EEUFS2A331L - PANASONIC - Datasheet.Directory

Aluminum Electrolytic Capacitors

Radial Lead Type

● Endurance : 105 ℃ 5000 h to 10000 h

● Malaysia

● Low ESR, Miniaturized (1 size smaller than series FR)

● RoHS compliant

Unit：mm

Should a safety concern arise regarding this product, please be sure to contact us immediately.

28-Feb-20

1200 to 10000

FS series

A type

I ≦ 0.01 CV (μA) After 2 minutes

Rated voltage range

Capacitance tolerance

±20 % (120 Hz / +20℃)

Leakage current

Within ±25 % of the initial value (6.3 V to 10 V : ±30 %)

Dissipation factor（tan δ)

≦ 200 % of the initial limit

Endurance

capacitors are restored to 20 ℃, the capacitors shall meet the limits specified bellow.

stabilized at +20 ℃, capacitors shall meet the limits specified in endurance.

Shelf life

After storage for 1000 h at +105 ℃±2 ℃ with no voltage applied and then being

Features

Specifications

Capacitance range

27 μF to 10000 μF

0.65

0.22

Category temp. range

–40 ℃ to +105 ℃

6.3 V to 100 V

Country of origin

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

(With voltage treatment)

27 to 33

Cap.（μF）

Capacitance change

Freq.（Hz)

After following life test with DC voltage and +105 ℃±2 ℃ ripple current value applied

DC leakage current

Within the initial limit

Rated voltage（V）

Dissipation factor（tan δ)

For capacitance value ≧ 1000 μF, add 0.02 per every 1000 μF.

(The sum of DC and ripple peak voltage shall not exceed the rated working voltage) when the

Dissipation factor（tan δ)

Frequency correction factor for ripple current

Duration

0.70

0.85

0.95

1.00

6.3

φ5×11, φ6.3×11.2 : 5000 h

100

0.45

0.60

φD

5.0

6.3

8.0

0.90

10.0

16.0

―

12.5 to 25

30 to 35

―

12.5

0.75

0.98

1.00

0.80

0.95

1.00

7.5

2.0

2.5

3.5

5.0

φd

0.5

0.6

0.8

47 to 330

390 to 1000

Dimensions

(120 Hz /+20℃)

0.08

0.09

0.10

0.12

0.14

0.16

0.19

0.55

φ8×11.5, φ10×12.5 : 6000 h

φ8×15, φ10×16 : 8000 h, φ8×20 : 9000 h

φ10×20 to φ10×25, φ12.5×20 to φ12.5×35, φ16×20 to φ16×25 : 10000 h

60 120 1 k 10 k 100 k to

0.75

0.90

1.00

φd±0.05

Pressure relief

φ6.3≦

14min.

F±0.5

Sleeve

3min.

φD±0.5

* L ≦ 16：L±1.5

L ≧ 20：L±2.0

φ8

φ10 ≦

Aluminum Electrolytic Capacitors (Radial Lead Type)

*1: 100 kHz

+20 ℃

-10 ℃

+105 ℃

+20 ℃

-10 ℃

+105 ℃

FS series

Case size/ Impedance/ Ripple current

R. voltage

6.3 V to 35 V

50 V

Impedance*1

(Ω)

Ripple current*1

(mA rms)

Impedance*1

(Ω)

Ripple current*1

(mA rms)

Case size

(mm)

(φD×L)

250

6.3 × 11.2

0.130

0.430

455

―

5 × 11

0.300

1.000

280

0.340

1.130

―

8 × 15

0.041

0.123

1240

0.045

0.135

1140

8 × 11.5

0.056

0.168

950

―

1430

10 × 12.5

0.043

0.114

1290

―

8 × 20 0.030 0.090 1560 0.033 0.099

―

10 × 20

0.020

0.057

2180

0.023

0.069

1890

10 × 16

0.028

0.078

1790

―

2150

12.5 × 20

0.018

0.045

2600

―

10 × 25

0.018

0.054

2470

0.022

0.066

2660

12.5 × 30

0.013

0.033

3630

0.016

0.040

3160

12.5 × 25

0.015

0.038

3190

0.018

0.045

3270

16 × 20

0.017

0.043

3300

―

12.5 × 35

0.012

0.030

3750

0.014

0.035

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

28-Feb-20

R. voltage

63 V

Impedance*1

(Ω)

Ripple current*1

(mA rms)

Case size

(mm)

(φD×L)

16 × 25

0.014

0.035

3820

0.016

0.040

+20 ℃ -10 ℃ +105 ℃

5 × 11

0.510

2.040

175

3320

8 × 15

0.068

0.272

741

8 × 20

0.050

0.200

930

6.3 × 11.2

―

8 × 11.5

―

10 × 20

―

10 × 25

0.033

0.132

1500

10 × 12.5

0.063

0.252

761

10 × 16

0.045

0.180

1073

12.5 × 20

0.027

0.125

1582

12.5 × 25

―

0.092

1995

0.033

0.024

0.093

2153

16 × 25

0.074

2988

12.5 × 30

0.021

―

12.5 × 35

0.029

0.071

2780

16 × 20

80 V　to 100 V

Impedance*1

(Ω)

Ripple current*1

(mA rms)

+20 ℃ -10 ℃ +105 ℃

―

0.160

0.720

490

0.112

0.504

590

0.096

0.432

810

0.112

0.448

600

0.072

0.288

930

0.054

0.224

1120

0.044

0.176

1200

0.043

0.135

1400

0.032

0.108

1450

0.025

0.076

2500

0.034

0.108

1800

0.030

0.099

2200

0.023

0.070

2380

Aluminum Electrolytic Capacitors (Radial Lead Type)

*1: Ripple current (100 kHz / +105 ℃)

*2: Impedance (100 kHz　/ +20 ℃)

・ When requesting taped product, please put the letter "B" or "H" be tween the "( )".

Lead wire pitch　✽B=5 mm, 7.5 mm, H=2.5 mm.

・ Please refer to the page of “Taping dimensions”.

FS series

Characteristics list

Rated

voltage

(V)

Lead length (mm)

Part No.

Min. Packaging

Q'ty（PCS)

2000

8000

5.0

EEUFS0J221( )

200

Taping

Straight Taping

✽B

Taping

✽H

Lead

dia.

(φd)

Lead space

Straight

leads

Ripple

current*1

(mA rms)

Impe-

dance*2

(Ω)

Endu-

rance

(h)

2.0

2.5

5.0

EEUFS0J152( )

200

500

EEUFS0J152L( )

200

1000

6000

0.041

0.043

5.0

―

3.5

―

EEUFS0J202( )

200

500

8000

EEUFS0J202L( )

200

1000

8000

1000

9000

5.0

EEUFS0J182L( )

200

9000

5.0

―

3.5

―

3.5

―

5.0

0.6

EEUFS0J272( )

200

500

10000

500

10000

5.0

EEUFS0J222( )

200

―

5.0

0.6

5.0

0.6

EEUFS0J392L( )

200

500

10000

5.0

EEUFS0J332( )

200

500

5.0

―

5.0

0.6

5.0

0.6

EEUFS0J512( )

200

500

10000

5.0

EEUFS0J472( )

200

500

10000

5.0

―

5.0

―

0.6

5.0

500

10000

―

5.0

EEUFS0J562( )

200

10000

5.0

―

5.0

―

0.6

0.8

―

EEUFS0J752S( )

100

250

10000

0.8

7.5

EEUFS0J622L

100

―

10000

EEUFS0J752L

100

―

10000

―

EEUFS0J682L

100

―

5.0

―

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

28-Feb-20

5000

5.0

EEUFS1A181( )

200

2000

5000

7.5

EEUFS0J103( )

100

250

―

10000

7.5

0.8

7.5

EEUFS0J912( )

100

250

―

10000

7.5

EEUFS0J822L

100

―

10000

0.8

―

2.5

5000

200

2.0

2.5

7.5

―

0.8

―

2000

0.5

950

5.0

6.3

8.0

7.5

EEUFS0J822S( )

100

250

10000

200

0.130

0.056

1000

10.0

200

0.043

3.5

―

1000

6000

820

―

1000

8000

15.0

8.0

10.0

200

0.041

5.0

―

500

6000

12.5

1290

1240

1290

12.5

EEUFS1A102( )

EEUFS1A122L( )

―

5.0

―

500

6000

9000

200

0.043

EEUFS1A122( )

EEUFS1A182L( )

―

10000

5.0

―

10000

―

10000

5.0

8000

5.0

0.6

Capacitance

(±20 %)

(μF)

Case size

(ｍｍ) Specification

φD L

10000

―

5.0

―

10000

0.8

4700

5.0

―

10000

20.0

3600

0.6

250

―

250

1000

500

―

EEUFS1A272L( )

EEUFS1A362( )

100

200

EEUFS1A512L

EEUFS1A562L

EEUFS1A562S( )

EEUFS1A752L

EEUFS1A822( )

EEUFS1A472( )

EEUFS1A202( )

EEUFS1A222( )

EEUFS1A182( )

