XH414H-II06E - Seiko Instruments

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Product Specifications

Type : Reflowable XH Capacitor

Model : XH414H II06E

Approval of Customer

Date :

Company Name :

Responsible person :

Signature :

Seller: SII Micro Parts Ltd.

Address: Arcacentral 13F, 2-1 Kinshi 1-Chome Sumida-ku Tokyo, Japan

Postal code: 130-0013

Responsible person: Sales Dep.

General Manager

Shigeo Niwa

Signature:

(Not applicable to submit this specification by e-mail)

This is a "Standard Spec sheet " which is a general

documentation for your evaluation.

Before we will start to supply this part to you,

we would like you to ask us the formal

version of this spec sheet.

We will issue the formal specification sheet for you.

(Basically the contents is the same as this one.)

We would like you to put your signature on it to state

your approval of the specification, and send it back to us.

It will be a kind of contract between you and us.

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History of Revision

No. Described Details of Change Checked Issue Date

01 Engineering

Dept.

K. Tomitsuka

Initial Release for Standard Specifications QA Sec.

Y. Saito

Jul. 16, 2004

02 QA Sec.

Y. Saito Reworded 7-2 Engineering Dept.

K. Tomitsuka Nov.5,2004

03 QA Sec.

Y. Saito Had added model name in Reflow profile

Ver. STDE-B-XH0414H02RII06E-0008-3

Engineering Dept.

K. Tomitsuka Dec.24,2004

04 QA Sec.

Y. Saito Changed seller’s address

Ver. STDE-B-XH0414H02RII06E-0010-1

QA Sec.

H. Ishikawa Oct. 14,2005

Manufacturer information

Company name: SII Micro Parts Ltd.

ddress: 45-1, Aza-Matsubara, Kami-ayashi, Aoba-ku, Sendai-shi, Miyagi,

Japan, postal code: 989-3124

Responsible

person: Quality Assurance Section Manager

Isamu Shinoda

Signature:

(Not applicable to submit this specification by e-mail)

E-mail address: smp.qa@sii.co.jp

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Index

Contents page

Cover page for the customer approval 1

History of revision

Manufacturer Information 2

Index 3

1 Application 4

2 Model 4

3 Chemical System and Structure 4

4 Nominal Specifications 4

5 Characteristics 5

6 Measuring Methods 6

7 Test Methods 9

8 Mounting Methods 10

9 Indications (Markings) 10

10 Inspection (Outgoing and Incoming) 11

11 Package Specifications 11

12 In case of quality trouble 11

13 Operation of this Specification 11

14 Notice 12

Appendix

Leakage Criteria

Construction of Capacitor

Capacitor drawing with tabs

Explanation of coplanarity

Reflow Profile

Drawing of Emboss Carrier Tape

Capacitor position in emboss tape

Taping specifications

Package specifications

Precautions for Your Safety

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1. Application

This specification applies to the coin-type Reflowable XH Capacitor, which SII Micro

Parts Ltd. manufactures and supplies to the customer specified in the cover page of this

document.

2. Model

Refer to the Model in this cover page.

3. Chemical System and Structure

Refer to the document attached as “The construction of capacitor”.

4. Nominal Specifications

Model

No. Characteristics XH414H

4-1 Operating temperature range -25°C to +70°C

4-2 Rated Operating Voltage 3.3V

4-3 Charging voltage 3.3V or less

4-4 Nominal Capacity

Discharge capacity 0.015 mAh (3.3V to 2.0V)

Electrostatic capacity 0.07F (3.3V to 0.0V)

4-5 Internal impedance 70 ohm

4-6 Nominal dimensions

Diameter 4.8mm

Height 1.4mm

4-7 Standard mass 0.06g

4-8 Recommended Storage conditions

Temperature +10°C to +30°C

Humidity 60%RH or less

4-9 The voltage at the delivery time

(V) 0.3 Max.

