Daewoo CP005P 010G1 User Manual

S/G No. : CP005P-010G1

Service Guide

ColourTelevision

CHASSIS : CP-005

Model :

DTP-14V1/V2/V3/V5/C3/C4/C5TF

20V1/V3/C4/C5TF

21V1/V2/V4/V6/C6TF

21 V4

14/21 V2

14 C3

14/20 V3

14/20 C4

14/20/21 V1

14 V5

14/20 C5

21 C6

If you need further information ( IC, Circuit descriptions or troubleshooting . . .)

about this model, Please visit our web site.( http://svc.dwe.co.kr)

Specifications

DTP-14V1TF

ITEM

DTP-14V2TF

DTP-14V3TF

DTP-14V5TF

DTP-14C3TF

DTP-14C4TF

DTP-14C5TF

DTP-21V1TF

DTP-21V2TF

DTP-21V4TF

DTP-21V6TF

DTP-21C6TF

DTP-20V1TF

DTP-20V3TF

DTP-20C4TF

DTP-20C5TF

REMARKS

ITEMS

BG, D/K, I/I, H, L/L'

CCIR STANDARD

COLOR STANDARD

POWER INPUT

POWER CONSUMPTION

TUNING SYSTEM

PAL / SECAM / NTSC(AV only)

AC 230V, 50Hz

70 W

73 W

57 W

Frequency Synthesizer (FS) Tuning System

BAND I : CH2 - CH4

RECEPTION CHANNEL

BAND II : CH5 - CH12

CABLE BAND : S1' - S3', S1 - S20

HYPER BAND : S21 - S41

BAND IV, V : CH21 - CH69 (CH 70 for Italy)

3 W

3 W 8 ohm

SOUND OUTPUT

SPEAKER

ANTENNA INPUT

75 ohm Unbalanced

IMPEDANCE

INPUT : RCA JACK (Front)

AUXILIARY TETMINAL

COMMOM

SCART JACK (Rear)

R-40A01

REMOTE CONTROL

SPECIAL FUNCTION

14 - Language OSD

With TELETEXT

Wake-up On Time

Sleep Timer

DAEWOO ELECTRONICS CO., LTD

April. 2000

http : //svc.dwe.co.kr

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PRODUCT SAFETY SERVICING GUIDELINES FOR AUDIO - VIDEO PRODUCTS

CAUTION : DO NOT ATTEMPT TO MODIFY THIS PRODUCT IN ANY WAY.

NEVER PERFORM CUSTOMIZED INSTALLATIONS WITHOUT MANUFAC-

TURER'S APPROVAL. UNAUTHORIZED MODIFICATIONS WILL NOT ONLY VOID

THE WARRANTY, BUT MAY LEAD TO YOUR BEING LIABLE FOR ANT RESULT-

ING PROPERTY DAMAGE OR USER INJURY.

SERVICE WORK SHOULD BE PERFORMED ONLY AFTER YOU ARE THOR-

OUGHLY FAMILIAR WITH ALL OF THE FOLLOWING SAFETY CHECKS AND

SERVICING GUIDELINES. TO DO OTHERWISE, INCREASES THE RISK OF

POTENTIAL HAZARDS AND INJURY TO THE USER.

SUBJECT : X-RADIATION

1. BE SURE PROCEDURES AND INSTRUCTIONS TO ALL SERVICE PERSON-

NEL COVER THE SUBJECT OF X-RADIATION. THE ONLY POTENTIAL

SOURCE OF X-RAYS IN CURRENT T.V. RECEIVERS IS THE PICTURE TUBE.

HOWEVER, THIS TUBE DOES NOT EMIT X-RAYS WHEN THE HIGH VOLT-

AGE IS AT THE FACTORY SPECIFIED LEVEL. THE PROPER VALUE IS

GIVEN IN THE APPLICABLE SCHEMATIC. OPERATION AT HIGHER VOLT-

AGES MAY CAUSE A FAILURE OF THE PICTURE TUBE OR HIGH VOLTAGE

SUPPLY AND UNDER CERTAIN CIRCUMSTANCES, AMY PRODUCE RADIA-

TION IN EXCESS OF DESIRABLE LEVELS.

WHILE SERVICING, USE AN ISOLATION TRANSFORMER FOR PROTECTION

FROM A.C. LINE SHOCK.

2. ONLY FACTORY SPECIFIED C.R.T ANODE CONNECTORS MUST BE USED.

DEGAUSSING SHIELDS ALSO SERVE AS X-RAY SHIELD IN COLOR SETS.

ALWAYS RE-INSTALL THEM.

SAFETY CHECKS

AFTER THE ORIGINAL SERVICE PROBLEM HAS BEEN CORRECTED, A CHECK

SHOULD BE MADE OF THE FOLLOWING:

3. IT IS ESSENTIAL THAT SERVICE PERSONNEL HAVE AVAILABLE AN ACCU-

RATE AND RELIABLE HIGH VOLTAGE METER. THE CALIBRATION OF THE

METER SHOULD BE CHECKED PERIODICALLY AGAINST A REFERENCE

STANDARD. SUCH AS THE ONE AVAILABLE AT YOUR DISTRIBUTOR.

4. WHEN THE HIGH VOLTAGE CIRCUITRY IS OPERATING PROPERLY THERE

IS NO POSSIBILITY OF AN X-RADIATION PROBLEM. EVERY TIME A COLOR

CHASSIS IS SERVICED, THE BRIGHTNESS SHOULD BE RUN UP AND

DOWN WHILE MONITORING THE HIGH VOLTAGE WITH A METER TO BE

CERTAIN THAT THE HIGH VOLTAGE DOES NOT EXCEED THE SPECIFIED

VALUE AND THAT IT IS REGULATING CORRECTLY. WE SUGGEST THAT

YOU AND YOUR SERVICE ORGANIZATION REVIEW TEST PROCEDURES

SO THAT VOLTAGE REGULATION IS ALWAYS CHECKED AS A STANDARD

SERVICING PROCEDURE, AND THAT THE HIGH VOLTAGE READING BE

RECORDED ON EACH CUSTOMER’S INVOICE.

5. WHEN TROUBLESHOOTING AND MAKING TEST MEASUREMENTS IN A

PRODUCT WITH A PROBLEM OF EXCESSIVE HIGH VOLTAGE, AVOID

BEING UNNECESSARILY CLOSE TO THE PICTURE TUBE AND THE HIGH

VOLTAGE SUPPLY. DO NOT OPERATE THE PRODUCT LONGER THAN IS

NECESSARY TO LOCATE THE CAUSE OF EXCESSIVE VOLTAGE.

6. REFER TO HV, B+ AND SHUTDOWN ADJUSTMENT PROCEDURES

DESCRIBED IN THE APPROPRIATE SCHEMATIC AND DIAGRAMS (WHERE

USED).

SUBJECT:FIRE & SHOCK HAZARD

1. BE SURE THAT ALL COMPONENTS ARE POSITIONED IN SUCH A WAY AS

TO AVOID POSSIBILITY OF ADJACENT COMPONENT SHORTS. THIS IS

ESPECIALLY IMPORTANT ON THOSE MODULES WHICH ARE TRANS-

PORTED TO AND FROM THE REPAIR SHOP.

2. NEVER RELEASE A REPAIR UNLESS ALL PROTECTIVE DEVICES SUCH AS

INSULATORS, BARRIERS, COVERS, SHIELDS, STRAIN RELIEFS, POWER

SUPPLY CORDS, AND OTHER HARDWARE HAVE BEEN REINSTALLED PER

ORIGINAL DESIGN. BE SURE, THAT THE SAFETY PURPOSE OF THE

POLARIZED LINE PLUG HAS NOT BEEN DEFEATED.

3. SOLDERING MUST BE INSPECTED TO DISCOVER POSSIBLE COLD SOL-

DER JOINTS, SOLDER SPLASHES OF SHARP SOLDER POINTS. BE CER-

TAIN TO REMOVE ALL LOOSE FOREIGN PARTICLES.

4. CHECK FOR PHYSICAL EVIDENCE OF DAMAGE OR DETERIORATION TO

PARTS AND COMPONENTS, FOR FRAYED LEADS, DAMAGED INSULATION

(INCLUDING A.C. CORD), AND REPLACE IF NECESSARY. FOLLOW ORIGI-

NAL LAYOUT, LEAD LENGTH AND DRESS.

5. NO LEAD OR COMPONENT SHOULD TOUCH A RECEIVING TUBE OR A

RESISTOR RATED AT 1 WATT OR MORE. LEAD TENSION AROUND PRO-

TRUDING METAL SURFACES MUST BE AVOIDED.

6. ALL CRITICAL COMPONENTS SUCH AS FUSES, FLAMEPROOF RESISTOR,

CAPACITORS, ETC. MUST BE REPLACED WITH EXACT FACTORY TYPES.

DO NOT USE REPLACEMENT COMPONENTS OTHER THAN THOSE SPECI-

FIED OR MAKE UNRECOMMENDED CIRCUIT MODIFICATIONS.

SUBJECT : IMPLOSION

1. ALL DIRECT VIEWED PICTURE TUBES ARE EQUIPPED WITH AN INTEGRA

IMPLOSION PROTECTION SYSTEM. BUT CARE SHOULD BE TAKEN TO

AVOID DAMAGE DURING INSTALLATION. AVOID SCRATCHING THE

TUBE. OF SCRATCHED REPLACE IT.

7. AFTER RE-ASSEMBLY OF THE STE ALWAYS PERFORM AN A.C. LEAKAGE

TEST ON ALL EXPOSED METALLIC PARTS OF THE CABINET. (THE CHAN-

NEL SELECTOR KNOB, ANTENNA TERMINALS, HANDLE AND SCREWS) TO

BE SURE THE SET IS SAFE TO OPERATE WITHOUT DANGER OF ELECTRI-

CAL SHOCK. DO NOT USE A LINE ISOLATION TRANSFORMER DURING

THIS TEST USE AN A.C. VOLTMETER, HAVING 5000 OHMS PER VOLT OR

MORE SENSITIVITY, IN THE FOLLOWING MANNER : CONNECT A 1500 OHM

10 WATT RESISTOR, PARALLELED BY A .15 MFD. 150V A.C. TYPE CAPACI-

TOR BETWEEN A KNOWN GOOD EARTH GROUND (WATER POPE, CON-

DUIT, ETC.) AND THE EXPOSED METALLIC PARTS, ONE AT A TIME.

MEASURE THE A.C. VOLTAGE ACROSS THE COMBINATION OF 1500 OHM

RESISTOR AND .15 MFD CAPACITOR. REVERSE THE A.C. PLUG AND

REPEAT A.C. VOLTAGE MEASUREMENTS FOR EACH EXPOSED METALLIC

PART. VOLTAGE MEASURED MUST NOT EXCEED .75 VOLTS R.M.S THIS

CORRESPONDS TO 0.5 MILLIAMP A.C. NAY VALUE EXCEEDING THIS LIMIT

CONSTITUTES A POTENTIAL SHOCK HAZARD AND MUST BE CORRECTED

IMMEDIATELY.

2. USE ONLY RECOMMENDED FACTORY REPLACEMENT TUBES.

SUBJECT : TIPS ON PROPER INSTALLATION

1. NEVER INSTALL ANY PRODUCT IN A CLOSED-IN RECESS, CUBBYHOLE OR

CLOSELY FITTING SHELF SPACE, OVER OR CLOSE TO HEAT DUCT, OR IN

THE PATH OF HEATED AIR FLOW.

2. AVOID CONDITIONS OF HIGH HUMIDITY SUCH AS: OUTDOOR PATIO

INSTALLATIONS WHERE DEW IS A FACTOR, NEAR STEAM RADIATORS

WHERE STEAM LEAKAGE IS A FACTOR, ETC.

3. AVOID PLACEMENT WHERE DRAPERIES MAY OBSTRUCT REAR VENTING.

THE CUSTOMER SHOULD ALSO AVOID THE USE OF DECORATIVE

SCARVES OR OTHER COVERINGS WHICH MIGHT OBSTRUCT VENTILA-

TION.

4. WALL AND SHELF MOUNTED INSTALLATIONS USING A COMMERCIAL

MOUNTING KIT, MUST FOLLOW THE FACTORY APPROVED MOUNTING

INSTRUCTIONS. A PRODUCT MOUNTED TO A SHELF OR PLATFORM MUST

RETAIN ITS ORIGINAL FEET (OR THE EQUIVALENT THICKNESS IN SPAC-

ERS)TO PROVIDE ADEQUATE AIR FLOW ACROSS THE BOTTOM, BOLTS

OR SCREWS USED FOR FASTENERS MUST NOT TOUCH ANY PARTS OR

WIRING. PERFORM LEAKAGE TEST ON CUSTOMIZED INSTALLATIONS.

5. CAUTION CUSTOMERS AGAINST THE MOUNTING OF A PRODUCT ON

SLOPING SHELF OR A TILTED POSITION, UNLESS THE PRODUCT IS

PROPERLY SECURED.

A.C. VOLTMETER

0.15 uF

GOOD EARTH GROUND

SUCH AS THE WATER

PIPE, CONDUIT, ETC.

PLACE THIS PROBE

ON EACH EXPOSED

METAL PART

1500

OHM

10WATT

6. A PRODUCT ON A ROLL-ABOUT CART SHOULD BE STABLE ON ITS MOUNT-

ING TO THE CART. CAUTION THE CUSTOMER ON THE HAZARDS OF TRY-

ING TO ROLL A CART WITH SMALL CASTERS ACROSS THRESHOLDS OR

DEEP PILE CARPETS.

7. CAUTION CUSTOMERS AGAINST THE USE OF A CART OR STAND WHICH

HAS NOT BEEN LISTED BY UNDERWRITERS LABORATORIES. INC. FOR

USE WITH THEIR SPECIFIC MODEL OF TELEVISION RECEIVER OR

GENERICALLY APPROVED FOR USE WITH T.V.S OF THE SAME OR

LARGER SCREEN SIZE.

SUBJECT : GRAPHIC SYMBOLS

THE LIGHTNING FLASH WITH ARROWHEAD SYMBOL,

WITHIN AN EQUILATERAL TRIANGLE, IS INTENDED

TO ALERT THE SERVICE PERSONNEL TO THE PRES-

ENCE OF UNINSULATED “DANGEROUS VOLTAGE”

THAT MAY BE OF SUFFICIENT MAGNITUDE TO CON-

STITUTE A RISK OF ELECTRIC SHOCK.

8. CAUTION CUSTOMERS AGAINST THE USE OF EXTENSION CORDS,

EXPLAIN THAT A FOREST OF EXTENSIONS SPROUTING FROM A SINGLE

OUTLET CAN LEAD TO DISASTROUS CONSEQUENCES TO HOME AND

FAMILY.

THE EXCLAMATION POINT WITHIN AN EQUILATERAL

TRIANGLE IS INTENDED TO ALERT THE SERVICE

PERSONNEL TO THE PRESENCE OF IMPORTANT

SAFETY INFORMATION ON SERVICE LITERATURE.

PRODUCT SAFETY SERVICING GUIDELINES FOR COLOR TELEVISION RECEIVERS

CAUTION : Do not attempt to modify this product in any way. Unau-

thorized modifications will not only void the warranty, but may lead to

your being liable for any resulting property damage or user injury.

Service work should be performed only after you are thoroughly

familiar with all of the following safety checks and servicing guide-

lines. To do otherwise, increases the risk of potential hazards and

injury to the user.

GRAPHIC SYMBOLS :

The lightning flash with arrowhead symbol,

within an equilateral triangle, is intended to alert

the service personnel to the presence of uninsu-

lated “dangerous voltage” that may be of suffi-

cienty magnitude to constitute a risk of electric

shock.

SAFETY CHECKS

The exclamation point within an equilateral tri-

angle is intended to alert the service personnel

to the presence of important safety information

in service literature.

After the original service problem has been corrected, a check should

be made of the following:

SUBJECT : FIRE & SHOCK HAZARD

Fuse symbol is printed on pcb adjacent to the

fuse, with “RISK OF FIRE REPLACE FUSE AS

MARKED”. The symbol is explained in the ser-

vice manual with the following wording or equiv-

alent.

1. Be sure that all components are positioned in such a way as to

avoid possibility of adjacent component shorts. This is especially

important on those chassis which are transported to and from the

repair shop.

2. Never release a repair unless all protective devices such as insula-

tors, barriers, covers, shields, strain reliefs, and other hardware

have been reinstalled per original design.

“CAUTION : FOR CONTINUED PROTECTION AGAINST FIRE

HAZARD, REPLACE ONLY WITH SAME TYPE (4A, 125V)” and

“

ATTENTION: AFIN D’ASSU UNE PROTECTION PERMANENTE

3. Soldering must be inspected to discover possible cold solder joints,

frayed leads, damaged insulation (including A.C. cord), solder

splashes or sharp solder points. Be certain to remove all loose for-

eign particals.

CONTRE LES RISQUES D’INCENDIE, REMPLACER UNIQUE-

MENT PAR UN FUSIBLE DE MEME TYPE ET DE ”4A, 125V”.

SUBJECT : X-RADIATION

4. Check for physical evidence of damage or deterioration to parts

and components, and replace if necessary follow original layout,

lead length and dress.

1. Be sure procedures and instructions to all service personnel cover

the subject of X-rays in current T.V. receivers is the picture tube.

However, this tube does not emit X-rays when the high voltage is

at the factory specified level. The proper value is given in the appli-

cable schematic. Operation at higher voltages may cause a failure

of the picture tube or high voltage supply and, under certain cir-

cumstances, may produce radiation in excess of desirable levels.

2. Only factory specified C.R.T. anode connectors must be used.

Degaussing shields also serve as X-ray shield in color sets.

Always re-install them.

5. No leads or components should touch a receiving tube or a resistor

rated at 1 watt or more. Lead tension around protruding metal sur-

faces must be avoided.

6. All critical components such as fuses, flameproof resistors, capaci-

tors, etc. must be replaced with exact factory types. Do not use

replacement components other than those specified or make

unrecommended circuit modifications.

7. After re-assembly of the set always perform an A.C. leakage test

on all exposed metallic parts of the cabinet, (the channel selector

knob, antenna terminals, handle and screws) to be sure the set is 3. It is essential that the serviceman has available an accurate and

safe to operate without danger of electrical shock. Do not use a

line isolation transformer during this test. Use an A.C. voltmeter,

having 5000 ohms per volt or more sensitivity, in the following

reliable high voltage meter. The calibration of the meter should be

checked perio - dically against a reference standard. Such as the

one available at your distributor.

manner : connect a 1500 ohm 10 watt resistor, paralleled by a 15 4. When the high voltage circuitry is operating properly there is no

mfd. 150V A.C. type capacitor between a known good earth

ground (9water pipe, conduit, etc.) and the exposed metallic parts,

one at a time. Measure the A.C. voltage across the combination of

1500 ohm resistor and 0.15 MFD capacitor. Reverse the A.C. plug

and repeat A.C. voltage measurements for each exposed metallic

part. Voltage measured must not exceed 0.75 volts R.M.S. This

corresponds to 0.5 milliamp A.C. Any value exceeding this limit

constitutes a potential shock hazard and must be corrected imme-

diately.

possibility of an X-radiation problem. Every time a color chassis is

serviced, the brightness should be run up and down while monitor-

ing the high voltage with a meter to be certain that the high voltage

does not exceed the specified value and that it is regulating cor-

rectly. We suggest that you and your service organization review

test procedures so that voltage regulation is always checked as a

standard servicing procedure. And that the high voltage reading be

recorded on each customer’s invoice.

5. When troubleshooting and making test measurements in a receiver

with a problem of excessive high voltage, avoid being unnecessarily

close to the picture tub eand the high voltage compartment.

Do not operate the chassis longer than is necessary to locate the

cause of excessive voltage.

