Title: Liion batteries
1Li-ion batteries
- Positive electrode Lithiated form of a
transition metal oxide (lithium cobalt
oxide-LiCoO2 or lithium manganese oxide LiMn2O4) - Negative electrode Carbon (C),
- usually graphite (C6)
- Electrolyte solid lithium-salt electrolytes
- (LiPF6, LiBF4, or LiClO4)
- and organic solvents (ether)
discharge
http//www.fer.hr/_download/repository/Li-ION.pdf
2Li-ion batteries
- Chemical reaction (discharge)
- Positive electrode
- Negative electrode
- Overall
- In the above reaction x can be 1 or 0
- With discharge the Co is oxidized from Co3 to
Co4. The reverse process (reduction) occurs when
the battery is being charged.
LiCoO2
Li1-xCoO2 xLi xe-
Through electrolyte
Through load
xLi xe- 6C LixC6
LiCoO2 C6
Li1-xCoO2 C6Lx
3Li-ion batteries
- Contrary to lead-acid batteries, Li-ion
batteries do not accept well a high initial
charging current. - In addition, cells in a battery stack needs to
be equalized to avoid falling below the minimum
cell voltage of about 2.85 V/cell. - Thus, Li-ion batteries need to be charged at
least initially with a constant-current profile.
Hence they need a charger - Typical float voltage is above 4 V
- (typically 4.2 V).
Advanced Lithium Ion Battery Charger V.L.
Teofilo, L.V. Merritt and R.P. Hollandsworth
Saft Intensium 3 Li-ion battery
4Li-ion batteries
http//www.gpbatteries.com/html/pdf/Li-ion_handboo
k.pdf
5Li-ion batteries
- Controlled charging has 2 purposes
- Limiting the current
- Equalizing cells
Increased Performance of Battery Packs by Active
Equalization Jonathan W. Kimball, Brian T. Kuhn
and Philip T. Krein
Advanced Lithium Ion Battery Charger V.L.
Teofilo, L.V. Merritt and R.P. Hollandsworth
Saft Intensium 3 Li-ion battery
6Li-ion batteries
- Factors affecting life
- Charging voltage.
- Temperature
- Age (time since manufacturing)
- Degradation process oxidation
7Li-ion batteries
- Advantages with respect to lead-acid batteries
- Less sensitive to high temperatures (specially
with solid electrolytes) - Lighter (compare Li and C with Pb)
- They do not have deposits every charge/discharge
cycle (thats why the efficiency is 99) - Less cells in series are need to achieve some
given voltage. - Disadvantages
- Cost
8Ni-MH batteries
- Negative electrode Metal Hydride such as AB2
(Atitanium and/or vanadium, B zirconium or
nickel, modified with chromium, cobalt, iron,
and/or manganese) or AB5 (Arare earth mixture of
lanthanum, cerium, neodymium, praseodymium,
Bnickel, cobalt, manganese, and/or aluminum) - Positive electrode nickel oxyhydroxide
(NiO(OH)) - Electrolyte Potassium hydroxide (KOH)
Cobasys batteries
9Ni-MH batteries
- Chemical reaction (discharge)
- Positive electrode
- Negative electrode
- Overall
- The electrolyte is not affected because it does
not participate in the reaction.
NiO(OH) H2O e- Ni(OH)2
OH-
Through electrolyte
Through load
MH OH- M H2O
e-
NiO(OH) MH
Ni(OH)2 M
10Ni-MH batteries
- It is not advisable to charge Ni-MH batteries
with a constant-voltage method. Ni-MH batteries
do not accept well a high initial charging
current. - Float voltage is about 1.4 V
- Minimum voltage is about 1 V.
Cobasys Nigen battery
Saft NHE module battery
11Ni-MH batteries
Saft NHE module battery
http//www.panasonic.com/industrial/battery/oem/im
ages/pdf/panasonic_nimh_overview.pdf
12Ni-MH batteries
- Advantages
- Less sensitive to high temperatures than Li-ion
and Lead-acid - Handle abuse (overcharge or over-discharge
better than Li-ion bat - Disadvantages
- More cells in series are need to achieve some
given voltage. - Cost
13Ni-Cd batteries
- Negative electrode Cadmium (Cd) instead of
the MH in Ni-MH batteries - Positive electrode nickel oxyhydroxide
(NiO(OH)) the same than in Ni-MH - batteries
- Electrolyte Potassium hydroxide
- (KOH) solution
Saft batteries
14Ni-Cd batteries
- Chemical reaction (discharge)
- Positive electrode
- Negative electrode
- Overall
- The electrolyte is not affected because it does
not participate in the reaction.
2NiO(OH) 2H2O 2e-
2Ni(OH)2 2OH-
Through electrolyte
Through load
Cd 2OH- Cd(OH)2
2e-
2NiO(OH) Cd 2H2O
2Ni(OH)2 Cd(OH)2
15Ni-Cd batteries
- It is not advisable to charge Ni-Cd batteries
with a constant-voltage method. Ni-Cd batteries
do not accept well a high initial charging
current, but they can withstand it sporadically. - Float voltage is about 1.4 V
- Minimum voltage is about 1 V.
Saft Ultima plus
http//www.saftbatteries.com/doc/Documents/telecom
/Cube788/tel_tm_en_0704.26962445-6b1b-44fb-aea7-42
834c32be40.pdf
16Ni-Cd batteries
http//www.saftbatteries.com/doc/Documents/telecom
/Cube788/tel_tm_en_0704.26962445-6b1b-44fb-aea7-42
834c32be40.pdf
17Ni-Cd batteries
- Due to their better performance at high
temperatures, Ni-Cd batteries are replacing
Lead-acid batteries in outdoor stationary
applications. But, they do not resist hurricanes
very well, yet(ATTs DLC at Sabine Pass CO,
Saft NCX batteries)
18Ni-Cd batteries
- Advantages
- Less sensitive to high temperatures than all the
other batteries - Handle some abuse (overcharge or over-discharge
better than Li-ion bat) - Disadvantages
- More cells in series are need to achieve some
given voltage. - Cost
19Ni-Cd batteries
- Comparison with Ni-MH batteries (not much of a
difference)
Portable NiCd- and Ni-MH-Batteries for Teiecom
Applications J. Heydecke and H.A. Kiehne
20Battery technologies
Cobasys Inside the Nickel Metal Hydride Battery