BZ054B473ZSBCS

## **BestCap[®] Ultra-low ESR High Power Pulse Supercapacitors** 

070820-A 

## **IMPORTANT INFORMATION/DISCLAIMER** 

All product specifications, statements, information and data (collectively, the “Information”) in this datasheet or made available on the website are subject to change. The customer is responsible for checking and verifying the extent to which the Information contained in this publication is applicable to an order at the time the order is placed. All Information given herein is believed to be accurate and reliable, but it is presented without guarantee, warranty, or responsibility of any kind, expressed or implied. 

Statements of suitability for certain applications are based on AVX’s knowledge of typical operating conditions for such applications, but are not intended to constitute and AVX specifically disclaims any warranty concerning suitability for a specific customer application or use. 

## ANY USE OF PRODUCT OUTSIDE OF SPECIFICATIONS OR ANY STORAGE OR INSTALLATION INCONSISTENT WITH PRODUCT GUIDANCE VOIDS ANY WARRANTY. 

The Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise provided by AVX with reference to the use of AVX’s products is given without regard, and AVX assumes no obligation or liability for the advice given or results obtained. 

Although AVX designs and manufactures its products to the most stringent quality and safety standards, given the current state of the art, isolated component failures may still occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards (such as installation of protective circuitry or redundancies) in order to ensure that the failure of an electrical component does not result in a risk of personal injury or property damage. 

Unless specifically agreed to in writing, AVX has not tested or certified its products, services or deliverables for use in high risk applications including medical life support, medical device, direct physical patient contact, water treatment, nuclear facilities, weapon systems, mass and air transportation control, flammable environments, or any other potentially life critical uses. Customer understands and agrees that AVX makes no assurances that the products, services or deliverables are suitable for any high-risk uses. Under no circumstances does AVX warrant or guarantee suitability for any customer design or manufacturing process. 

Although all product–related warnings, cautions and notes must be observed, the customer should not assume that all safety measures are indicted or that other measures may not be required. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

121119 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors** 

## **Table of Contents** 

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||||||
|---|---|---|---|---|
|INTRODUCTION TO BESTCAP|[®]|.........................................................................................................................................................................................|1|
|BESTCAP|[®]|GENERAL INFORMATION|...............................................................................................................................................................................|2|
|SECTION 1|
|Electrical Ratings (A-B Series)|...............................................................................................................................................................................................|4|
|Electrical Ratings (BZ01/02/05/09)|.......................................................................................................................................................................................|5|
|SECTION 2|
|Mechanical Specifications (A-Lead)|......................................................................................................................................................................................|8|
|Mechanical Specifications (W-Lead)|.....................................................................................................................................................................................|9|
|Mechanical Specifications (H-Lead)|....................................................................................................................................................................................|10|
|Mechanical Specifications (L-Lead)|.....................................................................................................................................................................................|11|
|Mechanical Specifications (N-Lead)|....................................................................................................................................................................................|12|
|Mechanical Specifications (S-Lead)|....................................................................................................................................................................................|13|
|Packaging Specifications/Quantities (BZ01/02/05/09)|.......................................................................................................................................................|14|
|Cleaning/Handling/Storage Conditions/Part Marking/Termination Finish|..........................................................................................................................|15|
|Product Safety Materials Handling/Materials and Weight/Typical Weight Data|.................................................................................................................|16|
|SECTION 3|
|Electrical Characteristics – Schematic, Typical Characteristics|.........................................................................................................................................|18|
|Mounting Procedure on a PCB for BestCap|[®]|.......................................................................................................................................................................|19|
|Qualification Test Summary|.................................................................................................................................................................................................|20|
|SECTION 4|
|Application Notes/BestCap|[®]|Construction/Voltage Drop|....................................................................................................................................................|22|
|Enhancing the Power Capability of Primary Batteries|.........................................................................................................................................................|24|
|BestCap|[®]|for GSM/GPRS PCMCIA Modems|........................................................................................................................................................................|25|
|SECTION 5|
|Extended Temperature Range|..............................................................................................................................................................................................|27|

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The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors** 

## **Introduction to BestCap**[®] 

## **INTRODUCING BESTCAP[®] : A NEW GENERATION OF PULSE SUPERCAPACITORS** 

Supercapacitors (also referred to as Electrochemical Capacitors or Double Layer Capacitors) have rapidly become recognized, not only as an excellent compromise between “electronic” or “dielectric” capacitors such as ceramic, tantalum, film and aluminum electrolytic, and batteries (Figure 1), but also as a valuable technology for providing a unique combination of characteristics, particularly very high energy, power and capacitance densities. 

There are, however, two limitations associated with conventional supercapacitors, namely: high ESR in the tens of Ohms range, and high capacitance loss when required to supply very short duration current pulses. BestCap[®] successfully addresses both of these limitations. 

The capacitance loss in the millisecond region is caused by the charge transfer (i.e. establishment of capacitance) being carried out primarily by relatively slow moving ions in double layer capacitors. 

**Figure 1. Specific Energy of Capacitor Types** 

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10000<br>SPECIFIC ENERGY<br>1000<br>Py PT<br>100<br>Rekae<br>ELECTROLYTIC<br>CAPACITOR 10<br>& SS 7 1<br>0.1 1 10 100 1000 10000<br>Capacitance (mF)<br>®<br>ELECTROLYTICPOLYMERALUMINUM<br>TANTALUM<br>Specific Energy (mFV/cc)<br>**----- End of picture text -----**<br>


In the above-mentioned “electronic” capacitors, the charge transfer is performed by fast electrons, thereby creating virtually instant rated capacitance value. In the BestCap[®] , a unique proton polymer membrane is used – charge transfer by protons is close to the transfer rate for electrons and orders of magnitude greater than organic molecules. Figure 2 below illustrates the severe capacitance loss experienced  by several varieties of supercapacitors under short pulse width conditions. It can also be seen from Figure 2 how well BestCap[®] retains its capacitance with reducing 

pulse widths. 

For comparison purposes, the characteristic of an equivalent capacitance value aluminum electrolytic capacitor is shown in Figure 2. The electrolytic capacitor is many times the volume of the BestCap[®] . 

**Figure 2. Actual Capacitance vs. Pulse Width** 

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100%<br>EDLC-Electrochemical<br>80%<br>® double layer capacitor<br>60% oN<br>Aluminum Electrolytic Capacitor<br>manufacturer A EDLC<br>40%<br>manufacturer B EDLC<br>20% Ne manufacturer C EDLC<br>0% =<br>1000 100 10 1<br>Pulse Width (msec)<br>The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or<br>available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order.<br>102419<br>Actual Cap. (% of Nominal)<br>**----- End of picture text -----**<br>


– bestcap[®] ultra-low esr high power pulse supercapacitors – 

1 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors BestCap**[®] **General Information** 

## **BESTCAP[®] – A SERIES – MAXIMUM CAPACITANCE, LOW ESR B SERIES – LOW PROFILE, LOW ESR** 

The BestCap[®] is a low profile device available in four case sizes. Capacitance range is from 6.8mF to 1000mF and includes 7 voltage ratings from 3.6V to 16V. 

## **BESTCAP[®] – AVAILABLE LEAD CONFIGURATIONS** 

## **STANDARD:** 

||N-Style: Two Terminal Planar Mount||S-Style: Three Terminal Planar Mount<br>L-Style: Four Terminal Planar Mount|S-Style: Three Terminal Planar Mount<br>L-Style: Four Terminal Planar Mount|S-Style: Three Terminal Planar Mount<br>L-Style: Four Terminal Planar Mount||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||(Available in BZ01, BZ05, BZ09 case only)||(Available in BZ01, BZ05, BZ09 case only)<br>(Available in BZ01 and BZ02 case only)||||||||||||||||
||A Style: Through-Hole Mount||H-Style: Extended Stand-Off Through Hole Mount||W-Style: Wire Lead Mount||||||||||||||
||(Available in BZ01, BZ02 case only)||(Available in BZ01, BZ02 case only)<br>(Available in BZ01, BZ05 case only)||||||||||||||||
|**BODY DIMENSIONS**<br>**Case Size**<br>**L ±0.5 (0.020)**<br>**mm(inches)**<br>**W ±0.2 (0.008)**<br>**mm(inches)**<br>**H nom mm (inches)**<br>**BZ01**<br>28(1.102)<br>17(0.669)<br>2.3(0.091)– 6.5(0.256)<br>**BZ02**<br>48(1.890)<br>30(1.181)<br>2.9(0.114)– 6.8(0.268)<br>**BZ05**<br>20(0.787)<br>15(0.590)<br>2.3(0.091)– 6.5(0.256)<br>**BZ09**<br>17(0.669)<br>15(0.590)<br>2.3(0.091)<br>~~—_——— ~~|||||**LEAD-FREE COMPATIBLE**<br>**COMPONENT**<br> ~~—~~|irs<br>COMPLIANT|||||||||||||
|**ELECTRICAL SPECIFICATIONS**|||**Full dimensional specifications shown in section (2)**|||**Full dimensional specifications shown in section (2)**|||||||||||**Full dimensional specifications shown in section (2)**||
|**Capacitance range:**<br>6.8mF – 1000mF|||||||||||||||||||
|**Capacitance tolerance:**<br>+80%/–20%|||||||||||||||||||
|**Voltage ratings (max):**<br>3.6V<br>4.5V<br>5.5V|||9V<br>12V<br>15V<br>16V<br>20V||||||||||||||||
|**Test voltages:**<br>3.5V<br>4.2V<br>5.0V|||8.4V<br>10.0V<br>11.0V<br>13.0V<br>16.0V||||||||||||||||
|**Surge test voltage:**<br>4.5V<br>5.6V<br>6.9V|||11.3V<br>15.0V<br>18.8V<br>20.0V<br>25.0V||||||||||||||||
|**Temperature range:**<br>–20°C to 70°C,consult factor||consult factoryfor -40ºC and +75ºC options|||||||||||||||||



## **HOW TO ORDER** 

## **(See Detailed Electrical Specifications for valid combinations)** 

|**BZ**|**BZ**|**0**|**0**|**1**|**1**|**5**|**A**|**A**|**503**|**503**|**Z**|**Z**|**A**|**A**|**B**|**B**|**XX**|**XX**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|BestCap®<br>Standard<br>~~T~~o~~T~~||||Case Size<br>TT||Rated<br>Series<br>~~T~~o~~T~~|||Capacitance<br>~~7~~||Capacitance<br>Lead<br>~~T~~o~~T ~~||||Packaging<br>Not Used<br> ~~T~~O~~T~~||||
|||0 = Standard||1 = 28mmx17mm||Voltage|A = Maximum||Code||Tolerance||Format||B = Bulk||For Standard||
|||1 = High Cap||2 = 48mmx30mm<br>5 = 20mmx15mm<br>9 = 17mmx15mm||3 = 3.6V<br>4 = 4.5V<br>5 = 5.5V<br>9 = 9.0V<br>C = 12.0V<br>F = 15.0V|Capacitance<br>B = Low Profile||(Farad Code)||Z = (+80/-20)%<br>8 = (+50/-20)%<br>P = (+100/-0)%<br>N = (+30/-30)%||A, H, L, N,<br>S or W||A, H, L, N,||Product<br>(Consult<br>Factory<br>For Special<br>Requirements)||
|||||||G = 16.0V|||||||||||||
|||||||K = 20.0V|||||||||||||