A.C. VOLTMETER

6. Refer to HV, B+and Shutdown adjustment procedures described in

the appropriate schematic and diagrams(where used).

0.15 uF

Good earth ground,

such as the water

pipe, conduit, etc.

Place this probe

on each exposed

metal part.

1500 OHM

10WATT

4. Wall and shelf mounted installations using a commercial mounting

kit, must follow the factory approved mounting instructions. A

receiver mounted to a shelf or platform must retain its original

feet(or the equivalent thickness in spacers) to provide adequate

are flow across the bottom, bolts or screws used for fasteners

must not touch and parts or wiring. Perform leakage test on cus-

tomized installations.

SUBJECT : IMPLOSION

1. All direct viewed picture tubes are equipped with an integral implo-

sion protection system, but care should be taken to avoid damage

during installation. Avoid scratching the tube. If scratched, replace

it.

2. Use only recommended factory replacement tubes.

5. Caution customers against the mounting of a receiver on sloping

shelf or a tilted position, unless the receiver is properly secured.

6. A receiver on a roll-about cart should be stable on its mounting to

the cart. Caution the customer on the hazards of trying to roll a cart

with small casters across thresholds or deep pile carpets.

7. Caution customers against the use of a cart or stand which has not

been listed by underwriters laboratories, inc. For use with their

specific model of television receiver or generically approved for

use with T.V.’s of the same or larger screen size.

SUBJECT : TIPS ON PROPER INSTALLATION

1. Never install any receiver in closed-in recess, cubbyhole or closely

fitting shelf space over, or close to heat duct, or in the path of

heated air flow.

2. Avoid conditions of high humidity such as : Outdoor patio installa-

tions where dew is a factor. Near steam radiators where steam

leakage is a factor, etc.

3. Avoid placement where draperies may obstruct rear venting. The

customer should also avoid the use of decorative scarves or other

coverings which might obstruct ventilation.

JS02

AV JACK

JS01

CP-005 CHASSIS

ANTENNA

RF INPUT

SCART JACK

U101

TUNER

SF101

PICTURE S/F

SPEAKER

3W 8OHM

SF102

33V

SOUND S/F

I501

STV2238

SPEAKER

3W 8OHM

AGC

I702

EEPROM

AT24C16

DATA CLK

2 SPK OTION

- BUS CONTROL

- PIF

SCL

SDA

CVBS

- SIF

ST-BY

I701

OSD R

OSD G

OSD B

- AUDIO/VIDEO SWICHES

- LUMINANCE PROCESSING

U-COM With TELETEXT

ST92195

I704

REMOT

I901

TDA6103Q

H.OUT

V.OUT

- PAL/SECAM/NTSC CHROMA DECODER

- DEFLECTION PROCESSOR

REMOCON

PREAMP

CRT

HALH TONE

SCREEN

Vccd Vcc_if HVcc1 Vcc2

V.SIZE

LED

S.MUTE

V.SYNC

LED

VID.B+

I601

TDA7267A

KEY_IN

SW701-705

CONTROL

KEY

POWER

H.SYNC

Audio Amplifier Circuit

15V

I301

TDA1771

Vertical Deflection Circuit

Q701

RESET SW

I805

STV8131

I703

KA7805

Disable Voltage Regulator

12V

H.V

T401

TRANS DRIVE

Q402

Horizontal TR

45V

H.V

T402

FBT

133V

D/G COIL

T801

VID.B+

FOCUS

TRANS SMPS

133V

L801

LINE FILTER

HEATER

12V

SCREEN

AC 220V

50Hz

27V

15V

Q801

FET

12V

ABL

133V

PW ON (H)

I801

POWRE MODULE

ꢀꢁꢂꢃꢄꢅꢆꢄꢇ ꢈꢄꢉꢇꢊꢋꢌꢇꢂꢍꢄꢉ

ꢀꢁꢂꢃ ꢃ ꢄꢅ

ENTER SERVICE MODE

ꢆꢃꢇ ꢈꢀ

ꢅꢜꢝ

ꢅ !

ꢅ"#

ꢃ ꢜ

ꢃ ꢅ

ꢃ "

ꢃ ꢅ$

ꢃ "

ꢃ "%

ꢃ $#

ꢅ$#

ꢃ $ꢜ

ꢅꢅ

ꢃ &&

ꢃ ꢍꢑ

ꢃ $ꢅ

ꢃ '

ꢉꢃꢇ ꢈꢀ

ꢇꢃꢇ ꢈꢀ

1. Select the Pr 91.

2. Adjust “Sparpness” to 0.

3. Enter the service mode using the following keys.

R ! G ! MENU.

ꢆꢃꢊꢆ ꢁꢋ

ꢉꢃꢊꢆ ꢁꢋ

ꢇꢃꢊꢆ ꢁꢋ

ꢁꢌꢃꢂꢋꢍꢎꢋꢆ

ꢁꢌꢃꢀ ꢏꢋ

ꢐꢌꢃꢂꢋꢍꢎꢋꢆ

ꢁꢂꢑ

ꢁꢂꢑꢃꢒ ꢍ

ꢁꢂꢑꢓꢔ

ꢁꢂꢑꢓꢔꢃꢒ ꢍ

ꢈꢉꢂ

ꢔꢋꢊꢃꢋꢈꢀꢎ

ꢕꢖ

ꢆꢗꢘꢙꢚꢙꢛ

1. AFT

1) Set a Signal Generator with

ꢀ RF FREQUENCY = 38.9MHz, 34.2MHz (L’)

ꢀ RF OUTPUT LEVEL = 80 ± 5 dBuV

ꢀ System = PAL for 38.9MHz.

SECAM-l for 43.2MHz

2) Connect the Signal Generator RF Output(PAL 38.9MHz) to P101 (Tuner IF Output).

There must be no signal input to the tuner.

3) Locate the cursor to “VCO” in Service Mode Menu, then press the “Vol +” key

and wait until the “Please wait” disappear on the TV screen.

4) Connect the Signal Generator RF Output(SECAM-L 34.2MHz) to P101 (Tuner IF

Output).

5) Locate the cursor to “VCO-L” in Service Mode Menu, then press the “Vol +” key

and wait until the “Please wait” disappear on the TV screen.

2. SCREEN

1) Receive the Retma pattern and heat run over 15 minutes.

2) Adjust the “R, G BIAS, R, G DRIVE” to 0, “B BIAS” to 127, “B DRIVE” to 32.

Adjust the screen volume that the Retma pattern reach to the cut-off point.

3. WHITE BALANCE

1) Receive the Full white pattern and heat run over 15 minutes.

2) Adjust the picture control at the point “Y” value of white balance instrument in

20cd/ꢀ.

3) Enter the service mode.

4) Adjust “R BIAS, G BIAS” to x=288, y=301.

5) In order to exit the service mode power off the TV set and power on.

6) Set the TV set to “Normal I” mode(20/21 inch) or set to

“Normal II” mode(14 inch)

7) Enter the service mode.

8) Adjust “R DRIVE, G DRIVE” to x=288, y=301.

9) Repeat above process until the white balance value to x=288, y=301, Y=20,

x=288, y=301, Y=200(approximate) in 2) – 8).

4. FOCUS

1) Apply a RETMA PATTERN signal.

2) Adjust the Focus Volume on FBT to obtain optimal resolution.

5. AGC

1) Set the pattern Generator with

ꢀ RF LEVEL = 60dBuV

ꢀ 100% FULL COLOR BAR

2) Connect the pattern generator RF output to tuner RF input.

3) Connect the probe of oscilloscope in AGC pin of tuner.

4) Adjust the AGC point to MAX – 1V.

(Simple Method)

1) Receive the pattern.

2) Locate the cursor in “AGC” and adjust using the “VOL +” or “VOL –“ keys.

3) Adjust the point there is no noise in about 60dBuV and no beat in about 90dBuV.

6. GEOMETRY

6.1 VERTICAL CENTER

1) Set the TV to “NORMAL I” mode.

2) Enter the service mode.

3) Locate the cursor at “V. CENTER” then press “VOL +”

or “VOL – “ keys to adjust the center line with the

mechanical center marks of the CRT.

6.2 VERTICAL SIZE

∗ The VERTICAL CENTER adjustment

has to be done in advance.

1) Receive the Retma pattern.

2) Set the TV to “NORAML I” mode.

3) Enter the service mode.

4) Locate the cursor at “V. SIZE” then press “VOL +”

or VOL –“ keys to adjust the upper part of the picture.

6.3 HORIZONTAL CENTER

1) Apply a RETMA PATTERN signal.

2) Set the TV to “NORMAL I” mode.

3) Enter the service mode.

3) Locate the cursor at “H. CENTER” then press “VOL +”

or VOL –“ keys to adjust the picture centering.

If EEPROM(I702) has been changed ;

- Option data has to be changed and

- all alignment function has to be readjusted.

* The initial state of adjustment are as follows ;

- V-Center, V-Size, H-Center, R, G, B, AFT = Center (

- AGC =

)

* Service Remocon

ST92195B

32-64K ROM HCMOS MCU WITH

ON-SCREEN-DISPLAY AND TELETEXT DATA SLICER

■

with RUN, WFI, SLOW and HALT modes

■

0°C to +70°C operating temperature range

Up to 24 MHz. operation @ 5V±10%

Min. instruction cycle time: 165ns at 24 MHz.

32, 48, 56 or 64 Kbytes ROM

256 bytes RAM of Register file (accumulators or

index registers)

■

256 bytes of on-chip static RAM

2, 6 or 8 Kbytes of TDSRAM (Teletext and

PSDIP56

Display Storage RAM)

■

28 fully programmable I/O pins

Serial Peripheral Interface

Flexible Clock controller for OSD, Data Slicer

and Core clocks running from a single low

frequency external crystal.

■

Enhanced display controller with 26 rows of

TQFP64

40/80 characters

– Serial and Parallel attributes

See end of Data sheet for ordering information

– 10x10 dot matrix, 512 ROM characters, defin-

able by user

■

Rich instruction set and 14 addressing modes

– 4/3 and 16/9 supported in 50/60Hz and 100/

120 Hz mode

Versatile

development

tools,

including

Assembler, Linker, C-compiler, Archiver,

Source Level Debugger and hardware

emulators with Real-Time Operating System

available from third parties

Pin-compatible EPROM and OTP devices

available

– Rounding, fringe, double width, double height,

scrolling, cursor, full background color, half-

intensity color, translucency and half-tone

modes

Teletext unit, including Data Slicer, Acquisition

Unit and up to 8 Kbytes RAM for data storage

■

Device Summary

VPS and Wide Screen Signalling slicer (on

some devices)

Integrated Sync Extractor and Sync Controller

14-bit Voltage Synthesis for tuning reference

voltage

Up to 6 external interrupts plus one Non-

Maskable Interrupt

Program

TDS VPS/

RAM WSS

Device

Package

Memory

32K ROM

48K ROM

56K ROM

64K ROM

64K OTP

■

ST92195B1

ST92195B2

ST92195B3

ST92195B4

ST92195B5

ST92195B6

ST92195B7

ST92T195B7

Yes

■

Yes PSDIP56/

Yes TQFP64

8 x 8-bit programmable PWM outputs with 5V

open-drain or push-pull capability

Yes

■

16-bit watchdog timer with 8-bit prescaler

One 16-bit standard timer with 8-bit prescaler

4-channel A/D converter; 6-bit guaranteed

CSDIP56

Yes

ST92E195B7

64K OTP

/CQFP64

Rev. 2.2

November 1998

1/202

ST92195B - GENERAL INFORMATION

1 GENERAL INFORMATION

1.1 INTRODUCTION

cy programmable via the CCU. In this mode, the

power consumption of the device can be reduced

by more than 95% (Low power WFI).

The ST92195 microcontroller is developed and

manufactured by STMicroelectronics using a pro-

prietary n-well HCMOS process. Its performance

derives from the use of a flexible 256-register pro-

gramming model for ultra-fast context switching

and real-time event response. The intelligent on-

chip peripherals offload the ST9 core from I/O and

data management processing tasks allowing criti-

cal application tasks to get the maximum use of

core resources. The ST92195 MCU supports low

power consumption and low voltage operation for

power-efficient and low-cost embedded systems.

Halt Mode. When executing the HALT instruction,

and if the Watchdog is not enabled, the CPU and

its peripherals stop operation and the I/O ports en-

ter high impedance mode. A reset is necessary to

exit from Halt mode.

1.1.3 I/O Ports

Up to 28 I/O lines are dedicated to digital Input/

Output. These lines are grouped into up to five I/O

Ports and can be configured on a bit basis under

software control to provide timing, status signals,

timer and output, analog inputs, external interrupts

and serial or parallel I/O.

1.1.1 ST9+ Core

The advanced Core consists of the Central

Processing Unit (CPU), the Register File and the

Interrupt controller.

1.1.4 TV Peripherals

A set of on-chip peripherals form a complete sys-

tem for TV set and VCR applications:

The general-purpose registers can be used as ac-

cumulators, index registers, or address pointers.

Adjacent register pairs make up 16-bit registers for

addressing or 16-bit processing. Although the ST9

has an 8-bit ALU, the chip handles 16-bit opera-

tions, including arithmetic, loads/stores, and mem-

ory/register and memory/memory exchanges.

– Voltage Synthesis

– VPS/WSS Slicer

– Teletext Slicer

– Teletext Display RAM

– OSD

Two basic addressable spaces are available: the

Memory space and the Register File, which in-

cludes the control and status registers of the on-

chip peripherals.

1.1.5 On Screen Display

The human interface is provided by the On Screen

Display module, this can produce up to 26 lines of

up to 80 characters from a ROM defined 512 char-

acter set. The character resolution is 10x10 dot.

Four character sizes are supported. Serial at-

tributes allow the user to select foreground and

background colors, character size and fringe back-

ground. Parallel attributes can be used to select

additional foreground and background colors and

underline on a character by character basis.

1.1.2 Power Saving Modes

To optimize performance versus power consump-

tion, a range of operating modes can be dynami-

cally selected.

Run Mode. This is the full speed execution mode

with CPU and peripherals running at the maximum

clock speed delivered by the Phase Locked Loop

(PLL) of the Clock Control Unit (CCU).

1.1.6 Teletext and Display Storage RAM

Wait For Interrupt Mode. The Wait For Interrupt

(WFI) instruction suspends program execution un-

til an interrupt request is acknowledged. During

WFI, the CPU clock is halted while the peripheral

and interrupt controller keep running at a frequen-

The internal Teletext and Display storage RAM

can be used to store Teletext pages as well as Dis-

play parameters.

7/202

ST92195B - GENERAL INFORMATION

GENERAL DESCRIPTION (Cont’d)

1.1.7 Teletext, VPS and WSS Data Slicers

1.1.10 Serial Peripheral Interface (SPI)

The three on-board data slicers using a single ex-

ternal crystal are used to extract the Teletext, VPS

and WSS information from the video signal. Hard-

ware Hamming decoding is provided.

The SPI bus is used to communicate with external

devices via the SPI, or I²C bus communication

standards. The SPI uses a single data line for data

input and output. A second line is used for a syn-

chronous clock signal.

1.1.8 Voltage Synthesis Tuning Control

1.1.11 Standard Timer (STIM)

14-bit Voltage Synthesis using the PWM (Pulse

Width Modulation)/BRM (Bit Rate Modulation)

technique can be used to generate tuning voltages

for TV set applications. The tuning voltage is out-

put on one of two separate output pins.

The ST92195 has one Standard Timer that in-

cludes a programmable 16-bit down counter and

an associated 8-bit prescaler with Single and Con-

tinuous counting modes.

1.1.9 PWM Output

1.1.12 Analog/Digital Converter (ADC)

Control of TV settings can be made with up to

eight 8-bit PWM outputs, with a maximum frequen-

cy of 23,437Hz at 8-bit resolution (INTCLK = 12

MHz). Low resolutions with higher frequency oper-

ation can be programmed.

In addition there is a 4-channel Analog to Digital

Converter with integral sample and hold, fast

5.75µs conversion time and 6-bit guaranteed reso-

lution.

8/202

ST92195B - GENERAL INFORMATION

Figure 1. ST92195 Block Diagram

Up to 64

Kbytes ROM

I/O

PORT 0

P0[7:0]

P2[5:0]

256 bytes

RAM

I/O

PORT 2

Up to 8

I/O

PORT 3

Kbytes

TDSRAM

P3[7:4]

P4[7:0]

TRI

I/O

PORT 4

256 bytes

8/16-bit

CPU

I/O

PORT 5

P5[1:0]

MMU

NMI

DATA

SLICER

& ACQUI-

SITION

UNIT

INT[7:4]

TXCF

Interrupt

Management

INT2

INT0

CVBS1

ST9+ CORE

RCCU

OSCIN

OSCOUT

RESET

SYNC.

EXTRAC-

TION

RESETO

16-BIT

TIMER/

WATCHDOG

VPS/WSS

DATA

SLICER

WSCR

WSCF

CVBS2

AIN[4:1]

EXTRG

SDO/SDI

SCK

SPI

ADC

VSYNC

HSYNC/CSYNC

CSO

SYNC

CONTROL

TIMING AND

CLOCKCTRL

MCFM

FREQ.

MULTIP.

SCREEN

DISPLAY

PXFM

STANDARD

TIMER

STOUT

R/G/B/FB

TSLU

PWM

VOLTAGE

SYNTHESIS

VSO[2:1]

D/A CON-

VERTER

PWM[7:0]

Not available on all devices.

All alternate functions (Italic characters) are mapped on Ports 0, 2, 3, 4 and 5

9/202

ST92195B - GENERAL INFORMATION

1.2 PIN DESCRIPTION

Figure 2. 64-Pin Package Pin-Out

GND

P4.7/PWM7/EXTRG/STOUT

P4.6/PWM6

P4.5/PWM5

P4.4/PWM4

P4.3/PWM3/TSLU/HT

P4.2/PWM2

P4.1/PWM1

P4.0/PWM0

VSYNC

AIN4/P0.2

P0.1

P0.0

CSO/RESET0/P3.7

P3.6

P3.5

P3.4

HSYNC/CSYNC

AVDD1

PXFM

JTRST0

SDO/SDI/P5.1

INT2/SCK/P5.0

GND

N.C.

JTDO

*See Note 1 of pin description.

N.C. = Not connected

10/202

ST92195B - GENERAL INFORMATION

PIN DESCRIPTION (Cont’d)

RESET Reset (input, active low). The ST9+ is ini-

tialised by the Reset signal. With the deactivation

of RESET, program execution begins from the

Program memory location pointed to by the vector

contained in program memory locations 00h and

01h.

PXFM Analog pin for the Display Pixel Frequency

Multiplier

AVDD3 Analog VDD of PLL. This pin must be tied

to VDD externally to the ST92195.

GND Digital circuit ground.

AGND Analog circuit ground (must be tied exter-

nally to digital GND).

R/G/B Red/Green/Blue. Video color analog DAC

outputs.

CVBS1 Composite video input signal for the Tele-

text slicer and sync extraction.

FB Fast Blanking. Video analog DAC output.

VDD Main power supply voltage (5V10%, digital)

CVBS2 Composite video input signal for the VPS/

WSS slicer. Pin AC coupled.

WSCF, WSCR Analog pins for the VPS/WSS slic-

er line PLL (See note 1).

AVDD1, AVDD2 Analog power supplies (must be

tied externally to AVDD3 the WSCR pin is re-

placed by VPP which is the programming voltage).

MCFM Analog pin for the display pixel frequency

multiplier.

OSCIN, OSCOUT Oscillator (input and output).

These pins connect a parallel-resonant crystal

(24MHz maximum), or an external source to the

on-chip clock oscillator and buffer. OSCIN is the

input of the oscillator inverter and internal clock

generator; OSCOUT is the output of the oscillator

inverter.