0.6

0.8

5.0

7.5

0.8

3.5

2.5

5.0

11.0

15.0

12.5

20.0

0.6

0.300

1790

0.028

1790

0.030

0.028

280

455

0.5

0.6

2180

0.020

20.0

30.0

20.0

35.0

7.5

―

0.8

0.6

5.0

280

8.0

1560

8.0

1560

EEUFS1A331( )

EEUFS1A821( )

20.0

25.0

11.0

11.2

11.5

25.0

30.0

35.0

20.0

16.0

20.0

10.0

1790

0.028

8.0

1240

10.0

1290

0.030

0.018

0.015

12.5

2600

20.0

10.0

2470

0.018

10.0

2180

0.020

25.0

0.013

12.5

3630

0.013

12.5

3190

0.015

12.5

3190

0.014

12.5

3750

16.0

3300

0.012

0.017

35.0

12.5

3750

16.0

3300

0.012

0.017

0.014

100

―

7.5

0.013

12.5

3630

12.5

3190

0.018

0.015

―

10000

25.0

12.5

2600

0.018

0.020

20.0

16.0

20.0

25.0

―

5.0

7.5

12.5

3750

12.5

3630

16.0

3300

25.0

0.8

7.5

0.013

0.017

0.012

0.014

5.0

2200

2700

2000

5100

7500

8200

16.0

3820

10.0

2470

10.0

2180

10.0

2180

8.0

1560

10.0

16.0

3820

16.0

3820

12.5

3630

10.0

1500

2000

7500

8200

1200

1800

5600

6.3

2200

2700

9100

10000

180

330

5100

5600

6200

6800

3300

3900

4700

220

1800

Aluminum Electrolytic Capacitors (Radial Lead Type)

*1: Ripple current (100 kHz / +105 ℃)

*2: Impedance (100 kHz　/ +20 ℃)

・ When requesting taped product, please put the letter "B" or "H" be tween the "( )".

Lead wire pitch　✽B=5 mm, 7.5 mm, H=2.5 mm.

・ Please refer to the page of “Taping dimensions”.

FS series

Characteristics list

Rated

voltage

(V)

Capacitance

(±20 %)

(μF)

Case size

(ｍｍ) Specification Lead length (mm)

Part No.

Min. Packaging

Q'ty（PCS)

φD

6000

0.6

0.5

Straight

leads Taping

Straight Taping

✽B

Taping

✽H

Ripple

current*1

(mA rms)

Impe-

dance*2

(Ω)

Endu-

rance

(h)

Lead

dia.

(φd)

Lead space

3.5

5.0

―

EEUFS1C511( )

200

1000

EEUFS1C121( )

200

2000

5.0

8.0

1240

3.5

5.0

―

EEUFS1C821L( )

200

1000

15.0

8000

0.6

8000

0.6

500

9000

0.6

3.5

5.0

―

EEUFS1C821( )

200

6000

0.6

5.0

―

EEUFS1C122( )

200

500

―

EEUFS1C122L( )

200

1000

EEUFS1C222L( )

200

500

10000

0.6

500

10000

0.6

5.0

―

EEUFS1C182( )

200

10000

0.6

EEUFS1C332( )

200

500

10000

0.8

500

10000

0.6

5.0

―

EEUFS1C242( )

200

EEUFS1C392L

100

―

10000

0.8

―

10000

0.8

5.0

―

5.0

―

EEUFS1C362L

100

EEUFS1C512L

100

―

10000

0.8

250

10000

0.8

5.0

―

7.5

―

EEUFS1C472S( )

100

10000

0.6

250

10000

0.6

5.0

7.5

―

EEUFS1C622( )

100

5.0

―

EEUFS1E222( )

200

500

―

EEUFS1E122( )

200

500

8000

0.6

―

10000

0.8

7.5

―

5.0

―

EEUFS1E332L

100

10000

0.8

3.5

5.0

―

EEUFS1V331L( )

200

1000

EEUFS1E392( )

100

250

EEUFS1V102L( )

200

500

10000

0.6

500

10000

0.6

5.0

―

EEUFS1V821( )

200

10000

0.6

EEUFS1V182S( )

100

250

10000

0.8

200

500

10000

0.8

7.5

5.0

―

EEUFS1V152( )

EEUFS1H270( )

200

2000

8000

0.6

100

250

5000

0.5

2.0

7.5

―

EEUFS1V272( )

10000

0.6

1000

9000

0.6

3.5

5.0

3.5

5.0

―

EEUFS1H151L( )

200

5.0

―

EEUFS1H331( )

200

500

―

EEUFS1H221L( )

200

1000

EEUFS1H681( )

200

500

10000

0.8

500

10000

0.6

5.0

―

EEUFS1H391L( )

200

10000

0.6

EEUFS1H102L

100

―

10000

0.8

―

10000

0.8

5.0

―

5.0

―

EEUFS1H821L

100

EEUFS1J270( )

200

2000

8000

0.6

250

5000

0.5

2.0

5.0

7.5

―

EEUFS1H122( )

100

1000

EEUFS1J121( )

200

500

9000

0.6

1000

6000

0.6

5.0

―

3.5

5.0

―

EEUFS1J121L( )

200

8.0

950

500

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

28-Feb-20

5.0

280

5.0

―

EEUFS1J181( )

200

16.0

8000

0.6

10.0

1073

3.5

5.0

―

EEUFS1J181L( )

200

10.0

2470

2200

10.0

1790

8.0

1560

10.0

1290

1800

20.0

10.0

2180

12.5

3300

12.5

3630

12.5

3630

12.5

3190

0.015

12.5

2600

0.013

0.017

20.0

2180

0.015

0.012

0.014

16.0

3820

12.5

3750

35.0

0.012

0.014

0.020

35.0

25.0

20.0

25.0

3820

12.5

3750

820

20.0

10.0

2180

25.0

3190

25.0

11.0

3190

10.0

2470

1000

8.0

1240

10000

0.6

761

8.0

741

5.0

175

8.0

930

10000

0.8

16.0

2153

10000

0.8

1995

12.5

1582

10000

0.6

35.0

20.0

25.0

20.0

12.5

500

250

―

250

200

10000

0.8

10000

0.6

200

100

EEUFS1J331L( )

EEUFS1J391( )

EEUFS1J561( )

EEUFS1J681S( )

EEUFS1J821L

EEUFS1J102( )

―

5.0

7.5

―

7.5

2.5

―

2.5

―

5.0

2.5

7.5

―

5.0

―

7.5

0.300

0.056

0.041

0.043

0.030

0.028

0.020

0.018

2.0

5.0

7.5

5.0

5000

0.050

0.033

0.023

0.022

0.018

0.041

0.020

0.024

11.0

11.5

20.0

16.0

25.0

20.0

25.0

30.0

0.045

0.033

0.027

0.029

0.021

0.016

0.014

0.016

0.510

2988

2780

1500

3320

10.0

25.0

120

510

25.0

11.0

15.0

12.5

20.0

25.0

15.0

20.0

25.0

30.0

35.0

15.0

25.0

20.0

16.0

12.5

10.0

16.0

0.068

0.063

0.340

0.045

0.018

0.015

0.017

0.014

3270

3160

2660

1890

1430

1140

250

2150

3820

3300

12.5

8.0

12.5

3300

3900

330

1200

820

390

150

220

12.5

10.0

8.0

5.0

16.0

10.0

16.0

10.0

180

680

820

1000

330

390

560

330

680

820

1000

1200

1500

1800

2700

6200

1200

2200

120

2400

3300

3600

3900

4700

5100

Aluminum Electrolytic Capacitors (Radial Lead Type)

*1: Ripple current (100 kHz / +105 ℃)

*2: Impedance (100 kHz　/ +20 ℃)

・ When requesting taped product, please put the letter "B" be tween the "( )".

Lead wire pitch　✽B=5 mm, 7.5 mm.

・ Please refer to the page of “Taping dimensions”.

FS series

Characteristics list

Rated

voltage

(V)

Capacitance

(±20 %)

(μF)

Case size

(ｍｍ) Specification Min. Packaging

Q'ty（PCS)

φD Straight

leads Taping

Straight Taping

✽B

Lead length (mm)

Ripple

current*1

(mA rms)

Impe-

dance*2

(Ω)

Endu-

rance

(h)

Lead

dia.

(φd)

Lead space

200

1000

200

1000

Part No.