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

2 

102419 

## **SECTION 1 Electrical Ratings** 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

3 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Electrical Ratings (A-B Series)** 

**==> picture [544 x 281] intentionally omitted <==**

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J SECTION 1: ELECTRICAL RATINGSCAPACITANCE / VOLTAGE / CASE SIZE MATRIX<br> Ce A-SERIES – MAXIMUM CAPACITANCE<br>Capacitance Rated Voltage DC at 25°C<br>3.6V 5.5V 9.0V 12.0V 16.0V<br>mF Code Case   Lead  Case   Lead  Case   Lead  Case   Lead  Case   Lead<br>|epns Size Styles RN Size Styles I Size Styles Size Styles Size Styles<br>10 103 BZ05 N, S<br>22 223 BZ01 A, H, S<br>SEIU ann<br>33 333 BZ05 N, S, W BZ01 A, H, S<br>47 473 BZ11 S<br>—_—a<br>50 503 BZ01 A, H, S, L<br>————— 68 683 BZ05 S<br>70 703 BZ01 A, H, S, L<br>—————————— 90 903 BZ02 A, H, L<br>100 104 BZ01 A, H, S, L<br>—————— 120 124 BZ02 A, H, L BZ12 A, L<br>140 144 BZ01 A, H, S, L<br>———————— 150 154 BZ15 S<br>200 204 BZ02 A, H, L<br>———— 280 284 BZ02 A, H, L<br>a<br>400 404 BZ02 A, H, L<br>—————— 470 474 BZ12 A<br>560 564 BZ02 A, H, L<br>—— 1000 105 BZ12 A, H, L<br>**----- End of picture text -----**<br>


~~Ce~~ **B-SERIES – LOW PROFILE Capacitance Rated Voltage DC at 25°C 3.6V 4.5V 5.5V 9.0V 12.0V 15.0V 20.0V** ~~SSS5~~ **mF Code Case Lead Case Lead Case Lead Case Lead Case Lead Case Lead Case Lead** ~~|| PReprePpL~~ **Size Styles Size Styles Size Styles Size Styles Size Styles Size** ~~SSS~~ **Styles Size Styles** ~~a~~ 4.7 472 ~~es es es rs rsG(R GR LLL(RD(nO LLL~~ BZ05 N, S, W 6.8 682 BZ05 N, S, W BZ01 N, S, W ~~a~~ 15 153 BZ09 N, S, W BZ05 N, S, W BZ01 A, H, S 22 223 BZ05 N, S, W BZ01 A, H, S ~~a~~ 30 303 ~~a~~ BZ01 S, N 33 333 BZ01 S, N, W BZ05 S, N, W ~~=~~ 47 473 BZ15 N, S, W BZ11 S 50 503 BZ01 S, N, W 60 603 BZ01 A, H, S, L ~~—_————~~ 100 104 BZ11 S, N, W 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

4 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Electrical Ratings (BZ01/02/05/09)** 

## **SECTION 1: ELECTRICAL RATINGS** 

## **ELECTRICAL RATINGS - SEE SECTION 2 FOR DIMENSIONAL REFERENCES** 

|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|**BZ 01 CASE SIZE**|
|---|---|---|---|---|---|---|---|---|---|
|**Part**<br>**Number**|**Rated**<br>**Voltage**<br>**(Volts)**|**Capacitance**<br>**(mF)**|**ESR**<br>**(mOhms at 1 kHz)**||**Leakage**<br>**Current**<br>**(µA max)**|**Height**<br>**A-Lead**<br>**(mm)**|**Height**<br>**H-Lead**<br>**(mm)**|**Height**<br>**S-Lead**<br>**(mm)**|**Height**<br>**S-Lead**<br>**(AJ)*(mm)**|
|||**Nominal**<br>**+80%, –20%**|**T ypical**|**Maximum**|**Maximum**|**H max**|**H max**|**H max**|**H max**|
|**3.6V**||||||||||
|**BZ013B503Z_B**|3.6V<br>~~————~~|50<br>~~————~~|100<br>~~————~~|120<br>~~————~~|5<br>~~————~~|NA<br>~~————~~|NA<br>~~————~~|3.2<br>~~————~~|2.1<br>~~————~~|
|**BZ013A703Z_B**||70<br>~~————~~|140<br>~~————~~|168<br>~~————~~|5<br>~~————~~|3.5<br>~~————~~|6.4<br>~~————~~|4.0<br>~~————~~|2.9<br>~~————~~|
|**BZ113B104Z_B**||100<br>~~————~~<br>~~ee~~|100<br>~~————~~<br>~~ee~~|120<br>~~————~~<br>~~ee~~|10<br>~~————~~<br>~~ee~~|NA<br>~~————~~<br>~~ee~~|NA<br>~~————~~<br>~~ee~~|3.2<br>~~————~~<br>~~ee~~|2.1<br>~~————~~<br>~~ee~~|
|**BZ013A144Z_B**||140<br>~~————~~<br>~~ee~~|70<br>~~————~~<br>~~ee~~|84<br>~~————~~<br>~~ee~~|5<br>~~————~~<br>~~ee~~|5.3<br>~~————~~<br>~~ee~~|8.2<br>~~————~~<br>~~ee~~|5.8<br>~~————~~<br>~~ee~~|NA<br>~~————~~<br>~~ee~~|
|**4.5V**<br>~~————~~<br>~~ee~~<br>~~aa~~<br>~~DO~~<br>~~GOGO~~||||||||||
|**BZ014B333Z_B**|4.5V<br>~~a~~|33<br>~~a~~|150<br>~~DO~~|180<br>~~DO~~|5<br>~~GOGO~~|NA<br>~~GOGO~~|NA<br>~~GOGO~~|3.5|2.4|
|**5.5V**<br>~~a a~~<br>~~DO~~<br>~~GOGO~~||||||||||
|**BZ015B303Z_B**|5.5V<br>~~————~~|30<br>~~————~~|160<br>~~————~~|192<br>~~————~~|5<br>~~————~~|NA<br>~~————~~|NA<br>~~————~~|3.8<br>~~————~~|2.7<br>~~————~~|
|**BZ015A503Z_B**||50<br>~~————~~|160<br>~~————~~|192<br>~~————~~|5<br>~~————~~|4.1<br>~~————~~|7.0<br>~~————~~|4.6<br>~~————~~|3.5<br>~~————~~|
|**BZ015B603Z_B**||60<br>~~————~~<br>~~es~~|80<br>~~————~~<br>~~es~~|96<br>~~————~~<br>~~es~~|10<br>~~————~~<br>~~es~~|5.4<br>~~————~~<br>~~es~~|8.3<br>~~————~~<br>~~es~~|5.9<br>~~————~~<br>~~es~~|NA<br>~~————~~<br>~~es~~|
|**BZ015A104Z_B**||100<br>~~————~~<br>~~es~~|80<br>~~————~~<br>~~es~~|96<br>~~————~~<br>~~es~~|10<br>~~————~~<br>~~es~~|6.7<br>~~————~~<br>~~es~~|9.6<br>~~————~~<br>~~es~~|7.2<br>~~————~~<br>~~es~~|NA<br>~~————~~<br>~~es~~|
|**9.0V**||||||||||
|**BZ019B223Z_B**|9.0V<br>~~———————~~|22<br>~~———————~~|250<br>~~———————~~|300<br>~~———————~~|5<br>~~———————~~|4.7<br>~~———————~~|7.6<br>~~———————~~|5.2<br>~~———————~~|4.1<br>~~———————~~|
|**BZ019A333Z_B**||33<br>~~———————~~|250<br>~~———————~~|300<br>~~———————~~|5<br>~~———————~~|5.5<br>~~———————~~|8.4<br>~~———————~~|6.0<br>~~———————~~|4.9<br>~~———————~~|
|**12.0V**||||||||||
|**BZ01CB153Z_B**|12.0V<br>~~————_———_—_——_—_—~~|15<br>~~————_———_—_——_—_—~~|350<br>~~————_———_—_——_—_—~~|420<br>~~————_———_—_——_—_—~~|5<br>~~————_———_—_——_—_—~~|5.9<br>~~————_———_—_——_—_—~~|8.8<br>~~————_———_—_——_—_—~~|6.4<br>~~————_———_—_——_—_—~~|5.3<br>~~————_———_—_——_—_—~~|
|**BZ01CA223Z_B**||22<br>~~————_———_—_——_—_—~~|350<br>~~————_———_—_——_—_—~~|420<br>~~————_———_—_——_—_—~~|5<br>~~————_———_—_——_—_—~~|7.1<br>~~————_———_—_——_—_—~~|10.0<br>~~————_———_—_——_—_—~~|7.6<br>~~————_———_—_——_—_—~~|6.5<br>~~————_———_—_——_—_—~~|
|**16.0V**<br>~~es~~<br>~~ns(OQ~~||||||||||
|**BZ01GB682ZSB**|16.0V<br>~~es~~|6.8<br>~~ns~~|400<br>~~(OQ~~|480<br>~~(OQ~~|10<br>~~(OQ~~|~~(OQ~~|~~(OQ~~|6.8<br>~~(OQ~~|~~(OQ~~|
|**20.0V**<br>~~es~~<br>~~ns(OQ~~<br>~~es~~<br>~~GO~~<br>~~QQ~~||||||||||
|**BZ01KB682ZSB**|20.0V<br>~~es~~|6.8|400<br>~~GO~~|480<br>~~GO~~|10<br>~~QQ~~|~~QQ~~|~~QQ~~|6.8||