TXCF Analog pin for the Teletext slicer line PLL.

CVBSO, JTDO, JTCK Test pins: leave floating.

JTMS, TEST0 Test pins: must be tied to AVDD2.

JTRST0 Test pin: must be tied to GND.

Note 1: The WSCF and WSCR pins are not avail-

able on all devices. On EPROM/OTP devices the

WSCR pin is replaced by VPP which is the pro-

gramming voltage. VPP should be tied to GND or

VDD in user mode.

VSYNC Vertical Sync. Vertical video synchronisa-

tion input to OSD. Positive or negative polarity.

HSYNC/CSYNC Horizontal/Composite sync. Hori-

zontal or composite video synchronisation input to

OSD. Positive or negative polarity.

Figure 3. 56-Pin Package Pin-Out

INT7/P2.0

RESET

P0.7

P2.1/INT5/AIN1

55 P2.2/INT0/AIN2

54 P2.3/INT6/VS01

53 P2.4/NMI

52 P2.5/AIN3/INT4/VS02

51 OSCIN

P0.6

P0.5

P0.4

P0.3

OSCOUT

P4.7/PWM7/EXTRG/STOUT

P4.6/PWM6

AIN4/P0.2

P0.1

P0.0 10

47 P4.5/PWM5

46 P4.4/PWM4

45 P4.3/PWM3/TSLU/HT

44 P4.2/PWM2

43 P4.1/PWM1

42 P4.0/PWM0

41 VSYNC

CSO/RESET0/P3.7

P3.6

P3.5

P3.4

40 HSYNC/CSYNC

AVDD1

38 PXFM

37 JTRSTO

36 GND

35 AGND

34 CVBS1

33 CVBS2

32 JTMS

31 AVDD2

SDI/SDO/P5.1

SCK/INT2/P5.0

JTDO

*WSCF

*VPP/WSCR

AVDD3

TEST0

MCFM

JTCK

CVBSO

TXCF

*See Note 1 of pin description.

11/202

ST92195B - GENERAL INFORMATION

Figure 4. ST92195 Required External components

VCC

82pF

P20

P21

P22

P23

P24

P25

P2.0/INT7

RESETN

P0.7

P0.6

P0.5

P0.4

P0.3

P0.2/AIN4

P2.1/INT5/AIN1

P2.2/INT0/AIN2

P2.3/INT6/VS01

P2.4/NMI

1µF

4Mhz

P07

P06

P05

P04

P03

P02

P01

P00

P37

P36

P35

P34

10k

P2.5/AIN3/INT4/VS02

OSCIN

82pF

1N4148

OSCOUT

P47

P46

P45

P44

P43

P42

P41

P40

P4.7/PWM7/EXTRG/STOUT

P4.6/PWM6

P4.5/PWM5

P4.4/PWM4

P4.3/PWM3/TSLU

P4.2/PWM2

P4.1/PWM1

P4.0/PWM0

VSYNC

RST

P0.1

P0.0

P3.7/RESETO/CSO

P3.6

P3.5

P3.4

4.7µF

VCC

100nF

VSYNC

HSYNC

100nF

HSYNC/CSYNC

AVDD1

P51

P50

220nF

5.6k

P5.1/SDI/SDO

P5.0/SCK/INT2

VDD

PXFM

JTRSTO

GND

AGND

CVBS1

CVBS2

JTMS

AVDD2

4.7µF

220pF

JTDO

22pF

C11

W S C F

W S C R

AVDD3

TEST0

MCFM

JTCK

C10

5.6k

6.8k

4.7nF

CVBSO

TXCF

VCC

100nF

C12

ST92195N

22pF

470nF

82pF

C13

C14

CVBS

4.7nF

5.6k

C16

C15

C17

VCC

100nF

15k

2.2nF

C18

12/202

ST92195B - GENERAL INFORMATION

PIN DESCRIPTION (Cont’d)

P0[7:0], P2[5:0], P3[7:4], P4[7:0], P5[1:0]

Important: Note that open-drain outputs are for

logic levels only and are not true open drain.

I/O Port Lines

patible).

(Input/Output, TTL or CMOS com-

1.2.1 I/O Port Alternate Functions.

28 lines grouped into I/O ports, bit programmable

as general purpose I/O or as Alternate functions

(see I/O section).

Each pin of the I/O ports of the ST92195 may as-

sume software programmable Alternate Functions

(see Table 1).

Table 1. ST92195 I/O Port Alternate Function Summary

Port bit

Alternate Function

A/D Analog input 4

Name

Function

P0.2

AIN4

P2.0

P2.1

External interrupt 7

External interrupt 5

A/D analog input 1

INT7

INT5

AIN1

INT0

AIN2

INT6

VSO1

NMI

P2.2

P2.3

External interrupt 0

A/D analog input 2

External interrupt 6

Voltage synthesis output1

Non-maskable interrupt

Voltage synthesis output2

A/D analog input 3

P2.4

P2.5

VSO2

AIN3

INT4

External interrupt 4

P3.4

P3.5

P3.7

Internal reset output

RESETO

CSO

Composite Sync output

P4.0

P4.1

P4.2

P4.3

PWM output 0

PWM0

PWM1

PWM2

PWM3

TSLU

PWM output 1

PWM output 2

PWM output 3

Translucency digital output

Half-tone output

PWM output 4

P4.4

P4.5

P4.6

P4.7

PWM4

PWM5

PWM6

PWM7

EXTRG

STOUT

PWM output 5

PWM output 6

PWM output 7

External A/D trigger

Standard timer output

P5.0

P5.1

External interrupt 2

SPI serial clock

INT2

SCK

SDO

SDI

SPI serial data out

SPI serial data in

13/202

ST92195B - GENERAL INFORMATION

1.2.2 I/O Port Styles

Pins

P0[7:0]

P2[5,4,3,2]

P2[1,0]

P3.7

P3[6,5,4]

P4[7:0]

P5[1:0]

Weak Pull-Up

Port Style

Standard I/O

Schmitt trigger

Standard I/O

Reset Values

BID / OD / TTL

AF / PP / TTL

BID / OD / TTL

yes

Legend:

AF= Alternate Function, BID = Bidirectional, OD = Open Drain

PP = Push-Pull, TTL = TTL Standard Input Levels

How to Read this Table

Example 1: ADC trigger digital input

AF: EXTRG, Port: P4.7, Port Style: Standard I/O.

Write the port configuration bits (for TTL level):

P4C2.7=1

To configure the I/O ports, use the information in

this table and the Port Bit Configuration Table in

the I/O Ports Chapter on page 68.

P4C1.7=0

Port Style= the hardware characteristics fixed for

each port line.

P4C0.7=1

Enable the ADC trigger by software as described

in the ADC chapter.

Inputs:

– If port style = Standard I/O, either TTL or CMOS

input level can be selected by software.

Example 2: PWM 0 output

AF: PWM0, Port: P4.0

– If port style = Schmitt trigger, selecting CMOS or

TTL input by software has no effect, the input will

always be Schmitt Trigger.

Write the port configuration bits (for output push-

pull):

Weak Pull-Up = This column indicates if a weak

pull-up is present or not.

P4C2.0=0

P4C1.0=1

– If WPU = yes, then the WPU can be enabled/dis-

able by software

P4C0.0=1

Example 3: ADC analog input

– If WPU = no, then enabling the WPU by software

has no effect

AF: AIN1, Port : P2.1, Port style: does not apply to

analog inputs

Write the port configuration bits:

P2C2.1=1

Alternate Functions (AF) = More than one AF

cannot be assigned to an external pin at the same

time:

P2C1.1=1

An alternate function can be selected as follows.

AF Inputs:

P2C0.1=1

– AF is selected implicitly by enabling the corre-

sponding peripheral. Exception to this are ADC

analog inputs which must be explicitly selected

as AF by software.

AF Outputs or Bidirectional Lines:

– In the case of Outputs or I/Os, AF is selected

explicitly by software.

14/202

IC DESCRIPTION

I801

POWER CONTROL MODULE

DPM 001 TI

KSE

14 13 12 11 10

PIN NO

DESCRIPTION

GATE DRIVE1

OCP

PIN NO

DESCRIPTION

+12V INPUT

POWER CONTROL

SOURCE

GND1

GND2

GATE

+133V INPUT

GATE DRIVE2

STV223XD/223X/224X

BUS CONTROLLED MULTISTANDARD

ONE CHIP TV PROCESSOR

PRODUCT PREVIEW

FEATURES

DESCRIPTION

■

I C BUS CONTROL.

The STV223XD/223X/224X are fully bus con-

trolled ICs for TV including PIF, SIF, luma, chroma

PIF CIRCUIT WITH PLL DEMODULATION

(Positive and Negative Video).

SIF CIRCUIT WITH QSS STRUCTURE, FM

DEMODULATION AND AM DEMODULATION

FOR FRANCE.

INTERCARRIER CAPABILITY.

BUILT IN SOUND BANDPASS.

SOUND SUB CARRIERS OUTPUT FOR

STEREO CHASSIS (FM, Nicam).

and deflection processing. Used with a vertical

frame booster (TDA1771 or TDA8174 for 90°

chassis, STV9306 for 110° chassis), they allow

the design of multistandard (BGDKIMNLL, PAL/

SECAM/NTSC) sets with very few external com-

ponents and no manual adjustments.

■

AUDIO SWITCH AND VOLUME CONTROL

(Mono Chassis).

INTEGRATED CHROMA FILTERS AND LUMA

DELAY LINE.

■

INTEGRATED CHROMA DELAY LINE.

VIDEO SWITCH (3 CVBS IN, 1 or 2 CVBS

OUT).

SHRINK56

(Plastic Package)

■

SVHS SWITCH

(Y combined with CVBS3 input).

■

OSD RGB INPUTS.

EXTERNAL RGB/YUV INPUTS or YUV

INTERFACE.

ORDER CODE: STV223X/4X/8X

■

PAL / SECAM / NTSC CHROMA

DEMODULATORS.

AUTO FLESH CONTROL CAPABILITY IN

NTSC.

SOUTH AMERICA CAPABILITY (PALM/PALN/

NTSC).

■

CHROMA SUBCARRIER OUTPUT.

BLACK STRETCH CIRCUIT.

PEAKING CIRCUIT.

AUTOMATIC CUT-OFF CURRENT LOOP.

MANUAL CUT-OFF POSSIBLE FOR LOW

COST APPLICATIONS.

TWO PLLs HORIZONTAL DEFLECTION.

VERTICAL COUNT DOWN.

HALF CONTRAST (optional).

APR (Automatic RGB peak regulation)

FUNCTION (optional).

TQFP64 (14 x 14 x 1.4 mm)

(Full Thin Plastic Quad Flat Pack)

ORDER CODE: STV223XD

■

SAW FILTER SWITCH CONTROL (optional).

VERY FEW EXTERNAL COMPONENTS.

August 1999 - V4.2 -

1/72

This is advanced information on a new product now in development or undergoing evaluation. Details are subject to change without notice.

STV223XD/3X/4X

Pin N°

STV224X/8X STV223X STV223XD

Symbol

Description

SDIP56

TQFP64

SIFIN1

SIFIN2

SIF Input

AGCSIFCAP

AGC SIF Capacitor

Voltage Reference Filtering

AGC PIF Capacitor

PIF Input

REF

AGCPIFCAP

PIFIN1

PIFIN2

PIF Input

TUNERAGCOUT

IFPLL

AGC Tuner Output

IF PLL Filter

GND IF

IF Ground

AM/FMOUT/SC

AM/FM Mono Sound or Stereo Carriers Output

5 V IF Supply

INTCVBSOUT

EXTAUDIOIN

PIFLC1

Internal CVBS Output

External Audio Input

LC Input

PIFLC2

LC Input

Video/Luma Supply Voltage (8 V)

Internal Video Input

Video/Luma Ground

External Video Input

Black Stretch Capacitor

Y(SVHS) or CVBS3 External Input

Chroma (SVHS) Input

B-Y Input (Note 1)

CVBSIN1

GND2

CVBSIN2

Y/CVBSIN3

CHR

UIN

VIN

R-Y Input (Note 1)

YIN

Y Input (Note 1)

YOUT

VOUT

UOUT

BOUT

GOUT

ROUT

Y Output (Note 1)

R-Y Output (Note 1)

B-Y Output (Note 1)

Blue Output

Green Output

Red Output

Cathode Current Measurement Input

OSD Blue Input

CATH

BOSD

GOSD

ROSD

FBOSD

OSD Green Input

OSD Red Input

OSD Fast Blanking

3.5X MHz Crystal or Cloche Filter Tuning

Capacitor

XTAL3/BTUN

XTAL2

XTAL1

CLPF

3.5X MHz Crystal

4.43/3.5X MHz Crystal

Chroma PLL Filter

XTAL1 Control Pin, Vertical Amplitude DAC

Output and Chroma Reference Signal Output.

X1/VAMP/CHROUT

GND1

Chroma/Scanning Ground

3/72

STV223XD/3X/4X

Pin N°

STV224X/8X STV223X STV223XD

Symbol

Description

SDIP56

TQFP64

CVBSOUT1

Main Video Switch Output

Chroma/Scanning Power Supply (8 V)

Beam Current Limiter Control Voltage and

Safety Input (XRAY)

BCL/SAF

VERT

HOUT

Vertical Output Pulse

Horizontal Output Pulse

Line Flyback Input and Super-sandcastle Out-

put

LFB/SSC

SLPF

SCL

Scanning PLL Filter

I C Bus Clock Input

SDA

I C Bus Data Input

Digital Supply Voltage (5 V)

Digital Ground

GND D

AUDIOOUT

FMCAP

Main Audio Output

FM Demodulation Capacitor

Filter Switch Control

SAW

BEXT/UEXT

GEXT/YEXT

REXT/VEXT

FBEXT

External Blue Input or external U input

External Green Input or external Y input

External Red Input or external V input

External Fast Blanking Input

Automatic RGB Peak Regulation

Half Contrast Input

APR

HALFCTR

CVBSOUT2

Second Video Switch Output

Note: 1. Input/Output not available in STV2236 and STV2236D versions.

4/72

STV223XD/3X/4X

PIN CONNECTIONS STV223X (SDIP56)

PIN CONNECTIONS STV224X/8X (SDIP56)

NOTE:

UNDERLINED PIN

FUNCTIONS ARE OPTIONAL

PIN CONNECTIONS STV223XD (TQFP64)

5/72

STV223XD/3X/4X

BLOCK DIAGRAM (STV2238D) (TQFP64)

9/72

1. NO POWER

Check

F801(250V 4A)

Check

D837~840

F801

PCW1

R802

L801

Check

R802(10W 3.3)

TO MICOM

#54 OCP

Q802

C826

T801

Check

Voltage

R804

B+

133V

C805

Check

waveform

R803

R808

R101

D806

C815

133V

D841

C819

Check

Voltage

TUNER

33V

D810

L802

45V

12V

DR.TRANS B+

45V

Q801

FET

I703

7805

D812

ST-BY

R810

I805

C827

R819

STV8131

12V

Check

Voltage

I801

#10

#14

#11

12V

Check

Voltage

133V

FROM U-COM

#61 PW ON/OFF

FROM MICOM #61

PW ON: H

Check

Voltage

PW OFF: L

2. NO PICTURE

NG : Go to the figure C

OK : Go to the figure D

Check the wave of I501 #21

SF101

SAW FILTER

SCL

U101

TUNER

33V

Check

IF AGC voltage

SDA

#12 #13

#12

Check

the voltages

Check

RF AGC voltage

#16

#13

#14

#21

I501

I701

CVBS

MICOM

Check

clock/data signal

#26

#63

#50

#51

Check

the waveform

Check

the Hout

#21

#59

Check

the crystal

X701

4MHz

Check

HVCC(8V)

IF VCC(5V)

Check

composite video

Check

FBT B+ (133V)

Check

200V LINE

#26

C517

#43

#44

#45

I901

I501

#61

R/G/B AMP

VIDEO B+

T402

FBT

HEATE

R403

Check

RGB signal

Check

heater voltage

Check

ABL current

3. NO SOUND

NG : Go to the figure E

OK : Go to the figure F

Check audil output signal of I501 #8

SF102

SAW FILTER

SCL

Check

SIF input signal

U101

TUNER

33V

SDA

#12

Check

IF AGC voltage

#13

#14

I501

I701

MICOM

Check

clock/data signal

#50

#51

Check

Audio output signal

Check

the crystal

X701

4MHz

Check

Vcc of the Sound AMP

Check

Audio output signal

SOUND B+

16V

SPEAKER

3W 8ohm

C606

I601

TDA7267A

C602

R612

MICOM #42

Audio MUTE

H:Mute

Audio IN

RC610

C601

L:Normal

Q601

Check

Audio signal in

Check

H:Mute L:Normal

4. NO COLOR

composit video in

#26

Check

CVBS waveform

R/G/B signal

I501

R OUT

B OUT

G OUT

#43

#44

#45

Check

the crystal

#53

X502

5. NO VERTICAL DEFLECTION

Check

the voltage (25V)

Check

Sawtooth voltage

VCC

D303

C306

25V

MICOM

#44

C305

#10

I501

#62

Vertical output

I301

Check

vertical signal

RC310

#3(Output)

Inver Input

Check

the waveform

Vertical

D.Y

6. NO ON-SCREEN DISPLAY

Check

the signal (50/60Hz)

Check

clock/data signal

SDA

V.SYNC IN

#39

SCL

I701

MICOM

#38

I501

H.SYNC IN

FAST BLANK

#12

#11

#10

#50

#49

#48

#47

Check

the signal (15.625KHz)

OSD R

OSD G

OSD B

#50

#51

X701

4MHz

Check

OSD R/G/B/FB signal

Check

the crystal

7. REMOTE CONTROL DOES NOT OPERATE

I701

MICOM

I704

Remote Control

PREAMP

OUT

#57

ST-BY

#50

#51

Check

the waveform

X701

4MHz

Check

the crystal

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ꢃꢄꢀꢇꢓꢕ/ꢇꢌꢆꢂꢇꢂꢅꢆꢇꢄꢋ

ꢌꢍꢎ% ꢃꢆꢄꢓꢋ$ꢗ!ꢎꢝ "ꢈꢄꢆꢇꢋꢌꢉꢘꢇꢄꢋꢋ,ꢐ

ꢕꢋꢆꢙꢍꢕꢒꢕ ꢇ-ꢇꢏꢕꢏꢝꢒꢎꢕꢎꢕꢕ

ꢋꢆꢙꢍꢕꢒꢕ

)ꢇꢇꢇꢇꢇꢙꢎꢕ %ꢍ ꢎꢎꢎꢎꢎꢍꢗ

ꢙꢎꢓ ꢝꢍꢄ!ꢗꢅꢎꢎꢝ

ꢙꢎꢒ ꢝꢍ%ꢎꢃꢊꢎꢎꢕ

ꢙꢎꢝ ꢓꢆꢂꢓꢗꢎꢕ!ꢚꢈ

ꢙꢎ% ꢓꢓꢓꢝꢎ%ꢎꢎꢓꢗ

ꢂꢁꢌꢀꢇ

ꢐ

ꢁ

ꢐ ꢀꢓꢕꢝꢝ

ꢌꢍꢎ% ꢕꢋꢆꢙꢍꢕꢒꢕ

ꢌꢍꢎ%ꢄ ꢝꢍ%ꢏꢎꢓꢗ!ꢎꢝ

ꢌꢍꢎ%ꢚ ꢏꢕꢏꢝꢒꢎꢕꢎꢕꢕ

ꢌꢂꢇꢅꢈ#ꢑꢀꢄꢆꢁꢅ

"ꢈꢄꢆꢇꢋꢌꢉꢘ

ꢅꢑꢚꢚꢈꢅꢇ$ꢈ #ꢈ

ꢊꢄ#ꢉꢈꢆꢇꢂꢃ

"ꢊꢅꢇꢓꢍꢇꢋꢅꢇ*0ꢎ(%ꢝ+

ꢉꢐ ꢓꢓ%ꢇ*ꢊꢌꢉꢌꢇꢉꢈꢂꢘ+

ꢕ!(ꢒꢎꢇꢚꢈꢌ#ꢈ

ꢄꢀꢇꢈ(ꢇ

ꢋꢂꢅꢈ$ꢇꢆꢄꢃꢃꢆꢌꢆꢈ

ꢆꢆꢓꢇꢅꢉ ꢇꢒ(ꢕꢎꢇꢊꢛꢜꢉ

ꢕꢆ ꢄꢗꢕꢎꢒ& ꢇ-ꢇꢏꢕꢏꢝꢒꢎꢕꢎꢕꢕ

ꢆꢄꢃꢈꢇꢂꢀꢁꢆ"

ꢌ!ꢎꢕ ꢃꢆꢚꢒꢋ$ꢕꢕꢎꢎ "ꢈꢄꢆꢇꢋꢌꢉꢘꢇꢄꢋꢋ,ꢐ

ꢌ!ꢎꢕ ꢕꢆ ꢄꢗꢕꢎꢒ& ꢌꢂꢇꢙꢌ ꢈꢁ

ꢚꢁꢉ ꢇꢋꢌꢀꢌꢂꢁꢉ

ꢃꢄꢌꢉꢆꢇꢀꢁꢂꢘ

ꢅꢆꢙꢇꢕꢓꢓꢇꢂꢄꢅꢆꢅꢌ #ꢈ

ꢒꢚ ꢕꢝꢎꢕꢚ

ꢆ

ꢄꢗꢕꢎꢒ&

ꢙꢎꢗ ꢓꢓꢒꢒꢎꢒꢎꢎꢎꢕ

ꢌ!ꢎꢕꢄ ꢝꢍ%ꢏꢎꢒꢕꢕꢎꢎ

ꢌ!ꢎꢕꢚ ꢏꢕꢏꢝꢒꢎꢕꢎꢕꢕ

ꢔꢋꢎꢓ ꢝꢍ%!ꢕꢎ!!%ꢎ

ꢀꢕꢎꢕ %ꢍꢉꢎꢎꢎꢎꢎꢝꢝ

ꢀꢝꢎꢓ %ꢍ"ꢎꢎꢎꢎꢎ%ꢓ

ꢀꢍꢎꢕ %ꢃꢀꢛꢓꢝꢄꢒ

ꢀꢍꢎ% %ꢍꢂꢝ%ꢎꢎꢎꢏ!