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5. Characteristics

Model Test Measuring

No. Characteristics XH414H Method

s Methods

1 Capacity (initial) 7-1 6-2-1

24°C 0.01 mAh or more

-25°C 50% or more of value measured at 24°C

70°C 80% or more of value measured at 24°C

2 Internal impedance (initial) 7-1 6-3

24°C 150ohm or less

-25°C 1000 ohm or less

70°C 1000 ohm or less

3 Over Charge (Floating) Characteristics 7-2

Capacity 70% or more of initial value measured at 24°C 6-2-1

Internal

impedance 1000 ohm or less 6-3

4 High Temperature and High Humidity Storage Characteristics 7-3

Capacity 70% or more of initial value measured at 24°C 6-2-1

Internal

impedance 1000 ohm or less 6-3

5 Charge / Discharge Cycle Characteristics 7-4

Capacity 70% or more of initial value measured at 24°C 6-2-1

Internal

impedance 1000 ohm or less 6-3

6 Leakage

Resistance Level S3 (*1) or less

(There is no significant leakage, which effects

capacitor’s performance.)

7-5 6-5

7 Appearance 6-5

Initial No leakage.

There is no foreign body adhesion (over level

S2).

There is no significant deformation, stain,

stricken mark, rust and burr.

Initial

After Test There is no significant leakage (C1 or more),

deformation, stain, stricken mark, rust and

burr.

7-2

7-3

7-4

*1: Refer to “Leakage Criteria”

“Initial” means within one month after deliver.

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6. Measuring Methods

6-1. Measuring Environment, Meters and Equipment

6-1-1: Environment

Testing and Measuring must be conducted under the environment of the normal

temperature (24+/-2°C) and the normal humidity (65+/-20%RH), if not specified.

6-1-2: Dimensions

For measuring dimension JIS B 7503 (Dial gauge), JIS B 7507 (Vernier caliper)

and JIS B 7502 (External micrometer) or meter with same grade in accuracy must

be used.

6-1-3: DC Voltmeter

Voltmeter with class 0.2 of JIS C 1102 (Electric indicating instrument) or meter with

same or better grade in accuracy, and its input impedance is over 10Mohm must

be used.

6-1-4: DC Ammeter and AC Ammeter

Ammeter with class 0.2 of JIS C 1102 (Electric indicating instrument) or meter with

same or better grade in accuracy must be used.

6-1-5: Resistance

Resistance should include all resistance in external circuit and its tolerance must

be within +/-0.5%.

6-1-6: Initialization of capacitor

All measurements must be conducted after 30 minutes of short-circuit.

6-2. Capacity

6-2-1. Discharge capacity

1) Charging condition:

Charge capacitor by voltage of 3.3V through protective resistance of 100 ohms

for 5 hours.

2) Discharging condition:

Discharge the capacitor by using constant current of 20uA to 2.0V. Then the

capacity is calculated by the duration.

The electrical discharge by the fixed resistance of 100kohm is allowed as

substitution of 20uA in a fixed current ampere. However, the calculation of

capacity must be used the division mensuration.

()

∑











−××

iii

ii TT

VV Rd

CCapacity 1

)(

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6-2-2. Electrostatic Capacity (for reference)

1) Follow next measuring method in the circuit shown in Fig. 6-2-1.

2) Set DC voltage (E) as listed in Table 6-2.

3) Turn SW toward 1 for charging. Charge and impress listed voltage (E) for listed

time (T) in Table 6-2 through protective resistance (R).

4) After having impressed the voltage for listed time, then turn SW toward 2 for

discharging by listed discharging current (I) in Table 6-2 through constant-current

load device.

5) Measure the time while the tab-voltage of product (capacitor) changes from listed

starting voltage (V1) to ending voltage (V2) in Table 6-2 (Td=T2-T1). Then

calculate capacity (C) by following formula. Please refer to Fig. 6-2-2.