* Select S-Lead BZ01 BestCap® are available with insulation on the bottom of the part and zero clearance from the PCB. See section 2.6 for dimensions. To order, please add special requirement AJ to the end of the part number. Example: BZ013B503ZSBAJ 

|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|**BZ 02 CASE SIZE**|
|---|---|---|---|---|---|---|---|---|
|**Part**<br>**Number**|**Rated**<br>**Voltage**<br>**(Volts)**<br>~~ft~~|**Capacitance**<br>**(mF)**|**ESR**<br>**(mOhms at 1 kHz)**||**Leakage**<br>**Current**<br>**(µA max)**|**Height A-Lead**<br>**(mm)**|**Height**<br>**H-Lead (mm)**|**Height L-Lead**<br>**(mm)**|
|||**Nominal**<br>**+80%, –20%**<br>~~ft~~|**Typical**<br>~~ft~~|**Maximum**|**Maximum**|**H max**|**H max**|**H max**|
|**3.6V**<br>~~ft~~|||||||||
|**BZ023A284Z_B**|3.6V<br>~~ft~~|280<br>~~ft~~|45<br>~~ft~~|54|20|3.5|6.4|3.7|
|**BZ023A564Z_B**||560<br>~~ft~~|25<br>~~ft~~|30|40|5.3|8.2|5.5|
|**5.5V**<br>~~ft~~<br>~~es es nD~~<br>~~I (~~|||||||||
|**BZ025A204Z_B**|5.5V<br>~~_———————————_~~|200<br>~~es es~~<br>~~_———————————_~~|60<br>~~es nD~~<br>~~_———————————_~~|72<br>~~nD~~<br>~~_———————————_~~|20<br>~~I (~~<br>~~_———————————_~~|4.1<br>~~(~~<br>~~_———————————_~~|7.0<br>~~_———————————_~~|4.3<br>~~_———————————_~~|
|**BZ025A404Z_B**||400<br>~~es es~~<br>~~_———————————_~~|35<br>~~es nD~~<br>~~_———————————_~~|42<br>~~nD~~<br>~~_———————————_~~|40<br>~~I (~~<br>~~_———————————_~~|6.7<br>~~(~~<br>~~_———————————_~~|9.6<br>~~_———————————_~~|6.9<br>~~_———————————_~~|
|**BZ125A105Z_B**||1000<br>~~_———————————_~~|35<br>~~_———————————_~~|42<br>~~_———————————_~~|120<br>~~_———————————_~~|6.7<br>~~_———————————_~~|9.6<br>~~_———————————_~~|6.9<br>~~_———————————_~~|
|**9.0 V**<br>~~_———————————_~~<br>~~eseenD~~<br>~~DG~~<br>~~OO~~|||||||||
|**BZ029A124Z_B**|9.0V<br>~~es~~|120<br>~~ee~~|70<br>~~nD~~|84<br>~~DG~~|20<br>~~DG~~|5.8<br>~~OO~~|8.7<br>~~OO~~|6.0|
|**12.0V**<br>~~es ee nD~~<br>~~DG~~<br>~~OO~~<br>~~ee nD~~<br>~~(OO~~<br>~~(~~|||||||||
|**BZ02CA903Z_B**|12.0V<br>~~ee~~|90<br>~~ee nD~~|90<br>~~nD~~|108<br>~~(OO~~|20<br>~~(OO~~|7.4<br>~~(~~|10.3|7.6|
|**16.0V**<br>~~ee nD~~<br>~~(OO~~<br>~~(~~<br>~~aee~~<br>~~nD~~<br>~~DG~~|||||||||
|**BZ12GA124Z_B**|16.0V<br>~~a~~|120<br>~~ee~~|160<br>~~nD~~|192<br>~~DG~~|60<br>~~DG~~|9.1||9.1|



**All capacitance, ESR, and leakage current values listed in these tables are at room temperature only.** 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

5 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Electrical Ratings (BZ01/02/05/09)** 

|**BZ 05 CASE SIZE**|**BZ 05 CASE SIZE**|**BZ 05 CASE SIZE**|**BZ 05 CASE SIZE**|**BZ 05 CASE SIZE**|**BZ 05 CASE SIZE**|**BZ 05 CASE SIZE**|**BZ 05 CASE SIZE**|
|---|---|---|---|---|---|---|---|
|**Part**<br>**Number**|**Rated**<br>**Voltage**<br>**(Volts)**|**Capacitance**<br>**(mF)**|**ESR**<br>**(mOhms at 1 kHz)**||**Leakage**<br>**Current**<br>**(µA max)**|**Height**<br>**N-Lead**<br>**(mm)**|**Height**<br>**S-Lead**<br>**(mm)**|
|||**Nominal**<br>**+80%, –20%**|**Typical**|**Maximum**|**Maximum**|**H max**|**H max**|
|**4.5V**<br>~~a~~<br>~~eeeeeeeee~~||||||||
|**BZ054B223Z_B**|4.5V<br>~~a~~|22<br>~~ee~~|170<br>~~ee~~|204<br>~~ee~~|5<br>~~ee~~|2.3<br>~~eee~~|2.3<br>~~eee~~|
|**BZ154B473Z_B**||47<br>~~ee~~|170<br>~~ee~~|204<br>~~ee~~|10<br>~~ee~~|2.3<br>~~eee~~|2.3<br>~~eee~~|
|**5.5V**<br>~~a~~<br>~~ee ee ee eee~~<br>~~——SS~~||||||||
|**BZ055B153Z_B**|5.5V<br>~~——SS~~|15<br>~~——SS~~|250<br>~~——SS~~|300<br>~~——SS~~|5|2.7|2.7|
|**BZ055A333Z_B**||33<br>~~——SS~~|250<br>~~——SS~~|300<br>~~——SS~~|5|3.5|3.5|
|**BZ055B333Z_B**||33<br>~~——SS~~<br>~~a~~|125<br>~~——SS~~<br>~~a~~|150<br>~~——SS~~<br>~~a~~|10<br>~~a~~|NA<br>~~a~~|4.8<br>~~a~~|
|**BZ155A104Z_B**||100<br>~~——SS~~<br>~~a~~|125<br>~~——SS~~<br>~~a~~|150<br>~~——SS~~<br>~~a~~|20<br>~~a~~|NA<br>~~a~~|6.1<br>~~a~~|
|**12.0V**<br>~~——SS~~||||||||
|**BZ05CA103Z_B**|12.0V<br>~~ee~~|10<br>~~ee~~|500<br>~~ee~~|600<br>~~ee~~|55<br>~~ee~~|6.5<br>~~ee~~|6.5<br>~~ee~~|
|**15.0V**||||||||
|**BZ05FB682Z_B**|15.0V<br>~~a~~|6.8<br>~~a~~|500<br>~~a~~|600<br>~~a~~|10<br>~~a~~|5.8<br>~~a~~|5.8<br>~~a~~|
|**20.0V**||||||||
|**BZ05KB472ZSB**|20.0V<br>~~De~~|4.7<br>~~De~~|700<br>~~De~~|840<br>~~De~~|10<br>~~De~~|~~De~~|6.7<br>~~De~~|



|**BZ 09 CASE SIZE**|**BZ 09 CASE SIZE**|**BZ 09 CASE SIZE**|**BZ 09 CASE SIZE**|**BZ 09 CASE SIZE**|**BZ 09 CASE SIZE**|**BZ 09 CASE SIZE**|**BZ 09 CASE SIZE**|
|---|---|---|---|---|---|---|---|
|**Part**<br>**Number**|**Rated**<br>**Voltage**<br>**(Volts)**|**Capacitance**<br>**(mF)**|**ESR**<br>**(mOhms at 1 kHz)**||**Leakage**<br>**Current**<br>**(µA max)**|**Height**<br>**N-Lead**<br>**(mm)**|**Height**<br>**S-Lead**<br>**(mm)**|
|||**Nominal**<br>**+80%, –20%**|**Typical**|**Maximum**|**Maximum**|**H max**|**H max**|
|**4.5V**||||||||
|**BZ094B153Z_BAI**|4.5V|15|250|300|5|2.4*|2.3*|



* The 4.5V BZ09 BestCap® are available only in a special low profile version. 

**All capacitance, ESR, and leakage current values listed in these tables are at room temperature only.** 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

6 

102419 

## **SECTION 2 Mechanical Specifications** 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

7 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Mechanical Specifications (A-Lead)** 

**SECTION 2: MECHANICAL SPECIFICATIONS 2.1 CASE DIMENSIONS & RECOMMENDED PCB LAYOUT** 

## **2.1.1: A-STYLE CONFIGURATION (PIN THROUGH HOLE)** 

**==> picture [184 x 192] intentionally omitted <==**

**----- Start of picture text -----**<br>
L<br>= BL<br>|<br>W<br>a:<br>LO<br>H<br>LL<br>S<br>LW<br>**----- End of picture text -----**<br>


## **TABLE 2.1.1: A-STYLE DIMENSIONS** 

||**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|
|---|---|---|---|---|---|---|---|---|
|**Case Size**|**BL**<br>**+1.0(0.040)/-0**|**W**<br>**+1.0(0.040)/-0**|**H**<br>**(Maximum)**|**L**<br>**±1.0(0.040)**|**S**<br>**±0.1(0.004)**|**LO**<br>**±0.2(0.008)**|**LW**<br>**±0.2(0.008)**|**LL**<br>**±0.2(0.008)**|
|**BZ01**|28(1.102)|17(0.669)|See Section 1|32|0.45(0.018)|1.5(0.059)|1.27(0.050)|2.5(0.098)|
|**BZ02**|48(1.890)|30(1.181)|See Section 1|52|0.45(0.018)|1.5(0.059)|1.27(0.050)|2.5(0.098)|



## **2.1.2: A-LEAD CONFIGURATION (THROUGH HOLE)** 

**==> picture [318 x 102] intentionally omitted <==**

**----- Start of picture text -----**<br>
C<br>D<br>| i ||<br>A B<br>**----- End of picture text -----**<br>


## **TABLE 2.1.2: A-LEAD LAYOUT DIMENSIONS** 

|**Recommended PCB Dimensions: mm(inches)**|**Recommended PCB Dimensions: mm(inches)**|**Recommended PCB Dimensions: mm(inches)**|**Recommended PCB Dimensions: mm(inches)**|**Recommended PCB Dimensions: mm(inches)**|
|---|---|---|---|---|
|**Case Size**|**A**<br>**±0.05(0.002)**|**B**<br>**±0.05(0.002)**|**C**<br>**±0.05(0.002)**|**D**<br>**±0.1(0.004)**|
|**BZ01**|17.25(0.679)|8.90(0.350)|28(1.102)|Ø1.4(0.055)|
|**BZ02**|30.25(1.191)|8.90(0.350)|48(1.890)|Ø1.4(0.055)|



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

8 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Mechanical Specifications (W-Lead)** 

**SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D) 2.2.1: W-STYLE CASE DIMENSIONS** 

L BL ~~——e~~ RED B W ~~L~~ BLACK ~~TI~~ H ~~ie~~ **TABLE 2.2.1: W-STYLE CASE DIMENSIONS Case Dimensions: mm (inches) L W H BL B Case Size ±0.5 (0.020) +1.0 (0.040)/-0 (Maximum) +1.0 (0.040)/-0 ±0.5 (0.020) BZ05** 50.5 (1.988) 15 (0.591) See Section 1 25.4 (1.0) 10 (0.394) ~~TT TT~~ 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

9 

102419 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Mechanical Specifications (H-Lead)** 

## **SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D)** 

## **2.3.1: H-STYLE CASE DIMENSIONS (THROUGH HOLE EXTENDED HEIGHT)** 

**==> picture [318 x 213] intentionally omitted <==**

**----- Start of picture text -----**<br>
L<br>BL<br>aan<br>W<br>[[] [|<br>H LO<br>LL<br>S<br>LW<br>**----- End of picture text -----**<br>