ꢊꢗꢍꢕ ꢝꢍ%ꢗꢍꢕꢓꢎꢎꢕ

ꢊꢏꢓꢕ ꢝꢍ%ꢏꢓꢒ%ꢝꢎꢓ

ꢃꢝꢎꢕ ꢝꢍ%!ꢓꢝꢎꢕꢓꢎ

ꢃꢍꢎꢕ ꢝꢍ%!ꢓꢍꢏꢒꢓꢎ

ꢃꢍꢎꢓ ꢝꢍ%!ꢓꢝꢓꢓꢓꢎ

ꢃ!ꢎꢕ ꢝꢍ%ꢎꢏꢎ!ꢉꢎꢓ

ꢇꢇ)ꢇꢇꢃꢄꢍꢎꢕ ꢝꢍ%!!ꢎꢗꢓꢕꢎ

ꢇꢇ)ꢇꢇꢇ&ꢝꢎꢓ ꢆꢓꢋ ꢓꢝ!!

"ꢈꢄꢆꢇꢋꢌꢉꢘ

ꢄꢕꢎ%ꢎꢃ "ꢓꢝꢇꢆꢓꢖꢎ

ꢆꢆꢓꢇꢅꢉ ꢇꢒ(ꢕꢎꢇꢊꢛꢜꢉ

ꢃ" ꢔꢚ !ꢏꢕꢎꢄ

ꢙ!ꢎꢕ ꢝꢍꢄ!ꢗꢒꢓꢕꢃꢕ

ꢊꢕ!ꢕ ꢝꢍ%ꢕ!ꢒꢝꢕꢎꢓ

ꢊꢕ!ꢕꢄ ꢏꢕꢏꢍꢒꢎꢕꢓꢕꢓ

ꢊꢓꢎꢕꢄ ꢝꢍ%ꢗꢎꢕꢒꢒꢎꢕ

ꢊꢓꢎꢕꢚ ꢝꢍ%ꢗꢓꢕꢝ!ꢎꢓ

ꢊꢓꢎꢕꢂ ꢝꢍ%ꢗꢎꢕꢒꢒꢎꢒ

ꢊꢓꢕꢕꢄ ꢏꢕꢏꢓꢝꢎꢕꢝꢕꢓ

ꢊꢓꢕꢕꢚ ꢏꢕꢏꢓꢝꢎꢕꢝꢕꢓ

ꢊꢝ!ꢕ ꢝꢍ%ꢝ!ꢝꢒꢓꢎꢒ

ꢊ%ꢗꢕ ꢝꢍ%%ꢗꢓꢕꢝꢎꢕ

ꢊꢗꢍꢕ ꢝꢍ%ꢗꢍꢕꢓꢎꢎꢕ

ꢋꢃꢎꢕꢄ ꢏꢕꢏꢍꢒꢎꢕꢓꢕꢓ

ꢂꢅꢆꢇꢚꢄꢅꢈ

ꢄ%ꢕꢔꢋ$!ꢎ(

ꢋꢂꢅꢈ$ꢇꢆꢄꢃꢃꢆꢌꢆꢈ

ꢔꢄꢂꢘꢇꢃꢌꢉꢇꢚꢁꢄꢅ

ꢂꢁꢌꢀꢇꢙꢂꢁ

ꢚꢑꢆꢆꢁꢉꢇꢂꢆꢅꢀ

ꢋꢂꢅꢈ$ꢇꢆꢄꢃꢃꢆꢌꢆꢈ

ꢋꢂꢅꢈ$ꢇꢂꢅꢆꢇꢛꢌ(ꢌꢉ#

$ꢄꢋ"ꢈꢅꢇꢅꢑꢚꢚꢈꢅ

ꢋꢂꢅꢈ$ꢇꢂꢅꢆꢇꢛꢌ(ꢌꢉ#

ꢋꢂꢅꢈ$ꢇꢆꢄꢃꢃꢆꢌꢆꢈ

ꢚꢑꢆꢆꢁꢉꢇꢃꢁ$ꢈꢅ

ꢊꢄꢅꢘꢇꢚꢅꢄꢉ

ꢝ!ꢝꢒꢓꢎꢓ-%%ꢒꢍꢎꢎꢕ

ꢆꢆꢓꢇ$ꢄꢋꢇꢒ(ꢕꢓꢇꢊꢛꢜꢉꢇꢚꢘ

ꢒꢎ(ꢕꢝꢎꢇꢐꢀ

ꢆꢅꢛ ꢙꢎꢕꢎ

ꢂꢁꢌꢀꢇ" ꢀꢌꢉꢈꢄꢅꢌꢆꢐ

ꢛꢌꢀꢆꢈꢅꢇꢀꢌꢉꢈ

ꢂꢁꢌꢀꢇꢂ"ꢁꢘꢈ

ꢆꢌꢈꢇꢂꢄꢚꢀꢈ

ꢆꢅꢀ %ꢝꢕꢚ

ꢂꢅꢇꢆꢓꢖꢎ

ꢀꢛ ꢓꢝꢄꢒ

ꢒꢎ(ꢓ%ꢎꢇꢐꢀ

ꢀ ꢝ%

ꢆꢆꢓꢇꢆꢅꢋꢇꢝ(ꢕꢝꢇꢊꢛꢜꢉꢇꢚꢘ

ꢄꢚꢋꢇꢚꢘ

ꢉꢐꢀꢁꢉꢗꢗꢇ ꢄꢕꢎꢎ

ꢋꢃꢆ" ꢂꢇꢆꢎꢖꢓ%

ꢐꢛ$%ꢎꢎ ꢎꢗ

ꢋ"ꢌꢈꢀ ꢇꢂꢄꢋꢈ

ꢂꢁꢉꢉꢇ$ꢄꢛꢈꢅ

ꢂꢁꢉꢉꢈꢂꢆꢁꢅ

ꢂꢁꢅ ꢇꢃꢁ$ꢈꢅꢇꢄꢋ

ꢆꢅ

ꢄꢚꢋꢇꢚꢘ

ꢊꢘꢋꢓꢍꢓꢓ ꢗ ꢕꢎ ꢓꢎꢓ

ꢐꢛ$ꢍꢎꢎ ꢎꢓ

ꢆꢌꢈꢇꢂꢄꢚꢀꢈ

ꢉꢐꢀꢁꢉꢗꢗꢇ ꢄꢕꢎꢎ

ꢆꢆꢓꢇ$ꢄꢋꢇꢒ(ꢕꢓꢇꢊꢛꢜꢉꢇꢚꢘ

ꢆꢃ ꢓꢕꢂꢗꢆꢛ

ꢋꢂꢅꢈ$ꢇꢆꢄꢃꢃꢆꢌꢆꢈ

ꢐꢚꢉ"ꢓ%ꢎ ꢎ!ꢐꢚꢉꢆꢎꢓ%-ꢑꢀ$1ꢒꢎꢎ

ꢗ ꢀꢎ-"ꢎꢒꢙꢙ"ꢓ1ꢓꢓꢎꢎ

ꢓꢋ ꢓꢝ!!

ꢜꢜꢓꢎꢎ ꢃꢆꢛꢊꢋꢔ ꢒꢝꢓ ꢊꢄꢋꢘꢇꢛꢅꢁꢉꢆꢇꢄꢋ

ꢊꢓꢎꢕ ꢝꢍ%ꢓꢎꢏꢕꢝꢎꢕ ꢊꢄꢋꢘꢇꢛꢅꢁꢉꢆ

ꢜꢜꢓꢕꢎ ꢃꢆꢋꢃꢃ$ꢄꢗꢓꢏ ꢋꢃꢈꢄꢘꢈꢅꢇꢄꢋ

"ꢌꢃꢋꢇꢚꢘ

ꢆꢃ ꢕꢝꢂ%ꢆꢛ

&ꢍꢎꢕ ꢃꢆꢅꢓꢋ$ꢝ%ꢎꢎ "ꢈꢄꢆꢇꢋꢌꢉꢘꢇꢄꢋꢋ,ꢐ

ꢆꢓꢋꢘꢓꢗꢏꢕ ꢇ-ꢇꢏꢕꢏꢝꢒꢎꢎꢍꢕꢕ

ꢓꢋꢘꢓꢗꢏꢕ

ꢃꢗꢎꢕꢄ ꢝꢍ%ꢎꢏꢎꢒꢋ%ꢎ

ꢋꢃꢎꢕ ꢝꢍ%ꢍꢒꢕꢝꢎꢕꢎ

ꢂꢁꢉꢉꢈꢂꢆꢁꢅ

ꢋꢃꢈꢄꢘꢈꢅ

ꢐ"ꢎꢓ% ꢎꢒ-ꢒ%ꢎ!ꢍ-ꢑꢀ$1ꢓꢎꢎ

ꢋꢃ %ꢎꢏꢎꢛꢎꢕꢇꢒ$ꢇꢍꢇꢁ"ꢊ

ꢆꢃ ꢓꢕꢙꢝꢆꢛ

ꢇꢇ)ꢇꢇꢇ&ꢍꢎꢕ ꢆꢓꢋꢘꢓꢗꢏꢕ

&ꢍꢎꢕꢄ ꢝꢍ%ꢏꢎꢓꢝ%ꢎꢎ

&ꢍꢎꢕꢚ ꢏꢕꢏꢝꢒꢎꢎꢍꢕꢕ

ꢛꢈꢆ

"ꢈꢄꢆꢇꢋꢌꢉꢘ

ꢋꢂꢅꢈ$ꢇꢆꢄꢃꢃꢆꢌꢆꢈ

ꢄꢀꢇꢈ(ꢇꢚ'ꢘ

ꢜꢜꢓ!ꢎ ꢃꢆꢊꢃꢊꢋ ꢒꢕꢍ ꢃꢂꢚꢇꢊꢄꢌꢉꢇꢊꢄꢉꢑꢄꢀꢇꢄꢋ

ꢂꢝꢎꢕ ꢂꢊꢐꢈꢓ ꢕꢍꢝꢔ ꢂꢇꢊꢐꢀꢄꢅ

ꢆꢆꢓꢇꢅꢉ ꢇꢒ(ꢍꢇꢊꢛꢜꢉ

ꢈꢂꢃꢂꢂꢕꢝꢎꢊꢓ!ꢎ

ꢏ$ꢇꢒꢖꢒꢇꢁ"ꢊꢇꢔꢇꢕ%ꢊꢊꢇꢝꢃꢇ

&% ꢕ ꢁ*ꢊ+'#ꢔ ꢋꢋ ꢕꢎ%ꢀꢊ

ꢃꢂꢋꢗꢒꢒꢄ

ꢓꢎꢎꢙꢇꢃꢑꢇꢎꢖꢕꢍꢊꢛꢇꢔ

ꢕꢖꢗꢘꢙꢇꢚꢑꢃꢇꢗꢓꢎꢎꢃꢛꢇ"

ꢗꢒꢙꢇꢕꢊꢛꢇꢘꢇ*ꢏꢖ%ꢊꢊ+

ꢄꢂꢓ%ꢎꢙꢇꢎꢖꢝꢏꢊꢛꢇꢑ'ꢂ'ꢋꢉ ꢛ'ꢋꢙ

ꢝꢎꢎꢙꢇꢀ"ꢋꢇꢕꢍꢎꢊꢛꢇ*ꢓ%(ꢒ%+

ꢅꢍꢎꢕ ꢈꢂꢕꢝꢎꢊꢓ!ꢎ ꢃꢁꢋꢌꢋꢆꢁꢅ

ꢂꢝꢎꢝ ꢂꢊꢐ"ꢒꢂꢗꢓꢓ" ꢂꢇꢊꢐꢀꢄꢅ

ꢅꢍꢎꢓ ꢅ(ꢎꢏꢂꢒꢒ!ꢔꢛ

ꢅꢀꢐꢕ %ꢋꢂꢎꢕꢎꢕꢒꢒꢍ

ꢋꢂꢆꢕ ꢝꢍ%!ꢒꢎꢒꢝꢒꢎ

ꢅꢇꢂꢈꢊꢈꢉꢆ

ꢋ$ꢇꢅꢈꢀꢄꢐ

ꢋꢁꢂꢘꢈꢆꢇꢂꢅꢆ

ꢂꢝꢕꢕ ꢂꢊꢐꢉꢕꢔꢕꢎ%ꢘ ꢂꢇꢊꢐꢀꢄꢅꢇ*ꢊꢘꢆ+

)ꢇꢇꢇꢂꢍꢎꢕ ꢂꢀꢕꢔꢚꢒꢝꢏꢝꢘ

ꢂꢇꢀꢌꢉꢈꢇꢄꢂꢅꢁꢋꢋ

)ꢇꢇꢇꢂꢍꢎ% ꢂꢈꢐꢉꢓ#ꢕꢍꢕꢃ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢋꢛꢕꢎꢕ %ꢃ#ꢒ!ꢗꢓꢊ ꢛꢌꢀꢆꢈꢅꢇꢋꢄ$

#ꢇꢒ!ꢗꢓ ꢊ

ꢓꢔꢓꢕꢖꢗꢘꢕꢙꢔꢁꢚꢙꢗꢖꢛꢁꢔꢘꢛꢖ

ꢋꢛꢕꢎꢓ %ꢃꢘ!ꢗ%ꢎꢊ ꢛꢌꢀꢆꢈꢅꢇꢋꢄ$

ꢘ!ꢗ%ꢎꢊ

ꢂꢂꢏꢎ! "ꢂ&ꢘꢓꢓꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢕꢒ "ꢂꢚꢘꢓꢓꢓꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢓꢓ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢓꢒ "ꢂ&ꢘꢓꢓꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢍꢎꢕ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢍꢒꢎ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

%ꢎꢙꢇꢂ"ꢇꢓꢓꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢓꢓꢎꢎꢃꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢎꢎꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢓꢓꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

ꢋꢆꢙꢓꢓꢒꢍ

ꢋꢔꢎꢕ ꢝꢍ%!ꢓꢎꢎꢝꢎꢕ

)ꢇꢋ$ꢍꢎꢕ %ꢋꢝꢎꢕꢎꢕꢕꢝꢗ

ꢆꢝꢎꢕ %ꢎ ꢕꢎꢄꢒ

ꢋꢁꢂꢘꢈꢆꢇꢅ#ꢚ

ꢋ$ꢇꢃꢁ$ꢈꢅꢇꢃꢑꢋ"

ꢆꢅꢄꢉꢋꢇ ꢅꢌꢙꢈ

ꢛꢚꢆ

ꢐꢅꢋꢓꢕ ꢅꢕ

ꢋꢋ ꢕꢗꢎ ꢏ ꢚ

ꢆ

ꢕꢎꢄꢒ

)ꢇꢇꢇꢆꢝꢎꢓ %ꢎ"ꢎꢎꢎꢎꢓꢎꢓ

)ꢇꢇꢇꢆꢍꢎꢕ %ꢎꢊꢝꢎꢝꢓꢄ%

)ꢇꢇꢇꢑꢕꢎꢕ ꢝꢍ%!ꢏꢕ!!ꢒꢎ

$ꢕꢎꢕ ꢝꢍ%ꢕ!ꢎꢎꢕꢒꢎ

ꢛꢑꢐꢓꢎꢂꢎꢎꢕ

ꢆꢅꢄꢉꢋꢇꢋꢊꢃꢋ

ꢆꢑꢉꢈꢅꢇꢙꢄꢅꢄꢂꢆꢁꢅ

#ꢅꢁꢑꢉ ꢇꢆꢑꢉꢈꢅꢇꢄꢋ

ꢆꢋꢊ ꢝꢎꢝꢓꢄ%

ꢆ% ꢚꢛꢕꢍ

ꢌ%ꢎꢕ ꢕꢋꢆꢙꢓꢓꢒꢍ

ꢌꢂꢇꢂ"ꢌꢃꢇꢙꢌ ꢈꢁ

ꢋ $ꢕꢎꢕ% ꢋ

ꢌꢏꢎꢕ ꢕꢋꢆꢕ!%ꢈꢃꢊ& ꢌꢂꢇꢂ"ꢌꢃꢇꢊꢌꢂꢁꢊꢇꢁꢆꢃ

ꢔꢂꢎꢎꢕ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢎꢓ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢎꢒ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢎꢝ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢎ% "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢎꢗ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢎꢍ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢎ! "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕꢕ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕꢓ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕꢒ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕꢝ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕ% "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕꢗ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕꢏ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕꢍ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢕ! "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢓꢎ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢓꢓ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢓꢝ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢔꢂꢎꢓ% "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢕꢎꢗ "ꢅꢛꢆꢗꢍꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢕꢎꢏ "ꢅꢛꢆꢝꢏꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢕꢕꢕ "ꢅꢛꢆ%ꢕꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢕꢕꢝ "ꢅꢛꢆꢝꢒꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢕꢕ% "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎꢕ "ꢅꢛꢆ%ꢗꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎꢓ "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎꢒ "ꢅꢛꢆ%ꢗꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎꢝ "ꢅꢛꢆꢒꢒꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎꢗ "ꢅꢛꢆꢝꢏꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎꢏ "ꢅꢛꢆ%ꢗꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎꢍ "ꢅꢛꢆꢒꢒꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢎ! "ꢅꢛꢆꢕ%ꢝꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢕꢎ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢒꢕꢒ "ꢅꢛꢆꢓꢓꢝꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢝꢎꢝ "ꢅꢛꢆ%ꢗꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢝꢎ% "ꢅꢛꢆ%ꢗꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢝꢎꢗ "ꢅꢛꢆ%ꢗꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢝꢎꢍ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢝꢕ! "ꢅꢛꢆꢕ%ꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢝꢓꢎ "ꢅꢛꢆꢒ!ꢝꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ%ꢎꢕ "ꢅꢛꢆꢏ%ꢎꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ%ꢎꢒ "ꢅꢛꢆꢏ%ꢎꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ%ꢎꢝ "ꢅꢛꢆꢏ%ꢎꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ%ꢎ% "ꢅꢛꢆꢏ%ꢎꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ%ꢎꢗ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢋꢆ!ꢓꢆꢕ!%&ꢕ'ꢈꢃꢊ

