Panasonic Ncr18650b

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  1. Panasonic Ncr18650b Pdf
  2. Panasonic Ncr18650b Sds
  3. Panasonic Ncr18650b Button Top
  4. Panasonic Ncr18650b With Solder Tabs

Panasonic NCR18650G is a famous Li-ion cell which appeared in 2014 and very quickly disappeared. It had (and still has) the highest capacity rating in 18650 format. The battery was bought from my reliable supplier ( Queen Battery ) and tested with ZKETECH EBC-A20 and a self-made battery holder. 1-16 of 166 results for 'panasonic ncr18650b battery' 8 Pack - New Panasonic AA NiCd 1.2V 700 mAh N-700AAC Button TOP Rechargeable Battery - for Solar, Cordless, ETC Rechargeable.

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The Panasonic B is the most famous out of all 18650 batteries. When first released several years ago it was the highest-capacity 18650 cell mass produced and thus an essential ingredient in the rechargeable revolution and for the adoption of electric vehicles like the Model S (which has been powered by the Panasonic 18650B for some years). It is still a frequently requested cell for custom packs.

Battery specifications:

  • Model: NCR18650B
  • Positive terminal style: Flat-top
  • Protected (PCB): No
  • Manufacturer: Panasonic
  • Chemistry: NCR
  • Max. continuous discharge current: 4.875A
  • Rated capacity (minimum): 3200 mAh
  • Nominal capacity: 3350 mAh
  • Nominal voltage: 3.6 V
  • Discharge end voltage: 2.5 V
  • Charging voltage: 4.20 +/- 0.03 V
  • Standard charging current: 1.625 A

Here is a link to the spec sheet.

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Battery Bro has been in business since 2014 and has never sold counterfeit cells. We value long-term relationships with clients and encourage our clients to performance test cells against official manufacturer specification sheets.

In Asia, 18650 batteries are binned by quality into A, B, and lower bins. C-bin batteries are often recycled from battery packs. Lower bin batteries will underperform and may be dangerous.

We will only provideA Grade cells, unless specifically required to otherwise, for example, some clients may prefer Grade B Chinese cells for low-cost ESS projects. We can also confirm batch-date code, run testing (like impedance/voltage/capacity), and handle other IQC requirements.

Safety

Take a look at our 18650 battery safety infographic

Some general tips

  • Do not exceed max. continuous discharge ratings.
  • Keep temperature under 60 degrees Celsius.
  • Do not carry loose batteries in your pocket.

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For retailers selling 18650 batteries:

Increase battery sales and protect yourself from liability with 18650 safety booklets.

Customers ignorant to battery safety are not likely to purchase 18650 batteries or upgrade to MODs which require them.

You, the store owner can show your customers your shop cares about their safety

Simply bundle our safety booklets with the batteries you sell.

  • Did you know? In 2015, an e-cig shop was sued for one million dollars when a battery short-circuited in a customer's pocket. A safety booklet could have prevented that and protected the retailer from a lawsuit.

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Related products

The BD is grey and the BE is green

The Panasonic NCR series is perhaps the most important line of lithium-ion batteries. If that is too far a stretch because you prefer li-poly which is also good, no one would argue that they are at least big-shots of the 18650 world. The NCR18650A was the first really high-capacity lithium-ion battery in the marketplace, which is the key metric driving demand of electric vehicles - the largest market for these type of cells. The NCR18650B which came some time later is the NCR18650A's usurper with an even higher capacity. These are the two commodity cells which mostly define the 'energy density metric' which all energy analysts follow so closely.

The Panasonic 18650 B is the battery powering the current generation of Tesla Model S and as such receives good attention.

The Panasonic 18650 B has cousins. They are slight variations to the original chemistry that produce slight variations in end performance. Electrolyte balances are slightly tweaked, or other changes are made to the original chemistry such that variables like cycle life, or capacity can be honed in and maximized. The Panasonic B is no exception, especially with its popularity, so it receives many variations. One variation may one day lead to the next generation of battery with a substantially (+200 mAh) higher capacity.

In this blog post I will compare the specifications and visual characteristics of two popular variations of the NCR18650B - the NCR18650BD (grey) and NCR18650BE (green). I will first post the original manufacturers specifications and then put them in a table for easy comparison. I'll walk through each spec, and finally take some pictures so you can identify the battery and its parts.

Panasonic 18650 BD Spec Sheet

Panasonic 18650 BE Spec Sheet

Comparative Specifications Table

Panasonic 18650 BDPanasonic 18650 BE
Rated Capacity (mAh)3000 (at 20°C)3200 (at 20°C)
Min. Nominal Capacity (mAh)3080 (at 25°C)3030 (at 25°C)
Typ Nominal Capacity (mAh)3180 (at 25°C)3180 (at 25°C)
Discharge current for ratings (A)0.610.61
Nom. Voltage (V)3.63.6
Charging Voltage (V)4.24.2
Charging Current (A)0.9[Fixed] 0.909
Charging Time (hours)85
Max. Continuous Discharge (A)103.63
Discharge End Voltage (V)2.52.5
Max. Weight (g)4948.5
Max. Diameter (mm)18.518.2
Max. Length (mm)65.365.5
Max. Temperature (°C)70?