5.0

EEUFS1K470( )

EEUFS1K560( )

11.5

6000

0.6

200

1000

100

20.0

9000

0.6

1000

8000

0.6

3.5

5.0

3.5

5.0

200

15.0

8000

0.6

8.0

590

200

500

12.5

6000

0.6

3.5

5.0

200

1000

8000

0.6

5.0

3.5

5.0

200

120

20.0

9000

0.6

8.0

810

200

500

EEUFS1K151( )

EEUFS1K181( )

180

20.0

10000

0.6

500

10000

0.6

5.0

200

500

10000

0.6

EEUFS1K221( )

10000

0.6

5.0

500

10000

0.6

5.0

200

500

10000

0.6

―

10000

0.8

7.5

5.0

―

100

200

500

10000

0.8

100

―

10000

0.8

7.5

5.0

―

7.5

100

250

10000

0.8

EEUFS1K561L( )

EEUFS1K471S( )

200

1000

200

1000

6000

0.6

3.5

5.0

7.5

100

250

6000

0.6

EEUFS1K681( )

EEUFS2A270( )

EEUFS2A330( )

1000

8000

0.6

3.5

5.0

3.5

5.0

200

15.0

8000

0.6

8.0

590

EEUFS2A390( )

500

9000

0.6

3.5

5.0

200

1000

6000

0.6

1000

8000

0.6

5.0

3.5

5.0

200

1000

9000

0.6

200

500

10000

0.6

5.0

200

500

10000

0.6

200

500

10000

0.6

5.0

200

500

10000

0.6

200

500

10000

0.6

5.0

200

500

10000

0.6

100

―

10000

0.8

7.5

5.0

―

5.0

200

500

10000

0.8

EEUFS2A271L( )

8.0

590

8.0

490

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

28-Feb-20

8.0

490

7.5

100

250

100

―

25.0

10000

0.8

7.5

100

250

10000

1120

10.0

1120

10.0

930

0.072

10.0

600

8.0

810

0.054

2200

12.5

1800

390

12.5

1400

10.0

1200

10.0

1200

30.0

20.0

25.0

490

8.0

490

16.0

2500

12.5

2380

16.0

1450

20.0

8.0

810

0.096

10.0

600

8.0

590

0.112

12.5

15.0

20.0

220

12.5

1800

12.5

1400

10.0

1200

10.0

1200

16.0

2500

12.5

2380

16.0

1450

12.5

2200

12.5

1800

10.0

1120

10.0

930

16.0

8.0

EEUFS2A151( )

EEUFS2A181( )

EEUFS2A221( )

EEUFS2A121L( )

EEUFS2A151L( )

0.044

0.043

20.0

25.0

20.0

25.0

810

20.0

0.034

―

3.5

5.0

0.160

0.112

0.096

0.112

0.096

0.112

3.5

5.0

3.5

5.0

0.096

0.072

0.054

5.0

6000

0.023

0.025

0.160

150

35.0

25.0

11.5

15.0

16.0

20.0

25.0

8.0

12.5

10.0

0.044

0.043

EEUFS1K820( )

EEUFS1K101L( )

EEUFS1K101( )

EEUFS1K121L( )

330

390

180

560

680

30.0

20.0

35.0

25.0

0.034

0.030

0.032

0.023

0.025

270

0.030

0.032

W 100

W 80

EEUFS2A271S( )

EEUFS2A331L( )

EEUFS2A391( )

220

270

470

120

150

EEUFS2A470L( )

EEUFS2A470( )

EEUFS2A560L( )

EEUFS2A680L( )

EEUFS2A680( )

EEUFS2A121( )

EEUFS1K221L( )

EEUFS1K271L( )

EEUFS1K271( )

EEUFS1K391( )

EEUFS1K471L( )

EEUFS1K680( )

ٹ,I

RXZDQWWRXVHRXU

URGXFWVGHVFULEHGLQWKLVRQOLQHFDWDOR

IRUD

OLFDWLRQVUH

XLULQ



V

HFLDO

XDOLWLHVRUUHOLDELOLW

\

RUIRUD

OLFDWLRQVZKHUHWKHIDLOXUHRUPDOIXQFWLRQRIWKH



URGXFWVPD

GLUHFWO



DUGL]HKXPDQOLIHRU

RWHQWLDOO

FDXVH

HUVRQDOLQ





H

DLUFUDIWDQGDHURV

DFHH

PHQW



WUDIILFDQGWUDQV

RUWDWLRQH

PHQW



FRPEXVWLRQ

H

PHQW



PHGLFDOH

PHQW



DFFLGHQW

UHYHQWLRQ



DQWLFULPHH

PHQW



DQGRUVDIHW



H

PHQW



LWLVQHFHVVDU

WRYHULI

ZKHWKHUWKHV

HFLILFDWLRQVRIRXU

URGXFWVILWWRVXFK

D

OLFDWLRQV3OHDVHHQVXUHWKDW

RXZLOODVNDQGFKHFNZLWKRXULQ

XLU

GHVNDVWRZKHWKHU

WKHV

HFLILFDWLRQVRIRXU

URGXFWVILWWRVXFKD

OLFDWLRQVXVHEHIRUH

RXXVHRXU

URGXFWV

ٹ7KH

XDOLW

DQG

HUIRUPDQFHRIRXU

URGXFWVDVGHVFULEHGLQWKLVRQOLQHFDWDOR

RQO

D



WRRXU

URGXFWVZKHQXVHGLQLVRODWLRQ7KHUHIRUH





OHDVHHQVXUH

RXHYDOXDWHDQGYHULI



RXU

URGXFWVXQGHUWKHV

HFLILFFLUFXPVWDQFHVLQZKLFKRXU

URGXFWVDUHDVVHPEOHGLQ

RXU

RZQ

URGXFWVDQGLQZKLFKRXU

URGXFWVZLOODFWXDOO

EHXVHG

ٹ,I

RXXVHRXU

URGXFWVLQH

PHQWWKDWUH

XLUHVDKL

KGH

UHHRIUHOLDELOLW

\

UH

DUGOHVV

RIWKHD

OLFDWLRQ



LWLVUHFRPPHQGHGWKDW

RXVHWX



URWHFWLRQFLUFXLWVDQGUHGXQGDQF



FLUFXLWVLQRUGHUWRHQVXUHVDIHW

RI

RXUH

PHQW

ٹ7KH

URGXFWVDQG

URGXFWV

HFLILFDWLRQVGHVFULEHGLQWKLVRQOLQHFDWDOR

DUHVXE

HFWWR

FKDQ

HIRULP

URYHPHQWZLWKRXW

ULRUQRWLFH7KHUHIRUH





OHDVHEHVXUHWRUH

XHVWDQG

FRQILUPWKHODWHVW

URGXFWV

HFLILFDWLRQVZKLFKH[

ODLQWKHV

HFLILFDWLRQVRIRXU

URGXFWVLQ

GHWDLO



EHIRUH

RXILQDOL]HWKHGHVL

QRI

RXUD

OLFDWLRQV





XUFKDVH



RUXVHRXU

URGXFWV

ٹ7KHWHFKQLFDOLQIRUPDWLRQLQWKLVRQOLQHFDWDOR



URYLGHVH[DP

OHVRIRXU

URGXFWV

W

LFDOR

HUDWLRQVDQGD

OLFDWLRQFLUFXLWV:HGRQRW

XDUDQWHHWKHQRQLQIULQ

HPHQWRI

WKLUG

DUW

VLQWHOOHFWXDO

HUW

UL

KWVDQGZHGRQRW

UDQWDQ

OLFHQVH



UL



RULQWHUHVW

LQRXULQWHOOHFWXDO

HUW



ٹ,IDQ

RIRXU

URGXFWV





URGXFWV

HFLILFDWLRQVDQGRUWHFKQLFDOLQIRUPDWLRQLQWKLVRQOLQH

FDWDOR

LVWREHH[

RUWHGRU

URYLGHGWRQRQUHVLGHQWV



WKHODZVDQGUH

XODWLRQVRIWKH

H[

RUWLQ

FRXQWU

\

HV

HFLDOO

ZLWKUH

DUGWRVHFXULW

DQGH[

RUWFRQWURO



VKDOOEHREVHUYHG

ٹ7KHVZLWFKRYHUGDWHIRUFRP

OLDQFHZLWKWKH5R+6'LUHFWLYH5($&+5H

XODWLRQVYDULHV

GH

HQGLQ

RQWKH

DUWQXPEHURUVHULHVRIRXU

URGXFWV

ٹ:KHQ

RXXVHWKHLQYHQWRU

RIRXU

URGXFWVIRUZKLFKLWLVXQFOHDUZKHWKHUWKRVH

URGXFWV

DUHFRP

OLDQWZLWKWKH5R+6'LUHFWLYH5($&+5H

XODWLRQ





OHDVHVHOHFW6DOHV,Q

XLU

LQWKH

ZHEVLWHLQ

XLU

IRUPDQGFRQWDFWXV

:HGRQRWWDNHDQ

UHV

RQVLELOLW

IRUWKHXVHRIRXU

URGXFWVRXWVLGHWKHVFR

HRIWKH

HFLILFDWLRQV



GHVFUL

WLRQV





XLGHOLQHVDQG

UHFDXWLRQVGHVFULEHGLQWKLVRQOLQHFDWDOR



2FW

*XLGHOLQHVDQGSUHFDXWLRQVUHJDUGLQJWKH

WHFKQLFDOLQIRUPDWLRQDQGXVHRIRXUSURGXFWV

GHVFULEHGLQWKLVRQOLQHFDWDORJ

5HJDUGLQJWKH&HUWLILFDWHRI&RPSOLDQFHZLWK

WKH(85R+6'LUHFWLYH5($&+5HJXODWLRQV!