ꢜꢜꢓꢎꢎ ꢃꢆꢊꢃꢔꢓ ꢒꢕꢍ ꢃꢂꢚꢇꢂ"ꢌꢃꢇꢊꢁꢑꢉꢆꢇꢚꢇꢄꢋ

ꢂꢂꢕꢎꢓ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢕꢎꢒ "ꢂ&ꢘꢕꢎꢕꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢕꢎꢝ "ꢂ&ꢘꢕꢎꢕꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢕꢎ% "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢕꢎꢍ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢕꢎ! "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢕꢕꢍ "ꢂꢚꢘꢕꢎꢝꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢝꢕꢓ "ꢂ&ꢘꢕꢗꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢎꢕ "ꢂ&ꢘꢕꢎꢕꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢎꢓ "ꢂꢛꢘꢕꢎꢒꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢎꢝ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢎ% "ꢂꢚꢘꢝꢏꢓꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢎꢗ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢎꢍ "ꢂꢚꢘꢝꢏꢓꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢎ! "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕꢎ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕꢕ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕꢓ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕ% "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕꢗ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕꢏ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕꢍ "ꢂꢚꢘꢓꢓꢓꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢕ! "ꢂꢛꢘꢒꢒꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢓꢎ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢓꢕ "ꢂꢚꢘꢝꢏꢓꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢓꢓ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢓꢒ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢓꢝ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢓꢗ "ꢂꢚꢘꢓꢓꢒꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢒꢒ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢒꢝ "ꢂ&ꢘꢒꢎꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢒ% "ꢂ&ꢘꢒꢎꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂ%ꢒꢗ "ꢂ&ꢘꢒꢎꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢎꢓ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢎꢒ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢎꢝ "ꢂ&ꢘꢕꢎꢓꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢎ% "ꢂ&ꢘꢝꢏꢕꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢎꢗ "ꢂ&ꢘꢝꢏꢕꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢕꢎ "ꢂ&ꢘꢕꢍꢕꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢕꢓ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢗꢕꢒ "ꢂꢛꢘꢕꢎꢒꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢎꢕ "ꢂꢛꢘꢕꢎꢝꢜꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢎꢓ "ꢂ&ꢘꢍꢓꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢎ% "ꢂꢚꢘꢝꢏꢓꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢎꢏ "ꢂ&ꢘꢍꢓꢎꢔꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢂꢂꢏꢎꢍ "ꢂꢚꢘꢝꢏꢓꢘꢂꢄ ꢂꢇꢂ"ꢌꢃꢇꢂꢈꢅꢄ

ꢆꢃ ꢓꢕꢙꢝꢆꢛ

ꢕ'ꢕꢎꢇꢎꢇꢁ"ꢊꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢎꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢎꢎꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢎꢖꢕꢊꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢗꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢎꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢎꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢝꢏꢎꢎꢃꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢎꢎꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢝꢏꢎꢎꢃꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢓꢓꢎꢎꢃꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢒꢒꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢝꢏꢎꢎꢃꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢎꢎꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢎꢖꢎꢓꢓꢊꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢒꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢎꢎꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢝꢏꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢕꢍꢎꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢎꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢐ%ꢙꢇꢎꢖꢕꢊꢛꢇꢜꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢍꢓꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢝꢏꢎꢎꢃꢛꢇꢘꢇꢓꢎꢕꢓ

%ꢎꢙꢇꢂ"ꢇꢍꢓꢃꢛꢇꢔꢇꢓꢎꢕꢓ

%ꢎꢙꢇ(ꢏꢅꢇꢝꢏꢎꢎꢃꢛꢇꢘꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢎꢇꢁ"ꢊꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢗꢖꢍꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢕꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢗꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢖꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢖꢗꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢖꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢖꢗꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕ%ꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢓꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢗꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢖꢗꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢖ%ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒ!ꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢏ%ꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢓꢔꢓꢕꢖꢗꢘꢕꢙꢔꢁꢚꢙꢗꢖꢛꢁꢔꢘꢛꢖ

ꢅꢂ%ꢎꢏ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ

ꢅꢂ%ꢎꢍ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ

ꢅꢂ%ꢎ! "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂ%ꢕꢎ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂ%ꢕꢕ "ꢅꢛꢆꢝꢏꢎꢔꢂꢄ

ꢅꢂ%ꢕꢓ "ꢅꢛꢆꢓꢓꢒꢔꢂꢄ

ꢅꢂ%ꢕꢒ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ

ꢅꢂ%ꢕꢝ "ꢅꢛꢆꢕ%ꢕꢔꢂꢄ

ꢅꢇꢂ"ꢌꢃ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢏꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕ%ꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢎꢇꢁ"ꢊꢇꢓꢎꢕꢓ

ꢅꢂꢏꢕꢓ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢕꢒ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢕꢝ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢕ% "ꢅꢛꢆꢕ%ꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢕꢗ "ꢅꢛꢆꢒ!ꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢕꢏ "ꢅꢛꢆꢕ%ꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢕ! "ꢅꢛꢆꢒꢒꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓꢎ "ꢅꢛꢆꢓꢏꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓꢕ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓꢓ "ꢅꢛꢆꢒꢒꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓꢒ "ꢅꢛꢆꢗꢓꢝꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓ% "ꢅꢛꢆꢝꢏꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓꢗ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓꢏ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢓ! "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢒꢎ "ꢅꢛꢆꢒꢒꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢒꢕ "ꢅꢛꢆꢕꢎꢎꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢒꢓ "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢒꢒ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢒꢗ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏꢒꢍ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏ%ꢕ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏ%ꢓ "ꢅꢛꢆꢗꢍꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏ%ꢝ "ꢅꢛꢆꢒꢒꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢏ%% "ꢅꢛꢆꢝꢏꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢍꢓꢓ "ꢅꢛꢆꢓꢏꢒꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢍꢓꢍ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂꢍꢓ! "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ!ꢎꢕ "ꢅꢛꢆꢓꢏꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ!ꢎꢓ "ꢅꢛꢆꢒꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ!ꢎꢒ "ꢅꢛꢆꢒꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ!ꢎꢝ "ꢅꢛꢆꢒꢎꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ!ꢎ% "ꢅꢛꢆꢓꢏꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ!ꢎꢗ "ꢅꢛꢆꢓꢏꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ!ꢎꢏ "ꢅꢛꢆꢓꢏꢓꢔꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢖ%ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢖ!ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕ%ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢏꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢗꢓꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢏꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢎꢇꢁ"ꢊꢇꢓꢎꢕꢓ

ꢅꢂ%ꢕ% "ꢅꢛꢆꢎꢎꢎ ꢂꢄ ꢅꢇꢂ"ꢌꢃ

ꢅꢂ%ꢕꢗ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂ%ꢕꢏ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂ%ꢕꢍ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ

ꢅꢂ%ꢕ! "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ

ꢅꢂ%ꢓꢎ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ

ꢅꢂ%ꢓꢕ "ꢅꢛꢆꢒꢗꢒꢔꢂꢄ

ꢅꢂ%ꢓꢓ "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ

ꢅꢂ%ꢓꢒ "ꢅꢛꢆꢍꢓꢓꢔꢂꢄ

ꢅꢂ%ꢓꢝ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ

ꢅꢂ%ꢓ% "ꢅꢛꢆꢕ%ꢒꢔꢂꢄ

ꢅꢂ%ꢓꢗ "ꢅꢛꢆꢓꢏꢒꢔꢂꢄ

ꢅꢂ%ꢓꢏ "ꢅꢛꢆꢝꢏꢒꢔꢂꢄ

ꢅꢂ%ꢓꢍ "ꢅꢛꢆꢓꢓꢕꢔꢂꢄ

ꢅꢂ%ꢓ! "ꢅꢛꢆꢓꢏꢕꢔꢂꢄ

ꢅꢂ%ꢒꢎ "ꢅꢛꢆꢓꢏꢕꢔꢂꢄ

ꢅꢂ%ꢒꢕ "ꢅꢛꢆꢓꢏꢕꢔꢂꢄ

ꢅꢂ%ꢒꢓ "ꢅꢛꢆꢒꢒꢒꢔꢂꢄ

ꢅꢂ%ꢒꢝ "ꢅꢛꢆꢒꢒꢝꢔꢂꢄ

ꢅꢂ%ꢒ% "ꢅꢛꢆꢕꢍꢝꢔꢂꢄ

ꢅꢂ%ꢒꢏ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ

ꢅꢂ%ꢒꢍ "ꢅꢛꢆꢓꢓꢒꢔꢂꢄ

ꢅꢂ%ꢒ! "ꢅꢛꢆꢕꢓꢓꢔꢂꢄ

ꢅꢂ%ꢝꢕ "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ

ꢅꢂ%ꢝꢓ "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ

ꢅꢂ%ꢝꢒ "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ

ꢅꢂ%%ꢒ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂ%%% "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ

ꢅꢂ%ꢗꢎ "ꢅꢛꢆꢝꢏꢓꢔꢂꢄ

ꢅꢂꢗꢎ% "ꢅꢛꢆꢕ%ꢒꢔꢂꢄ

ꢅꢂꢗꢎꢗ "ꢅꢛꢆꢕ%ꢒꢔꢂꢄ

ꢅꢂꢗꢕꢎ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂꢗꢕꢕ "ꢅꢛꢆꢕ%ꢓꢔꢂꢄ

ꢅꢂꢗꢓꢎ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ

ꢅꢂꢗꢓꢕ "ꢅꢛꢆꢕꢎꢝꢔꢂꢄ

ꢅꢂꢗꢓꢒ "ꢅꢛꢆꢕꢎꢒꢔꢂꢄ

ꢅꢂꢗꢒꢎ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂꢏꢎꢓ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂꢏꢎꢒ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂꢏꢎꢝ "ꢅꢛꢆ%ꢗꢓꢔꢂꢄ

ꢅꢂꢏꢎ% "ꢅꢛꢆꢕ%ꢒꢔꢂꢄ

ꢅꢂꢏꢎꢗ "ꢅꢛꢆ%ꢗꢓꢔꢂꢄ

ꢅꢂꢏꢎꢏ "ꢅꢛꢆꢕꢎꢕꢔꢂꢄ

ꢅꢂꢏꢎꢍ "ꢅꢛꢆꢕꢎꢓꢔꢂꢄ

ꢅꢂꢏꢎ! "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ

ꢅꢂꢏꢕꢎ "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ

ꢅꢂꢏꢕꢕ "ꢅꢛꢆꢓꢓꢓꢔꢂꢄ

ꢅꢇꢂ"ꢌꢃ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢗꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢖꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢍꢖꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕ%ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢓꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢏꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢒꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢍꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢖꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢖꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢖꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕ%ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢖ%ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢖꢗꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕ%ꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇ%ꢖꢗꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢖꢓꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢎꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢗꢖꢍꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢝꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢕꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢖꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢒꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢕ'ꢕꢎꢇꢓꢖꢏꢘꢇꢁ"ꢊꢇꢔꢇꢓꢎꢕꢓ

ꢜꢜꢓꢎꢎ ꢃꢆꢊꢃꢔꢎ ꢒꢕꢍ ꢃꢂꢚꢇꢊꢄꢌꢉꢇ*ꢅ"ꢑ+ꢇꢄꢋ

ꢂꢕꢎꢒ ꢂꢈ(ꢛꢕꢂꢓꢓꢓꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢒꢎꢕ ꢂꢈ(ꢛꢕꢙꢝꢏꢕꢂ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢒꢎꢓ ꢂꢂ(ꢚꢒꢄꢝꢏꢕꢘ ꢂꢇꢂꢈꢅꢄ

ꢆꢃ ꢓꢕꢙꢝꢆꢛ

ꢕꢗꢙꢇꢅꢋꢋꢇꢓꢓꢎꢎꢊꢛꢇ*ꢕꢒ(ꢓ%+ꢇꢆꢃ

ꢒ%ꢙꢇꢅꢑꢋꢇꢝꢏꢎꢊꢛꢇ*ꢕꢎ(ꢓꢎ+ꢇꢆꢃ

ꢕꢘꢙꢇꢚꢇꢝꢏꢎꢃꢛꢇꢘꢇ*ꢆ+

ꢂꢒꢎꢒ ꢂꢈ(ꢛꢕꢈꢕꢎꢓꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢒꢎ% ꢂꢊ(ꢈꢓꢄꢝꢏꢒꢔ ꢂꢇꢊꢐꢀꢄꢅ

ꢂꢝꢎ% ꢂꢂ(ꢚꢒ ꢓꢏꢕꢘ ꢂꢇꢂꢈꢅꢄ

ꢓ%ꢙꢇꢅꢋꢋꢇꢕꢎꢎꢎꢊꢛꢇ*ꢕꢒ(ꢓꢎ+ꢇꢆꢃ

ꢕꢎꢎꢙꢇꢃꢑꢇꢎꢖꢎꢝꢏꢊꢛꢇꢔ

ꢓꢘꢙꢇꢚꢇꢓꢏꢎꢃꢛꢇꢘꢇ*ꢆ+

ꢂꢝꢓꢕ ꢂꢈ(ꢛꢓꢈꢒꢒꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢗꢎꢗ ꢂꢈ(ꢛꢕꢂꢝꢏꢕꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢏꢎꢝ ꢂꢈ(ꢛꢕꢂꢕꢎꢓꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢕ% ꢂꢈ(ꢛꢓꢂꢕꢎꢕꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢕꢍ ꢂꢈ(ꢛꢓꢂꢕꢎꢕꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢓꢎ ꢂꢈ(ꢛꢕꢈꢕꢎꢓꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢓꢏ ꢂꢈ(ꢛꢕꢂꢓꢓꢓꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢒꢎ ꢂꢈ(ꢛꢕꢂꢝꢏꢕꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ!ꢎꢗ ꢂꢚ(ꢚꢒ ꢕꢎꢓꢘ ꢂꢇꢂꢈꢅꢄꢇꢋꢈꢊꢌ

ꢓ%ꢎꢙꢇꢅꢋꢋꢇꢒꢒꢊꢛꢇ*ꢕꢒ(ꢓ%+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢎꢊꢛꢇ*ꢕꢎ(ꢕꢓꢖ%+ꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢕꢎꢎꢎꢊꢛꢇ*ꢕꢎ(ꢓꢎ+ꢇꢆꢃ

ꢕꢗꢎꢙꢇꢅꢋꢋꢇꢕꢎꢎꢊꢛꢇ*ꢕꢗ(ꢓ%+ꢇꢆꢃ

ꢓ%ꢙꢇꢅꢋꢋꢇꢕꢎꢎꢎꢊꢛꢇ*ꢕꢒ(ꢓꢎ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢓꢓꢎꢎꢊꢛꢇ*ꢕꢒ(ꢓ%+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢎꢊꢛꢇ*ꢕꢎ(ꢕꢓꢖ%+ꢆꢃ

ꢓꢘꢙꢇꢚꢀ*ꢉ+ꢇꢕꢎꢎꢎꢃꢛꢇꢘꢇ*ꢆ+

ꢅꢋꢓꢎꢍ

ꢇꢇ)ꢇꢇꢇꢀꢍꢎꢎ %ꢍ&ꢎꢎꢎꢎꢎ!ꢒ

ꢂꢁꢌꢀꢇ ꢈꢀꢄꢐꢇꢀꢌꢉꢈ

ꢜꢜꢓꢎꢎ ꢃꢆꢊꢃꢔꢚ ꢒꢕꢍ ꢃꢂꢚꢇꢊꢄꢌꢉꢇꢊ ꢕꢎꢇꢄꢋ

ꢇꢇꢇꢕꢎ ꢓꢆꢊꢕꢍꢎꢎꢗꢚꢈ ꢆꢄꢃꢈꢇꢊꢄꢋꢘꢌꢉ#

ꢆꢃ ꢓꢕꢙꢝꢆꢛ

ꢗꢖꢓ(%ꢎꢎ

ꢃꢕꢎꢕ ꢝꢍ%!ꢓꢒꢕꢗꢓꢋ

ꢂꢁꢉꢉꢇ$ꢄꢛꢈꢅ

ꢐ$ꢎꢓ% ꢎꢒꢇ*ꢋꢆꢌꢂꢘ+

ꢓꢔꢓꢕꢖꢗꢘꢕꢙꢔꢁꢚꢙꢗꢖꢛꢁꢔꢘꢛꢖ

ꢃꢗꢎꢕ ꢝꢍ%!ꢓꢒꢕꢗꢓꢋ

ꢅꢝꢎꢓ ꢅꢋꢎꢓꢜꢕꢎꢒꢔꢋ

ꢅꢝꢎꢒ ꢅꢋꢎꢕꢜꢝꢏ!ꢔ

ꢅꢍꢎꢍ ꢅꢋꢎꢓꢜꢍꢓꢍꢔꢋ

ꢅꢍꢕ! ꢅꢋꢎꢓꢜꢓꢏꢍꢔꢋ

ꢂꢁꢉꢉꢇ$ꢄꢛꢈꢅ

ꢐ$ꢎꢓ% ꢎꢒꢇ*ꢋꢆꢌꢂꢘ+

ꢂ!ꢎ% ꢂꢊ(ꢀꢓꢈꢕꢎꢝꢘ ꢂꢇꢊꢐꢀꢄꢅ

ꢓ%ꢎꢙꢇꢊꢈꢑꢇꢎꢖꢕꢊꢛꢇꢘ

ꢃꢛꢂ%ꢎꢎꢎ ꢎꢏꢎꢓ

ꢘꢆꢂꢒꢕ!ꢍꢐ

ꢅꢇꢊ ꢁ(ꢌ ꢈꢇꢛꢌꢀꢊ

ꢓ$ꢇꢕꢎꢘꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢕ$ꢇꢝꢖꢏꢇꢁ"ꢊꢇꢔꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢓ$ꢇꢎꢖꢍꢓꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢓ$ꢇꢎꢖꢓꢏꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢆꢃ ꢓꢕꢙꢝꢆꢛ

ꢛꢍꢎꢕꢄ ꢝꢍ%ꢏꢝꢕ%ꢎꢎꢕ

ꢛꢍꢎꢕꢚ ꢝꢍ%ꢏꢝꢕ%ꢎꢎꢕ

ꢂꢀꢌꢃꢇꢛꢑꢋꢈ

&ꢕꢎ% ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

&ꢝꢎꢕ ꢆꢘꢆꢂꢒꢓꢎꢏ ꢆꢅ

ꢘꢆꢂꢒꢓꢎꢏꢇ*ꢆꢃ+

ꢜꢜꢓꢎꢎ ꢃꢆꢊꢃꢔꢅ ꢒꢕꢍ ꢃꢂꢚꢇꢊꢄꢌꢉꢇꢅꢄ ꢌꢄꢀꢇꢄꢋ

ꢂꢕꢎꢕ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢕꢎꢓ ꢂꢈ(ꢛꢕ"ꢝꢏ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢒꢎꢝ ꢂꢈ(ꢛꢕ"ꢕꢎꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢒꢎꢗ ꢂꢈ(ꢛꢕꢙꢕꢎꢕꢂ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢒꢎꢏ ꢂꢊ(ꢚꢕ"ꢓꢓꢝꢔ ꢂꢇꢊꢐꢀꢄꢅ