## **TABLE 2.3.1: H-STYLE CASE DIMENSIONS** 

||**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|
|---|---|---|---|---|---|---|---|---|
|**Case Size**|**BL**<br>**+1.0 (0.040)/-0**|**W**<br>**+1.0 (0.040)/-0**|**H**<br>**(Maximum)**|**L**<br>**±1.0 (0.040)**|**S**<br>**+0.5 (0.020)/**<br>**-0.4(0.016)**|**LO**<br>**±0.2 (0.008)**|**LW**<br>**±0.2 (0.008)**|**LL**<br>**±0.2 (0.008)**|
|**BZ01**|28(1.102)|17(0.669)|See Section 1|32(1.260)|3.0(0.118)|1.5(0.059)|1.27(0.050)|2.5(0.098)|
|**BZ02**|48(1.890)|30(1.181)|See Section 1|52(2.047)|3.0(0.118)|1.5(0.059)|1.27(0.050)|2.5(0.098)|
|**BZ05**|20(0.787)|15.6(0.614)|See Section 1|24.3(0.957)|3.0(0.118)|1.5(0.059)|1.27(0.050)|2.5(0.098)|



|**2.3.2: H-LEAD CONFIGURATION (THROUGH HOLE EXTENDED HEIGHT)**|**2.3.2: H-LEAD CONFIGURATION (THROUGH HOLE EXTENDED HEIGHT)**|**2.3.2: H-LEAD CONFIGURATION (THROUGH HOLE EXTENDED HEIGHT)**|**2.3.2: H-LEAD CONFIGURATION (THROUGH HOLE EXTENDED HEIGHT)**|**2.3.2: H-LEAD CONFIGURATION (THROUGH HOLE EXTENDED HEIGHT)**||
|---|---|---|---|---|---|
|||C<br>B<br>D<br>A<br>~~A~~<br>~~O~~E||||
|**TABLE 2.3.2: H-LEAD LAYOUT DIMENSIONS**<br>|<br>1—_—_~~-~~|||é||'|
|||**PCB Dimensions: mm(inches)**||||
||**Case Size**|**A**<br>**±0.05(0.002)**<br>**B**<br>**±0.05(0.002)**<br>**C**<br>**±0.05(0.002)**<br>**D**<br>**±0.1(0.004)**||||
||**BZ01**|17.25(0.679)<br>8.90(0.350)<br>28(1.102)<br>Ø1.4(0.055)||||
||**BZ02**|30.25(1.191)<br>8.90(0.350)<br>48(1.890)<br>Ø1.4(0.055)||||
||**BZ05**|15.25(0.600)<br>8.90(0.350)<br>19(0.748)<br>Ø1.4(0.055)||||



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

10 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Mechanical Specifications (L-Lead)** 

## **SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D) 2.4.1: L-LEAD CONFIGURATION (PLANAR MOUNT)** 

**==> picture [188 x 197] intentionally omitted <==**

**----- Start of picture text -----**<br>
L<br>BL<br>FeFy<br>W<br>a,<br>yt LO<br>LL<br>LW<br>TE<br>H<br>S ] J<br>**----- End of picture text -----**<br>


**TABLE 2.4.1: L-STYLE CASE DIMENSIONS** 

||**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|
|---|---|---|---|---|---|---|---|---|
|**Case Size**|**BL**<br>**+1.0(0.040)/-0**|**W**<br>**+1.0(0.040)/-0**|**H**<br>**(Maximum)**|**L**<br>**±1.0(0.040)**|**S**<br>**±0.2(0.008)**|**LO**<br>**±0.2(0.008)**|**LW**<br>**±0.2(0.008)**|**LL**<br>**±0.5(0.020)**|
|**BZ01**|28(1.102)|17(0.6691)|See Section 1|33|0.55(0.022)|1.5(0.059)|1.27(0.050)|2.4(0.098)|
|**BZ02**|48(1.890)|30(1.181)|See Section 1|52|0.55(0.022)|1.5(0.059)|1.27(0.050)|2.4(0.098)|



## **2.4.2: L-LEAD CONFIGURATION (PLANAR MOUNT)** 

C ~~et~~ A B L ~~F~~ PW ~~ee~~ PL 

## **TABLE 2.4.2: L-STYLE LEAD LAYOUT** 

|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|
|---|---|---|---|---|---|
|**Case Size**|**A**<br>**±0.1(0.004)**|**B**<br>**±0.1(0.004)**|**C**<br>**±0.1(0.004)**|**PL**<br>**±0.2(0.008)**|**PW**<br>**±0.2(0.008)**|
|**BZ01**|19.2(0.776)|10.8(0.425)|28(1.102)|3.0(0.118)|3.7(0.146)|
|**BZ02**|32.2(1.268)|10.8(0.425)|48(1.890)|3.2(0.126)|3.7(0.146)|



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

11 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Mechanical Specifications (N-Lead)** 

## **SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D)** 

|**SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D)**|**SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D)**|**SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D)**|**SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D)**||||||
|---|---|---|---|---|---|---|---|---|
|**2.5.1: N-LEAD CONFIGURATION**|||||||||
||||L<br>LL<br>L<br>C<br>LW<br>BL<br>W<br>EW<br>EL<br>B<br>~~>=.~~<br>|<br>~~;~~ 7<br>~~t~~ea~~t~~<br>~~+___~~<br>{||||||
||||H||||||
|**TABLE 2.5.1: N-STYLE CASE DIMENSIONS**<br>~~—_—_——,~~|||||||||
||||**Case Dimensions: mm(inches)**||||||
||**Case Size**|**L**<br>**±0.5(0.020)**|**W**<br>**+1.0(0.040)/-0**<br>**H**<br>**(Maximum)**<br>**B**<br>**±0.5(0.020)**<br>**LL**<br>**±0.2(0.008)**|**LW**<br>**±0.2(0.008)**||**EL**<br>**±0.5(0.020)**||**EW**<br>**±0.5(0.020)**|
||**BZ01**|30.5(1.201)|17(0.669)<br>See Section 1<br>11.2(0.441)<br>2.5(0.098)|1.4(0.055)||2.5(0.098)||1.4(0.055)|
||**BZ05**|23.5(0.925)|15(0.591)<br>See Section 1<br>7.5(0.295)<br>2.5(0.098)|2.5(0.098)||3.5(0.138)||2.5(0.098)|
||**BZ09**|20.5(0.807)|15(0.591)<br>See Section 1<br>7.5(0.295)<br>2.5(0.098)|2.5(0.098)||3.5(0.138)||2.5(0.098)|



## **2.5.2: N-LEAD CONFIGURATION (PLANAR MOUNT)** 

**==> picture [302 x 162] intentionally omitted <==**

**----- Start of picture text -----**<br>
te A PW<br>LPL<br>e ly<br>B<br>: |<br>I o e<br>| RPL<br>**----- End of picture text -----**<br>


**TABLE 2.5.2: N-STYLE LEAD LAYOUT** 

|**Case Size**|**A**<br>**±0.5(0.020)**|**B**<br>**±0.1(0.004)**|**PW**<br>**±0.1(0.004)**|**LPL**<br>**±0.1(0.004)**|
|---|---|---|---|---|
|**BZ01**|0.5(0.020)|9.5(0.374)|3.2(0.126)|3.5(0.138)|
|**BZ05**|1.0(0.039)|5.9(0.232)|4.1(0.161)|2.5(0.098)|
|**BZ09**|1.0(0.039)|5.9(0.232)|4.1(0.161)|2.5(0.098)|



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

12 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Mechanical Specifications (S-Lead)** 

**SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D) 2.6.1: S-LEAD CONFIGURATION (PLANAR MOUNT)** 

**==> picture [215 x 174] intentionally omitted <==**

**----- Start of picture text -----**<br>
L<br>BL<br>_ [- —<br>|<br>W EW<br>EL<br>LW<br>Jy LL Ty<br>S<br>H<br>7 7 {<br>**----- End of picture text -----**<br>


## **TABLE 2.6.1: S-STYLE CASE DIMENSIONS** 

|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|**Case Dimensions: mm(inches)**|
|---|---|---|---|---|---|---|---|---|
|**Case Size**|**BL**<br>**+1.0(0.040)/-0**|**W**<br>**+1.0(0.040)/-0**|**H**<br>**(Maximum)**|**L**<br>**±1.0(0.040)**|**EL**<br>**±0.5(0.020)**|**EW**<br>**±0.2(0.008)**|**LL**<br>**±0.5(0.020)**|**LW**<br>**±0.2(0.008)**|
|**BZ01**|28(1.102)|17(0.669)|See Section 1|38.7(1.524)|5.0(0.197)|4.5(0.177)|5.7(0.224)|2.0(0.079)|
|**BZ05**|20(0.787)|15(0.591)|See Section 1|26(1.024)|3.5(0.138)|2.5(0.098)|2.5(0.098)|2.5(0.098)|
|**BZ09**|17(0.669)|15(0.591)|See Section 1|23(0.906)|3.5(0.138)|2.5(0.098)|2.5(0.098)|2.5(0.098)|



**2.6.2: S-LEAD LAYOUT (PLANAR MOUNT)** 

| ~~es~~ B A EPW ok a. LPW EPL LPL ~~=~~ i ~~: a~~ e 

**Planar Mount “S”** Available in BZ01, BZ05 & BZ09 Case Size Only 

**TABLE 2.6.2: S-STYLE PAD LAYOUT DIMENSIONS** 

|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|**PCB Dimensions: mm(inches)**|
|---|---|---|---|---|---|---|
|**Case Size**|**A**<br>**±0.1(0.004)**|**B**<br>**±0.1(0.004)**|**EPL**<br>**±0.1(0.004)**|**EPW**<br>**±0.1(0.004)**|**LPL**<br>**±0.1(0.004)**|**LPW**<br>**±0.1(0.004)**|
|**BZ01**|13.0(0.512)|35.1(1.382)|4.5(0.177)|6.0(0.236)|5.8(0.228)|3.5(0.138)|
|**BZ05**|10.0(0.394)|25.0(0.984)|3.0(0.118)|4.5(0.177)|2.9(0.114)|4.5(0.177)|
|**BZ09**|10.0(0.394)|22.0(0.886)|3.0(0.118)|4.5(0.177)|2.9(0.114)|4.5(0.177)|



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

13 

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**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Packaging Specifications/Quantities (BZ01/02/05/09)** ~~SE~~ 

## **SECTION 2: MECHANICAL SPECIFICATIONS (CONT’D)** 

**==> picture [396 x 433] intentionally omitted <==**

**----- Start of picture text -----**<br>
2.7: PACKAGING SPECIFICATIONS 167.6<br>(6.60)<br>(2.00)50.8 (0.52)13.2<br>BZ01 CASE: ae  —— -| -<br>31.8<br>(1.25)<br>167.6<br>(6.60) | BES |<br>BZ02 CASE:<br>167.6<br>(6.60)<br>(2.80)71.0 (0.52)13.2<br>P e at ap<br>38.1<br>(1.50)<br>167.6<br>(6.60)<br>n s |<br>BZ05, BZ09 CASE: 167.6(6.60) A<br>(1.50)38.1 (0.52)13.2<br>4 p<br>28.6<br>(1.12)<br>167.6<br>(6.60)<br>**----- End of picture text -----**<br>


This specification applies when our electrochemical supercapacitors are packed using a 165mm by 165mm container. The parts are held in place by a 166mm by 166mm lid. 

## **PACKAGING QUANTITIES:** 

|**Size**|**No. of Rows**|**No. of Columns**|**Pieces/Tray**|
|---|---|---|---|
|**BZ01**|5|3|15|
|**BZ02**|4|2|8|
|**BZ05**|5|4|20|
|**BZ09**|5|4|20|



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

14 

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**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Cleaning/Handling/Storage Conditions/Part Marking/Termination Finish** 

## **SECTION 2: MECHANICAL SPECIFICATIONS** 

## **2.8 CLEANING** 

The BestCap[®] supercapacitor is cleaned prior to shipment. Should cleaning be required prior to insertion into the application, it is recommended to use a small amount of propanol taking care not to remove the label. The cell should not be immersed due to possible deterioration of the epoxy encapsulation. Care must also be taken not to bend the leads. 