1RWLFHV,WHPVWREHREVHUYHG

ٹ$

OLFDEOHODZVDQGUH

XODWLRQV

嵣7KLV

URGXFWFRP

OLHVZLWKWKH5R+6'LUHFWLYH



5HVWULFWLRQRIWKHXVHRIFHUWDLQKD]DUGRXVVXEVWDQFHVLQ

HOHFWULFDODQGHOHFWURQLFH

PHQW



',5(&7,9((8DQGق(8









嵣1R2]RQH'H

OHWLQ

&KHPLFDOV



2'&V



FRQWUROOHGXQGHUWKH0RQWUHDO3URWRFRO$

UHHPHQWDUHXVHGLQ



URGXFLQ

WKLV

URGXFW

岜:HGRQRWXVH3%%VRU3%'(VDVEURPLQDWHGIODPHUHWDUGDQWV

嵣([

RUW

URFHGXUHZKLFKIROORZHGH[

RUWUHODWHGUH

XODWLRQVVXFKDVIRUHL

QH[FKDQ

HDQGDIRUHL

QWUDGH

PHWKRGRQWKHRFFDVLRQRIH[

RUWRIWKLV

URGXFW

嵣7KHVH

URGXFWVDUHQRWGDQ

HURXV

RRGVRQWKHWUDQV

RUWDWLRQDVLGHQWLILHGE

81



8QLWHG1DWLRQV



QXPEHUV

RU81FODVVLILFDWLRQ

ٹ/LPLWHGD

OLFDWLRQV

嵣7KLVFD

DFLWRULVGHVL

QHGWREHXVHGIRUHOHFWURQLFVFLUFXLWVVXFKDVDXGLRYLVXDOH

PHQWKRPH

D

OLDQFHVFRP

XWHUVDQGRWKHURIILFHH

PHQWR

WLFDOH

PHQWPHDVXULQ

H

PHQW

嵣+L

KUHOLDELOLW

DQGVDIHW

DUHUH

XLUHG

EHD

RVVLELOLW

WKDWLQFRUUHFWR

HUDWLRQRIWKLV

URGXFWPD

GRKDUP

岜WRDKXPDQOLIHRU

HUW



PRUH:KHQXVHLVFRQVLGHUHGE

WKHXVHWKHGHOLYHU

V

HFLILFDWLRQVZKLFKVXLWHG

WKHXVHVH

DUDWHO

QHHGWREHH[FKDQ

HG

ٹ,QWHOOHFWXDO

HUW

UL

KWVDQGOLFHQVHV

嵣7KHWHFKQLFDOLQIRUPDWLRQLQWKLVV

HFLILFDWLRQ

URYLGHVH[DP

OHVRIRXU

URGXFWVW

LFDOR

HUDWLRQVDQGD

OLFDWLRQ

FLUFXLWV:HGRQRW

XDUDQWHHWKHQRQLQIULQ

HPHQWRIWKLUG

DUW

VLQWHOOHFWXDO

HUW

UL

KWVDQGZHGRQRW

UDQW

DQ

OLFHQVHUL

KWRULQWHUHVWLQRXULQWHOOHFWXDO

HUW



ٹ)RUV

HFLILFDWLRQ

嵣7KLVV

HFLILFDWLRQ

XDUDQWHHVWKH

XDOLW

DQG

HUIRUPDQFHRIWKH

URGXFWDVLQGLYLGXDOFRP

RQHQWV

7KHGXUDELOLW

GLIIHUVGH

HQGLQ

RQWKHHQYLURQPHQWDQGWKHFRQGLWLRQVRIXVD

H

%HIRUHXVHFKHFNDQGHYDOXDWHWKHLUFRP

DWLELOLW

ZLWKDFWXDOFRQGLWLRQVZKHQLQVWDOOHGLQWKH

URGXFWV

:KHQVDIHW

UH

XLUHPHQWVFDQQRWEHVDWLVILHGLQ

RXUWHFKQLFDOH[DPLQDWLRQLQIRUPXVLPPHGLDWHO



嵣'RQRWXVHWKH

URGXFWVEH

RQGWKHV

HFLILFDWLRQVGHVFULEHGLQWKLVGRFXPHQW

ٹ8

RQD

OLFDWLRQWR

URGXFWVZKHUHVDIHW

LVUH

DUGHGDVLP

RUWDQW

,QVWDOOWKHIROORZLQ

V

VWHPVIRUDIDLOVDIHGHVL

QWRHQVXUHVDIHW

LIWKHVH

URGXFWVDUHWREHXVHGLQ

PHQWZKHUHDGHIHFWLQWKHVH

URGXFWVPD

FDXVHWKHORVVRIKXPDQOLIHRURWKHUVL

QLILFDWLRQGDPD

H

VXFKDVGDPD

HWRYHKLFOHV



DXWRPRELOHWUDLQYHVVHO



WUDIILFOL

KWVPHGLFDOH

PHQWDHURV

DFHH

PHQW

HOHFWULFKHDWLQ

D

OLDQFHVFRPEXVWLRQ

DVH

PHQWURWDWLQ

URWDWLQ

H

PHQWDQGGLVDVWHUFULPH

UHYHQWLRQH

PHQW







7KHV

VWHPLVH

HGZLWKD

URWHFWLRQFLUFXLWDQG

URWHFWLRQGHYLFH







7KHV

VWHPLVH

HGZLWKDUHGXQGDQWFLUFXLWRURWKHUV

VWHPWR

UHYHQWDQXQVDIHVWDWXVLQWKHHYHQW

RIDVLQ

OHIDXOW

ٹ&RQGLWLRQVRIXVH

嵣%HIRUHXVLQ

WKH

URGXFWVFDUHIXOO

FKHFNWKHHIIHFWVRQWKHLU

XDOLW

DQG

HUIRUPDQFHDQGGHWHUPLQHG

岜ZKHWKHURUQRWWKH

FDQEHXVHG7KHVH

URGXFWVDUHGHVL

QHGDQGPDQXIDFWXUHGIRU

HQHUDO

RVHDQG

岜VWDQGDUGXVHLQ

HQHUDOHOHFWURQLFH

PHQW7KHVH

URGXFWVDUHQRWLQWHQGHGIRUXVHLQWKHIROORZLQ

V

HFLDO

岜FRQGLWLRQV







,QOL

XLGVXFKDV:DWHU2LO&KHPLFDOVRU2U

DQLFVROYHQW







,QGLUHFWVXQOL

KWRXWGRRUVRULQGXVW







,QYD

RUVXFKDVGHZFRQGHQVDWLRQZDWHURIUHVLVWLYHHOHPHQWRUZDWHUOHDND

HVDOW

DLURUDLUZLWKD

KL

KFRQFHQWUDWLRQFRUURVLYH

DVVXFKDV&O+61+62RU12[







,QDQHQYLURQPHQWZKHUHVWURQ

VWDWLFHOHFWULFLW

RUHOHFWURPD

QHWLFZDYHVH[LVW







0RXQWLQ

RU

ODFLQ

KHDW

HQHUDWLQ

FRP

RQHQWVRULQIODPPDEOHVVXFKDVYLQ

OFRDWHGZLUHVQHDU

WKHVH

URGXFWV







6HDOLQ

RUFRDWLQ

RIWKHVH

URGXFWVRUD

ULQWHGFLUFXLWERDUGRQZKLFKWKHVH

URGXFWVDUHPRXQWHG

ZLWKUHVLQDQGRWKHUPDWHULDO







8VLQ

UHVROYHQWZDWHURUZDWHUVROXEOHFOHDQHUIRUIOX[FOHDQLQ

D

HQWDIWHUVROGHULQ





,Q

DUWLFXODU

ZKHQXVLQ

ZDWHURUDZDWHUVROXEOHFOHDQLQ

D

HQWEHFDUHIXOQRWWROHDYHZDWHUUHVLGXHV









8VLQ

LQWKHDWPRV

KHUHZKHUHVWUD

VDFLGRUDONDOLQH







8VLQ

LQWKHDWPRV

KHUHZKHUHWKHUHDUHH[FHVVLYHYLEUDWLRQDQGVKRFN

嵣3OHDVHDUUDQ

HFLUFXLWGHVL

QIRU

UHYHQWLQ

LP

XOVHRUWUDQVLWLRQDOYROWD

H

岜'RQRWD

YROWD

HZKLFKH[FHHGVWKHIXOOUDWHGYROWD

HZKHQWKHFD

DFLWRUVUHFHLYHLP

XOVHYROWD

H

岜LQVWDQWDQHRXVKL

KYROWD

HKL

K

XOVHYROWD

HHWF

嵣2XU

URGXFWVWKHUHLVD

URGXFWDUHXVLQ

DQHOHFWURO

WHVROXWLRQ7KHUHIRUHPLVXVHFDQUHVXOWLQUD

岜GHWHULRUDWLRQRIFKDUDFWHULVWLFVDQGIXQFWLRQVRIHDFK

URGXFW(OHFWURO

WHOHDND

HGDPD

HV

ULQWHGFLUFXLWDQG

DIIHFWV

HUIRUPDQFHFKDUDFWHULVWLFVDQGIXQFWLRQVRIFXVWRPHUV

VWHP

1RWLFHV

,WHPVWREHREVHUYHG

2FW

$OXPLQXP(OHFWURO\WLF&DSDFLWRUV5DGLDOOHDG7\SH

&LUFXLWGHVL

2SHUDWLQJWHPSHUDWXUHDQGIUHTXHQF\

(OHFWULFDOFKDUDFWHULVWLFVRIWKHFDSDFLWRUDUHOLNHO\WRFKDQJHGXHWRYDULDWLRQLQWHPSHUDWXUHDQGRUIUHTXHQF\

&LUFXLWGHVLJQHUVVKRXOGWDNHWKHVHFKDQJHVLQWRFRQVLGHUDWLRQ

(IIHFWVRIRSHUDWLQJWHPSHUDWXUHRQHOHFWULFDOSDUDPHWHUV

$WKLJKHUWHPSHUDWXUHV OHDNDJHFXUUHQWDQGFDSDFLWDQFHLQFUHDVHZKLOHHTXLYDOHQWVHULHVUHVLVWDQFH