<Fig. 6-2-1 : Measureing Circuit>

C : Test Sam

E : DC Constant-volta

e Powe

R : Protective Resistance

V : DC Voltme te

I : Constant-current Load Device

: DC Ammete

<Fig. 6-2-2 : Charging and discharging Curve>

<Table: 6-2>

Model Charging

voltage

(E)

Protective

Resistance

(R)

Charging

Time

(T)

Discharging

Current

(I)

Starting

Voltage

(V1)

Ending

Voltage

(V2)

XH414H 3.30V 100ohm 30 min. 20uA 2.0V 1.5V

C (F) = I x

(

T2 - T1

)

V1 - V2

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6-3. Internal Impedance

Measure by alternating method with Frequency 1kHz.

6-4. Charging Current (for reference)

After test sample is charged in the circuit shown in Fig.6-4 by listed voltage (E) and

listed protective resistance (R) for listed time in Table 6-4, measure the voltage (V)

between tabs of protective resistance (R).

Then calculate charging current (I) by following formula.

<Fig. 6-4 Charging Current

Measuring Circuit>

Charging

voltage

(E)

Protective

resistance

(R)

Charging

Time

(T)

3.30V 100ohm 30 min.

6-5. Appearance: Refer to “Leakage Criteria”

After Test : Use microscope, which has magnification of from 10 to 15.

General : Naked eye

I = V

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7. Test Methods

7-1. Temperature Characteristic Test

Measure electrical characteristics after exposing capacitor to each temperature

atmosphere for 2 hours.

Temperature : -25+/-2°C, +24+/-2°C, +70+/-2 °C

7-2. Over Charge (Floating) Characteristics Test

Measure electrical characteristics and conduct appearance check after charging

capacitor continuously with charging voltage of Vc and charging resistance of 100ohm

at temperature 70+/-2°C for 500 hours.

Model XH414H

Vc 3.3V

7-3. High Temperature and High Humidity Storage Characteristics Test

Measure electrical characteristics and check the appearance after storage of capacitor

at temperature 60+/-2°C and 90+/-2%RH for 500 hours.

7-4. Charge / Discharge Cycle Characteristics Test

Charge : Apply Vc through protective resistance (Rp) for 9 minutes.

Discharge : Discharge with load resistance (Rl) for 1 minutes.

Cycles : 10000 cycles

*Rp and Rl of each model are shown as below table

Model Vc (Rp) (Rl)

XH414H 3.3V 100ohm 100ohm

7-5. Leakage Resistance Characteristics Test (Thermal Shock Test: Air to Air)

Hold capacitor at -10+/-2°C for 1 hour then hold it at 60+/-2°C for 1 hour.

(Camber). Not humidity controlled. Repeat 100 cycles between above conditions.

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8. Mounting Methods

8-1. Capacitor with tabs

1) For soldering iron

Use the conditions as follows

Model

XH414H

Temperature 260°C or less

Soldering time Within five seconds

Within above conditions, do not heat capacitor over 100°C.

Do not solder directly to the capacitor.

2) Dip soldering

It is possible to apply. Do not heat the capacitor over 100°C.

3) Reflow soldering

It is possible to apply. Execute it when the capacitor has the voltage of 0.3V or

less.

Refer to “Reflow Profile” attached.

8-2. Capacitor without tabs

Use the spring terminal, which meets the specification as follows.

Surface treatment: Nickel plating or Gold plating

Contact force: 0.5N or more

Note contact failure with the terminal because the ink of the insulation thing adheres

on the side of capacitor.

9. Indications (Markings)

9-1. Dies

Following items are indicated on the surface of capacitor.

(1) Model code (2) Positive polarity (+)

(3) Name of Manufacturer, or monogram (4) Country of origin

Above items can be omitted except item (2).

9-2. Lot number

As lot number, the date when the product was manufactured is marked on the main

body of the product and on the label of each minimum package.

The following system applies to marking of the lot number.

