Odyssey Technical Specifications On this page:
Odyssey Specifications
Odyssey Pulse Discharge Capabilities
Odyssey Storage and Recharge
Odyssey vs. Conventional Batteries

All test data supplied on these pages
are courtesy of Enersys

Odyssey Drycell ™ Batteries Specifications

Item ODYSSEY ® model (AH @10 hr. rate)
PC 535
13.0Ah		 PC 545
12.0Ah		 PC 680
16.0Ah		 PC 625
16.0Ah		 PC 925
27.0Ah		 PC 1200
40.0Ah		 PC 1700
65.0Ah
5 sec. HCA
(hot cranking amps)		 535A 545A 680A 625A 925A 1200A 1700A
CCA
(cold cranking amps)		 200A 185A 220A 265A 380A 550A 875A
CA at 32°F (0°C) 265A 240A 300A 350A 500A 725A 1175A
HCA at 80°F (27°C) 300A 300A 370A 440A 625A 860A 1325A
Reserve Capacity 1 21 min. 19 min. 25 min. 27 min. 50 min. 78 min. 142 min.
Terminals Females threaded for M6 Stainless Steal bolt M6 x 1.0 stud SAE combination post with 3/8" top thread
Max Torque (in-lb) 40 50 50 50 60 60 60
Length
inches 2		 6.70 7.00 7.27 6.70 6.64 7.87 13.02
Width
inches		 3.90 3.37 3.11 3.90 7.05 6.66 6.62
Height
inches 3		 6.125 5.17 6.67 6.89 5.04 6.80 6.93
Weight
pounds 4		 12.0 12.6 15.4 13.2 26.0 38.2 60.9
Cycle Life
at 77°F		 400 at 100% DOD and 14.7V charge for 16-24 hours.
500 at 80& DOD and 14.7V charge for 16-24 hours.
Temperature Range -40°C (-40°F) to +45°C (113°F) for PC535 and PC625.
-40°C (-40°F) to +80°C (176°F) with metal jacket on all other sides.
Resistance @
1 kHz at 77°F		 8.0m Ohm 10.0m Ohm 7.0m Ohm 7.0m Ohm 5.0m Ohm 4.5m Ohm 3.5m Ohm
Short Circuit Current > 1000A > 1200A > 1800A > 1800A > 2400A > 2600A > 3500A

1 Reserve capacity measured at a 25 amp load.

2 Length dimensions measured on terminal side and includes metal jacket,
PC535 and PC625 are without metal jacket

3 Add 0.75" for automotive terminals (available only on PC680, PC925, PC1200 and PC1700)

4 PC535 and PC625 do not have metal jackets; all other weights includes metal jackets.

 

Odyssey Drycell ™ Batteries Pulse Discharge Capabilities

The graph titled shown below demonstrates the extraordinary short duration (pulse) discharge capabilities of the ODYSSEY® family of batteries. Note that the discharge figures are shown for an ambient temperature of 25°C and to an end of discharge voltage of 7.20V per 12V battery.

Two points should be kept in mind when using this battery for such extreme high-rate discharges. First, sufficient time must be given between two successive discharges to allow the terminals to cool down. Second, the graph reflects the capabilities of fully charged ODYSSEY® batteries. Unless the batteries are fully charged, one must not expect them to meet these numbers. Finally, all of these numbers are for an ambient temperature of 25°C; if the temperature is significantly different from 25°C, the graph shown above must be appropriately modified.

The table shown below provides the five, ten and twenty second pulse discharge numbers for the ODYSSEY® line of Drycell™ batteries.

 

Battery
Model#		 Pulse discharge in amps to 7.2V
5 sec. 10 sec. 20 sec.
PC545 545 495 420
PC680 680 595 525
PC625 625 545 480
PC925 925 870 765
PC1200 1200 1090 900
PC1700 1700 1540 1355

 

Odyssey Drycell ™ Batteries Storage and Recharge

For any rechargeable battery, storage and recharge are important criteria's, and this section develops some useful guidelines that should be followed.

(A) How do I know the state of charge of the battery?
Provided the battery has not been charged or discharged for at least five (5) hours, one can use the following graph to determine the state of charge of the ODYSSEY® battery by simply using a good quality digital voltmeter to measure its open circuit voltage.

The graph below indicates that a healthy, fully charged ODYSSEY® battery will have an open circuit voltage of 12.84V or higher at 25ºC.

The open circuit voltage numbers on this graph are applicable only if the battery has not seen any activity (charge or discharge) for at least a few hours before voltage measurements are taken.

(B) How long can the battery be stored?
This next graph shows the remarkable storage properties of the ODYSSEY® battery. At a storage temperature of 25°C, one can store these batteries for up to two 2 years. As the graph illustrates, the lower the storage temperature, the longer the storage time.

The graph also illustrates the large impact of temperature on storage — for every approximately 10°C (18°F) increase in temperature the storage time is cut in half. Thus, although the ODYSSEY® battery may be kept on the shelf for two years at 25°C (77°F), if the temperature rises to about 35°C the battery may be stored for only one year before it needs a recharge.

The numbers on this graph are applicable only if the battery
is fully charged before being placed on storage.

(C) Can the battery recover from abusive storage conditions?
The short answer is yes, the ODYSSEY® battery can recover from extremely deep discharges as the following tests demonstrate.

(1) German DIN standard test for over discharge recovery.
In this test, a charged ODYSSEY® PC925 battery was fully discharged over 20 hours
(0.05C10 rate) to 10.20V. After the discharge was complete, a 5 watt resistor was placed across the battery terminals and it was set aside for 28 days.

At the end of 28 days’ of storage, the battery was charged at 13.5V for only 48 hours. Another 0.05C10 discharge yielded 97% of rated capacity, indicating that a 48-hour charge after such as deep discharge was not sufficient; however, the test is designed to show whether the battery can be recovered from extremely deep discharges using only a standby float charger. A standard automotive charger at 14.4V would have allowed the battery to recover greater than 97% of its capacity.

The results of this test prove rather conclusively that ODYSSEY® batteries can indeed recover from very abusive storage conditions. This conclusion is further reinforced by the following test which is even harsher than the DIN standard test due to the fact that the battery was stored in a discharged state at a high temperature of 50°C or 112°F.

(2) High temperature (50°/112°F) discharged storage test
In this test two ODYSSEY® battery samples were discharged at the 1-hour rate to 9V per module, then set aside for storage at 50°C (112°F) in a discharged condition for 4 weeks.

At the end of four weeks the two batteries were recharged using a constant voltage charger at 14.7V per battery. As the graph below shows, both samples were able to recover nicely from this extreme case of abusive storage.

Odyssey Drycell ™ Batteries vs. Conventional

. ODYSSEY® Conventional
Design Life 8-12 years 5 years
Service Life 3 to 10 years 1 to 5 years
Electrolyte Drycell ("starved") Most are acid flooded (causing acid burns and spills); some wet sealed or "gelled"
Storage Life 2 years before needing charge @25°C 6-12 weeks before needing charge @25°C
Shipping UPS or air transportable (less expensive) Ground transport; classified as hazardous material (more expensive)
End of Life Battery slowly loses power at end of life; no catastrophic failure Immediate and catastrophic loss of power (can leave you stranded)

 

Sealed Rechargeable DrycellTM - Deep Cycle Batteries

www.batterystore.com