What is the difference between rated capacity and nominal capacity?

Rated capacity, nominal capacity, nameplate capacity, or maximum effect - in many industries - all share the same meaning. That is the intended full-load sustained output. For lithium ion batteries the definitions are actual separate. Rated capacity and nominal capacity are often written as two distinct variables on a spec sheet, one followed by the other.

The United Nations Manual of Tests and Criteria define Rated Capacity as the capacity, in ampere-hours, of a cell or battery as measured by subjecting it to:

  • Load
  • Temperature
  • Voltage Cut-Off Point

For lithium-ion batteries, nominal values are used for factors with variability to distinguish them from real or actual values. For example, 18650 battery manufacturers have levels of tolerance for the capacity of their batteries. It is impossible to refine the materials and processes so exacting as to produce 18650 batteries with capacities within a single milliamp hour. That is why even within Grade A 18650 cells are Ranks A and B, the latter with a capacity 10-30 mAh less (in application this difference usually only matters when putting cells in a series).

This variability in battery capacity makes it impossible for the manufacturer to approximate a single real value. Instead they use a nominal capacity (one with a certain tolerance) and usually divide this factor further by a minimum and a typical rating so you can appreciate the range of capacity this cell might have in reality when you receive it.

Beware: Rated capacity definition for lithium-ion batteries are ambiguous

I am referring to a United Nations regulation from 2010 which found that rated capacity was not adequate to rate a lithium-ion battery. The determining factors going into the rating can too easily be exaggerated by manufacturers to gain an unfair advantage by claiming capacity higher than they should.

If you are in the European Union, this is not the case. The EU uses International Standard (IEC 61960) as a globally recognized standard to evaluate the rating of a battery. The EU does not require a watt-hours label.

Combine rating with watt-hours

The new regulations state that battery manufacturers must include Watt-hours. So when you are determining which cell and which capacity will fit your application, take some time to look at watt-hour rather than only a rated capacity it your capacity demands are stringent.

The United Nations Model Regulations are such:

'Watt-hour'

Calculated by multiplying a cell's or battery's rated capacity, in ampere-hourse, by its nominal voltage.

'Rated Capacity'

Rated capacity means the capacity, in ampere-hours, of a cell or battery as measured by subjecting it to a load, temperature and voltage cut-off point specified by the manufacturer.

Panasonic ncr18650b pdf

Capacity of Panasonic BD and Panasonic BE

Differences

  • BD has +50 mAh nominal capacity
  • BE has +200 mAh rated capacity

So which battery has a higher capacity? Well, with such ambiguous definitions, it is quite difficult to say out-right. My instinct after reading the United Nations report on the definition of rated capacity is to go with the more variable nominal rating, especially its typical designation. In this case both the 18650 BD and the 18650 BE have exactly the same typical nominal capacity of 3180 mAh.

With every battery discharge test you run at home, you also have to consider the three factors (load, temperature, voltage cut-off point) if you want to get your own battery specs to match with the manufacturer's. You can see the proper conditions in the comparative spec chart posted above.

The characteristics of the discharge test for both batteries are:

  • 20 or 25 degrees Celcius ambient temperature
  • .61 ampere discharge current
  • 2.5 volt cut-off point when the discharge ends

Battery Bro's Panasonic 18650 BD and BE discharge test conditions

To find out more accurately in my own case, with two battery samples, one BD and one BE which has a higher capacity I used an 18650 charger and custom-built Arduino lithium-ion battery discharger with an 18650 adapter and a port through USB where I can chart the discharge curve.

I always like to run through three to five discharge cycles before using the data from the discharge curve for analysis. I find that some cells do not need the initial cycles, but others do. It depends on what tests the manufacturer performed on them, how they were stored, and how long they were stored. It also depends on their chemistry type and how they particularly handle the transfer of ions. To have a more accurate test it's good to cycle them a few times, seeing that they charge up to their full capacity.

Discharge tests should start with a fully charged battery at 4.20 V but with my set-up and in application my tests start at ~4.16 V. This quick volt drop in the beginning is just a millisecond and does not account for a notable change in the ending capacity. Also make sure the end-voltage is correct as some unaccounted volts at the end of the curve can easily account for 100 or 200 mAh. Every battery is rated differently and in this case of the BD and BE the discharge tests should end when the batteries are at 2.5 V.

BD Discharge Tests

BE Discharge Tests

Discharge tests table

BD Capacity (mAh)BD Energy (Wh)BE Capacity (mAh)BE Energy (Wh)
Test 1313610.59311510.5
Test 23114 (-0.70% change)10.523101 (-0.40% change)10.47
Test 33061 (-1.70% change)10.343099 (-.006% change)10.46
Average310310.48333333311510.47666667
Capacity difference (mAh)12
Energy difference (Wh)0.01

Panasonic Ncr18650b Pdf

Here is the data from the above tests in an easy format to compare. I wanted to know which cell had a higher capacity - but there is no winner. The Panasonic 18650 BE has a higher capacity but only of 12 amps (about 0.3% of the total capacity), which is well within the margin of variability. From these discharge tests I would conclude the BD and BE both have the same capacity, and my numbers line up very well with what I would have expected by following the manufacturers nominal capacity rating.