The lot number is composed from 2 to 4 characters, and two characters of the head

means the lot number. The head means an end of the Christian era, and the next

means an abbreviation of month. Two characters of the back are used by the

manufacturer, and might be omitted.

Example: 11…manufactured in January 2001

2Y...manufactured in November 2002

Abbreviation of month: Jan. (1), Feb. (2),.., Sep. (9)

Oct. (0), Nov. (Y), Dec. (Z)

The position is random.

2Y**

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10. Inspection (Outgoing and Incoming)

10-1. Lot composition

Lot must be composed within the same manufacturing conditions.

10-2. Outgoing Inspection

SII Micro Parts Ltd., shall do outgoing inspection before shipping. The inspection items

are as below table. The inspection results shall be submitted immediately for the

customer request.

No Characteristics Inspection levels Frequency

1 Capacity (initial) n=6, c=0 per lot

2 Internal Impedance (initial) n=6, c=0 per lot

3 Leakage Resistance n=10, c=0 per lot

10-3. Incoming Inspection

The customer should do incoming inspection within 30 days from the receiving day.

If defects are find out at the incoming inspection, the customer immediately should

notify to SII Micro Parts Ltd. in writing, with the defective products, for replacement

request. When there was no connection from you within 30 days, we shall judge that

those were accepted.

11. Package specifications

Examples of the tray etc. for wrapping, wrapping specification, and packing

specification are shown in the following.

11-1. Wrapping

Refer to “Drawing of Emboss Carrier Tape” and “Taping specifications”.

11-2. Wrapping and packing

Refer to “Package Specifications”.

12. In case of quality trouble

The warranties set forth herein are the only warranties on the Products.

The liabilities of SII Micro Parts Ltd. in connection with the Products under these

specifications are expressly limited to the replacement of defective Products.

13. Operation of this Specification

13-1. Agreement

Before these specifications being revised, the agreement, of the customer, seller and

manufacturer, is required.

13-2. Negotiation

If some accident not specified on these specifications occurs, the customer, seller

and manufacturer must negotiate in order to solve the problem faithfully.

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14. Notice

14-1. To draw out the performance of the XH414H to its maximum.

When XH414H is discharged by current 10uA or more on the circuit, in some cases,

the voltage of XH414H will be going down for around 1 second or less than 1 second.

In such cases, Electrolytic condensers/capacitors, which was mounted in parallel,

can prevent the voltage drop of XH414H.

14-2. Defective samples

The defect for the cause analysis has occasionally received thermal damage. In

many cases, overheating when detaching it from the PCB is a cause. The root cause

might not be able to investigate with the being overheated defective goods. Please

send the defective goods on each PCB as it is, as much as possible. Please cut the

terminal with nippers etc., for avoiding the influence of heat when detaching it.

Leakage Criteria

Criteria

Grade Diagram Definition

Leakage

The leakage can not be seen by naked

eyes, but can be seen by microscope,

which have magnification of 10 to 15.

Leakage

The leakage can be seen by naked eyes.

The area of leakage is within half of the

round and reaching to neither the flat

area of the negative can nor the straight

area of the positive can.

The leakage is not bridged between the

negative can and the positive can.

Leakage

The area of leakage is from half to all of

the round and reaching to neither the flat

area of the negative can nor the straight

area of the positive can.

The leakage is not bridged between the

negative can and the positive can.

Leakage

Bridge

The area of leakage is reaching to either

the flat area of the negative can or the

straight area of the positive can.

The leakage is bridged between the

negative can and the positive can.

Reflow Profile

< Reflow Soldering Conditions >

Reflow Soldering Profile: As per shown in Fig.-1.

The times of repeated reflow soldering must be two times or less.

The temperature must be measured at top of the cell.

100

150

200

250

0 50 100 150 200 250 300

Time(seconds)

Temperature(°C)

Time above 200°C*1

Fig.-1: Reflow soldering profile (for reference only)

*1: Time above 200°C must be max. 80seconds.