## **2.9 HANDLING** 

Care should be taken not to allow grease or oil into the part as it may lead to soldering problems. Handling should be minimized to reduce possible bending of the electrodes leads. 

## **2.10 STORAGE CONDITIONS** 

AVX BestCap[®] supercapacitor is unaffected by the following storage conditions: 

Temperature: 15°C ~ 35°C Humidity: 45% RH ~ 75% RH 

This temperature and humidity range is specified for consideration of terminal solderability. BestCap[®] are able to withstand shelf life at 70ºC for 1000 hours. 

## **2.11 PART MARKING** 

**==> picture [30 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
Voltage<br>**----- End of picture text -----**<br>


**==> picture [361 x 27] intentionally omitted <==**

**----- Start of picture text -----**<br>
Capacitance<br>Date and<br>ak c | Baw<br>Lot Code<br>**----- End of picture text -----**<br>


**==> picture [66 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
Country of Origin<br>**----- End of picture text -----**<br>


## **2.12 TERMINATION FINISH** 

Gold over nickel, tin over nickel. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

15 

102419 

**BestCap[® ] Ultra-low ESR** ck **High Power Pulse Supercapacitors Product Safety Materials Handling/Materials and Weight/Typical Weight Data** 

## **2.13 PRODUCT SAFETY MATERIALS HANDLING** 

## **Precautions** 

- Do not disassemble the capacitor. 

- Do not incinerate the capacitor and do not use incineration for disposal. 

- The capacitor contains polymeric electrolyte and carbon electrodes. However, since the polymer is composed of acid based chemical ingredients, if punctured or dismantled and the skin is contacted with the capacitor internal components, it is recommended to wash the skin with excess of running water. 

- If any internal material contacts the eyes, rinse thoroughly with running water. 

- Be aware not to apply over-voltage. Combination of charging at voltage greater than the nominal, plus high temperature, plus prolonged time may result in capacitor bulging or rupturing. 

**2.14 BESTCAP[®] MATERIALS AND WEIGHT** 

|**Materials**<br>~~ee~~|**Constituent**<br>~~ee~~|**RoHS**<br>**Compliant?**<br>~~ee~~<br>~~GO~~|**BZ01**<br>~~ee~~|**BZ02**<br>~~ee~~|**BZ05**<br>~~ee~~|**BZ09**<br>~~ee~~|
|---|---|---|---|---|---|---|
||||**Weight %**<br>~~ee~~<br>~~GO~~|**Weight %**<br>~~ee~~<br>~~OO~~|**Weight %**<br>~~ee~~<br>~~OO~~|**Weight %**<br>~~ee~~|
|Case<br>~~GR~~|Stainless Steel<br>~~GR~~|YES<br>~~GR~~<br>~~GO~~|56.7%<br>~~GR~~<br>~~GO~~|44.5%<br>~~GR~~<br>~~OO~~|64.8%<br>~~GR~~<br>~~OO~~|64.8%<br>~~GR~~|
|Leads(A,H,and L lead only)<br>~~OO~~<br>~~Rs~~|Stainless Steel<br>~~OO~~|YES<br>~~GO~~<br>~~OO~~|4.2%<br>~~GO~~<br>~~OO~~|0.7%<br>~~OO~~<br>~~OO~~<br>~~GO~~|~~OO~~<br>~~OO~~<br>~~GO~~|~~OO~~|
|Electrode<br>~~OO~~<br>~~Rs~~|Stainless Steel<br>~~OO~~|YES<br>~~OO~~|13.6%<br>~~OO~~|8.0%<br>~~OO~~<br>~~GO~~|13.6%<br>~~OO~~<br>~~GO~~|13.6%<br>~~OO~~|
|Electrode Insulation<br>~~Rs~~|LaminatingAdhesive<br>~~GO~~|YES<br>~~GO~~|2.3%<br>~~(OO~~<br>~~I~~|1.0%<br>~~GO~~<br>~~(OO~~|2.4%<br>~~GO~~<br>~~(OO~~|2.4%|
|Core<br>~~Rs~~<br>~~Rs~~|Metallized Current Collector<br>~~ID~~|YES<br>~~ID~~<br>~~nD~~|5.2%<br>~~ID~~<br>~~I~~|8.0%<br>~~GO~~<br>~~ID~~|1.6%<br>~~GO~~<br>~~ID~~|1.6%<br>~~ID~~|
||Current Collector<br>~~ID~~<br>~~nD~~|YES<br>~~ID~~<br>~~nD~~<br>~~nD~~|2.5%<br>~~ID~~<br>~~I~~<br>~~nD~~|14.3%<br>~~ID~~<br>~~nD~~|1.0%<br>~~ID~~<br>~~nD~~|1.0%<br>~~ID~~<br>~~nD~~|
||Active Electrode<br>~~I~~|YES<br>~~nD~~<br>~~I~~<br>~~nD~~|1.0%<br>~~I~~|5.7%<br>~~I~~|0.4%<br>~~I~~|0.4%<br>~~I~~|
||Core Sealant<br>~~ns~~|YES<br>~~ns~~<br>~~nD~~|0.9%<br>~~ns~~|5.2%<br>~~ns~~|0.3%<br>~~ns~~|0.3%<br>~~ns~~|
|Encapsulant<br>~~Rs~~|Epoxy<br>~~GO~~|YES<br>~~nD~~<br>~~GO~~<br>~~QO~~|10.3%<br>~~(OO~~<br>~~QO~~|11.4%<br>~~(OO~~<br>~~QO~~|11.8%<br>~~(OO~~|11.8%|
|Bottom Insulation<br>~~Rs~~<br>~~PR~~|LaminatingAdhesive<br>~~PR~~|YES<br>~~nD~~<br>~~PR~~<br>~~QO~~|2.3%<br>~~PR~~<br>~~QO~~|1.0%<br>~~PR~~<br>~~QO~~|2.4%<br>~~PR~~|2.4%<br>~~PR~~|
|Label<br>~~PR~~|Label<br>~~PR~~|YES<br>~~PR~~<br>~~QO~~|1.0%<br>~~PR~~<br>~~QO~~|0.2%<br>~~PR~~<br>~~QO~~|1.8%<br>~~PR~~|1.8%<br>~~PR~~|
|TOTAL<br>~~GO~~|~~GO~~|~~GO~~|100%<br>~~GO~~|100%<br>~~GO~~|100%<br>~~GO~~|100%<br>~~GO~~|



|**Rated Voltage (V)**<br>~~es~~|**Capacitance(mF)**|**Part Number**|**Weight(g)**|
|---|---|---|---|
|**Rated Voltage (V)**<br>**3.6V**<br>~~es~~<br>~~a~~<br>~~a~~<br>~~a~~|**Capacitance(mF)**<br>50<br>~~ee~~<br>~~a~~|**Part Number**<br>BZ013B503Z_B<br>~~ee~~|**Weight(g)**<br>2.9<br>~~ee~~|
||70<br>~~ee~~<br>~~a~~|BZ013A703Z_B<br>~~ee~~|4.2<br>~~ee~~|
||100<br>~~a~~<br>~~a~~|BZ113B104Z_B|2.9|
||140<br>~~a~~|BZ013A144Z_B|5.3|
||280<br>~~aa~~|BZ023A284Z_B|12.2|
||560<br>~~ee~~<br>~~a~~|BZ023A564Z_B<br>~~ee~~|15.9<br>~~ee~~|
|**4.5V**<br>~~a~~<br>~~a~~|15<br>~~ee~~<br>~~a~~|BZ094B153Z_B<br>~~ee~~|1.5<br>~~ee~~|
||22<br>~~a~~<br>~~a~~|BZ054B223Z_B<br>|1.8<br>|
||33<br>~~a~~|BZ014B333Z_B<br>|3.2<br>|
||47<br>~~aee~~|BZ154B473Z_BBQ<br>~~ee~~|1.8<br>~~ee~~|
|**5.5V**<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|15<br>~~ee~~<br>~~a~~|BZ055B153Z_B<br>~~ee~~|1.9<br>~~ee~~|
||30<br>~~ee~~<br>~~a~~<br>~~a~~|BZ015B303Z_B<br>~~ee~~<br>|3.4<br>~~ee~~<br>|
||33<br>~~a~~<br>~~a~~|BZ055A333Z_B<br>|2.3<br>|
||33<br>~~aeG~~|BZ055B333Z_B<br>~~eG~~|2.1<br>~~eG~~|
||50<br>~~a~~|BZ015A503Z_B|4.6|
||60<br>~~es~~<br>~~a~~|BZ015B603Z_B<br>~~es~~<br>|5.5<br>~~es~~<br>|
||68<br>~~a~~|BZ055A683Z_B<br>|3.4<br>|
||100<br>~~a~~|BZ015A104Z_B<br>|6.1<br>|
||200<br>~~eG~~|BZ025A204Z_B<br>~~eG~~|13.3<br>~~eG~~|
||400<br>~~a~~|BZ025A404Z_B|18.4|
||1000<br>~~es~~<br>~~a~~|BZ125A105Z_B<br>~~es~~|18.4<br>~~es~~|
|**9.0V**<br>~~a~~|22<br>~~a~~|BZ019B223Z_B|4.4|
||33<br>~~a~~|BZ019A333Z_B|5.0|
||120|BZ029A124Z_B|15.6|
|**12.0V**<br>~~a~~<br>~~a~~|10<br>~~a~~|BZ05CA103Z_B|3.5|
||15<br>~~ed~~<br>~~a~~|BZ01CB153Z_B<br>~~ed~~|5.0<br>~~ed~~|
||22<br>~~a~~<br>~~a~~|BZ01CA223Z_B|6.2|
||90<br>~~a~~<br>~~a~~<br>~~ee~~|BZ02CA903Z_B<br>~~ee~~|19.3|
|**15.0V**<br>~~a~~<br>~~es~~|6.8<br>~~a~~<br>~~es~~<br>~~ee~~<br>~~ee~~|BZ05FB682Z_B<br>~~es~~<br>~~ee~~<br>~~ee~~|2.8<br>~~es~~|
|**16.0V**<br>~~a~~|124<br>~~ee~~<br>~~a~~<br>~~ee~~|BZ12GA124Z_B<br>~~ee~~<br>~~a~~<br>~~ee~~|25<br>~~a~~|



The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

16 

070820 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

## **SECTION 3** 

## **Electrical Characteristics** 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

17 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Electrical Characteristics – Schematic, Typical Characteristics** 

