MEC201-7P Infinite Power Solutions, MEC201-7P Datasheet

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MEC201-7P

Manufacturer Part Number
MEC201-7P
Description
Manufacturer
Infinite Power Solutions
Datasheet
1.MEC201-7P.pdf (12 pages)

Specifications of MEC201-7P

Lead Free Status / Rohs Status
Supplier Unconfirmed
Features
Applications
Physical Properties
General Description
The THINERGY
rechargeable, thin-film Micro-Energy Cell (MEC ). This
unique device substantially outperforms all other small form
factor electrochemical energy storage technologies, includ-
ing supercapacitors, printed batteries, and other thin-film
batteries. The device is fabricated on a metal foil substrate
to achieve its flexibility, thin profile, broad operating temper-
ature range, and long life.
The MEC is offered in a unique, patented package design
that maximizes the active area of the cell and minimizes the
device footprint to deliver the highest energy and power
density of any energy storage element of its size. External
terminals in the form of positive and negative nickel-plated
tabs are located along the top edge of the cell for easy sol-
dering to printed circuit boards (PCBs). The tabs are
supported with a flex circuit for added strength and to keep
them planar with the rigid or flex PCBs. Through-holes
© 2008–2011 Infinite Power Solutions, Inc. All rights reserved. Infinite Power Solutions®, THINERGY®, INFINERGY®, MEC®, and the Infinite Power Solutions, THINERGY, and
INFINERGY 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.
DS1012 v1.1 20 September 2011
Preliminary Product Data Sheet
Size:
Mass: 490 mg
DS1012 v1.1
Thin Form Factor – 170 µm Thick
Capacity Options up to 1 mAh
All Solid-State Construction
High Discharge Rate Capability
Ultra-Low Self-Discharge Rate
Industry-Leading Cycle Life
Fast Recharge
RoHS Compatible
Eco-Friendly/Safe
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
25.4 mm x 25.4 mm x 0.170 mm [1.0 in x 1.0 in x 0.007 in]
®
MEC201 is a solid-state, flexible,
www.InfinitePowerSolutions.com
Benefits
located in the terminal contacts allow the MECs to be
aligned on solder posts for easy connection and cell stack-
ing to create battery modules with higher capacity and
current. These tabs also allow easy connection to both ter-
minals from either side of the cell, which is important during
automated assembly onto flex circuits and PCBs. The con-
ductive metal tabs allow various connection methods
including 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 and
power).
The active materials in the device include a Lithium Cobalt
Oxide (LiCoO
electrolyte called LiPON (Lithium Phosphorus Oxynitride),
with its high Li-ion conductivity, is used to provide superior
power performance. The extremely low electron conductiv-
ity within LiPON results in ultra-low self discharge, making
Lowest Cost of Ownership
Ideal energy storage solution for energy harvesting
Simple constant-voltage recharge with no current limiting
required.
No maintenance costs
Lasts the lifetime of the application
Can be recharged and reused over and over
Can be trickle-charged with no memory effect
Solid-State, Flexible, Rechargeable
2
THINERGY
) cathode and a Li-metal anode. A solid-state
Thin-Film Micro-Energy Cell
[actual size]
Preliminary Product Data Sheet
®
MEC201

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MEC201-7P Summary of contents

Page 1

... Mass: 490 mg General Description ® The THINERGY MEC201 is a solid-state, flexible, rechargeable, thin-film Micro-Energy Cell (MEC ). This unique device substantially outperforms all other small form factor electrochemical energy storage technologies, includ- ing supercapacitors, printed batteries, and other thin-film batteries ...

Page 2

... The low self-discharge rate results in decades of shelf life. With its recharge cycle stability, the device offers tens of thousands of recharge cycles for many years of use with no memory effects. The MEC201 provides an extremely safe, reliable, and low-cost energy storage solution that outper- forms any other micro-battery or capacitor solution. This component class device is intended to be designed in for the life of the product ...

Page 3

... Discharging the cell below the specified discharge cutoff voltage will cause permanent battery damage. 6. After first year. 7. MECs cannot be used in reflow or infrared soldering processes. Hand or robotic soldering is required. DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell Rating (1) Options Min Typ -7 0.7 mAh -10 1 ...

Page 4

... Figure 2: Typical Discharge Curves @25°C (0.7 mAh Performance Grade Cell) DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell 0.7 mAh Standard Grade 0.2 0.3 0.4 0.5 Discharge Capacity (mAh) 0.7 mAh Performance Grade ...

Page 5

... Figure 4: Typical Discharge Curves @25°C (1.0 mAh Performance Grade Cell) DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell 1.0 mAh Standard Grade 0.2 0.3 0.4 0.5 0.6 0.7 Discharge Capacity (mAh) 1 ...

Page 6

... Figure 6: Typical Charge Curve @ 25°C — All Capacity Options DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell P - Grade Max Continuous Current (mA Grade Max Continuous Current (mA) -40 - Temperature (° ...

Page 7

... Figure 7: OCV as a Function of State of Charge at 25°C DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell MECs have a distinct advantage over traditional energy storage devices in that they possess a solid state electro- lyte. This solid state electrochemical system prevents the ...

Page 8

... DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell ated from MEC test data over one year of self-discharge at 25°C. The self-discharge rate increases with tempera- ture, but remains lower than any other energy storage device ...

Page 9

... DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell largely reserved in the voltage region between 3.9 and 4.0V. This demonstrates that the MEC capacity has been reduced by only a fraction, even after ten years of storage at room temperature ...

Page 10

... X-Ref Target - Figure 11 2.25 11.2 8.20 1 (typ) Nickel-Plated Tab (x2) DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell All dimensions are in millimeters (mm) 2 (typ) 2.50 25.40 25.40 FRONT VIEW Figure 11: Front and Side Views www.InfinitePowerSolutions.com ...

Page 11

... Green (Insulated) Side Up Note: The orientation of this land pattern is such that the MEC201 must be placed with the green (solder mask) side facing away from the board. If your design requires the green (solder mask) side to face the board because of exposed pads, etc., then this land pattern must be mirrored ...

Page 12

... For more information on this and other IPS battery products, visit the IPS web site, or contact us at 303-749-4800 or . sales@ipsbatteries.com DS1012 v1.1 20 September 2011 Preliminary Product Data Sheet ® MEC201: Solid-State, Flexible, Rechargeable Thin-Film Micro-Energy Cell MEC 201 - 10 P Min. Capacity 1.0 mAh 07 = 0.7 mAh Description Capacity 1.7– ...

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