(65GHFUHDVHV

$WORZHUWHPSHUDWXUHV OHDNDJHFXUUHQWDQGFDSDFLWDQFHGHFUHDVHZKLOHHTXLYDOHQWVHULHVUHVLVWDQFH

(65LQFUHDVHV

(IIHFWVRIIUHTXHQF\RQHOHFWULFDOSDUDPHWHUV

$WKLJKHUIUHTXHQFLHV FDSDFLWDQFHDQGLPSHGDQFHGHFUHDVHZKLOHWDQGLQFUHDVHV

$WORZHUIUHTXHQFLHV KHDWJHQHUDWHGE\ULSSOHFXUUHQWZLOOULVHGXHWRDQLQFUHDVHLQHTXLYDOHQW

VHULHVUHVLVWDQFH(65

2SHUDWLQJWHPSHUDWXUHDQGOLIHH[SHFWDQF\

([SHFWHGOLIHLVDIIHFWHGE\RSHUDWLQJWHPSHUDWXUH*HQHUDOO\HDFK&UHGXFWLRQLQWHPSHUDWXUHZLOO

GRXEOHWKHH[SHFWHGOLIH8VHFDSDFLWRUVDWWKHORZHVWSRVVLEOHWHPSHUDWXUHEHORZWKHXSSHUFDWHJRU\

WHPSHUDWXUH

,IRSHUDWLQJWHPSHUDWXUHVH[FHHGWKHXSSHUFDWHJRU\OLPLWUDSLGGHWHULRUDWLRQRIHOHFWULFDOSDUDPHWHU

ZLOORFFXUDQGLUUHYHUVLEOHGDPDJHZLOOUHVXOW

&KHFNIRUWKHPD[LPXPFDSDFLWRURSHUDWLQJWHPSHUDWXUHVLQFOXGLQJDPELHQWWHPSHUDWXUHLQWHUQDO

FDSDFLWRUWHPSHUDWXUHULVHGXHWRULSSOHFXUUHQWDQGWKHHIIHFWVRIUDGLDWHGKHDWIURPSRZHUWUDQVLVWRUV

,&VRUUHVLVWRUV

$YRLGSODFLQJFRPSRQHQWVZKLFKFRXOGFRQGXFWKHDWWRWKHFDSDFLWRUIURPWKHEDFNVLGHRIWKHFLUFXLWERDUG

7KHIRUPXODIRUFDOFXODWLQJH[SHFWHGOLIHDWORZHURSHUDWLQJWHPSHUDWXUHVLVDVIROORZV

/ /¼

/؟*XDUDQWHHGOLIHKDWWHPSHUDWXUH7&

/؟([SHFWHGOLIHKDWWHPSHUDWXUH7&

7؟8SSHUFDWHJRU\WHPSHUDWXUHWHPSHUDWXUHULVHGXHWRUDWHGULSSOHFXUUHQW&

7؟$FWXDORSHUDWLQJWHPSHUDWXUHDPELHQWWHPSHUDWXUHWHPSHUDWXUHULVHGXHWRULSSOHFXUUHQW&

8VLQJWKHFDSDFLWRUEH\RQGWKHHVWLPDWHGOLIHWLPHZLOOUHVXOWLQVKRUWFLUFXLWHOHFWURO\WHOHDNYHQWRSHQ

DQGODUJHGHWHULRUDWLRQRIFKDUDFWHULVWLFV7KHOLIHWLPHFDQQRWJRDERYH\HDUVGXHWRDJLQJRIVHDOLQJUXEEHU

&RPPRQDSSOLFDWLRQFRQGLWLRQVWRDYRLG

7KHIROORZLQJPLVDSSOLFDWLRQORDGFRQGLWLRQVZLOOFDXVHUDSLGGHWHULRUDWLRQRIDFDSDFLWRUbVHOHFWULFDOSDUDPHWHUV

,QDGGLWLRQUDSLGKHDWLQJDQGJDVJHQHUDWLRQZLWKLQWKHFDSDFLWRUFDQRFFXUFDXVLQJWKHSUHVVXUHUHOLHIYHQW

WRRSHUDWHDQGUHVXOWDQWOHDNDJHRIHOHFWURO\WH8QGHUH[WUHPHFRQGLWLRQVH[SORVLRQDQGILUHLJQLWLRQFRXOGUHVXOW

7KHOHDNHGHOHFWURO\WHLVFRPEXVWLEOHDQGHOHFWULFDOO\FRQGXFWLYH

5HYHUVHYROWDJH

'&FDSDFLWRUVKDYHSRODULW\7KHUHIRUHSOHDVHGRQRWDSSO\WKHUHYHUVHYROWDJH9HULI\FRUUHFWSRODULW\

EHIRUHLQVHUWLRQ

)RUFLUFXLWVZLWKFKDQJLQJRUXQFHUWDLQSRODULW\XVH'&ELSRODUFDSDFLWRUV'&ELSRODUFDSDFLWRUVDUHQRW

VXLWDEOHIRUXVHLQ$&FLUFXLWV

&KDUJH'LVFKDUJHDSSOLFDWLRQV

6WDQGDUGFDSDFLWRUVDUHQRWVXLWDEOHIRUXVHLQUHSHDWLQJFKDUJHGLVFKDUJHDSSOLFDWLRQV)RUFKDUJH

GLVFKDUJHDSSOLFDWLRQVFRQVXOWXVZLWK\RXUDFWXDODSSOLFDWLRQFRQGLWLRQ

)RUUXVKFXUUHQWSOHDVHWRQRUH[FHHG$

212))FLUFXLW

'RQRWXVHFDSDFLWRUVLQFLUFXLWZKHUH212))VZLWFKLQJLVUHSHDWHGPRUHWKDQWLPHVSHUGD\

,QFDVHRIDSSO\LQJWRWKHWKHVHV212))FLUFXLWFRQVXOWZLWKXVDERXWFLUFXLWFRQGLWLRQDQGVRRQ

2FW

岜岜$SSOLFDWLRQJXLGHOLQHVق5DGLDOOHDG7\SHك

77



岜

$OXPLQXP(OHFWURO\WLF&DSDFLWRUV5DGLDOOHDG7\SH

2YHUYROWDJH

'RQRWDSSO\YROWDJHVH[FHHGLQJWKHPD[LPXPVSHFLILHGUDWHGYROWDJH9ROWDJHVXSWRWKHVXUJHYROWDJH

UDWLQJDUHDFFHSWDEOHIRUVKRUWSHULRGVRIWLPH

(QVXUHWKDWWKHVXPRIWKH'&YROWDJHDQGWKHVXSHULPSRVHG$&ULSSOHYROWDJHGRHVQRWH[FHHGWKH

UDWHGYROWDJH

5LSSOHFXUUHQW

'RQRWDSSO\ULSSOHFXUUHQWVH[FHHGLQJWKHPD[LPXPVSHFLILHGYDOXH)RUKLJKULSSOHFXUUHQWDSSOLFDWLRQV

XVHDFDSDFLWRUGHVLJQHGIRUKLJKULSSOHFXUUHQWV,QDGGLWLRQFRQVXOWXVLIWKHDSSOLHGULSSOHFXUUHQWLVWR

EHKLJKHUWKDQWKHPD[LPXPVSHFLILHGYDOXH(QVXUHWKDWUDWHGULSSOHFXUUHQWVWKDWVXSHULPSRVHGRQORZ

'&ELDVYROWDJHVGRQRWFDXVHUHYHUVHYROWDJHFRQGLWLRQV

(YHQLILWLVZLWKLQDUDWHGULSSOHFXUUHQWLQFDVHWKHSUDFWLFDOXVHLVRYHUWKHSUHGHVFULEHGHQGXUDQFH

OLIHWLPHLWFDXVHVWKHLQFUHDVHRIGHWHULRUDWLRQRI(65FKDUDFWHULVWLFDQGWKHLQWHUQDOJHQHUDWLRQKHDWE\

ULSSOHFXUUHQW'XHWRWKLVWKHUHLVVRPHSRVVLELOLW\RIYHQWRSHQEXOJLQJRIVOHHYHDQGUXEEHUHOHFWURO\WH

OHDNDJHDQGVKRWFLUFXLWH[SORVLRQDQGLJQLWLRQLQWKHZRUVWFDVH

8VLQ

WZRRUPRUHFD

DFLWRUVLQ

DUDOOHO

&DSDFLWRUVFRQQHFWHGLQSDUDOOHO

7KHFLUFXLWUHVLVWDQFHFDQFORVHO\DSSUR[LPDWHWKHVHULHVUHVLVWDQFHRIWKHFDSDFLWRUFDXVLQJDQLPEDODQFHRI

ULSSOHFXUUHQWORDGVZLWKLQWKHFDSDFLWRUV&DUHIXOZLULQJPHWKRGVFDQPLQLPL]HWKHSRVVLEOHDSSOLFDWLRQRIDQ

H[FHVVLYHULSSOHFXUUHQWWRDFDSDFLWRU

&DSDFLWRUVFRQQHFWHGLQVHULHV

'LIIHUHQFHVLQQRUPDO'&OHDNDJHFXUUHQWDPRQJFDSDFLWRUVFDQFDXVHYROWDJHLPEDODQFHV

7KHXVHRIYROWDJHGLYLGHUVKXQWUHVLVWRUVZLWKFRQVLGHUDWLRQWROHDNDJHFXUUHQWVFDQSUHYHQWFDSDFLWRU

YROWDJHLPEDODQFHV

127(3OHDVHGRQRWXVHLQWKHVHULHVLQWKHFDVHRIFRQGXFWLYHSRO\PHUK\EULGDOXPLQXPHOHFWURO\WLFFDSDFLWRU

&DSDFLWRUPRXQWLQJFRQVLGHUDWLRQV

'RXEOHVLGHGFLUFXLWERDUGV

$YRLGZLULQJSDWWHUQUXQVZKLFKSDVVEHWZHHQWKHPRXQWHGFDSDFLWRUDQGWKHFLUFXLWERDUG

:KHQGLSSLQJLQWRDVROGHUEDWKDQH[FHVVVROGHUPD\GHSRVLWXQGHUWKHFDSDFLWRUE\FDSLOODU\DFWLRQ

FDXVLQJVKRUWFLUFXLWEHWZHHQDQRGHDQGFDWKRGHWHUPLQDOV

&LUFXLW%RDUG+ROH3RVLWLRQLQJ

7KHYLQ\OVOHHYHRIWKHFDSDFLWRUFDQEHGDPDJHGLIVROGHUSDVVHVWKURXJKDOHDGKROHLQWRWKHVXEVHTXHQWO\