ꢂꢒꢕꢒ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢝꢎꢓ ꢂꢈ(ꢛꢓꢂꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢝꢎꢗ ꢂꢂ(ꢚꢓ"ꢕꢎꢓꢘ ꢂꢇꢂꢈꢅꢄ

&%ꢎꢕ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

&%ꢎꢓ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

ꢘꢆꢂꢒꢕ!ꢍꢐ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢝꢖꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢎꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢒ%ꢙꢇꢅꢑꢋꢇꢕꢎꢎꢊꢛꢇ*ꢍ(ꢕꢕꢖ%+ꢇꢆꢃ

%ꢎꢙꢇꢈꢑꢇꢎꢖꢓꢓꢊꢛꢇꢔꢇ*ꢆꢃ+

%ꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*ꢗꢖꢒ(ꢕꢕ+ꢇꢆꢃ

%ꢎꢎꢙꢇꢚꢇꢕꢎꢎꢎꢃꢛꢇꢘꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢕꢎꢎꢙꢇꢎꢖꢕꢊꢛꢇꢔꢇ*ꢆꢃ+

ꢘꢆꢂꢒꢕ!ꢍꢐ

&%ꢎꢒ ꢆꢘꢆꢄꢕꢓꢗꢗꢐ

&%ꢎ% ꢆꢘꢆꢄꢕꢓꢗꢗꢐ

ꢆꢅ

ꢘꢆꢄꢕꢓꢗꢗꢐꢇ*ꢆꢃ+

ꢘꢆꢂꢒꢕ!ꢍꢐ

&%ꢎꢗ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

&ꢗꢎꢕ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

ꢘꢆꢂꢒꢕ!ꢍꢐ

&ꢗꢓꢎ ꢆꢘꢆꢄꢕꢓꢗꢗꢐ

&ꢏꢎꢕ ꢆꢘꢆꢄꢕꢓꢗꢗꢐ

ꢆꢅ

ꢘꢆꢄꢕꢓꢗꢗꢐꢇ*ꢆꢃ+

ꢘꢆꢂꢒꢕ!ꢍꢐ

&ꢏꢎꢓ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

ꢂꢝꢕꢎ ꢂꢊ(ꢊꢓꢄꢕꢎꢝꢔ ꢂꢇꢊꢐꢀꢄꢅ

ꢂꢝꢓꢎ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢎꢕ ꢂꢈ(ꢛꢕ"ꢝꢏꢍꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢎꢓ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢎꢒ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢎꢝ ꢂꢈ( ꢕ"ꢓꢓ!ꢛ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢎꢗ ꢂꢈ( ꢕ"ꢓꢓ!ꢛ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢎꢏ ꢂꢈ(ꢛꢕꢂꢕꢎꢕꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢕꢕ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢕꢓ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢕꢒ ꢂꢈ(ꢛꢕ"ꢕꢎꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢕꢝ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢕ% ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢕꢗ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢕꢏ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢓꢎ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢓꢓ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢓꢒ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ%ꢓꢝ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢗꢎꢕ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢗꢎꢓ ꢂꢈ(ꢛꢕ"ꢕꢎꢍꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢗꢕꢕ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢗꢓꢎ ꢂꢈ(ꢛꢕ"ꢕꢎꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢏꢎꢓ ꢂꢈ(ꢛꢕ"ꢕꢎ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢏꢎꢒ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢏꢎꢗ ꢂꢈ(ꢛꢕ"ꢝꢏꢍꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢎꢒ ꢂꢂ(ꢛꢒꢄꢝꢏꢓꢜ ꢂꢇꢂꢈꢅꢄ

&ꢏꢎꢒ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

ꢘꢆꢂꢒꢕ!ꢍꢐ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢎꢖꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢉ ꢇꢓꢖꢓꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢕꢎꢎꢊꢛꢇ*ꢗꢖꢒ(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢎꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢎꢖꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢎꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢎꢖꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢘꢙꢇꢛꢇꢝꢏꢎꢎꢃꢛꢇꢜꢇ*ꢆ+

&ꢏꢎꢝ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

ꢘꢆꢂꢒꢕ!ꢍꢐ

&ꢏꢎ% ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

ꢘꢆꢂꢒꢕ!ꢍꢐ

&ꢏꢕꢎ ꢆꢘꢆꢂꢒꢕ!ꢍꢐ ꢆꢅ

ꢘꢆꢂꢒꢕ!ꢍꢐ

&ꢍꢎꢓ ꢆꢘꢋꢄꢕꢎꢕꢒꢐ ꢆꢅ

ꢘꢋꢄꢕꢎꢕꢒꢐꢇ*ꢆꢃ+

ꢓ$ꢇꢓꢖꢓꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢓ$ꢇꢓꢏꢎꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢓ$ꢇ!ꢕꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢓ$ꢇꢒꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢕ$ꢇꢕꢖꢒꢘꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢕ$ꢇꢒꢎꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢓ$ꢇꢕꢍꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢕ$ꢇꢕꢓꢎꢘꢇꢁ"ꢊꢇꢔꢇꢋꢊꢄꢀꢀ

ꢋꢘ"ꢙꢕꢏ!ꢕꢎꢄ

ꢅꢒꢎꢓ ꢅꢉꢎꢓꢚꢓꢓ!ꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅꢒꢎꢒ ꢅꢉꢎꢓꢚꢓꢏꢕꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅꢒꢎꢏ ꢅꢉꢎꢓꢚ!ꢕꢎꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅꢒꢎꢍ ꢅꢉꢎꢓꢚ!ꢕꢎꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅꢒꢎ! ꢅꢉꢎꢓꢚ!ꢕꢎꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅꢒꢕꢎ ꢅꢉꢎꢓꢚ!ꢕꢎꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢇꢇ)ꢇꢇꢇꢅꢝꢎꢕ ꢅꢉꢎꢓꢚꢒꢒꢓꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢇꢇ)ꢇꢇꢇꢅꢝꢎꢝ ꢅꢉꢎꢓꢚꢒꢒꢓꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅꢝꢕꢎ ꢅꢉꢎꢕꢚꢕꢒꢓꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅ%ꢎꢒ ꢅꢉꢎꢕꢚꢒꢎꢎꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅꢍ%ꢎ ꢅꢉꢎꢓꢚꢕꢍꢎꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅ!ꢎꢕ ꢅꢉꢎꢕꢚꢕꢓꢝꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅ!ꢎꢓ ꢅꢉꢎꢕꢚꢕꢓꢝꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢅ!ꢎꢒ ꢅꢉꢎꢕꢚꢕꢓꢝꢔꢋ ꢅꢇꢊꢈꢆꢄꢀꢇꢛꢌꢀꢊ

ꢋ$ꢏꢎꢕ %ꢋ%ꢎꢕꢎꢕꢎ!ꢎ

ꢋ$ꢏꢎꢓ %ꢋ%ꢎꢕꢎꢕꢎ!ꢎ

ꢋ$ꢏꢎꢒ %ꢋ%ꢎꢕꢎꢕꢎ!ꢎ

ꢋ$ꢏꢎꢝ %ꢋ%ꢎꢕꢎꢕꢎ!ꢎ

ꢋ$ꢏꢎ% %ꢋ%ꢎꢕꢎꢕꢎ!ꢎ

ꢋ$ꢇꢆꢄꢂꢆ

ꢋꢘ"ꢙꢕꢏ!ꢕꢎꢄ

(%ꢎꢕ %(ꢈ(ꢝꢅꢝꢒꢒꢚ ꢂꢅꢐꢋꢆꢄꢀꢇ&ꢑꢄꢅꢆꢜ

(%ꢎꢓ %(ꢈ(ꢒꢅ%ꢏ!ꢚ ꢂꢅꢐꢋꢆꢄꢀꢇ&ꢑꢄꢅꢆꢜ

(ꢏꢎꢕ %(ꢈ(ꢝꢅꢎꢎꢎꢂ ꢂꢅꢐꢋꢆꢄꢀꢇ&ꢑꢄꢅꢆꢜ

ꢜꢜꢓꢎꢎ ꢃꢆꢊꢃꢔꢄ ꢒꢕꢍ ꢃꢂꢚꢇꢊꢄꢌꢉꢇꢄ(ꢌꢄꢀꢇꢇꢄꢋ

ꢇꢇꢇꢕꢎ ꢓꢆꢊꢕꢝꢎꢎꢗꢀꢚ ꢆꢄꢃꢈꢇꢊꢄꢋꢘꢌꢉ#

ꢇꢇꢇꢓꢎ ꢓꢆꢊꢕꢎꢎꢎꢗꢀꢚ ꢆꢄꢃꢈꢇꢊꢄꢋꢘꢌꢉ#

"ꢂ ꢝ!ꢑꢇꢝꢖꢝꢒꢒꢗꢕꢊꢇꢕ%ꢃꢃꢊꢇꢆꢃꢇ

"ꢂ ꢝ!ꢑꢇꢒꢖ%ꢏ!%ꢝꢊꢇꢕ%ꢃꢃꢊꢇꢆꢃꢇ

"ꢂ ꢝ!ꢑꢇꢝꢖꢎꢎꢎꢎꢊ"ꢜꢇ*ꢆꢃ+

ꢆꢃ ꢓꢕꢙꢝꢆꢛ

ꢂꢍꢎꢝ ꢂꢂ(ꢛꢒꢄꢝꢏꢓꢜ ꢂꢇꢂꢈꢅꢄ

ꢕꢘꢙꢇꢛꢇꢝꢏꢎꢎꢃꢛꢇꢜꢇ*ꢆ+

ꢂꢍꢕꢗ ꢂꢂ(ꢚꢒꢄꢝꢏꢕꢘ ꢂꢇꢂꢈꢅꢄ

ꢕꢘꢙꢇꢚꢇꢝꢏꢎꢃꢛꢇꢘꢇ*ꢆ+

ꢒꢊꢇ.ꢓꢒꢓꢇꢗꢖꢎ(ꢓꢎꢎꢎꢊ

ꢒꢊꢇ.ꢓꢒꢓ ꢊꢄꢃ ꢂꢇꢗꢖꢓ(ꢓꢎꢎꢎꢊ

ꢓꢝꢗ(ꢓꢝꢗꢇ ꢕꢚ

ꢂꢍꢕ! ꢂꢈ(ꢛꢓꢄꢕꢎꢎꢂ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢓꢓ ꢂꢈ(ꢛꢕꢂꢕꢎꢕꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢓꢒ ꢂꢂ(ꢚꢒꢄꢝꢏꢕꢘ ꢂꢇꢂꢈꢅꢄ

ꢅꢑꢋꢇꢕꢎꢎꢙꢇꢕꢎꢊꢛꢇ%2ꢕꢕ

ꢕꢗꢙꢇꢅꢋꢋꢇꢕꢎꢎꢊꢛꢇ*ꢗꢖꢒ(ꢕꢕ+ꢇꢆꢃ

ꢕꢘꢙꢇꢚꢇꢝꢏꢎꢃꢛꢇꢘꢇ*ꢆ+

ꢄꢎꢎꢕ ꢝꢍ%!ꢍꢎꢒ%!ꢒ

ꢕꢎꢕ ꢕꢉꢝꢕꢝꢍ

ꢕꢎꢒ ꢕꢋꢋꢍ%ꢆꢄ

ꢕꢎ% ꢑꢜꢒꢒꢚ

ꢕꢎꢗ ꢕꢉꢝꢕꢝꢍ

ꢕꢎꢏ ꢑꢜ%ꢅꢕꢚ

ꢒꢎꢕ ꢉꢚꢐ ꢒꢒ#ꢆ

ꢒꢎꢒ ꢉꢚꢐ ꢒꢒ#ꢆ

ꢝꢎꢓ ꢉꢚꢐ ꢒꢒ#ꢆ

ꢝꢎꢒ ꢉꢚꢐ ꢒꢒ#ꢆ

ꢝꢕꢎ ꢑꢜ%ꢅꢕꢚ

ꢃꢂꢚꢇꢊꢄꢌꢉ

ꢌꢁ

ꢈ

ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢕꢋꢋꢍ%ꢆꢄ

ꢂꢍꢓꢝ ꢂꢂ(ꢚꢒꢄꢝꢏꢕꢘ ꢂꢇꢂꢈꢅꢄ

ꢕꢘꢙꢇꢚꢇꢝꢏꢎꢃꢛꢇꢘꢇ*ꢆ+

ꢂꢍꢓ% ꢂꢈ(ꢛꢕ"ꢓꢓꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢓꢗ ꢂꢈ(ꢛꢕ"ꢝꢏ!ꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢓꢍ ꢂꢈ(ꢛꢕꢂꢕꢎꢕꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢓ! ꢂꢈ(ꢛꢕ"ꢕꢎꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂꢍꢝꢕ ꢂꢂ(ꢛꢕ"ꢕꢎꢒꢜ ꢂꢇꢂꢈꢅꢄ

%ꢎꢙꢇꢅꢋꢋꢇꢓꢓꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢝꢖꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢕꢗꢙꢇꢅꢋꢋꢇꢕꢎꢎꢊꢛꢇ*ꢗꢖꢒ(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢅꢋꢋꢇꢕꢎꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

%ꢎꢙꢇꢛꢇꢎꢖꢎꢕꢊꢛꢇꢜꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢕꢘꢙꢇꢚꢇꢕꢎꢎꢎꢃꢛꢇꢘꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢕꢗꢙꢇꢅꢋꢋꢇꢝꢏꢊꢛꢇ*%(ꢕꢕ+ꢇꢆꢃ

ꢓ%ꢎꢙꢇꢊꢈꢑꢇꢎꢖꢕꢊꢛꢇꢘ

ꢌꢁ ꢈꢇꢜꢈꢉꢈꢅ

ꢌꢁ

ꢌꢁ ꢈꢇꢜꢈꢉꢈꢅ

ꢑꢜ ꢒꢒꢚ

ꢈ

ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢑꢜ %ꢖꢕꢚꢇꢑꢉꢌꢜꢁꢉ

ꢚꢐ ꢒꢒ# ꢆ

ꢌꢁ

ꢈ

ꢚꢐ ꢒꢒ# ꢆ

ꢂꢍꢝꢓ ꢂꢂ(ꢚꢒꢄꢕꢎꢓꢘ ꢂꢇꢂꢈꢅꢄ

ꢚꢐ ꢒꢒ# ꢆ

ꢂꢍ%ꢎ ꢂꢈ(ꢛꢕꢂꢝꢏꢎꢙ ꢂꢇꢈꢀꢈꢂꢆꢅꢁ

ꢂ!ꢎꢓ ꢂꢊ(ꢀꢓꢈꢕꢎꢝꢘ ꢂꢇꢊꢐꢀꢄꢅ

ꢚꢐ ꢒꢒ# ꢆ

ꢌꢁ ꢈꢇꢜꢈꢉꢈꢅ

ꢑꢜ %ꢖꢕꢚꢇꢑꢉꢌꢜꢁꢉ

ꢓꢔꢓꢕꢖꢗꢘꢕꢙꢔꢁꢚꢙꢗꢖꢛꢁꢔꢘꢛꢖ

ꢝ%ꢎ ꢕꢉꢝꢕꢝꢍ

ꢝ%ꢓ ꢕꢉꢝꢕꢝꢍ

%ꢎꢕ ꢑꢜ%ꢅꢗꢚꢊ

%ꢎꢓ ꢑꢜ%ꢅꢗꢚꢊ

%ꢎꢒ ꢑꢜ%ꢅꢗꢚꢊ

%ꢎꢝ ꢑꢜ%ꢅꢗꢚꢊ

%ꢎ% ꢑꢜ%ꢅꢗꢚꢊ

%ꢎꢗ ꢑꢜ%ꢅꢗꢚꢊ

%ꢎꢏ ꢑꢜ%ꢅꢗꢚꢊ

%ꢎꢍ ꢕꢉꢝꢕꢝꢍ

%ꢎ! ꢕꢉꢝꢕꢝꢍ

%ꢕꢎ ꢑꢜ%ꢅꢕꢚ

%ꢕꢓ ꢕꢉꢝꢕꢝꢍ

%ꢕꢒ ꢕꢉꢝꢕꢝꢍ

%ꢕꢝ ꢕꢉꢝꢕꢝꢍ

ꢗꢎꢕ ꢑꢜ%ꢅꢗꢚꢊ

ꢗꢎꢓ ꢑꢜ%ꢅꢗꢚꢊ

ꢗꢎꢒ ꢑꢜ%ꢅꢗꢚꢊ

ꢗꢕꢎ ꢕꢉꢝꢕꢝꢍ

ꢗꢓꢎ ꢕꢉꢝꢕꢝꢍ

ꢏꢎꢕ ꢑꢜꢒꢅ!ꢚ

ꢏꢎꢝ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢏꢓꢎ ꢕꢉꢝꢕꢝꢍ

ꢍꢎꢍ ꢕꢉꢝ!ꢒꢗ#ꢃ

ꢍꢕꢎ ꢕꢉꢝ!ꢒꢗ#ꢃ

ꢍꢕꢓ ꢕꢉꢝ!ꢒꢗ#ꢃ

ꢍꢕꢗ ꢊꢆꢜꢔꢕꢎꢚ

ꢍꢓꢎ ꢕꢉꢝꢕꢝꢍ

ꢍꢒ% ꢅꢓꢊ

ꢍꢒꢏ ꢀꢆꢓꢄꢎ%#

ꢍꢒꢍ ꢀꢆꢓꢄꢎ%#

ꢍꢒ! ꢀꢆꢓꢄꢎ%#

ꢍꢝꢎ ꢀꢆꢓꢄꢎ%#

ꢔꢎꢎꢒ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢎ% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎꢎ! ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢕꢎ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢕꢕ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎꢕꢝ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢕ% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢕꢗ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢕꢏ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢕꢍ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢕ! ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢓꢎ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎꢓ% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢓꢏ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢈ

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ꢔꢎꢓꢍ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎꢒꢕ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎꢒ! ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢝꢓ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢝꢒ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎꢝ% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢝꢗ ꢅ ꢝꢜꢕꢎꢕꢔ

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ꢔꢎ%ꢕ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎ%ꢒ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ%ꢝ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ%% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ%ꢏ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ%ꢍ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ%! ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗꢎ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗꢕ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗꢝ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗ% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗꢗ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗꢏ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗꢍ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢗ! ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏꢎ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏꢕ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢔꢎꢏꢒ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏꢝ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏ% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏꢗ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏꢏ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏꢍ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢏ! ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍꢎ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍꢕ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍꢓ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍꢝ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍ% ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍꢗ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍꢏ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍꢍ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎꢍ! ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ!ꢎ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

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ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢌꢁ

ꢈ

ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢌꢁ ꢈꢇꢜꢈꢉꢈꢅ

ꢑꢜ %ꢖꢕꢚꢇꢑꢉꢌꢜꢁꢉ

ꢌꢁ

ꢈ

ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢌꢁ ꢈꢇꢜꢈꢉꢈꢅ

ꢑꢜ %ꢖꢗꢚꢊ*ꢆꢄꢃꢃꢌꢉ#+

ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢄ$#ꢓꢓꢇꢕ'ꢎꢖꢗ%ꢇꢆꢌꢉꢇꢂꢁꢄꢆꢌꢉ#

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ꢈ

ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

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ꢑꢜ ꢒꢖ!ꢚ

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ꢈ

ꢕꢉꢝ!ꢒꢗ#ꢃꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢊꢆꢜꢔꢇꢕꢎꢚꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢕꢉꢝꢕꢝꢍꢇ*ꢆꢄꢃꢃꢌꢉ#+

ꢌꢁ ꢈꢇꢜꢈꢉꢈꢅ

ꢌꢁ

ꢌꢁ ꢈꢇꢜꢈꢉꢈꢅ

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ꢅꢓꢊ

ꢌꢁ

ꢈ

ꢀꢆꢓꢄꢎ%#ꢇ*ꢆꢃ+

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ꢔꢎ!ꢕ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ!ꢓ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ!ꢒ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

ꢔꢎ!ꢝ ꢍ%ꢍꢎꢕꢎꢗ%#ꢐ

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ꢅ%ꢕꢓ ꢅ ꢝꢜꢏ%ꢎꢔ

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ꢅꢏꢕ% ꢅ ꢝꢜꢕꢎꢓꢔ

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ꢅꢏꢒ% ꢅ ꢝꢜꢕꢎꢒꢔ

ꢅꢏꢒꢗ ꢅ ꢝꢜꢓꢓꢝꢔ

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ꢕ'ꢝꢇꢏ%ꢇꢁ"ꢊꢇꢔ

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Mechanical Exploded View

Important Service Notes

Connect at 1500 ohm 10 watt resistor, paralleled by a 0.15 mfd. AC type

capacitor, between a known good earth ground (water pipe, conduit etc.)

and the exposed metallic parts, one at a time. Measure the AC voltage

across the combination of 1500 ohm resistor and 0.15 mfd capacitor. Volt-

age measured must not exceed 0.3 volts RMS. This corresponds to 0.2 mill-

liamp. AC. Any value exceeding the limit constitutes a potential shock

hazard and must be corrected immediately.