Remember the typical nominal capacity for both batteries as outlined by the spec sheet is 3180 mAh and had I limited my amp drain from 2.5 V down to .61 V as per testing conditions for the spec sheet I would have easily hit this capacity target.

This goes very much against the rated capacities of each battery. The BE is rated at 3200 mAh while the BD only 3000 mAh. However under closer look, both batteries share exactly the same capacity rating.

Charging Time and Max. Continuous Discharge

Most aspects of these two batteries are the same. However charging time and maximum continuous discharge ratings are very different. In a higher-drain situation you must choose the BD over the BE. The BE has a very low drain limit (about 3 amps) compared to the BD (with about 10 amps). If you need acceleration, torque, or burst power of high amps - there is no contest, the BD wins.

Interestingly enough, for the 18650 BD to achieve this it had to be compensated for with a longer charge time. The BD takes eight full hours to charge on its rated charge current of .9 amps. The spec sheet states 3 amps is the limit this battery will take. Compare that to the BE with a reasonable five hour recharge. That is actually a 40% decrease in charge time.

So you must weight amp discharge with charge-time if you are choosing between these two batteries, as all other specs are more or less the same.

Panasonic Ncr18650b Sds

Visually inspecting your Panasonic 18650 batteries

The appearance of your battery

Should not have

  • Scratches
  • Rust
  • Discoloration
  • Dirt
  • Deformation
  • Leakage

You should also take a look at the pictures below and see that they match your own batteries.

Profile Shots

Compare your batteries to these shots. How similar are they? The color in my BE shots is really off because of the blue background yellow lighting. They are a lime green and not so yellow in real-life.

QC Code under PVC

Here is something you can quickly check for. The Panasonic BD and BE both have a quality control code printed directly on the steel underneath the heat-shrink PVC. However you can still see it, albeit faintly. Check to make sure your cell also has a code somewhere visible. Other markings may also be visible, for example my BD had an alphanumeric near the negative terminal as well. If your battery is missing all QC codes it is a red-flag.

Top-cap comparison

Panasonic has the most variety of its top caps in 18650 batteries. The grey BD has a circular positive terminal very similar to that of the Samsung 25R. It has three connection points between the positive terminal and the rest of the top cap.

The Panasonic 18650 BE on the other hand has a sharp, triangular positive terminal.

Panasonic Ncr18650b Button Top

Here you can see the two batteries and their positive terminals side-by-side.

Negative Terminal

The Panasonic BE is also unique because of its bottom terminal with an indented ridge.

Length Measurement

IMPORTANT! Never measure your battery like this using metal calipers. You always want to be extra careful not to connect the positive and negative terminals as this will short-circuit your battery and potentially cause an explosion.

All the measurements check out to the spec. sheet max values and actual values do not exceed what was expected.

Weight Measurement

The BE weighs in slightly heavier than the BD.

Notes on building lithium battery packs

If you are building rechargeable battery packs, Panasonic cautions the following on design:

Designing a lithium battery back

  • Can not connect to unauthorized chargers, equipment, or other devices
  • Terminal shape should be designed to prevent short-circuiting
  • Over current protection function to prevent external short circuits
  • Terminal shape designed so it can't connect backwards and short-circuit
  • Design should prevent static, electrolyte, or water ingress* issues
  • Protection circuit should be accessible to be inspected
  • If electrolyte leaks out of the battery, it should not be able to reach the PCB
  • Cells should be fixed in place so they can't jostle around
  • Use glue, and be careful if ultrasonic welding
  • Should be sealed shut so end users can't touch cells

The protection circuit for the battery pack requires:

  • Overcharge protection
  • Over discharge protection
  • Over current protection

Avoid connecting cells together by soldering. Many DIYers weld directly on the top-cap of the batteries which can (pretty easily) lead to short-circuiting. As the negative and positive terminal meet right near the top of the battery, a bit of solder which slides to the edge of the battery is all it takes for a thermal runaway event.

The proper way to connect batteries is with lead plates and spot welding.

*Water ingress is the leaking of water into an enclosure.

Storing Panasonic 18650 BD and BE

You should store the batteries under the following conditions:

  • Between -20C and +20C
  • Low humidity (less than 70 %RH)
  • No corrosive gases
  • No condensation on batteries

If you are storing them longer than three months the only difference is

  • Discharge or partially discharge the batteries for long duration.

The Panasonic 18650 BD is shipped out at 48% charge which is just about 1500mAh. Every month the batteries are stored, they will lose some voltage. This is why when you receive the batteries they will have a slightly lower charge.

The BD should has a lower limit of 2.0V - so consider discharging your batteries but monitoring that they do not go under 2.0V. Maintenance every few months might be necessary to top up capacity. Cells under 2.0V will start to decompose.

Related Posts

Panasonic Ncr18650b With Solder Tabs

18650 Battery Safety Booklets





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