## **SECTION 3: ELECTRICAL CHARACTERISTICS – SCHEMATIC** 

**3.1 Terminal Connections:** 

**3.1.2: A-, H- & L-Lead** 

**3.1.3: C- & N-Lead** 

**3.1.1: S-Lead** 

## **Common terminals connected to case** 

## **Common terminals connected to case** 

**Devices are non polar but it is usual to maintain case at ground potential** 

## **SECTION 3.2: TYPICAL CHARACTERISTICS** 

**==> picture [236 x 448] intentionally omitted <==**

**----- Start of picture text -----**<br>
Capactiancev s .Temperature<br>0.07<br>0.06<br>0.05<br>0.04<br>0.03<br>0.02<br>0.01<br>0<br>-25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>BZ015A503ZLB35 Temperature ( ° C)<br>ESR vs. Frequency<br>10<br>BZ015A503<br>BZ014A104<br>BZ025A204<br>1<br>0.1<br>0.01 TTI EAV CUI CI CUCU<br>10 100 1,000 10,000 100,000 1,000,000 10,000,000 100,000,000<br>Frequency (Hz)<br>Impedance vs. Frequency<br>10<br>BZ015A503<br>BZ014A104<br>BZ025A204<br>1<br>0.1<br>0.01 FCT CECI COCCI UT<br>10 100 1,000 10,000 100,000 1,000,000 10,000,000 100,000,000<br>Frequency (Hz)<br>Capacitance (Farads)<br>ESR (Ohms)<br>Impedance (Ohms)<br>**----- End of picture text -----**<br>


**==> picture [239 x 446] intentionally omitted <==**

**----- Start of picture text -----**<br>
ESRv s .Temperature<br>0.700<br>0.6000.500 |.YX]<br>0.400 wa<br>0.300 roON<br>0.2000.100 |ee eee<br>0.000 | |<br>-25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>BZ015A503ZLB35 Temperature ( ° C)<br>ESR Comparison<br>1.00E+01<br>BZ015A503<br>BZ014A104<br>BZ025A204<br>1.00E+00<br>1.00E-01<br>1.00E-02 Fre CenCUA<br>10 100 1,000 10,000 100,000 1,000,000 10,000,000 100,000,000<br>Frequency (Hz)<br>Impedance Comparison<br>10<br>BZ015A503<br>BZ014A104<br>BZ025A204<br>1<br>0.1<br>0.01 TAMU CAVITE CTL<br>10 100 1,000 10,000 100,000 1,000,000 10,000,000 100,000,000<br>Frequency (Hz)<br>ESR (Ohms)<br>ESR (Ohms)<br>Impedance (Ohms)<br>**----- End of picture text -----**<br>


The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

18 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors** 

## **Mounting Procedure on a PCB for BestCap[®]** 

## **SECTION 3.3: MOUNTING PROCEDURE ON A PCB FOR BESTCAP[®]** 

BestCap[®] products can be mounted on PCBs by either selectively heating only the capacitor terminals by using a pulsed reflow soldering station or by using hand soldering. IR Reflow or wave soldering may not be used. The main body of the device should be less than 60ºC at all times. 

## **PULSED REFLOW SOLDERING** 

Application data for the ‘Unitek’ pulsed-reflow soldering station. 

## **Equipment:** 

**==> picture [216 x 83] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||
|---|---|
|Controller|Uniflow ‘Pulsed Thermode Control’|
|Head|Thin-line Reflow Solder Head|
|Solder paste type|No Clean Flux|
|Solder composition|63% Sn, 37% Pb|
|Percent solids|88%|
|Solder thickness|6 mils|
|Solder-weld tip size|0.075”|
|Solder-weld tip force|6 lbs.|

**----- End of picture text -----**<br>


## **HAND SOLDERING STATION** 

**==> picture [245 x 164] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||
|---|---|
|Temperature controlled, 50W general|
|Equipment:|
|purpose iron|
|Solder type:|63Sn/37Pb, rosin core wire|
|Temperature:|400ºC (+20ºC - 100ºC)|
|2 to 5 seconds maximum, smaller time (2|
|sec.) at 420ºC and 5 sec. at 300ºC, overall|
|Time:|
|it being a time-temperature relationship.|
|Shorter time, higher temperature is preferred.|
|Solder Type:|Lead Free, 95Sn/5Ag|
|Temperature:|430ºC (+20ºC - 100ºC)|
|2 to 5 seconds maximum, smaller time (2|
|sec.) at 450ºC and 5 sec. at 330ºC, overall a|
|Time:|
|time-temperature relationship. Shorter time,|
|higher temperature is preferred.|

**----- End of picture text -----**<br>


## **Temperature Profile:** 

**==> picture [140 x 49] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||
|---|---|---|
|Temperature|Time|
|Pre-heat|130ºC|0 sec.|
|Rise|440ºC (±10)|2 sec.|
|Reflow|440ºC (±10)|2 sec.|
|Cool|165ºC|

**----- End of picture text -----**<br>


In both cases, the main body of the BestCap[®] part should be less than 60ºC at all times. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

19 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Qualification Test Summary** 

## **SECTION 3.4: QUALIFICATION TEST SUMMARY** 

|**Test**|**Test Method**|**Test Method**|**Test Method**|**Parameter**|**Limits**|
|---|---|---|---|---|---|
|**Initial**<br>**Capacitance**<br>**Measurement**|Charge to test voltage at room temperature. Disconnect parts from voltage to<br>remove charging effects. Discharge cells with a constant current (4 mA) noting<br>voltage and time 1 and 2 seconds after beginning discharge.<br>C = I * dt/dv|||Capacitance (Cap)|+80% / -20%<br>of rated Cap|
|**Initial DCL**<br>**Measurement**|Charge to test voltage at room temperature. Disconnect parts from voltage to<br>remove charging effects. Note voltage and time 5 minutes and 25 minutes after<br>disconnecting. I = C * dV/dt|||Leakage Current<br>(DCL)|Within Limit|
|**Initial ESR**<br>**Measurement**<br>~~—~~<br>~~—————~~|Measurement frequency @ 1kHz; Measurement voltage @ 10 mV at<br>room temperature<br>~~OO~~<br>~~—————~~|||Equivalent Series<br>Resistance(ESR)<br>~~—_}-—~~|+20% / -50%<br>of typical value<br>~~—_}-—~~|
|**Load Life**<br>~~—————~~<br>~~—,—~~|Apply test voltage at 70ºC for 1000 hours. Allow to cool to room temperature<br>and measure Cap, DCL and ESR<br>~~—————~~<br>~~—,—~~|||DCL<br>Cap<br>ESR<br>~~—_}-—~~|< 2.0x rated max.<br>> 0.7x rated<br>< 3.0x rated<br>~~—_}-—~~|
|**Shelf Life**<br>~~—————~~<br>~~—,—~~<br>~~»»~~|Maintain at 70ºC for 1000 hours with no voltage applied. Allow to cool to room<br>temperature and measure Cap, DCL and ESR.<br>~~—————~~<br>~~—,—~~|||DCL<br>Cap<br>ESR<br>~~—_}-—~~|< 1.5x rated max.<br>> 0.7x rated<br>< 2.0x rated<br>~~ee~~<br>~~—_}-—~~|
|**Humidity Life**<br>~~—————~~<br>~~—,—~~<br>~~»»~~|Maintain at 40°C / 95% RH for 1000 hours. Allow to cool to room temperature<br>and measure Cap, DCL and ESR.<br>~~—————~~<br>~~—,—~~|||DCL<br>Cap<br>ESR<br>~~—_}-—~~|< 1.5x rated max.<br>> 0.7x rated<br>< 1.5x rated<br>~~ee~~<br>~~—_}-—~~|
|**Leg pull strength**<br>~~—————~~<br>~~—,—~~<br>~~»»~~<br>~~—~~|Apply an increasing force in shear mode until leg pulls away<br>~~—————~~<br>~~—,—~~<br>|||Yield Force<br>(A and L leads only)<br>~~—_}-—~~<br>~~————~~|Not less than<br>25pounds shear<br>~~ee~~<br>~~—_}-—~~<br>~~————~~|
|**Surge Voltage**<br>~~—————~~<br><br>~~—~~|Step<br>~~—————~~<br>~~Pe~~<br>|~~—————~~<br>~~Pe~~<br>||~~—_}-—~~<br>~~————~~<br>|~~—_}-—~~<br>~~————~~<br>|
||1<br>2<br>3<br>~~—————~~<br>~~Pe~~<br>~~ro~~|Apply125% of the rated voltage for 10 seconds<br>~~————— ~~<br>~~Pe~~<br>||DCL<br> ~~—_}-—~~<br>~~————~~<br>|< 1.5x rated max.<br>~~—_}-—~~<br>~~————~~<br>|
|||Short the cell for 10 minutes<br>~~Pe~~<br>||Cap<br>~~————~~<br>~~———~~<br>|> 0.7x rated<br>~~————~~<br>~~———~~<br>|
|||Repeat 1 and 2 for 1000 cycles<br>~~Pe~~<br>~~ro~~||ESR<br>~~————~~<br>~~———~~<br>~~ro~~|< 1.5x rated<br>~~————~~<br>~~———~~<br>~~ro~~|
|**Temperature**<br>**Cycling**<br><br>~~pS~~|Step<br>~~ro~~<br>~~pS~~|~~ro~~<br>~~pS~~||~~———~~<br>~~ro~~<br>~~pS~~|~~———~~<br>~~ro~~<br>~~pS~~|
||1<br>2<br>3<br>~~ro~~<br>~~pS~~<br>~~—————_~~|Rampoven down to –20°C and then hold for 15 min.<br>~~ro~~<br>~~pS~~||DCL<br>~~———~~<br>~~ro~~<br>~~pS~~|< 1.5x rated max.<br>~~———~~<br>~~ro~~<br>~~pS~~|
|||Rampoven upto 70ºC and then hold for 15 min.<br>~~ro~~<br>~~pS~~<br>~~—————_~~||Cap<br>~~ro~~<br>~~pS~~|> 0.7x rated<br>~~ro~~<br>~~pS~~|
|||Repeat 1 and 2 for 100 cycles<br>~~ro~~<br>~~pS~~<br>~~—————_~~||ESR<br>~~ro~~<br>~~pS~~|< 1.5x rated<br>~~ro~~<br>~~pS~~|
|**Temperature**<br>**Characteristics**<br>~~pS~~<br>~~ee~~|Step<br>~~pS~~<br>~~—————_~~|Temp<br>~~pS~~<br>~~—————_~~|Soak Time(prior to test)<br>~~pS~~<br>~~—————_~~|~~pS~~|~~pS~~|
||1<br>2<br>3<br>4<br>5<br>6<br>7<br>8<br>~~pS~~<br>~~—————_~~<br>~~—~~<br>~~===~~<br>~~===~~<br>~~===~~<br>~~—~~<br>~~—————~~<br>~~ee~~|-40°C<br>~~pS~~<br>~~—————_~~<br>~~—~~|4 hours<br>~~pS~~<br>~~—————_~~|DCL<br>~~pS~~|~~pS~~|
|||Measure Cap,ESR,DCL(-40ºC ratedparts only)<br>~~pS~~<br>~~—————_~~<br>~~—~~<br>~~===~~||70°C<br>~~pS~~<br>~~===~~|< 10x rated<br>~~pS~~<br>~~===~~|
|||-20°C<br>~~—————_~~<br>~~—~~<br>~~===~~|4 hours<br>~~—————_~~<br>~~===~~|~~===~~|~~===~~|
|||Measure Cap,ESR,DCL<br>~~—————_~~<br>~~—~~<br>~~===~~<br>~~===~~||~~===~~<br>~~===~~|~~===~~<br>~~===~~|
|||-10°C<br>~~—————_~~<br>~~—~~<br>~~===~~<br>~~===~~|4 hours<br>~~—————_~~<br>~~===~~<br>~~===~~|~~===~~<br>~~===~~|~~===~~<br>~~===~~|
|||Measure Cap,ESR,DCL<br>~~—————_~~<br>~~—~~<br>~~===~~<br>~~===~~<br>~~===~~||Cap<br>~~===~~<br>~~===~~<br>~~===~~|~~===~~<br>~~===~~<br>~~===~~|
|||0°C<br>~~—~~<br>~~===~~<br>~~===~~<br>~~===~~|4 hours<br>~~===~~<br>~~===~~<br>~~===~~|25°C<br>~~===~~<br>~~===~~<br>~~===~~|> 80% rated<br>~~===~~<br>~~===~~<br>~~===~~|
|||Measure Cap,ESR,DCL<br>~~===~~<br>~~===~~<br>~~===~~||~~===~~<br>~~===~~<br>~~===~~|~~===~~<br>~~===~~<br>~~===~~|
|||25°C<br>~~===~~<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—~~|4 hours<br>~~===~~<br>~~===~~<br>~~===~~<br>~~SS~~|ESR<br>~~===~~<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~|~~===~~<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~|
|||Measure Cap,ESR,DCL<br>~~===~~<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—~~||-40°C<br>~~===~~<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~|< 20x rated<br>~~===~~<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~|
|||40°C<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—~~|4 hours<br>~~===~~<br>~~===~~<br>~~SS~~|-20°C<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~|< 5x rated<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~|
|||Measure Cap,ESR,DCL<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—~~<br>~~==>~~||-10°C<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~<br>~~==>~~|< 4x rated<br>~~===~~<br>~~===~~<br>~~SS~~<br>~~—_—~~<br>~~==>~~|
|||60°C<br>~~===~~<br>~~SS~~<br>~~—~~<br>~~==>~~|4 hours<br>~~===~~<br>~~SS~~<br>~~==>~~|70°C<br>~~===~~<br>~~SS~~<br>~~—_—~~<br>~~==>~~|< 1.3x rated<br>~~===~~<br>~~SS~~<br>~~—_—~~<br>~~==>~~|
|||Measure Cap,ESR,DCL<br>~~===~~<br>~~SS~~<br>~~—~~<br>~~==>~~<br>~~—————~~||~~===~~<br>~~SS~~<br>~~—_—~~<br>~~==>~~<br>~~—————~~|< 1.3x rated<br>~~===~~<br>~~SS~~<br>~~—_—~~<br>~~==>~~|
|||70°C<br>~~SS~~<br>~~—~~<br>~~==>~~<br>~~—————~~|4 hours<br>~~SS~~<br>~~==>~~<br>~~—————~~|~~SS~~<br>~~—_—~~<br>~~==>~~<br>~~—————~~|~~SS~~<br>~~—_—~~<br>~~==>~~|
|||Measure Cap,ESR,DCL<br>~~—~~<br>~~==>~~<br>~~—————~~<br>~~ee~~||~~—_—~~<br>~~==>~~<br>~~—————~~<br>|~~—_—~~<br>~~==>~~<br>~~—~~<br>|
|**Thermal Shock**<br>~~ee~~<br>~~_—~~|Step<br>~~—~~<br>~~—————~~<br>~~ee~~|~~—~~<br>~~==>~~<br>~~—————~~<br>~~ee~~||~~—_—~~<br>~~==>~~<br>~~—————~~<br>|~~—_—~~<br>~~==>~~<br>~~—~~<br>|
||1<br>2<br>3<br>~~—~~<br>~~—————~~<br>~~ee~~<br>~~_——S~~<br>~~_—~~|Place cells into an oven at –20°C for 30 minutes<br>~~—~~<br>~~==>~~<br>~~—————~~<br>~~ee~~||DCL<br>~~—_—~~<br>~~==>~~<br>~~—————~~<br>|< 2.0x rated max.<br>~~—_—~~<br>~~==>~~<br>~~—~~<br>|
|||In less than 15 seconds,move cells into a 70ºC oven for 30 minutes<br>~~==>~~<br>~~ee~~<br>~~_——S~~||Cap<br>~~==>~~<br>~~ee~~|> 0.7x rated<br>~~==>~~<br>~~—~~<br>~~ee~~|
|||Repeat 1 and 2 for 100 cycles<br>~~==>~~<br>~~ee~~<br>~~_——S~~<br>~~——~~||ESR<br>~~==>~~<br>~~ee~~|< 2.0x rated max.<br>~~==>~~<br>~~—~~<br>~~ee~~|
|**Vibration**<br>~~ee~~<br>~~_—~~|Step<br>~~ee~~<br>~~_——S~~<br>~~_—~~|~~ee~~<br>~~_——S~~<br>~~——~~||~~ee~~|~~—~~<br>~~ee~~|
||1<br>2<br>3<br>4<br>5<br>~~ee~~<br>~~_——S~~<br>~~_—~~|Applya harmonic motion that is deflected 0.03 inches<br>~~ee~~<br>~~_——S~~<br>~~——~~||DCL<br>~~ee~~|< 2.0x rated max.<br>~~—~~<br>~~ee~~|
|||Vary frequency from 10 cycles per second to 55 cycles at a ramp<br>rate of 1 Hzper minute<br>~~ee ~~<br>~~_——S~~<br>~~——~~||Cap<br> ~~ee~~|> 0.7x rated<br>~~—~~<br>~~ee~~|
|||Vibrate the cells in the X-Y direction for three hours<br> <br>~~_——S~~<br>~~——~~<br>~~——~~||ESR<br> ~~ee~~|< 2.0x rated max.<br>~~ee~~|
|||Vibrate the cells in the Z direction for three hours<br> <br>~~_——S~~<br>~~——~~<br>~~——~~||~~ee~~|~~ee~~|
|||Measure Cap, ESR and DCL<br> <br>~~_——S~~<br>~~——~~<br>~~——~~<br>~~J~~||~~ee~~|~~ee~~|