Total length of profile must be max. 300seconds.

Model

Peak Temperature HB414 XH414H TS414H NBS414H

Max.260°C Applicable (within 5 seconds)

< Underfilling Conditions >

Temperature: Max.160°C, Time: Max.10 minutes.

SII Micro Parts Ltd.

Capacitor position in emboss tape

1. Model

XH414H II06E

2. Capacitor position in emboss tape

Negative side

Positive side

3. Quantity / reel

MAX. 3600pcs / reel

SII Micro Parts Ltd. 20040401

! CAUTION!

! WARNING!

Precautions for Your Safety

SII capacitors (XC, XH) contain flammable organic solvents.

For your safety, please follow following prohibitions.

1. Do not charge by high current or high voltage.

Doing so may generate gas inside the capacitor, resulting,

swelling, catching fire, heat generation or bursting.

2. Do not reverse placement of (+) and (-)

SII capacitors have polarity. If the (+) and (-) side of the capacitor

is reverse inserted, it may cause a short-circuiting or over

discharge of the capacitor on some equipment and it may induce

overheating, explosion or fire.

3. Do not solder directly to the capacitor

If soldering is performed directly to the capacitor, the capacitor is

heated up, consequently cause leakage, explosion or fire due to

overheating from internal short-circuiting.

4. Keep capacitors out of children’s reach.

If leaked liquid is ingested or a capacitor is swallowed, consult a

physician immediately.

5. Do not heat, disassemble nor dispose of in fire

Doing so damages the insulation materials and may cause

catching fire, heat generation, leakage or bursting.

6. Do not discharge by force

If the capacitor is discharged by direct connection to an external

power supply etc., voltage of the capacitor will decline lower than

0 volts (electrical reversal) and will cause the capacitor case to

expand, overheat, leak, explode or burn.

7. Incase of leakage or a strange-smell; keep

away from fire to prevent ignition of any leaked

electrolyte.

1. If leaked liquids gets in the eyes, wash them

with clean water, and consult a physician

immediately.

2. Do not use nor leave the capacitors neither in

direct sunlight nor in high-temperature areas.

It may cause catching fire, heat generation, leakage or bursting.

3. Do not use new and used capacitors together.

Do not use different types of capacitors

together.

It may cause catching fire, heat generation, leakage or bursting.

4. If you connect two or more capacitors in series

or parallel, please consult us in advance.

It may cause bursting or catching fire due to unbalanced load or

voltage..

5. Keep capacitors away from direct sunlight, high

temperature and humidity.

It may cause heat generation or performance deterioration.

For prevention quality trouble in capacitor

1. Do not conduct reflow soldering after charging

the capacitor.

The deterioration of the capacitor shall be caused. In serious

case, the capacitor may start swell and explode or leakage.

2. Pay attention to soldering by tips

Do no touch the capacitor by solder chips, in case of soldering

another components after equipping capacitor. In basically, keep

any high temperature process away from capacitor. (Except for

reflow soldering and underfilling)

3. Pay attention to the operating temperature.

The ambient temperature greatly affects the lifetime of the

capacitor.

By reducing the temperature by 10deg.-C, the lifetime can be

approximately doubled.

4. Do not welding the tab to the capacitor.

The tab welding by inappropriate conditions will lead to damage

or breakage of the capacitor. In serious case, the capacitor may

start swell and leakage or catch fire and explode. If needs

capacitor with tabs, please consult us.

5. Pay attention to washing and drying.

Some detergent or high temperature drying cause deteriorates of

capacitor. If you need to wash capacitors, consult us.

Disposal

Recent environmental protection concerns have increased globally and waste and recycling are regulated in the world. The current

regulations differ in each country, state and local municipality. Please consult local regulations and authorities for recommended disposal of

batteries. If you are in question of application or safety of our batteries, please consult your local authorities.