1. X-ray Radiation Rrecaution

1) Excessive high voltage can produce potentially hazardous X-RAY RADIA-

TION. To avoid such hazards, the high voltage must not be above the spec-

ified limit. The nominal value of the high voltage of this receiver is

25.5kv(20”/21”) & 23.5kv(14”)at zero beam current (minimum brightness)

under a 120V/220V AC power source. The high voltage must not, under any

circumstances, exceed 28kv(20”/21”) & 26kv(14”). Each time a receiver

requires servicing, the high voltage should be checked following the HIGH

VOLTAGE CHECK procedure on page 10 of this manual. It is recom-

mended as a parts of the service record. It is important to use an accurate

and reliable high voltage meter.

AC VOLT METER

2) This receiver is equipped with X-RADIATION PROTECTION circuit which

prevents the receiver from producing an excessively high voltage even if the

B+voltage increases abnormally. Each time the receiver is serviced, X-

RADIATION PROTECTION circuit must be checked to determine that the

circuit is properly functioning, following the X-RADIATION PROTECTION

CIRCUIT CHECK procedure on page 6 of this manual.

0.15uF

1500 OHM

Place this probe

on each exposed

metallic part.

Good earth ground

such as d water

pipe, conduit, etc.

3) The only source of X-RAY RADIATION in this TV receiver is the picture tube.

For continued X-RAY RADIATION protection, the replacement tube must be

exactly the same type tube as specified in the parts list.

10WATT

4) Some parts in this receiver have special safety-related characteristics for X-

RAY RADIATION protection. For continued safety, parts replacement

3. Product Safety Notice

should be undertaken only after referring to the PRODUCT SAFETY Many electrical and mechanical parts in this chassis have special safety-related

NOTICE below.

characteristics. These characteristics are often passed unnoticed by a visual

inspection and the protection afforded by them cannot necessarily be obtained

by using replacement components rated for higher voltage, wattage, etc.

Replacement parts which have these special safety characteristics are identi-

fied in this manual and its supplements; electrical components having such fea-

tures are identified by shading on the schematic diagram and the parts list.

Before replacing any of these components, read the parts list in this manual

carefully. The use of substitute replacement parts which do not have the same

safety characteristics as specified in the parts list may create X-ray radiation or

other hazards.

2. Safety Precaution

WARNING: Service should not be attempted by anyone unfamiliar with the

necessary precaution on this receiver. The following are the necessary precau-

tion to be observed before servicing.

1) Since the chassis of this receiver has hazardous potential to ground when-

ever the receiver is plugged in (floating chassis), an isolation transformer

must be used during servicing to avoid shock hazard.

2) Always discharge the picture tube anode to the CRT conductive coating the

picture tube. The picture tube is highly evacuated and if broken, glass frag-

4. Service Notes

ments will be violently expelled. Use shatterproof goggles and keep picture 1) When replacing parts or circuit boards, clamp or bend the lead wires to termi-

tube away from the body while handling. nals before soldering.

3) When placing chassis in the cabinet, always be certain that all the protective 2) When replacing a high wattage resistor (metal oxide film resistor) in the cir-

devices are put back in place, such as; nonmetallic control knobs, insulat-

ing covers, shields, isolation resistor-capacitor network, etc.

cuit board, keep the resistor min 1/2 inch away form circuit board.

3) Keep wires away from high voltage or high temperature components.

4) Before returning the set to the customer, always perform an AC leakage cur-

rent check on the exposed metallic parts of the cabinet, such as antennas,

terminals, screw-heads, metal overlays, control shafts etc. to be sure the set

is safe to operate without danger of electrical shock. Plug the AC line cord

directly into a 120V AC outlet (do not use a line isolation transformer during

this check). Use an AC voltmeter having 5000 ohms per volt or more sensi-

tivi-ty in the following manner.

DAEWOO ELECTRONICS CO., LTD.

C.P.OBOX8003 SEOUL, KOREA

Tel : 82-2-360-7798

Fax : 82-2-360-7877

E-mail : [email protected]

Printed in Apr. 2000

Alignment Instructions

2. SCREEN

SVC v0

1) Receive the Retma pattern and heat run over 15minutes.

2) Adjust the “R, G BIAS, R, G DRIVE” to 0, “B BIAS” to

127, “B DRIVE” to 32.

Adjust the screen volume that the Retma pattern reachs

the cut-off point.

159

136

127

107

113

R BIAS

G BIAS

B BIAS

R DRIVE

G DRIVE

B DRIVE

V. CENTER

V. SIZE

H. CENTER

VCO

VCO FIN

VCO-L

VCO-L FIN

AGC

LED EAST

ENTER SERVICE MODE

1. Select the Pr 91.

2. Adjust “ Sparpness “ to 0.

3. Enter the service mode

using the follow keys.

3. WHITE BALANCE

1) Receive the Full white pattern and heat run over

15minutes.

MENU.

2) Adjust the picture control at the point “X” value of white

balance instrument in 20cd/m

3) Enter the service mode.

4) Adjust “R BIAS, G BIAS” to x=288, y=301.

5) In order to exit the service mode power off the TV set and

power on.

6) Set the TV set to “Normal I” mode(20/21 inch) or set to

“Normal II” mode(14 inch)

7) Enter the service mode.

8) Adjust “R DRIVE, G DRIVE” to x=288, y=301.

9) Repeat above process until the white balance value to

x=288, y=301, X=20, x=288, y=301, X=200

(approximate) in 2) -8).

4. FOCUS

1. AFT

1) Apply a RETMA PATTERN signal.

2) Adjust the Focus Volume on FBT to obtain optimal

resolution.

1) Set a signal Generator with

- RF FREQUENCY = 38.9MHz, 34.2MHz (L’)

- RF OUTPUT LEVEL = 80+/-5dBuV

- System = PAL for 38.9MHz.

SECAM-I for 43.2MHz.

5. AGC

1) Set a pattern Generator with

2) Connect the Signal Generator RF Output

(PAL 38.9MHz) to P101 (Tuner IF Output).

There must be no signal input to the tuner.

- RF LEVEL = 60dBuV

- 100% FULL COLOR BAR

3) Locate the cusor to “VCO” in Service Mode Menu,

then press the “Vol +” key and wait until the

“Please wait” disappear on the TV screen.

4) Connect the Signal Generator RF Output

(SECAM-L 34.2MHz) to P101 (Tuner IF Output).

5) Locate the cusor to “VCO-L” in Service Mode Menu,

then press the “Vol +” key and wait until the

“Please wait” disappear on the TV screen.

2) Connect the Pattern Genetator RF Output to tuner

RF input.

3) Connect the probe of oscilloscope in AGC pin of tuner.

4) Adjust the AGC point to MAX - 1V.

( Simple Method )

1) Receive the pattern.

2) Locate the cusor in “AGC” and adjust using the

“VOL +” or “VOL -” keys.

3) Adjust the point there is no noise in about 60dBuV and no

beat in about 90dBuV.

6. GEOMETRY

6.1 VERTICAL CENTER

1) Set the TV to “NORMAL I” mode.

2) Enter the service mode.

3) Locate the cusor at “V.CENTER” then press “VOL +”

or “VOL -” keys to adjust the center line with the

mechanical center marks of the CRT.

6.2 VERTICAL SIZE

* The VERTICAL CENTER adjustment has to be done in advance.

1) Receive the Retma pattern.

2) Set the TV to “NORMAL I” mode.

3) Enter the service mode.

4) Locate the cursor at “V.SIZE” then press “VOL +”

or “VOL -” keys to adjust the upper part of the picture.

6.3 HORIZONTAL CENTER

1) Apply a RETMA PATTERN signal.

2) Set the TV to “NORMAL I” mode.

3) Enter the service mode.

4) Locate the cursor at “H.CENTER” then press “VOL +”

or “VOL -” keys to adjust the picture centering.

if EEPROM(I702) has been changed;

- Option data has to be change and

- all alignment function has to be readjusted

* The initial state of adjustment are as follows;

- V-Center, V-Size, H-Center, R, G, B, AFT = Center (

- AGC =

)

* Service Remocon

LOC

D107

PART CODE

PART NAME

PART DESCRIPTION

LOC

PART CODE

PART NAME

PART DESCRIPTION

LOC

R501

PART CODE

RD-4Z101J-

RN01B300JS

RD-4Z750J-

RD-4Z101J-

RD-4Z104J-

RD-4Z102J-

RD-4Z101J-

RD-2Z102J-

RD-4Z511J-

RD-4Z362J-

RD-4Z102J-

RD-4Z332J-

RD-4Z103J-

RD-4Z224J-

RD-4Z473J-

PART NAME

R CARBON FILM

R METAL FILM

PART DESCRIPTION

1/4 100 OHM J

DUZ5R1B---

D1N4937G--

DDG3------

DIODE ZENER

DIODE

UZ-5.1B UNIZON

1N4937G (TAPPING)

DG3

AWG22 1/0.65 TIN

COATING

Electrical Parts List

L603

85801065GY

5CPZ109M02

85801065GY

WIRE COPPER

COIL PEAKING

WIRE COPPER

D301,3

D402~3

D404

R502

R503

R512

R521

R525

R526

R532

R601

R602

R611

R715

R723

R735

R736

R753

R801

R802

R803

R804

1/4 100 OHM J

is a recommendable part for stock.

DIODE

L604

L606

1UH M (AXIAL 3.5MM)

AWG22 1/0.65 TIN

COATING

1W 30 OHM J SMALL

1/4 75 OHM J

is safety component, so it must be used the same component.

DIODE

R CARBON FILM

D410

DUZ5R1B---

D1N4148---

DUZ5R6BM--

D1N4148---

DUZ5R1B---

D1N4148---

DUZ5R6BM--

D1N4148---

DUZ3R9B---

DIODE ZENER

DIODE

UZ-5.1B UNIZON

1N4148 (TAPPING)

UZ-5.6BM(TAPPING)

1N4148 (TAPPING)

UZ-5.1B UNIZON

1N4148 (TAPPING)

UZ-5.6BM(TAPPING)

1N4148 (TAPPING)

UZ-3.9B

1/4 100 OHM J

LOC

PART CODE

PART NAME

TRANSMITTER

REMOCON

PART DESCRIPTION

LOC

PART CODE

PART NAME

PART DESCRIPTION

LOC

PART CODE

PART NAME

PART DESCRIPTION

D450

L701

L702

L800

L801

L802

L803

L805

L806

M681

M721

P401

P601

P801

P802

5CPZ100K02

5CPZ569K02

58Q0000093

5PLF24A3--

5MC0000100

58C4500079

5CPZ390K04

4856812001

4857235402

4859240020

485923162S

4859287320

4859242220

COIL PEAKING

COIL DELAY LINE

FILTER LINE

10UH K (AXIAL 3.5MM)

5.6UH K (AXIAL 3.5MM)

RS208

1/4 100K OHM J

C410

CMXM2A104J C MYLAR

100V 0.1MF J (TP)

63V 1MF K (7.5MM)

16V RSS 47MF (5X11) TP

250V RSS 33MF (13X25) TP

50V RSS 0.47MF (5X11) TP

50V RSS 1MF (5X11) TP

16V RSS 47MF (5X11) TP

50V RND 2.2MF (5X11) TP

16V RSS 100MF

ZZ100

48B3740A01

R-40A01

C828

CEXF1C101V C ELECTRO

CEXF1H100V C ELECTRO

CEXF1C471V C ELECTRO

D452

DIODE

1/4 1K OHM J

C411

C420

C421

C501

C502

C503

C504

C506

CMYN1J105K C MYLAR (MKT)

CEXF1C470V C ELECTRO

CEXF2E330V C ELECTRO

CEXF1H478V C ELECTRO

CEXF1H109V C ELECTRO

CEXF1C470V C ELECTRO

CEXD1H229F C ELECTRO

(6.3X11) TP

D501~7

D508

DIODE ZENER

DIODE

1/4 100 OHM J

ZZ110

100

PTACPWA627 ACCESSORY AS

DTP-14C5TF

R03/NN

C829

C830

50V RSS 10MF (5X11) TP

16V RSS 470MF

LF-24A3

1/2 1K OHM J

4850Q00910

4858213800

BATTERY

D509

DIODE

COIL BEAD

HC-3550

1/4 510 OHM J

M821

ZZ120

M211

M541

ZZ130

M801

M811

BAG INSTRUCTION L.D.P.E T0.05X250X400

(10X12.5)TP

D510

DIODE ZENER

DIODE

COIL BEAD

HC-3550

1/4 3.6K OHM J

PTBCSHA627 COVER BACK AS

DTP-14C5TF

HIPS BK

C841

CCXF1H103Z C CERA

50V F 0.01MF Z (TAPPING)

1KV B 1000PF K (TAPPING)

16V RSS 47MF (5X11) TP

250V MEU 0.1MF K

D512~4

D602

COIL CHOKE

COIL PEAKING

TIE CABLE

L-45

1/4 1K OHM J

4852151401

4855415800

PTPKCPA627

4858038700

4858189600

COVER BACK

SPEC PLATE

PACKING AS

BOX CARTON

PAD

C842

CCXB3A102K C CERA

DIODE ZENER

DIODE

39UH 10.5MM K (LAL04TB)

NYLON66 DA100

SPTH-C T0.25

YFW500-05

1/4 3.3K OHM J

150ART P/E FILM (C/TV)

DTP-14C5TF

SW-2 DTQ-1463FW

EPS 14V5

C850

CEXF1C470V C ELECTRO

CMXL2E104K C MYLAR

D610

1/4 10K OHM J

C902

D620

DIODE

SHIELD CASE

CONN WAFER

1/4 220K OHM J

C905

CMXL2E104K C MYLAR

250V MEU 0.1MF K

C507

CEXF1C101V C ELECTRO

D701

DIODE ZENER

1/4 47K OHM J

(6.3X11) TP

C906

CBXB3D102K C CERA SEMI

HCFK104ZCA C CHIP CERA

HCQK101JCA C CHIP CERA

HCQK102JCA C CHIP CERA

HCFK104ZCA C CHIP CERA

HCBK104KCA C CHIP CERA

HCQK160JCA C CHIP CERA

HCQK101JCA C CHIP CERA

HCFK103ZCA C CHIP CERA

HCFK104ZCA C CHIP CERA

HCBK222KCA C CHIP CERA

HCQK102JCA C CHIP CERA

HCBK472KCA C CHIP CERA

2KV BL(N) 1000PF K (T)

50V Y5V 0.1MF Z 2012

50V CH 100PF J 2012

50V CH 1000PF J 2012

50V Y5V 0.1MF Z 2012

50V X7R 0.1MF K 2012

50V CH 16PF J 2012

50V CH 100PF J 2012

50V Y5V 0.01MF Z 2012

50V Y5V 0.1MF Z 2012

50V X7R 2200PF K 2012

50V CH 1000PF J 2012

50V X7R 4700PF K 2012

50V Y5V 0.1MF Z 2012

50V X7R 2200PF K 2012

50V Y5V 0.33MF Z 2012

50V Y5V 0.1MF Z 2012

50V X7R 4700PF K 2012

50V CH 1000PF J 2012

50V X7R 0.022MF K 2012

50V Y5V 0.1MF Z 2012

50V CH 30PF J 2012

50V CH 1000PF J 2012

50V CH 470PF J 2012

50V CH 180PF J 2012

50V Y5V 0.1MF Z 2012

50V Y5V 0.01MF Z 2012

50V Y5V 0.1MF Z 2012

50V CH 82PF J 2012

50V X7R 4700PF K 2012

50V CH 82PF J 2012

50V X7R 4700PF K 2012

50V CH 22PF J 2012

50V X7R 2200PF K 2012

50V CH 1000PF J 2012

50V CH 22PF J 2012

50V Y5V 0.1MF Z 2012

1N4148 (TAPPING)

AWG22 1/0.65 TIN

COATING

YW025-03 (STICK)

MKS2822-6-10-202

YFW800-02

DEC140M290 POSISTOR

ECPCC140M290

L.D.P.E

C511

C512

C513~7

C520

C522

C523

C524

CEXF1C470V C ELECTRO

CEXF1H109V C ELECTRO

CEXF1H100V C ELECTRO

CEXF1C470V C ELECTRO

CEXF1H109V C ELECTRO

16V RSS 47MF (5X11) TP

50V RSS 1MF (5X11) TP

50V RSS 10MF (5X11) TP

16V RSS 47MF (5X11) TP

50V RSS 1MF (5X11) TP

16V RSS 100MF

CC102

CC103

CC104

CC105

CC108

CC109

CC118

CC412

CC501

CC502

CC504

CC505

CC506

CC508

D704

85801065GY

WIRE COPPER

M821

4858210600

BAG P.E

RX07C339JF

RD-4Z514J-

R CEMENT

7W 3.3 OHM J 15MM 4P

1/4 510K OHM J

T0.03X1000X900

D706

D720

D806

D808,10,

DLH2PR----

D1N4148---

DRGP30J---

LED BLOCK

DIODE

LH-2P-R

R CARBON FILM

ZZ131

ZZ132

ZZ140

CRT1

V01

48519A4710

58G0000084

CRT GROUND NET 1401S-1015-1P

COIL DEGAUSSING DC-1450

1N4148 (TAPPING)

RGP30J

YBNH250-

1/4 510K OHM J

P901

4850709N02

CONNECTOR

DIODE

09YBNT025+ULW=300

6-L0+H03VVH2=2200

KTC3198Y

AWG22 1/0.65 TIN

COATING

PTCACAA627 CABINET AS

PTRTPWA605 CRT AS

DTP-14C5TF

R805

85801065GY

WIRE COPPER

PA801

Q105

Q401

Q402

Q501

Q502

Q503

Q505

Q506

Q601

Q620

Q701

Q702

Q703

Q704

Q705

Q710

Q801

Q801A

Q801B

Q802

R101

R109

R110

R111

R120

R301

R302

R303

R307

R308

R309

R310

R402

R403

R406

R407

R408

R409

R410

4859906210

TKTC3198Y-

TKTC3207--

T2SD2499--

TKTC3198Y-

TKTA1266Y-

TKTC3198Y-

TKTA1266Y-

TKTC3198Y-

CORD POWER AS

PAL 14" ITC CRT AS

ODY-M1489

D1N4936GP-

DIODE

1N4936GP (TAPPING)