– bestcap[®] ultra-low esr high power pulse supercapacitors – 

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## **SECTION 4 Application Notes** 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

21 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Application Notes/BestCap[®] Construction/Voltage Drop** 

## **4.1: ELECTROCHEMICAL EDLC VS. ELEC-** 

## **TRONIC TECHNOLOGY - BESTCAP[®] CONSTRUCTION** 

To understand the benefits offered by the BestCap[®] , it is necessary to examine how an electrochemical capacitor works. The most significant difference between an electronic capacitor and an electrochemical capacitor is that the charge transfer is carried out by the electrons in the former and by electrons and ions in the latter. The anions and cations involved in double layer supercapacitors are contained in the electrolyte which may be liquid (normally an aqueous or organic solution) or solid. The solid electrolyte is almost universally a conductive polymer. 

## **4.2: VOLTAGE DROP** 

Two factors are critical in determining the voltage drop when a capacitor delivers a short current pulse; these are ESR and “available” capacitance as shown in Figure 4. 

**==> picture [222 x 74] intentionally omitted <==**

**----- Start of picture text -----**<br>
Vo<br>V(IR)<br>ee<br>2 Se total=I*R + I* A t/C( A t)<br>V(Q)=I*  t/C( t)<br>Vt<br>t<br>**----- End of picture text -----**<br>


**==> picture [52 x 131] intentionally omitted <==**

**----- Start of picture text -----**<br>
Cell Case (Anode)<br>Electrode (Cathode)<br>Carbon<br>Carbon<br>Cell Case (Anode)<br>**----- End of picture text -----**<br>


**==> picture [48 x 96] intentionally omitted <==**

**----- Start of picture text -----**<br>
Insulation Material<br>Current Collector<br>Separator<br>Current Collector<br>**----- End of picture text -----**<br>


Electrons are relatively fast moving and therefore transfer charge “instantly.” However, ions have to move relatively slowly from anode to cathode, and hence a finite time is needed to establish the full nominal capacitance of the device. This nominal capacitance is normally measured at 1 second. 

_Figure 4. Voltage-time relation of capacitor unit_ 

The instant voltage drop ∆VESR is caused by and is directly proportional to the capacitor’s ESR. The continuing voltage drop with time ∆VC, is a function of the available charge, i.e. capacitance. From Figures 3 and 4 it is  apparent that, for very short current pulses, e.g. in the millisecond region, the combination of voltage drops in a conventional supercapacitor caused by a) the high ESR and b) the lack of available capacitance causes a total voltage drop, unacceptable for most applications. Now compare the BestCap[®] performance under such pulse  conditions. The ultra-low ESR (in milliOhms) minimizes the instantaneous voltage drop, while the very high retained capacitance drastically reduces the severity of the charge related drop. This is explained further in a later section. 

## **EFFICIENCY/TALKTIME BENEFITS OF BESTCAP[®]** 

Since BestCap[®] , when used in parallel with a battery, provides a current pulse with a substantially higher voltage than that available just from the battery as shown in Figure 5, the efficiency of the RF power amplifier is improved. 

The differences between EDLC (Electrochemical Double Layer Capacitors) and electronic capacitors are summarized in the table below: 

- A capacitor basically consists of two conductive plates (electrodes), separated by a layer of dielectric material. 

- These dielectric materials may be ceramic, plastic film, paper, aluminum oxide, etc. 

- EDLCs do not use a discrete dielectric interphase separating the electrodes. 

- EDLCs utilize the charge separation, which is formed across the electrode – electrolyte interface. 

- The EDLC constitutes of two types of charge carriers: IONIC species on the ELECTROLYTE side and ELECTRONIC species on the ELECTRODE side. 

