit the IPS web site, or contact us at 303-749-4800 [email protected].
Infinite Power Solutions, Inc.11149 Bradford Road
Littleton, Colorado 80127 USA303-749-4800
www.InfinitePowerSolutions.com
Document Description
AN1014 A Guide to Handling, Connecting, and Charging THINERGYMEC200-Series Micro Energy Cells.
P/N Description Capacity Current Voltage
MEC201 Micro-Energy Cell (25.4 mm x 25.4 mm) 0.71.0 mAh 3040 mA 4V
MEC202 Micro-Energy Cell (25.4 mm x 50.8 mm) 1.72.5 mAh 75100 mA 4V
MEC225 Micro-Energy Cell (12.7 mm x 12.7 mm) 130 Ah 57 mA 4V
P/N Description
ADPApplication Development Platform(includes three PCB-mounted MEC devices. Additional PCB-mounted MEC devices can be ordered.)
IPS-EVAL-EH-01
Universal Energy Harvesting Evaluation Kit
Ideal for developing and evaluating various energy harvesting solutions for self-powered applications.Contains THINERGY MEC, Maxim MAX17710 power management IC, and solar cell. Supports anyexternally connected AC or DC energy harvester.
THINERGY
Micro-Energy CellFamily
Model:
220 = 25.4 mm x 12.7 mm*[1.0 in x 0.5 in]*
Min. Capacity:
3 = 300 Ah4 = 400 Ah
Max. Discharge Current:*
P = Performance GradeS = Standard Grade
* See Specificationssection for ratings.
Grade:
[blank] = ProductionES = Engineering
Sample
* Does not include connection tabs. Total dimensions of supportedtab area is 11.2 mm x 2.5 mm along one edge of device.
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