SURFHVVHGSDUWV

6SHFLDOFDUHZKHQORFDWLQJKROHSRVLWLRQVLQSUR[LPLW\WRFDSDFLWRUVLVUHFRPPHQGHG

&LUFXLW%RDUG+ROH6SDFLQJ

7KHVSDFLQJRIFLUFXLWERDUGKROHVVKRXOGPDWFKWKHOHDGZLUHVSDFLQJRIFDSDFLWRUVZLWKLQWKHVSHFLILHG

WROHUDQFHV,QFRUUHFWVSDFLQJFDQFDXVHDQH[FHVVLYHOHDGZLUHVWUHVVGXULQJWKHLQVHUWLRQSURFHVV

7KLVPD\UHVXOWLQSUHPDWXUHFDSDFLWRUIDLOXUHGXHWRWKHVKRUWRURSHQFLUFXLWLQFUHDVHGOHDNDJHFXUUHQW

RUHOHFWURO\WHOHDNDJH

&OHDUDQFHIRUFDVHPRXQWHGSUHVVXUHUHOLHI

&DSDFLWRUVZLWKFDVHPRXQWHGSUHVVXUHUHOLHIUHTXLUHVXIILFLHQWFOHDUDQFHWRDOORZIRUSURSHUSUHVVXUH

UHOLHIRSHUDWLRQ

7KHPLQLPXPFOHDUDQFHDUHGHSHQGHQWRQFDSDFLWRUGLDPHWHUVDVIROORZV

'LDPPWR'LDPPPPPLQLPXP'LDPPPPPLQLPXP

:LULQJQHDUWKHSUHVVXUHUHOLHI

$YRLGORFDWLQJKLJKYROWDJHRUKLJKFXUUHQWZLULQJRUFLUFXLWERDUGSDWKVDERYHWKHSUHVVXUHUHOLHI

)ODPPDEOHKLJKWHPSHUDWXUHJDVWKDWH[FHHGV&PD\EHUHOHDVHGZKLFKFRXOGGLVVROYHWKHZLUH

LQVXODWLRQDQGLJQLWH

&LUFXLWERDUGSDWWHUQVXQGHUWKHFDSDFLWRU

$YRLGFLUFXLWERDUGUXQVXQGHUWKHFDSDFLWRUDVDQHOHFWULFDOVKRUWFDQRFFXUGXHWRDQHOHFWURO\WHOHDNDJH

3OHDVHQRWHWKHUHVRQDQWDIWHUSURGXFWLPSOHPHQWDWLRQ

7KHYLFLQLW\RIWKHUHVRQDQWSRLQWZLOOWDNHDKHDY\ORDGRQWKHFDSDFLWRU

&DSDFLWRUVFDQFDXVHUDSLGFKDQJHLQFKDUDFWHULVWLFVDQGGURSRXWE\WKLVORDG

(OHFWULFDOLVRODWLRQRIWKHFDSDFLWRU

&RPSOHWHO\LVRODWHWKHFDSDFLWRUDVIROORZV

%HWZHHQWKHFDWKRGHDQGWKHFDVHDQGEHWZHHQWKHDQRGHWHUPLQDODQGRWKHUFLUFXLWSDWKV

2FW

$OXPLQXP(OHFWURO\WLF&DSDFLWRUV5DGLDOOHDG7\SH

&DSDFLWRU6OHHYH

7KHYLQ\OVOHHYHRUODPLQDWHFRDWLQJLVLQWHQGHGIRUPDUNLQJDQGLGHQWLILFDWLRQSXUSRVHVDQGLVQRWPHDQWWR

HOHFWULFDOO\LQVXODWHWKHFDSDFLWRU

7KHVOHHYHPD\VSOLWRUFUDFNLILPPHUVHGLQWRVROYHQWVVXFKDVWROXHQHRU[\OHQHDQGWKHQVXEVHTXHQWO\

H[SRVHGWRKLJKWHPSHUDWXUHV

&D

DFLWRUKDQGOLQ

WHFKQL

XHV

&RQVLGHUDWLRQVEHIRUHXVLQJ

&DSDFLWRUVKDYHDILQLWHOLIH'RQRWUHXVHRUUHF\FOHFDSDFLWRUVIURPXVHGHTXLSPHQW

7UDQVLHQWUHFRYHU\YROWDJHPD\EHJHQHUDWHGLQWKHFDSDFLWRUGXHWRGLHOHFWULFDEVRUSWLRQ

,IUHTXLUHGWKLVYROWDJHFDQEHGLVFKDUJHGZLWKDUHVLVWRUZLWKDYDOXHRIDERXWN

&DSDFLWRUVVWRUHGIRUDORQJSHULRGRIWLPHPD\H[KLELWDQLQFUHDVHLQOHDNDJHFXUUHQW

7KLVFDQEHFRUUHFWHGE\JUDGXDOO\DSSO\LQJUDWHGYROWDJHLQVHULHVZLWKDUHVLVWRURIDSSUR[LPDWHO\N

,IFDSDFLWRUVDUHGURSSHGWKH\FDQEHGDPDJHGPHFKDQLFDOO\RUHOHFWULFDOO\$YRLGXVLQJGURSSHG

FDSDFLWRUV

'HQWHGRUFUXVKHGFDSDFLWRUVVKRXOGQRWEHXVHG

7KHVHDOLQWHJULW\FDQEHGDPDJHGDQGORVVRIHOHFWURO\WHVKRUWHQHGOLIHFDQUHVXOW

&DSDFLWRULQVHUWLRQ

9HULI\WKHFRUUHFWFDSDFLWDQFHDQGUDWHGYROWDJHRIWKHFDSDFLWRU

9HULI\WKHFRUUHFWSRODULW\RIWKHFDSDFLWRUEHIRUHLQVHUWLRQ

9HULI\WKHFRUUHFWWHUPLQDOGLPHQVLRQDQGODQGSDWWHUQVL]HEHIRUHPRXQWWRDYRLGVWUHVVRQWKHWHUPLQDOV

(QVXUHWKDWWKHOHDGFOLQFKLQJRSHUDWLRQGRQHE\DXWRLQVHUWLRQHTXLSPHQWVGRHVQRWVWUHVVWKHFDSDFLWRUOHDGV

ZKHUHWKH\HQWHUWKHVHDORIWKHFDSDFLWRU

)ORZ6ROGHULQJ

'RQRWLPPHUVHWKHFDSDFLWRUERG\LQWRWKHVROGHUEDWKDVH[FHVVLYHLQWHUQDOSUHVVXUHFRXOGUHVXOW

$SSO\SURSHUVROGHULQJFRQGLWLRQVWHPSHUDWXUHWLPHHWF'RQRWH[FHHGWKHVSHFLILHGOLPLWV

'RQRWDOORZRWKHUSDUWVRUFRPSRQHQWVWRWRXFKWKHFDSDFLWRUGXULQJVROGHULQJ

5DGLDOOHDGW\SHFDSDFLWRUVDUHQRWDOORZHGIRUWKHUHIORZVROGHULQJ

0DQXDOVROGHULQJ

$SSO\VROGHULQJFRQGLWLRQVWHPSHUDWXUHDQGWLPHEDVHGRQWKHVSHFLILFDWLRQRUGRQRWH[FHHGWHPSHUDWXUH

RI٦IRUVHFRQGVRUOHVV

,IOHDGZLUHVPXVWEHPRGLILHGWRPHHWWHUPLQDOERDUGKROHVSDFLQJDYRLGVWUHVVRQWKHOHDGZLUHZKHUHLW

HQWHUVWKHFDSDFLWRUVHDO

,IDVROGHUHGFDSDFLWRUPXVWEHUHPRYHGDQGUHLQVHUWHGDYRLGH[FHVVLYHVWUHVVRQWKHFDSDFLWRUOHDGV

$YRLGSK\VLFDOFRQWDFWVEHWZHHQWKHWLSRIWKHVROGHULQJLURQDQGFDSDFLWRUVWRSUHYHQWPHOWLQJRIWKHYLQ\OVOHHYH

2WKHU6ROGHULQJ&RQVLGHUDWLRQV

5DSLGWHPSHUDWXUHULVHGXULQJWKHSUHKHDWRSHUDWLRQDQGUHVLQERQGLQJRSHUDWLRQFDQFDXVHFUDFNLQJRIWKH

FDSDFLWRUbVYLQ\OVOHHYH

)RUKHDWFXULQJGRQRWH[FHHG&IRUWKHPD[LPXPWLPHRIPLQXWHV

&DSDFLWRUKDQGOLQJDIWHUVROGHULQJ

$YRLGPRYLQJWKHFDSDFLWRUDIWHUVROGHULQJWRSUHYHQWH[FHVVLYHVWUHVVRQWKHOHDGZLUHVZKHUHWKH\HQWHU

WKHVHDO7KHFDSDFLWRUPD\EUHDNIURPHOHPHQWSRUWLRQGXHWRDWRUTXHDWRXWHUULPFDXVLQJDODUJHVWUHVV

WRWHUPLQDOV

'RQRWXVHWKHFDSDFLWRUDVDKDQGOHZKHQPRYLQJWKHFLUFXLWERDUGDVVHPEO\7KHWRWDOZHLJKWRIWKH

ERDUGZRXOGDSSO\WRHOHPHQWSRUWLRQWKURXJKWHUPLQDOVDQGWKHFDSDFLWRUPD\EUHDN

$YRLGVWULNLQJWKHFDSDFLWRUDIWHUDVVHPEO\WRSUHYHQWIDLOXUHGXHWRH[FHVVLYHVKRFN7KHFDSDFLWRUPD\

EUHDNGXHWRH[FHVVLYHVKRFNRUORDGDERYHVSHFLILHGUDQJH

&LUFXLWERDUGFOHDQLQJ

&LUFXLWERDUGVFDQEHLPPHUVHGRUXOWUDVRQLFDOO\FOHDQHGXVLQJVXLWDEOHFOHDQLQJVROYHQWVIRUXSWR

PLQXWHVDQGXSWR&PD[LPXPWHPSHUDWXUHV7KHERDUGVVKRXOGEHWKRURXJKO\ULQVHGDQGGULHG

7KHXVHRIR]RQHGHSOHWLQJFOHDQLQJDJHQWVLVQRWUHFRPPHQGHGIRUWKHSXUSRVHRISURWHFWLQJRXU

HQYLURQPHQW

岧7DUJHWVROYHQW岨

3LQH$OSKD676$TXD&OHDQHU6(3&OHDQWKUX+/06XQHOHF%

6XQHOHF%&ROG&OHDQHU37HFKQR&OHDQHU'.%HFOHDU&:

7HOSHQH&OHDQHU(&57HFKQRFDUH)5:)5:)59

2FW

$OXPLQXP(OHFWURO\WLF&DSDFLWRUV5DGLDOOHDG7\SH

$YRLGXVLQJWKHIROORZLQJVROYHQWJURXSVXQOHVVVSHFLILFDOO\DOORZHGLQWKHVSHFLILFDWLRQ

D+DORJHQDWHGFOHDQLQJVROYHQWV؟H[FHSWIRUVROYHQWUHVLVWDQWFDSDFLWRUW\SHVKDORJHQDWHGVROYHQWVFDQ

SHUPHDWHWKHVHDODQGFDXVHLQWHUQDOFDSDFLWRUFRUURVLRQDQGIDLOXUH

)RUVROYHQWUHVLVWDQWFDSDFLWRUVFDUHIXOO\IROORZWKHWHPSHUDWXUHDQGWLPHUHTXLUHPHQWVEDVHGRQWKH

VSHFLILFDWLRQWULFKORURHWKDQHVKRXOGQHYHUEHXVHGRQDQ\DOXPLQXPHOHFWURO\WLFFDSDFLWRU

E$ONDOLQHVROYHQWV ؟FRXOGUHDFWDQGGLVVROYHWKHDOXPLQXPFDVH

F3HWUROHXPEDVHGVROYHQWV ؟GHWHULRUDWLRQRIWKHUXEEHUVHDOFRXOGUHVXOW

G;\OHQH ؟GHWHULRUDWLRQRIWKHUXEEHUVHDOFRXOGUHVXOW

H$FHWRQH ؟UHPRYDORIWKHLQNPDUNLQJVRQWKHYLQ\OVOHHYHFRXOGUHVXOW

$WKRURXJKGU\LQJDIWHUFOHDQLQJLVUHTXLUHGWRUHPRYHUHVLGXDOFOHDQLQJVROYHQWVWKDWPD\EHWUDSSHG

EHWZHHQWKHFDSDFLWRUDQGWKHFLUFXLWERDUG$YRLGGU\LQJWHPSHUDWXUHVZKLFKH[FHHGWKHXSSHUFDWHJRU\

WHPSHUDWXUHRIWKHFDSDFLWRU

0RQLWRUWKHFRQWDPLQDWLRQOHYHOVRIWKHFOHDQLQJVROYHQWVGXULQJXVHLQWHUPVRIHOHFWULFDOFRQGXFWLYLW\

S+VSHFLILFJUDYLW\RUZDWHUFRQWHQW

&KORULQHOHYHOVFDQULVHZLWKFRQWDPLQDWLRQDQGDGYHUVHO\DIIHFWWKHSHUIRUPDQFHRIWKHFDSDFLWRU

&RQWUROWKHIOX[GHQVLW\LQWKHFOHDQLQJDJHQWWREHOHVVWKDQPDVV

'HSHQGLQJRQWKHFOHDQLQJPHWKRGWKHPDUNLQJRQDFDSDFLWRUPD\EHHUDVHGRUEOXUUHG

پ3OHDVHFRQVXOWXVLI\RXDUHQRWFHUWDLQDERXWDFFHSWDEOHFOHDQLQJVROYHQWVRUFOHDQLQJPHWKRGV

0RXQWLQJDGKHVLYHVDQGFRDWLQJDJHQWV

:KHQXVLQJPRXQWLQJDGKHVLYHVRUFRDWLQJDJHQWVWRFRQWUROKXPLGLW\DYRLGXVLQJPDWHULDOVFRQWDLQLQJ

KDORJHQDWHGVROYHQWV

$OVRDYRLGWKHXVHRIFKORURSUHQHEDVHGSRO\PHUV

+DUGHQRQGU\DGKHVLYHRUFRDWLQJDJHQWVZHOOOHVWWKHVROYHQWVKRXOGEHOHIW

$IWHUDSSO\LQJDGKHVLYHVRUFRDWLQJVGU\WKRURXJKO\WRSUHYHQWUHVLGXDOVROYHQWVIURPEHLQJWUDSSHGEHWZHHQ

WKHFDSDFLWRUDQGWKHFLUFXLWERDUG

)XPLJDWLRQ

,QH[SRUWLQJHOHFWURQLFDSSOLDQFHVZLWKDOXPLQXPHOHFWURO\WLFFDSDFLWRUVLQVRPHFDVHVIXPLJDWLRQWUHDWPHQW

XVLQJVXFKKDORJHQFRPSRXQGDVPHWK\OEURPLGHLVFRQGXFWHGIRUZRRGHQER[HV

,IVXFKER[HVDUHQRWGULHGZHOOWKHKDORJHQOHIWLQWKHER[LVGLVSHUVHGZKLOHWUDQVSRUWHGDQGHQWHUVLQWKH

FDSDFLWRUVLQVLGH

7KLVSRVVLEO\FDXVHVHOHFWULFDOFRUURVLRQRIWKHFDSDFLWRUV7KHUHIRUHDIWHUSHUIRUPLQJIXPLJDWLRQDQGGU\LQJ

PDNHVXUHWKDWQRKDORJHQLVOHIW

'RQbWSHUIRUPIXPLJDWLRQWUHDWPHQWWRWKHZKROHHOHFWURQLFDSSOLDQFHVSDFNHGLQDER[

/HDYHPRUHWKDQRIWKHVHDOLQJSRUWLRQRSHQDQGGRQRWFRYHUWKDWSRUWLRQZLWKDQ\DGKHVLYHVRUFRDWLQJ

)OX[

,I\RXXVHDKDORJHQW\SH&KORULQHW\SH%URPLQHW\SHHWFKLJKDFWLYLW\IOX[SOHDVHXVHLWDIWHUFRQILUPDWLRQ

LQDGYDQFHDVLWPD\KDYHDQLPSDFWRQSHUIRUPDQFHDQGUHOLDELOLW\RIWKLVSURGXFWGXHWRWKHUHVLGXHRIWKHIOX[

3UHFDXWLRQVIRUXVLQ

FD

DFLWRUV

(QYLURQPHQWDOFRQGLWLRQV

&DSDFLWRUVVKRXOGQRWEHVWRUHGRUXVHGLQWKHIROORZLQJHQYLURQPHQWV

([SRVXUHWRWHPSHUDWXUHVDERYHWKHXSSHUFDWHJRU\RUEHORZWKHORZHUFDWHJRU\WHPSHUDWXUHRIWKHFDSDFLWRU

'LUHFWFRQWDFWZLWKZDWHUVDOWZDWHURURLO

+LJKKXPLGLW\FRQGLWLRQVZKHUHZDWHUFRXOGFRQGHQVHRQWKHFDSDFLWRU

([SRVXUHWRWR[LFJDVHVVXFKDVK\GURJHQVXOILGHVXOIXULFDFLGQLWULFDFLGFKORULQHFKORULQHFRPSRXQG

EURPLQHEURPLQHFRPSRXQGRUDPPRQLD