**==> picture [243 x 118] intentionally omitted <==**

**----- Start of picture text -----**<br>
4 5<br>3.8 4<br>3.6 3<br>3.4 2<br>3.2 1<br>3 0<br>0 1000 2000 3000 4000<br>Time (µSeconds)<br>So Battery Voltage Battery and Capacitor Voltage Current Pulse<br>Current (Amps)<br>Battery Voltage (Volts)<br>**----- End of picture text -----**<br>


_Figure 5. GSM Pulse_ 

Additionally, the higher-than battery voltage supplied by the BestCap[®] keeps the voltage pulse above the “cut off voltage” limit for a significantly longer time than is the case for the battery alone. This increase in “talk time” is demonstrated in Figures 6(a) (Li-Ion at +25°C), and 6(b) (Li-Ion at 0°C). 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

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**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors** 

**==> picture [197 x 169] intentionally omitted <==**

**----- Start of picture text -----**<br>
Cutoff Voltage Limits<br>4<br>3.5<br>3<br>Cutoff Voltage % Increase<br>3.4 Volts 28%<br>2.5 3.5 Volts 73%<br>3.6 Volts 300%<br>2<br>0 100 200 300 400<br>Time (Minutes)<br>Battery with Pulse Capacitor Battery Alone<br>ES<br> Voltage (Volts)<br>**----- End of picture text -----**<br>


GSM Pulse @ 2 Amps 

_Figure 6a. Li-ION Battery at +25°C_ 

**==> picture [196 x 168] intentionally omitted <==**

**----- Start of picture text -----**<br>
LI-ION Battery<br>4<br>3.5<br>3<br>Cutoff Voltage % Increase<br>3.4 Volts 28%<br>2.5 3.5 Volts 100%<br>3.6 Volts 300%<br>2<br>0 100 200 300 400 500<br>Time (Minutes)<br>Battery with Pulse Capacitor Battery Alone<br>Se<br> Voltage (Volts)<br>**----- End of picture text -----**<br>


GSM Pulse @ 2 Amps 0°C 

## **PULSE CAPACITOR APPLICATIONS** 

As mentioned earlier, the voltage drop in a circuit is critical as the circuit will not operate below a certain cut-off voltage. There are two sources of voltage drop (∆V) which occur, the first ∆VESR is because of the equivalent series resistance (ESR) and the second, called the capacitive drop, is ∆VC. From Ohm’s law, 

voltage = current x resistance or V = IR 

Let us say that the instantaneous starting voltage is Vo, or voltage for the circuit from where the voltage drops. If the capacitor has an ESR of 100 milliOhms and the current is 1 amp, 

∆VESR = 1 amp x (0.100) ohms = 0.1 volts or 100 milli-volts. On demand, during the discharge mode, the voltage V = Vo 

- ∆VESR = (Vo - 0.1) volts 

The second voltage drop is because of the capacitance. This is shown in the equation as a linear function because of simplicity. Simply put, 

Q (charge) = C (capacitance) x V (voltage) 

The derivative, dQ/dt = I (current, in amps) = C x dV/dt 

Hence, ∆VC (dV, the voltage drop because of capacitance) = I x dt/C. This formula states that the larger the capacitance value the lower the voltage drop. Compared to a Ta capacitor, this ∆VC is reduced by a factor of about 10 to 100. So, BestCap[®] has an advantage where higher  capacitance is needed. If the current pulse itself is 1 amp, the current pulse width is 1 second and the capacitance is 10 millifarads, the ∆VC = 1A x 1Sec/0.01F, or a 100 volts; such an application is out of the range of BestCap[®] . However, if the pulse width becomes narrower, say 10  milliseconds, and the capacitance is 100 millifarads, the ∆VC = 1 x (10/1000)/(100/1000) = 0.1 volt or 100 millivolts. This shows the advantage of the large capacitance and hence the term “pulse” capacitor. The specific power – specific energy graphs are used in the battery industry to compare competitive products. As the dt becomes smaller i.e.100 milliseconds, 10 milliseconds and then 1 millisecond, our estimates show that the specific power for the BestCap[®] is the highest as compared to our competitors because of our choice of internal materials chemistry. 

**Conclusion:** we now clearly show that BestCap[®] has an advantage over competitors for short current pulse whose widths are smaller than a few hundred milliseconds. 

_Figure 6b. Li-ION Battery at +0°C_ 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

23 

070820 

## **BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Enhancing the Power Capability of Primary Batteries** 

## **4.3 ENHANCING THE POWER CAPABILITY OF PRIMARY BATTERIES** 

When electronic equipment is powered by a primary (non rechargeable) battery, one of the limitations is the power capability of the battery. 

In order to increase the available current from the battery while maintaining a constant voltage drop across the battery terminals, the designer must connect additional cells in parallel, leading to increased size and cost of both the battery and the finished product. 

When high power is only required for short periods, more sophisticated approaches can be considered. The traditional approach involves using a high power rechargeable battery, charged by a low power primary cell. 

A far superior solution, however, is the use of a BestCap[®] Supercapacitor, which is a device specifically designed to deliver high power. 

## **Traditional design:** 

BestCap[®] Supercapacitor benefits to the designer are: 

- Substantially lower voltage drop for pulse durations of up to 100msec. 

- Substantially lower voltage drop at cold temperatures (–20°C). 

- Discharge current limited only by the ESR of the capacitor 

The following analysis compares a primary battery connected in parallel to a Lithium Tionil Chloride, to the same primary battery connected to a BestCap[®] Supercapacitor. Various current pulses (amplitude and duration) are applied in each case. 

## **BestCap[®] 5.5V 100mF** 

|**Pulse**|**Voltage**<br>**Drop (mV)**<br>**BestCap®  Supercapacitors**|**Voltage**<br>**Drop (mV)**<br>**rechargeable battery**|
|---|---|---|
|250mA/1msec|25|150|
|500mA/1msec|50|220|
|750mA/1msec|75|150|
|200mA/100msec at -20°C|232|470|



Battery Powered Primary Rechargeable Equipment Requiring Battery Battery High Current Pulses **BestCap[®] 3.5V 560mF Voltage Voltage Pulse Drop (mV) Drop (mV) BestCap[®] Supercapacitors rechargeable battery Design using BestCap[®] :** 250mA / 100msec 50 190 500mA / 100msec 100 350 Battery Powered 750mA / 100msec 152 190 Primary **BestCap®** Equipment Requiring 1500mA / 1msec 43 220 Battery High Current Pulses 1500mA / 100msec 305 350 ~~:~~ | ~~i~~ 750mA / 100msec at –20°C 172 470 ~~L 6~~ **Additional BestCap[®] Rechargeable Battery Characteristics** Maximum discharge Not limited 5A Maximum current (single pulse) 40K to 400K Number of Cycles Not limited (to retain 80% capacity) 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

24 

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**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors BestCap[®] for GSM/GPRS PCMCIA Modems** 

## **4.4 BESTCAP[®] FOR GSM/GPRS PCM- CIA MODEMS** 

There is an increasing usage of PCMCIA modem cards for wireless LAN and WAN (Wide Area Network) applications. 

The PCMCIA card is used as an accessory to Laptops and PDAs and enables wide area mobile Internet access, including all associated applications like Email and file transfer. 

With the widespread use of GSM networks, a PCMCIA GSM modem is a commonly used solution. To achieve higher speed data rates, GSM networks are now being upgraded to support the GPRS standard. 

The design challenge: 

GSM/GPRS transmission requires a current of approximately 2A for the pulse duration. The PCMCIA bus cannot supply this amount of pulsed current. Therefore, there is a need for a relatively large capacitance to bridge the gap. 

The capacitor supplies the pulse current to the transmitter and is charged by a low current during the interval between pulses. 

## **THE SOLUTION:** 

||**SOLUTION A**|**SOLUTION B**|
|---|---|---|
||**Chip Tantalum**|**BestCap®**<br>**BZ154B473ZSB**|
|**Rated Capacitance**<br>**(milli Farad)**|2.2|47|
|**Capacitance**<br>**@ 0.5msec Pulse**<br>**(milli Farad)**|2.2|30|
|**Operating Voltage (V)**|3.7|3.7|
|**ESR(milli ohm)**|50|160|
|**Size(mm)**|.4 x 7 x 2|20 x 15 x 2.1|
|**Voltage Drop* (V)**<br>**GPRS Pulse**<br>**(25% duty cycle)**|0.804V|0.268V|
|**Voltage After Pulse(V)**|2.896|3.432|
|**Cutoff Voltage (V)**|3.1|3.1|
|**Pass/FAIL**|FAIL|PASS|



* V=V1 +V2 =1.5A*ESR + (1.5A*1.154msec)/C 

V 

**==> picture [167 x 115] intentionally omitted <==**

**----- Start of picture text -----**<br>
V+ from<br>PCMCIA bus<br>Capacitor<br>Transmitter<br>2 Ampere<br>Current<br>Voltage<br>**----- End of picture text -----**<br>


**==> picture [52 x 91] intentionally omitted <==**

**----- Start of picture text -----**<br>
V1 = I*ESR<br>}<br>V2 = I* A t/C<br>}<br>t<br>**----- End of picture text -----**<br>


It is assumed that during the pulse, 0.5A is delivered by the battery and 1.5A by the capacitor. 

**Conclusion:** High capacitance is needed to minimize voltage drop. A high value capacitance, even with a higher ESR, results in a lower voltage drop. Low voltage drop minimizes the conductive and emitted electro magnetic interference and increases transmitter output power and efficiency. 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

25 

102419 

## **SECTION 5 Extended Temperature Range** 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

26 

## **BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Extended Temperature Range** 

## **SECTION 5: EXTENDED TEMPERATURE RANGE** 

AVX continues to expand the BestCap[®] product offerings for additional applications. For applications demanding other temperature ratings, AVX offers special construction techniques for high and low temperature performance upon request. 

AVX offers temperature range extensions as follows: 

- -40ºC to 70ºC, -20ºC to 75ºC and -40ºC to 75ºC. 

AVX has extensive experience in manufacturing these alternate temperature rating parts. Contact AVX for your special temperature requirements. 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

27 

102419 

**BestCap[® ] Ultra-low ESR High Power Pulse Supercapacitors Product Listing** 

## **PASSIVES** 

## **Capacitors** 

Multilayer Ceramic Film Glass Niobium Oxide* - OxiCap[®] Pulse Supercapacitors Tantalum 

## **Circuit Protection** 

Thermistors Fuses - Thin Film Transient Voltage Suppressors Varistors - Zinc Oxide 

## **Directional Couplers** 

## **Filters** 

Ceramic EMI Noise SAW Low Pass - Thin Film 

## **Inductors** 

Thin-Film 

## **Integrated Passive Components** 

PMC - Thin-Film Networks Capacitor Arrays Feedthru Arrays Low Inductance Decoupling Arrays 

## **Piezo Acoustic Generators** 

Ceramic 

## **Resistors** 

Arrays Miniature Axials 

## **Timing Devices** 

Clock Oscillators MHz Quartz Crystal Resonators VCO TCXO 

Thin-Film 

## **CONNECTORS** 

Automotive Standard, Custom Board to Board SMD (0.4, 0.5, 1.0mm), BGA, Thru-Hole Card Edge DIN41612 Standard, Inverse, High Temperature FFC/FPC 0.3, 0.5, 1.0mm Hand Held, Cellular Battery, I/O, SIMcard, RF shield clips 2mm Hard Metric Standard, Reduced Cross-Talk 

IDC Wire to Board Headers, Plugs, Assemblies 

Memory PCMCIA, Compact Flash, Secure Digital, MMC, Smartcard, SODIMM 

Military H Government, DIN41612 Polytect[TM] Soft Molding Rack and Panel Varicon[TM] 

NOTICE: Specifications are subject to change without notice. Contact your nearest AVX Sales Office for the latest specifications. All statements, information and data given herein are believed to be accurate and reliable, but are presented without guarantee, warranty, or responsibility of any kind, expressed or implied. Statements or suggestions concerning possible use of our products are made without representation or warranty that any such use is free of patent infringement and are not recommendations to infringe any patent. The user should not assume that all safety measures are indicated or that other measures may not be required. Specifications are typical and may not apply to all applications. 

© AVX Corporation 

“Niobium Oxide Capacitors are manufactured and sold under patent license from Cabot Corporation, Boyertown, Pennsylvania U.S.A.” 

– bestcap[®] ultra-low esr high power pulse supercapacitors – 

The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 

28 

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