R806

RD-4Z363J-

R CARBON FILM

R M-OXIDE FILM

R CARBON FILM

R CARBON COMP

R M-OXIDE FILM

R CARBON FILM

R METAL FILM

R CARBON COMP

R METAL FILM

R CARBON FILM

R CHIP

1/4 36K OHM J

58D0000082

48A96R004-

4850PM001-

2TC26019BE

2224050026

2233030001

48A96414P4

4851937902

4853214800

4854942103

4855621401

4856812001

7178301011

PTFMSJA627

4852069901

COIL DY

D816

D820

D835

D837~40

DUZ3R9B---

D1N4148---

DR2M------

DLT2A05G--

DIODE ZENER

DIODE

UZ-3.9B

KTC3207 (TP)

2SD2499

R808

RS02Z828JS

RD-4Z103J-

2W 0.82 OHM J SMALL

1/4 10K OHM J

V02

RUBBER WEDGE

MAGNET CP

TAPE CLOTH

BOND SILICON

PAINT LOCK

CRT BARE

HMR 28 SR (|0X54)

NY-225 (MINI NECK)

19X30 BEIGE

C601

C602

C606

CEXF1C101V C ELECTRO

CEXF1H108A C ELECTRO

CEXF1C101V C ELECTRO

1N4148 (TAPPING)

R2M

R809

V03

(6.3X11) TP

DIODE ZENER

DIODE

KTC3198Y

R810

RD-4Z333J-

1/4 33K OHM J

V04

50V RSM 0.1MF 4X7

16V RSS 100MF

LT2A05G (TP)

KTC3198Y

R812

RC-2Z825KP

RS02Z278JS

RD-4Z101J-

1/2 8.2M OHM K

V05

RTV 122 CARTRIDGE

3B-1401B

SEMKO F4AH 4A 250V

MF51

KTA1266Y (TP)

KTC3198Y

R819

2W 0.27 OHM J SMALL

1/4 100 OHM J

V06

(6.3X11) TP

F801

5FSCB4022R

FUSE CERA

R823

V901

M193

M321

M491B

M561

M681

SP01A

ZZ200

M201

ZZ210

A34JLL90X(K)

4942102+5537501

FR HIPS BK

C611

C620

C702

C703

CEXF1C470V C ELECTRO

CEXF1H100V C ELECTRO

CEXF1H109V C ELECTRO

CEXF1C470V C ELECTRO

16V RSS 47MF (5X11) TP

50V RSS 10MF (5X11) TP

50V RSS 1MF (5X11) TP

16V RSS 47MF (5X11) TP

16V RSS 1000MF

F801A

F801B

I301

4857415001

CLIP FUSE

PFC5000-0702

1TDA1771-- + 7174301011

TDA1771

R824

RD-4Z101J-

1/4 100 OHM J

BUTTON CTRL

BRKT

KTC3198Y

R834

RD-4Z392J-

1/4 3.9K OHM J

CC509~12 HCFK104ZCA C CHIP CERA

PTA2SW7104 HEAT SINK ASS`Y

KTA1266Y (TP)

KTC3198Y

R850

RN02B180JS

RC-2Z335KP

RN01B124JS

RD-2Z152J-

2W 18 OHM J SMALL

1/2 3.3M OHM K

BUTTON

ABS BK

CC515~7

CC518

CC519

CC520

CC521

CC522~4

CC526

CC533

CC534

CC535

CC536

CC602~4

CC605

CC606

CC610

CC612

CC613

CC701

CC702

CC705

CC707

CC708

CC709

CC713

CC722

CC723

CC801

CC830

D101

HCFK104ZCA C CHIP CERA

HCBK222KCA C CHIP CERA

HCFK334ZCA C CHIP CERA

HCFK104ZCA C CHIP CERA

HCBK472KCA C CHIP CERA

HCQK102JCA C CHIP CERA

HCBK223KCA C CHIP CERA

HCFK104ZCA C CHIP CERA

HCQK300JCA C CHIP CERA

HCQK102JCA C CHIP CERA

HCQK471JCA C CHIP CERA

HCQK181JCA C CHIP CERA

HCFK104ZCA C CHIP CERA

HCFK103ZCA C CHIP CERA

HCFK104ZCA C CHIP CERA

HCQK820JCA C CHIP CERA

HCBK472KCA C CHIP CERA

HCQK820JCA C CHIP CERA

HCBK472KCA C CHIP CERA

HCQK220JCA C CHIP CERA

HCBK222KCA C CHIP CERA

HCQK102JCA C CHIP CERA

HCQK220JCA C CHIP CERA

HCFK104ZCA C CHIP CERA

I301

1TDA1771--

4857027104

7174301011

IC VERTICAL

HEAT SINK

R890

MARK BRAND

TIE CABLE

ABS BK

C704

C706

C801

CEXF1C102V C ELECTRO

CEXF1H478V C ELECTRO

I301A

I301B

I501

SPCC T1.0+SN

TT2 RND 3X10 MFZN

STV2238D

R901~3

R910~2

RC106

RC107

RC111

RC114

RC115

RC301

RC302

RC303

RC304

RC306

RC307

RC308

RC309

RC310

RC313

RC404

RC405

RC408

RC419

RC420

RC501

RC503~5

RC506

RC507

RC508

RC509

RC510

1W 120K OHM J SMALL

1/2 1.5K OHM J

NYLON66 DA100

TT2 WAS 3X10 MFZN

DTP-14C5TF

(10X20) TP

SCREW TAPPTITE

KTC3198Y

SCREW TAPPTITE

MASK FRONT AS

MASK FRONT

50V RSS 0.47MF (5X11) TP

AC250V 0.47MF U/C/

SNDF/SV

1STV2238DQ IC CHIP VIDEO

1TDA7267A- IC AMP

1DW195DE1Q IC MICOM

KTC3198Y

HRFT682JCA

HRFT473JCA

HRFT511JCA

HRFT432JCA

HRFT102JCA

HRFT361JCA

HRFT202JCA

HRFT562JCA

HRFT272JCA

HRFT472JCA

HRFT562JCA

HRFT332JCA

HRFT154JCA

HRFT103JCA

HRFT224JCA

HRFT561JCA

HRFT362JCA

HRFT103JCA

HRFT152JCA

HRFT394JCA

HRFT750JCA

HRFT101JCA

HRFT103JCA

HRFT102JCA

1/10 6.8K OHM J 2012

1/10 47K OHM J 2012

1/10 510 OHM J 2012

1/10 4.3K OHM J 2012

1/10 1K OHM J 2012

1/10 360 OHM J 2012

1/10 2K OHM J 2012

1/10 5.6K OHM J 2012

1/10 2.7K OHM J 2012

1/10 4.7K OHM J 2012

1/10 5.6K OHM J 2012

1/10 3.3K OHM J 2012

1/10 150K OHM J 2012

1/10 10K OHM J 2012

1/10 220K OHM J 2012

1/10 560 OHM J 2012

1/10 3.6K OHM J 2012

1/10 10K OHM J 2012

1/10 1.5K OHM J 2012

1/10 390K OHM J 2012

1/10 75 OHM J 2012

1/10 100 OHM J 2012

1/10 10K OHM J 2012

1/10 1K OHM J 2012

CL1JB3474K

C LINE ACROSS

I601

TDA7267A

KTC3198Y

R CHIP

HIPS BK

I701

DW92195B7T-DE1(ERP)

AT24C16-10PC

KA7805

KTC3198Y

R CHIP

PTSPPWA627 SPEAKER AS

DTP-14C5TF

C803

C804

C805

C807

C809

C812

CCXF3A472Z

C CERA

1KV F 4700PF Z (T)

400V LHS 180MF (25X35)

1.6KV BCP 2200PF J

4.0KV 1000PF E DG

1KV R 470PF K 125

DE0705

I702

1AT24C16PC

1KA7805---

1KRT30----

PTR2SW4500 HEAT SINK ASS`Y

T2SK2671-- + 7174300811

2SK2671

R CHIP

YH025-

P601A

SP01

4850703S50

4858314010

PTMPMSA627

CONNECTOR

I703

IC REGULATOR

IC PREAMP

MODULE POWER

T2SK2671--

4857024500

7174300811

TKSA1013Y-

RD-4Z242J-

RD-4Z183J-

RD-4Z102J-

RD-4Z101J-

RD-2Z249J-

RN02B229JS

RN02B271JS

RN02B181JS

RS02Z103JS

RS01Z439J-

RD-2Z472J-

RD-4Z102J-

RD-4Z561J-

RN01B132JS

FET

R CHIP

03+35098+ULW=200

SP-5070F01 3W 8 OHM

CEYN2G181P C ELECTRO

CMYU3C222J C MYLAR

CH1HFE102M C CERA AC

I704

KRT30

HEAT SINK

AL EX B/K

R CHIP

SPEAKER

PCB MAIN MANUAL

I802

4850M04710

DPM001T1A

SCREW TAPPTITE

TT2 RND 3X8 MFZN

KSA1013Y (TP)

1/4 2.4K OHM J

1/4 18K OHM J

1/4 1K OHM J

R CHIP

ZZ290

DTP-14C5TF

I805

PTA2SW6904 HEAT SINK ASS`Y

1STV8131-- + 7174301011

STV8131

R CHIP

I805

1STV8131--

4857026904

7174301011

IC REGULATOR

HEAT SINK

R CARBON FILM

R METAL FILM

R M-OXIDE FILM

R CARBON FILM

R METAL FILM

R CHIP

C101

C102

CEXF1H109V C ELECTRO

CEXF1H479V C ELECTRO

50V RSS 1MF (5X11) TP

50V RSS 4.7MF (5X11) TP

16V RSS 2200MF

(13X25) TP

C814

CCYR3A471K C CERA

I805A

I805B

I901

AL EX

R CHIP

SCREW TAPPTITE

TT2 RND 3X10 MFZN

1TDA6103Q- + 7174301011

TDA6103Q

R CHIP

160V RSS 100MF

C103

CEXF1C222V C ELECTRO

C815

C816

C818

CEXF2C101V C ELECTRO

CCXB3A471K C CERA

PTB3SW1100 HEAT SINK ASS`Y

1/4 100 OHM J

1/2 2.4 OHM J

2W 2.2 OHM J SMALL

2W 270 OHM J SMALL

2W 180 OHM J SMALL

2W 10K OHM J SMALL

1W 4.3 OHM J

1/2 4.7K OHM J

1/4 1K OHM J

R CHIP

(16X25) TP

I901

1TDA6103Q-

4857031100

7174301011

RD-4Z101J-

HRFT000-CA

IC VIDEO

R CHIP

35V RUS 470MF

1KV B 470PF K (T)

160V RUS 100MF

C301

C302

C303

CEXF1V471C C ELECTRO

CCXB3A471K C CERA

I901A

I901B

J046

JC001~6

JC008~9

HEAT SINK

SCREW TAPPTITE

R CARBON FILM

R CHIP

A1050P-H24 T2.0

TT2 RND 3X10 MFZN

1/4 100 OHM J

1/10 0 OHM 2012

PH-JB-9710A

R CHIP

(10X20) TP

CEXF2C101C C ELECTRO

R CHIP

1KV B 470PF K (T)

25V RUS 1000MF

(13X20) TP

(16X25) TP

R CHIP

100V RSS 10MF

CEXF1E102C C ELECTRO

C819

C820

C822

CEXF2A100V C ELECTRO

CEXF1E102V C ELECTRO

CEXF1C101V C ELECTRO

R CHIP

(6.3X11) TP

R CHIP

C304

C305

CEXF1H220V C ELECTRO

CMXE2A473J C MYLAR

50V RSS 22MF (5X11) TP

100V PU 0.047MF J

35V RUS 100MF

25V RSS 1000MF

JC011~20 HRFT000-CA

R CHIP

(13X20) TP

JC022

JC024~5

JS02

HRFT000-CA

4859109950

58N0000044

5CPZ100K04

5CPZ100K02

5CPZ109M02

R CHIP

16V RSS 100MF

C306

CEXF1V101C C ELECTRO

R CHIP

(8X11.5) TP

(6.3X11) TP

JACK PIN BOARD

COIL VCO

R CHIP

C307

C313

C401

C402

C404

CMXB1H224J C MYLAR

CEXF1H109V C ELECTRO

CMYE2D364J C MYLAR

CEXF2C109V C ELECTRO

CMYH3C692J C MYLAR

50V EU 0.22MF J (TP)

50V RSS 1MF (5X11) TP

200V PU 0.36MF J

160V RSS 1MF (6.3X11) TP

1.6KV BUP 6900PF J

500V B 1000PF K

(TAPPING)

C823

C824

C825

C826

CCXB3A471K C CERA

CEXF1H220V C ELECTRO

CEXF1H479V C ELECTRO

1KV B 470PF K (T)

50V RSS 22MF (5X11) TP

50V RSS 4.7MF (5X11) TP

16V RSS 2200MF

L101

TRF-V010

R CHIP

L301

COIL PEAKING

10UH 10.5MM K (LAL04TB)

10UH K (AXIAL 3.5MM)

1UH M (AXIAL 3.5MM)

R CHIP

L511

1/4 1K OHM J

R CHIP

D1N4148---

D1SS85TA--

DUZ33B----

D1N4148---

DIODE

L601

1/4 560 OHM J

1W 1.3K OHM J SMALL

R CHIP

D103

DIODE

1SS85TA

C827

CEXF1C222V C ELECTRO

L602

R CHIP

(13X25) TP

D105

DIODE ZENER

DIODE

UZ-33B

C406

CCXB2H102K C CERA

D106

1N4148 (TAPPING)

LOC

PART CODE

PART NAME

R CHIP

PART DESCRIPTION

LOC

PART CODE

PART NAME

R CHIP

PART DESCRIPTION

RC511

RC512

RC513

RC514

RC515

RC516

RC517

RC518

RC519

RC520

RC521

RC522

RC523

RC524

RC525

RC526

RC527

RC528

HRFT470JCA

HRFT223JCA

HRFT103JCA

HRFT151JCA

HRFT000-CA

HRFT102JCA

HRFT101JCA

HRFT103JCA

HRFT363JCA

HRFT222JCA

HRFT822JCA

HRFT103JCA

HRFT153JCA

HRFT273JCA

HRFT473JCA

HRFT221JCA

1/10 47 OHM J 2012

1/10 22K OHM J 2012

1/10 10K OHM J 2012

1/10 150 OHM J 2012

1/10 0 OHM 2012

RC726

RC727

RC729

RC730

RC731

RC732

RC733

RC736

RC738

RC751

RC752

RC754

RC755

RC822

RC828

RC829

RC901

RC902

RC903

RC904

RC905~7

RLY1

HRFT103JCA

HRFT101JCA

HRFT332JCA

HRFT100JCA

HRFT000-CA

HRFT101JCA

HRFT102JCA

HRFT101JCA

HRFT103JCA

HRFT682JCA

HRFT333JCA

HRFT473JCA

HRFT134JCA

HRFT102JCA

HRFT272JCA

HRFT302JCA

HRFT272JCA

5SC0101338

4859303430

5PG3962M--

5PK9650M--

4859200401

5S50101090

5S40101146

50D10A3---

1/10 10K OHM J 2012

1/10 100 OHM J 2012

1/10 3.3K OHM J 2012

1/10 10 OHM J 2012

1/10 0 OHM 2012

1/10 100 OHM J 2012

1/10 1K OHM J 2012

1/10 100 OHM J 2012

1/10 10K OHM J 2012

1/10 6.8K OHM J 2012

1/10 33K OHM J 2012

1/10 47K OHM J 2012

1/10 130K OHM J 2012

1/10 1K OHM J 2012

1/10 2.7K OHM J 2012

1/10 3K OHM J 2012

1/10 2.7K OHM J 2012

DQ5D1-O(M)/GJ-SS-105LM

PCS633A

R CHIP

1/10 1K OHM J 2012

1/10 100 OHM J 2012

1/10 10K OHM J 2012

1/10 36K OHM J 2012

1/10 2.2K OHM J 2012

1/10 8.2K OHM J 2012

1/10 10K OHM J 2012

1/10 15K OHM J 2012

1/10 27K OHM J 2012

1/10 47K OHM J 2012

1/10 220 OHM J 2012

1/10 270 OHM J 2012

1/10 27K OHM J 2012

1/10 330K OHM J 2012

1/10 180K OHM J 2012

1/10 10K OHM J 2012

1/10 22K OHM J 2012

1/10 1.2K OHM J 2012

1/10 2.2K OHM J 2012

1/10 1K OHM J 2012

1/10 100 OHM J 2012

1/10 4.7K OHM J 2012

1/10 15K OHM J 2012

1/10 1K OHM J 2012

1/10 1.5K OHM J 2012

1/10 100 OHM J 2012

1/10 100K OHM J 2012

1/10 5.1K OHM J 2012

1/10 1K OHM J 2012

1/10 5.6K OHM J 2012

1/10 15K OHM J 2012

1/10 5.6K OHM J 2012

1/10 100 OHM J 2012

1/10 1K OHM J 2012

1/10 2.2K OHM J 2012

1/10 100 OHM J 2012

1/10 1K OHM J 2012

1/10 1.5K OHM J 2012

1/10 3.9K OHM J 2012

1/10 15K OHM J 2012

1/10 3.3K OHM J 2012

1/10 270 OHM J 2012

1/10 1K OHM J 2012

1/10 3.3K OHM J 2012

1/10 620K OHM J 2012

1/10 470 OHM J 2012

R CHIP

RC529~31 HRFT271JCA

R CHIP

RC532

RC534

RC535

RC537

RC538

RC539

RC541~3

RC553

RC555

RC560

RC605

RC606

RC610

RC611

RC620

RC621

RC623

RC630

RC702

RC703

RC704

RC705

RC706

RC707

RC708

RC709

RC710

RC711

RC712

RC713

RC714

RC715

RC716

RC717

RC719

RC720

RC721

RC722

RC723

RC725

HRFT273JCA

HRFT334JCA

HRFT184JCA

HRFT103JCA

HRFT223JCA

HRFT122JCA

HRFT222JCA

HRFT102JCA

HRFT101JCA

HRFT472JCA

HRFT153JCA

HRFT102JCA

HRFT152JCA

HRFT101JCA

HRFT104JCA

HRFT512JCA

HRFT102JCA

HRFT562JCA

HRFT153JCA

HRFT562JCA

HRFT101JCA

HRFT102JCA

HRFT222JCA

HRFT101JCA

HRFT102JCA

HRFT152JCA

HRFT392JCA

HRFT153JCA

HRFT332JCA

HRFT271JCA

HRFT102JCA

HRFT332JCA

HRFT624JCA

HRFT471JCA

R CHIP

SW RELAY

SOCKET CRT

FILTER SAW

SOCKET RGB

SW TACT

SW POWER PUSH

TRANS DRIVE

FBT

SCT1

SF101

SF102

SJ01

G 3962-M

K9650M

YRS21-R1

SW701

SW702

SW703

SW704

SW705

SW801

T401

SKHV17910A

SS-160-7-B

TD-10A3

T402

50H0000202

50M4042A5-

4859719930

FUY20C001

T801

TRANS SMPS

TSM-4042A5

U101

TUNER VARACTOR DT5-BF18D

GROUND TUNER

DS-W1015-S

W101

X501

4851900130

5XEX4R433B

5XEX3R579B

HC-49U 4.43361M 15PPM

CRYSTAL QUARTZ

HC-49U 3.57954M 15PPM

X502

X701

5XEX4R000C CRYSTAL QUARTZ HC-49U 4.0000MHZ (TP)

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