([SRVXUHWRR]RQHUDGLDWLRQRUXOWUDYLROHWUD\V

9LEUDWLRQDQGVKRFNFRQGLWLRQVH[FHHGLQJVSHFLILHGUHTXLUHPHQWV

(YHQZLWKLQWKHV

HFLILHGUH

XLUHPHQWVDODU

HYLEUDWLRQDFFHOHUDWLRQPD

EHD

OLHGGXHWRUHVRQDQFH

VREHVXUHWRHYDOXDWHDQGFRQILUPZLWKWKHDFWXDO

URGXFW

(OHFWULFDOSUHFDXWLRQV

$YRLGWRXFKLQJWKHWHUPLQDOVRIDFDSDFLWRUDVDSRVVLEOHHOHFWULFVKRFNFRXOGUHVXOW7KHH[SRVHG

DOXPLQXPFDVHLVQRWLQVXODWHGDQGFRXOGDOVRFDXVHHOHFWULFVKRFNLIWRXFKHG

$YRLGVKRUWFLUFXLWLQJWKHDUHDEHWZHHQWKHFDSDFLWRUWHUPLQDOVZLWKFRQGXFWLYHPDWHULDOVLQFOXGLQJOLTXLGV

VXFKDVDFLGVRUDONDOLQHVROXWLRQV

$ORZPROHFXODUZHLJKWVKLUR[DQHZKLFKLVLQFOXGHGLQDVLOLFRQPDWHULDOVKDOOFDXVHVDEQRUPDOHOHFWULFDO

FKDUDFWHULVWLFV

2FW

$OXPLQXP(OHFWURO\WLF&DSDFLWRUV5DGLDOOHDG7\SH

(PHU

HQF



URFHGXUHV







,IWKH

UHVVXUHUHOLHIRIWKHFD

DFLWRUR

HUDWHVLPPHGLDWHO

WXUQRIIWKHH

PHQWDQGGLVFRQQHFWIURP

WKH

RZHUVRXUFH

7KLVZLOOPLQLPL]HDQDGGLWLRQDOGDPD

HFDXVHGE

WKHYD

RUL]LQ

HOHFWURO

WH







$YRLGFRQWDFWZLWKWKHHVFD

HOHFWURO

WH

DVZKLFKFDQH[FHHG&WHP

HUDWXUHV

,IHOHFWURO

WHRU

DVHQWHUVWKHH

HLPPHGLDWHO

IOXVKWKHH

HZLWKODU

HDPRXQWVRIZDWHU

,IHOHFWURO

WHRU

DVLVLQ

HVWHGE

PRXWK

OHZLWKZDWHU

,IHOHFWURO

WHFRQWDFWVWKHVNLQZDVKZLWKVRD

DQGZDWHU

/RQ

WHUPVWRUD







岜/HDND

HFXUUHQWRIDFD

DFLWRULQFUHDVHVZLWKORQ

VWRUD

HWLPHV7KHDOXPLQXPR[LGHILOPGHWHULRUDWHVDVD

岜IXQFWLRQRIWHP

HUDWXUHDQGWLPH

岜,IXVHGZLWKRXWUHFRQGLWLRQLQ

DQDEQRUPDOO

KL

KFXUUHQWZLOOEHUH

XLUHGWRUHVWRUHWKHR[LGHILOP

岜7KLVVXU

HFXUUHQWFRXOGFDXVHWKHFLUFXLWRUWKHFD

DFLWRUWRIDLO

岜([

LUDWLRQGDWHLVPRQWKVIURPRXW

RLQ

LQV

HFWLRQGDWH

岜+RZHYHUH[

LUDWLRQGDWHIRUVHULHVZKLFKDUHQRWOLVWHGEHORZLVPRQWKVIURPRXW

RLQ

LQV

HFWLRQGDWH

)RUVWRUD

HFRQGLWLRQNHH

URRPWHP

HUDWXUH



&WR&



DQGKXPLGLW





WR



ZKHUHGLUHFW

VXQVKLQHGRHVQWUHDFK

قك(QYLURQPHQWDO&RQGLWLRQV

'RQRWVWRUHXQGHUFRQGLWLRQRXWVLGHWKHDUHDGHVFULEHGLQWKHV

HFLILFDWLRQDQGDOVRXQGHUFRQGLWLRQVOLVWHG

EHORZ





([

RVXUHWRWHP

HUDWXUHVDERYHWKHX

HUFDWH

RUEHORZWKHORZHUFDWH

WHP

HUDWXUHRIWKH

FD

DFLWRU





'LUHFWFRQWDFWZLWKZDWHUVDOWZDWHURURLO





+L

KKXPLGLW

FRQGLWLRQVZKHUHZDWHUFRXOGFRQGHQVHRQWKHFD

DFLWRU





([

RVXUHWRWR[LF

DVHVVXFKDVK

GUR

HQVXOILGHVXOIXULFDFLGQLWULFDFLGFKORULQH&KORULQHFRP

RXQG

岜%URPLQH%URPLQHFRP

RXQGRUDPPRQLD





([

RVXUHWRR]RQHUDGLDWLRQRUXOWUDYLROHWUD

V





9LEUDWLRQDQGVKRFNFRQGLWLRQVH[FHHGLQ

V

HFLILHGUH

XLUHPHQWV

&D

DFLWRUGLV

RVDO

:KHQGLV

RVLQ

FD

DFLWRUVXVHRQHRIWKHIROORZLQ

PHWKRGV







,QFLQHUDWHDIWHUFUXVKLQ

WKHFD

DFLWRURU

XQFWXULQ

WKHFDQZDOO



WR

UHYHQWH[

ORVLRQGXHWRLQWHUQDO



UHVVXUHULVH











'LV

RVHDVVROLGZDVWH

127(/RFDOODZVPD

KDYHV

HFLILFGLV

RVDOUH

XLUHPHQWVZKLFKPXVWEHIROORZHG

2FW

6HULHV ([SLUDWLRQGDWH



PRQ

V

URP

RXWJRLQJ

VSHFW

Q

GDWH

)&).+'7$73

7KHSUHFDXWLRQVLQXVLQJDOXPLQXPHOHFWURO\WLFFDSDFLWRUVIROORZWKH6DIHW\DSSOLFDWLRQJXLGH

IRUWKHXVHLQIL[HGDOXPLQXPHOHFWURO\WLFFDSDFLWRUVIRUHOHFWURQLFHTXLSPHQW5&5'

LVVXHGE\-(,7$LQ2FWREHU

3OHDVHUHIHUWRWKHDERYHDSSOLFDWLRQJXLGHIRUGHWDLOV